--- /dev/null
+obj-y += mali/ ump/
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump.h
+ *
+ * This file contains the user space part of the UMP API.
+ */
+
+#ifndef _UNIFIED_MEMORY_PROVIDER_H_
+#define _UNIFIED_MEMORY_PROVIDER_H_
+
+
+/** @defgroup ump_user_space_api UMP User Space API
+ * @{ */
+
+
+#include "ump_platform.h"
+
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+
+/**
+ * External representation of a UMP handle in user space.
+ */
+typedef void *ump_handle;
+
+/**
+ * Typedef for a secure ID, a system wide identificator for UMP memory buffers.
+ */
+typedef unsigned int ump_secure_id;
+
+/**
+ * Value to indicate an invalid UMP memory handle.
+ */
+#define UMP_INVALID_MEMORY_HANDLE ((ump_handle)0)
+
+/**
+ * Value to indicate an invalid secure Id.
+ */
+#define UMP_INVALID_SECURE_ID ((ump_secure_id)-1)
+
+/**
+ * UMP error codes for user space.
+ */
+typedef enum
+{
+ UMP_OK = 0, /**< indicates success */
+ UMP_ERROR, /**< indicates failure */
+} ump_result;
+
+
+/**
+ * Opens and initializes the UMP library.
+ *
+ * This function must be called at least once before calling any other UMP API functions.
+ * Each open is reference counted and must be matched with a call to @ref ump_close "ump_close".
+ *
+ * @see ump_close
+ *
+ * @return UMP_OK indicates success, UMP_ERROR indicates failure.
+ */
+UMP_API_EXPORT ump_result ump_open(void);
+
+
+/**
+ * Terminate the UMP library.
+ *
+ * This must be called once for every successful @ref ump_open "ump_open". The UMP library is
+ * terminated when, and only when, the last open reference to the UMP interface is closed.
+ *
+ * @see ump_open
+ */
+UMP_API_EXPORT void ump_close(void);
+
+
+/**
+ * Retrieves the secure ID for the specified UMP memory.
+ *
+ * This identificator is unique across the entire system, and uniquely identifies
+ * the specified UMP memory. This identificator can later be used through the
+ * @ref ump_handle_create_from_secure_id "ump_handle_create_from_secure_id" or
+ * @ref ump_dd_handle_create_from_secure_id "ump_dd_handle_create_from_secure_id"
+ * functions in order to access this UMP memory, for instance from another process.
+ *
+ * @note There is a kernel space equivalent function called @ref ump_dd_secure_id_get "ump_dd_secure_id_get"
+ *
+ * @see ump_handle_create_from_secure_id
+ * @see ump_dd_handle_create_from_secure_id
+ * @see ump_dd_secure_id_get
+ *
+ * @param mem Handle to UMP memory.
+ *
+ * @return Returns the secure ID for the specified UMP memory.
+ */
+UMP_API_EXPORT ump_secure_id ump_secure_id_get(ump_handle mem);
+
+
+/**
+ * Retrieves a handle to allocated UMP memory.
+ *
+ * The usage of UMP memory is reference counted, so this will increment the reference
+ * count by one for the specified UMP memory.
+ * Use @ref ump_reference_release "ump_reference_release" when there is no longer any
+ * use for the retrieved handle.
+ *
+ * @note There is a kernel space equivalent function called @ref ump_dd_handle_create_from_secure_id "ump_dd_handle_create_from_secure_id"
+ *
+ * @see ump_reference_release
+ * @see ump_dd_handle_create_from_secure_id
+ *
+ * @param secure_id The secure ID of the UMP memory to open, that can be retrieved using the @ref ump_secure_id_get "ump_secure_id_get " function.
+ *
+ * @return UMP_INVALID_MEMORY_HANDLE indicates failure, otherwise a valid handle is returned.
+ */
+UMP_API_EXPORT ump_handle ump_handle_create_from_secure_id(ump_secure_id secure_id);
+
+
+/**
+ * Retrieves the actual size of the specified UMP memory.
+ *
+ * The size is reported in bytes, and is typically page aligned.
+ *
+ * @note There is a kernel space equivalent function called @ref ump_dd_size_get "ump_dd_size_get"
+ *
+ * @see ump_dd_size_get
+ *
+ * @param mem Handle to UMP memory.
+ *
+ * @return Returns the allocated size of the specified UMP memory, in bytes.
+ */
+UMP_API_EXPORT unsigned long ump_size_get(ump_handle mem);
+
+
+/**
+ * Read from specified UMP memory.
+ *
+ * Another way of reading from (and writing to) UMP memory is to use the
+ * @ref ump_mapped_pointer_get "ump_mapped_pointer_get" to retrieve
+ * a CPU mapped pointer to the memory.
+ *
+ * @see ump_mapped_pointer_get
+ *
+ * @param dst Destination buffer.
+ * @param src Handle to UMP memory to read from.
+ * @param offset Where to start reading, given in bytes.
+ * @param length How much to read, given in bytes.
+ */
+UMP_API_EXPORT void ump_read(void *dst, ump_handle src, unsigned long offset, unsigned long length);
+
+
+/**
+ * Write to specified UMP memory.
+ *
+ * Another way of writing to (and reading from) UMP memory is to use the
+ * @ref ump_mapped_pointer_get "ump_mapped_pointer_get" to retrieve
+ * a CPU mapped pointer to the memory.
+ *
+ * @see ump_mapped_pointer_get
+ *
+ * @param dst Handle to UMP memory to write to.
+ * @param offset Where to start writing, given in bytes.
+ * @param src Buffer to read from.
+ * @param length How much to write, given in bytes.
+ */
+UMP_API_EXPORT void ump_write(ump_handle dst, unsigned long offset, const void *src, unsigned long length);
+
+
+/**
+ * Retrieves a memory mapped pointer to the specified UMP memory.
+ *
+ * This function retrieves a memory mapped pointer to the specified UMP memory,
+ * that can be used by the CPU. Every successful call to
+ * @ref ump_mapped_pointer_get "ump_mapped_pointer_get" is reference counted,
+ * and must therefore be followed by a call to
+ * @ref ump_mapped_pointer_release "ump_mapped_pointer_release " when the
+ * memory mapping is no longer needed.
+ *
+ * @note Systems without a MMU for the CPU only return the physical address, because no mapping is required.
+ *
+ * @see ump_mapped_pointer_release
+ *
+ * @param mem Handle to UMP memory.
+ *
+ * @return NULL indicates failure, otherwise a CPU mapped pointer is returned.
+ */
+UMP_API_EXPORT void *ump_mapped_pointer_get(ump_handle mem);
+
+
+/**
+ * Releases a previously mapped pointer to the specified UMP memory.
+ *
+ * The CPU mapping of the specified UMP memory memory is reference counted,
+ * so every call to @ref ump_mapped_pointer_get "ump_mapped_pointer_get" must
+ * be matched with a call to this function when the mapping is no longer needed.
+ *
+ * The CPU mapping is not removed before all references to the mapping is released.
+ *
+ * @note Systems without a MMU must still implement this function, even though no unmapping should be needed.
+ *
+ * @param mem Handle to UMP memory.
+ */
+UMP_API_EXPORT void ump_mapped_pointer_release(ump_handle mem);
+
+
+/**
+ * Adds an extra reference to the specified UMP memory.
+ *
+ * This function adds an extra reference to the specified UMP memory. This function should
+ * be used every time a UMP memory handle is duplicated, that is, assigned to another ump_handle
+ * variable. The function @ref ump_reference_release "ump_reference_release" must then be used
+ * to release each copy of the UMP memory handle.
+ *
+ * @note You are not required to call @ref ump_reference_add "ump_reference_add"
+ * for UMP handles returned from
+ * @ref ump_handle_create_from_secure_id "ump_handle_create_from_secure_id",
+ * because these handles are already reference counted by this function.
+ *
+ * @note There is a kernel space equivalent function called @ref ump_dd_reference_add "ump_dd_reference_add"
+ *
+ * @see ump_dd_reference_add
+ *
+ * @param mem Handle to UMP memory.
+ */
+UMP_API_EXPORT void ump_reference_add(ump_handle mem);
+
+
+/**
+ * Releases a reference from the specified UMP memory.
+ *
+ * This function should be called once for every reference to the UMP memory handle.
+ * When the last reference is released, all resources associated with this UMP memory
+ * handle are freed.
+ *
+ * @note There is a kernel space equivalent function called @ref ump_dd_reference_release "ump_dd_reference_release"
+ *
+ * @see ump_dd_reference_release
+ *
+ * @param mem Handle to UMP memory.
+ */
+UMP_API_EXPORT void ump_reference_release(ump_handle mem);
+
+
+#ifdef __cplusplus
+}
+#endif
+
+
+/** @} */ /* end group ump_user_space_api */
+
+
+#endif /*_UNIFIED_MEMORY_PROVIDER_H_ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2005-2011, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_debug.h
+ *
+ * The file include several useful macros for debugging and printing.
+ * - UMP_PRINTF(...) Do not use this function: Will be included in Release builds.
+ * - UMP_DEBUG_TRACE() Prints current location in code.
+ * - UMP_DEBUG_PRINT(nr, (X) ) Prints the second argument if nr<=UMP_DEBUG_LEVEL.
+ * - UMP_DEBUG_TPRINT(nr, X ) Prints the source trace and second argument if nr<=UMP_DEBUG_LEVEL.
+ * - UMP_DEBUG_ERROR( (X) ) Prints an errortext, a source trace, and the given error message.
+ * - UMP_DEBUG_ASSERT(exp,(X)) If the asserted expr is false, the program will exit.
+ * - UMP_DEBUG_ASSERT_RANGE(x, min, max) Triggers if variable x is not between or equal to max and min.
+ * - UMP_DEBUG_ASSERT_LEQ(x, max) Triggers if variable x is not less than equal to max.
+ * - UMP_DEBUG_ASSERT_POINTER(pointer) Triggers if the pointer is a zero pointer.
+ * - UMP_DEBUG_CODE( X ) The code inside the macro is only copiled in Debug builds.
+ *
+ * The (X) means that you must add an extra parantese around the argumentlist.
+ *
+ * The printf function: UMP_PRINTF(...) is routed to _ump_sys_printf
+ *
+ * Suggested range for the DEBUG-LEVEL is [1:6] where
+ * [1:2] Is messages with highest priority, indicate possible errors.
+ * [3:4] Is messages with medium priority, output important variables.
+ * [5:6] Is messages with low priority, used during extensive debugging.
+ *
+ */
+#ifndef _UMP_DEBUG_H_
+#define _UMP_DEBUG_H_
+
+#include <stdio.h>
+#include <stdlib.h>
+
+/* START: Configuration */
+#ifndef UMP_PRINTF
+#define UMP_PRINTF printf
+#endif /* UMP_PRINTF */
+
+#ifndef UMP_PRINT_FLUSH
+#define UMP_PRINT_FLUSH do {} while (0)
+#endif /* UMP_PRINT_FLUSH */
+
+#ifndef UMP_DEBUG_LEVEL
+#define UMP_DEBUG_LEVEL 1
+#endif /* UMP_DEBUG_LEVEL */
+
+#ifndef UMP_DEBUG_ERROR_START_MSG
+#define UMP_DEBUG_ERROR_START_MSG do {\
+ UMP_PRINTF("*********************************************************************\n");\
+ UMP_PRINT_FLUSH; } while (0)
+#endif /* UMP_DEBUG_ERROR_START_MSG */
+
+#ifndef UMP_DEBUG_ERROR_STOP_MSG
+#define UMP_DEBUG_ERROR_STOP_MSG do { UMP_PRINTF("\n"); UMP_PRINT_FLUSH; } while (0)
+#endif /* UMP_DEBUG_ERROR_STOP_MSG */
+
+#ifndef UMP_ASSERT_QUIT_CMD
+#define UMP_ASSERT_QUIT_CMD abort()
+#endif /* UMP_ASSERT_QUIT_CMD */
+/* STOP: Configuration */
+
+/**
+ * The macro UMP_FUNCTION evaluates to the name of the function enclosing
+ * this macro's usage, or "<unknown>" if not supported.
+ */
+#if (defined(__SYMBIAN32__) && defined(__ARMCC__)) || defined(_MSC_VER)
+# define UMP_FUNCTION __FUNCTION__
+#elif __STDC__ && __STDC_VERSION__ >= 199901L
+# define UMP_FUNCTION __FUNCTION__
+#elif defined(__GNUC__) && __GNUC__ >= 2
+# define UMP_FUNCTION __FUNCTION__
+#elif defined(__func__)
+# define UMP_FUNCTION __func__
+#else
+# define UMP_FUNCTION "<unknown>"
+#endif
+
+/**
+ * Explicitly ignore a parameter passed into a function, to suppress compiler warnings.
+ * Should only be used with parameter names.
+ */
+#define UMP_IGNORE(x) (void)x
+
+/**
+ * @def UMP_DEBUG_TRACE()
+ * @brief Prints current location in code.
+ * Can be turned off by defining UMP_DEBUG_SKIP_TRACE
+ */
+
+#ifndef UMP_DEBUG_SKIP_TRACE
+#ifndef UMP_DEBUG_SKIP_PRINT_FUNCTION_NAME
+#define UMP_DEBUG_TRACE() do { UMP_PRINTF( "In file: "__FILE__ \
+ " function: %s() line:%4d\n" , UMP_FUNCTION, __LINE__); UMP_PRINT_FLUSH; } while (0)
+#else
+#define UMP_DEBUG_TRACE() do { UMP_PRINTF( "In file: "__FILE__ " line:%4d\n" , __LINE__); UMP_PRINT_FLUSH; } while (0)
+#endif /* UMP_DEBUG_SKIP_PRINT_FUNCTION_NAME */
+#else
+#define UMP_DEBUG_TRACE()
+#endif /* UMP_DEBUG_SKIP_TRACE */
+
+/**
+ * @def UMP_DEBUG_PRINT(nr, (X) )
+ * @brief Prints the second argument if nr<=UMP_DEBUG_LEVEL.
+ * Can be turned off by defining UMP_DEBUG_SKIP_PRINT
+ * @param nr If nr <= UMP_DEBUG_LEVEL, we print the text.
+ * @param X A parantese with the contents to be sent to UMP_PRINTF
+ */
+#ifndef UMP_DEBUG_SKIP_PRINT
+#define UMP_DEBUG_PRINT(nr, X ) do { if ( nr<=UMP_DEBUG_LEVEL ) { UMP_PRINTF X ; UMP_PRINT_FLUSH; } } while (0)
+#else
+#define UMP_DEBUG_PRINT(nr, X )
+#endif /* UMP_DEBUG_SKIP_PRINT */
+
+/**
+ * @def UMP_DEBUG_TPRINT(nr, (X) )
+ * @brief Prints the second argument if nr<=UMP_DEBUG_LEVEL.
+ * Can be turned off by defining UMP_DEBUG_SKIP_TPRINT.
+ * Can be shortened by defining UMP_DEBUG_TPRINT_SKIP_FUNCTION.
+ * @param nr If nr <= UMP_DEBUG_LEVEL, we print the text.
+ * @param X A parantese with the contents to be sent to UMP_PRINTF
+ */
+
+/* helper to handle if the function name should be included or not */
+#ifndef UMP_DEBUG_TPRINT_SKIP_FUNCTION
+#define UMP_DEBUG_TPRINT_INTERN do {UMP_PRINTF( ""__FILE__" %s()%4d " , UMP_FUNCTION, __LINE__); UMP_PRINT_FLUSH; } while (0)
+#else
+#define UMP_DEBUG_TPRINT_INTERN do {UMP_PRINTF( ""__FILE__ "%4d " , __LINE__); UMP_PRINT_FLUSH; } while (0)
+#endif /* UMP_DEBUG_TPRINT_SKIP_FUNCTION */
+
+#ifndef UMP_DEBUG_SKIP_TPRINT
+#define UMP_DEBUG_TPRINT(nr, X ) \
+ do{\
+ if ( nr<=UMP_DEBUG_LEVEL )\
+ {\
+ UMP_DEBUG_TPRINT_INTERN;\
+ UMP_PRINTF X ;\
+ UMP_PRINT_FLUSH;\
+ }\
+ } while (0)
+#else
+#define UMP_DEBUG_TPRINT(nr, X )
+#endif /* UMP_DEBUG_SKIP_TPRINT */
+
+/**
+ * @def UMP_DEBUG_ERROR( (X) )
+ * @brief Prints an errortext, a source Trace, and the given error message.
+ * Prints filename, function, linenr, and the given error message.
+ * The error message must be inside a second parantese.
+ * The error message is written on a separate line, and a NL char is added.
+ * Can be turned of by defining UMP_DEBUG_SKIP_ERROR;
+ * You do not need to type the words ERROR in the message, since it will
+ * be added anyway.
+ *
+ * @note You should not end the text with a newline, since it is added by the macro.
+ * @note You should not write "ERROR" in the text, since it is added by the macro.
+ * @param X A parantese with the contents to be sent to UMP_PRINTF
+ */
+
+#ifndef UMP_DEBUG_SKIP_ERROR
+#define UMP_DEBUG_ERROR( X ) \
+ do{ \
+ UMP_DEBUG_ERROR_START_MSG;\
+ UMP_PRINTF("ERROR: ");\
+ UMP_PRINT_FLUSH;\
+ UMP_DEBUG_TRACE(); \
+ UMP_PRINTF X ; \
+ UMP_PRINT_FLUSH;\
+ UMP_DEBUG_ERROR_STOP_MSG;\
+ } while (0)
+#else
+#define UMP_DEBUG_ERROR( X ) do{ ; } while ( 0 )
+#endif /* UMP_DEBUG_SKIP_ERROR */
+
+/**
+ * @def UMP_DEBUG_ASSERT(expr, (X) )
+ * @brief If the asserted expr is false, the program will exit.
+ * Prints filename, function, linenr, and the given error message.
+ * The error message must be inside a second parantese.
+ * The error message is written on a separate line, and a NL char is added.
+ * Can be turned of by defining UMP_DEBUG_SKIP_ERROR;
+ * You do not need to type the words ASSERT in the message, since it will
+ * be added anyway.
+ *
+ * @param X A parantese with the contents to be sent to UMP_PRINTF
+ * Prints filename, function, linenr, and the error message
+ * on a separte line. A newline char is added at the end.
+ * Can be turned of by defining UMP_DEBUG_SKIP_ASSERT
+ * @param expr Will exit program if \a expr is false;
+ * @param (X) Text that will be written if the assertion toggles.
+ */
+
+#ifndef UMP_DEBUG_SKIP_ASSERT
+#define UMP_DEBUG_ASSERT(expr, X ) \
+ do{\
+ if ( !(expr) ) \
+ { \
+ UMP_DEBUG_ERROR_START_MSG;\
+ UMP_PRINTF("ASSERT EXIT: ");\
+ UMP_PRINT_FLUSH;\
+ UMP_DEBUG_TRACE(); \
+ UMP_PRINTF X ; \
+ UMP_PRINT_FLUSH;\
+ UMP_DEBUG_ERROR_STOP_MSG;\
+ UMP_ASSERT_QUIT_CMD;\
+ }\
+ } while (0)
+#else
+#define UMP_DEBUG_ASSERT(expr, X)
+#endif /* UMP_DEBUG_SKIP_ASSERT */
+
+
+/**
+ * @def UMP_DEBUG_ASSERT_POINTER(pointer)
+ * @brief If the asserted pointer is NULL, the program terminates and TRACE info is printed
+ * The checking is disabled if "UMP_DEBUG_SKIP_ASSERT" is defined.
+ */
+#define UMP_DEBUG_ASSERT_POINTER(pointer) UMP_DEBUG_ASSERT(pointer, ("Null pointer " #pointer) )
+
+/**
+ * @def UMP_DEBUG_ASSERT_HANDLE(handle)
+ * @brief If the asserted handle is not a valid handle, the program terminates and TRACE info is printed
+ * The checking is disabled if "UMP_DEBUG_SKIP_ASSERT" is defined.
+ */
+#define UMP_DEBUG_ASSERT_HANDLE(handle) UMP_DEBUG_ASSERT(UMP_NO_HANDLE != (handle), ("Invalid handle" #handle) )
+
+/**
+ * @def UMP_DEBUG_ASSERT_ALIGNMENT(ptr, align)
+ * @brief If the asserted pointer is not aligned to align, the program terminates with trace info printed.
+ * The checking is disabled if "UMP_DEBUG_SKIP_ASSERT" is defined.
+ */
+#ifndef UMP_DEBUG_SKIP_ASSERT
+#define UMP_DEBUG_ASSERT_ALIGNMENT(ptr, align) do { \
+ UMP_DEBUG_ASSERT(0 == (align & (align - 1)), ("align %d is not a power-of-two", align)); \
+ UMP_DEBUG_ASSERT(0 == (((u32)(ptr)) & (align - 1)), ("ptr %p not aligned to %d bytes", (void*)ptr, align)); \
+ } while (0)
+#else
+#define UMP_DEBUG_ASSERT_ALIGNMENT(ptr, align)
+#endif /* UMP_DEBUG_SKIP_ASSERT */
+
+/**
+ * @def UMP_DEBUG_ASSERT_RANGE(x,min,max)
+ * @brief If variable x is not between or equal to max and min, the assertion triggers.
+ * The checking is disabled if "UMP_DEBUG_SKIP_ASSERT" is defined.
+ */
+#define UMP_DEBUG_ASSERT_RANGE(x, min, max) \
+ UMP_DEBUG_ASSERT( (x) >= (min) && (x) <= (max), \
+ (#x " out of range (%2.2f)", (double)x ) \
+ )
+
+/**
+ * @def UMP_DEBUG_ASSERT_LEQ(x,max)
+ * @brief If variable x is less than or equal to max, the assertion triggers.
+ * The checking is disabled if "UMP_DEBUG_SKIP_ASSERT" is defined.
+ */
+#define UMP_DEBUG_ASSERT_LEQ(x, max) \
+ UMP_DEBUG_ASSERT( (x) <= (max), \
+ (#x " out of range (%2.2f)", (double)x ) \
+ )
+
+/**
+ * @def UMP_DEBUG_CODE( X )
+ * @brief Run the code X on debug builds.
+ * The code will not be used if UMP_DEBUG_SKIP_CODE is defined .
+ *
+ */
+#ifdef UMP_DEBUG_SKIP_CODE
+#define UMP_DEBUG_CODE( X )
+#else
+#define UMP_DEBUG_CODE( X ) X
+#endif /* UMP_DEBUG_SKIP_CODE */
+
+#endif /* _UMP_DEBUG_H_ */
+
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2010, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_kernel_interface.h
+ *
+ * This file contains the kernel space part of the UMP API.
+ */
+
+#ifndef __UMP_KERNEL_INTERFACE_H__
+#define __UMP_KERNEL_INTERFACE_H__
+
+
+/** @defgroup ump_kernel_space_api UMP Kernel Space API
+ * @{ */
+
+
+#include "ump_kernel_platform.h"
+
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+
+/**
+ * External representation of a UMP handle in kernel space.
+ */
+typedef void *ump_dd_handle;
+
+/**
+ * Typedef for a secure ID, a system wide identificator for UMP memory buffers.
+ */
+typedef unsigned int ump_secure_id;
+
+
+/**
+ * Value to indicate an invalid UMP memory handle.
+ */
+#define UMP_DD_HANDLE_INVALID ((ump_dd_handle)0)
+
+
+/**
+ * Value to indicate an invalid secure Id.
+ */
+#define UMP_INVALID_SECURE_ID ((ump_secure_id)-1)
+
+
+/**
+ * UMP error codes for kernel space.
+ */
+typedef enum
+{
+ UMP_DD_SUCCESS, /**< indicates success */
+ UMP_DD_INVALID, /**< indicates failure */
+} ump_dd_status_code;
+
+
+/**
+ * Struct used to describe a physical block used by UMP memory
+ */
+typedef struct ump_dd_physical_block
+{
+ unsigned long addr; /**< The physical address of the block */
+ unsigned long size; /**< The length of the block, typically page aligned */
+} ump_dd_physical_block;
+
+
+/**
+ * Retrieves the secure ID for the specified UMP memory.
+ *
+ * This identificator is unique across the entire system, and uniquely identifies
+ * the specified UMP memory. This identificator can later be used through the
+ * @ref ump_dd_handle_create_from_secure_id "ump_dd_handle_create_from_secure_id" or
+ * @ref ump_handle_create_from_secure_id "ump_handle_create_from_secure_id"
+ * functions in order to access this UMP memory, for instance from another process.
+ *
+ * @note There is a user space equivalent function called @ref ump_secure_id_get "ump_secure_id_get"
+ *
+ * @see ump_dd_handle_create_from_secure_id
+ * @see ump_handle_create_from_secure_id
+ * @see ump_secure_id_get
+ *
+ * @param mem Handle to UMP memory.
+ *
+ * @return Returns the secure ID for the specified UMP memory.
+ */
+UMP_KERNEL_API_EXPORT ump_secure_id ump_dd_secure_id_get(ump_dd_handle mem);
+
+
+/**
+ * Retrieves a handle to allocated UMP memory.
+ *
+ * The usage of UMP memory is reference counted, so this will increment the reference
+ * count by one for the specified UMP memory.
+ * Use @ref ump_dd_reference_release "ump_dd_reference_release" when there is no longer any
+ * use for the retrieved handle.
+ *
+ * @note There is a user space equivalent function called @ref ump_handle_create_from_secure_id "ump_handle_create_from_secure_id"
+ *
+ * @see ump_dd_reference_release
+ * @see ump_handle_create_from_secure_id
+ *
+ * @param secure_id The secure ID of the UMP memory to open, that can be retrieved using the @ref ump_secure_id_get "ump_secure_id_get " function.
+ *
+ * @return UMP_INVALID_MEMORY_HANDLE indicates failure, otherwise a valid handle is returned.
+ */
+UMP_KERNEL_API_EXPORT ump_dd_handle ump_dd_handle_create_from_secure_id(ump_secure_id secure_id);
+
+
+/**
+ * Retrieves the number of physical blocks used by the specified UMP memory.
+ *
+ * This function retrieves the number of @ref ump_dd_physical_block "ump_dd_physical_block" structs needed
+ * to describe the physical memory layout of the given UMP memory. This can later be used when calling
+ * the functions @ref ump_dd_phys_blocks_get "ump_dd_phys_blocks_get" and
+ * @ref ump_dd_phys_block_get "ump_dd_phys_block_get".
+ *
+ * @see ump_dd_phys_blocks_get
+ * @see ump_dd_phys_block_get
+ *
+ * @param mem Handle to UMP memory.
+ *
+ * @return The number of ump_dd_physical_block structs required to describe the physical memory layout of the specified UMP memory.
+ */
+UMP_KERNEL_API_EXPORT unsigned long ump_dd_phys_block_count_get(ump_dd_handle mem);
+
+
+/**
+ * Retrieves all physical memory block information for specified UMP memory.
+ *
+ * This function can be used by other device drivers in order to create MMU tables.
+ *
+ * @note This function will fail if the num_blocks parameter is either to large or to small.
+ *
+ * @see ump_dd_phys_block_get
+ *
+ * @param mem Handle to UMP memory.
+ * @param blocks An array of @ref ump_dd_physical_block "ump_dd_physical_block" structs that will receive the physical description.
+ * @param num_blocks The number of blocks to return in the blocks array. Use the function
+ * @ref ump_dd_phys_block_count_get "ump_dd_phys_block_count_get" first to determine the number of blocks required.
+ *
+ * @return UMP_DD_SUCCESS indicates success, UMP_DD_INVALID indicates failure.
+ */
+UMP_KERNEL_API_EXPORT ump_dd_status_code ump_dd_phys_blocks_get(ump_dd_handle mem, ump_dd_physical_block *blocks, unsigned long num_blocks);
+
+
+/**
+ * Retrieves the physical memory block information for specified block for the specified UMP memory.
+ *
+ * This function can be used by other device drivers in order to create MMU tables.
+ *
+ * @note This function will return UMP_DD_INVALID if the specified index is out of range.
+ *
+ * @see ump_dd_phys_blocks_get
+ *
+ * @param mem Handle to UMP memory.
+ * @param index Which physical info block to retrieve.
+ * @param block Pointer to a @ref ump_dd_physical_block "ump_dd_physical_block" struct which will receive the requested information.
+ *
+ * @return UMP_DD_SUCCESS indicates success, UMP_DD_INVALID indicates failure.
+ */
+UMP_KERNEL_API_EXPORT ump_dd_status_code ump_dd_phys_block_get(ump_dd_handle mem, unsigned long index, ump_dd_physical_block *block);
+
+
+/**
+ * Retrieves the actual size of the specified UMP memory.
+ *
+ * The size is reported in bytes, and is typically page aligned.
+ *
+ * @note There is a user space equivalent function called @ref ump_size_get "ump_size_get"
+ *
+ * @see ump_size_get
+ *
+ * @param mem Handle to UMP memory.
+ *
+ * @return Returns the allocated size of the specified UMP memory, in bytes.
+ */
+UMP_KERNEL_API_EXPORT unsigned long ump_dd_size_get(ump_dd_handle mem);
+
+
+/**
+ * Adds an extra reference to the specified UMP memory.
+ *
+ * This function adds an extra reference to the specified UMP memory. This function should
+ * be used every time a UMP memory handle is duplicated, that is, assigned to another ump_dd_handle
+ * variable. The function @ref ump_dd_reference_release "ump_dd_reference_release" must then be used
+ * to release each copy of the UMP memory handle.
+ *
+ * @note You are not required to call @ref ump_dd_reference_add "ump_dd_reference_add"
+ * for UMP handles returned from
+ * @ref ump_dd_handle_create_from_secure_id "ump_dd_handle_create_from_secure_id",
+ * because these handles are already reference counted by this function.
+ *
+ * @note There is a user space equivalent function called @ref ump_reference_add "ump_reference_add"
+ *
+ * @see ump_reference_add
+ *
+ * @param mem Handle to UMP memory.
+ */
+UMP_KERNEL_API_EXPORT void ump_dd_reference_add(ump_dd_handle mem);
+
+
+/**
+ * Releases a reference from the specified UMP memory.
+ *
+ * This function should be called once for every reference to the UMP memory handle.
+ * When the last reference is released, all resources associated with this UMP memory
+ * handle are freed.
+ *
+ * @note There is a user space equivalent function called @ref ump_reference_release "ump_reference_release"
+ *
+ * @see ump_reference_release
+ *
+ * @param mem Handle to UMP memory.
+ */
+UMP_KERNEL_API_EXPORT void ump_dd_reference_release(ump_dd_handle mem);
+
+
+#ifdef __cplusplus
+}
+#endif
+
+
+/** @} */ /* end group ump_kernel_space_api */
+
+
+#endif /* __UMP_KERNEL_INTERFACE_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2010, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_kernel_interface.h
+ */
+
+#ifndef __UMP_KERNEL_INTERFACE_REF_DRV_H__
+#define __UMP_KERNEL_INTERFACE_REF_DRV_H__
+
+#include "ump_kernel_interface.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/** Turn specified physical memory into UMP memory. */
+UMP_KERNEL_API_EXPORT ump_dd_handle ump_dd_handle_create_from_phys_blocks(ump_dd_physical_block *blocks, unsigned long num_blocks);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __UMP_KERNEL_INTERFACE_REF_DRV_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2010 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_kernel_platform.h
+ *
+ * This file should define UMP_KERNEL_API_EXPORT,
+ * which dictates how the UMP kernel API should be exported/imported.
+ * Modify this file, if needed, to match your platform setup.
+ */
+
+#ifndef __UMP_KERNEL_PLATFORM_H__
+#define __UMP_KERNEL_PLATFORM_H__
+
+/** @addtogroup ump_kernel_space_api
+ * @{ */
+
+/**
+ * A define which controls how UMP kernel space API functions are imported and exported.
+ * This define should be set by the implementor of the UMP API.
+ */
+
+#if defined(_WIN32)
+
+#if defined(UMP_BUILDING_UMP_LIBRARY)
+#define UMP_KERNEL_API_EXPORT __declspec(dllexport)
+#else
+#define UMP_KERNEL_API_EXPORT __declspec(dllimport)
+#endif
+
+#else
+
+#define UMP_KERNEL_API_EXPORT
+
+#endif
+
+
+/** @} */ /* end group ump_kernel_space_api */
+
+
+#endif /* __UMP_KERNEL_PLATFORM_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_osu.h
+ * Defines the OS abstraction layer for the base driver
+ */
+
+#ifndef __UMP_OSU_H__
+#define __UMP_OSU_H__
+
+#include <stdarg.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+
+typedef unsigned int u32;
+#ifdef _MSC_VER
+typedef unsigned __int64 u64;
+typedef signed __int64 s64;
+#else
+typedef unsigned long long u64;
+typedef signed long long s64;
+#endif
+
+#ifndef NULL
+#define NULL ((void*)0)
+#endif
+
+typedef unsigned long ump_bool;
+
+#ifndef UMP_TRUE
+#define UMP_TRUE ((ump_bool)1)
+#endif
+
+#ifndef UMP_FALSE
+#define UMP_FALSE ((ump_bool)0)
+#endif
+
+#define UMP_STATIC static
+
+/**
+ * @addtogroup ump_user_space_api Unified Device Driver (UDD) APIs used by UMP
+ *
+ * @{
+ */
+
+/**
+ * @defgroup ump_osuapi UDD OS Abstraction for User-side (OSU) APIs for UMP
+ *
+ * @{
+ */
+
+/* The following is necessary to prevent the _ump_osk_errcode_t doxygen from
+ * becoming unreadable: */
+/** @cond OSU_COPY_OF__UMP_OSU_ERRCODE_T */
+
+/**
+ * @brief OSU/OSK Error codes.
+ *
+ * Each OS may use its own set of error codes, and may require that the
+ * User/Kernel interface take certain error code. This means that the common
+ * error codes need to be sufficiently rich to pass the correct error code
+ * through from the OSK/OSU to U/K layer, across all OSs.
+ *
+ * The result is that some error codes will appear redundant on some OSs.
+ * Under all OSs, the OSK/OSU layer must translate native OS error codes to
+ * _ump_osk/u_errcode_t codes. Similarly, the U/K layer must translate from
+ * _ump_osk/u_errcode_t codes to native OS error codes.
+ *
+ */
+typedef enum
+{
+ _UMP_OSK_ERR_OK = 0, /**< Success. */
+ _UMP_OSK_ERR_FAULT = -1, /**< General non-success */
+ _UMP_OSK_ERR_INVALID_FUNC = -2, /**< Invalid function requested through User/Kernel interface (e.g. bad IOCTL number) */
+ _UMP_OSK_ERR_INVALID_ARGS = -3, /**< Invalid arguments passed through User/Kernel interface */
+ _UMP_OSK_ERR_NOMEM = -4, /**< Insufficient memory */
+ _UMP_OSK_ERR_TIMEOUT = -5, /**< Timeout occured */
+ _UMP_OSK_ERR_RESTARTSYSCALL = -6, /**< Special: On certain OSs, must report when an interruptable mutex is interrupted. Ignore otherwise. */
+ _UMP_OSK_ERR_ITEM_NOT_FOUND = -7, /**< Table Lookup failed */
+ _UMP_OSK_ERR_BUSY = -8, /**< Device/operation is busy. Try again later */
+ _UMP_OSK_ERR_UNSUPPORTED = -9, /**< Optional part of the interface used, and is unsupported */
+} _ump_osk_errcode_t;
+
+/** @endcond */ /* end cond OSU_COPY_OF__UMP_OSU_ERRCODE_T */
+
+/**
+ * @brief OSU Error codes.
+ *
+ * OSU error codes - enum values intentionally same as OSK
+ */
+typedef enum
+{
+ _UMP_OSU_ERR_OK = 0, /**< Success. */
+ _UMP_OSU_ERR_FAULT = -1, /**< General non-success */
+ _UMP_OSU_ERR_TIMEOUT = -2, /**< Timeout occured */
+} _ump_osu_errcode_t;
+
+/** @brief Translate OSU error code to base driver error code.
+ *
+ * The _UMP_OSU_TRANSLATE_ERROR macro translates an OSU error code to the
+ * error codes in use by the base driver.
+ */
+#define _UMP_OSU_TRANSLATE_ERROR(_ump_osu_errcode) ( ( _UMP_OSU_ERR_OK == (_ump_osu_errcode) ) ? UMP_ERR_NO_ERROR : UMP_ERR_FUNCTION_FAILED)
+
+/** @defgroup _ump_osu_lock OSU Mutual Exclusion Locks
+ * @{ */
+
+/** @brief OSU Mutual Exclusion Lock flags type.
+ *
+ * This is made to look like and function identically to the OSK locks (refer
+ * to \ref _ump_osk_lock). However, please note the following \b important
+ * differences:
+ * - the OSU default lock is a Sleeping, non-interruptible mutex.
+ * - the OSU adds the ANYUNLOCK type of lock which allows a thread which doesn't
+ * own the lock to release the lock.
+ * - the order parameter when creating a lock is currently unused
+ *
+ * @note Pay careful attention to the difference in default locks for OSU and
+ * OSK locks; OSU locks are always non-interruptible, but OSK locks are by
+ * default, interruptible. This has implications for systems that do not
+ * distinguish between user and kernel mode.
+ */
+typedef enum
+{
+ _UMP_OSU_LOCKFLAG_DEFAULT = 0, /**< Default lock type. */
+ /** @enum _ump_osu_lock_flags_t
+ *
+ * Flags from 0x0--0x8000 are RESERVED for Kernel-mode
+ */
+ _UMP_OSU_LOCKFLAG_ANYUNLOCK = 0x10000, /**< Mutex that guarantees that any thread can unlock it when locked. Otherwise, this will not be possible. */
+ /** @enum _ump_osu_lock_flags_t
+ *
+ * Flags from 0x10000 are RESERVED for User-mode
+ */
+ _UMP_OSU_LOCKFLAG_STATIC = 0x20000, /* Flag in OSU reserved range to identify lock as a statically initialized lock */
+
+} _ump_osu_lock_flags_t;
+
+typedef enum
+{
+ _UMP_OSU_LOCKMODE_UNDEF = -1, /**< Undefined lock mode. For internal use only */
+ _UMP_OSU_LOCKMODE_RW = 0x0, /**< Default. Lock is used to protect data that is read from and written to */
+ /** @enum _ump_osu_lock_mode_t
+ *
+ * Lock modes 0x1--0x3F are RESERVED for Kernel-mode */
+} _ump_osu_lock_mode_t;
+
+/** @brief Private type for Mutual Exclusion lock objects. */
+typedef struct _ump_osu_lock_t_struct _ump_osu_lock_t;
+
+/** @brief The number of static locks supported in _ump_osu_lock_static(). */
+#define UMP_OSU_STATIC_LOCK_COUNT (sizeof(_ump_osu_static_locks) / sizeof(_ump_osu_lock_t))
+
+/** @} */ /* end group _ump_osu_lock */
+
+/** @defgroup _ump_osu_memory OSU Memory Allocation
+ * @{ */
+
+/** @brief Allocate zero-initialized memory.
+ *
+ * Returns a buffer capable of containing at least \a n elements of \a size
+ * bytes each. The buffer is initialized to zero.
+ *
+ * The buffer is suitably aligned for storage and subsequent access of every
+ * type that the compiler supports. Therefore, the pointer to the start of the
+ * buffer may be cast into any pointer type, and be subsequently accessed from
+ * such a pointer, without loss of information.
+ *
+ * When the buffer is no longer in use, it must be freed with _ump_osu_free().
+ * Failure to do so will cause a memory leak.
+ *
+ * @note Most toolchains supply memory allocation functions that meet the
+ * compiler's alignment requirements.
+ *
+ * @param n Number of elements to allocate
+ * @param size Size of each element
+ * @return On success, the zero-initialized buffer allocated. NULL on failure
+ */
+void *_ump_osu_calloc(u32 n, u32 size);
+
+/** @brief Allocate memory.
+ *
+ * Returns a buffer capable of containing at least \a size bytes. The
+ * contents of the buffer are undefined.
+ *
+ * The buffer is suitably aligned for storage and subsequent access of every
+ * type that the compiler supports. Therefore, the pointer to the start of the
+ * buffer may be cast into any pointer type, and be subsequently accessed from
+ * such a pointer, without loss of information.
+ *
+ * When the buffer is no longer in use, it must be freed with _ump_osu_free().
+ * Failure to do so will cause a memory leak.
+ *
+ * @note Most toolchains supply memory allocation functions that meet the
+ * compiler's alignment requirements.
+ *
+ * Remember to free memory using _ump_osu_free().
+ * @param size Number of bytes to allocate
+ * @return On success, the buffer allocated. NULL on failure.
+ */
+void *_ump_osu_malloc(u32 size);
+
+/** @brief Free memory.
+ *
+ * Reclaims the buffer pointed to by the parameter \a ptr for the system.
+ * All memory returned from _ump_osu_malloc(), _ump_osu_calloc() and
+ * _ump_osu_realloc() must be freed before the application exits. Otherwise,
+ * a memory leak will occur.
+ *
+ * Memory must be freed once. It is an error to free the same non-NULL pointer
+ * more than once.
+ *
+ * It is legal to free the NULL pointer.
+ *
+ * @param ptr Pointer to buffer to free
+ */
+void _ump_osu_free(void *ptr);
+
+/** @brief Copies memory.
+ *
+ * Copies the \a len bytes from the buffer pointed by the parameter \a src
+ * directly to the buffer pointed by \a dst.
+ *
+ * It is an error for \a src to overlap \a dst anywhere in \a len bytes.
+ *
+ * @param dst Pointer to the destination array where the content is to be
+ * copied.
+ * @param src Pointer to the source of data to be copied.
+ * @param len Number of bytes to copy.
+ * @return \a dst is always passed through unmodified.
+ */
+void *_ump_osu_memcpy(void *dst, const void *src, u32 len);
+
+/** @brief Fills memory.
+ *
+ * Sets the first \a size bytes of the block of memory pointed to by \a ptr to
+ * the specified value
+ * @param ptr Pointer to the block of memory to fill.
+ * @param chr Value to be set, passed as u32. Only the 8 Least Significant Bits (LSB)
+ * are used.
+ * @param size Number of bytes to be set to the value.
+ * @return \a ptr is always passed through unmodified
+ */
+void *_ump_osu_memset(void *ptr, u32 chr, u32 size);
+
+/** @} */ /* end group _ump_osu_memory */
+
+
+/** @addtogroup _ump_osu_lock
+ * @{ */
+
+/** @brief Initialize a Mutual Exclusion Lock.
+ *
+ * Locks are created in the signalled (unlocked) state.
+ *
+ * The parameter \a initial must be zero.
+ *
+ * At present, the parameter \a order must be zero. It remains for future
+ * expansion for mutex order checking.
+ *
+ * @param flags flags combined with bitwise OR ('|'), or zero. There are
+ * restrictions on which flags can be combined, see \ref _ump_osu_lock_flags_t.
+ * @param initial For future expansion into semaphores. SBZ.
+ * @param order The locking order of the mutex. SBZ.
+ * @return On success, a pointer to a \ref _ump_osu_lock_t object. NULL on failure.
+ */
+_ump_osu_lock_t *_ump_osu_lock_init(_ump_osu_lock_flags_t flags, u32 initial, u32 order);
+
+/** @brief Obtain a statically initialized Mutual Exclusion Lock.
+ *
+ * Retrieves a reference to a statically initialized lock. Up to
+ * _UMP_OSU_STATIC_LOCK_COUNT statically initialized locks are
+ * available. Only _ump_osu_lock_wait(), _ump_osu_lock_trywait(),
+ * _ump_osu_lock_signal() can be used with statically initialized locks.
+ * _UMP_OSU_LOCKMODE_RW mode should be used when waiting and signalling
+ * statically initialized locks.
+ *
+ * For the same \a nr a pointer to the same statically initialized lock is
+ * returned. That is, given the following code:
+ * @code
+ * extern u32 n;
+ *
+ * _ump_osu_lock_t *locka = _ump_osu_lock_static(n);
+ * _ump_osu_lock_t *lockb = _ump_osu_lock_static(n);
+ * @endcode
+ * Then (locka == lockb), for all 0 <= n < UMP_OSU_STATIC_LOCK_COUNT.
+ *
+ * @param nr index of a statically initialized lock [0..UMP_OSU_STATIC_LOCK_COUNT-1]
+ * @return On success, a pointer to a _ump_osu_lock_t object. NULL on failure.
+ */
+_ump_osu_lock_t *_ump_osu_lock_static(u32 nr);
+
+/** @brief Initialize a Mutual Exclusion Lock safely across multiple threads.
+ *
+ * The _ump_osu_lock_auto_init() function guarantees that the given lock will
+ * be initialized once and precisely once, even in a situation involving
+ * multiple threads.
+ *
+ * This is necessary because the first call to certain Public API functions must
+ * initialize the API. However, there can be a race involved to call the first
+ * library function in multi-threaded applications. To resolve this race, a
+ * mutex can be used. This mutex must be initialized, but initialized only once
+ * by any thread that might compete for its initialization. This function
+ * guarantees the initialization to happen correctly, even when there is an
+ * initialization race between multiple threads.
+ *
+ * Otherwise, the operation is identical to the _ump_osu_lock_init() function.
+ * For more details, refer to _ump_osu_lock_init().
+ *
+ * @param pplock pointer to storage for a _ump_osu_lock_t pointer. This
+ * _ump_osu_lock_t pointer may point to a _ump_osu_lock_t that has been
+ * initialized already
+ * @param flags flags combined with bitwise OR ('|'), or zero. There are
+ * restrictions on which flags can be combined. Refer to
+ * \ref _ump_osu_lock_flags_t for more information.
+ * The absence of any flags (the value 0) results in a sleeping-mutex,
+ * which is non-interruptible.
+ * @param initial For future expansion into semaphores. SBZ.
+ * @param order The locking order of the mutex. SBZ.
+ * @return On success, _UMP_OSU_ERR_OK is returned and a pointer to an
+ * initialized \ref _ump_osu_lock_t object is written into \a *pplock.
+ * _UMP_OSU_ERR_FAULT is returned on failure.
+ */
+_ump_osu_errcode_t _ump_osu_lock_auto_init(_ump_osu_lock_t **pplock, _ump_osu_lock_flags_t flags, u32 initial, u32 order);
+
+/** @brief Wait for a lock to be signalled (obtained).
+ *
+ * After a thread has successfully waited on the lock, the lock is obtained by
+ * the thread, and is marked as unsignalled. The thread releases the lock by
+ * signalling it.
+ *
+ * To prevent deadlock, locks must always be obtained in the same order.
+ *
+ * @param lock the lock to wait upon (obtain).
+ * @param mode the mode in which the lock should be obtained. Currently this
+ * must be _UMP_OSU_LOCKMODE_RW.
+ * @return On success, _UMP_OSU_ERR_OK, _UMP_OSU_ERR_FAULT on error.
+ */
+_ump_osu_errcode_t _ump_osu_lock_wait(_ump_osu_lock_t *lock, _ump_osu_lock_mode_t mode);
+
+/** @brief Wait for a lock to be signalled (obtained) with timeout
+ *
+ * After a thread has successfully waited on the lock, the lock is obtained by
+ * the thread, and is marked as unsignalled. The thread releases the lock by
+ * signalling it.
+ *
+ * To prevent deadlock, locks must always be obtained in the same order.
+ *
+ * This version can return early if it cannot obtain the lock within the given timeout.
+ *
+ * @param lock the lock to wait upon (obtain).
+ * @param mode the mode in which the lock should be obtained. Currently this
+ * must be _UMP_OSU_LOCKMODE_RW.
+ * @param timeout Relative time in microseconds for the timeout
+ * @return _UMP_OSU_ERR_OK if the lock was obtained, _UMP_OSU_ERR_TIMEOUT if the timeout expired or _UMP_OSU_ERR_FAULT on error.
+ */
+_ump_osu_errcode_t _ump_osu_lock_timed_wait(_ump_osu_lock_t *lock, _ump_osu_lock_mode_t mode, u64 timeout);
+
+/** @brief Test for a lock to be signalled and obtains the lock when so.
+ *
+ * Obtains the lock only when it is in signalled state. The lock is then
+ * marked as unsignalled. The lock is released again by signalling
+ * it by _ump_osu_lock_signal().
+ *
+ * If the lock could not be obtained immediately (that is, another thread
+ * currently holds the lock), then this function \b does \b not wait for the
+ * lock to be in a signalled state. Instead, an error code is immediately
+ * returned to indicate that the thread could not obtain the lock.
+ *
+ * To prevent deadlock, locks must always be obtained in the same order.
+ *
+ * @param lock the lock to wait upon (obtain).
+ * @param mode the mode in which the lock should be obtained. Currently this
+ * must be _UMP_OSU_LOCKMODE_RW.
+ * @return When the lock was obtained, _UMP_OSU_ERR_OK. If the lock could not
+ * be obtained, _UMP_OSU_ERR_FAULT.
+ */
+_ump_osu_errcode_t _ump_osu_lock_trywait(_ump_osu_lock_t *lock, _ump_osu_lock_mode_t mode);
+
+/** @brief Signal (release) a lock.
+ *
+ * Locks may only be signalled by the thread that originally waited upon the
+ * lock, unless the lock was created using the _UMP_OSU_LOCKFLAG_ANYUNLOCK flag.
+ *
+ * @param lock the lock to signal (release).
+ * @param mode the mode in which the lock should be obtained. This must match
+ * the mode in which the lock was waited upon.
+ */
+void _ump_osu_lock_signal(_ump_osu_lock_t *lock, _ump_osu_lock_mode_t mode);
+
+/** @brief Terminate a lock.
+ *
+ * This terminates a lock and frees all associated resources.
+ *
+ * It is a programming error to terminate the lock when it is held (unsignalled)
+ * by a thread.
+ *
+ * @param lock the lock to terminate.
+ */
+void _ump_osu_lock_term(_ump_osu_lock_t *lock);
+/** @} */ /* end group _ump_osu_lock */
+
+/** @} */ /* end group osuapi */
+
+/** @} */ /* end group uddapi */
+
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __UMP_OSU_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2011, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_platform.h
+ *
+ * This file should define UMP_API_EXPORT,
+ * which dictates how the UMP user space API should be exported/imported.
+ * Modify this file, if needed, to match your platform setup.
+ */
+
+#ifndef __UMP_PLATFORM_H__
+#define __UMP_PLATFORM_H__
+
+/** @addtogroup ump_user_space_api
+ * @{ */
+
+/**
+ * A define which controls how UMP user space API functions are imported and exported.
+ * This define should be set by the implementor of the UMP API.
+ */
+#if defined(_WIN32)
+
+#define UMP_API_EXPORT
+
+#elif defined(__SYMBIAN32__)
+
+#define UMP_API_EXPORT IMPORT_C
+
+#else
+
+#if defined(__GNUC__)
+#if __GNUC__ >= 4
+# define MALI_VISIBLE __attribute__ ((visibility ("default"))) /**< Function should be visible from outside the dll */
+#else
+# define MALI_VISIBLE
+#endif
+
+#elif defined(__ARMCC_VERSION)
+/* ARMCC specific */
+# define MALI_VISIBLE __declspec(dllexport)
+
+#else
+# define MALI_VISIBLE
+
+#endif
+
+#define UMP_API_EXPORT MALI_VISIBLE
+
+#endif
+
+/** @} */ /* end group ump_user_space_api */
+
+
+#endif /* __UMP_PLATFORM_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2010, 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_ref_drv.h
+ *
+ * Reference driver extensions to the UMP user space API for allocating UMP memory
+ */
+
+#ifndef _UNIFIED_MEMORY_PROVIDER_REF_DRV_H_
+#define _UNIFIED_MEMORY_PROVIDER_REF_DRV_H_
+
+#include "ump.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+typedef enum
+{
+ /* This enum must match with the IOCTL enum in ump_ioctl.h */
+ UMP_REF_DRV_CONSTRAINT_NONE = 0,
+ UMP_REF_DRV_CONSTRAINT_PHYSICALLY_LINEAR = 1,
+ UMP_REF_DRV_CONSTRAINT_USE_CACHE = 4,
+ UMP_REF_DRV_CONSTRAINT_PRE_RESERVE = 8,
+} ump_alloc_constraints;
+
+/** Allocate an UMP handle containing a memory buffer.
+ * Input: Size: The minimum size for the allocation.
+ * Usage: If this is UMP_REF_DRV_CONSTRAINT_USE_CACHE, the allocation is mapped as cached by the cpu.
+ * If it is UMP_REF_DRV_CONSTRAINT_NONE it is mapped as noncached.
+ * The flag UMP_REF_DRV_CONSTRAINT_PHYSICALLY_LINEAR is not supported.*/
+UMP_API_EXPORT ump_handle ump_ref_drv_allocate(unsigned long size, ump_alloc_constraints usage);
+
+UMP_API_EXPORT int ump_phy_addr_get(ump_handle memh);
+
+typedef enum
+{
+ UMP_MSYNC_CLEAN = 0 ,
+ UMP_MSYNC_CLEAN_AND_INVALIDATE = 1,
+ UMP_MSYNC_INVALIDATE = 2,
+ UMP_MSYNC_READOUT_CACHE_ENABLED = 128,
+} ump_cpu_msync_op;
+
+typedef enum
+{
+ UMP_READ = 1,
+ UMP_READ_WRITE = 3,
+} ump_lock_usage;
+
+/** Flushing cache for an ump_handle.
+ * The function will always CLEAN_AND_INVALIDATE as long as the \a op is not UMP_MSYNC_READOUT_CACHE_ENABLED.
+ * If so it will only report back if the given ump_handle is cacheable.
+ * At the momement the implementation does not use \a address or \a size.
+ * Return value is 1 if cache is enabled, and 0 if it is disabled for the given allocation.*/
+UMP_API_EXPORT int ump_cpu_msync_now(ump_handle mem, ump_cpu_msync_op op, void *address, int size);
+
+
+typedef enum
+{
+ UMP_USED_BY_CPU = 0,
+ UMP_USED_BY_MALI = 1,
+ UMP_USED_BY_UNKNOWN_DEVICE = 100,
+} ump_hw_usage;
+
+typedef enum
+{
+ UMP_CACHE_OP_START = 0,
+ UMP_CACHE_OP_FINISH = 1,
+} ump_cache_op_control;
+
+/** Cache operation control. Tell when cache maintenance operations start and end.
+This will allow the kernel to merge cache operations togheter, thus making them faster */
+UMP_API_EXPORT int ump_cache_operations_control(ump_cache_op_control op);
+
+/** Memory synchronization - cache flushing if previous user was different hardware */
+UMP_API_EXPORT int ump_switch_hw_usage(ump_handle mem, ump_hw_usage new_user);
+
+/** Memory synchronization - cache flushing if previous user was different hardware */
+UMP_API_EXPORT int ump_switch_hw_usage_secure_id(ump_secure_id ump_id, ump_hw_usage new_user);
+
+/** Locking buffer. Blocking call if the buffer is already locked. */
+UMP_API_EXPORT int ump_lock(ump_handle mem, ump_lock_usage lock_usage);
+
+/** Locking buffer. Blocking call if the buffer is already locked. */
+UMP_API_EXPORT int ump_lock_secure_id(ump_secure_id ump_id, ump_lock_usage lock_usage);
+
+/** Unlocking buffer. Let other users lock the buffer for their usage */
+UMP_API_EXPORT int ump_unlock(ump_handle mem);
+
+/** Unlocking buffer. Let other users lock the buffer for their usage */
+UMP_API_EXPORT int ump_unlock_secure_id(ump_secure_id ump_id);
+
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /*_UNIFIED_MEMORY_PROVIDER_REF_DRV_H_ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2010, 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_uk_types.h
+ * Defines the types and constants used in the user-kernel interface
+ */
+
+#ifndef __UMP_UK_TYPES_H__
+#define __UMP_UK_TYPES_H__
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/* Helpers for API version handling */
+#define MAKE_VERSION_ID(x) (((x) << 16UL) | (x))
+#define IS_VERSION_ID(x) (((x) & 0xFFFF) == (((x) >> 16UL) & 0xFFFF))
+#define GET_VERSION(x) (((x) >> 16UL) & 0xFFFF)
+#define IS_API_MATCH(x, y) (IS_VERSION_ID((x)) && IS_VERSION_ID((y)) && (GET_VERSION((x)) == GET_VERSION((y))))
+
+/**
+ * API version define.
+ * Indicates the version of the kernel API
+ * The version is a 16bit integer incremented on each API change.
+ * The 16bit integer is stored twice in a 32bit integer
+ * So for version 1 the value would be 0x00010001
+ */
+#define UMP_IOCTL_API_VERSION MAKE_VERSION_ID(2)
+
+typedef enum
+{
+ _UMP_IOC_QUERY_API_VERSION = 1,
+ _UMP_IOC_ALLOCATE,
+ _UMP_IOC_RELEASE,
+ _UMP_IOC_SIZE_GET,
+ _UMP_IOC_MAP_MEM, /* not used in Linux */
+ _UMP_IOC_UNMAP_MEM, /* not used in Linux */
+ _UMP_IOC_MSYNC,
+ _UMP_IOC_CACHE_OPERATIONS_CONTROL,
+ _UMP_IOC_SWITCH_HW_USAGE,
+ _UMP_IOC_LOCK,
+ _UMP_IOC_UNLOCK,
+}_ump_uk_functions;
+
+typedef enum
+{
+ UMP_REF_DRV_UK_CONSTRAINT_NONE = 0,
+ UMP_REF_DRV_UK_CONSTRAINT_PHYSICALLY_LINEAR = 1,
+ UMP_REF_DRV_UK_CONSTRAINT_USE_CACHE = 4,
+ UMP_REF_DRV_UK_CONSTRAINT_PRE_RESERVE = 8,
+ UMP_REF_DRV_UK_CONSTRAINT_MEM_SWITCH = 16,
+} ump_uk_alloc_constraints;
+
+typedef enum
+{
+ _UMP_UK_MSYNC_CLEAN = 0,
+ _UMP_UK_MSYNC_CLEAN_AND_INVALIDATE = 1,
+ _UMP_UK_MSYNC_INVALIDATE = 2,
+ _UMP_UK_MSYNC_FLUSH_L1 = 3,
+ _UMP_UK_MSYNC_READOUT_CACHE_ENABLED = 128,
+} ump_uk_msync_op;
+
+typedef enum
+{
+ _UMP_UK_CACHE_OP_START = 0,
+ _UMP_UK_CACHE_OP_FINISH = 1,
+} ump_uk_cache_op_control;
+
+typedef enum
+{
+ _UMP_UK_READ = 1,
+ _UMP_UK_READ_WRITE = 3,
+} ump_uk_lock_usage;
+
+typedef enum
+{
+ _UMP_UK_USED_BY_CPU = 0,
+ _UMP_UK_USED_BY_MALI = 1,
+ _UMP_UK_USED_BY_UNKNOWN_DEVICE = 100,
+} ump_uk_user;
+
+/**
+ * Get API version ([in,out] u32 api_version, [out] u32 compatible)
+ */
+typedef struct _ump_uk_api_version_s
+{
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 version; /**< Set to the user space version on entry, stores the device driver version on exit */
+ u32 compatible; /**< Non-null if the device is compatible with the client */
+} _ump_uk_api_version_s;
+
+/**
+ * ALLOCATE ([out] u32 secure_id, [in,out] u32 size, [in] contraints)
+ */
+typedef struct _ump_uk_allocate_s
+{
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 secure_id; /**< Return value from DD to Userdriver */
+ u32 size; /**< Input and output. Requested size; input. Returned size; output */
+ ump_uk_alloc_constraints constraints; /**< Only input to Devicedriver */
+} _ump_uk_allocate_s;
+
+/**
+ * SIZE_GET ([in] u32 secure_id, [out]size )
+ */
+typedef struct _ump_uk_size_get_s
+{
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 secure_id; /**< Input to DD */
+ u32 size; /**< Returned size; output */
+} _ump_uk_size_get_s;
+
+/**
+ * Release ([in] u32 secure_id)
+ */
+typedef struct _ump_uk_release_s
+{
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 secure_id; /**< Input to DD */
+} _ump_uk_release_s;
+
+typedef struct _ump_uk_map_mem_s
+{
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ void *mapping; /**< [out] Returns user-space virtual address for the mapping */
+ void *phys_addr; /**< [in] physical address */
+ unsigned long size; /**< [in] size */
+ u32 secure_id; /**< [in] secure_id to assign to mapping */
+ void *_ukk_private; /**< Only used inside linux port between kernel frontend and common part to store vma */
+ u32 cookie;
+ u32 is_cached; /**< [in,out] caching of CPU mappings */
+} _ump_uk_map_mem_s;
+
+typedef struct _ump_uk_unmap_mem_s
+{
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ void *mapping;
+ u32 size;
+ void *_ukk_private;
+ u32 cookie;
+} _ump_uk_unmap_mem_s;
+
+typedef struct _ump_uk_msync_s
+{
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ void *mapping; /**< [in] mapping addr */
+ void *address; /**< [in] flush start addr */
+ u32 size; /**< [in] size to flush */
+ ump_uk_msync_op op; /**< [in] flush operation */
+ u32 cookie; /**< [in] cookie stored with reference to the kernel mapping internals */
+ u32 secure_id; /**< [in] secure_id that identifies the ump buffer */
+ u32 is_cached; /**< [out] caching of CPU mappings */
+} _ump_uk_msync_s;
+
+typedef struct _ump_uk_cache_operations_control_s
+{
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ ump_uk_cache_op_control op; /**< [in] cache operations start/stop */
+} _ump_uk_cache_operations_control_s;
+
+
+typedef struct _ump_uk_switch_hw_usage_s
+{
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 secure_id; /**< [in] secure_id that identifies the ump buffer */
+ ump_uk_user new_user; /**< [in] cookie stored with reference to the kernel mapping internals */
+
+} _ump_uk_switch_hw_usage_s;
+
+typedef struct _ump_uk_lock_s
+{
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 secure_id; /**< [in] secure_id that identifies the ump buffer */
+ ump_uk_lock_usage lock_usage;
+} _ump_uk_lock_s;
+
+typedef struct _ump_uk_unlock_s
+{
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 secure_id; /**< [in] secure_id that identifies the ump buffer */
+} _ump_uk_unlock_s;
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __UMP_UK_TYPES_H__ */
--- /dev/null
+#
+# This confidential and proprietary software may be used only as
+# authorised by a licensing agreement from ARM Limited
+# (C) COPYRIGHT 2007-2011 ARM Limited
+# ALL RIGHTS RESERVED
+# The entire notice above must be reproduced on all authorised
+# copies and copies may only be made to the extent permitted
+# by a licensing agreement from ARM Limited.
+#
+
+# This file is called by the Linux build system.
+
+# set up defaults if not defined by the user
+USING_UMP ?= 1
+USING_OS_MEMORY ?= 1
+USING_MALI_PMU ?= 0
+TIMESTAMP ?= default
+OS_MEMORY_KERNEL_BUFFER_SIZE_IN_MB ?= 16
+USING_GPU_UTILIZATION ?= 1
+PROFILING_SKIP_PP_JOBS ?= 0
+PROFILING_SKIP_PP_AND_GP_JOBS ?= 0
+TARGET_PLATFORM ?= rk30
+MALI_PP_SCHEDULER_FORCE_NO_JOB_OVERLAP ?= 0
+MALI_PP_SCHEDULER_KEEP_SUB_JOB_STARTS_ALIGNED ?= 0
+MALI_PP_SCHEDULER_FORCE_NO_JOB_OVERLAP_BETWEEN_APPS ?= 0
+MALI_UPPER_HALF_SCHEDULING ?= 1
+MALI_ENABLE_CPU_CYCLES ?= 0
+
+MALI_PLATFORM ?=rk30
+
+# For customer releases the Linux Device Drivers will be provided as ARM proprietary and GPL releases:
+# The ARM proprietary product will only include the license/proprietary directory
+# The GPL product will only include the license/gpl directory
+ifeq ($(wildcard $(src)/linux/license/gpl/*),)
+ ccflags-y += -I$(src)/linux/license/proprietary
+ ifeq ($(CONFIG_MALI400_PROFILING),y)
+ $(error Profiling is incompatible with non-GPL license)
+ endif
+ ifeq ($(CONFIG_PM_RUNTIME),y)
+ $(error Runtime PM is incompatible with non-GPL license)
+ endif
+ ifeq ($(CONFIG_DMA_SHARED_BUFFER),y)
+ $(error DMA-BUF is incompatible with non-GPL license)
+ endif
+ $(error Linux Device integration is incompatible with non-GPL license)
+else
+ ccflags-y += -I$(src)/linux/license/gpl
+endif
+
+ccflags-y += -I$(srctree)/drivers/staging/android
+
+ifneq ($(MALI_PLATFORM),)
+EXTRA_DEFINES += -DMALI_FAKE_PLATFORM_DEVICE=1
+#MALI_PLATFORM_FILES = $(wildcard platform/$(MALI_PLATFORM)/*.c)
+mali-y += \
+ platform/$(MALI_PLATFORM)/mali_platform.o \
+ platform/$(MALI_PLATFORM)/rk3066.o
+endif
+
+
+mali-y += \
+ linux/mali_osk_atomics.o \
+ linux/mali_osk_irq.o \
+ linux/mali_osk_wq.o \
+ linux/mali_osk_locks.o \
+ linux/mali_osk_wait_queue.o \
+ linux/mali_osk_low_level_mem.o \
+ linux/mali_osk_math.o \
+ linux/mali_osk_memory.o \
+ linux/mali_osk_misc.o \
+ linux/mali_osk_mali.o \
+ linux/mali_osk_notification.o \
+ linux/mali_osk_time.o \
+ linux/mali_osk_timers.o
+
+mali-y += linux/mali_memory.o linux/mali_memory_os_alloc.o
+mali-y += linux/mali_memory_external.o
+mali-y += linux/mali_memory_block_alloc.o
+
+mali-y += \
+ linux/mali_ukk_mem.o \
+ linux/mali_ukk_gp.o \
+ linux/mali_ukk_pp.o \
+ linux/mali_ukk_core.o \
+ linux/mali_ukk_soft_job.o \
+ linux/mali_ukk_timeline.o
+
+# Source files which always are included in a build
+mali-y += \
+ common/mali_kernel_core.o \
+ linux/mali_kernel_linux.o \
+ common/mali_kernel_descriptor_mapping.o \
+ common/mali_session.o \
+ linux/mali_device_pause_resume.o \
+ common/mali_kernel_vsync.o \
+ linux/mali_ukk_vsync.o \
+ linux/mali_kernel_sysfs.o \
+ common/mali_mmu.o \
+ common/mali_mmu_page_directory.o \
+ common/mali_mem_validation.o \
+ common/mali_hw_core.o \
+ common/mali_gp.o \
+ common/mali_pp.o \
+ common/mali_pp_job.o \
+ common/mali_gp_job.o \
+ common/mali_soft_job.o \
+ common/mali_scheduler.o \
+ common/mali_gp_scheduler.o \
+ common/mali_pp_scheduler.o \
+ common/mali_group.o \
+ common/mali_dlbu.o \
+ common/mali_broadcast.o \
+ common/mali_pm.o \
+ common/mali_pmu.o \
+ common/mali_user_settings_db.o \
+ common/mali_kernel_utilization.o \
+ common/mali_l2_cache.o \
+ common/mali_dma.o \
+ common/mali_timeline.o \
+ common/mali_timeline_fence_wait.o \
+ common/mali_timeline_sync_fence.o \
+ common/mali_spinlock_reentrant.o \
+ common/mali_pm_domain.o \
+ linux/mali_osk_pm.o \
+ linux/mali_pmu_power_up_down.o \
+ __malidrv_build_info.o
+
+ifneq ($(MALI_PLATFORM_FILES),)
+ mali-y += $(MALI_PLATFORM_FILES:.c=.o)
+endif
+
+mali-$(CONFIG_MALI400_PROFILING) += linux/mali_ukk_profiling.o
+mali-$(CONFIG_MALI400_PROFILING) += linux/mali_osk_profiling.o
+
+mali-$(CONFIG_MALI400_INTERNAL_PROFILING) += linux/mali_profiling_internal.o timestamp-$(TIMESTAMP)/mali_timestamp.o
+ccflags-$(CONFIG_MALI400_INTERNAL_PROFILING) += -I$(src)/timestamp-$(TIMESTAMP)
+
+mali-$(CONFIG_DMA_SHARED_BUFFER) += linux/mali_memory_dma_buf.o
+mali-$(CONFIG_SYNC) += linux/mali_sync.o
+
+mali-$(CONFIG_MALI400_UMP) += linux/mali_memory_ump.o
+
+mali-$(CONFIG_MALI400_POWER_PERFORMANCE_POLICY) += common/mali_power_performance_policy.o
+
+# Tell the Linux build system from which .o file to create the kernel module
+obj-$(CONFIG_MALI400) := mali.o
+
+ccflags-y += $(EXTRA_DEFINES)
+
+# Set up our defines, which will be passed to gcc
+ccflags-y += -DPROFILING_SKIP_PP_JOBS=$(PROFILING_SKIP_PP_JOBS)
+ccflags-y += -DPROFILING_SKIP_PP_AND_GP_JOBS=$(PROFILING_SKIP_PP_AND_GP_JOBS)
+
+ccflags-y += -DMALI_PP_SCHEDULER_FORCE_NO_JOB_OVERLAP=$(MALI_PP_SCHEDULER_FORCE_NO_JOB_OVERLAP)
+ccflags-y += -DMALI_PP_SCHEDULER_KEEP_SUB_JOB_STARTS_ALIGNED=$(MALI_PP_SCHEDULER_KEEP_SUB_JOB_STARTS_ALIGNED)
+ccflags-y += -DMALI_PP_SCHEDULER_FORCE_NO_JOB_OVERLAP_BETWEEN_APPS=$(MALI_PP_SCHEDULER_FORCE_NO_JOB_OVERLAP_BETWEEN_APPS)
+ccflags-y += -DMALI_STATE_TRACKING=1
+ccflags-y += -DMALI_OS_MEMORY_KERNEL_BUFFER_SIZE_IN_MB=$(OS_MEMORY_KERNEL_BUFFER_SIZE_IN_MB)
+ccflags-y += -DUSING_GPU_UTILIZATION=$(USING_GPU_UTILIZATION)
+ccflags-y += -DMALI_ENABLE_CPU_CYCLES=$(MALI_ENABLE_CPU_CYCLES)
+
+ifeq ($(MALI_UPPER_HALF_SCHEDULING),1)
+ ccflags-y += -DMALI_UPPER_HALF_SCHEDULING
+endif
+
+ccflags-$(CONFIG_MALI400_UMP) += -I$(src)/../include/ump
+ccflags-$(CONFIG_MALI400_DEBUG) += -DDEBUG
+
+# Use our defines when compiling
+ccflags-y += -I$(src) -I$(src)/include -I$(src)/common -I$(src)/linux -I$(src)/platform
+
+# Get subversion revision number, fall back to only ${MALI_RELEASE_NAME} if no svn info is available
+MALI_RELEASE_NAME=$(shell cat $(src)/.version 2> /dev/null)
+
+SVN_INFO = (cd $(src); svn info 2>/dev/null)
+
+ifneq ($(shell $(SVN_INFO) 2>/dev/null),)
+# SVN detected
+SVN_REV := $(shell $(SVN_INFO) | grep '^Revision: '| sed -e 's/^Revision: //' 2>/dev/null)
+DRIVER_REV := $(MALI_RELEASE_NAME)-r$(SVN_REV)
+CHANGE_DATE := $(shell $(SVN_INFO) | grep '^Last Changed Date: ' | cut -d: -f2- | cut -b2-)
+CHANGED_REVISION := $(shell $(SVN_INFO) | grep '^Last Changed Rev: ' | cut -d: -f2- | cut -b2-)
+REPO_URL := $(shell $(SVN_INFO) | grep '^URL: ' | cut -d: -f2- | cut -b2-)
+
+else # SVN
+GIT_REV := $(shell cd $(src); git describe --always 2>/dev/null)
+ifneq ($(GIT_REV),)
+# Git detected
+DRIVER_REV := $(MALI_RELEASE_NAME)-$(GIT_REV)
+CHANGE_DATE := $(shell cd $(src); git log -1 --format="%ci")
+CHANGED_REVISION := $(GIT_REV)
+REPO_URL := $(shell cd $(src); git describe --all --always 2>/dev/null)
+
+else # Git
+# No Git or SVN detected
+DRIVER_REV := $(MALI_RELEASE_NAME)
+CHANGE_DATE := $(MALI_RELEASE_NAME)
+CHANGED_REVISION := $(MALI_RELEASE_NAME)
+endif
+endif
+
+ccflags-y += -DSVN_REV_STRING=\"$(DRIVER_REV)\"
+
+VERSION_STRINGS :=
+VERSION_STRINGS += API_VERSION=$(shell cd $(src); grep "\#define _MALI_API_VERSION" $(FILES_PREFIX)include/linux/mali/mali_utgard_uk_types.h | cut -d' ' -f 3 )
+VERSION_STRINGS += REPO_URL=$(REPO_URL)
+VERSION_STRINGS += REVISION=$(DRIVER_REV)
+VERSION_STRINGS += CHANGED_REVISION=$(CHANGED_REVISION)
+VERSION_STRINGS += CHANGE_DATE=$(CHANGE_DATE)
+VERSION_STRINGS += BUILD_DATE=$(shell date)
+ifdef CONFIG_MALI400_DEBUG
+VERSION_STRINGS += BUILD=debug
+else
+VERSION_STRINGS += BUILD=release
+endif
+VERSION_STRINGS += TARGET_PLATFORM=$(TARGET_PLATFORM)
+VERSION_STRINGS += MALI_PLATFORM=$(MALI_PLATFORM)
+VERSION_STRINGS += KDIR=$(KDIR)
+VERSION_STRINGS += OS_MEMORY_KERNEL_BUFFER_SIZE_IN_MB=$(OS_MEMORY_KERNEL_BUFFER_SIZE_IN_MB)
+VERSION_STRINGS += USING_UMP=$(CONFIG_MALI400_UMP)
+VERSION_STRINGS += USING_PROFILING=$(CONFIG_MALI400_PROFILING)
+VERSION_STRINGS += USING_INTERNAL_PROFILING=$(CONFIG_MALI400_INTERNAL_PROFILING)
+VERSION_STRINGS += USING_GPU_UTILIZATION=$(USING_GPU_UTILIZATION)
+VERSION_STRINGS += USING_POWER_PERFORMANCE_POLICY=$(CONFIG_POWER_PERFORMANCE_POLICY)
+VERSION_STRINGS += MALI_UPPER_HALF_SCHEDULING=$(MALI_UPPER_HALF_SCHEDULING)
+
+# Create file with Mali driver configuration
+$(src)/__malidrv_build_info.c:
+ @echo 'const char *__malidrv_build_info(void) { return "malidrv: $(VERSION_STRINGS)";}' > $(src)/__malidrv_build_info.c
--- /dev/null
+config MALI400
+ tristate "Mali-300/400/450 support"
+ depends on ARM
+ select DMA_SHARED_BUFFER
+ ---help---
+ This enables support for the ARM Mali-300, Mali-400, and Mali-450
+ GPUs.
+
+ To compile this driver as a module, choose M here: the module will be
+ called mali.
+
+config MALI450
+ bool "Enable Mali-450 support"
+ depends on MALI400
+ ---help---
+ This enables support for Mali-450 specific features.
+
+config MALI400_DEBUG
+ bool "Enable debug in Mali driver"
+ depends on MALI400
+ ---help---
+ This enabled extra debug checks and messages in the Mali driver.
+
+config MALI400_PROFILING
+ bool "Enable Mali profiling"
+ depends on MALI400
+ select TRACEPOINTS
+ default y
+ ---help---
+ This enables gator profiling of Mali GPU events.
+
+config MALI400_INTERNAL_PROFILING
+ bool "Enable internal Mali profiling API"
+ depends on MALI400_PROFILING
+ default n
+ ---help---
+ This enables the internal legacy Mali profiling API.
+
+config MALI400_UMP
+ bool "Enable UMP support"
+ depends on MALI400
+ ---help---
+ This enables support for the UMP memory sharing API in the Mali driver.
+
+config MALI400_POWER_PERFORMANCE_POLICY
+ bool "Enable Mali power performance policy"
+ depends on ARM
+ default n
+ ---help---
+ This enables support for dynamic performance scaling of Mali with the goal of lowering power consumption.
+
+config MALI_DMA_BUF_MAP_ON_ATTACH
+ bool "Map dma-buf attachments on attach"
+ depends on MALI400 && DMA_SHARED_BUFFER
+ default y
+ ---help---
+ This makes the Mali driver map dma-buf attachments after doing
+ attach. If this is not set the dma-buf attachments will be mapped for
+ every time the GPU need to access the buffer.
+
+ Mapping for each access can cause lower performance.
+
+config MALI_SHARED_INTERRUPTS
+ bool "Support for shared interrupts"
+ depends on MALI400
+ default n
+ ---help---
+ Adds functionality required to properly support shared interrupts. Without this support,
+ the device driver will fail during insmod if it detects shared interrupts. This also
+ works when the GPU is not using shared interrupts, but might have a slight performance
+ impact.
+
+config MALI_PMU_PARALLEL_POWER_UP
+ bool "Power up Mali PMU domains in parallel"
+ depends on MALI400
+ default n
+ ---help---
+ This makes the Mali driver power up all PMU power domains in parallel, instead of
+ powering up domains one by one, with a slight delay in between. Powering on all power
+ domains at the same time may cause peak currents higher than what some systems can handle.
+ These systems must not enable this option.
--- /dev/null
+const char *__malidrv_build_info(void) { return "malidrv: API_VERSION=401 REPO_URL=heads/develop-3.10-next REVISION=r4p0-00rel0-lsk-android-14.05-18365-g3172295 CHANGED_REVISION=lsk-android-14.05-18365-g3172295 CHANGE_DATE=2014-06-26 20:38:04 +0800 BUILD_DATE=2014年 06月 30日 星期一 12:43:13 CST BUILD=debug TARGET_PLATFORM=rk30 MALI_PLATFORM= KDIR= OS_MEMORY_KERNEL_BUFFER_SIZE_IN_MB=16 USING_UMP=y USING_PROFILING= USING_INTERNAL_PROFILING= USING_GPU_UTILIZATION=1 USING_POWER_PERFORMANCE_POLICY= MALI_UPPER_HALF_SCHEDULING=1";}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_broadcast.h"
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+
+static const int bcast_unit_reg_size = 0x1000;
+static const int bcast_unit_addr_broadcast_mask = 0x0;
+static const int bcast_unit_addr_irq_override_mask = 0x4;
+
+struct mali_bcast_unit {
+ struct mali_hw_core hw_core;
+ u32 current_mask;
+};
+
+struct mali_bcast_unit *mali_bcast_unit_create(const _mali_osk_resource_t *resource)
+{
+ struct mali_bcast_unit *bcast_unit = NULL;
+
+ MALI_DEBUG_ASSERT_POINTER(resource);
+ MALI_DEBUG_PRINT(2, ("Mali Broadcast unit: Creating Mali Broadcast unit: %s\n", resource->description));
+
+ bcast_unit = _mali_osk_malloc(sizeof(struct mali_bcast_unit));
+ if (NULL == bcast_unit) {
+ MALI_PRINT_ERROR(("Mali Broadcast unit: Failed to allocate memory for Broadcast unit\n"));
+ return NULL;
+ }
+
+ if (_MALI_OSK_ERR_OK == mali_hw_core_create(&bcast_unit->hw_core, resource, bcast_unit_reg_size)) {
+ bcast_unit->current_mask = 0;
+ mali_bcast_reset(bcast_unit);
+
+ return bcast_unit;
+ } else {
+ MALI_PRINT_ERROR(("Mali Broadcast unit: Failed map broadcast unit\n"));
+ }
+
+ _mali_osk_free(bcast_unit);
+
+ return NULL;
+}
+
+void mali_bcast_unit_delete(struct mali_bcast_unit *bcast_unit)
+{
+ MALI_DEBUG_ASSERT_POINTER(bcast_unit);
+
+ mali_hw_core_delete(&bcast_unit->hw_core);
+ _mali_osk_free(bcast_unit);
+}
+
+void mali_bcast_add_group(struct mali_bcast_unit *bcast_unit, struct mali_group *group)
+{
+ u32 bcast_id;
+ u32 broadcast_mask;
+
+ MALI_DEBUG_ASSERT_POINTER(bcast_unit);
+ MALI_DEBUG_ASSERT_POINTER(group);
+
+ bcast_id = mali_pp_core_get_bcast_id(mali_group_get_pp_core(group));
+
+ broadcast_mask = bcast_unit->current_mask;
+
+ broadcast_mask |= (bcast_id); /* add PP core to broadcast */
+ broadcast_mask |= (bcast_id << 16); /* add MMU to broadcast */
+
+ /* store mask so we can restore on reset */
+ bcast_unit->current_mask = broadcast_mask;
+}
+
+void mali_bcast_remove_group(struct mali_bcast_unit *bcast_unit, struct mali_group *group)
+{
+ u32 bcast_id;
+ u32 broadcast_mask;
+
+ MALI_DEBUG_ASSERT_POINTER(bcast_unit);
+ MALI_DEBUG_ASSERT_POINTER(group);
+
+ bcast_id = mali_pp_core_get_bcast_id(mali_group_get_pp_core(group));
+
+ broadcast_mask = bcast_unit->current_mask;
+
+ broadcast_mask &= ~((bcast_id << 16) | bcast_id);
+
+ /* store mask so we can restore on reset */
+ bcast_unit->current_mask = broadcast_mask;
+}
+
+void mali_bcast_reset(struct mali_bcast_unit *bcast_unit)
+{
+ MALI_DEBUG_ASSERT_POINTER(bcast_unit);
+
+ /* set broadcast mask */
+ mali_hw_core_register_write(&bcast_unit->hw_core,
+ bcast_unit_addr_broadcast_mask,
+ bcast_unit->current_mask);
+
+ /* set IRQ override mask */
+ mali_hw_core_register_write(&bcast_unit->hw_core,
+ bcast_unit_addr_irq_override_mask,
+ bcast_unit->current_mask & 0xFF);
+}
+
+void mali_bcast_disable(struct mali_bcast_unit *bcast_unit)
+{
+ MALI_DEBUG_ASSERT_POINTER(bcast_unit);
+
+ /* set broadcast mask */
+ mali_hw_core_register_write(&bcast_unit->hw_core,
+ bcast_unit_addr_broadcast_mask,
+ 0x0);
+
+ /* set IRQ override mask */
+ mali_hw_core_register_write(&bcast_unit->hw_core,
+ bcast_unit_addr_irq_override_mask,
+ 0x0);
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/*
+ * Interface for the broadcast unit on Mali-450.
+ *
+ * - Represents up to 8 × (MMU + PP) pairs.
+ * - Supports dynamically changing which (MMU + PP) pairs receive the broadcast by
+ * setting a mask.
+ */
+
+#include "mali_hw_core.h"
+#include "mali_group.h"
+
+struct mali_bcast_unit;
+
+struct mali_bcast_unit *mali_bcast_unit_create(const _mali_osk_resource_t *resource);
+void mali_bcast_unit_delete(struct mali_bcast_unit *bcast_unit);
+
+/* Add a group to the list of (MMU + PP) pairs broadcasts go out to. */
+void mali_bcast_add_group(struct mali_bcast_unit *bcast_unit, struct mali_group *group);
+
+/* Remove a group to the list of (MMU + PP) pairs broadcasts go out to. */
+void mali_bcast_remove_group(struct mali_bcast_unit *bcast_unit, struct mali_group *group);
+
+/* Re-set cached mask. This needs to be called after having been suspended. */
+void mali_bcast_reset(struct mali_bcast_unit *bcast_unit);
+
+/**
+ * Disable broadcast unit
+ *
+ * mali_bcast_enable must be called to re-enable the unit. Cores may not be
+ * added or removed when the unit is disabled.
+ */
+void mali_bcast_disable(struct mali_bcast_unit *bcast_unit);
+
+/**
+ * Re-enable broadcast unit
+ *
+ * This resets the masks to include the cores present when mali_bcast_disable was called.
+ */
+MALI_STATIC_INLINE void mali_bcast_enable(struct mali_bcast_unit *bcast_unit)
+{
+ mali_bcast_reset(bcast_unit);
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_dlbu.h"
+#include "mali_memory.h"
+#include "mali_pp.h"
+#include "mali_group.h"
+#include "mali_osk.h"
+#include "mali_hw_core.h"
+
+/**
+ * Size of DLBU registers in bytes
+ */
+#define MALI_DLBU_SIZE 0x400
+
+u32 mali_dlbu_phys_addr = 0;
+static mali_io_address mali_dlbu_cpu_addr = 0;
+
+/**
+ * DLBU register numbers
+ * Used in the register read/write routines.
+ * See the hardware documentation for more information about each register
+ */
+typedef enum mali_dlbu_register {
+ MALI_DLBU_REGISTER_MASTER_TLLIST_PHYS_ADDR = 0x0000, /**< Master tile list physical base address;
+ 31:12 Physical address to the page used for the DLBU
+ 0 DLBU enable - set this bit to 1 enables the AXI bus
+ between PPs and L2s, setting to 0 disables the router and
+ no further transactions are sent to DLBU */
+ MALI_DLBU_REGISTER_MASTER_TLLIST_VADDR = 0x0004, /**< Master tile list virtual base address;
+ 31:12 Virtual address to the page used for the DLBU */
+ MALI_DLBU_REGISTER_TLLIST_VBASEADDR = 0x0008, /**< Tile list virtual base address;
+ 31:12 Virtual address to the tile list. This address is used when
+ calculating the call address sent to PP.*/
+ MALI_DLBU_REGISTER_FB_DIM = 0x000C, /**< Framebuffer dimension;
+ 23:16 Number of tiles in Y direction-1
+ 7:0 Number of tiles in X direction-1 */
+ MALI_DLBU_REGISTER_TLLIST_CONF = 0x0010, /**< Tile list configuration;
+ 29:28 select the size of each allocated block: 0=128 bytes, 1=256, 2=512, 3=1024
+ 21:16 2^n number of tiles to be binned to one tile list in Y direction
+ 5:0 2^n number of tiles to be binned to one tile list in X direction */
+ MALI_DLBU_REGISTER_START_TILE_POS = 0x0014, /**< Start tile positions;
+ 31:24 start position in Y direction for group 1
+ 23:16 start position in X direction for group 1
+ 15:8 start position in Y direction for group 0
+ 7:0 start position in X direction for group 0 */
+ MALI_DLBU_REGISTER_PP_ENABLE_MASK = 0x0018, /**< PP enable mask;
+ 7 enable PP7 for load balancing
+ 6 enable PP6 for load balancing
+ 5 enable PP5 for load balancing
+ 4 enable PP4 for load balancing
+ 3 enable PP3 for load balancing
+ 2 enable PP2 for load balancing
+ 1 enable PP1 for load balancing
+ 0 enable PP0 for load balancing */
+} mali_dlbu_register;
+
+typedef enum {
+ PP0ENABLE = 0,
+ PP1ENABLE,
+ PP2ENABLE,
+ PP3ENABLE,
+ PP4ENABLE,
+ PP5ENABLE,
+ PP6ENABLE,
+ PP7ENABLE
+} mali_dlbu_pp_enable;
+
+struct mali_dlbu_core {
+ struct mali_hw_core hw_core; /**< Common for all HW cores */
+ u32 pp_cores_mask; /**< This is a mask for the PP cores whose operation will be controlled by LBU
+ see MALI_DLBU_REGISTER_PP_ENABLE_MASK register */
+};
+
+_mali_osk_errcode_t mali_dlbu_initialize(void)
+{
+
+ MALI_DEBUG_PRINT(2, ("Mali DLBU: Initializing\n"));
+
+ if (_MALI_OSK_ERR_OK == mali_mmu_get_table_page(&mali_dlbu_phys_addr, &mali_dlbu_cpu_addr)) {
+ MALI_SUCCESS;
+ }
+
+ return _MALI_OSK_ERR_FAULT;
+}
+
+void mali_dlbu_terminate(void)
+{
+ MALI_DEBUG_PRINT(3, ("Mali DLBU: terminating\n"));
+
+ mali_mmu_release_table_page(mali_dlbu_phys_addr, mali_dlbu_cpu_addr);
+}
+
+struct mali_dlbu_core *mali_dlbu_create(const _mali_osk_resource_t * resource)
+{
+ struct mali_dlbu_core *core = NULL;
+
+ MALI_DEBUG_PRINT(2, ("Mali DLBU: Creating Mali dynamic load balancing unit: %s\n", resource->description));
+
+ core = _mali_osk_malloc(sizeof(struct mali_dlbu_core));
+ if (NULL != core) {
+ if (_MALI_OSK_ERR_OK == mali_hw_core_create(&core->hw_core, resource, MALI_DLBU_SIZE)) {
+ core->pp_cores_mask = 0;
+ if (_MALI_OSK_ERR_OK == mali_dlbu_reset(core)) {
+ return core;
+ }
+ MALI_PRINT_ERROR(("Failed to reset DLBU %s\n", core->hw_core.description));
+ mali_hw_core_delete(&core->hw_core);
+ }
+
+ _mali_osk_free(core);
+ } else {
+ MALI_PRINT_ERROR(("Mali DLBU: Failed to allocate memory for DLBU core\n"));
+ }
+
+ return NULL;
+}
+
+void mali_dlbu_delete(struct mali_dlbu_core *dlbu)
+{
+ MALI_DEBUG_ASSERT_POINTER(dlbu);
+
+ mali_dlbu_reset(dlbu);
+ mali_hw_core_delete(&dlbu->hw_core);
+ _mali_osk_free(dlbu);
+}
+
+_mali_osk_errcode_t mali_dlbu_reset(struct mali_dlbu_core *dlbu)
+{
+ u32 dlbu_registers[7];
+ _mali_osk_errcode_t err = _MALI_OSK_ERR_FAULT;
+ MALI_DEBUG_ASSERT_POINTER(dlbu);
+
+ MALI_DEBUG_PRINT(4, ("Mali DLBU: mali_dlbu_reset: %s\n", dlbu->hw_core.description));
+
+ dlbu_registers[0] = mali_dlbu_phys_addr | 1; /* bit 0 enables the whole core */
+ dlbu_registers[1] = MALI_DLBU_VIRT_ADDR;
+ dlbu_registers[2] = 0;
+ dlbu_registers[3] = 0;
+ dlbu_registers[4] = 0;
+ dlbu_registers[5] = 0;
+ dlbu_registers[6] = dlbu->pp_cores_mask;
+
+ /* write reset values to core registers */
+ mali_hw_core_register_write_array_relaxed(&dlbu->hw_core, MALI_DLBU_REGISTER_MASTER_TLLIST_PHYS_ADDR, dlbu_registers, 7);
+
+ err = _MALI_OSK_ERR_OK;
+
+ return err;
+}
+
+void mali_dlbu_update_mask(struct mali_dlbu_core *dlbu)
+{
+ MALI_DEBUG_ASSERT_POINTER(dlbu);
+
+ mali_hw_core_register_write(&dlbu->hw_core, MALI_DLBU_REGISTER_PP_ENABLE_MASK, dlbu->pp_cores_mask);
+}
+
+void mali_dlbu_add_group(struct mali_dlbu_core *dlbu, struct mali_group *group)
+{
+ struct mali_pp_core *pp_core;
+ u32 bcast_id;
+
+ MALI_DEBUG_ASSERT_POINTER( dlbu );
+ MALI_DEBUG_ASSERT_POINTER( group );
+
+ pp_core = mali_group_get_pp_core(group);
+ bcast_id = mali_pp_core_get_bcast_id(pp_core);
+
+ dlbu->pp_cores_mask |= bcast_id;
+ MALI_DEBUG_PRINT(3, ("Mali DLBU: Adding core[%d] New mask= 0x%02x\n", bcast_id , dlbu->pp_cores_mask));
+}
+
+/* Remove a group from the DLBU */
+void mali_dlbu_remove_group(struct mali_dlbu_core *dlbu, struct mali_group *group)
+{
+ struct mali_pp_core *pp_core;
+ u32 bcast_id;
+
+ MALI_DEBUG_ASSERT_POINTER( dlbu );
+ MALI_DEBUG_ASSERT_POINTER( group );
+
+ pp_core = mali_group_get_pp_core(group);
+ bcast_id = mali_pp_core_get_bcast_id(pp_core);
+
+ dlbu->pp_cores_mask &= ~bcast_id;
+ MALI_DEBUG_PRINT(3, ("Mali DLBU: Removing core[%d] New mask= 0x%02x\n", bcast_id, dlbu->pp_cores_mask));
+}
+
+/* Configure the DLBU for \a job. This needs to be done before the job is started on the groups in the DLBU. */
+void mali_dlbu_config_job(struct mali_dlbu_core *dlbu, struct mali_pp_job *job)
+{
+ u32 *registers;
+ MALI_DEBUG_ASSERT(job);
+ registers = mali_pp_job_get_dlbu_registers(job);
+ MALI_DEBUG_PRINT(4, ("Mali DLBU: Starting job\n"));
+
+ /* Writing 4 registers:
+ * DLBU registers except the first two (written once at DLBU initialisation / reset) and the PP_ENABLE_MASK register */
+ mali_hw_core_register_write_array_relaxed(&dlbu->hw_core, MALI_DLBU_REGISTER_TLLIST_VBASEADDR, registers, 4);
+
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_DLBU_H__
+#define __MALI_DLBU_H__
+
+#define MALI_DLBU_VIRT_ADDR 0xFFF00000 /* master tile virtual address fixed at this value and mapped into every session */
+
+#include "mali_osk.h"
+
+struct mali_pp_job;
+struct mali_group;
+
+extern u32 mali_dlbu_phys_addr;
+
+struct mali_dlbu_core;
+
+_mali_osk_errcode_t mali_dlbu_initialize(void);
+void mali_dlbu_terminate(void);
+
+struct mali_dlbu_core *mali_dlbu_create(const _mali_osk_resource_t * resource);
+void mali_dlbu_delete(struct mali_dlbu_core *dlbu);
+
+_mali_osk_errcode_t mali_dlbu_reset(struct mali_dlbu_core *dlbu);
+
+void mali_dlbu_add_group(struct mali_dlbu_core *dlbu, struct mali_group *group);
+void mali_dlbu_remove_group(struct mali_dlbu_core *dlbu, struct mali_group *group);
+
+/** @brief Called to update HW after DLBU state changed
+ *
+ * This function must be called after \a mali_dlbu_add_group or \a
+ * mali_dlbu_remove_group to write the updated mask to hardware, unless the
+ * same is accomplished by calling \a mali_dlbu_reset.
+ */
+void mali_dlbu_update_mask(struct mali_dlbu_core *dlbu);
+
+void mali_dlbu_config_job(struct mali_dlbu_core *dlbu, struct mali_pp_job *job);
+
+#endif /* __MALI_DLBU_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+#include "mali_hw_core.h"
+#include "mali_dma.h"
+
+/**
+ * Size of the Mali-450 DMA unit registers in bytes.
+ */
+#define MALI450_DMA_REG_SIZE 0x08
+
+/**
+ * Value that appears in MEMSIZE if an error occurs when reading the command list.
+ */
+#define MALI450_DMA_BUS_ERR_VAL 0xffffffff
+
+/**
+ * Mali DMA registers
+ * Used in the register read/write routines.
+ * See the hardware documentation for more information about each register.
+ */
+typedef enum mali_dma_register {
+
+ MALI450_DMA_REG_SOURCE_ADDRESS = 0x0000,
+ MALI450_DMA_REG_SOURCE_SIZE = 0x0004,
+} mali_dma_register;
+
+struct mali_dma_core {
+ struct mali_hw_core hw_core; /**< Common for all HW cores */
+ _mali_osk_spinlock_t *lock; /**< Lock protecting access to DMA core */
+ mali_dma_pool pool; /**< Memory pool for command buffers */
+};
+
+static struct mali_dma_core *mali_global_dma_core = NULL;
+
+struct mali_dma_core *mali_dma_create(_mali_osk_resource_t *resource)
+{
+ struct mali_dma_core* dma;
+ _mali_osk_errcode_t err;
+
+ MALI_DEBUG_ASSERT(NULL == mali_global_dma_core);
+
+ dma = _mali_osk_malloc(sizeof(struct mali_dma_core));
+ if (dma == NULL) goto alloc_failed;
+
+ dma->lock = _mali_osk_spinlock_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_DMA_COMMAND);
+ if (NULL == dma->lock) goto lock_init_failed;
+
+ dma->pool = mali_dma_pool_create(MALI_DMA_CMD_BUF_SIZE, 4, 0);
+ if (NULL == dma->pool) goto dma_pool_failed;
+
+ err = mali_hw_core_create(&dma->hw_core, resource, MALI450_DMA_REG_SIZE);
+ if (_MALI_OSK_ERR_OK != err) goto hw_core_failed;
+
+ mali_global_dma_core = dma;
+ MALI_DEBUG_PRINT(2, ("Mali DMA: Created Mali APB DMA unit\n"));
+ return dma;
+
+ /* Error handling */
+
+hw_core_failed:
+ mali_dma_pool_destroy(dma->pool);
+dma_pool_failed:
+ _mali_osk_spinlock_term(dma->lock);
+lock_init_failed:
+ _mali_osk_free(dma);
+alloc_failed:
+ MALI_DEBUG_PRINT(2, ("Mali DMA: Failed to create APB DMA unit\n"));
+ return NULL;
+}
+
+void mali_dma_delete(struct mali_dma_core *dma)
+{
+ MALI_DEBUG_ASSERT_POINTER(dma);
+
+ MALI_DEBUG_PRINT(2, ("Mali DMA: Deleted Mali APB DMA unit\n"));
+
+ mali_hw_core_delete(&dma->hw_core);
+ _mali_osk_spinlock_term(dma->lock);
+ mali_dma_pool_destroy(dma->pool);
+ _mali_osk_free(dma);
+}
+
+static void mali_dma_bus_error(struct mali_dma_core *dma)
+{
+ u32 addr = mali_hw_core_register_read(&dma->hw_core, MALI450_DMA_REG_SOURCE_ADDRESS);
+
+ MALI_PRINT_ERROR(("Mali DMA: Bus error when reading command list from 0x%lx\n", addr));
+
+ /* Clear the bus error */
+ mali_hw_core_register_write(&dma->hw_core, MALI450_DMA_REG_SOURCE_SIZE, 0);
+}
+
+static mali_bool mali_dma_is_busy(struct mali_dma_core *dma)
+{
+ u32 val;
+ mali_bool dma_busy_flag = MALI_FALSE;
+
+ MALI_DEBUG_ASSERT_POINTER(dma);
+
+ val = mali_hw_core_register_read(&dma->hw_core, MALI450_DMA_REG_SOURCE_SIZE);
+
+ if (MALI450_DMA_BUS_ERR_VAL == val) {
+ /* Bus error reading command list */
+ mali_dma_bus_error(dma);
+ return MALI_FALSE;
+ }
+ if (val > 0) {
+ dma_busy_flag = MALI_TRUE;
+ }
+
+ return dma_busy_flag;
+}
+
+static void mali_dma_start_transfer(struct mali_dma_core* dma, mali_dma_cmd_buf *buf)
+{
+ u32 memsize = buf->size * 4;
+ u32 addr = buf->phys_addr;
+
+ MALI_DEBUG_ASSERT_POINTER(dma);
+ MALI_DEBUG_ASSERT(memsize < (1 << 16));
+ MALI_DEBUG_ASSERT(0 == (memsize & 0x3)); /* 4 byte aligned */
+
+ MALI_DEBUG_ASSERT(!mali_dma_is_busy(dma));
+
+ /* Writes the physical source memory address of chunk containing command headers and data */
+ mali_hw_core_register_write(&dma->hw_core, MALI450_DMA_REG_SOURCE_ADDRESS, addr);
+
+ /* Writes the length of transfer */
+ mali_hw_core_register_write(&dma->hw_core, MALI450_DMA_REG_SOURCE_SIZE, memsize);
+}
+
+_mali_osk_errcode_t mali_dma_get_cmd_buf(mali_dma_cmd_buf *buf)
+{
+ MALI_DEBUG_ASSERT_POINTER(buf);
+
+ buf->virt_addr = (u32*)mali_dma_pool_alloc(mali_global_dma_core->pool, &buf->phys_addr);
+ if (NULL == buf->virt_addr) {
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ /* size contains the number of words in the buffer and is incremented
+ * as commands are added to the buffer. */
+ buf->size = 0;
+
+ return _MALI_OSK_ERR_OK;
+}
+
+void mali_dma_put_cmd_buf(mali_dma_cmd_buf *buf)
+{
+ MALI_DEBUG_ASSERT_POINTER(buf);
+
+ if (NULL == buf->virt_addr) return;
+
+ mali_dma_pool_free(mali_global_dma_core->pool, buf->virt_addr, buf->phys_addr);
+
+ buf->virt_addr = NULL;
+}
+
+_mali_osk_errcode_t mali_dma_start(struct mali_dma_core* dma, mali_dma_cmd_buf *buf)
+{
+ _mali_osk_errcode_t err = _MALI_OSK_ERR_OK;
+
+ _mali_osk_spinlock_lock(dma->lock);
+
+ if (mali_dma_is_busy(dma)) {
+ err = _MALI_OSK_ERR_BUSY;
+ goto out;
+ }
+
+ mali_dma_start_transfer(dma, buf);
+
+out:
+ _mali_osk_spinlock_unlock(dma->lock);
+ return err;
+}
+
+void mali_dma_debug(struct mali_dma_core *dma)
+{
+ MALI_DEBUG_ASSERT_POINTER(dma);
+ MALI_DEBUG_PRINT(1, ("DMA unit registers:\n\t%08x, %08x\n",
+ mali_hw_core_register_read(&dma->hw_core, MALI450_DMA_REG_SOURCE_ADDRESS),
+ mali_hw_core_register_read(&dma->hw_core, MALI450_DMA_REG_SOURCE_SIZE)
+ ));
+
+}
+
+struct mali_dma_core *mali_dma_get_global_dma_core(void)
+{
+ /* Returns the global dma core object */
+ return mali_global_dma_core;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_DMA_H__
+#define __MALI_DMA_H__
+
+#include "mali_osk.h"
+#include "mali_osk_mali.h"
+#include "mali_hw_core.h"
+
+#define MALI_DMA_CMD_BUF_SIZE 1024
+
+typedef struct mali_dma_cmd_buf {
+ u32 *virt_addr; /**< CPU address of command buffer */
+ u32 phys_addr; /**< Physical address of command buffer */
+ u32 size; /**< Number of prepared words in command buffer */
+} mali_dma_cmd_buf;
+
+/** @brief Create a new DMA unit
+ *
+ * This is called from entry point of the driver in order to create and
+ * intialize the DMA resource
+ *
+ * @param resource it will be a pointer to a DMA resource
+ * @return DMA object on success, NULL on failure
+ */
+struct mali_dma_core *mali_dma_create(_mali_osk_resource_t *resource);
+
+/** @brief Delete DMA unit
+ *
+ * This is called on entry point of driver if the driver initialization fails
+ * after initialization of the DMA unit. It is also called on the exit of the
+ * driver to delete the DMA resource
+ *
+ * @param dma Pointer to DMA unit object
+ */
+void mali_dma_delete(struct mali_dma_core *dma);
+
+/** @brief Retrieves the MALI DMA core object (if there is)
+ *
+ * @return The Mali DMA object otherwise NULL
+ */
+struct mali_dma_core *mali_dma_get_global_dma_core(void);
+
+/**
+ * @brief Run a command buffer on the DMA unit
+ *
+ * @param dma Pointer to the DMA unit to use
+ * @param buf Pointer to the command buffer to use
+ * @return _MALI_OSK_ERR_OK if the buffer was started successfully,
+ * _MALI_OSK_ERR_BUSY if the DMA unit is busy.
+ */
+_mali_osk_errcode_t mali_dma_start(struct mali_dma_core* dma, mali_dma_cmd_buf *buf);
+
+/**
+ * @brief Create a DMA command
+ *
+ * @param core Mali core
+ * @param reg offset to register of core
+ * @param n number of registers to write
+ */
+MALI_STATIC_INLINE u32 mali_dma_command_write(struct mali_hw_core *core, u32 reg, u32 n)
+{
+ u32 core_offset = core->phys_offset;
+
+ MALI_DEBUG_ASSERT(reg < 0x2000);
+ MALI_DEBUG_ASSERT(n < 0x800);
+ MALI_DEBUG_ASSERT(core_offset < 0x30000);
+ MALI_DEBUG_ASSERT(0 == ((core_offset + reg) & ~0x7FFFF));
+
+ return (n << 20) | (core_offset + reg);
+}
+
+/**
+ * @brief Add a array write to DMA command buffer
+ *
+ * @param buf DMA command buffer to fill in
+ * @param core Core to do DMA to
+ * @param reg Register on core to start writing to
+ * @param data Pointer to data to write
+ * @param count Number of 4 byte words to write
+ */
+MALI_STATIC_INLINE void mali_dma_write_array(mali_dma_cmd_buf *buf, struct mali_hw_core *core,
+ u32 reg, u32 *data, u32 count)
+{
+ MALI_DEBUG_ASSERT((buf->size + 1 + count ) < MALI_DMA_CMD_BUF_SIZE / 4);
+
+ buf->virt_addr[buf->size++] = mali_dma_command_write(core, reg, count);
+
+ _mali_osk_memcpy(buf->virt_addr + buf->size, data, count * sizeof(*buf->virt_addr));
+
+ buf->size += count;
+}
+
+/**
+ * @brief Add a conditional array write to DMA command buffer
+ *
+ * @param buf DMA command buffer to fill in
+ * @param core Core to do DMA to
+ * @param reg Register on core to start writing to
+ * @param data Pointer to data to write
+ * @param count Number of 4 byte words to write
+ * @param ref Pointer to referance data that can be skipped if equal
+ */
+MALI_STATIC_INLINE void mali_dma_write_array_conditional(mali_dma_cmd_buf *buf, struct mali_hw_core *core,
+ u32 reg, u32 *data, u32 count, const u32 *ref)
+{
+ /* Do conditional array writes are not yet implemented, fallback to a
+ * normal array write. */
+ mali_dma_write_array(buf, core, reg, data, count);
+}
+
+/**
+ * @brief Add a conditional register write to the DMA command buffer
+ *
+ * If the data matches the reference the command will be skipped.
+ *
+ * @param buf DMA command buffer to fill in
+ * @param core Core to do DMA to
+ * @param reg Register on core to start writing to
+ * @param data Pointer to data to write
+ * @param ref Pointer to referance data that can be skipped if equal
+ */
+MALI_STATIC_INLINE void mali_dma_write_conditional(mali_dma_cmd_buf *buf, struct mali_hw_core *core,
+ u32 reg, u32 data, const u32 ref)
+{
+ /* Skip write if reference value is equal to data. */
+ if (data == ref) return;
+
+ buf->virt_addr[buf->size++] = mali_dma_command_write(core, reg, 1);
+
+ buf->virt_addr[buf->size++] = data;
+
+ MALI_DEBUG_ASSERT(buf->size < MALI_DMA_CMD_BUF_SIZE / 4);
+}
+
+/**
+ * @brief Add a register write to the DMA command buffer
+ *
+ * @param buf DMA command buffer to fill in
+ * @param core Core to do DMA to
+ * @param reg Register on core to start writing to
+ * @param data Pointer to data to write
+ */
+MALI_STATIC_INLINE void mali_dma_write(mali_dma_cmd_buf *buf, struct mali_hw_core *core,
+ u32 reg, u32 data)
+{
+ buf->virt_addr[buf->size++] = mali_dma_command_write(core, reg, 1);
+
+ buf->virt_addr[buf->size++] = data;
+
+ MALI_DEBUG_ASSERT(buf->size < MALI_DMA_CMD_BUF_SIZE / 4);
+}
+
+/**
+ * @brief Prepare DMA command buffer for use
+ *
+ * This function allocates the DMA buffer itself.
+ *
+ * @param buf The mali_dma_cmd_buf to prepare
+ * @return _MALI_OSK_ERR_OK if the \a buf is ready to use
+ */
+_mali_osk_errcode_t mali_dma_get_cmd_buf(mali_dma_cmd_buf *buf);
+
+/**
+ * @brief Check if a DMA command buffer is ready for use
+ *
+ * @param buf The mali_dma_cmd_buf to check
+ * @return MALI_TRUE if buffer is usable, MALI_FALSE otherwise
+ */
+MALI_STATIC_INLINE mali_bool mali_dma_cmd_buf_is_valid(mali_dma_cmd_buf *buf)
+{
+ return NULL != buf->virt_addr;
+}
+
+/**
+ * @brief Return a DMA command buffer
+ *
+ * @param buf Pointer to DMA command buffer to return
+ */
+void mali_dma_put_cmd_buf(mali_dma_cmd_buf *buf);
+
+#endif /* __MALI_DMA_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_gp.h"
+#include "mali_hw_core.h"
+#include "mali_group.h"
+#include "mali_osk.h"
+#include "regs/mali_gp_regs.h"
+#include "mali_kernel_common.h"
+#include "mali_kernel_core.h"
+#if defined(CONFIG_MALI400_PROFILING)
+#include "mali_osk_profiling.h"
+#endif
+
+static struct mali_gp_core *mali_global_gp_core = NULL;
+
+/* Interrupt handlers */
+static void mali_gp_irq_probe_trigger(void *data);
+static _mali_osk_errcode_t mali_gp_irq_probe_ack(void *data);
+
+struct mali_gp_core *mali_gp_create(const _mali_osk_resource_t * resource, struct mali_group *group)
+{
+ struct mali_gp_core* core = NULL;
+
+ MALI_DEBUG_ASSERT(NULL == mali_global_gp_core);
+ MALI_DEBUG_PRINT(2, ("Mali GP: Creating Mali GP core: %s\n", resource->description));
+
+ core = _mali_osk_malloc(sizeof(struct mali_gp_core));
+ if (NULL != core) {
+ if (_MALI_OSK_ERR_OK == mali_hw_core_create(&core->hw_core, resource, MALIGP2_REGISTER_ADDRESS_SPACE_SIZE)) {
+ _mali_osk_errcode_t ret;
+
+ ret = mali_gp_reset(core);
+
+ if (_MALI_OSK_ERR_OK == ret) {
+ ret = mali_group_add_gp_core(group, core);
+ if (_MALI_OSK_ERR_OK == ret) {
+ /* Setup IRQ handlers (which will do IRQ probing if needed) */
+ core->irq = _mali_osk_irq_init(resource->irq,
+ mali_group_upper_half_gp,
+ group,
+ mali_gp_irq_probe_trigger,
+ mali_gp_irq_probe_ack,
+ core,
+ resource->description);
+ if (NULL != core->irq) {
+ MALI_DEBUG_PRINT(4, ("Mali GP: set global gp core from 0x%08X to 0x%08X\n", mali_global_gp_core, core));
+ mali_global_gp_core = core;
+
+ return core;
+ } else {
+ MALI_PRINT_ERROR(("Mali GP: Failed to setup interrupt handlers for GP core %s\n", core->hw_core.description));
+ }
+ mali_group_remove_gp_core(group);
+ } else {
+ MALI_PRINT_ERROR(("Mali GP: Failed to add core %s to group\n", core->hw_core.description));
+ }
+ }
+ mali_hw_core_delete(&core->hw_core);
+ }
+
+ _mali_osk_free(core);
+ } else {
+ MALI_PRINT_ERROR(("Failed to allocate memory for GP core\n"));
+ }
+
+ return NULL;
+}
+
+void mali_gp_delete(struct mali_gp_core *core)
+{
+ MALI_DEBUG_ASSERT_POINTER(core);
+
+ _mali_osk_irq_term(core->irq);
+ mali_hw_core_delete(&core->hw_core);
+ mali_global_gp_core = NULL;
+ _mali_osk_free(core);
+}
+
+void mali_gp_stop_bus(struct mali_gp_core *core)
+{
+ MALI_DEBUG_ASSERT_POINTER(core);
+
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_CMD, MALIGP2_REG_VAL_CMD_STOP_BUS);
+}
+
+_mali_osk_errcode_t mali_gp_stop_bus_wait(struct mali_gp_core *core)
+{
+ int i;
+
+ MALI_DEBUG_ASSERT_POINTER(core);
+
+ /* Send the stop bus command. */
+ mali_gp_stop_bus(core);
+
+ /* Wait for bus to be stopped */
+ for (i = 0; i < MALI_REG_POLL_COUNT_FAST; i++) {
+ if (mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_STATUS) & MALIGP2_REG_VAL_STATUS_BUS_STOPPED) {
+ break;
+ }
+ }
+
+ if (MALI_REG_POLL_COUNT_FAST == i) {
+ MALI_PRINT_ERROR(("Mali GP: Failed to stop bus on %s\n", core->hw_core.description));
+ return _MALI_OSK_ERR_FAULT;
+ }
+ return _MALI_OSK_ERR_OK;
+}
+
+void mali_gp_hard_reset(struct mali_gp_core *core)
+{
+ const u32 reset_wait_target_register = MALIGP2_REG_ADDR_MGMT_WRITE_BOUND_LOW;
+ const u32 reset_invalid_value = 0xC0FFE000;
+ const u32 reset_check_value = 0xC01A0000;
+ const u32 reset_default_value = 0;
+ int i;
+
+ MALI_DEBUG_ASSERT_POINTER(core);
+ MALI_DEBUG_PRINT(4, ("Mali GP: Hard reset of core %s\n", core->hw_core.description));
+
+ mali_hw_core_register_write(&core->hw_core, reset_wait_target_register, reset_invalid_value);
+
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_CMD, MALIGP2_REG_VAL_CMD_RESET);
+
+ for (i = 0; i < MALI_REG_POLL_COUNT_FAST; i++) {
+ mali_hw_core_register_write(&core->hw_core, reset_wait_target_register, reset_check_value);
+ if (reset_check_value == mali_hw_core_register_read(&core->hw_core, reset_wait_target_register)) {
+ break;
+ }
+ }
+
+ if (MALI_REG_POLL_COUNT_FAST == i) {
+ MALI_PRINT_ERROR(("Mali GP: The hard reset loop didn't work, unable to recover\n"));
+ }
+
+ mali_hw_core_register_write(&core->hw_core, reset_wait_target_register, reset_default_value); /* set it back to the default */
+ /* Re-enable interrupts */
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_CLEAR, MALIGP2_REG_VAL_IRQ_MASK_ALL);
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_MASK, MALIGP2_REG_VAL_IRQ_MASK_USED);
+
+}
+
+void mali_gp_reset_async(struct mali_gp_core *core)
+{
+ MALI_DEBUG_ASSERT_POINTER(core);
+
+ MALI_DEBUG_PRINT(4, ("Mali GP: Reset of core %s\n", core->hw_core.description));
+
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_MASK, 0); /* disable the IRQs */
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_CLEAR, MALI400GP_REG_VAL_IRQ_RESET_COMPLETED);
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_CMD, MALI400GP_REG_VAL_CMD_SOFT_RESET);
+
+}
+
+_mali_osk_errcode_t mali_gp_reset_wait(struct mali_gp_core *core)
+{
+ int i;
+ u32 rawstat = 0;
+
+ MALI_DEBUG_ASSERT_POINTER(core);
+
+ for (i = 0; i < MALI_REG_POLL_COUNT_FAST; i++) {
+ rawstat = mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_RAWSTAT);
+ if (rawstat & MALI400GP_REG_VAL_IRQ_RESET_COMPLETED) {
+ break;
+ }
+ }
+
+ if (i == MALI_REG_POLL_COUNT_FAST) {
+ MALI_PRINT_ERROR(("Mali GP: Failed to reset core %s, rawstat: 0x%08x\n",
+ core->hw_core.description, rawstat));
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ /* Re-enable interrupts */
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_CLEAR, MALIGP2_REG_VAL_IRQ_MASK_ALL);
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_MASK, MALIGP2_REG_VAL_IRQ_MASK_USED);
+
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t mali_gp_reset(struct mali_gp_core *core)
+{
+ mali_gp_reset_async(core);
+ return mali_gp_reset_wait(core);
+}
+
+void mali_gp_job_start(struct mali_gp_core *core, struct mali_gp_job *job)
+{
+ u32 startcmd = 0;
+ u32 *frame_registers = mali_gp_job_get_frame_registers(job);
+ u32 counter_src0 = mali_gp_job_get_perf_counter_src0(job);
+ u32 counter_src1 = mali_gp_job_get_perf_counter_src1(job);
+
+ MALI_DEBUG_ASSERT_POINTER(core);
+
+ if (mali_gp_job_has_vs_job(job)) {
+ startcmd |= (u32) MALIGP2_REG_VAL_CMD_START_VS;
+ }
+
+ if (mali_gp_job_has_plbu_job(job)) {
+ startcmd |= (u32) MALIGP2_REG_VAL_CMD_START_PLBU;
+ }
+
+ MALI_DEBUG_ASSERT(0 != startcmd);
+
+ mali_hw_core_register_write_array_relaxed(&core->hw_core, MALIGP2_REG_ADDR_MGMT_VSCL_START_ADDR, frame_registers, MALIGP2_NUM_REGS_FRAME);
+
+ if (MALI_HW_CORE_NO_COUNTER != counter_src0) {
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PERF_CNT_0_SRC, counter_src0);
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PERF_CNT_0_ENABLE, MALIGP2_REG_VAL_PERF_CNT_ENABLE);
+ }
+ if (MALI_HW_CORE_NO_COUNTER != counter_src1) {
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PERF_CNT_1_SRC, counter_src1);
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PERF_CNT_1_ENABLE, MALIGP2_REG_VAL_PERF_CNT_ENABLE);
+ }
+
+ MALI_DEBUG_PRINT(3, ("Mali GP: Starting job (0x%08x) on core %s with command 0x%08X\n", job, core->hw_core.description, startcmd));
+
+ mali_hw_core_register_write_relaxed(&core->hw_core, MALIGP2_REG_ADDR_MGMT_CMD, MALIGP2_REG_VAL_CMD_UPDATE_PLBU_ALLOC);
+
+ /* Barrier to make sure the previous register write is finished */
+ _mali_osk_write_mem_barrier();
+
+ /* This is the command that starts the core. */
+ mali_hw_core_register_write_relaxed(&core->hw_core, MALIGP2_REG_ADDR_MGMT_CMD, startcmd);
+
+ /* Barrier to make sure the previous register write is finished */
+ _mali_osk_write_mem_barrier();
+}
+
+void mali_gp_resume_with_new_heap(struct mali_gp_core *core, u32 start_addr, u32 end_addr)
+{
+ u32 irq_readout;
+
+ MALI_DEBUG_ASSERT_POINTER(core);
+
+ irq_readout = mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_RAWSTAT);
+
+ if (irq_readout & MALIGP2_REG_VAL_IRQ_PLBU_OUT_OF_MEM) {
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_CLEAR, (MALIGP2_REG_VAL_IRQ_PLBU_OUT_OF_MEM | MALIGP2_REG_VAL_IRQ_HANG));
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_MASK, MALIGP2_REG_VAL_IRQ_MASK_USED); /* re-enable interrupts */
+ mali_hw_core_register_write_relaxed(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PLBU_ALLOC_START_ADDR, start_addr);
+ mali_hw_core_register_write_relaxed(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PLBU_ALLOC_END_ADDR, end_addr);
+
+ MALI_DEBUG_PRINT(3, ("Mali GP: Resuming job\n"));
+
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_CMD, MALIGP2_REG_VAL_CMD_UPDATE_PLBU_ALLOC);
+ _mali_osk_write_mem_barrier();
+ }
+ /*
+ * else: core has been reset between PLBU_OUT_OF_MEM interrupt and this new heap response.
+ * A timeout or a page fault on Mali-200 PP core can cause this behaviour.
+ */
+}
+
+u32 mali_gp_core_get_version(struct mali_gp_core *core)
+{
+ MALI_DEBUG_ASSERT_POINTER(core);
+ return mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_VERSION);
+}
+
+struct mali_gp_core *mali_gp_get_global_gp_core(void)
+{
+ return mali_global_gp_core;
+}
+
+/* ------------- interrupt handling below ------------------ */
+static void mali_gp_irq_probe_trigger(void *data)
+{
+ struct mali_gp_core *core = (struct mali_gp_core *)data;
+
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_MASK, MALIGP2_REG_VAL_IRQ_MASK_USED);
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_RAWSTAT, MALIGP2_REG_VAL_CMD_FORCE_HANG);
+ _mali_osk_mem_barrier();
+}
+
+static _mali_osk_errcode_t mali_gp_irq_probe_ack(void *data)
+{
+ struct mali_gp_core *core = (struct mali_gp_core *)data;
+ u32 irq_readout;
+
+ irq_readout = mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_STAT);
+ if (MALIGP2_REG_VAL_IRQ_FORCE_HANG & irq_readout) {
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_CLEAR, MALIGP2_REG_VAL_IRQ_FORCE_HANG);
+ _mali_osk_mem_barrier();
+ return _MALI_OSK_ERR_OK;
+ }
+
+ return _MALI_OSK_ERR_FAULT;
+}
+
+/* ------ local helper functions below --------- */
+#if MALI_STATE_TRACKING
+u32 mali_gp_dump_state(struct mali_gp_core *core, char *buf, u32 size)
+{
+ int n = 0;
+
+ n += _mali_osk_snprintf(buf + n, size - n, "\tGP: %s\n", core->hw_core.description);
+
+ return n;
+}
+#endif
+
+void mali_gp_update_performance_counters(struct mali_gp_core *core, struct mali_gp_job *job, mali_bool suspend)
+{
+ u32 val0 = 0;
+ u32 val1 = 0;
+ u32 counter_src0 = mali_gp_job_get_perf_counter_src0(job);
+ u32 counter_src1 = mali_gp_job_get_perf_counter_src1(job);
+
+ if (MALI_HW_CORE_NO_COUNTER != counter_src0) {
+ val0 = mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PERF_CNT_0_VALUE);
+ mali_gp_job_set_perf_counter_value0(job, val0);
+
+#if defined(CONFIG_MALI400_PROFILING)
+ _mali_osk_profiling_report_hw_counter(COUNTER_VP_0_C0, val0);
+#endif
+
+ }
+
+ if (MALI_HW_CORE_NO_COUNTER != counter_src1) {
+ val1 = mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PERF_CNT_1_VALUE);
+ mali_gp_job_set_perf_counter_value1(job, val1);
+
+#if defined(CONFIG_MALI400_PROFILING)
+ _mali_osk_profiling_report_hw_counter(COUNTER_VP_0_C1, val1);
+#endif
+ }
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_GP_H__
+#define __MALI_GP_H__
+
+#include "mali_osk.h"
+#include "mali_gp_job.h"
+#include "mali_hw_core.h"
+#include "regs/mali_gp_regs.h"
+
+struct mali_group;
+
+/**
+ * Definition of the GP core struct
+ * Used to track a GP core in the system.
+ */
+struct mali_gp_core {
+ struct mali_hw_core hw_core; /**< Common for all HW cores */
+ _mali_osk_irq_t *irq; /**< IRQ handler */
+};
+
+_mali_osk_errcode_t mali_gp_initialize(void);
+void mali_gp_terminate(void);
+
+struct mali_gp_core *mali_gp_create(const _mali_osk_resource_t * resource, struct mali_group *group);
+void mali_gp_delete(struct mali_gp_core *core);
+
+void mali_gp_stop_bus(struct mali_gp_core *core);
+_mali_osk_errcode_t mali_gp_stop_bus_wait(struct mali_gp_core *core);
+void mali_gp_reset_async(struct mali_gp_core *core);
+_mali_osk_errcode_t mali_gp_reset_wait(struct mali_gp_core *core);
+void mali_gp_hard_reset(struct mali_gp_core *core);
+_mali_osk_errcode_t mali_gp_reset(struct mali_gp_core *core);
+
+void mali_gp_job_start(struct mali_gp_core *core, struct mali_gp_job *job);
+void mali_gp_resume_with_new_heap(struct mali_gp_core *core, u32 start_addr, u32 end_addr);
+
+u32 mali_gp_core_get_version(struct mali_gp_core *core);
+
+struct mali_gp_core *mali_gp_get_global_gp_core(void);
+
+u32 mali_gp_dump_state(struct mali_gp_core *core, char *buf, u32 size);
+
+void mali_gp_update_performance_counters(struct mali_gp_core *core, struct mali_gp_job *job, mali_bool suspend);
+
+/*** Accessor functions ***/
+MALI_STATIC_INLINE const char *mali_gp_get_hw_core_desc(struct mali_gp_core *core)
+{
+ return core->hw_core.description;
+}
+
+/*** Register reading/writing functions ***/
+MALI_STATIC_INLINE u32 mali_gp_get_int_stat(struct mali_gp_core *core)
+{
+ return mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_STAT);
+}
+
+MALI_STATIC_INLINE void mali_gp_mask_all_interrupts(struct mali_gp_core *core)
+{
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_MASK, MALIGP2_REG_VAL_IRQ_MASK_NONE);
+}
+
+MALI_STATIC_INLINE u32 mali_gp_read_rawstat(struct mali_gp_core *core)
+{
+ return mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_RAWSTAT) & MALIGP2_REG_VAL_IRQ_MASK_USED;
+}
+
+MALI_STATIC_INLINE u32 mali_gp_read_core_status(struct mali_gp_core *core)
+{
+ return mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_STATUS);
+}
+
+MALI_STATIC_INLINE void mali_gp_enable_interrupts(struct mali_gp_core *core, u32 irq_exceptions)
+{
+ /* Enable all interrupts, except those specified in irq_exceptions */
+ mali_hw_core_register_write(&core->hw_core, MALIGP2_REG_ADDR_MGMT_INT_MASK,
+ MALIGP2_REG_VAL_IRQ_MASK_USED & ~irq_exceptions);
+}
+
+MALI_STATIC_INLINE u32 mali_gp_read_plbu_alloc_start_addr(struct mali_gp_core *core)
+{
+ return mali_hw_core_register_read(&core->hw_core, MALIGP2_REG_ADDR_MGMT_PLBU_ALLOC_START_ADDR);
+}
+
+#endif /* __MALI_GP_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_gp_job.h"
+#include "mali_osk.h"
+#include "mali_osk_list.h"
+#include "mali_uk_types.h"
+
+static u32 gp_counter_src0 = MALI_HW_CORE_NO_COUNTER; /**< Performance counter 0, MALI_HW_CORE_NO_COUNTER for disabled */
+static u32 gp_counter_src1 = MALI_HW_CORE_NO_COUNTER; /**< Performance counter 1, MALI_HW_CORE_NO_COUNTER for disabled */
+
+struct mali_gp_job *mali_gp_job_create(struct mali_session_data *session, _mali_uk_gp_start_job_s *uargs, u32 id, struct mali_timeline_tracker *pp_tracker)
+{
+ struct mali_gp_job *job;
+ u32 perf_counter_flag;
+
+ job = _mali_osk_malloc(sizeof(struct mali_gp_job));
+ if (NULL != job) {
+ job->finished_notification = _mali_osk_notification_create(_MALI_NOTIFICATION_GP_FINISHED, sizeof(_mali_uk_gp_job_finished_s));
+ if (NULL == job->finished_notification) {
+ _mali_osk_free(job);
+ return NULL;
+ }
+
+ job->oom_notification = _mali_osk_notification_create(_MALI_NOTIFICATION_GP_STALLED, sizeof(_mali_uk_gp_job_suspended_s));
+ if (NULL == job->oom_notification) {
+ _mali_osk_notification_delete(job->finished_notification);
+ _mali_osk_free(job);
+ return NULL;
+ }
+
+ if (0 != _mali_osk_copy_from_user(&job->uargs, uargs, sizeof(_mali_uk_gp_start_job_s))) {
+ _mali_osk_notification_delete(job->finished_notification);
+ _mali_osk_notification_delete(job->oom_notification);
+ _mali_osk_free(job);
+ return NULL;
+ }
+
+ perf_counter_flag = mali_gp_job_get_perf_counter_flag(job);
+
+ /* case when no counters came from user space
+ * so pass the debugfs / DS-5 provided global ones to the job object */
+ if (!((perf_counter_flag & _MALI_PERFORMANCE_COUNTER_FLAG_SRC0_ENABLE) ||
+ (perf_counter_flag & _MALI_PERFORMANCE_COUNTER_FLAG_SRC1_ENABLE))) {
+ mali_gp_job_set_perf_counter_src0(job, mali_gp_job_get_gp_counter_src0());
+ mali_gp_job_set_perf_counter_src1(job, mali_gp_job_get_gp_counter_src1());
+ }
+
+ _mali_osk_list_init(&job->list);
+ job->session = session;
+ job->id = id;
+ job->heap_current_addr = job->uargs.frame_registers[4];
+ job->perf_counter_value0 = 0;
+ job->perf_counter_value1 = 0;
+ job->pid = _mali_osk_get_pid();
+ job->tid = _mali_osk_get_tid();
+
+ job->pp_tracker = pp_tracker;
+ if (NULL != job->pp_tracker) {
+ /* Take a reference on PP job's tracker that will be released when the GP
+ job is done. */
+ mali_timeline_system_tracker_get(session->timeline_system, pp_tracker);
+ }
+
+ mali_timeline_tracker_init(&job->tracker, MALI_TIMELINE_TRACKER_GP, NULL, job);
+ mali_timeline_fence_copy_uk_fence(&(job->tracker.fence), &(job->uargs.fence));
+
+ return job;
+ }
+
+ return NULL;
+}
+
+void mali_gp_job_delete(struct mali_gp_job *job)
+{
+ MALI_DEBUG_ASSERT_POINTER(job);
+ MALI_DEBUG_ASSERT(NULL == job->pp_tracker);
+
+ /* de-allocate the pre-allocated oom notifications */
+ if (NULL != job->oom_notification) {
+ _mali_osk_notification_delete(job->oom_notification);
+ job->oom_notification = NULL;
+ }
+ if (NULL != job->finished_notification) {
+ _mali_osk_notification_delete(job->finished_notification);
+ job->finished_notification = NULL;
+ }
+
+ _mali_osk_free(job);
+}
+
+u32 mali_gp_job_get_gp_counter_src0(void)
+{
+ return gp_counter_src0;
+}
+
+void mali_gp_job_set_gp_counter_src0(u32 counter)
+{
+ gp_counter_src0 = counter;
+}
+
+u32 mali_gp_job_get_gp_counter_src1(void)
+{
+ return gp_counter_src1;
+}
+
+void mali_gp_job_set_gp_counter_src1(u32 counter)
+{
+ gp_counter_src1 = counter;
+}
+
+mali_scheduler_mask mali_gp_job_signal_pp_tracker(struct mali_gp_job *job, mali_bool success)
+{
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+
+ MALI_DEBUG_ASSERT_POINTER(job);
+
+ if (NULL != job->pp_tracker) {
+ schedule_mask |= mali_timeline_system_tracker_put(job->session->timeline_system, job->pp_tracker, MALI_FALSE == success);
+ job->pp_tracker = NULL;
+ }
+
+ return schedule_mask;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_GP_JOB_H__
+#define __MALI_GP_JOB_H__
+
+#include "mali_osk.h"
+#include "mali_osk_list.h"
+#include "mali_uk_types.h"
+#include "mali_session.h"
+#include "mali_timeline.h"
+#include "mali_scheduler_types.h"
+
+/**
+ * The structure represents a GP job, including all sub-jobs
+ * (This struct unfortunately needs to be public because of how the _mali_osk_list_*
+ * mechanism works)
+ */
+struct mali_gp_job {
+ _mali_osk_list_t list; /**< Used to link jobs together in the scheduler queue */
+ struct mali_session_data *session; /**< Session which submitted this job */
+ _mali_uk_gp_start_job_s uargs; /**< Arguments from user space */
+ u32 id; /**< Identifier for this job in kernel space (sequential numbering) */
+ u32 cache_order; /**< Cache order used for L2 cache flushing (sequential numbering) */
+ u32 heap_current_addr; /**< Holds the current HEAP address when the job has completed */
+ u32 perf_counter_value0; /**< Value of performance counter 0 (to be returned to user space) */
+ u32 perf_counter_value1; /**< Value of performance counter 1 (to be returned to user space) */
+ u32 pid; /**< Process ID of submitting process */
+ u32 tid; /**< Thread ID of submitting thread */
+ _mali_osk_notification_t *finished_notification; /**< Notification sent back to userspace on job complete */
+ _mali_osk_notification_t *oom_notification; /**< Notification sent back to userspace on OOM */
+ struct mali_timeline_tracker tracker; /**< Timeline tracker for this job */
+ struct mali_timeline_tracker *pp_tracker; /**< Pointer to Timeline tracker for PP job that depends on this job. */
+};
+
+struct mali_gp_job *mali_gp_job_create(struct mali_session_data *session, _mali_uk_gp_start_job_s *uargs, u32 id, struct mali_timeline_tracker *pp_tracker);
+void mali_gp_job_delete(struct mali_gp_job *job);
+
+u32 mali_gp_job_get_gp_counter_src0(void);
+void mali_gp_job_set_gp_counter_src0(u32 counter);
+u32 mali_gp_job_get_gp_counter_src1(void);
+void mali_gp_job_set_gp_counter_src1(u32 counter);
+
+MALI_STATIC_INLINE u32 mali_gp_job_get_id(struct mali_gp_job *job)
+{
+ return (NULL == job) ? 0 : job->id;
+}
+
+MALI_STATIC_INLINE u32 mali_gp_job_get_cache_order(struct mali_gp_job *job)
+{
+ return (NULL == job) ? 0 : job->cache_order;
+}
+
+MALI_STATIC_INLINE u32 mali_gp_job_get_user_id(struct mali_gp_job *job)
+{
+ return job->uargs.user_job_ptr;
+}
+
+MALI_STATIC_INLINE u32 mali_gp_job_get_frame_builder_id(struct mali_gp_job *job)
+{
+ return job->uargs.frame_builder_id;
+}
+
+MALI_STATIC_INLINE u32 mali_gp_job_get_flush_id(struct mali_gp_job *job)
+{
+ return job->uargs.flush_id;
+}
+
+MALI_STATIC_INLINE u32 mali_gp_job_get_pid(struct mali_gp_job *job)
+{
+ return job->pid;
+}
+
+MALI_STATIC_INLINE u32 mali_gp_job_get_tid(struct mali_gp_job *job)
+{
+ return job->tid;
+}
+
+MALI_STATIC_INLINE u32* mali_gp_job_get_frame_registers(struct mali_gp_job *job)
+{
+ return job->uargs.frame_registers;
+}
+
+MALI_STATIC_INLINE struct mali_session_data *mali_gp_job_get_session(struct mali_gp_job *job)
+{
+ return job->session;
+}
+
+MALI_STATIC_INLINE mali_bool mali_gp_job_has_vs_job(struct mali_gp_job *job)
+{
+ return (job->uargs.frame_registers[0] != job->uargs.frame_registers[1]) ? MALI_TRUE : MALI_FALSE;
+}
+
+MALI_STATIC_INLINE mali_bool mali_gp_job_has_plbu_job(struct mali_gp_job *job)
+{
+ return (job->uargs.frame_registers[2] != job->uargs.frame_registers[3]) ? MALI_TRUE : MALI_FALSE;
+}
+
+MALI_STATIC_INLINE u32 mali_gp_job_get_current_heap_addr(struct mali_gp_job *job)
+{
+ return job->heap_current_addr;
+}
+
+MALI_STATIC_INLINE void mali_gp_job_set_current_heap_addr(struct mali_gp_job *job, u32 heap_addr)
+{
+ job->heap_current_addr = heap_addr;
+}
+
+MALI_STATIC_INLINE u32 mali_gp_job_get_perf_counter_flag(struct mali_gp_job *job)
+{
+ return job->uargs.perf_counter_flag;
+}
+
+MALI_STATIC_INLINE u32 mali_gp_job_get_perf_counter_src0(struct mali_gp_job *job)
+{
+ return job->uargs.perf_counter_src0;
+}
+
+MALI_STATIC_INLINE u32 mali_gp_job_get_perf_counter_src1(struct mali_gp_job *job)
+{
+ return job->uargs.perf_counter_src1;
+}
+
+MALI_STATIC_INLINE u32 mali_gp_job_get_perf_counter_value0(struct mali_gp_job *job)
+{
+ return job->perf_counter_value0;
+}
+
+MALI_STATIC_INLINE u32 mali_gp_job_get_perf_counter_value1(struct mali_gp_job *job)
+{
+ return job->perf_counter_value1;
+}
+
+MALI_STATIC_INLINE void mali_gp_job_set_perf_counter_src0(struct mali_gp_job *job, u32 src)
+{
+ job->uargs.perf_counter_src0 = src;
+}
+
+MALI_STATIC_INLINE void mali_gp_job_set_perf_counter_src1(struct mali_gp_job *job, u32 src)
+{
+ job->uargs.perf_counter_src1 = src;
+}
+
+MALI_STATIC_INLINE void mali_gp_job_set_perf_counter_value0(struct mali_gp_job *job, u32 value)
+{
+ job->perf_counter_value0 = value;
+}
+
+MALI_STATIC_INLINE void mali_gp_job_set_perf_counter_value1(struct mali_gp_job *job, u32 value)
+{
+ job->perf_counter_value1 = value;
+}
+
+/**
+ * Returns MALI_TRUE if first job is after the second job, ordered by job ID.
+ *
+ * @param first First job.
+ * @param second Second job.
+ * @return MALI_TRUE if first job should be ordered after the second job, MALI_FALSE if not.
+ */
+MALI_STATIC_INLINE mali_bool mali_gp_job_is_after(struct mali_gp_job *first, struct mali_gp_job *second)
+{
+ /* A span is used to handle job ID wrapping. */
+ return (mali_gp_job_get_id(first) - mali_gp_job_get_id(second)) < MALI_SCHEDULER_JOB_ID_SPAN;
+}
+
+/**
+ * Release reference on tracker for PP job that depends on this GP job.
+ *
+ * @note If GP job has a reference on tracker, this function MUST be called before the GP job is
+ * deleted.
+ *
+ * @param job GP job that is done.
+ * @param success MALI_TRUE if job completed successfully, MALI_FALSE if not.
+ * @return A scheduling bitmask indicating whether scheduling needs to be done.
+ */
+mali_scheduler_mask mali_gp_job_signal_pp_tracker(struct mali_gp_job *job, mali_bool success);
+
+#endif /* __MALI_GP_JOB_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_gp_scheduler.h"
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+#include "mali_osk_list.h"
+#include "mali_scheduler.h"
+#include "mali_gp.h"
+#include "mali_gp_job.h"
+#include "mali_group.h"
+#include "mali_timeline.h"
+#include "mali_osk_profiling.h"
+#include "mali_kernel_utilization.h"
+#if defined(CONFIG_GPU_TRACEPOINTS) && defined(CONFIG_TRACEPOINTS)
+#include <linux/sched.h>
+#include <trace/events/gpu.h>
+#endif
+
+enum mali_gp_slot_state {
+ MALI_GP_SLOT_STATE_IDLE,
+ MALI_GP_SLOT_STATE_WORKING,
+ MALI_GP_SLOT_STATE_DISABLED,
+};
+
+/* A render slot is an entity which jobs can be scheduled onto */
+struct mali_gp_slot {
+ struct mali_group *group;
+ /*
+ * We keep track of the state here as well as in the group object
+ * so we don't need to take the group lock so often (and also avoid clutter with the working lock)
+ */
+ enum mali_gp_slot_state state;
+ u32 returned_cookie;
+};
+
+static u32 gp_version = 0;
+static _MALI_OSK_LIST_HEAD_STATIC_INIT(job_queue); /* List of unscheduled jobs. */
+static _MALI_OSK_LIST_HEAD_STATIC_INIT(job_queue_high); /* List of unscheduled high priority jobs. */
+static struct mali_gp_slot slot;
+
+/* Variables to allow safe pausing of the scheduler */
+static _mali_osk_wait_queue_t *gp_scheduler_working_wait_queue = NULL;
+static u32 pause_count = 0;
+
+static mali_bool mali_gp_scheduler_is_suspended(void *data);
+static void mali_gp_scheduler_job_queued(void);
+static void mali_gp_scheduler_job_completed(void);
+
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+static _mali_osk_spinlock_irq_t *gp_scheduler_lock = NULL;
+#else
+static _mali_osk_spinlock_t *gp_scheduler_lock = NULL;
+#endif /* defined(MALI_UPPER_HALF_SCHEDULING) */
+
+_mali_osk_errcode_t mali_gp_scheduler_initialize(void)
+{
+ u32 num_groups;
+ u32 i;
+ _mali_osk_errcode_t ret = _MALI_OSK_ERR_OK;
+
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ gp_scheduler_lock = _mali_osk_spinlock_irq_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_SCHEDULER);
+#else
+ gp_scheduler_lock = _mali_osk_spinlock_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_SCHEDULER);
+#endif /* defined(MALI_UPPER_HALF_SCHEDULING) */
+ if (NULL == gp_scheduler_lock) {
+ ret = _MALI_OSK_ERR_NOMEM;
+ goto cleanup;
+ }
+
+ gp_scheduler_working_wait_queue = _mali_osk_wait_queue_init();
+ if (NULL == gp_scheduler_working_wait_queue) {
+ ret = _MALI_OSK_ERR_NOMEM;
+ goto cleanup;
+ }
+
+ /* Find all the available GP cores */
+ num_groups = mali_group_get_glob_num_groups();
+ for (i = 0; i < num_groups; i++) {
+ struct mali_group *group = mali_group_get_glob_group(i);
+ MALI_DEBUG_ASSERT(NULL != group);
+ if (NULL != group) {
+ struct mali_gp_core *gp_core = mali_group_get_gp_core(group);
+ if (NULL != gp_core) {
+ if (0 == gp_version) {
+ /* Retrieve GP version */
+ gp_version = mali_gp_core_get_version(gp_core);
+ }
+ slot.group = group;
+ slot.state = MALI_GP_SLOT_STATE_IDLE;
+ break; /* There is only one GP, no point in looking for more */
+ }
+ } else {
+ ret = _MALI_OSK_ERR_ITEM_NOT_FOUND;
+ goto cleanup;
+ }
+ }
+
+ return _MALI_OSK_ERR_OK;
+
+cleanup:
+ if (NULL != gp_scheduler_working_wait_queue) {
+ _mali_osk_wait_queue_term(gp_scheduler_working_wait_queue);
+ gp_scheduler_working_wait_queue = NULL;
+ }
+
+ if (NULL != gp_scheduler_lock) {
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ _mali_osk_spinlock_irq_term(gp_scheduler_lock);
+#else
+ _mali_osk_spinlock_term(gp_scheduler_lock);
+#endif /* defined(MALI_UPPER_HALF_SCHEDULING) */
+ gp_scheduler_lock = NULL;
+ }
+
+ return ret;
+}
+
+void mali_gp_scheduler_terminate(void)
+{
+ MALI_DEBUG_ASSERT( MALI_GP_SLOT_STATE_IDLE == slot.state
+ || MALI_GP_SLOT_STATE_DISABLED == slot.state);
+ MALI_DEBUG_ASSERT_POINTER(slot.group);
+ mali_group_delete(slot.group);
+
+ _mali_osk_wait_queue_term(gp_scheduler_working_wait_queue);
+
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ _mali_osk_spinlock_irq_term(gp_scheduler_lock);
+#else
+ _mali_osk_spinlock_term(gp_scheduler_lock);
+#endif /* defined(MALI_UPPER_HALF_SCHEDULING) */
+}
+
+MALI_STATIC_INLINE void mali_gp_scheduler_lock(void)
+{
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ _mali_osk_spinlock_irq_lock(gp_scheduler_lock);
+#else
+ _mali_osk_spinlock_lock(gp_scheduler_lock);
+#endif /* defined(MALI_UPPER_HALF_SCHEDULING) */
+ MALI_DEBUG_PRINT(5, ("Mali GP scheduler: GP scheduler lock taken\n"));
+}
+
+MALI_STATIC_INLINE void mali_gp_scheduler_unlock(void)
+{
+ MALI_DEBUG_PRINT(5, ("Mali GP scheduler: Releasing GP scheduler lock\n"));
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ _mali_osk_spinlock_irq_unlock(gp_scheduler_lock);
+#else
+ _mali_osk_spinlock_unlock(gp_scheduler_lock);
+#endif /* defined(MALI_UPPER_HALF_SCHEDULING) */
+}
+
+#if defined(DEBUG)
+#define MALI_ASSERT_GP_SCHEDULER_LOCKED() MALI_DEBUG_ASSERT_LOCK_HELD(gp_scheduler_lock)
+#else
+#define MALI_ASSERT_GP_SCHEDULER_LOCKED() do {} while (0)
+#endif /* defined(DEBUG) */
+
+/* Group and scheduler must be locked when entering this function. Both will be unlocked before
+ * exiting. */
+static void mali_gp_scheduler_schedule_internal_and_unlock(void)
+{
+ struct mali_gp_job *job = NULL;
+
+ MALI_DEBUG_ASSERT_LOCK_HELD(slot.group->lock);
+ MALI_DEBUG_ASSERT_LOCK_HELD(gp_scheduler_lock);
+
+ if (0 < pause_count || MALI_GP_SLOT_STATE_IDLE != slot.state ||
+ (_mali_osk_list_empty(&job_queue) && _mali_osk_list_empty(&job_queue_high))) {
+ mali_gp_scheduler_unlock();
+ mali_group_unlock(slot.group);
+ MALI_DEBUG_PRINT(4, ("Mali GP scheduler: Nothing to schedule (paused=%u, idle slots=%u)\n",
+ pause_count, MALI_GP_SLOT_STATE_IDLE == slot.state ? 1 : 0));
+#if defined(CONFIG_GPU_TRACEPOINTS) && defined(CONFIG_TRACEPOINTS)
+ trace_gpu_sched_switch(mali_gp_get_hw_core_desc(group->gp_core), sched_clock(), 0, 0, 0);
+#endif
+ return; /* Nothing to do, so early out */
+ }
+
+ /* Get next job in queue */
+ if (!_mali_osk_list_empty(&job_queue_high)) {
+ job = _MALI_OSK_LIST_ENTRY(job_queue_high.next, struct mali_gp_job, list);
+ } else {
+ MALI_DEBUG_ASSERT(!_mali_osk_list_empty(&job_queue));
+ job = _MALI_OSK_LIST_ENTRY(job_queue.next, struct mali_gp_job, list);
+ }
+
+ MALI_DEBUG_ASSERT_POINTER(job);
+
+ /* Remove the job from queue */
+ _mali_osk_list_del(&job->list);
+
+ /* Mark slot as busy */
+ slot.state = MALI_GP_SLOT_STATE_WORKING;
+
+ mali_gp_scheduler_unlock();
+
+ MALI_DEBUG_PRINT(3, ("Mali GP scheduler: Starting job %u (0x%08X)\n", mali_gp_job_get_id(job), job));
+
+ mali_group_start_gp_job(slot.group, job);
+ mali_group_unlock(slot.group);
+}
+
+void mali_gp_scheduler_schedule(void)
+{
+ mali_group_lock(slot.group);
+ mali_gp_scheduler_lock();
+
+ mali_gp_scheduler_schedule_internal_and_unlock();
+}
+
+static void mali_gp_scheduler_return_job_to_user(struct mali_gp_job *job, mali_bool success)
+{
+ _mali_uk_gp_job_finished_s *jobres = job->finished_notification->result_buffer;
+ _mali_osk_memset(jobres, 0, sizeof(_mali_uk_gp_job_finished_s)); /* @@@@ can be removed once we initialize all members in this struct */
+ jobres->user_job_ptr = mali_gp_job_get_user_id(job);
+ if (MALI_TRUE == success) {
+ jobres->status = _MALI_UK_JOB_STATUS_END_SUCCESS;
+ } else {
+ jobres->status = _MALI_UK_JOB_STATUS_END_UNKNOWN_ERR;
+ }
+
+ jobres->heap_current_addr = mali_gp_job_get_current_heap_addr(job);
+ jobres->perf_counter0 = mali_gp_job_get_perf_counter_value0(job);
+ jobres->perf_counter1 = mali_gp_job_get_perf_counter_value1(job);
+
+ mali_session_send_notification(mali_gp_job_get_session(job), job->finished_notification);
+ job->finished_notification = NULL;
+
+ mali_gp_job_delete(job);
+ mali_gp_scheduler_job_completed();
+}
+
+/* Group must be locked when entering this function. Will be unlocked before exiting. */
+void mali_gp_scheduler_job_done(struct mali_group *group, struct mali_gp_job *job, mali_bool success)
+{
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+
+ MALI_DEBUG_ASSERT_POINTER(group);
+ MALI_DEBUG_ASSERT_POINTER(job);
+
+ MALI_DEBUG_ASSERT_LOCK_HELD(group->lock);
+ MALI_DEBUG_ASSERT(slot.group == group);
+
+ MALI_DEBUG_PRINT(3, ("Mali GP scheduler: Job %u (0x%08X) completed (%s)\n", mali_gp_job_get_id(job), job, success ? "success" : "failure"));
+
+ /* Release tracker. */
+ schedule_mask |= mali_timeline_tracker_release(&job->tracker);
+
+ /* Signal PP job. */
+ schedule_mask |= mali_gp_job_signal_pp_tracker(job, success);
+
+ mali_gp_scheduler_lock();
+
+ /* Mark slot as idle again */
+ slot.state = MALI_GP_SLOT_STATE_IDLE;
+
+ /* If paused, then this was the last job, so wake up sleeping workers */
+ if (pause_count > 0) {
+ _mali_osk_wait_queue_wake_up(gp_scheduler_working_wait_queue);
+ }
+
+ /* Schedule any queued GP jobs on this group. */
+ mali_gp_scheduler_schedule_internal_and_unlock();
+
+ /* GP is now scheduled, removing it from the mask. */
+ schedule_mask &= ~MALI_SCHEDULER_MASK_GP;
+
+ if (MALI_SCHEDULER_MASK_EMPTY != schedule_mask) {
+ /* Releasing the tracker activated other jobs that need scheduling. */
+ mali_scheduler_schedule_from_mask(schedule_mask, MALI_FALSE);
+ }
+
+ /* Sends the job end message to user space and free the job object */
+ mali_gp_scheduler_return_job_to_user(job, success);
+}
+
+void mali_gp_scheduler_oom(struct mali_group *group, struct mali_gp_job *job)
+{
+ _mali_uk_gp_job_suspended_s * jobres;
+ _mali_osk_notification_t * notification;
+
+ mali_gp_scheduler_lock();
+
+ notification = job->oom_notification;
+ job->oom_notification = NULL;
+ slot.returned_cookie = mali_gp_job_get_id(job);
+
+ jobres = (_mali_uk_gp_job_suspended_s *)notification->result_buffer;
+ jobres->user_job_ptr = mali_gp_job_get_user_id(job);
+ jobres->cookie = mali_gp_job_get_id(job);
+
+ mali_gp_scheduler_unlock();
+
+ mali_session_send_notification(mali_gp_job_get_session(job), notification);
+
+ /*
+ * If this function failed, then we could return the job to user space right away,
+ * but there is a job timer anyway that will do that eventually.
+ * This is not exactly a common case anyway.
+ */
+}
+
+void mali_gp_scheduler_suspend(void)
+{
+ mali_gp_scheduler_lock();
+ pause_count++; /* Increment the pause_count so that no more jobs will be scheduled */
+ mali_gp_scheduler_unlock();
+
+ _mali_osk_wait_queue_wait_event(gp_scheduler_working_wait_queue, mali_gp_scheduler_is_suspended, NULL);
+}
+
+void mali_gp_scheduler_resume(void)
+{
+ mali_gp_scheduler_lock();
+ pause_count--; /* Decrement pause_count to allow scheduling again (if it reaches 0) */
+ mali_gp_scheduler_unlock();
+ if (0 == pause_count) {
+ mali_gp_scheduler_schedule();
+ }
+}
+
+mali_timeline_point mali_gp_scheduler_submit_job(struct mali_session_data *session, struct mali_gp_job *job)
+{
+ mali_timeline_point point;
+
+ MALI_DEBUG_ASSERT_POINTER(session);
+ MALI_DEBUG_ASSERT_POINTER(job);
+
+ mali_gp_scheduler_job_queued();
+
+ /* Add job to Timeline system. */
+ point = mali_timeline_system_add_tracker(session->timeline_system, &job->tracker, MALI_TIMELINE_GP);
+
+ return point;
+}
+
+_mali_osk_errcode_t _mali_ukk_gp_start_job(void *ctx, _mali_uk_gp_start_job_s *uargs)
+{
+ struct mali_session_data *session;
+ struct mali_gp_job *job;
+ mali_timeline_point point;
+ u32 __user *timeline_point_ptr = NULL;
+
+ MALI_DEBUG_ASSERT_POINTER(uargs);
+ MALI_DEBUG_ASSERT_POINTER(ctx);
+
+ session = (struct mali_session_data*)ctx;
+
+ job = mali_gp_job_create(session, uargs, mali_scheduler_get_new_id(), NULL);
+ if (NULL == job) {
+ MALI_PRINT_ERROR(("Failed to create GP job.\n"));
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ timeline_point_ptr = (u32 __user *) job->uargs.timeline_point_ptr;
+
+ point = mali_gp_scheduler_submit_job(session, job);
+
+ if (0 != _mali_osk_put_user(((u32) point), timeline_point_ptr)) {
+ /* Let user space know that something failed after the job was started. */
+ return _MALI_OSK_ERR_ITEM_NOT_FOUND;
+ }
+
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t _mali_ukk_get_gp_number_of_cores(_mali_uk_get_gp_number_of_cores_s *args)
+{
+ MALI_DEBUG_ASSERT_POINTER(args);
+ MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS);
+ args->number_of_cores = 1;
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t _mali_ukk_get_gp_core_version(_mali_uk_get_gp_core_version_s *args)
+{
+ MALI_DEBUG_ASSERT_POINTER(args);
+ MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS);
+ args->version = gp_version;
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t _mali_ukk_gp_suspend_response(_mali_uk_gp_suspend_response_s *args)
+{
+ struct mali_session_data *session;
+ struct mali_gp_job *resumed_job;
+ _mali_osk_notification_t *new_notification = 0;
+
+ MALI_DEBUG_ASSERT_POINTER(args);
+
+ if (NULL == args->ctx) {
+ return _MALI_OSK_ERR_INVALID_ARGS;
+ }
+
+ session = (struct mali_session_data*)args->ctx;
+ if (NULL == session) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ if (_MALIGP_JOB_RESUME_WITH_NEW_HEAP == args->code) {
+ new_notification = _mali_osk_notification_create(_MALI_NOTIFICATION_GP_STALLED, sizeof(_mali_uk_gp_job_suspended_s));
+
+ if (NULL == new_notification) {
+ MALI_PRINT_ERROR(("Mali GP scheduler: Failed to allocate notification object. Will abort GP job.\n"));
+ mali_group_lock(slot.group);
+ mali_group_abort_gp_job(slot.group, args->cookie);
+ mali_group_unlock(slot.group);
+ return _MALI_OSK_ERR_FAULT;
+ }
+ }
+
+ mali_group_lock(slot.group);
+
+ if (_MALIGP_JOB_RESUME_WITH_NEW_HEAP == args->code) {
+ MALI_DEBUG_PRINT(3, ("Mali GP scheduler: Resuming job %u with new heap; 0x%08X - 0x%08X\n", args->cookie, args->arguments[0], args->arguments[1]));
+
+ resumed_job = mali_group_resume_gp_with_new_heap(slot.group, args->cookie, args->arguments[0], args->arguments[1]);
+ if (NULL != resumed_job) {
+ resumed_job->oom_notification = new_notification;
+ mali_group_unlock(slot.group);
+ return _MALI_OSK_ERR_OK;
+ } else {
+ mali_group_unlock(slot.group);
+ _mali_osk_notification_delete(new_notification);
+ return _MALI_OSK_ERR_FAULT;
+ }
+ }
+
+ MALI_DEBUG_PRINT(2, ("Mali GP scheduler: Aborting job %u, no new heap provided\n", args->cookie));
+ mali_group_abort_gp_job(slot.group, args->cookie);
+ mali_group_unlock(slot.group);
+ return _MALI_OSK_ERR_OK;
+}
+
+void mali_gp_scheduler_abort_session(struct mali_session_data *session)
+{
+ struct mali_gp_job *job, *tmp;
+ _MALI_OSK_LIST_HEAD_STATIC_INIT(removed_jobs);
+
+ MALI_DEBUG_ASSERT_POINTER(session);
+ MALI_DEBUG_ASSERT(session->is_aborting);
+
+ MALI_DEBUG_PRINT(3, ("Mali GP scheduler: Aborting all jobs from session 0x%08X.\n", session));
+
+ mali_gp_scheduler_lock();
+
+ /* Find all jobs from the aborting session. */
+ _MALI_OSK_LIST_FOREACHENTRY(job, tmp, &job_queue, struct mali_gp_job, list) {
+ if (job->session == session) {
+ MALI_DEBUG_PRINT(3, ("Mali GP scheduler: Removing job %u (0x%08X) from queue.\n", mali_gp_job_get_id(job), job));
+ _mali_osk_list_move(&job->list, &removed_jobs);
+ }
+ }
+
+ /* Find all high priority jobs from the aborting session. */
+ _MALI_OSK_LIST_FOREACHENTRY(job, tmp, &job_queue_high, struct mali_gp_job, list) {
+ if (job->session == session) {
+ MALI_DEBUG_PRINT(3, ("Mali GP scheduler: Removing job %u (0x%08X) from queue.\n", mali_gp_job_get_id(job), job));
+ _mali_osk_list_move(&job->list, &removed_jobs);
+ }
+ }
+
+ mali_gp_scheduler_unlock();
+
+ /* Release and delete all found jobs from the aborting session. */
+ _MALI_OSK_LIST_FOREACHENTRY(job, tmp, &removed_jobs, struct mali_gp_job, list) {
+ mali_timeline_tracker_release(&job->tracker);
+ mali_gp_job_signal_pp_tracker(job, MALI_FALSE);
+ mali_gp_job_delete(job);
+ mali_gp_scheduler_job_completed();
+ }
+
+ /* Abort any running jobs from the session. */
+ mali_group_abort_session(slot.group, session);
+}
+
+static mali_bool mali_gp_scheduler_is_suspended(void *data)
+{
+ mali_bool ret;
+
+ /* This callback does not use the data pointer. */
+ MALI_IGNORE(data);
+
+ mali_gp_scheduler_lock();
+ ret = pause_count > 0 && (slot.state == MALI_GP_SLOT_STATE_IDLE || slot.state == MALI_GP_SLOT_STATE_DISABLED);
+ mali_gp_scheduler_unlock();
+
+ return ret;
+}
+
+
+#if MALI_STATE_TRACKING
+u32 mali_gp_scheduler_dump_state(char *buf, u32 size)
+{
+ int n = 0;
+
+ n += _mali_osk_snprintf(buf + n, size - n, "GP\n");
+ n += _mali_osk_snprintf(buf + n, size - n, "\tQueue is %s\n", _mali_osk_list_empty(&job_queue) ? "empty" : "not empty");
+ n += _mali_osk_snprintf(buf + n, size - n, "\tHigh priority queue is %s\n", _mali_osk_list_empty(&job_queue_high) ? "empty" : "not empty");
+
+ n += mali_group_dump_state(slot.group, buf + n, size - n);
+ n += _mali_osk_snprintf(buf + n, size - n, "\n");
+
+ return n;
+}
+#endif
+
+void mali_gp_scheduler_reset_all_groups(void)
+{
+ if (NULL != slot.group) {
+ mali_group_lock(slot.group);
+ mali_group_reset(slot.group);
+ mali_group_unlock(slot.group);
+ }
+}
+
+void mali_gp_scheduler_zap_all_active(struct mali_session_data *session)
+{
+ if (NULL != slot.group) {
+ mali_group_zap_session(slot.group, session);
+ }
+}
+
+void mali_gp_scheduler_enable_group(struct mali_group *group)
+{
+ MALI_DEBUG_ASSERT_POINTER(group);
+ MALI_DEBUG_ASSERT(slot.group == group);
+ MALI_DEBUG_PRINT(2, ("Mali GP scheduler: enabling gp group %p\n", group));
+
+ mali_group_lock(group);
+
+ if (MALI_GROUP_STATE_DISABLED != group->state) {
+ mali_group_unlock(group);
+ MALI_DEBUG_PRINT(2, ("Mali GP scheduler: gp group %p already enabled\n", group));
+ return;
+ }
+
+ mali_gp_scheduler_lock();
+
+ MALI_DEBUG_ASSERT(MALI_GROUP_STATE_DISABLED == group->state);
+ MALI_DEBUG_ASSERT(MALI_GP_SLOT_STATE_DISABLED == slot.state);
+ slot.state = MALI_GP_SLOT_STATE_IDLE;
+ group->state = MALI_GROUP_STATE_IDLE;
+
+ mali_group_power_on_group(group);
+ mali_group_reset(group);
+
+ /* Pick up any jobs that might have been queued while the GP group was disabled. */
+ mali_gp_scheduler_schedule_internal_and_unlock();
+}
+
+void mali_gp_scheduler_disable_group(struct mali_group *group)
+{
+ MALI_DEBUG_ASSERT_POINTER(group);
+ MALI_DEBUG_ASSERT(slot.group == group);
+ MALI_DEBUG_PRINT(2, ("Mali GP scheduler: disabling gp group %p\n", group));
+
+ mali_gp_scheduler_suspend();
+ mali_group_lock(group);
+ mali_gp_scheduler_lock();
+
+ MALI_DEBUG_ASSERT( MALI_GROUP_STATE_IDLE == group->state
+ || MALI_GROUP_STATE_DISABLED == group->state);
+
+ if (MALI_GROUP_STATE_DISABLED == group->state) {
+ MALI_DEBUG_ASSERT(MALI_GP_SLOT_STATE_DISABLED == slot.state);
+ MALI_DEBUG_PRINT(2, ("Mali GP scheduler: gp group %p already disabled\n", group));
+ } else {
+ MALI_DEBUG_ASSERT(MALI_GP_SLOT_STATE_IDLE == slot.state);
+ slot.state = MALI_GP_SLOT_STATE_DISABLED;
+ group->state = MALI_GROUP_STATE_DISABLED;
+
+ mali_group_power_off_group(group, MALI_TRUE);
+ }
+
+ mali_gp_scheduler_unlock();
+ mali_group_unlock(group);
+ mali_gp_scheduler_resume();
+}
+
+static mali_scheduler_mask mali_gp_scheduler_queue_job(struct mali_gp_job *job)
+{
+ _mali_osk_list_t *queue = NULL;
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+ struct mali_gp_job *iter, *tmp;
+
+ MALI_DEBUG_ASSERT_POINTER(job);
+ MALI_DEBUG_ASSERT_POINTER(job->session);
+
+ MALI_DEBUG_ASSERT_LOCK_HELD(gp_scheduler_lock);
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_SINGLE | MALI_PROFILING_EVENT_CHANNEL_SOFTWARE | MALI_PROFILING_EVENT_REASON_SINGLE_SW_GP_ENQUEUE, job->pid, job->tid, job->uargs.frame_builder_id, job->uargs.flush_id, 0);
+
+ job->cache_order = mali_scheduler_get_new_cache_order();
+
+ /* Determine which queue the job should be added to. */
+ if (job->session->use_high_priority_job_queue) {
+ queue = &job_queue_high;
+ } else {
+ queue = &job_queue;
+ }
+
+ /* Find position in queue where job should be added. */
+ _MALI_OSK_LIST_FOREACHENTRY_REVERSE(iter, tmp, queue, struct mali_gp_job, list) {
+ if (mali_gp_job_is_after(job, iter)) {
+ break;
+ }
+ }
+
+ /* Add job to queue. */
+ _mali_osk_list_add(&job->list, &iter->list);
+
+ /* Set schedule bitmask if the GP core is idle. */
+ if (MALI_GP_SLOT_STATE_IDLE == slot.state) {
+ schedule_mask |= MALI_SCHEDULER_MASK_GP;
+ }
+
+#if defined(CONFIG_GPU_TRACEPOINTS) && defined(CONFIG_TRACEPOINTS)
+ trace_gpu_job_enqueue(mali_gp_job_get_tid(job), mali_gp_job_get_id(job), "GP");
+#endif
+
+ MALI_DEBUG_PRINT(3, ("Mali GP scheduler: Job %u (0x%08X) queued\n", mali_gp_job_get_id(job), job));
+
+ return schedule_mask;
+}
+
+mali_scheduler_mask mali_gp_scheduler_activate_job(struct mali_gp_job *job)
+{
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+
+ MALI_DEBUG_ASSERT_POINTER(job);
+ MALI_DEBUG_ASSERT_POINTER(job->session);
+
+ MALI_DEBUG_PRINT(4, ("Mali GP scheduler: Timeline activation for job %u (0x%08X).\n", mali_gp_job_get_id(job), job));
+
+ mali_gp_scheduler_lock();
+
+ if (unlikely(job->session->is_aborting)) {
+ /* Before checking if the session is aborting, the scheduler must be locked. */
+ MALI_DEBUG_ASSERT_LOCK_HELD(gp_scheduler_lock);
+
+ MALI_DEBUG_PRINT(3, ("Mali GP scheduler: Job %u (0x%08X) activated while session is aborting.\n", mali_gp_job_get_id(job), job));
+
+ /* This job should not be on any list. */
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(&job->list));
+
+ mali_gp_scheduler_unlock();
+
+ /* Release tracker and delete job. */
+ mali_timeline_tracker_release(&job->tracker);
+ mali_gp_job_signal_pp_tracker(job, MALI_FALSE);
+ mali_gp_job_delete(job);
+ mali_gp_scheduler_job_completed();
+
+ /* Since we are aborting we ignore the scheduler mask. */
+ return MALI_SCHEDULER_MASK_EMPTY;
+ }
+
+ /* GP job is ready to run, queue it. */
+ schedule_mask = mali_gp_scheduler_queue_job(job);
+
+ mali_gp_scheduler_unlock();
+
+ return schedule_mask;
+}
+
+static void mali_gp_scheduler_job_queued(void)
+{
+ /* We hold a PM reference for every job we hold queued (and running) */
+ _mali_osk_pm_dev_ref_add();
+
+ if (mali_utilization_enabled()) {
+ /*
+ * We cheat a little bit by counting the PP as busy from the time a GP job is queued.
+ * This will be fine because we only loose the tiny idle gap between jobs, but
+ * we will instead get less utilization work to do (less locks taken)
+ */
+ mali_utilization_gp_start();
+ }
+}
+
+static void mali_gp_scheduler_job_completed(void)
+{
+ /* Release the PM reference we got in the mali_gp_scheduler_job_queued() function */
+ _mali_osk_pm_dev_ref_dec();
+
+ if (mali_utilization_enabled()) {
+ mali_utilization_gp_end();
+ }
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_GP_SCHEDULER_H__
+#define __MALI_GP_SCHEDULER_H__
+
+#include "mali_osk.h"
+#include "mali_gp_job.h"
+#include "mali_group.h"
+
+_mali_osk_errcode_t mali_gp_scheduler_initialize(void);
+void mali_gp_scheduler_terminate(void);
+
+void mali_gp_scheduler_job_done(struct mali_group *group, struct mali_gp_job *job, mali_bool success);
+void mali_gp_scheduler_oom(struct mali_group *group, struct mali_gp_job *job);
+u32 mali_gp_scheduler_dump_state(char *buf, u32 size);
+
+void mali_gp_scheduler_suspend(void);
+void mali_gp_scheduler_resume(void);
+
+/**
+ * @brief Abort all running and queued GP jobs from session.
+ *
+* This functions aborts all GP jobs from the specified session. Queued jobs are removed from the
+* queue and jobs currently running on a core will be aborted.
+ *
+ * @param session Session that is aborting.
+ */
+void mali_gp_scheduler_abort_session(struct mali_session_data *session);
+
+/**
+ * @brief Reset all groups
+ *
+ * This function resets all groups known by the GP scheuduler. This must be
+ * called after the Mali HW has been powered on in order to reset the HW.
+ */
+void mali_gp_scheduler_reset_all_groups(void);
+
+/**
+ * @brief Zap TLB on all groups with \a session active
+ *
+ * The scheculer will zap the session on all groups it owns.
+ */
+void mali_gp_scheduler_zap_all_active(struct mali_session_data *session);
+
+/**
+ * @brief Re-enable a group that has been disabled with mali_gp_scheduler_disable_group
+ *
+ * If a Mali PMU is present, the group will be powered back on and added back
+ * into the GP scheduler.
+ *
+ * @param group Pointer to the group to enable
+ */
+void mali_gp_scheduler_enable_group(struct mali_group *group);
+
+/**
+ * @brief Disable a group
+ *
+ * The group will be taken out of the GP scheduler and powered off, if a Mali
+ * PMU is present.
+ *
+ * @param group Pointer to the group to disable
+ */
+void mali_gp_scheduler_disable_group(struct mali_group *group);
+
+/**
+ * @brief Used by the Timeline system to queue a GP job.
+ *
+ * @note @ref mali_scheduler_schedule_from_mask() should be called if this function returns non-zero.
+ *
+ * @param job The GP job that is being activated.
+ *
+ * @return A scheduling bitmask that can be used to decide if scheduling is necessary after this
+ * call.
+ */
+mali_scheduler_mask mali_gp_scheduler_activate_job(struct mali_gp_job *job);
+
+/**
+ * @brief Schedule queued jobs on idle cores.
+ */
+void mali_gp_scheduler_schedule(void);
+
+/**
+ * @brief Submit a GP job to the GP scheduler.
+ *
+ * This will add the GP job to the Timeline system.
+ *
+ * @param session Session this job belongs to.
+ * @param job GP job that will be submitted
+ * @return Point on GP timeline for job.
+ */
+mali_timeline_point mali_gp_scheduler_submit_job(struct mali_session_data *session, struct mali_gp_job *job);
+
+#endif /* __MALI_GP_SCHEDULER_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_kernel_common.h"
+#include "mali_group.h"
+#include "mali_osk.h"
+#include "mali_l2_cache.h"
+#include "mali_gp.h"
+#include "mali_pp.h"
+#include "mali_mmu.h"
+#include "mali_dlbu.h"
+#include "mali_broadcast.h"
+#include "mali_scheduler.h"
+#include "mali_osk_profiling.h"
+#include "mali_pm_domain.h"
+#include "mali_pm.h"
+#if defined(CONFIG_GPU_TRACEPOINTS) && defined(CONFIG_TRACEPOINTS)
+#include <linux/sched.h>
+#include <trace/events/gpu.h>
+#endif
+
+
+static void mali_group_bottom_half_mmu(void *data);
+static void mali_group_bottom_half_gp(void *data);
+static void mali_group_bottom_half_pp(void *data);
+
+static void mali_group_timeout(void *data);
+static void mali_group_reset_pp(struct mali_group *group);
+static void mali_group_reset_mmu(struct mali_group *group);
+
+#if defined(CONFIG_MALI400_PROFILING)
+static void mali_group_report_l2_cache_counters_per_core(struct mali_group *group, u32 core_num);
+#endif /* #if defined(CONFIG_MALI400_PROFILING) */
+
+/*
+ * The group object is the most important object in the device driver,
+ * and acts as the center of many HW operations.
+ * The reason for this is that operations on the MMU will affect all
+ * cores connected to this MMU (a group is defined by the MMU and the
+ * cores which are connected to this).
+ * The group lock is thus the most important lock, followed by the
+ * GP and PP scheduler locks. They must be taken in the following
+ * order:
+ * GP/PP lock first, then group lock(s).
+ */
+
+static struct mali_group *mali_global_groups[MALI_MAX_NUMBER_OF_GROUPS] = { NULL, };
+static u32 mali_global_num_groups = 0;
+
+/* timer related */
+int mali_max_job_runtime = MALI_MAX_JOB_RUNTIME_DEFAULT;
+extern u32 mali_group_error;
+/* local helper functions */
+static void mali_group_activate_page_directory(struct mali_group *group, struct mali_session_data *session);
+static void mali_group_remove_session_if_unused(struct mali_group *group, struct mali_session_data *session);
+static void mali_group_recovery_reset(struct mali_group *group);
+static void mali_group_mmu_page_fault_and_unlock(struct mali_group *group);
+
+static void mali_group_post_process_job_pp(struct mali_group *group);
+static void mali_group_post_process_job_gp(struct mali_group *group, mali_bool suspend);
+
+void mali_group_lock(struct mali_group *group)
+{
+#ifdef MALI_UPPER_HALF_SCHEDULING
+ _mali_osk_spinlock_irq_lock(group->lock);
+#else
+ _mali_osk_spinlock_lock(group->lock);
+#endif
+ MALI_DEBUG_PRINT(5, ("Mali group: Group lock taken 0x%08X\n", group));
+}
+
+void mali_group_unlock(struct mali_group *group)
+{
+ MALI_DEBUG_PRINT(5, ("Mali group: Releasing group lock 0x%08X\n", group));
+#ifdef MALI_UPPER_HALF_SCHEDULING
+ _mali_osk_spinlock_irq_unlock(group->lock);
+#else
+ _mali_osk_spinlock_unlock(group->lock);
+#endif
+}
+
+#ifdef DEBUG
+void mali_group_assert_locked(struct mali_group *group)
+{
+ MALI_DEBUG_ASSERT_LOCK_HELD(group->lock);
+}
+#endif
+
+
+struct mali_group *mali_group_create(struct mali_l2_cache_core *core, struct mali_dlbu_core *dlbu, struct mali_bcast_unit *bcast)
+{
+ struct mali_group *group = NULL;
+
+ if (mali_global_num_groups >= MALI_MAX_NUMBER_OF_GROUPS) {
+ MALI_PRINT_ERROR(("Mali group: Too many group objects created\n"));
+ return NULL;
+ }
+
+ group = _mali_osk_calloc(1, sizeof(struct mali_group));
+ if (NULL != group) {
+ group->timeout_timer = _mali_osk_timer_init();
+
+ if (NULL != group->timeout_timer) {
+ _mali_osk_lock_order_t order;
+ _mali_osk_timer_setcallback(group->timeout_timer, mali_group_timeout, (void *)group);
+
+ if (NULL != dlbu) {
+ order = _MALI_OSK_LOCK_ORDER_GROUP_VIRTUAL;
+ } else {
+ order = _MALI_OSK_LOCK_ORDER_GROUP;
+ }
+
+#ifdef MALI_UPPER_HALF_SCHEDULING
+ group->lock = _mali_osk_spinlock_irq_init(_MALI_OSK_LOCKFLAG_ORDERED, order);
+#else
+ group->lock = _mali_osk_spinlock_init(_MALI_OSK_LOCKFLAG_ORDERED, order);
+#endif
+
+ if (NULL != group->lock) {
+ group->l2_cache_core[0] = core;
+ group->session = NULL;
+ group->power_is_on = MALI_TRUE;
+ group->state = MALI_GROUP_STATE_IDLE;
+ _mali_osk_list_init(&group->group_list);
+ _mali_osk_list_init(&group->pp_scheduler_list);
+ group->parent_group = NULL;
+ group->l2_cache_core_ref_count[0] = 0;
+ group->l2_cache_core_ref_count[1] = 0;
+ group->bcast_core = bcast;
+ group->dlbu_core = dlbu;
+
+ mali_global_groups[mali_global_num_groups] = group;
+ mali_global_num_groups++;
+
+ return group;
+ }
+ _mali_osk_timer_term(group->timeout_timer);
+ }
+ _mali_osk_free(group);
+ }
+
+ return NULL;
+}
+
+_mali_osk_errcode_t mali_group_add_mmu_core(struct mali_group *group, struct mali_mmu_core* mmu_core)
+{
+ /* This group object now owns the MMU core object */
+ group->mmu= mmu_core;
+ group->bottom_half_work_mmu = _mali_osk_wq_create_work(mali_group_bottom_half_mmu, group);
+ if (NULL == group->bottom_half_work_mmu) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+ return _MALI_OSK_ERR_OK;
+}
+
+void mali_group_remove_mmu_core(struct mali_group *group)
+{
+ /* This group object no longer owns the MMU core object */
+ group->mmu = NULL;
+ if (NULL != group->bottom_half_work_mmu) {
+ _mali_osk_wq_delete_work(group->bottom_half_work_mmu);
+ }
+}
+
+_mali_osk_errcode_t mali_group_add_gp_core(struct mali_group *group, struct mali_gp_core* gp_core)
+{
+ /* This group object now owns the GP core object */
+ group->gp_core = gp_core;
+ group->bottom_half_work_gp = _mali_osk_wq_create_work(mali_group_bottom_half_gp, group);
+ if (NULL == group->bottom_half_work_gp) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+ return _MALI_OSK_ERR_OK;
+}
+
+void mali_group_remove_gp_core(struct mali_group *group)
+{
+ /* This group object no longer owns the GP core object */
+ group->gp_core = NULL;
+ if (NULL != group->bottom_half_work_gp) {
+ _mali_osk_wq_delete_work(group->bottom_half_work_gp);
+ }
+}
+
+_mali_osk_errcode_t mali_group_add_pp_core(struct mali_group *group, struct mali_pp_core* pp_core)
+{
+ /* This group object now owns the PP core object */
+ group->pp_core = pp_core;
+ group->bottom_half_work_pp = _mali_osk_wq_create_work(mali_group_bottom_half_pp, group);
+ if (NULL == group->bottom_half_work_pp) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+ return _MALI_OSK_ERR_OK;
+}
+
+void mali_group_remove_pp_core(struct mali_group *group)
+{
+ /* This group object no longer owns the PP core object */
+ group->pp_core = NULL;
+ if (NULL != group->bottom_half_work_pp) {
+ _mali_osk_wq_delete_work(group->bottom_half_work_pp);
+ }
+}
+
+void mali_group_set_pm_domain(struct mali_group *group, struct mali_pm_domain *domain)
+{
+ group->pm_domain = domain;
+}
+
+void mali_group_delete(struct mali_group *group)
+{
+ u32 i;
+
+ MALI_DEBUG_PRINT(4, ("Deleting group %p\n", group));
+
+ MALI_DEBUG_ASSERT(NULL == group->parent_group);
+
+ /* Delete the resources that this group owns */
+ if (NULL != group->gp_core) {
+ mali_gp_delete(group->gp_core);
+ }
+
+ if (NULL != group->pp_core) {
+ mali_pp_delete(group->pp_core);
+ }
+
+ if (NULL != group->mmu) {
+ mali_mmu_delete(group->mmu);
+ }
+
+ if (mali_group_is_virtual(group)) {
+ /* Remove all groups from virtual group */
+ struct mali_group *child;
+ struct mali_group *temp;
+
+ _MALI_OSK_LIST_FOREACHENTRY(child, temp, &group->group_list, struct mali_group, group_list) {
+ child->parent_group = NULL;
+ mali_group_delete(child);
+ }
+
+ mali_dlbu_delete(group->dlbu_core);
+
+ if (NULL != group->bcast_core) {
+ mali_bcast_unit_delete(group->bcast_core);
+ }
+ }
+
+ for (i = 0; i < mali_global_num_groups; i++) {
+ if (mali_global_groups[i] == group) {
+ mali_global_groups[i] = NULL;
+ mali_global_num_groups--;
+
+ if (i != mali_global_num_groups) {
+ /* We removed a group from the middle of the array -- move the last
+ * group to the current position to close the gap */
+ mali_global_groups[i] = mali_global_groups[mali_global_num_groups];
+ mali_global_groups[mali_global_num_groups] = NULL;
+ }
+
+ break;
+ }
+ }
+
+ if (NULL != group->timeout_timer) {
+ _mali_osk_timer_del(group->timeout_timer);
+ _mali_osk_timer_term(group->timeout_timer);
+ }
+
+ if (NULL != group->bottom_half_work_mmu) {
+ _mali_osk_wq_delete_work(group->bottom_half_work_mmu);
+ }
+
+ if (NULL != group->bottom_half_work_gp) {
+ _mali_osk_wq_delete_work(group->bottom_half_work_gp);
+ }
+
+ if (NULL != group->bottom_half_work_pp) {
+ _mali_osk_wq_delete_work(group->bottom_half_work_pp);
+ }
+
+#ifdef MALI_UPPER_HALF_SCHEDULING
+ _mali_osk_spinlock_irq_term(group->lock);
+#else
+ _mali_osk_spinlock_term(group->lock);
+#endif
+ _mali_osk_free(group);
+}
+
+MALI_DEBUG_CODE(static void mali_group_print_virtual(struct mali_group *vgroup)
+{
+ u32 i;
+ struct mali_group *group;
+ struct mali_group *temp;
+
+ MALI_DEBUG_PRINT(4, ("Virtual group %p\n", vgroup));
+ MALI_DEBUG_PRINT(4, ("l2_cache_core[0] = %p, ref = %d\n", vgroup->l2_cache_core[0], vgroup->l2_cache_core_ref_count[0]));
+ MALI_DEBUG_PRINT(4, ("l2_cache_core[1] = %p, ref = %d\n", vgroup->l2_cache_core[1], vgroup->l2_cache_core_ref_count[1]));
+
+ i = 0;
+ _MALI_OSK_LIST_FOREACHENTRY(group, temp, &vgroup->group_list, struct mali_group, group_list) {
+ MALI_DEBUG_PRINT(4, ("[%d] %p, l2_cache_core[0] = %p\n", i, group, group->l2_cache_core[0]));
+ i++;
+ }
+})
+
+/**
+ * @brief Add child group to virtual group parent
+ *
+ * Before calling this function, child must have it's state set to JOINING_VIRTUAL
+ * to ensure it's not touched during the transition period. When this function returns,
+ * child's state will be IN_VIRTUAL.
+ */
+void mali_group_add_group(struct mali_group *parent, struct mali_group *child, mali_bool update_hw)
+{
+ mali_bool found;
+ u32 i;
+ struct mali_session_data *child_session;
+
+ MALI_DEBUG_PRINT(3, ("Adding group %p to virtual group %p\n", child, parent));
+
+ MALI_ASSERT_GROUP_LOCKED(parent);
+
+ MALI_DEBUG_ASSERT(mali_group_is_virtual(parent));
+ MALI_DEBUG_ASSERT(!mali_group_is_virtual(child));
+ MALI_DEBUG_ASSERT(NULL == child->parent_group);
+ MALI_DEBUG_ASSERT(MALI_GROUP_STATE_JOINING_VIRTUAL == child->state);
+
+ _mali_osk_list_addtail(&child->group_list, &parent->group_list);
+
+ child->state = MALI_GROUP_STATE_IN_VIRTUAL;
+ child->parent_group = parent;
+
+ MALI_DEBUG_ASSERT_POINTER(child->l2_cache_core[0]);
+
+ MALI_DEBUG_PRINT(4, ("parent->l2_cache_core: [0] = %p, [1] = %p\n", parent->l2_cache_core[0], parent->l2_cache_core[1]));
+ MALI_DEBUG_PRINT(4, ("child->l2_cache_core: [0] = %p, [1] = %p\n", child->l2_cache_core[0], child->l2_cache_core[1]));
+
+ /* Keep track of the L2 cache cores of child groups */
+ found = MALI_FALSE;
+ for (i = 0; i < 2; i++) {
+ if (parent->l2_cache_core[i] == child->l2_cache_core[0]) {
+ MALI_DEBUG_ASSERT(parent->l2_cache_core_ref_count[i] > 0);
+ parent->l2_cache_core_ref_count[i]++;
+ found = MALI_TRUE;
+ }
+ }
+
+ if (!found) {
+ /* First time we see this L2 cache, add it to our list */
+ i = (NULL == parent->l2_cache_core[0]) ? 0 : 1;
+
+ MALI_DEBUG_PRINT(4, ("First time we see l2_cache %p. Adding to [%d] = %p\n", child->l2_cache_core[0], i, parent->l2_cache_core[i]));
+
+ MALI_DEBUG_ASSERT(NULL == parent->l2_cache_core[i]);
+
+ parent->l2_cache_core[i] = child->l2_cache_core[0];
+ parent->l2_cache_core_ref_count[i]++;
+ }
+
+ /* Update Broadcast Unit and DLBU */
+ mali_bcast_add_group(parent->bcast_core, child);
+ mali_dlbu_add_group(parent->dlbu_core, child);
+
+ child_session = child->session;
+ child->session = NULL;
+
+ /* Above this comment, only software state is updated and the HW is not
+ * touched. Now, check if Mali is powered and skip the rest if it isn't
+ * powered.
+ */
+
+ if (!update_hw) {
+ MALI_DEBUG_CODE(mali_group_print_virtual(parent));
+ return;
+ }
+
+ /* Update MMU */
+ if (parent->session == child_session) {
+ mali_mmu_zap_tlb(child->mmu);
+ } else {
+ if (NULL == parent->session) {
+ mali_mmu_activate_empty_page_directory(child->mmu);
+ } else {
+ mali_mmu_activate_page_directory(child->mmu, mali_session_get_page_directory(parent->session));
+ }
+ }
+
+ /* Update HW only if power is on */
+ mali_bcast_reset(parent->bcast_core);
+ mali_dlbu_update_mask(parent->dlbu_core);
+
+ /* Start job on child when parent is active */
+ if (NULL != parent->pp_running_job) {
+ struct mali_pp_job *job = parent->pp_running_job;
+ MALI_DEBUG_PRINT(3, ("Group %x joining running job %d on virtual group %x\n",
+ child, mali_pp_job_get_id(job), parent));
+ MALI_DEBUG_ASSERT(MALI_GROUP_STATE_WORKING == parent->state);
+ mali_pp_job_start(child->pp_core, job, mali_pp_core_get_id(child->pp_core), MALI_TRUE);
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_SINGLE|
+ MALI_PROFILING_MAKE_EVENT_CHANNEL_PP(mali_pp_core_get_id(child->pp_core))|
+ MALI_PROFILING_EVENT_REASON_SINGLE_HW_FLUSH,
+ mali_pp_job_get_frame_builder_id(job), mali_pp_job_get_flush_id(job), 0, 0, 0);
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_START|
+ MALI_PROFILING_MAKE_EVENT_CHANNEL_PP(mali_pp_core_get_id(child->pp_core))|
+ MALI_PROFILING_EVENT_REASON_START_STOP_HW_VIRTUAL,
+ mali_pp_job_get_pid(job), mali_pp_job_get_tid(job), 0, 0, 0);
+ }
+
+ MALI_DEBUG_CODE(mali_group_print_virtual(parent);)
+}
+
+/**
+ * @brief Remove child group from virtual group parent
+ *
+ * After the child is removed, it's state will be LEAVING_VIRTUAL and must be set
+ * to IDLE before it can be used.
+ */
+void mali_group_remove_group(struct mali_group *parent, struct mali_group *child)
+{
+ u32 i;
+
+ MALI_ASSERT_GROUP_LOCKED(parent);
+
+ MALI_DEBUG_PRINT(3, ("Removing group %p from virtual group %p\n", child, parent));
+
+ MALI_DEBUG_ASSERT(mali_group_is_virtual(parent));
+ MALI_DEBUG_ASSERT(!mali_group_is_virtual(child));
+ MALI_DEBUG_ASSERT(parent == child->parent_group);
+ MALI_DEBUG_ASSERT(MALI_GROUP_STATE_IN_VIRTUAL == child->state);
+ /* Removing groups while running is not yet supported. */
+ MALI_DEBUG_ASSERT(MALI_GROUP_STATE_IDLE == parent->state);
+
+ mali_group_lock(child);
+
+ /* Update Broadcast Unit and DLBU */
+ mali_bcast_remove_group(parent->bcast_core, child);
+ mali_dlbu_remove_group(parent->dlbu_core, child);
+
+ /* Update HW only if power is on */
+ if (mali_pm_is_power_on()) {
+ mali_bcast_reset(parent->bcast_core);
+ mali_dlbu_update_mask(parent->dlbu_core);
+ }
+
+ _mali_osk_list_delinit(&child->group_list);
+
+ child->session = parent->session;
+ child->parent_group = NULL;
+ child->state = MALI_GROUP_STATE_LEAVING_VIRTUAL;
+
+ /* Keep track of the L2 cache cores of child groups */
+ i = (child->l2_cache_core[0] == parent->l2_cache_core[0]) ? 0 : 1;
+
+ MALI_DEBUG_ASSERT(child->l2_cache_core[0] == parent->l2_cache_core[i]);
+
+ parent->l2_cache_core_ref_count[i]--;
+
+ if (parent->l2_cache_core_ref_count[i] == 0) {
+ parent->l2_cache_core[i] = NULL;
+ }
+
+ MALI_DEBUG_CODE(mali_group_print_virtual(parent));
+
+ mali_group_unlock(child);
+}
+
+struct mali_group *mali_group_acquire_group(struct mali_group *parent)
+{
+ struct mali_group *child;
+
+ MALI_ASSERT_GROUP_LOCKED(parent);
+
+ MALI_DEBUG_ASSERT(mali_group_is_virtual(parent));
+ MALI_DEBUG_ASSERT(!_mali_osk_list_empty(&parent->group_list));
+
+ child = _MALI_OSK_LIST_ENTRY(parent->group_list.prev, struct mali_group, group_list);
+
+ mali_group_remove_group(parent, child);
+
+ return child;
+}
+
+void mali_group_reset(struct mali_group *group)
+{
+ /*
+ * This function should not be used to abort jobs,
+ * currently only called during insmod and PM resume
+ */
+ MALI_DEBUG_ASSERT_LOCK_HELD(group->lock);
+ MALI_DEBUG_ASSERT(NULL == group->gp_running_job);
+ MALI_DEBUG_ASSERT(NULL == group->pp_running_job);
+
+ group->session = NULL;
+
+ if (NULL != group->dlbu_core) {
+ mali_dlbu_reset(group->dlbu_core);
+ }
+
+ if (NULL != group->bcast_core) {
+ mali_bcast_reset(group->bcast_core);
+ }
+
+ if (NULL != group->mmu) {
+ mali_group_reset_mmu(group);
+ }
+
+ if (NULL != group->gp_core) {
+ mali_gp_reset(group->gp_core);
+ }
+
+ if (NULL != group->pp_core) {
+ mali_group_reset_pp(group);
+ }
+}
+
+struct mali_gp_core* mali_group_get_gp_core(struct mali_group *group)
+{
+ return group->gp_core;
+}
+
+struct mali_pp_core* mali_group_get_pp_core(struct mali_group *group)
+{
+ return group->pp_core;
+}
+
+void mali_group_start_gp_job(struct mali_group *group, struct mali_gp_job *job)
+{
+ struct mali_session_data *session;
+
+ MALI_ASSERT_GROUP_LOCKED(group);
+ MALI_DEBUG_ASSERT(MALI_GROUP_STATE_IDLE == group->state);
+
+ session = mali_gp_job_get_session(job);
+
+ if (NULL != group->l2_cache_core[0]) {
+ mali_l2_cache_invalidate_conditional(group->l2_cache_core[0], mali_gp_job_get_cache_order(job));
+ }
+
+ mali_group_activate_page_directory(group, session);
+
+ mali_gp_job_start(group->gp_core, job);
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_SINGLE |
+ MALI_PROFILING_MAKE_EVENT_CHANNEL_GP(0) |
+ MALI_PROFILING_EVENT_REASON_SINGLE_HW_FLUSH,
+ mali_gp_job_get_frame_builder_id(job), mali_gp_job_get_flush_id(job), 0, 0, 0);
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_START |
+ MALI_PROFILING_MAKE_EVENT_CHANNEL_GP(0),
+ mali_gp_job_get_pid(job), mali_gp_job_get_tid(job), 0, 0, 0);
+#if defined(CONFIG_MALI400_PROFILING)
+ if ((MALI_HW_CORE_NO_COUNTER != mali_l2_cache_core_get_counter_src0(group->l2_cache_core[0])) &&
+ (MALI_HW_CORE_NO_COUNTER != mali_l2_cache_core_get_counter_src1(group->l2_cache_core[0])))
+ mali_group_report_l2_cache_counters_per_core(group, 0);
+#endif /* #if defined(CONFIG_MALI400_PROFILING) */
+
+#if defined(CONFIG_GPU_TRACEPOINTS) && defined(CONFIG_TRACEPOINTS)
+ trace_gpu_sched_switch(mali_gp_get_hw_core_desc(group->gp_core), sched_clock(),
+ mali_gp_job_get_pid(job), 0, mali_gp_job_get_id(job));
+#endif
+
+ group->gp_running_job = job;
+ group->state = MALI_GROUP_STATE_WORKING;
+
+ /* Setup the timeout timer value and save the job id for the job running on the gp core */
+ _mali_osk_timer_mod(group->timeout_timer, _mali_osk_time_mstoticks(mali_max_job_runtime));
+}
+
+void mali_group_start_pp_job(struct mali_group *group, struct mali_pp_job *job, u32 sub_job)
+{
+ struct mali_session_data *session;
+
+ MALI_ASSERT_GROUP_LOCKED(group);
+ MALI_DEBUG_ASSERT(MALI_GROUP_STATE_IDLE == group->state);
+
+ session = mali_pp_job_get_session(job);
+
+ if (NULL != group->l2_cache_core[0]) {
+ mali_l2_cache_invalidate_conditional(group->l2_cache_core[0], mali_pp_job_get_cache_order(job));
+ }
+
+ if (NULL != group->l2_cache_core[1]) {
+ mali_l2_cache_invalidate_conditional(group->l2_cache_core[1], mali_pp_job_get_cache_order(job));
+ }
+
+ mali_group_activate_page_directory(group, session);
+
+ if (mali_group_is_virtual(group)) {
+ struct mali_group *child;
+ struct mali_group *temp;
+ u32 core_num = 0;
+
+ MALI_DEBUG_ASSERT( mali_pp_job_is_virtual(job));
+
+ /* Configure DLBU for the job */
+ mali_dlbu_config_job(group->dlbu_core, job);
+
+ /* Write stack address for each child group */
+ _MALI_OSK_LIST_FOREACHENTRY(child, temp, &group->group_list, struct mali_group, group_list) {
+ mali_pp_write_addr_stack(child->pp_core, job);
+ core_num++;
+ }
+
+ /* Try to use DMA unit to start job, fallback to writing directly to the core */
+ MALI_DEBUG_ASSERT(mali_dma_cmd_buf_is_valid(&job->dma_cmd_buf));
+ if (_MALI_OSK_ERR_OK != mali_dma_start(mali_dma_get_global_dma_core(), &job->dma_cmd_buf)) {
+ mali_pp_job_start(group->pp_core, job, sub_job, MALI_FALSE);
+ }
+ } else {
+ mali_pp_job_start(group->pp_core, job, sub_job, MALI_FALSE);
+ }
+
+ /* if the group is virtual, loop through physical groups which belong to this group
+ * and call profiling events for its cores as virtual */
+ if (MALI_TRUE == mali_group_is_virtual(group)) {
+ struct mali_group *child;
+ struct mali_group *temp;
+
+ _MALI_OSK_LIST_FOREACHENTRY(child, temp, &group->group_list, struct mali_group, group_list) {
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_SINGLE|
+ MALI_PROFILING_MAKE_EVENT_CHANNEL_PP(mali_pp_core_get_id(child->pp_core))|
+ MALI_PROFILING_EVENT_REASON_SINGLE_HW_FLUSH,
+ mali_pp_job_get_frame_builder_id(job), mali_pp_job_get_flush_id(job), 0, 0, 0);
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_START|
+ MALI_PROFILING_MAKE_EVENT_CHANNEL_PP(mali_pp_core_get_id(child->pp_core))|
+ MALI_PROFILING_EVENT_REASON_START_STOP_HW_VIRTUAL,
+ mali_pp_job_get_pid(job), mali_pp_job_get_tid(job), 0, 0, 0);
+ }
+#if defined(CONFIG_MALI400_PROFILING)
+ if (0 != group->l2_cache_core_ref_count[0]) {
+ if ((MALI_HW_CORE_NO_COUNTER != mali_l2_cache_core_get_counter_src0(group->l2_cache_core[0])) &&
+ (MALI_HW_CORE_NO_COUNTER != mali_l2_cache_core_get_counter_src1(group->l2_cache_core[0]))) {
+ mali_group_report_l2_cache_counters_per_core(group, mali_l2_cache_get_id(group->l2_cache_core[0]));
+ }
+ }
+ if (0 != group->l2_cache_core_ref_count[1]) {
+ if ((MALI_HW_CORE_NO_COUNTER != mali_l2_cache_core_get_counter_src0(group->l2_cache_core[1])) &&
+ (MALI_HW_CORE_NO_COUNTER != mali_l2_cache_core_get_counter_src1(group->l2_cache_core[1]))) {
+ mali_group_report_l2_cache_counters_per_core(group, mali_l2_cache_get_id(group->l2_cache_core[1]));
+ }
+ }
+#endif /* #if defined(CONFIG_MALI400_PROFILING) */
+ } else { /* group is physical - call profiling events for physical cores */
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_SINGLE|
+ MALI_PROFILING_MAKE_EVENT_CHANNEL_PP(mali_pp_core_get_id(group->pp_core))|
+ MALI_PROFILING_EVENT_REASON_SINGLE_HW_FLUSH,
+ mali_pp_job_get_frame_builder_id(job), mali_pp_job_get_flush_id(job), 0, 0, 0);
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_START|
+ MALI_PROFILING_MAKE_EVENT_CHANNEL_PP(mali_pp_core_get_id(group->pp_core))|
+ MALI_PROFILING_EVENT_REASON_START_STOP_HW_PHYSICAL,
+ mali_pp_job_get_pid(job), mali_pp_job_get_tid(job), 0, 0, 0);
+#if defined(CONFIG_MALI400_PROFILING)
+ if ((MALI_HW_CORE_NO_COUNTER != mali_l2_cache_core_get_counter_src0(group->l2_cache_core[0])) &&
+ (MALI_HW_CORE_NO_COUNTER != mali_l2_cache_core_get_counter_src1(group->l2_cache_core[0]))) {
+ mali_group_report_l2_cache_counters_per_core(group, mali_l2_cache_get_id(group->l2_cache_core[0]));
+ }
+#endif /* #if defined(CONFIG_MALI400_PROFILING) */
+ }
+#if defined(CONFIG_GPU_TRACEPOINTS) && defined(CONFIG_TRACEPOINTS)
+ trace_gpu_sched_switch(mali_pp_get_hw_core_desc(group->pp_core), sched_clock(), mali_pp_job_get_tid(job), 0, mali_pp_job_get_id(job));
+#endif
+ group->pp_running_job = job;
+ group->pp_running_sub_job = sub_job;
+ group->state = MALI_GROUP_STATE_WORKING;
+
+ /* Setup the timeout timer value and save the job id for the job running on the pp core */
+ _mali_osk_timer_mod(group->timeout_timer, _mali_osk_time_mstoticks(mali_max_job_runtime));
+}
+
+struct mali_gp_job *mali_group_resume_gp_with_new_heap(struct mali_group *group, u32 job_id, u32 start_addr, u32 end_addr)
+{
+ MALI_ASSERT_GROUP_LOCKED(group);
+
+ if (group->state != MALI_GROUP_STATE_OOM ||
+ mali_gp_job_get_id(group->gp_running_job) != job_id) {
+ return NULL; /* Illegal request or job has already been aborted */
+ }
+
+ if (NULL != group->l2_cache_core[0]) {
+ mali_l2_cache_invalidate(group->l2_cache_core[0]);
+ }
+
+ mali_mmu_zap_tlb_without_stall(group->mmu);
+
+ mali_gp_resume_with_new_heap(group->gp_core, start_addr, end_addr);
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_RESUME|MALI_PROFILING_MAKE_EVENT_CHANNEL_GP(0), 0, 0, 0, 0, 0);
+
+ group->state = MALI_GROUP_STATE_WORKING;
+
+ return group->gp_running_job;
+}
+
+static void mali_group_reset_mmu(struct mali_group *group)
+{
+ struct mali_group *child;
+ struct mali_group *temp;
+ _mali_osk_errcode_t err;
+
+ if (!mali_group_is_virtual(group)) {
+ /* This is a physical group or an idle virtual group -- simply wait for
+ * the reset to complete. */
+ err = mali_mmu_reset(group->mmu);
+ MALI_DEBUG_ASSERT(_MALI_OSK_ERR_OK == err);
+ } else { /* virtual group */
+ err = mali_mmu_reset(group->mmu);
+ if (_MALI_OSK_ERR_OK == err) {
+ return;
+ }
+
+ /* Loop through all members of this virtual group and wait
+ * until they are done resetting.
+ */
+ _MALI_OSK_LIST_FOREACHENTRY(child, temp, &group->group_list, struct mali_group, group_list) {
+ err = mali_mmu_reset(child->mmu);
+ MALI_DEBUG_ASSERT(_MALI_OSK_ERR_OK == err);
+ }
+ }
+}
+
+static void mali_group_reset_pp(struct mali_group *group)
+{
+ struct mali_group *child;
+ struct mali_group *temp;
+
+ mali_pp_reset_async(group->pp_core);
+
+ if (!mali_group_is_virtual(group) || NULL == group->pp_running_job) {
+ /* This is a physical group or an idle virtual group -- simply wait for
+ * the reset to complete. */
+ mali_pp_reset_wait(group->pp_core);
+ } else { /* virtual group */
+ /* Loop through all members of this virtual group and wait until they
+ * are done resetting.
+ */
+ _MALI_OSK_LIST_FOREACHENTRY(child, temp, &group->group_list, struct mali_group, group_list) {
+ mali_pp_reset_wait(child->pp_core);
+ }
+ }
+}
+
+/* Group must be locked when entering this function. Will be unlocked before exiting. */
+static void mali_group_complete_pp_and_unlock(struct mali_group *group, mali_bool success, mali_bool in_upper_half)
+{
+ struct mali_pp_job *pp_job_to_return;
+ u32 pp_sub_job_to_return;
+
+ MALI_DEBUG_ASSERT_POINTER(group);
+ MALI_DEBUG_ASSERT_POINTER(group->pp_core);
+ MALI_DEBUG_ASSERT_POINTER(group->pp_running_job);
+ MALI_ASSERT_GROUP_LOCKED(group);
+
+ mali_group_post_process_job_pp(group);
+
+ if (success) {
+ /* Only do soft reset for successful jobs, a full recovery
+ * reset will be done for failed jobs. */
+ mali_pp_reset_async(group->pp_core);
+ }
+
+ pp_job_to_return = group->pp_running_job;
+ pp_sub_job_to_return = group->pp_running_sub_job;
+ group->state = MALI_GROUP_STATE_IDLE;
+ group->pp_running_job = NULL;
+
+ if (!success) {
+ MALI_DEBUG_PRINT(2, ("Mali group: Executing recovery reset due to job failure\n"));
+ mali_group_recovery_reset(group);
+ } else if (_MALI_OSK_ERR_OK != mali_pp_reset_wait(group->pp_core)) {
+ MALI_PRINT_ERROR(("Mali group: Executing recovery reset due to reset failure\n"));
+ mali_group_recovery_reset(group);
+ }
+
+ /* Return job to user, schedule and unlock group. */
+ mali_pp_scheduler_job_done(group, pp_job_to_return, pp_sub_job_to_return, success, in_upper_half);
+}
+
+/* Group must be locked when entering this function. Will be unlocked before exiting. */
+static void mali_group_complete_gp_and_unlock(struct mali_group *group, mali_bool success)
+{
+ struct mali_gp_job *gp_job_to_return;
+
+ MALI_DEBUG_ASSERT_POINTER(group);
+ MALI_DEBUG_ASSERT_POINTER(group->gp_core);
+ MALI_DEBUG_ASSERT_POINTER(group->gp_running_job);
+ MALI_ASSERT_GROUP_LOCKED(group);
+
+ mali_group_post_process_job_gp(group, MALI_FALSE);
+
+ if (success) {
+ /* Only do soft reset for successful jobs, a full recovery
+ * reset will be done for failed jobs. */
+ mali_gp_reset_async(group->gp_core);
+ }
+
+ gp_job_to_return = group->gp_running_job;
+ group->state = MALI_GROUP_STATE_IDLE;
+ group->gp_running_job = NULL;
+
+ if (!success) {
+ MALI_DEBUG_PRINT(2, ("Mali group: Executing recovery reset due to job failure\n"));
+ mali_group_recovery_reset(group);
+ } else if (_MALI_OSK_ERR_OK != mali_gp_reset_wait(group->gp_core)) {
+ MALI_PRINT_ERROR(("Mali group: Executing recovery reset due to reset failure\n"));
+ mali_group_recovery_reset(group);
+ }
+
+ /* Return job to user, schedule and unlock group. */
+ mali_gp_scheduler_job_done(group, gp_job_to_return, success);
+}
+
+void mali_group_abort_gp_job(struct mali_group *group, u32 job_id)
+{
+ MALI_ASSERT_GROUP_LOCKED(group);
+
+ if (MALI_GROUP_STATE_IDLE == group->state ||
+ mali_gp_job_get_id(group->gp_running_job) != job_id) {
+ return; /* No need to cancel or job has already been aborted or completed */
+ }
+
+ /* Function will unlock the group, so we need to lock it again */
+ mali_group_complete_gp_and_unlock(group, MALI_FALSE);
+ mali_group_lock(group);
+}
+
+static void mali_group_abort_pp_job(struct mali_group *group, u32 job_id)
+{
+ MALI_ASSERT_GROUP_LOCKED(group);
+
+ if (MALI_GROUP_STATE_IDLE == group->state ||
+ mali_pp_job_get_id(group->pp_running_job) != job_id) {
+ return; /* No need to cancel or job has already been aborted or completed */
+ }
+
+ mali_group_complete_pp_and_unlock(group, MALI_FALSE, MALI_FALSE);
+ mali_group_lock(group);
+}
+
+void mali_group_abort_session(struct mali_group *group, struct mali_session_data *session)
+{
+ struct mali_gp_job *gp_job;
+ struct mali_pp_job *pp_job;
+ u32 gp_job_id = 0;
+ u32 pp_job_id = 0;
+ mali_bool abort_pp = MALI_FALSE;
+ mali_bool abort_gp = MALI_FALSE;
+
+ mali_group_lock(group);
+
+ if (mali_group_is_in_virtual(group)) {
+ /* Group is member of a virtual group, don't touch it! */
+ mali_group_unlock(group);
+ return;
+ }
+
+ gp_job = group->gp_running_job;
+ pp_job = group->pp_running_job;
+
+ if ((NULL != gp_job) && (mali_gp_job_get_session(gp_job) == session)) {
+ MALI_DEBUG_PRINT(4, ("Aborting GP job 0x%08x from session 0x%08x\n", gp_job, session));
+
+ gp_job_id = mali_gp_job_get_id(gp_job);
+ abort_gp = MALI_TRUE;
+ }
+
+ if ((NULL != pp_job) && (mali_pp_job_get_session(pp_job) == session)) {
+ MALI_DEBUG_PRINT(4, ("Mali group: Aborting PP job 0x%08x from session 0x%08x\n", pp_job, session));
+
+ pp_job_id = mali_pp_job_get_id(pp_job);
+ abort_pp = MALI_TRUE;
+ }
+
+ if (abort_gp) {
+ mali_group_abort_gp_job(group, gp_job_id);
+ }
+ if (abort_pp) {
+ mali_group_abort_pp_job(group, pp_job_id);
+ }
+
+ mali_group_remove_session_if_unused(group, session);
+
+ mali_group_unlock(group);
+}
+
+struct mali_group *mali_group_get_glob_group(u32 index)
+{
+ if(mali_global_num_groups > index) {
+ return mali_global_groups[index];
+ }
+
+ return NULL;
+}
+
+u32 mali_group_get_glob_num_groups(void)
+{
+ return mali_global_num_groups;
+}
+
+static void mali_group_activate_page_directory(struct mali_group *group, struct mali_session_data *session)
+{
+ MALI_ASSERT_GROUP_LOCKED(group);
+
+ MALI_DEBUG_PRINT(5, ("Mali group: Activating page directory 0x%08X from session 0x%08X on group 0x%08X\n", mali_session_get_page_directory(session), session, group));
+
+ if (group->session != session) {
+ /* Different session than last time, so we need to do some work */
+ MALI_DEBUG_PRINT(5, ("Mali group: Activate session: %08x previous: %08x on group 0x%08X\n", session, group->session, group));
+ mali_mmu_activate_page_directory(group->mmu, mali_session_get_page_directory(session));
+ group->session = session;
+ } else {
+ /* Same session as last time, so no work required */
+ MALI_DEBUG_PRINT(4, ("Mali group: Activate existing session 0x%08X on group 0x%08X\n", session->page_directory, group));
+ mali_mmu_zap_tlb_without_stall(group->mmu);
+ }
+}
+
+static void mali_group_remove_session_if_unused(struct mali_group *group, struct mali_session_data *session)
+{
+ MALI_ASSERT_GROUP_LOCKED(group);
+
+ if (MALI_GROUP_STATE_IDLE == group->state) {
+ if (group->session == session) {
+ MALI_DEBUG_ASSERT(MALI_GROUP_STATE_WORKING != group->state);
+ MALI_DEBUG_ASSERT(MALI_TRUE == group->power_is_on);
+ MALI_DEBUG_PRINT(3, ("Mali group: Deactivating unused session 0x%08X on group %08X\n", session, group));
+ mali_mmu_activate_empty_page_directory(group->mmu);
+ group->session = NULL;
+ }
+ }
+}
+
+mali_bool mali_group_power_is_on(struct mali_group *group)
+{
+ MALI_DEBUG_ASSERT_LOCK_HELD(group->lock);
+ return group->power_is_on;
+}
+
+void mali_group_power_on_group(struct mali_group *group)
+{
+ MALI_DEBUG_ASSERT_POINTER(group);
+ MALI_DEBUG_ASSERT_LOCK_HELD(group->lock);
+ MALI_DEBUG_ASSERT( MALI_GROUP_STATE_IDLE == group->state
+ || MALI_GROUP_STATE_IN_VIRTUAL == group->state
+ || MALI_GROUP_STATE_JOINING_VIRTUAL == group->state
+ || MALI_GROUP_STATE_LEAVING_VIRTUAL == group->state
+ || MALI_GROUP_STATE_DISABLED == group->state);
+
+ MALI_DEBUG_PRINT(3, ("Group %p powered on\n", group));
+
+ group->power_is_on = MALI_TRUE;
+}
+
+void mali_group_power_off_group(struct mali_group *group, mali_bool do_power_change)
+{
+ MALI_DEBUG_ASSERT_POINTER(group);
+ MALI_DEBUG_ASSERT_LOCK_HELD(group->lock);
+ MALI_DEBUG_ASSERT( MALI_GROUP_STATE_IDLE == group->state
+ || MALI_GROUP_STATE_IN_VIRTUAL == group->state
+ || MALI_GROUP_STATE_JOINING_VIRTUAL == group->state
+ || MALI_GROUP_STATE_LEAVING_VIRTUAL == group->state
+ || MALI_GROUP_STATE_DISABLED == group->state);
+
+ MALI_DEBUG_PRINT(3, ("Group %p powered off\n", group));
+
+ /* It is necessary to set group->session = NULL so that the powered off MMU is not written
+ * to on map/unmap. It is also necessary to set group->power_is_on = MALI_FALSE so that
+ * pending bottom_halves does not access powered off cores. */
+
+ group->session = NULL;
+
+ if (do_power_change) {
+ group->power_is_on = MALI_FALSE;
+ }
+}
+
+void mali_group_power_on(void)
+{
+ int i;
+ for (i = 0; i < mali_global_num_groups; i++) {
+ struct mali_group *group = mali_global_groups[i];
+
+ mali_group_lock(group);
+ if (MALI_GROUP_STATE_DISABLED == group->state) {
+ MALI_DEBUG_ASSERT(MALI_FALSE == group->power_is_on);
+ } else {
+ mali_group_power_on_group(group);
+ }
+ mali_group_unlock(group);
+ }
+ MALI_DEBUG_PRINT(4, ("Mali Group: power on\n"));
+}
+
+void mali_group_power_off(mali_bool do_power_change)
+{
+ int i;
+
+ for (i = 0; i < mali_global_num_groups; i++) {
+ struct mali_group *group = mali_global_groups[i];
+
+ mali_group_lock(group);
+ if (MALI_GROUP_STATE_DISABLED == group->state) {
+ MALI_DEBUG_ASSERT(MALI_FALSE == group->power_is_on);
+ } else {
+ mali_group_power_off_group(group, do_power_change);
+ }
+ mali_group_unlock(group);
+ }
+ MALI_DEBUG_PRINT(4, ("Mali Group: power off\n"));
+}
+
+static void mali_group_recovery_reset(struct mali_group *group)
+{
+ _mali_osk_errcode_t err;
+
+ MALI_ASSERT_GROUP_LOCKED(group);
+
+ /* Stop cores, bus stop */
+ if (NULL != group->pp_core) {
+ mali_pp_stop_bus(group->pp_core);
+ } else {
+ mali_gp_stop_bus(group->gp_core);
+ }
+
+ /* Flush MMU and clear page fault (if any) */
+ mali_mmu_activate_fault_flush_page_directory(group->mmu);
+ mali_mmu_page_fault_done(group->mmu);
+
+ /* Wait for cores to stop bus, then do a hard reset on them */
+ if (NULL != group->pp_core) {
+ if (mali_group_is_virtual(group)) {
+ struct mali_group *child, *temp;
+
+ /* Disable the broadcast unit while we do reset directly on the member cores. */
+ mali_bcast_disable(group->bcast_core);
+
+ _MALI_OSK_LIST_FOREACHENTRY(child, temp, &group->group_list, struct mali_group, group_list) {
+ mali_pp_stop_bus_wait(child->pp_core);
+ mali_pp_hard_reset(child->pp_core);
+ }
+
+ mali_bcast_enable(group->bcast_core);
+ } else {
+ mali_pp_stop_bus_wait(group->pp_core);
+ mali_pp_hard_reset(group->pp_core);
+ }
+ } else {
+ mali_gp_stop_bus_wait(group->gp_core);
+ mali_gp_hard_reset(group->gp_core);
+ }
+
+ /* Reset MMU */
+ err = mali_mmu_reset(group->mmu);
+ MALI_DEBUG_ASSERT(_MALI_OSK_ERR_OK == err);
+ MALI_IGNORE(err);
+
+ group->session = NULL;
+}
+
+#if MALI_STATE_TRACKING
+u32 mali_group_dump_state(struct mali_group *group, char *buf, u32 size)
+{
+ int n = 0;
+
+ n += _mali_osk_snprintf(buf + n, size - n, "Group: %p\n", group);
+ n += _mali_osk_snprintf(buf + n, size - n, "\tstate: %d\n", group->state);
+ if (group->gp_core) {
+ n += mali_gp_dump_state(group->gp_core, buf + n, size - n);
+ n += _mali_osk_snprintf(buf + n, size - n, "\tGP job: %p\n", group->gp_running_job);
+ }
+ if (group->pp_core) {
+ n += mali_pp_dump_state(group->pp_core, buf + n, size - n);
+ n += _mali_osk_snprintf(buf + n, size - n, "\tPP job: %p, subjob %d \n",
+ group->pp_running_job, group->pp_running_sub_job);
+ }
+
+ return n;
+}
+#endif
+
+/* Group must be locked when entering this function. Will be unlocked before exiting. */
+static void mali_group_mmu_page_fault_and_unlock(struct mali_group *group)
+{
+ MALI_DEBUG_ASSERT_POINTER(group);
+ MALI_ASSERT_GROUP_LOCKED(group);
+
+ if (NULL != group->pp_core) {
+ struct mali_pp_job *pp_job_to_return;
+ u32 pp_sub_job_to_return;
+
+ MALI_DEBUG_ASSERT_POINTER(group->pp_running_job);
+
+ mali_group_post_process_job_pp(group);
+
+ pp_job_to_return = group->pp_running_job;
+ pp_sub_job_to_return = group->pp_running_sub_job;
+ group->state = MALI_GROUP_STATE_IDLE;
+ group->pp_running_job = NULL;
+
+ mali_group_recovery_reset(group); /* This will also clear the page fault itself */
+
+ /* Will unlock group. */
+ mali_pp_scheduler_job_done(group, pp_job_to_return, pp_sub_job_to_return, MALI_FALSE, MALI_FALSE);
+ } else {
+ struct mali_gp_job *gp_job_to_return;
+
+ MALI_DEBUG_ASSERT_POINTER(group->gp_running_job);
+
+ mali_group_post_process_job_gp(group, MALI_FALSE);
+
+ gp_job_to_return = group->gp_running_job;
+ group->state = MALI_GROUP_STATE_IDLE;
+ group->gp_running_job = NULL;
+
+ mali_group_recovery_reset(group); /* This will also clear the page fault itself */
+
+ /* Will unlock group. */
+ mali_gp_scheduler_job_done(group, gp_job_to_return, MALI_FALSE);
+ }
+}
+
+_mali_osk_errcode_t mali_group_upper_half_mmu(void * data)
+{
+ _mali_osk_errcode_t err = _MALI_OSK_ERR_FAULT;
+ struct mali_group *group = (struct mali_group *)data;
+ struct mali_mmu_core *mmu = group->mmu;
+ u32 int_stat;
+
+ MALI_DEBUG_ASSERT_POINTER(mmu);
+
+#if defined(CONFIG_MALI_SHARED_INTERRUPTS)
+ if (MALI_FALSE == mali_pm_domain_lock_state(group->pm_domain)) {
+ goto out;
+ }
+#endif
+
+ /* Check if it was our device which caused the interrupt (we could be sharing the IRQ line) */
+ int_stat = mali_mmu_get_int_status(mmu);
+ if (0 != int_stat) {
+ struct mali_group *parent = group->parent_group;
+
+ /* page fault or bus error, we thread them both in the same way */
+ mali_mmu_mask_all_interrupts(mmu);
+ if (NULL == parent) {
+ _mali_osk_wq_schedule_work(group->bottom_half_work_mmu);
+ } else {
+ _mali_osk_wq_schedule_work(parent->bottom_half_work_mmu);
+ }
+ err = _MALI_OSK_ERR_OK;
+ goto out;
+ }
+
+out:
+#if defined(CONFIG_MALI_SHARED_INTERRUPTS)
+ mali_pm_domain_unlock_state(group->pm_domain);
+#endif
+
+ return err;
+}
+
+static void mali_group_bottom_half_mmu(void * data)
+{
+ struct mali_group *group = (struct mali_group *)data;
+ struct mali_mmu_core *mmu = group->mmu;
+ u32 rawstat;
+ MALI_DEBUG_CODE(u32 status);
+
+ MALI_DEBUG_ASSERT_POINTER(mmu);
+
+ mali_group_lock(group);
+
+ MALI_DEBUG_ASSERT(NULL == group->parent_group);
+
+ if ( MALI_FALSE == mali_group_power_is_on(group) ) {
+ MALI_PRINT_ERROR(("Interrupt bottom half of %s when core is OFF.", mmu->hw_core.description));
+ mali_group_unlock(group);
+ return;
+ }
+
+ rawstat = mali_mmu_get_rawstat(mmu);
+ MALI_DEBUG_CODE(status = mali_mmu_get_status(mmu));
+
+ MALI_DEBUG_PRINT(4, ("Mali MMU: Bottom half, interrupt 0x%08X, status 0x%08X\n", rawstat, status));
+
+ if (rawstat & (MALI_MMU_INTERRUPT_PAGE_FAULT | MALI_MMU_INTERRUPT_READ_BUS_ERROR)) {
+ /* An actual page fault has occurred. */
+#ifdef DEBUG
+ u32 fault_address = mali_mmu_get_page_fault_addr(mmu);
+ MALI_DEBUG_PRINT(2,("Mali MMU: Page fault detected at 0x%x from bus id %d of type %s on %s\n",
+ (void*)fault_address,
+ (status >> 6) & 0x1F,
+ (status & 32) ? "write" : "read",
+ mmu->hw_core.description));
+#endif
+
+ mali_group_mmu_page_fault_and_unlock(group);
+ return;
+ }
+
+ mali_group_unlock(group);
+}
+
+_mali_osk_errcode_t mali_group_upper_half_gp(void *data)
+{
+ _mali_osk_errcode_t err = _MALI_OSK_ERR_FAULT;
+ struct mali_group *group = (struct mali_group *)data;
+ struct mali_gp_core *core = group->gp_core;
+ u32 irq_readout;
+
+#if defined(CONFIG_MALI_SHARED_INTERRUPTS)
+ if (MALI_FALSE == mali_pm_domain_lock_state(group->pm_domain)) {
+ goto out;
+ }
+#endif
+
+ irq_readout = mali_gp_get_int_stat(core);
+
+ if (MALIGP2_REG_VAL_IRQ_MASK_NONE != irq_readout) {
+ /* Mask out all IRQs from this core until IRQ is handled */
+ mali_gp_mask_all_interrupts(core);
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_SINGLE|MALI_PROFILING_MAKE_EVENT_CHANNEL_GP(0)|MALI_PROFILING_EVENT_REASON_SINGLE_HW_INTERRUPT, irq_readout, 0, 0, 0, 0);
+
+ /* We do need to handle this in a bottom half */
+ _mali_osk_wq_schedule_work(group->bottom_half_work_gp);
+
+ err = _MALI_OSK_ERR_OK;
+ goto out;
+ }
+
+out:
+#if defined(CONFIG_MALI_SHARED_INTERRUPTS)
+ mali_pm_domain_unlock_state(group->pm_domain);
+#endif
+
+ return err;
+}
+
+static void mali_group_bottom_half_gp(void *data)
+{
+ struct mali_group *group = (struct mali_group *)data;
+ u32 irq_readout;
+ u32 irq_errors;
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_START|MALI_PROFILING_EVENT_CHANNEL_SOFTWARE|MALI_PROFILING_EVENT_REASON_START_STOP_SW_BOTTOM_HALF, 0, _mali_osk_get_tid(), MALI_PROFILING_MAKE_EVENT_DATA_CORE_GP(0), 0, 0);
+
+ mali_group_lock(group);
+
+ if ( MALI_FALSE == mali_group_power_is_on(group) ) {
+ MALI_PRINT_ERROR(("Mali group: Interrupt bottom half of %s when core is OFF.", mali_gp_get_hw_core_desc(group->gp_core)));
+ mali_group_unlock(group);
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP|MALI_PROFILING_EVENT_CHANNEL_SOFTWARE|MALI_PROFILING_EVENT_REASON_START_STOP_SW_BOTTOM_HALF, 0, _mali_osk_get_tid(), 0, 0, 0);
+ return;
+ }
+
+ irq_readout = mali_gp_read_rawstat(group->gp_core);
+
+ MALI_DEBUG_PRINT(4, ("Mali group: GP bottom half IRQ 0x%08X from core %s\n", irq_readout, mali_gp_get_hw_core_desc(group->gp_core)));
+
+ if (irq_readout & (MALIGP2_REG_VAL_IRQ_VS_END_CMD_LST|MALIGP2_REG_VAL_IRQ_PLBU_END_CMD_LST)) {
+ u32 core_status = mali_gp_read_core_status(group->gp_core);
+ if (0 == (core_status & MALIGP2_REG_VAL_STATUS_MASK_ACTIVE)) {
+ MALI_DEBUG_PRINT(4, ("Mali group: GP job completed, calling group handler\n"));
+ group->core_timed_out = MALI_FALSE;
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_BOTTOM_HALF,
+ 0, _mali_osk_get_tid(), 0, 0, 0);
+
+ mali_group_complete_gp_and_unlock(group, MALI_TRUE);
+ return;
+ }
+ }
+
+ /*
+ * Now lets look at the possible error cases (IRQ indicating error or timeout)
+ * END_CMD_LST, HANG and PLBU_OOM interrupts are not considered error.
+ */
+ irq_errors = irq_readout & ~(MALIGP2_REG_VAL_IRQ_VS_END_CMD_LST|MALIGP2_REG_VAL_IRQ_PLBU_END_CMD_LST|MALIGP2_REG_VAL_IRQ_HANG|MALIGP2_REG_VAL_IRQ_PLBU_OUT_OF_MEM);
+ if (0 != irq_errors) {
+ MALI_PRINT_ERROR(("Mali group: Unknown interrupt 0x%08X from core %s, aborting job\n", irq_readout, mali_gp_get_hw_core_desc(group->gp_core)));
+ group->core_timed_out = MALI_FALSE;
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_BOTTOM_HALF,
+ 0, _mali_osk_get_tid(), 0, 0, 0);
+
+ mali_group_complete_gp_and_unlock(group, MALI_FALSE);
+ mali_group_error++;
+ return;
+ } else if (group->core_timed_out) { /* SW timeout */
+ group->core_timed_out = MALI_FALSE;
+ if (!_mali_osk_timer_pending(group->timeout_timer) && NULL != group->gp_running_job) {
+ MALI_PRINT(("Mali group: Job %d timed out\n", mali_gp_job_get_id(group->gp_running_job)));
+
+ mali_group_complete_gp_and_unlock(group, MALI_FALSE);
+ mali_group_error++;
+ return;
+ }
+ } else if (irq_readout & MALIGP2_REG_VAL_IRQ_PLBU_OUT_OF_MEM) {
+ /* GP wants more memory in order to continue. */
+ MALI_DEBUG_PRINT(3, ("Mali group: PLBU needs more heap memory\n"));
+
+ group->state = MALI_GROUP_STATE_OOM;
+ mali_group_unlock(group); /* Nothing to do on the HW side, so just release group lock right away */
+ mali_gp_scheduler_oom(group, group->gp_running_job);
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP|MALI_PROFILING_EVENT_CHANNEL_SOFTWARE|MALI_PROFILING_EVENT_REASON_START_STOP_SW_BOTTOM_HALF, 0, _mali_osk_get_tid(), 0, 0, 0);
+ return;
+ }
+
+ /*
+ * The only way to get here is if we only got one of two needed END_CMD_LST
+ * interrupts. Enable all but not the complete interrupt that has been
+ * received and continue to run.
+ */
+ mali_gp_enable_interrupts(group->gp_core, irq_readout & (MALIGP2_REG_VAL_IRQ_PLBU_END_CMD_LST|MALIGP2_REG_VAL_IRQ_VS_END_CMD_LST));
+ mali_group_unlock(group);
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP|MALI_PROFILING_EVENT_CHANNEL_SOFTWARE|MALI_PROFILING_EVENT_REASON_START_STOP_SW_BOTTOM_HALF, 0, _mali_osk_get_tid(), 0, 0, 0);
+}
+
+static void mali_group_post_process_job_gp(struct mali_group *group, mali_bool suspend)
+{
+ /* Stop the timeout timer. */
+ _mali_osk_timer_del_async(group->timeout_timer);
+
+ if (NULL == group->gp_running_job) {
+ /* Nothing to do */
+ return;
+ }
+
+ mali_gp_update_performance_counters(group->gp_core, group->gp_running_job, suspend);
+
+#if defined(CONFIG_MALI400_PROFILING)
+ if (suspend) {
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_SUSPEND|MALI_PROFILING_MAKE_EVENT_CHANNEL_GP(0),
+ mali_gp_job_get_perf_counter_value0(group->gp_running_job),
+ mali_gp_job_get_perf_counter_value1(group->gp_running_job),
+ mali_gp_job_get_perf_counter_src0(group->gp_running_job) | (mali_gp_job_get_perf_counter_src1(group->gp_running_job) << 8),
+ 0, 0);
+ } else {
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP|MALI_PROFILING_MAKE_EVENT_CHANNEL_GP(0),
+ mali_gp_job_get_perf_counter_value0(group->gp_running_job),
+ mali_gp_job_get_perf_counter_value1(group->gp_running_job),
+ mali_gp_job_get_perf_counter_src0(group->gp_running_job) | (mali_gp_job_get_perf_counter_src1(group->gp_running_job) << 8),
+ 0, 0);
+
+ if ((MALI_HW_CORE_NO_COUNTER != mali_l2_cache_core_get_counter_src0(group->l2_cache_core[0])) &&
+ (MALI_HW_CORE_NO_COUNTER != mali_l2_cache_core_get_counter_src1(group->l2_cache_core[0])))
+ mali_group_report_l2_cache_counters_per_core(group, 0);
+ }
+#endif
+
+ mali_gp_job_set_current_heap_addr(group->gp_running_job,
+ mali_gp_read_plbu_alloc_start_addr(group->gp_core));
+}
+
+_mali_osk_errcode_t mali_group_upper_half_pp(void *data)
+{
+ _mali_osk_errcode_t err = _MALI_OSK_ERR_FAULT;
+ struct mali_group *group = (struct mali_group *)data;
+ struct mali_pp_core *core = group->pp_core;
+ u32 irq_readout;
+
+#if defined(CONFIG_MALI_SHARED_INTERRUPTS)
+ if (MALI_FALSE == mali_pm_domain_lock_state(group->pm_domain)) {
+ goto out;
+ }
+#endif
+
+ /*
+ * For Mali-450 there is one particular case we need to watch out for:
+ *
+ * Criteria 1) this function call can be due to a shared interrupt,
+ * and not necessary because this core signaled an interrupt.
+ * Criteria 2) this core is a part of a virtual group, and thus it should
+ * not do any post processing.
+ * Criteria 3) this core has actually indicated that is has completed by
+ * having set raw_stat/int_stat registers to != 0
+ *
+ * If all this criteria is meet, then we could incorrectly start post
+ * processing on the wrong group object (this should only happen on the
+ * parent group)
+ */
+#if !defined(MALI_UPPER_HALF_SCHEDULING)
+ if (mali_group_is_in_virtual(group)) {
+ /*
+ * This check is done without the group lock held, which could lead to
+ * a potential race. This is however ok, since we will safely re-check
+ * this with the group lock held at a later stage. This is just an
+ * early out which will strongly benefit shared IRQ systems.
+ */
+ err = _MALI_OSK_ERR_OK;
+ goto out;
+ }
+#endif
+
+ irq_readout = mali_pp_get_int_stat(core);
+ if (MALI200_REG_VAL_IRQ_MASK_NONE != irq_readout) {
+ /* Mask out all IRQs from this core until IRQ is handled */
+ mali_pp_mask_all_interrupts(core);
+
+#if defined(CONFIG_MALI400_PROFILING)
+ /* Currently no support for this interrupt event for the virtual PP core */
+ if (!mali_group_is_virtual(group)) {
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_SINGLE |
+ MALI_PROFILING_MAKE_EVENT_CHANNEL_PP(core->core_id) |
+ MALI_PROFILING_EVENT_REASON_SINGLE_HW_INTERRUPT,
+ irq_readout, 0, 0, 0, 0);
+ }
+#endif
+
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ /* Check if job is complete without errors */
+ if (MALI200_REG_VAL_IRQ_END_OF_FRAME == irq_readout) {
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_START |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_UPPER_HALF,
+ 0, 0, MALI_PROFILING_MAKE_EVENT_DATA_CORE_PP(core->core_id), 0, 0);
+
+ MALI_DEBUG_PRINT(3, ("Mali PP: Job completed, calling group handler from upper half\n"));
+
+ mali_group_lock(group);
+
+ /* Check if job is complete without errors, again, after taking the group lock */
+ irq_readout = mali_pp_read_rawstat(core);
+ if (MALI200_REG_VAL_IRQ_END_OF_FRAME != irq_readout) {
+ mali_pp_enable_interrupts(core);
+ mali_group_unlock(group);
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_UPPER_HALF,
+ 0, 0, MALI_PROFILING_MAKE_EVENT_DATA_CORE_PP(core->core_id), 0, 0);
+ err = _MALI_OSK_ERR_OK;
+ goto out;
+ }
+
+ if (mali_group_is_virtual(group)) {
+ u32 status_readout = mali_pp_read_status(group->pp_core);
+ if (status_readout & MALI200_REG_VAL_STATUS_RENDERING_ACTIVE) {
+ MALI_DEBUG_PRINT(6, ("Mali PP: Not all cores in broadcast completed\n"));
+ mali_pp_enable_interrupts(core);
+ mali_group_unlock(group);
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_UPPER_HALF,
+ 0, 0, MALI_PROFILING_MAKE_EVENT_DATA_CORE_PP(core->core_id), 0, 0);
+ err = _MALI_OSK_ERR_OK;
+ goto out;
+ }
+ }
+
+ if (mali_group_is_in_virtual(group)) {
+ /* We're member of a virtual group, so interrupt should be handled by the virtual group */
+ mali_pp_enable_interrupts(core);
+ mali_group_unlock(group);
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_UPPER_HALF,
+ 0, 0, MALI_PROFILING_MAKE_EVENT_DATA_CORE_PP(core->core_id), 0, 0);
+ err = _MALI_OSK_ERR_FAULT;
+ goto out;
+ }
+
+ group->core_timed_out = MALI_FALSE;
+
+ mali_group_complete_pp_and_unlock(group, MALI_TRUE, MALI_TRUE);
+
+ /* No need to enable interrupts again, since the core will be reset while completing the job */
+
+ MALI_DEBUG_PRINT(6, ("Mali PP: Upper half job done\n"));
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_UPPER_HALF,
+ 0, 0, MALI_PROFILING_MAKE_EVENT_DATA_CORE_PP(core->core_id), 0, 0);
+
+ err = _MALI_OSK_ERR_OK;
+ goto out;
+ }
+#endif
+
+ /* We do need to handle this in a bottom half */
+ _mali_osk_wq_schedule_work(group->bottom_half_work_pp);
+ err = _MALI_OSK_ERR_OK;
+ goto out;
+ }
+
+out:
+#if defined(CONFIG_MALI_SHARED_INTERRUPTS)
+ mali_pm_domain_unlock_state(group->pm_domain);
+#endif
+
+ return err;
+}
+
+static void mali_group_bottom_half_pp(void *data)
+{
+ struct mali_group *group = (struct mali_group *)data;
+ struct mali_pp_core *core = group->pp_core;
+ u32 irq_readout;
+ u32 irq_errors;
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_START |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_BOTTOM_HALF,
+ 0, _mali_osk_get_tid(), MALI_PROFILING_MAKE_EVENT_DATA_CORE_PP(core->core_id), 0, 0);
+
+ mali_group_lock(group);
+
+ if (mali_group_is_in_virtual(group)) {
+ /* We're member of a virtual group, so interrupt should be handled by the virtual group */
+ mali_pp_enable_interrupts(core);
+ mali_group_unlock(group);
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_BOTTOM_HALF,
+ 0, _mali_osk_get_tid(), 0, 0, 0);
+ return;
+ }
+
+ if ( MALI_FALSE == mali_group_power_is_on(group) ) {
+ MALI_PRINT_ERROR(("Interrupt bottom half of %s when core is OFF.", mali_pp_get_hw_core_desc(core)));
+ mali_group_unlock(group);
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_BOTTOM_HALF,
+ 0, _mali_osk_get_tid(), 0, 0, 0);
+ return;
+ }
+
+ irq_readout = mali_pp_read_rawstat(group->pp_core);
+
+ MALI_DEBUG_PRINT(4, ("Mali PP: Bottom half IRQ 0x%08X from core %s\n", irq_readout, mali_pp_get_hw_core_desc(group->pp_core)));
+
+ /* Check if job is complete without errors */
+ if (MALI200_REG_VAL_IRQ_END_OF_FRAME == irq_readout) {
+ if (mali_group_is_virtual(group)) {
+ u32 status_readout = mali_pp_read_status(group->pp_core);
+
+ if (status_readout & MALI200_REG_VAL_STATUS_RENDERING_ACTIVE && !group->core_timed_out) {
+ MALI_DEBUG_PRINT(6, ("Mali PP: Not all cores in broadcast completed\n"));
+ mali_pp_enable_interrupts(core);
+ mali_group_unlock(group);
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_BOTTOM_HALF,
+ 0, _mali_osk_get_tid(), 0, 0, 0);
+ return;
+ }
+ }
+
+ if (!group->core_timed_out) {
+ MALI_DEBUG_PRINT(3, ("Mali PP: Job completed, calling group handler\n"));
+ group->core_timed_out = MALI_FALSE;
+
+ mali_group_complete_pp_and_unlock(group, MALI_TRUE, MALI_FALSE);
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_BOTTOM_HALF,
+ 0, _mali_osk_get_tid(), 0, 0, 0);
+ return;
+ }
+ }
+
+ /*
+ * Now lets look at the possible error cases (IRQ indicating error or timeout)
+ * END_OF_FRAME and HANG interrupts are not considered error.
+ */
+ irq_errors = irq_readout & ~(MALI200_REG_VAL_IRQ_END_OF_FRAME|MALI200_REG_VAL_IRQ_HANG);
+ if (0 != irq_errors) {
+ MALI_PRINT_ERROR(("Mali PP: Unexpected interrupt 0x%08X from core %s, aborting job\n",
+ irq_readout, mali_pp_get_hw_core_desc(group->pp_core)));
+ group->core_timed_out = MALI_FALSE;
+
+ mali_group_complete_pp_and_unlock(group, MALI_FALSE, MALI_FALSE);
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_BOTTOM_HALF,
+ 0, _mali_osk_get_tid(), 0, 0, 0);
+ mali_group_error++;
+ return;
+ } else if (group->core_timed_out) { /* SW timeout */
+ group->core_timed_out = MALI_FALSE;
+ if (!_mali_osk_timer_pending(group->timeout_timer) && NULL != group->pp_running_job) {
+ MALI_PRINT(("Mali PP: Job %d timed out on core %s\n",
+ mali_pp_job_get_id(group->pp_running_job), mali_pp_get_hw_core_desc(core)));
+
+ mali_group_complete_pp_and_unlock(group, MALI_FALSE, MALI_FALSE);
+ } else {
+ mali_group_unlock(group);
+ }
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_BOTTOM_HALF,
+ 0, _mali_osk_get_tid(), 0, 0, 0);
+ mali_group_error++;
+ return;
+ }
+
+ /*
+ * We should never get here, re-enable interrupts and continue
+ */
+ if (0 == irq_readout) {
+ MALI_DEBUG_PRINT(3, ("Mali group: No interrupt found on core %s\n",
+ mali_pp_get_hw_core_desc(group->pp_core)));
+ } else {
+ MALI_PRINT_ERROR(("Mali group: Unhandled PP interrupt 0x%08X on %s\n", irq_readout,
+ mali_pp_get_hw_core_desc(group->pp_core)));
+ }
+ mali_pp_enable_interrupts(core);
+ mali_group_unlock(group);
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_BOTTOM_HALF,
+ 0, _mali_osk_get_tid(), 0, 0, 0);
+}
+
+static void mali_group_post_process_job_pp(struct mali_group *group)
+{
+ MALI_ASSERT_GROUP_LOCKED(group);
+
+ /* Stop the timeout timer. */
+ _mali_osk_timer_del_async(group->timeout_timer);
+
+ if (NULL != group->pp_running_job) {
+ if (MALI_TRUE == mali_group_is_virtual(group)) {
+ struct mali_group *child;
+ struct mali_group *temp;
+
+ /* update performance counters from each physical pp core within this virtual group */
+ _MALI_OSK_LIST_FOREACHENTRY(child, temp, &group->group_list, struct mali_group, group_list) {
+ mali_pp_update_performance_counters(group->pp_core, child->pp_core, group->pp_running_job, mali_pp_core_get_id(child->pp_core));
+ }
+
+#if defined(CONFIG_MALI400_PROFILING)
+ /* send profiling data per physical core */
+ _MALI_OSK_LIST_FOREACHENTRY(child, temp, &group->group_list, struct mali_group, group_list) {
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP|
+ MALI_PROFILING_MAKE_EVENT_CHANNEL_PP(mali_pp_core_get_id(child->pp_core))|
+ MALI_PROFILING_EVENT_REASON_START_STOP_HW_VIRTUAL,
+ mali_pp_job_get_perf_counter_value0(group->pp_running_job, mali_pp_core_get_id(child->pp_core)),
+ mali_pp_job_get_perf_counter_value1(group->pp_running_job, mali_pp_core_get_id(child->pp_core)),
+ mali_pp_job_get_perf_counter_src0(group->pp_running_job, group->pp_running_sub_job) | (mali_pp_job_get_perf_counter_src1(group->pp_running_job, group->pp_running_sub_job) << 8),
+ 0, 0);
+ }
+ if (0 != group->l2_cache_core_ref_count[0]) {
+ if ((MALI_HW_CORE_NO_COUNTER != mali_l2_cache_core_get_counter_src0(group->l2_cache_core[0])) &&
+ (MALI_HW_CORE_NO_COUNTER != mali_l2_cache_core_get_counter_src1(group->l2_cache_core[0]))) {
+ mali_group_report_l2_cache_counters_per_core(group, mali_l2_cache_get_id(group->l2_cache_core[0]));
+ }
+ }
+ if (0 != group->l2_cache_core_ref_count[1]) {
+ if ((MALI_HW_CORE_NO_COUNTER != mali_l2_cache_core_get_counter_src0(group->l2_cache_core[1])) &&
+ (MALI_HW_CORE_NO_COUNTER != mali_l2_cache_core_get_counter_src1(group->l2_cache_core[1]))) {
+ mali_group_report_l2_cache_counters_per_core(group, mali_l2_cache_get_id(group->l2_cache_core[1]));
+ }
+ }
+
+#endif
+ } else {
+ /* update performance counters for a physical group's pp core */
+ mali_pp_update_performance_counters(group->pp_core, group->pp_core, group->pp_running_job, group->pp_running_sub_job);
+
+#if defined(CONFIG_MALI400_PROFILING)
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_STOP|
+ MALI_PROFILING_MAKE_EVENT_CHANNEL_PP(mali_pp_core_get_id(group->pp_core))|
+ MALI_PROFILING_EVENT_REASON_START_STOP_HW_PHYSICAL,
+ mali_pp_job_get_perf_counter_value0(group->pp_running_job, group->pp_running_sub_job),
+ mali_pp_job_get_perf_counter_value1(group->pp_running_job, group->pp_running_sub_job),
+ mali_pp_job_get_perf_counter_src0(group->pp_running_job, group->pp_running_sub_job) | (mali_pp_job_get_perf_counter_src1(group->pp_running_job, group->pp_running_sub_job) << 8),
+ 0, 0);
+
+ if ((MALI_HW_CORE_NO_COUNTER != mali_l2_cache_core_get_counter_src0(group->l2_cache_core[0])) &&
+ (MALI_HW_CORE_NO_COUNTER != mali_l2_cache_core_get_counter_src1(group->l2_cache_core[0]))) {
+ mali_group_report_l2_cache_counters_per_core(group, mali_l2_cache_get_id(group->l2_cache_core[0]));
+ }
+#endif
+ }
+ }
+}
+
+static void mali_group_timeout(void *data)
+{
+ struct mali_group *group = (struct mali_group *)data;
+
+ group->core_timed_out = MALI_TRUE;
+
+ if (NULL != group->gp_core) {
+ MALI_DEBUG_PRINT(2, ("Mali group: TIMEOUT on %s\n", mali_gp_get_hw_core_desc(group->gp_core)));
+ _mali_osk_wq_schedule_work(group->bottom_half_work_gp);
+ } else {
+ MALI_DEBUG_PRINT(2, ("Mali group: TIMEOUT on %s\n", mali_pp_get_hw_core_desc(group->pp_core)));
+ _mali_osk_wq_schedule_work(group->bottom_half_work_pp);
+ }
+}
+
+void mali_group_zap_session(struct mali_group *group, struct mali_session_data *session)
+{
+ MALI_DEBUG_ASSERT_POINTER(group);
+ MALI_DEBUG_ASSERT_POINTER(session);
+
+ /* Early out - safe even if mutex is not held */
+ if (group->session != session) return;
+
+ mali_group_lock(group);
+
+ mali_group_remove_session_if_unused(group, session);
+
+ if (group->session == session) {
+ /* The Zap also does the stall and disable_stall */
+ mali_bool zap_success = mali_mmu_zap_tlb(group->mmu);
+ if (MALI_TRUE != zap_success) {
+ MALI_DEBUG_PRINT(2, ("Mali memory unmap failed. Doing pagefault handling.\n"));
+
+ mali_group_mmu_page_fault_and_unlock(group);
+ return;
+ }
+ }
+
+ mali_group_unlock(group);
+}
+
+#if defined(CONFIG_MALI400_PROFILING)
+static void mali_group_report_l2_cache_counters_per_core(struct mali_group *group, u32 core_num)
+{
+ u32 source0 = 0;
+ u32 value0 = 0;
+ u32 source1 = 0;
+ u32 value1 = 0;
+ u32 profiling_channel = 0;
+
+ switch(core_num) {
+ case 0:
+ profiling_channel = MALI_PROFILING_EVENT_TYPE_SINGLE |
+ MALI_PROFILING_EVENT_CHANNEL_GPU |
+ MALI_PROFILING_EVENT_REASON_SINGLE_GPU_L20_COUNTERS;
+ break;
+ case 1:
+ profiling_channel = MALI_PROFILING_EVENT_TYPE_SINGLE |
+ MALI_PROFILING_EVENT_CHANNEL_GPU |
+ MALI_PROFILING_EVENT_REASON_SINGLE_GPU_L21_COUNTERS;
+ break;
+ case 2:
+ profiling_channel = MALI_PROFILING_EVENT_TYPE_SINGLE |
+ MALI_PROFILING_EVENT_CHANNEL_GPU |
+ MALI_PROFILING_EVENT_REASON_SINGLE_GPU_L22_COUNTERS;
+ break;
+ default:
+ profiling_channel = MALI_PROFILING_EVENT_TYPE_SINGLE |
+ MALI_PROFILING_EVENT_CHANNEL_GPU |
+ MALI_PROFILING_EVENT_REASON_SINGLE_GPU_L20_COUNTERS;
+ break;
+ }
+
+ if (0 == core_num) {
+ mali_l2_cache_core_get_counter_values(group->l2_cache_core[0], &source0, &value0, &source1, &value1);
+ }
+ if (1 == core_num) {
+ if (1 == mali_l2_cache_get_id(group->l2_cache_core[0])) {
+ mali_l2_cache_core_get_counter_values(group->l2_cache_core[0], &source0, &value0, &source1, &value1);
+ } else if (1 == mali_l2_cache_get_id(group->l2_cache_core[1])) {
+ mali_l2_cache_core_get_counter_values(group->l2_cache_core[1], &source0, &value0, &source1, &value1);
+ }
+ }
+ if (2 == core_num) {
+ if (2 == mali_l2_cache_get_id(group->l2_cache_core[0])) {
+ mali_l2_cache_core_get_counter_values(group->l2_cache_core[0], &source0, &value0, &source1, &value1);
+ } else if (2 == mali_l2_cache_get_id(group->l2_cache_core[1])) {
+ mali_l2_cache_core_get_counter_values(group->l2_cache_core[1], &source0, &value0, &source1, &value1);
+ }
+ }
+
+ _mali_osk_profiling_add_event(profiling_channel, source1 << 8 | source0, value0, value1, 0, 0);
+}
+#endif /* #if defined(CONFIG_MALI400_PROFILING) */
+
+mali_bool mali_group_is_enabled(struct mali_group *group)
+{
+ mali_bool enabled = MALI_TRUE;
+
+ MALI_DEBUG_ASSERT_POINTER(group);
+
+ mali_group_lock(group);
+ if (MALI_GROUP_STATE_DISABLED == group->state) {
+ enabled = MALI_FALSE;
+ }
+ mali_group_unlock(group);
+
+ return enabled;
+}
+
+void mali_group_enable(struct mali_group *group)
+{
+ MALI_DEBUG_ASSERT_POINTER(group);
+ MALI_DEBUG_ASSERT( NULL != mali_group_get_pp_core(group)
+ || NULL != mali_group_get_gp_core(group));
+
+ if (NULL != mali_group_get_pp_core(group)) {
+ mali_pp_scheduler_enable_group(group);
+ } else {
+ mali_gp_scheduler_enable_group(group);
+ }
+}
+
+void mali_group_disable(struct mali_group *group)
+{
+ MALI_DEBUG_ASSERT_POINTER(group);
+ MALI_DEBUG_ASSERT( NULL != mali_group_get_pp_core(group)
+ || NULL != mali_group_get_gp_core(group));
+
+ if (NULL != mali_group_get_pp_core(group)) {
+ mali_pp_scheduler_disable_group(group);
+ } else {
+ mali_gp_scheduler_disable_group(group);
+ }
+}
+
+static struct mali_pm_domain* mali_group_get_l2_domain(struct mali_group *group)
+{
+ MALI_DEBUG_ASSERT(NULL == group->l2_cache_core[1]);
+
+ /* l2_cache_core[0] stores the related l2 domain */
+ return group->l2_cache_core[0]->pm_domain;
+}
+
+void mali_group_get_pm_domain_ref(struct mali_group *group)
+{
+ MALI_DEBUG_ASSERT_POINTER(group);
+
+ /* Get group used l2 domain ref */
+ mali_pm_domain_ref_get(mali_group_get_l2_domain(group));
+ /* Get group used core domain ref */
+ mali_pm_domain_ref_get(group->pm_domain);
+}
+
+void mali_group_put_pm_domain_ref(struct mali_group *group)
+{
+ MALI_DEBUG_ASSERT_POINTER(group);
+
+ /* Put group used core domain ref */
+ mali_pm_domain_ref_put(group->pm_domain);
+ /* Put group used l2 domain ref */
+ mali_pm_domain_ref_put(mali_group_get_l2_domain(group));
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_GROUP_H__
+#define __MALI_GROUP_H__
+
+#include "linux/jiffies.h"
+#include "mali_osk.h"
+#include "mali_l2_cache.h"
+#include "mali_mmu.h"
+#include "mali_gp.h"
+#include "mali_pp.h"
+#include "mali_session.h"
+
+/**
+ * @brief Default max runtime [ms] for a core job - used by timeout timers
+ */
+#define MALI_MAX_JOB_RUNTIME_DEFAULT 4000
+
+/** @brief A mali group object represents a MMU and a PP and/or a GP core.
+ *
+ */
+#define MALI_MAX_NUMBER_OF_GROUPS 10
+
+enum mali_group_core_state {
+ MALI_GROUP_STATE_IDLE,
+ MALI_GROUP_STATE_WORKING,
+ MALI_GROUP_STATE_OOM,
+ MALI_GROUP_STATE_IN_VIRTUAL,
+ MALI_GROUP_STATE_JOINING_VIRTUAL,
+ MALI_GROUP_STATE_LEAVING_VIRTUAL,
+ MALI_GROUP_STATE_DISABLED,
+};
+
+/* Forward declaration from mali_pm_domain.h */
+struct mali_pm_domain;
+
+/**
+ * The structure represents a render group
+ * A render group is defined by all the cores that share the same Mali MMU
+ */
+
+struct mali_group {
+ struct mali_mmu_core *mmu;
+ struct mali_session_data *session;
+
+ mali_bool power_is_on;
+ enum mali_group_core_state state;
+
+ struct mali_gp_core *gp_core;
+ struct mali_gp_job *gp_running_job;
+
+ struct mali_pp_core *pp_core;
+ struct mali_pp_job *pp_running_job;
+ u32 pp_running_sub_job;
+
+ struct mali_l2_cache_core *l2_cache_core[2];
+ u32 l2_cache_core_ref_count[2];
+
+ struct mali_dlbu_core *dlbu_core;
+ struct mali_bcast_unit *bcast_core;
+
+#ifdef MALI_UPPER_HALF_SCHEDULING
+ _mali_osk_spinlock_irq_t *lock;
+#else
+ _mali_osk_spinlock_t *lock;
+#endif
+
+ _mali_osk_list_t pp_scheduler_list;
+
+ /* List used for virtual groups. For a virtual group, the list represents the
+ * head element. */
+ _mali_osk_list_t group_list;
+
+ struct mali_group *pm_domain_list;
+ struct mali_pm_domain *pm_domain;
+
+ /* Parent virtual group (if any) */
+ struct mali_group *parent_group;
+
+ _mali_osk_wq_work_t *bottom_half_work_mmu;
+ _mali_osk_wq_work_t *bottom_half_work_gp;
+ _mali_osk_wq_work_t *bottom_half_work_pp;
+
+ _mali_osk_timer_t *timeout_timer;
+ mali_bool core_timed_out;
+};
+
+/** @brief Create a new Mali group object
+ *
+ * @param cluster Pointer to the cluster to which the group is connected.
+ * @param mmu Pointer to the MMU that defines this group
+ * @return A pointer to a new group object
+ */
+struct mali_group *mali_group_create(struct mali_l2_cache_core *core,
+ struct mali_dlbu_core *dlbu,
+ struct mali_bcast_unit *bcast);
+
+_mali_osk_errcode_t mali_group_add_mmu_core(struct mali_group *group, struct mali_mmu_core* mmu_core);
+void mali_group_remove_mmu_core(struct mali_group *group);
+
+_mali_osk_errcode_t mali_group_add_gp_core(struct mali_group *group, struct mali_gp_core* gp_core);
+void mali_group_remove_gp_core(struct mali_group *group);
+
+_mali_osk_errcode_t mali_group_add_pp_core(struct mali_group *group, struct mali_pp_core* pp_core);
+void mali_group_remove_pp_core(struct mali_group *group);
+
+void mali_group_set_pm_domain(struct mali_group *group, struct mali_pm_domain *domain);
+
+void mali_group_delete(struct mali_group *group);
+
+/** @brief Virtual groups */
+void mali_group_add_group(struct mali_group *parent, struct mali_group *child, mali_bool update_hw);
+void mali_group_remove_group(struct mali_group *parent, struct mali_group *child);
+struct mali_group *mali_group_acquire_group(struct mali_group *parent);
+
+MALI_STATIC_INLINE mali_bool mali_group_is_virtual(struct mali_group *group)
+{
+#if defined(CONFIG_MALI450)
+ return (NULL != group->dlbu_core);
+#else
+ return MALI_FALSE;
+#endif
+}
+
+/** @brief Check if a group is considered as part of a virtual group
+ *
+ * @note A group is considered to be "part of" a virtual group also during the transition
+ * in to / out of the virtual group.
+ */
+MALI_STATIC_INLINE mali_bool mali_group_is_in_virtual(struct mali_group *group)
+{
+#if defined(CONFIG_MALI450)
+ return (MALI_GROUP_STATE_IN_VIRTUAL == group->state ||
+ MALI_GROUP_STATE_JOINING_VIRTUAL == group->state ||
+ MALI_GROUP_STATE_LEAVING_VIRTUAL == group->state);
+#else
+ return MALI_FALSE;
+#endif
+}
+
+/** @brief Reset group
+ *
+ * This function will reset the entire group, including all the cores present in the group.
+ *
+ * @param group Pointer to the group to reset
+ */
+void mali_group_reset(struct mali_group *group);
+
+/** @brief Zap MMU TLB on all groups
+ *
+ * Zap TLB on group if \a session is active.
+ */
+void mali_group_zap_session(struct mali_group* group, struct mali_session_data *session);
+
+/** @brief Get pointer to GP core object
+ */
+struct mali_gp_core* mali_group_get_gp_core(struct mali_group *group);
+
+/** @brief Get pointer to PP core object
+ */
+struct mali_pp_core* mali_group_get_pp_core(struct mali_group *group);
+
+/** @brief Lock group object
+ *
+ * Most group functions will lock the group object themselves. The expection is
+ * the group_bottom_half which requires the group to be locked on entry.
+ *
+ * @param group Pointer to group to lock
+ */
+void mali_group_lock(struct mali_group *group);
+
+/** @brief Unlock group object
+ *
+ * @param group Pointer to group to unlock
+ */
+void mali_group_unlock(struct mali_group *group);
+#ifdef DEBUG
+void mali_group_assert_locked(struct mali_group *group);
+#define MALI_ASSERT_GROUP_LOCKED(group) mali_group_assert_locked(group)
+#else
+#define MALI_ASSERT_GROUP_LOCKED(group)
+#endif
+
+/** @brief Start GP job
+ */
+void mali_group_start_gp_job(struct mali_group *group, struct mali_gp_job *job);
+/** @brief Start fragment of PP job
+ */
+void mali_group_start_pp_job(struct mali_group *group, struct mali_pp_job *job, u32 sub_job);
+
+/** @brief Resume GP job that suspended waiting for more heap memory
+ */
+struct mali_gp_job *mali_group_resume_gp_with_new_heap(struct mali_group *group, u32 job_id, u32 start_addr, u32 end_addr);
+/** @brief Abort GP job
+ *
+ * Used to abort suspended OOM jobs when user space failed to allocte more memory.
+ */
+void mali_group_abort_gp_job(struct mali_group *group, u32 job_id);
+/** @brief Abort all GP jobs from \a session
+ *
+ * Used on session close when terminating all running and queued jobs from \a session.
+ */
+void mali_group_abort_session(struct mali_group *group, struct mali_session_data *session);
+
+mali_bool mali_group_power_is_on(struct mali_group *group);
+void mali_group_power_on_group(struct mali_group *group);
+void mali_group_power_off_group(struct mali_group *group, mali_bool power_status);
+void mali_group_power_on(void);
+
+/** @brief Prepare group for power off
+ *
+ * Update the group's state and prepare for the group to be powered off.
+ *
+ * If do_power_change is MALI_FALSE group session will be set to NULL so that
+ * no more activity will happen to this group, but the power state flag will be
+ * left unchanged.
+ *
+ * @do_power_change MALI_TRUE if power status is to be updated
+ */
+void mali_group_power_off(mali_bool do_power_change);
+
+struct mali_group *mali_group_get_glob_group(u32 index);
+u32 mali_group_get_glob_num_groups(void);
+
+u32 mali_group_dump_state(struct mali_group *group, char *buf, u32 size);
+
+/* MMU-related functions */
+_mali_osk_errcode_t mali_group_upper_half_mmu(void * data);
+
+/* GP-related functions */
+_mali_osk_errcode_t mali_group_upper_half_gp(void *data);
+
+/* PP-related functions */
+_mali_osk_errcode_t mali_group_upper_half_pp(void *data);
+
+/** @brief Check if group is enabled
+ *
+ * @param group group to check
+ * @return MALI_TRUE if enabled, MALI_FALSE if not
+ */
+mali_bool mali_group_is_enabled(struct mali_group *group);
+
+/** @brief Enable group
+ *
+ * An enabled job is put on the idle scheduler list and can be used to handle jobs. Does nothing if
+ * group is already enabled.
+ *
+ * @param group group to enable
+ */
+void mali_group_enable(struct mali_group *group);
+
+/** @brief Disable group
+ *
+ * A disabled group will no longer be used by the scheduler. If part of a virtual group, the group
+ * will be removed before being disabled. Cores part of a disabled group is safe to power down.
+ *
+ * @param group group to disable
+ */
+void mali_group_disable(struct mali_group *group);
+
+MALI_STATIC_INLINE mali_bool mali_group_virtual_disable_if_empty(struct mali_group *group)
+{
+ mali_bool empty = MALI_FALSE;
+
+ MALI_ASSERT_GROUP_LOCKED(group);
+ MALI_DEBUG_ASSERT(mali_group_is_virtual(group));
+
+ if (_mali_osk_list_empty(&group->group_list)) {
+ group->state = MALI_GROUP_STATE_DISABLED;
+ group->session = NULL;
+
+ empty = MALI_TRUE;
+ }
+
+ return empty;
+}
+
+MALI_STATIC_INLINE mali_bool mali_group_virtual_enable_if_empty(struct mali_group *group)
+{
+ mali_bool empty = MALI_FALSE;
+
+ MALI_ASSERT_GROUP_LOCKED(group);
+ MALI_DEBUG_ASSERT(mali_group_is_virtual(group));
+
+ if (_mali_osk_list_empty(&group->group_list)) {
+ MALI_DEBUG_ASSERT(MALI_GROUP_STATE_DISABLED == group->state);
+
+ group->state = MALI_GROUP_STATE_IDLE;
+
+ empty = MALI_TRUE;
+ }
+
+ return empty;
+}
+
+/* Get group used l2 domain and core domain ref */
+void mali_group_get_pm_domain_ref(struct mali_group *group);
+/* Put group used l2 domain and core domain ref */
+void mali_group_put_pm_domain_ref(struct mali_group *group);
+
+#endif /* __MALI_GROUP_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_hw_core.h"
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_osk_mali.h"
+
+_mali_osk_errcode_t mali_hw_core_create(struct mali_hw_core *core, const _mali_osk_resource_t *resource, u32 reg_size)
+{
+ core->phys_addr = resource->base;
+ core->phys_offset = resource->base - _mali_osk_resource_base_address();
+ core->description = resource->description;
+ core->size = reg_size;
+
+ MALI_DEBUG_ASSERT(core->phys_offset < core->phys_addr);
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_mem_reqregion(core->phys_addr, core->size, core->description)) {
+ core->mapped_registers = _mali_osk_mem_mapioregion(core->phys_addr, core->size, core->description);
+ if (NULL != core->mapped_registers) {
+ return _MALI_OSK_ERR_OK;
+ } else {
+ MALI_PRINT_ERROR(("Failed to map memory region for core %s at phys_addr 0x%08X\n", core->description, core->phys_addr));
+ }
+ _mali_osk_mem_unreqregion(core->phys_addr, core->size);
+ } else {
+ MALI_PRINT_ERROR(("Failed to request memory region for core %s at phys_addr 0x%08X\n", core->description, core->phys_addr));
+ }
+
+ return _MALI_OSK_ERR_FAULT;
+}
+
+void mali_hw_core_delete(struct mali_hw_core *core)
+{
+ _mali_osk_mem_unmapioregion(core->phys_addr, core->size, core->mapped_registers);
+ core->mapped_registers = NULL;
+ _mali_osk_mem_unreqregion(core->phys_addr, core->size);
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_HW_CORE_H__
+#define __MALI_HW_CORE_H__
+
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+
+/**
+ * The common parts for all Mali HW cores (GP, PP, MMU, L2 and PMU)
+ * This struct is embedded inside all core specific structs.
+ */
+struct mali_hw_core {
+ u32 phys_addr; /**< Physical address of the registers */
+ u32 phys_offset; /**< Offset from start of Mali to registers */
+ u32 size; /**< Size of registers */
+ mali_io_address mapped_registers; /**< Virtual mapping of the registers */
+ const char* description; /**< Name of unit (as specified in device configuration) */
+};
+
+#define MALI_REG_POLL_COUNT_FAST 1000
+#define MALI_REG_POLL_COUNT_SLOW 1000000
+
+_mali_osk_errcode_t mali_hw_core_create(struct mali_hw_core *core, const _mali_osk_resource_t *resource, u32 reg_size);
+void mali_hw_core_delete(struct mali_hw_core *core);
+
+MALI_STATIC_INLINE u32 mali_hw_core_register_read(struct mali_hw_core *core, u32 relative_address)
+{
+ u32 read_val;
+ read_val = _mali_osk_mem_ioread32(core->mapped_registers, relative_address);
+ MALI_DEBUG_PRINT(6, ("register_read for core %s, relative addr=0x%04X, val=0x%08X\n",
+ core->description, relative_address, read_val));
+ return read_val;
+}
+
+MALI_STATIC_INLINE void mali_hw_core_register_write_relaxed(struct mali_hw_core *core, u32 relative_address, u32 new_val)
+{
+ MALI_DEBUG_PRINT(6, ("register_write_relaxed for core %s, relative addr=0x%04X, val=0x%08X\n",
+ core->description, relative_address, new_val));
+ _mali_osk_mem_iowrite32_relaxed(core->mapped_registers, relative_address, new_val);
+}
+
+/* Conditionally write a register.
+ * The register will only be written if the new value is different from the old_value.
+ * If the new value is different, the old value will also be updated */
+MALI_STATIC_INLINE void mali_hw_core_register_write_relaxed_conditional(struct mali_hw_core *core, u32 relative_address, u32 new_val, const u32 old_val)
+{
+ MALI_DEBUG_PRINT(6, ("register_write_relaxed for core %s, relative addr=0x%04X, val=0x%08X\n",
+ core->description, relative_address, new_val));
+ if(old_val != new_val) {
+ _mali_osk_mem_iowrite32_relaxed(core->mapped_registers, relative_address, new_val);
+ }
+}
+
+
+MALI_STATIC_INLINE void mali_hw_core_register_write(struct mali_hw_core *core, u32 relative_address, u32 new_val)
+{
+ MALI_DEBUG_PRINT(6, ("register_write for core %s, relative addr=0x%04X, val=0x%08X\n",
+ core->description, relative_address, new_val));
+ _mali_osk_mem_iowrite32(core->mapped_registers, relative_address, new_val);
+}
+
+MALI_STATIC_INLINE void mali_hw_core_register_write_array_relaxed(struct mali_hw_core *core, u32 relative_address, u32 *write_array, u32 nr_of_regs)
+{
+ u32 i;
+ MALI_DEBUG_PRINT(6, ("register_write_array: for core %s, relative addr=0x%04X, nr of regs=%u\n",
+ core->description,relative_address, nr_of_regs));
+
+ /* Do not use burst writes against the registers */
+ for (i = 0; i< nr_of_regs; i++) {
+ mali_hw_core_register_write_relaxed(core, relative_address + i*4, write_array[i]);
+ }
+}
+
+/* Conditionally write a set of registers.
+ * The register will only be written if the new value is different from the old_value.
+ * If the new value is different, the old value will also be updated */
+MALI_STATIC_INLINE void mali_hw_core_register_write_array_relaxed_conditional(struct mali_hw_core *core, u32 relative_address, u32 *write_array, u32 nr_of_regs, const u32* old_array)
+{
+ u32 i;
+ MALI_DEBUG_PRINT(6, ("register_write_array: for core %s, relative addr=0x%04X, nr of regs=%u\n",
+ core->description,relative_address, nr_of_regs));
+
+ /* Do not use burst writes against the registers */
+ for (i = 0; i< nr_of_regs; i++) {
+ if(old_array[i] != write_array[i]) {
+ mali_hw_core_register_write_relaxed(core, relative_address + i*4, write_array[i]);
+ }
+ }
+}
+
+#endif /* __MALI_HW_CORE_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2007-2010, 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_KERNEL_COMMON_H__
+#define __MALI_KERNEL_COMMON_H__
+
+#include "mali_osk.h"
+
+/* Make sure debug is defined when it should be */
+#ifndef DEBUG
+#if defined(_DEBUG)
+#define DEBUG
+#endif
+#endif
+
+/* The file include several useful macros for error checking, debugging and printing.
+ * - MALI_PRINTF(...) Do not use this function: Will be included in Release builds.
+ * - MALI_DEBUG_PRINT(nr, (X) ) Prints the second argument if nr<=MALI_DEBUG_LEVEL.
+ * - MALI_DEBUG_ERROR( (X) ) Prints an errortext, a source trace, and the given error message.
+ * - MALI_DEBUG_ASSERT(exp,(X)) If the asserted expr is false, the program will exit.
+ * - MALI_DEBUG_ASSERT_POINTER(pointer) Triggers if the pointer is a zero pointer.
+ * - MALI_DEBUG_CODE( X ) The code inside the macro is only compiled in Debug builds.
+ *
+ * The (X) means that you must add an extra parenthesis around the argumentlist.
+ *
+ * The printf function: MALI_PRINTF(...) is routed to _mali_osk_debugmsg
+ *
+ * Suggested range for the DEBUG-LEVEL is [1:6] where
+ * [1:2] Is messages with highest priority, indicate possible errors.
+ * [3:4] Is messages with medium priority, output important variables.
+ * [5:6] Is messages with low priority, used during extensive debugging.
+ */
+
+/**
+* Fundamental error macro. Reports an error code. This is abstracted to allow us to
+* easily switch to a different error reporting method if we want, and also to allow
+* us to search for error returns easily.
+*
+* Note no closing semicolon - this is supplied in typical usage:
+*
+* MALI_ERROR(MALI_ERROR_OUT_OF_MEMORY);
+*/
+#define MALI_ERROR(error_code) return (error_code)
+
+/**
+ * Basic error macro, to indicate success.
+ * Note no closing semicolon - this is supplied in typical usage:
+ *
+ * MALI_SUCCESS;
+ */
+#define MALI_SUCCESS MALI_ERROR(_MALI_OSK_ERR_OK)
+
+/**
+ * Basic error macro. This checks whether the given condition is true, and if not returns
+ * from this function with the supplied error code. This is a macro so that we can override it
+ * for stress testing.
+ *
+ * Note that this uses the do-while-0 wrapping to ensure that we don't get problems with dangling
+ * else clauses. Note also no closing semicolon - this is supplied in typical usage:
+ *
+ * MALI_CHECK((p!=NULL), ERROR_NO_OBJECT);
+ */
+#define MALI_CHECK(condition, error_code) do { if(!(condition)) MALI_ERROR(error_code); } while(0)
+
+/**
+ * Error propagation macro. If the expression given is anything other than _MALI_OSK_NO_ERROR,
+ * then the value is returned from the enclosing function as an error code. This effectively
+ * acts as a guard clause, and propagates error values up the call stack. This uses a
+ * temporary value to ensure that the error expression is not evaluated twice.
+ * If the counter for forcing a failure has been set using _mali_force_error, this error will be
+ * returned without evaluating the expression in MALI_CHECK_NO_ERROR
+ */
+#define MALI_CHECK_NO_ERROR(expression) \
+ do { _mali_osk_errcode_t _check_no_error_result=(expression); \
+ if(_check_no_error_result != _MALI_OSK_ERR_OK) \
+ MALI_ERROR(_check_no_error_result); \
+ } while(0)
+
+/**
+ * Pointer check macro. Checks non-null pointer.
+ */
+#define MALI_CHECK_NON_NULL(pointer, error_code) MALI_CHECK( ((pointer)!=NULL), (error_code) )
+
+/**
+ * Error macro with goto. This checks whether the given condition is true, and if not jumps
+ * to the specified label using a goto. The label must therefore be local to the function in
+ * which this macro appears. This is most usually used to execute some clean-up code before
+ * exiting with a call to ERROR.
+ *
+ * Like the other macros, this is a macro to allow us to override the condition if we wish,
+ * e.g. to force an error during stress testing.
+ */
+#define MALI_CHECK_GOTO(condition, label) do { if(!(condition)) goto label; } while(0)
+
+/**
+ * Explicitly ignore a parameter passed into a function, to suppress compiler warnings.
+ * Should only be used with parameter names.
+ */
+#define MALI_IGNORE(x) x=x
+
+#define MALI_PRINTF(args) _mali_osk_dbgmsg args;
+
+#define MALI_PRINT_ERROR(args) do{ \
+ MALI_PRINTF(("Mali: ERR: %s\n" ,__FILE__)); \
+ MALI_PRINTF((" %s()%4d\n ", __FUNCTION__, __LINE__)) ; \
+ MALI_PRINTF(args); \
+ MALI_PRINTF(("\n")); \
+ } while(0)
+
+#define MALI_PRINT(args) do{ \
+ MALI_PRINTF(("Mali: ")); \
+ MALI_PRINTF(args); \
+ } while (0)
+
+#ifdef DEBUG
+#ifndef mali_debug_level
+extern int mali_debug_level;
+#endif
+
+#define MALI_DEBUG_CODE(code) code
+#define MALI_DEBUG_PRINT(level, args) do { \
+ if((level) <= mali_debug_level)\
+ {MALI_PRINTF(("Mali<" #level ">: ")); MALI_PRINTF(args); } \
+ } while (0)
+
+#define MALI_DEBUG_PRINT_ERROR(args) MALI_PRINT_ERROR(args)
+
+#define MALI_DEBUG_PRINT_IF(level,condition,args) \
+ if((condition)&&((level) <= mali_debug_level))\
+ {MALI_PRINTF(("Mali<" #level ">: ")); MALI_PRINTF(args); }
+
+#define MALI_DEBUG_PRINT_ELSE(level, args)\
+ else if((level) <= mali_debug_level)\
+ { MALI_PRINTF(("Mali<" #level ">: ")); MALI_PRINTF(args); }
+
+/**
+ * @note these variants of DEBUG ASSERTS will cause a debugger breakpoint
+ * to be entered (see _mali_osk_break() ). An alternative would be to call
+ * _mali_osk_abort(), on OSs that support it.
+ */
+#define MALI_DEBUG_PRINT_ASSERT(condition, args) do {if( !(condition)) { MALI_PRINT_ERROR(args); _mali_osk_break(); } } while(0)
+#define MALI_DEBUG_ASSERT_POINTER(pointer) do {if( (pointer)== NULL) {MALI_PRINT_ERROR(("NULL pointer " #pointer)); _mali_osk_break();} } while(0)
+#define MALI_DEBUG_ASSERT(condition) do {if( !(condition)) {MALI_PRINT_ERROR(("ASSERT failed: " #condition )); _mali_osk_break();} } while(0)
+
+#else /* DEBUG */
+
+#define MALI_DEBUG_CODE(code)
+#define MALI_DEBUG_PRINT(string,args) do {} while(0)
+#define MALI_DEBUG_PRINT_ERROR(args) do {} while(0)
+#define MALI_DEBUG_PRINT_IF(level,condition,args) do {} while(0)
+#define MALI_DEBUG_PRINT_ELSE(level,condition,args) do {} while(0)
+#define MALI_DEBUG_PRINT_ASSERT(condition,args) do {} while(0)
+#define MALI_DEBUG_ASSERT_POINTER(pointer) do {} while(0)
+#define MALI_DEBUG_ASSERT(condition) do {} while(0)
+
+#endif /* DEBUG */
+
+/**
+ * variables from user space cannot be dereferenced from kernel space; tagging them
+ * with __user allows the GCC compiler to generate a warning. Other compilers may
+ * not support this so we define it here as an empty macro if the compiler doesn't
+ * define it.
+ */
+#ifndef __user
+#define __user
+#endif
+
+#endif /* __MALI_KERNEL_COMMON_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2007-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_kernel_common.h"
+#include "mali_session.h"
+#include "mali_osk.h"
+#include "mali_osk_mali.h"
+#include "mali_ukk.h"
+#include "mali_kernel_core.h"
+#include "mali_memory.h"
+#include "mali_mem_validation.h"
+#include "mali_mmu.h"
+#include "mali_mmu_page_directory.h"
+#include "mali_dlbu.h"
+#include "mali_broadcast.h"
+#include "mali_gp.h"
+#include "mali_pp.h"
+#include "mali_gp_scheduler.h"
+#include "mali_pp_scheduler.h"
+#include "mali_pp_job.h"
+#include "mali_group.h"
+#include "mali_pm.h"
+#include "mali_pmu.h"
+#include "mali_scheduler.h"
+#include "mali_kernel_utilization.h"
+#include "mali_l2_cache.h"
+#include "mali_dma.h"
+#include "mali_timeline.h"
+#include "mali_soft_job.h"
+#include "mali_pm_domain.h"
+#if defined(CONFIG_MALI400_PROFILING)
+#include "mali_osk_profiling.h"
+#endif
+#if defined(CONFIG_MALI400_INTERNAL_PROFILING)
+#include "mali_profiling_internal.h"
+#endif
+//extern unsigned long totalram_pages;
+#include <linux/mm.h>
+
+
+/* Mali GPU memory. Real values come from module parameter or from device specific data */
+unsigned int mali_dedicated_mem_start = 0;
+unsigned int mali_dedicated_mem_size = 0;
+unsigned long mali_shared_mem_size = 0;
+
+/* Frame buffer memory to be accessible by Mali GPU */
+int mali_fb_start = 0;
+int mali_fb_size = 0;
+
+/* Mali max job runtime */
+extern int mali_max_job_runtime;
+
+/** Start profiling from module load? */
+int mali_boot_profiling = 0;
+
+/** Limits for the number of PP cores behind each L2 cache. */
+int mali_max_pp_cores_group_1 = 0xFF;
+int mali_max_pp_cores_group_2 = 0xFF;
+
+int mali_inited_pp_cores_group_1 = 0;
+int mali_inited_pp_cores_group_2 = 0;
+
+static _mali_product_id_t global_product_id = _MALI_PRODUCT_ID_UNKNOWN;
+static u32 global_gpu_base_address = 0;
+static u32 global_gpu_major_version = 0;
+static u32 global_gpu_minor_version = 0;
+
+mali_bool mali_gpu_class_is_mali450 = MALI_FALSE;
+
+static _mali_osk_errcode_t mali_set_global_gpu_base_address(void)
+{
+ global_gpu_base_address = _mali_osk_resource_base_address();
+ if (0 == global_gpu_base_address) {
+ return _MALI_OSK_ERR_ITEM_NOT_FOUND;
+ }
+
+ return _MALI_OSK_ERR_OK;
+}
+
+static u32 mali_get_bcast_id(_mali_osk_resource_t *resource_pp)
+{
+ switch (resource_pp->base - global_gpu_base_address) {
+ case 0x08000:
+ case 0x20000: /* fall-through for aliased mapping */
+ return 0x01;
+ case 0x0A000:
+ case 0x22000: /* fall-through for aliased mapping */
+ return 0x02;
+ case 0x0C000:
+ case 0x24000: /* fall-through for aliased mapping */
+ return 0x04;
+ case 0x0E000:
+ case 0x26000: /* fall-through for aliased mapping */
+ return 0x08;
+ case 0x28000:
+ return 0x10;
+ case 0x2A000:
+ return 0x20;
+ case 0x2C000:
+ return 0x40;
+ case 0x2E000:
+ return 0x80;
+ default:
+ return 0;
+ }
+}
+
+static _mali_osk_errcode_t mali_parse_product_info(void)
+{
+ /*
+ * Mali-200 has the PP core first, while Mali-300, Mali-400 and Mali-450 have the GP core first.
+ * Look at the version register for the first PP core in order to determine the GPU HW revision.
+ */
+
+ u32 first_pp_offset;
+ _mali_osk_resource_t first_pp_resource;
+
+ /* Find out where the first PP core is located */
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x8000, NULL)) {
+ /* Mali-300/400/450 */
+ first_pp_offset = 0x8000;
+ } else {
+ /* Mali-200 */
+ first_pp_offset = 0x0000;
+ }
+
+ /* Find the first PP core resource (again) */
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + first_pp_offset, &first_pp_resource)) {
+ /* Create a dummy PP object for this core so that we can read the version register */
+ struct mali_group *group = mali_group_create(NULL, NULL, NULL);
+ if (NULL != group) {
+ struct mali_pp_core *pp_core = mali_pp_create(&first_pp_resource, group, MALI_FALSE, mali_get_bcast_id(&first_pp_resource));
+ if (NULL != pp_core) {
+ u32 pp_version = mali_pp_core_get_version(pp_core);
+ mali_group_delete(group);
+
+ global_gpu_major_version = (pp_version >> 8) & 0xFF;
+ global_gpu_minor_version = pp_version & 0xFF;
+
+ switch (pp_version >> 16) {
+ case MALI200_PP_PRODUCT_ID:
+ global_product_id = _MALI_PRODUCT_ID_MALI200;
+ MALI_DEBUG_PRINT(2, ("Found Mali GPU Mali-200 r%up%u\n", global_gpu_major_version, global_gpu_minor_version));
+ MALI_PRINT_ERROR(("Mali-200 is not supported by this driver.\n"));
+ _mali_osk_abort();
+ break;
+ case MALI300_PP_PRODUCT_ID:
+ global_product_id = _MALI_PRODUCT_ID_MALI300;
+ MALI_DEBUG_PRINT(2, ("Found Mali GPU Mali-300 r%up%u\n", global_gpu_major_version, global_gpu_minor_version));
+ break;
+ case MALI400_PP_PRODUCT_ID:
+ global_product_id = _MALI_PRODUCT_ID_MALI400;
+ MALI_DEBUG_PRINT(2, ("Found Mali GPU Mali-400 MP r%up%u\n", global_gpu_major_version, global_gpu_minor_version));
+ break;
+ case MALI450_PP_PRODUCT_ID:
+ global_product_id = _MALI_PRODUCT_ID_MALI450;
+ MALI_DEBUG_PRINT(2, ("Found Mali GPU Mali-450 MP r%up%u\n", global_gpu_major_version, global_gpu_minor_version));
+ break;
+ default:
+ MALI_DEBUG_PRINT(2, ("Found unknown Mali GPU (r%up%u)\n", global_gpu_major_version, global_gpu_minor_version));
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ return _MALI_OSK_ERR_OK;
+ } else {
+ MALI_PRINT_ERROR(("Failed to create initial PP object\n"));
+ }
+ } else {
+ MALI_PRINT_ERROR(("Failed to create initial group object\n"));
+ }
+ } else {
+ MALI_PRINT_ERROR(("First PP core not specified in config file\n"));
+ }
+
+ return _MALI_OSK_ERR_FAULT;
+}
+
+
+static void mali_resource_count(u32 *pp_count, u32 *l2_count)
+{
+ *pp_count = 0;
+ *l2_count = 0;
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x08000, NULL)) {
+ ++(*pp_count);
+ }
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x0A000, NULL)) {
+ ++(*pp_count);
+ }
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x0C000, NULL)) {
+ ++(*pp_count);
+ }
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x0E000, NULL)) {
+ ++(*pp_count);
+ }
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x28000, NULL)) {
+ ++(*pp_count);
+ }
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x2A000, NULL)) {
+ ++(*pp_count);
+ }
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x2C000, NULL)) {
+ ++(*pp_count);
+ }
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x2E000, NULL)) {
+ ++(*pp_count);
+ }
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x1000, NULL)) {
+ ++(*l2_count);
+ }
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x10000, NULL)) {
+ ++(*l2_count);
+ }
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x11000, NULL)) {
+ ++(*l2_count);
+ }
+}
+
+static void mali_delete_groups(void)
+{
+ struct mali_group *group;
+
+ group = mali_group_get_glob_group(0);
+ while (NULL != group) {
+ mali_group_delete(group);
+ group = mali_group_get_glob_group(0);
+ }
+
+ MALI_DEBUG_ASSERT(0 == mali_group_get_glob_num_groups());
+}
+
+static void mali_delete_l2_cache_cores(void)
+{
+ struct mali_l2_cache_core *l2;
+
+ l2 = mali_l2_cache_core_get_glob_l2_core(0);
+ while (NULL != l2) {
+ mali_l2_cache_delete(l2);
+ l2 = mali_l2_cache_core_get_glob_l2_core(0);
+ }
+
+ MALI_DEBUG_ASSERT(0 == mali_l2_cache_core_get_glob_num_l2_cores());
+}
+
+static struct mali_l2_cache_core *mali_create_l2_cache_core(_mali_osk_resource_t *resource)
+{
+ struct mali_l2_cache_core *l2_cache = NULL;
+
+ if (NULL != resource) {
+
+ MALI_DEBUG_PRINT(3, ("Found L2 cache %s\n", resource->description));
+
+ l2_cache = mali_l2_cache_create(resource);
+ if (NULL == l2_cache) {
+ MALI_PRINT_ERROR(("Failed to create L2 cache object\n"));
+ return NULL;
+ }
+ }
+ MALI_DEBUG_PRINT(3, ("Created L2 cache core object\n"));
+
+ return l2_cache;
+}
+
+static _mali_osk_errcode_t mali_parse_config_l2_cache(void)
+{
+ struct mali_l2_cache_core *l2_cache = NULL;
+
+ if (mali_is_mali400()) {
+ _mali_osk_resource_t l2_resource;
+ if (_MALI_OSK_ERR_OK != _mali_osk_resource_find(global_gpu_base_address + 0x1000, &l2_resource)) {
+ MALI_DEBUG_PRINT(3, ("Did not find required Mali L2 cache in config file\n"));
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ l2_cache = mali_create_l2_cache_core(&l2_resource);
+ if (NULL == l2_cache) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+ mali_pm_domain_add_l2(mali_pmu_get_domain_mask(MALI_L20_DOMAIN_INDEX), l2_cache);
+ } else if (mali_is_mali450()) {
+ /*
+ * L2 for GP at 0x10000
+ * L2 for PP0-3 at 0x01000
+ * L2 for PP4-7 at 0x11000 (optional)
+ */
+
+ _mali_osk_resource_t l2_gp_resource;
+ _mali_osk_resource_t l2_pp_grp0_resource;
+ _mali_osk_resource_t l2_pp_grp1_resource;
+
+ /* Make cluster for GP's L2 */
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x10000, &l2_gp_resource)) {
+ MALI_DEBUG_PRINT(3, ("Creating Mali-450 L2 cache core for GP\n"));
+ l2_cache = mali_create_l2_cache_core(&l2_gp_resource);
+ if (NULL == l2_cache) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+ mali_pm_domain_add_l2(mali_pmu_get_domain_mask(MALI_L20_DOMAIN_INDEX), l2_cache);
+ } else {
+ MALI_DEBUG_PRINT(3, ("Did not find required Mali L2 cache for GP in config file\n"));
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ /* Find corresponding l2 domain */
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x1000, &l2_pp_grp0_resource)) {
+ MALI_DEBUG_PRINT(3, ("Creating Mali-450 L2 cache core for PP group 0\n"));
+ l2_cache = mali_create_l2_cache_core(&l2_pp_grp0_resource);
+ if (NULL == l2_cache) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+ mali_pm_domain_add_l2(mali_pmu_get_domain_mask(MALI_L21_DOMAIN_INDEX), l2_cache);
+ } else {
+ MALI_DEBUG_PRINT(3, ("Did not find required Mali L2 cache for PP group 0 in config file\n"));
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ /* Second PP core group is optional, don't fail if we don't find it */
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x11000, &l2_pp_grp1_resource)) {
+ MALI_DEBUG_PRINT(3, ("Creating Mali-450 L2 cache core for PP group 1\n"));
+ l2_cache = mali_create_l2_cache_core(&l2_pp_grp1_resource);
+ if (NULL == l2_cache) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+ mali_pm_domain_add_l2(mali_pmu_get_domain_mask(MALI_L22_DOMAIN_INDEX), l2_cache);
+ }
+ }
+
+ return _MALI_OSK_ERR_OK;
+}
+
+static struct mali_group *mali_create_group(struct mali_l2_cache_core *cache,
+ _mali_osk_resource_t *resource_mmu,
+ _mali_osk_resource_t *resource_gp,
+ _mali_osk_resource_t *resource_pp)
+{
+ struct mali_mmu_core *mmu;
+ struct mali_group *group;
+
+ MALI_DEBUG_PRINT(3, ("Starting new group for MMU %s\n", resource_mmu->description));
+
+ /* Create the group object */
+ group = mali_group_create(cache, NULL, NULL);
+ if (NULL == group) {
+ MALI_PRINT_ERROR(("Failed to create group object for MMU %s\n", resource_mmu->description));
+ return NULL;
+ }
+
+ /* Create the MMU object inside group */
+ mmu = mali_mmu_create(resource_mmu, group, MALI_FALSE);
+ if (NULL == mmu) {
+ MALI_PRINT_ERROR(("Failed to create MMU object\n"));
+ mali_group_delete(group);
+ return NULL;
+ }
+
+ if (NULL != resource_gp) {
+ /* Create the GP core object inside this group */
+ struct mali_gp_core *gp_core = mali_gp_create(resource_gp, group);
+ if (NULL == gp_core) {
+ /* No need to clean up now, as we will clean up everything linked in from the cluster when we fail this function */
+ MALI_PRINT_ERROR(("Failed to create GP object\n"));
+ mali_group_delete(group);
+ return NULL;
+ }
+ }
+
+ if (NULL != resource_pp) {
+ struct mali_pp_core *pp_core;
+
+ /* Create the PP core object inside this group */
+ pp_core = mali_pp_create(resource_pp, group, MALI_FALSE, mali_get_bcast_id(resource_pp));
+ if (NULL == pp_core) {
+ /* No need to clean up now, as we will clean up everything linked in from the cluster when we fail this function */
+ MALI_PRINT_ERROR(("Failed to create PP object\n"));
+ mali_group_delete(group);
+ return NULL;
+ }
+ }
+
+ /* Reset group */
+ mali_group_lock(group);
+ mali_group_reset(group);
+ mali_group_unlock(group);
+
+ return group;
+}
+
+static _mali_osk_errcode_t mali_create_virtual_group(_mali_osk_resource_t *resource_mmu_pp_bcast,
+ _mali_osk_resource_t *resource_pp_bcast,
+ _mali_osk_resource_t *resource_dlbu,
+ _mali_osk_resource_t *resource_bcast)
+{
+ struct mali_mmu_core *mmu_pp_bcast_core;
+ struct mali_pp_core *pp_bcast_core;
+ struct mali_dlbu_core *dlbu_core;
+ struct mali_bcast_unit *bcast_core;
+ struct mali_group *group;
+
+ MALI_DEBUG_PRINT(2, ("Starting new virtual group for MMU PP broadcast core %s\n", resource_mmu_pp_bcast->description));
+
+ /* Create the DLBU core object */
+ dlbu_core = mali_dlbu_create(resource_dlbu);
+ if (NULL == dlbu_core) {
+ MALI_PRINT_ERROR(("Failed to create DLBU object \n"));
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ /* Create the Broadcast unit core */
+ bcast_core = mali_bcast_unit_create(resource_bcast);
+ if (NULL == bcast_core) {
+ MALI_PRINT_ERROR(("Failed to create Broadcast unit object!\n"));
+ mali_dlbu_delete(dlbu_core);
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ /* Create the group object */
+ group = mali_group_create(NULL, dlbu_core, bcast_core);
+ if (NULL == group) {
+ MALI_PRINT_ERROR(("Failed to create group object for MMU PP broadcast core %s\n", resource_mmu_pp_bcast->description));
+ mali_bcast_unit_delete(bcast_core);
+ mali_dlbu_delete(dlbu_core);
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ /* Create the MMU object inside group */
+ mmu_pp_bcast_core = mali_mmu_create(resource_mmu_pp_bcast, group, MALI_TRUE);
+ if (NULL == mmu_pp_bcast_core) {
+ MALI_PRINT_ERROR(("Failed to create MMU PP broadcast object\n"));
+ mali_group_delete(group);
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ /* Create the PP core object inside this group */
+ pp_bcast_core = mali_pp_create(resource_pp_bcast, group, MALI_TRUE, 0);
+ if (NULL == pp_bcast_core) {
+ /* No need to clean up now, as we will clean up everything linked in from the cluster when we fail this function */
+ MALI_PRINT_ERROR(("Failed to create PP object\n"));
+ mali_group_delete(group);
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ return _MALI_OSK_ERR_OK;
+}
+
+static _mali_osk_errcode_t mali_parse_config_groups(void)
+{
+ struct mali_group *group;
+ int cluster_id_gp = 0;
+ int cluster_id_pp_grp0 = 0;
+ int cluster_id_pp_grp1 = 0;
+ int i;
+
+ _mali_osk_resource_t resource_gp;
+ _mali_osk_resource_t resource_gp_mmu;
+ _mali_osk_resource_t resource_pp[8];
+ _mali_osk_resource_t resource_pp_mmu[8];
+ _mali_osk_resource_t resource_pp_mmu_bcast;
+ _mali_osk_resource_t resource_pp_bcast;
+ _mali_osk_resource_t resource_dlbu;
+ _mali_osk_resource_t resource_bcast;
+ _mali_osk_errcode_t resource_gp_found;
+ _mali_osk_errcode_t resource_gp_mmu_found;
+ _mali_osk_errcode_t resource_pp_found[8];
+ _mali_osk_errcode_t resource_pp_mmu_found[8];
+ _mali_osk_errcode_t resource_pp_mmu_bcast_found;
+ _mali_osk_errcode_t resource_pp_bcast_found;
+ _mali_osk_errcode_t resource_dlbu_found;
+ _mali_osk_errcode_t resource_bcast_found;
+
+ if (!(mali_is_mali400() || mali_is_mali450())) {
+ /* No known HW core */
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ if (MALI_MAX_JOB_RUNTIME_DEFAULT == mali_max_job_runtime) {
+ /* Group settings are not overridden by module parameters, so use device settings */
+ struct _mali_osk_device_data data = { 0, };
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_device_data_get(&data)) {
+ /* Use device specific settings (if defined) */
+ if (0 != data.max_job_runtime) {
+ mali_max_job_runtime = data.max_job_runtime;
+ }
+ }
+ }
+
+ if (mali_is_mali450()) {
+ /* Mali-450 have separate L2s for GP, and PP core group(s) */
+ cluster_id_pp_grp0 = 1;
+ cluster_id_pp_grp1 = 2;
+ }
+
+ resource_gp_found = _mali_osk_resource_find(global_gpu_base_address + 0x00000, &resource_gp);
+ resource_gp_mmu_found = _mali_osk_resource_find(global_gpu_base_address + 0x03000, &resource_gp_mmu);
+ resource_pp_found[0] = _mali_osk_resource_find(global_gpu_base_address + 0x08000, &(resource_pp[0]));
+ resource_pp_found[1] = _mali_osk_resource_find(global_gpu_base_address + 0x0A000, &(resource_pp[1]));
+ resource_pp_found[2] = _mali_osk_resource_find(global_gpu_base_address + 0x0C000, &(resource_pp[2]));
+ resource_pp_found[3] = _mali_osk_resource_find(global_gpu_base_address + 0x0E000, &(resource_pp[3]));
+ resource_pp_found[4] = _mali_osk_resource_find(global_gpu_base_address + 0x28000, &(resource_pp[4]));
+ resource_pp_found[5] = _mali_osk_resource_find(global_gpu_base_address + 0x2A000, &(resource_pp[5]));
+ resource_pp_found[6] = _mali_osk_resource_find(global_gpu_base_address + 0x2C000, &(resource_pp[6]));
+ resource_pp_found[7] = _mali_osk_resource_find(global_gpu_base_address + 0x2E000, &(resource_pp[7]));
+ resource_pp_mmu_found[0] = _mali_osk_resource_find(global_gpu_base_address + 0x04000, &(resource_pp_mmu[0]));
+ resource_pp_mmu_found[1] = _mali_osk_resource_find(global_gpu_base_address + 0x05000, &(resource_pp_mmu[1]));
+ resource_pp_mmu_found[2] = _mali_osk_resource_find(global_gpu_base_address + 0x06000, &(resource_pp_mmu[2]));
+ resource_pp_mmu_found[3] = _mali_osk_resource_find(global_gpu_base_address + 0x07000, &(resource_pp_mmu[3]));
+ resource_pp_mmu_found[4] = _mali_osk_resource_find(global_gpu_base_address + 0x1C000, &(resource_pp_mmu[4]));
+ resource_pp_mmu_found[5] = _mali_osk_resource_find(global_gpu_base_address + 0x1D000, &(resource_pp_mmu[5]));
+ resource_pp_mmu_found[6] = _mali_osk_resource_find(global_gpu_base_address + 0x1E000, &(resource_pp_mmu[6]));
+ resource_pp_mmu_found[7] = _mali_osk_resource_find(global_gpu_base_address + 0x1F000, &(resource_pp_mmu[7]));
+
+
+ if (mali_is_mali450()) {
+ resource_bcast_found = _mali_osk_resource_find(global_gpu_base_address + 0x13000, &resource_bcast);
+ resource_dlbu_found = _mali_osk_resource_find(global_gpu_base_address + 0x14000, &resource_dlbu);
+ resource_pp_mmu_bcast_found = _mali_osk_resource_find(global_gpu_base_address + 0x15000, &resource_pp_mmu_bcast);
+ resource_pp_bcast_found = _mali_osk_resource_find(global_gpu_base_address + 0x16000, &resource_pp_bcast);
+
+ if (_MALI_OSK_ERR_OK != resource_bcast_found ||
+ _MALI_OSK_ERR_OK != resource_dlbu_found ||
+ _MALI_OSK_ERR_OK != resource_pp_mmu_bcast_found ||
+ _MALI_OSK_ERR_OK != resource_pp_bcast_found) {
+ /* Missing mandatory core(s) for Mali-450 */
+ MALI_DEBUG_PRINT(2, ("Missing mandatory resources, Mali-450 needs DLBU, Broadcast unit, virtual PP core and virtual MMU\n"));
+ return _MALI_OSK_ERR_FAULT;
+ }
+ }
+
+ if (_MALI_OSK_ERR_OK != resource_gp_found ||
+ _MALI_OSK_ERR_OK != resource_gp_mmu_found ||
+ _MALI_OSK_ERR_OK != resource_pp_found[0] ||
+ _MALI_OSK_ERR_OK != resource_pp_mmu_found[0]) {
+ /* Missing mandatory core(s) */
+ MALI_DEBUG_PRINT(2, ("Missing mandatory resource, need at least one GP and one PP, both with a separate MMU\n"));
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ MALI_DEBUG_ASSERT(1 <= mali_l2_cache_core_get_glob_num_l2_cores());
+ group = mali_create_group(mali_l2_cache_core_get_glob_l2_core(cluster_id_gp), &resource_gp_mmu, &resource_gp, NULL);
+ if (NULL == group) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ /* Add GP in group, for PMU ref count */
+ mali_pm_domain_add_group(mali_pmu_get_domain_mask(MALI_GP_DOMAIN_INDEX), group);
+
+ /* Create group for first (and mandatory) PP core */
+ MALI_DEBUG_ASSERT(mali_l2_cache_core_get_glob_num_l2_cores() >= (cluster_id_pp_grp0 + 1)); /* >= 1 on Mali-300 and Mali-400, >= 2 on Mali-450 */
+ group = mali_create_group(mali_l2_cache_core_get_glob_l2_core(cluster_id_pp_grp0), &resource_pp_mmu[0], NULL, &resource_pp[0]);
+ if (NULL == group) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ /* Find corresponding pp domain */
+ mali_pm_domain_add_group(mali_pmu_get_domain_mask(MALI_PP0_DOMAIN_INDEX), group);
+
+ mali_inited_pp_cores_group_1++;
+
+ /* Create groups for rest of the cores in the first PP core group */
+ for (i = 1; i < 4; i++) { /* First half of the PP cores belong to first core group */
+ if (mali_inited_pp_cores_group_1 < mali_max_pp_cores_group_1) {
+ if (_MALI_OSK_ERR_OK == resource_pp_found[i] && _MALI_OSK_ERR_OK == resource_pp_mmu_found[i]) {
+ group = mali_create_group(mali_l2_cache_core_get_glob_l2_core(cluster_id_pp_grp0), &resource_pp_mmu[i], NULL, &resource_pp[i]);
+ if (NULL == group) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ mali_pm_domain_add_group(mali_pmu_get_domain_mask(i + MALI_PP0_DOMAIN_INDEX), group);
+
+ mali_inited_pp_cores_group_1++;
+ }
+ }
+ }
+
+ /* Create groups for cores in the second PP core group */
+ for (i = 4; i < 8; i++) { /* Second half of the PP cores belong to second core group */
+ if (mali_inited_pp_cores_group_2 < mali_max_pp_cores_group_2) {
+ if (_MALI_OSK_ERR_OK == resource_pp_found[i] && _MALI_OSK_ERR_OK == resource_pp_mmu_found[i]) {
+ MALI_DEBUG_ASSERT(mali_l2_cache_core_get_glob_num_l2_cores() >= 2); /* Only Mali-450 have a second core group */
+ group = mali_create_group(mali_l2_cache_core_get_glob_l2_core(cluster_id_pp_grp1), &resource_pp_mmu[i], NULL, &resource_pp[i]);
+ if (NULL == group) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+ mali_pm_domain_add_group(mali_pmu_get_domain_mask(i + MALI_PP0_DOMAIN_INDEX), group);
+ mali_inited_pp_cores_group_2++;
+ }
+ }
+ }
+
+ if(mali_is_mali450()) {
+ _mali_osk_errcode_t err = mali_create_virtual_group(&resource_pp_mmu_bcast, &resource_pp_bcast, &resource_dlbu, &resource_bcast);
+ if (_MALI_OSK_ERR_OK != err) {
+ return err;
+ }
+ }
+
+ mali_max_pp_cores_group_1 = mali_inited_pp_cores_group_1;
+ mali_max_pp_cores_group_2 = mali_inited_pp_cores_group_2;
+ MALI_DEBUG_PRINT(2, ("%d+%d PP cores initialized\n", mali_inited_pp_cores_group_1, mali_inited_pp_cores_group_2));
+
+ return _MALI_OSK_ERR_OK;
+}
+
+static _mali_osk_errcode_t mali_check_shared_interrupts(void)
+{
+#if !defined(CONFIG_MALI_SHARED_INTERRUPTS)
+ if (MALI_TRUE == _mali_osk_shared_interrupts()) {
+ MALI_PRINT_ERROR(("Shared interrupts detected, but driver support is not enabled\n"));
+ return _MALI_OSK_ERR_FAULT;
+ }
+#endif /* !defined(CONFIG_MALI_SHARED_INTERRUPTS) */
+
+ /* It is OK to compile support for shared interrupts even if Mali is not using it. */
+ return _MALI_OSK_ERR_OK;
+}
+
+static _mali_osk_errcode_t mali_create_pm_domains(void)
+{
+ int i;
+
+ for (i = 0; i < MALI_MAX_NUMBER_OF_DOMAINS; i++) {
+ if (0x0 == mali_pmu_get_domain_mask(i)) continue;
+
+ if (NULL == mali_pm_domain_create(mali_pmu_get_domain_mask(i))) {
+ return _MALI_OSK_ERR_NOMEM;
+ }
+ }
+
+ return _MALI_OSK_ERR_OK;
+}
+
+static void mali_use_default_pm_domain_config(void)
+{
+ u32 pp_count_gr1 = 0;
+ u32 pp_count_gr2 = 0;
+ u32 l2_count = 0;
+
+ MALI_DEBUG_ASSERT(0 != global_gpu_base_address);
+
+ /* GP core */
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x00000, NULL)) {
+ mali_pmu_set_domain_mask(MALI_GP_DOMAIN_INDEX, 0x01);
+ }
+
+ /* PP0 - PP3 core */
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x08000, NULL)) {
+ ++pp_count_gr1;
+
+ if (mali_is_mali400()) {
+ mali_pmu_set_domain_mask(MALI_PP0_DOMAIN_INDEX, 0x01<<2);
+ } else if (mali_is_mali450()) {
+ mali_pmu_set_domain_mask(MALI_PP0_DOMAIN_INDEX, 0x01<<1);
+ }
+ }
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x0A000, NULL)) {
+ ++pp_count_gr1;
+
+ if (mali_is_mali400()) {
+ mali_pmu_set_domain_mask(MALI_PP1_DOMAIN_INDEX, 0x01<<3);
+ } else if (mali_is_mali450()) {
+ mali_pmu_set_domain_mask(MALI_PP1_DOMAIN_INDEX, 0x01<<2);
+ }
+ }
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x0C000, NULL)) {
+ ++pp_count_gr1;
+
+ if (mali_is_mali400()) {
+ mali_pmu_set_domain_mask(MALI_PP2_DOMAIN_INDEX, 0x01<<4);
+ } else if (mali_is_mali450()) {
+ mali_pmu_set_domain_mask(MALI_PP2_DOMAIN_INDEX, 0x01<<2);
+ }
+ }
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x0E000, NULL)) {
+ ++pp_count_gr1;
+
+ if (mali_is_mali400()) {
+ mali_pmu_set_domain_mask(MALI_PP3_DOMAIN_INDEX, 0x01<<5);
+ } else if (mali_is_mali450()) {
+ mali_pmu_set_domain_mask(MALI_PP3_DOMAIN_INDEX, 0x01<<2);
+ }
+ }
+
+ /* PP4 - PP7 */
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x28000, NULL)) {
+ ++pp_count_gr2;
+
+ mali_pmu_set_domain_mask(MALI_PP4_DOMAIN_INDEX, 0x01<<3);
+ }
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x2A000, NULL)) {
+ ++pp_count_gr2;
+
+ mali_pmu_set_domain_mask(MALI_PP5_DOMAIN_INDEX, 0x01<<3);
+ }
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x2C000, NULL)) {
+ ++pp_count_gr2;
+
+ mali_pmu_set_domain_mask(MALI_PP6_DOMAIN_INDEX, 0x01<<3);
+ }
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x2E000, NULL)) {
+ ++pp_count_gr2;
+
+ mali_pmu_set_domain_mask(MALI_PP7_DOMAIN_INDEX, 0x01<<3);
+ }
+
+ /* L2gp/L2PP0/L2PP4 */
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x10000, NULL)) {
+ ++l2_count;
+
+ if (mali_is_mali400()) {
+ mali_pmu_set_domain_mask(MALI_L20_DOMAIN_INDEX, 0x01<<1);
+ } else if (mali_is_mali450()) {
+ mali_pmu_set_domain_mask(MALI_L20_DOMAIN_INDEX, 0x01<<0);
+ }
+ }
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x1000, NULL)) {
+ ++l2_count;
+
+ mali_pmu_set_domain_mask(MALI_L21_DOMAIN_INDEX, 0x01<<1);
+ }
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x11000, NULL)) {
+ ++l2_count;
+
+ mali_pmu_set_domain_mask(MALI_L22_DOMAIN_INDEX, 0x01<<3);
+ }
+
+ MALI_DEBUG_PRINT(2, ("Using default PMU domain config: (%d) gr1_pp_cores, (%d) gr2_pp_cores, (%d) l2_count. \n", pp_count_gr1, pp_count_gr2, l2_count));
+}
+
+static void mali_set_pmu_global_domain_config(void)
+{
+ struct _mali_osk_device_data data = { 0, };
+ int i = 0;
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_device_data_get(&data)) {
+ /* Check whether has customized pmu domain configure */
+ for (i = 0; i < MALI_MAX_NUMBER_OF_DOMAINS; i++) {
+ if (0 != data.pmu_domain_config[i]) break;
+ }
+
+ if (MALI_MAX_NUMBER_OF_DOMAINS == i) {
+ mali_use_default_pm_domain_config();
+ } else {
+ /* Copy the customer config to global config */
+ mali_pmu_copy_domain_mask(data.pmu_domain_config, sizeof(data.pmu_domain_config));
+ }
+ }
+}
+
+static _mali_osk_errcode_t mali_parse_config_pmu(void)
+{
+ _mali_osk_resource_t resource_pmu;
+
+ MALI_DEBUG_ASSERT(0 != global_gpu_base_address);
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x02000, &resource_pmu)) {
+ struct mali_pmu_core *pmu;
+
+ mali_set_pmu_global_domain_config();
+
+ pmu = mali_pmu_create(&resource_pmu);
+ if (NULL == pmu) {
+ MALI_PRINT_ERROR(("Failed to create PMU\n"));
+ return _MALI_OSK_ERR_FAULT;
+ }
+ }
+
+ /* It's ok if the PMU doesn't exist */
+ return _MALI_OSK_ERR_OK;
+}
+/*extern u32 ddr_get_cap(void);*/
+static _mali_osk_errcode_t mali_parse_config_dma(void)
+{
+ _mali_osk_resource_t resource_dma;
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_resource_find(global_gpu_base_address + 0x12000, &resource_dma)) {
+ if (NULL == mali_dma_create(&resource_dma)) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+ return _MALI_OSK_ERR_OK;
+ } else {
+ return _MALI_OSK_ERR_ITEM_NOT_FOUND;
+ }
+}
+
+static _mali_osk_errcode_t mali_parse_config_memory(void)
+{
+ _mali_osk_errcode_t ret;
+
+ if (0 == mali_dedicated_mem_start && 0 == mali_dedicated_mem_size && 0 == mali_shared_mem_size) {
+ /* Memory settings are not overridden by module parameters, so use device settings */
+ struct _mali_osk_device_data data = { 0, };
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_device_data_get(&data)) {
+ /* Use device specific settings (if defined) */
+ mali_dedicated_mem_start = data.dedicated_mem_start;
+ mali_dedicated_mem_size = data.dedicated_mem_size;
+/*
+ mali_shared_mem_size = data.shared_mem_size;
+*/
+ mali_shared_mem_size = totalram_pages * 4 * 1024;
+ /*ddr_get_cap();*/
+ }
+
+ if (0 == mali_dedicated_mem_start && 0 == mali_dedicated_mem_size && 0 == mali_shared_mem_size) {
+ /* No GPU memory specified */
+ return _MALI_OSK_ERR_INVALID_ARGS;
+ }
+
+ MALI_DEBUG_PRINT(2, ("Using device defined memory settings (dedicated: 0x%08X@0x%08X, shared: 0x%08X)\n",
+ mali_dedicated_mem_size, mali_dedicated_mem_start, mali_shared_mem_size));
+ } else {
+ MALI_DEBUG_PRINT(2, ("Using module defined memory settings (dedicated: 0x%08X@0x%08X, shared: 0x%08X)\n",
+ mali_dedicated_mem_size, mali_dedicated_mem_start, mali_shared_mem_size));
+ }
+
+ if (0 < mali_dedicated_mem_size && 0 != mali_dedicated_mem_start) {
+ /* Dedicated memory */
+ ret = mali_memory_core_resource_dedicated_memory(mali_dedicated_mem_start, mali_dedicated_mem_size);
+ if (_MALI_OSK_ERR_OK != ret) {
+ MALI_PRINT_ERROR(("Failed to register dedicated memory\n"));
+ mali_memory_terminate();
+ return ret;
+ }
+ }
+
+ if (0 < mali_shared_mem_size) {
+ /* Shared OS memory */
+ ret = mali_memory_core_resource_os_memory(mali_shared_mem_size);
+ if (_MALI_OSK_ERR_OK != ret) {
+ MALI_PRINT_ERROR(("Failed to register shared OS memory\n"));
+ mali_memory_terminate();
+ return ret;
+ }
+ }
+
+ if (0 == mali_fb_start && 0 == mali_fb_size) {
+ /* Frame buffer settings are not overridden by module parameters, so use device settings */
+ struct _mali_osk_device_data data = { 0, };
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_device_data_get(&data)) {
+ /* Use device specific settings (if defined) */
+ mali_fb_start = data.fb_start;
+ mali_fb_size = data.fb_size;
+ }
+
+ MALI_DEBUG_PRINT(2, ("Using device defined frame buffer settings (0x%08X@0x%08X)\n",
+ mali_fb_size, mali_fb_start));
+ } else {
+ MALI_DEBUG_PRINT(2, ("Using module defined frame buffer settings (0x%08X@0x%08X)\n",
+ mali_fb_size, mali_fb_start));
+ }
+
+ if (0 != mali_fb_size) {
+ /* Register frame buffer */
+ ret = mali_mem_validation_add_range(mali_fb_start, mali_fb_size);
+ if (_MALI_OSK_ERR_OK != ret) {
+ MALI_PRINT_ERROR(("Failed to register frame buffer memory region\n"));
+ mali_memory_terminate();
+ return ret;
+ }
+ }
+
+ return _MALI_OSK_ERR_OK;
+}
+
+static void mali_detect_gpu_class(void)
+{
+ u32 number_of_pp_cores = 0;
+ u32 number_of_l2_caches = 0;
+
+ mali_resource_count(&number_of_pp_cores, &number_of_l2_caches);
+ if (number_of_l2_caches > 1) {
+ mali_gpu_class_is_mali450 = MALI_TRUE;
+ }
+}
+
+_mali_osk_errcode_t mali_initialize_subsystems(void)
+{
+ _mali_osk_errcode_t err;
+ struct mali_pmu_core *pmu;
+
+ mali_pp_job_initialize();
+
+ err = mali_session_initialize();
+ if (_MALI_OSK_ERR_OK != err) goto session_init_failed;
+
+#if defined(CONFIG_MALI400_PROFILING)
+ err = _mali_osk_profiling_init(mali_boot_profiling ? MALI_TRUE : MALI_FALSE);
+ if (_MALI_OSK_ERR_OK != err) {
+ /* No biggie if we weren't able to initialize the profiling */
+ MALI_PRINT_ERROR(("Failed to initialize profiling, feature will be unavailable\n"));
+ }
+#endif
+
+ err = mali_memory_initialize();
+ if (_MALI_OSK_ERR_OK != err) goto memory_init_failed;
+
+ /* Configure memory early. Memory allocation needed for mali_mmu_initialize. */
+ err = mali_parse_config_memory();
+ if (_MALI_OSK_ERR_OK != err) goto parse_memory_config_failed;
+
+ err = mali_set_global_gpu_base_address();
+ if (_MALI_OSK_ERR_OK != err) goto set_global_gpu_base_address_failed;
+
+ /* Detect gpu class according to l2 cache number */
+ mali_detect_gpu_class();
+
+ err = mali_check_shared_interrupts();
+ if (_MALI_OSK_ERR_OK != err) goto check_shared_interrupts_failed;
+
+ err = mali_pp_scheduler_initialize();
+ if (_MALI_OSK_ERR_OK != err) goto pp_scheduler_init_failed;
+
+ /* Initialize the power management module */
+ err = mali_pm_initialize();
+ if (_MALI_OSK_ERR_OK != err) goto pm_init_failed;
+
+ /* Initialize the MALI PMU */
+ err = mali_parse_config_pmu();
+ if (_MALI_OSK_ERR_OK != err) goto parse_pmu_config_failed;
+
+ /* Make sure the power stays on for the rest of this function */
+ err = _mali_osk_pm_dev_ref_add();
+ if (_MALI_OSK_ERR_OK != err) goto pm_always_on_failed;
+
+ /*
+ * If run-time PM is used, then the mali_pm module has now already been
+ * notified that the power now is on (through the resume callback functions).
+ * However, if run-time PM is not used, then there will probably not be any
+ * calls to the resume callback functions, so we need to explicitly tell it
+ * that the power is on.
+ */
+ mali_pm_set_power_is_on();
+
+ /* Reset PMU HW and ensure all Mali power domains are on */
+ pmu = mali_pmu_get_global_pmu_core();
+ if (NULL != pmu) {
+ err = mali_pmu_reset(pmu);
+ if (_MALI_OSK_ERR_OK != err) goto pmu_reset_failed;
+ }
+
+ /* Detect which Mali GPU we are dealing with */
+ err = mali_parse_product_info();
+ if (_MALI_OSK_ERR_OK != err) goto product_info_parsing_failed;
+
+ /* The global_product_id is now populated with the correct Mali GPU */
+
+ /* Create PM domains only if PMU exists */
+ if (NULL != pmu) {
+ err = mali_create_pm_domains();
+ if (_MALI_OSK_ERR_OK != err) goto pm_domain_failed;
+ }
+
+ /* Initialize MMU module */
+ err = mali_mmu_initialize();
+ if (_MALI_OSK_ERR_OK != err) goto mmu_init_failed;
+
+ if (mali_is_mali450()) {
+ err = mali_dlbu_initialize();
+ if (_MALI_OSK_ERR_OK != err) goto dlbu_init_failed;
+
+ err = mali_parse_config_dma();
+ if (_MALI_OSK_ERR_OK != err) goto dma_parsing_failed;
+ }
+
+ /* Start configuring the actual Mali hardware. */
+ err = mali_parse_config_l2_cache();
+ if (_MALI_OSK_ERR_OK != err) goto config_parsing_failed;
+ err = mali_parse_config_groups();
+ if (_MALI_OSK_ERR_OK != err) goto config_parsing_failed;
+
+ /* Initialize the schedulers */
+ err = mali_scheduler_initialize();
+ if (_MALI_OSK_ERR_OK != err) goto scheduler_init_failed;
+ err = mali_gp_scheduler_initialize();
+ if (_MALI_OSK_ERR_OK != err) goto gp_scheduler_init_failed;
+
+ /* PP scheduler population can't fail */
+ mali_pp_scheduler_populate();
+
+ /* Initialize the GPU utilization tracking */
+ err = mali_utilization_init();
+ if (_MALI_OSK_ERR_OK != err) goto utilization_init_failed;
+
+ /* Allowing the system to be turned off */
+ _mali_osk_pm_dev_ref_dec();
+
+ MALI_SUCCESS; /* all ok */
+
+ /* Error handling */
+
+utilization_init_failed:
+ mali_pp_scheduler_depopulate();
+ mali_gp_scheduler_terminate();
+gp_scheduler_init_failed:
+ mali_scheduler_terminate();
+scheduler_init_failed:
+config_parsing_failed:
+ mali_delete_groups(); /* Delete any groups not (yet) owned by a scheduler */
+ mali_delete_l2_cache_cores(); /* Delete L2 cache cores even if config parsing failed. */
+ {
+ struct mali_dma_core *dma = mali_dma_get_global_dma_core();
+ if (NULL != dma) mali_dma_delete(dma);
+ }
+dma_parsing_failed:
+ mali_dlbu_terminate();
+dlbu_init_failed:
+ mali_mmu_terminate();
+mmu_init_failed:
+ mali_pm_domain_terminate();
+pm_domain_failed:
+ /* Nothing to roll back */
+product_info_parsing_failed:
+ /* Nothing to roll back */
+pmu_reset_failed:
+ /* Allowing the system to be turned off */
+ _mali_osk_pm_dev_ref_dec();
+pm_always_on_failed:
+ pmu = mali_pmu_get_global_pmu_core();
+ if (NULL != pmu) {
+ mali_pmu_delete(pmu);
+ }
+parse_pmu_config_failed:
+ mali_pm_terminate();
+pm_init_failed:
+ mali_pp_scheduler_terminate();
+pp_scheduler_init_failed:
+check_shared_interrupts_failed:
+ global_gpu_base_address = 0;
+set_global_gpu_base_address_failed:
+ /* undoing mali_parse_config_memory() is done by mali_memory_terminate() */
+parse_memory_config_failed:
+ mali_memory_terminate();
+memory_init_failed:
+#if defined(CONFIG_MALI400_PROFILING)
+ _mali_osk_profiling_term();
+#endif
+ mali_session_terminate();
+session_init_failed:
+ mali_pp_job_terminate();
+ return err;
+}
+
+void mali_terminate_subsystems(void)
+{
+ struct mali_pmu_core *pmu = mali_pmu_get_global_pmu_core();
+ struct mali_dma_core *dma = mali_dma_get_global_dma_core();
+
+ MALI_DEBUG_PRINT(2, ("terminate_subsystems() called\n"));
+
+ /* shut down subsystems in reverse order from startup */
+
+ /* We need the GPU to be powered up for the terminate sequence */
+ _mali_osk_pm_dev_ref_add();
+
+ mali_utilization_term();
+ mali_pp_scheduler_depopulate();
+ mali_gp_scheduler_terminate();
+ mali_scheduler_terminate();
+ mali_delete_l2_cache_cores();
+ if (mali_is_mali450()) {
+ mali_dlbu_terminate();
+ }
+ mali_mmu_terminate();
+ if (NULL != pmu) {
+ mali_pmu_delete(pmu);
+ }
+ if (NULL != dma) {
+ mali_dma_delete(dma);
+ }
+ mali_pm_terminate();
+ mali_memory_terminate();
+#if defined(CONFIG_MALI400_PROFILING)
+ _mali_osk_profiling_term();
+#endif
+
+ /* Allowing the system to be turned off */
+ _mali_osk_pm_dev_ref_dec();
+
+ mali_pp_scheduler_terminate();
+ mali_session_terminate();
+
+ mali_pp_job_terminate();
+}
+
+_mali_product_id_t mali_kernel_core_get_product_id(void)
+{
+ return global_product_id;
+}
+
+u32 mali_kernel_core_get_gpu_major_version(void)
+{
+ return global_gpu_major_version;
+}
+
+u32 mali_kernel_core_get_gpu_minor_version(void)
+{
+ return global_gpu_minor_version;
+}
+
+_mali_osk_errcode_t _mali_ukk_get_api_version( _mali_uk_get_api_version_s *args )
+{
+ MALI_DEBUG_ASSERT_POINTER(args);
+ MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS);
+
+ /* check compatability */
+ if ( args->version == _MALI_UK_API_VERSION ) {
+ args->compatible = 1;
+ } else {
+ args->compatible = 0;
+ }
+
+ args->version = _MALI_UK_API_VERSION; /* report our version */
+
+ /* success regardless of being compatible or not */
+ MALI_SUCCESS;
+}
+
+_mali_osk_errcode_t _mali_ukk_wait_for_notification( _mali_uk_wait_for_notification_s *args )
+{
+ _mali_osk_errcode_t err;
+ _mali_osk_notification_t * notification;
+ _mali_osk_notification_queue_t *queue;
+
+ /* check input */
+ MALI_DEBUG_ASSERT_POINTER(args);
+ MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS);
+
+ queue = ((struct mali_session_data *)args->ctx)->ioctl_queue;
+
+ /* if the queue does not exist we're currently shutting down */
+ if (NULL == queue) {
+ MALI_DEBUG_PRINT(1, ("No notification queue registered with the session. Asking userspace to stop querying\n"));
+ args->type = _MALI_NOTIFICATION_CORE_SHUTDOWN_IN_PROGRESS;
+ MALI_SUCCESS;
+ }
+
+ /* receive a notification, might sleep */
+ err = _mali_osk_notification_queue_receive(queue, ¬ification);
+ if (_MALI_OSK_ERR_OK != err) {
+ MALI_ERROR(err); /* errcode returned, pass on to caller */
+ }
+
+ /* copy the buffer to the user */
+ args->type = (_mali_uk_notification_type)notification->notification_type;
+ _mali_osk_memcpy(&args->data, notification->result_buffer, notification->result_buffer_size);
+
+ /* finished with the notification */
+ _mali_osk_notification_delete( notification );
+
+ MALI_SUCCESS; /* all ok */
+}
+
+_mali_osk_errcode_t _mali_ukk_post_notification( _mali_uk_post_notification_s *args )
+{
+ _mali_osk_notification_t * notification;
+ _mali_osk_notification_queue_t *queue;
+
+ /* check input */
+ MALI_DEBUG_ASSERT_POINTER(args);
+ MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS);
+
+ queue = ((struct mali_session_data *)args->ctx)->ioctl_queue;
+
+ /* if the queue does not exist we're currently shutting down */
+ if (NULL == queue) {
+ MALI_DEBUG_PRINT(1, ("No notification queue registered with the session. Asking userspace to stop querying\n"));
+ MALI_SUCCESS;
+ }
+
+ notification = _mali_osk_notification_create(args->type, 0);
+ if (NULL == notification) {
+ MALI_PRINT_ERROR( ("Failed to create notification object\n"));
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ _mali_osk_notification_queue_send(queue, notification);
+
+ MALI_SUCCESS; /* all ok */
+}
+
+_mali_osk_errcode_t _mali_ukk_request_high_priority( _mali_uk_request_high_priority_s *args )
+{
+ struct mali_session_data *session;
+
+ MALI_DEBUG_ASSERT_POINTER(args);
+ MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS);
+
+ session = (struct mali_session_data *) args->ctx;
+
+ if (!session->use_high_priority_job_queue) {
+ session->use_high_priority_job_queue = MALI_TRUE;
+ MALI_DEBUG_PRINT(2, ("Session 0x%08X with pid %d was granted higher priority.\n", session, _mali_osk_get_pid()));
+ }
+
+ MALI_SUCCESS;
+}
+
+_mali_osk_errcode_t _mali_ukk_open(void **context)
+{
+ u32 i;
+ struct mali_session_data *session;
+
+ /* allocated struct to track this session */
+ session = (struct mali_session_data *)_mali_osk_calloc(1, sizeof(struct mali_session_data));
+ MALI_CHECK_NON_NULL(session, _MALI_OSK_ERR_NOMEM);
+
+ MALI_DEBUG_PRINT(3, ("Session starting\n"));
+
+ /* create a response queue for this session */
+ session->ioctl_queue = _mali_osk_notification_queue_init();
+ if (NULL == session->ioctl_queue) {
+ _mali_osk_free(session);
+ MALI_ERROR(_MALI_OSK_ERR_NOMEM);
+ }
+
+ session->page_directory = mali_mmu_pagedir_alloc();
+ if (NULL == session->page_directory) {
+ _mali_osk_notification_queue_term(session->ioctl_queue);
+ _mali_osk_free(session);
+ MALI_ERROR(_MALI_OSK_ERR_NOMEM);
+ }
+
+ if (_MALI_OSK_ERR_OK != mali_mmu_pagedir_map(session->page_directory, MALI_DLBU_VIRT_ADDR, _MALI_OSK_MALI_PAGE_SIZE)) {
+ MALI_PRINT_ERROR(("Failed to map DLBU page into session\n"));
+ _mali_osk_notification_queue_term(session->ioctl_queue);
+ _mali_osk_free(session);
+ MALI_ERROR(_MALI_OSK_ERR_NOMEM);
+ }
+
+ if (0 != mali_dlbu_phys_addr) {
+ mali_mmu_pagedir_update(session->page_directory, MALI_DLBU_VIRT_ADDR, mali_dlbu_phys_addr,
+ _MALI_OSK_MALI_PAGE_SIZE, MALI_MMU_FLAGS_DEFAULT);
+ }
+
+ if (_MALI_OSK_ERR_OK != mali_memory_session_begin(session)) {
+ mali_mmu_pagedir_free(session->page_directory);
+ _mali_osk_notification_queue_term(session->ioctl_queue);
+ _mali_osk_free(session);
+ MALI_ERROR(_MALI_OSK_ERR_NOMEM);
+ }
+
+ /* Create soft system. */
+ session->soft_job_system = mali_soft_job_system_create(session);
+ if (NULL == session->soft_job_system) {
+ mali_memory_session_end(session);
+ mali_mmu_pagedir_free(session->page_directory);
+ _mali_osk_notification_queue_term(session->ioctl_queue);
+ _mali_osk_free(session);
+ MALI_ERROR(_MALI_OSK_ERR_NOMEM);
+ }
+
+ /* Create timeline system. */
+ session->timeline_system = mali_timeline_system_create(session);
+ if (NULL == session->timeline_system) {
+ mali_soft_job_system_destroy(session->soft_job_system);
+ mali_memory_session_end(session);
+ mali_mmu_pagedir_free(session->page_directory);
+ _mali_osk_notification_queue_term(session->ioctl_queue);
+ _mali_osk_free(session);
+ MALI_ERROR(_MALI_OSK_ERR_NOMEM);
+ }
+
+#if defined(CONFIG_MALI400_POWER_PERFORMANCE_POLICY)
+ if ( _MALI_OSK_ERR_OK != _mali_osk_atomic_init(&session->number_of_window_jobs, 0)) {
+ MALI_DEBUG_PRINT_ERROR(("Initialization of atomic number_of_window_jobs failed.\n"));
+ mali_timeline_system_destroy(session->timeline_system);
+ mali_soft_job_system_destroy(session->soft_job_system);
+ mali_memory_session_end(session);
+ mali_mmu_pagedir_free(session->page_directory);
+ _mali_osk_notification_queue_term(session->ioctl_queue);
+ _mali_osk_free(session);
+ return _MALI_OSK_ERR_FAULT;
+ }
+#endif
+
+ session->use_high_priority_job_queue = MALI_FALSE;
+
+ /* Initialize list of PP jobs on this session. */
+ _MALI_OSK_INIT_LIST_HEAD(&session->pp_job_list);
+
+ /* Initialize the pp_job_fb_lookup_list array used to quickly lookup jobs from a given frame builder */
+ for (i = 0; i < MALI_PP_JOB_FB_LOOKUP_LIST_SIZE; ++i) {
+ _MALI_OSK_INIT_LIST_HEAD(&session->pp_job_fb_lookup_list[i]);
+ }
+
+ *context = (void*)session;
+
+ /* Add session to the list of all sessions. */
+ mali_session_add(session);
+
+ MALI_DEBUG_PRINT(2, ("Session started\n"));
+ MALI_SUCCESS;
+}
+
+_mali_osk_errcode_t _mali_ukk_close(void **context)
+{
+ struct mali_session_data *session;
+ MALI_CHECK_NON_NULL(context, _MALI_OSK_ERR_INVALID_ARGS);
+ session = (struct mali_session_data *)*context;
+
+ MALI_DEBUG_PRINT(3, ("Session ending\n"));
+
+ MALI_DEBUG_ASSERT_POINTER(session->soft_job_system);
+ MALI_DEBUG_ASSERT_POINTER(session->timeline_system);
+
+ /* Remove session from list of all sessions. */
+ mali_session_remove(session);
+
+ /* This flag is used to prevent queueing of jobs due to activation. */
+ session->is_aborting = MALI_TRUE;
+
+ /* Stop the soft job timer. */
+ mali_timeline_system_stop_timer(session->timeline_system);
+
+ /* Abort queued and running GP and PP jobs. */
+ mali_gp_scheduler_abort_session(session);
+ mali_pp_scheduler_abort_session(session);
+
+ /* Abort the soft job system. */
+ mali_soft_job_system_abort(session->soft_job_system);
+
+ /* Force execution of all pending bottom half processing for GP and PP. */
+ _mali_osk_wq_flush();
+
+ /* The session PP list should now be empty. */
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(&session->pp_job_list));
+
+ /* At this point the GP and PP scheduler no longer has any jobs queued or running from this
+ * session, and all soft jobs in the soft job system has been destroyed. */
+
+ /* Any trackers left in the timeline system are directly or indirectly waiting on external
+ * sync fences. Cancel all sync fence waiters to trigger activation of all remaining
+ * trackers. This call will sleep until all timelines are empty. */
+ mali_timeline_system_abort(session->timeline_system);
+
+ /* Flush pending work.
+ * Needed to make sure all bottom half processing related to this
+ * session has been completed, before we free internal data structures.
+ */
+ _mali_osk_wq_flush();
+
+ /* Destroy timeline system. */
+ mali_timeline_system_destroy(session->timeline_system);
+ session->timeline_system = NULL;
+
+ /* Destroy soft system. */
+ mali_soft_job_system_destroy(session->soft_job_system);
+ session->soft_job_system = NULL;
+
+ MALI_DEBUG_CODE( {
+ /* Check that the pp_job_fb_lookup_list array is empty. */
+ u32 i;
+ for (i = 0; i < MALI_PP_JOB_FB_LOOKUP_LIST_SIZE; ++i)
+ {
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(&session->pp_job_fb_lookup_list[i]));
+ }
+ });
+
+ /* Free remaining memory allocated to this session */
+ mali_memory_session_end(session);
+
+#if defined(CONFIG_MALI400_POWER_PERFORMANCE_POLICY)
+ _mali_osk_atomic_term(&session->number_of_window_jobs);
+#endif
+
+ /* Free session data structures */
+ mali_mmu_pagedir_free(session->page_directory);
+ _mali_osk_notification_queue_term(session->ioctl_queue);
+ _mali_osk_free(session);
+
+ *context = NULL;
+
+ MALI_DEBUG_PRINT(2, ("Session has ended\n"));
+
+ MALI_SUCCESS;
+}
+
+#if MALI_STATE_TRACKING
+u32 _mali_kernel_core_dump_state(char* buf, u32 size)
+{
+ int n = 0; /* Number of bytes written to buf */
+
+ n += mali_gp_scheduler_dump_state(buf + n, size - n);
+ n += mali_pp_scheduler_dump_state(buf + n, size - n);
+
+ return n;
+}
+#endif
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2007-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_KERNEL_CORE_H__
+#define __MALI_KERNEL_CORE_H__
+
+#include "mali_osk.h"
+
+typedef enum {
+ _MALI_PRODUCT_ID_UNKNOWN,
+ _MALI_PRODUCT_ID_MALI200,
+ _MALI_PRODUCT_ID_MALI300,
+ _MALI_PRODUCT_ID_MALI400,
+ _MALI_PRODUCT_ID_MALI450,
+} _mali_product_id_t;
+
+extern mali_bool mali_gpu_class_is_mali450;
+
+_mali_osk_errcode_t mali_initialize_subsystems(void);
+
+void mali_terminate_subsystems(void);
+
+_mali_product_id_t mali_kernel_core_get_product_id(void);
+
+u32 mali_kernel_core_get_gpu_major_version(void);
+
+u32 mali_kernel_core_get_gpu_minor_version(void);
+
+u32 _mali_kernel_core_dump_state(char* buf, u32 size);
+
+MALI_STATIC_INLINE mali_bool mali_is_mali450(void)
+{
+#if defined(CONFIG_MALI450)
+ return mali_gpu_class_is_mali450;
+#else
+ return MALI_FALSE;
+#endif
+}
+
+MALI_STATIC_INLINE mali_bool mali_is_mali400(void)
+{
+#if !defined(CONFIG_MALI450)
+ return MALI_TRUE;
+#else
+ return !mali_gpu_class_is_mali450;
+#endif
+}
+
+#endif /* __MALI_KERNEL_CORE_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2010, 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_kernel_common.h"
+#include "mali_kernel_descriptor_mapping.h"
+#include "mali_osk.h"
+#include "mali_osk_bitops.h"
+
+#define MALI_PAD_INT(x) (((x) + (BITS_PER_LONG - 1)) & ~(BITS_PER_LONG - 1))
+
+/**
+ * Allocate a descriptor table capable of holding 'count' mappings
+ * @param count Number of mappings in the table
+ * @return Pointer to a new table, NULL on error
+ */
+static mali_descriptor_table * descriptor_table_alloc(int count);
+
+/**
+ * Free a descriptor table
+ * @param table The table to free
+ */
+static void descriptor_table_free(mali_descriptor_table * table);
+
+mali_descriptor_mapping * mali_descriptor_mapping_create(int init_entries, int max_entries)
+{
+ mali_descriptor_mapping * map = _mali_osk_calloc(1, sizeof(mali_descriptor_mapping));
+
+ init_entries = MALI_PAD_INT(init_entries);
+ max_entries = MALI_PAD_INT(max_entries);
+
+ if (NULL != map) {
+ map->table = descriptor_table_alloc(init_entries);
+ if (NULL != map->table) {
+ map->lock = _mali_osk_mutex_rw_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_DESCRIPTOR_MAP);
+ if (NULL != map->lock) {
+ _mali_osk_set_nonatomic_bit(0, map->table->usage); /* reserve bit 0 to prevent NULL/zero logic to kick in */
+ map->max_nr_mappings_allowed = max_entries;
+ map->current_nr_mappings = init_entries;
+ return map;
+ }
+ descriptor_table_free(map->table);
+ }
+ _mali_osk_free(map);
+ }
+ return NULL;
+}
+
+void mali_descriptor_mapping_destroy(mali_descriptor_mapping * map)
+{
+ descriptor_table_free(map->table);
+ _mali_osk_mutex_rw_term(map->lock);
+ _mali_osk_free(map);
+}
+
+_mali_osk_errcode_t mali_descriptor_mapping_allocate_mapping(mali_descriptor_mapping * map, void * target, int *odescriptor)
+{
+ _mali_osk_errcode_t err = _MALI_OSK_ERR_FAULT;
+ int new_descriptor;
+
+ MALI_DEBUG_ASSERT_POINTER(map);
+ MALI_DEBUG_ASSERT_POINTER(odescriptor);
+
+ _mali_osk_mutex_rw_wait(map->lock, _MALI_OSK_LOCKMODE_RW);
+ new_descriptor = _mali_osk_find_first_zero_bit(map->table->usage, map->current_nr_mappings);
+ if (new_descriptor == map->current_nr_mappings) {
+ /* no free descriptor, try to expand the table */
+ mali_descriptor_table * new_table, * old_table;
+ if (map->current_nr_mappings >= map->max_nr_mappings_allowed) goto unlock_and_exit;
+
+ map->current_nr_mappings += BITS_PER_LONG;
+ new_table = descriptor_table_alloc(map->current_nr_mappings);
+ if (NULL == new_table) goto unlock_and_exit;
+
+ old_table = map->table;
+ _mali_osk_memcpy(new_table->usage, old_table->usage, (sizeof(unsigned long)*map->current_nr_mappings) / BITS_PER_LONG);
+ _mali_osk_memcpy(new_table->mappings, old_table->mappings, map->current_nr_mappings * sizeof(void*));
+ map->table = new_table;
+ descriptor_table_free(old_table);
+ }
+
+ /* we have found a valid descriptor, set the value and usage bit */
+ _mali_osk_set_nonatomic_bit(new_descriptor, map->table->usage);
+ map->table->mappings[new_descriptor] = target;
+ *odescriptor = new_descriptor;
+ err = _MALI_OSK_ERR_OK;
+
+unlock_and_exit:
+ _mali_osk_mutex_rw_signal(map->lock, _MALI_OSK_LOCKMODE_RW);
+ MALI_ERROR(err);
+}
+
+void mali_descriptor_mapping_call_for_each(mali_descriptor_mapping * map, void (*callback)(int, void*))
+{
+ int i;
+
+ MALI_DEBUG_ASSERT_POINTER(map);
+ MALI_DEBUG_ASSERT_POINTER(callback);
+
+ _mali_osk_mutex_rw_wait(map->lock, _MALI_OSK_LOCKMODE_RO);
+ /* id 0 is skipped as it's an reserved ID not mapping to anything */
+ for (i = 1; i < map->current_nr_mappings; ++i) {
+ if (_mali_osk_test_bit(i, map->table->usage)) {
+ callback(i, map->table->mappings[i]);
+ }
+ }
+ _mali_osk_mutex_rw_signal(map->lock, _MALI_OSK_LOCKMODE_RO);
+}
+
+_mali_osk_errcode_t mali_descriptor_mapping_get(mali_descriptor_mapping * map, int descriptor, void** target)
+{
+ _mali_osk_errcode_t result = _MALI_OSK_ERR_FAULT;
+ MALI_DEBUG_ASSERT_POINTER(map);
+ _mali_osk_mutex_rw_wait(map->lock, _MALI_OSK_LOCKMODE_RO);
+ if ( (descriptor >= 0) && (descriptor < map->current_nr_mappings) && _mali_osk_test_bit(descriptor, map->table->usage) ) {
+ *target = map->table->mappings[descriptor];
+ result = _MALI_OSK_ERR_OK;
+ } else *target = NULL;
+ _mali_osk_mutex_rw_signal(map->lock, _MALI_OSK_LOCKMODE_RO);
+ MALI_ERROR(result);
+}
+
+_mali_osk_errcode_t mali_descriptor_mapping_set(mali_descriptor_mapping * map, int descriptor, void * target)
+{
+ _mali_osk_errcode_t result = _MALI_OSK_ERR_FAULT;
+ _mali_osk_mutex_rw_wait(map->lock, _MALI_OSK_LOCKMODE_RO);
+ if ( (descriptor >= 0) && (descriptor < map->current_nr_mappings) && _mali_osk_test_bit(descriptor, map->table->usage) ) {
+ map->table->mappings[descriptor] = target;
+ result = _MALI_OSK_ERR_OK;
+ }
+ _mali_osk_mutex_rw_signal(map->lock, _MALI_OSK_LOCKMODE_RO);
+ MALI_ERROR(result);
+}
+
+void *mali_descriptor_mapping_free(mali_descriptor_mapping * map, int descriptor)
+{
+ void *old_value = NULL;
+
+ _mali_osk_mutex_rw_wait(map->lock, _MALI_OSK_LOCKMODE_RW);
+ if ( (descriptor >= 0) && (descriptor < map->current_nr_mappings) && _mali_osk_test_bit(descriptor, map->table->usage) ) {
+ old_value = map->table->mappings[descriptor];
+ map->table->mappings[descriptor] = NULL;
+ _mali_osk_clear_nonatomic_bit(descriptor, map->table->usage);
+ }
+ _mali_osk_mutex_rw_signal(map->lock, _MALI_OSK_LOCKMODE_RW);
+
+ return old_value;
+}
+
+static mali_descriptor_table * descriptor_table_alloc(int count)
+{
+ mali_descriptor_table * table;
+
+ table = _mali_osk_calloc(1, sizeof(mali_descriptor_table) + ((sizeof(unsigned long) * count)/BITS_PER_LONG) + (sizeof(void*) * count));
+
+ if (NULL != table) {
+ table->usage = (u32*)((u8*)table + sizeof(mali_descriptor_table));
+ table->mappings = (void**)((u8*)table + sizeof(mali_descriptor_table) + ((sizeof(unsigned long) * count)/BITS_PER_LONG));
+ }
+
+ return table;
+}
+
+static void descriptor_table_free(mali_descriptor_table * table)
+{
+ _mali_osk_free(table);
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2010, 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_kernel_descriptor_mapping.h
+ */
+
+#ifndef __MALI_KERNEL_DESCRIPTOR_MAPPING_H__
+#define __MALI_KERNEL_DESCRIPTOR_MAPPING_H__
+
+#include "mali_osk.h"
+
+/**
+ * The actual descriptor mapping table, never directly accessed by clients
+ */
+typedef struct mali_descriptor_table {
+ u32 * usage; /**< Pointer to bitpattern indicating if a descriptor is valid/used or not */
+ void** mappings; /**< Array of the pointers the descriptors map to */
+} mali_descriptor_table;
+
+/**
+ * The descriptor mapping object
+ * Provides a separate namespace where we can map an integer to a pointer
+ */
+typedef struct mali_descriptor_mapping {
+ _mali_osk_mutex_rw_t *lock; /**< Lock protecting access to the mapping object */
+ int max_nr_mappings_allowed; /**< Max number of mappings to support in this namespace */
+ int current_nr_mappings; /**< Current number of possible mappings */
+ mali_descriptor_table * table; /**< Pointer to the current mapping table */
+} mali_descriptor_mapping;
+
+/**
+ * Create a descriptor mapping object
+ * Create a descriptor mapping capable of holding init_entries growable to max_entries
+ * @param init_entries Number of entries to preallocate memory for
+ * @param max_entries Number of entries to max support
+ * @return Pointer to a descriptor mapping object, NULL on failure
+ */
+mali_descriptor_mapping * mali_descriptor_mapping_create(int init_entries, int max_entries);
+
+/**
+ * Destroy a descriptor mapping object
+ * @param map The map to free
+ */
+void mali_descriptor_mapping_destroy(mali_descriptor_mapping * map);
+
+/**
+ * Allocate a new mapping entry (descriptor ID)
+ * Allocates a new entry in the map.
+ * @param map The map to allocate a new entry in
+ * @param target The value to map to
+ * @return The descriptor allocated, a negative value on error
+ */
+_mali_osk_errcode_t mali_descriptor_mapping_allocate_mapping(mali_descriptor_mapping * map, void * target, int *descriptor);
+
+/**
+ * Get the value mapped to by a descriptor ID
+ * @param map The map to lookup the descriptor id in
+ * @param descriptor The descriptor ID to lookup
+ * @param target Pointer to a pointer which will receive the stored value
+ * @return 0 on successful lookup, negative on error
+ */
+_mali_osk_errcode_t mali_descriptor_mapping_get(mali_descriptor_mapping * map, int descriptor, void** target);
+
+/**
+ * Set the value mapped to by a descriptor ID
+ * @param map The map to lookup the descriptor id in
+ * @param descriptor The descriptor ID to lookup
+ * @param target Pointer to replace the current value with
+ * @return 0 on successful lookup, negative on error
+ */
+_mali_osk_errcode_t mali_descriptor_mapping_set(mali_descriptor_mapping * map, int descriptor, void * target);
+
+/**
+ * Call the specified callback function for each descriptor in map.
+ * Entire function is mutex protected.
+ * @param map The map to do callbacks for
+ * @param callback A callback function which will be calle for each entry in map
+ */
+void mali_descriptor_mapping_call_for_each(mali_descriptor_mapping * map, void (*callback)(int, void*));
+
+/**
+ * Free the descriptor ID
+ * For the descriptor to be reused it has to be freed
+ * @param map The map to free the descriptor from
+ * @param descriptor The descriptor ID to free
+ *
+ * @return old value of descriptor mapping
+ */
+void *mali_descriptor_mapping_free(mali_descriptor_mapping * map, int descriptor);
+
+#endif /* __MALI_KERNEL_DESCRIPTOR_MAPPING_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_kernel_utilization.h"
+#include "mali_osk.h"
+#include "mali_osk_mali.h"
+#include "mali_kernel_common.h"
+#include "mali_session.h"
+#include "mali_scheduler.h"
+
+/* Thresholds for GP bound detection. */
+#define MALI_GP_BOUND_GP_UTILIZATION_THRESHOLD 240
+#define MALI_GP_BOUND_PP_UTILIZATION_THRESHOLD 250
+
+/* Define how often to calculate and report GPU utilization, in milliseconds */
+static _mali_osk_spinlock_irq_t *time_data_lock;
+
+static u32 num_running_gp_cores;
+static u32 num_running_pp_cores;
+
+static u64 work_start_time_gpu = 0;
+static u64 work_start_time_gp = 0;
+static u64 work_start_time_pp = 0;
+static u64 accumulated_work_time_gpu = 0;
+static u64 accumulated_work_time_gp = 0;
+static u64 accumulated_work_time_pp = 0;
+
+static u64 period_start_time = 0;
+static _mali_osk_timer_t *utilization_timer = NULL;
+static mali_bool timer_running = MALI_FALSE;
+
+static u32 last_utilization_gpu = 0 ;
+static u32 last_utilization_gp = 0 ;
+static u32 last_utilization_pp = 0 ;
+
+extern u32 mali_utilization_timeout;
+void (*mali_utilization_callback)(struct mali_gpu_utilization_data *data) = NULL;
+#if defined(CONFIG_MALI400_POWER_PERFORMANCE_POLICY)
+extern void mali_power_performance_policy_callback(struct mali_gpu_utilization_data *data);
+#define NUMBER_OF_NANOSECONDS_PER_SECOND 1000000000ULL
+
+static u32 calculate_window_render_fps(u64 time_period)
+{
+ u32 max_window_number;
+ u64 tmp;
+ u64 max = time_period;
+ u32 leading_zeroes;
+ u32 shift_val;
+ u32 time_period_shift;
+ u32 max_window_number_shift;
+ u32 ret_val;
+
+ max_window_number = mali_session_max_window_num();
+ /* To avoid float division, extend the dividend to ns unit */
+ tmp = (u64)max_window_number * NUMBER_OF_NANOSECONDS_PER_SECOND;
+ if (tmp > time_period) {
+ max = tmp;
+ }
+
+ /*
+ * We may have 64-bit values, a dividend or a divisor or both
+ * To avoid dependencies to a 64-bit divider, we shift down the two values
+ * equally first.
+ */
+ leading_zeroes = _mali_osk_clz((u32)(max >> 32));
+ shift_val = 32 - leading_zeroes;
+
+ time_period_shift = (u32)(time_period >> shift_val);
+ max_window_number_shift = (u32)(tmp >> shift_val);
+
+ ret_val = max_window_number_shift / time_period_shift;
+
+ return ret_val;
+}
+#endif /* defined(CONFIG_MALI400_POWER_PERFORMANCE_POLICY) */
+
+static void calculate_gpu_utilization(void* arg)
+{
+ u64 time_now;
+ u64 time_period;
+ u32 leading_zeroes;
+ u32 shift_val;
+ u32 work_normalized_gpu;
+ u32 work_normalized_gp;
+ u32 work_normalized_pp;
+ u32 period_normalized;
+ u32 utilization_gpu;
+ u32 utilization_gp;
+ u32 utilization_pp;
+#if defined(CONFIG_MALI400_POWER_PERFORMANCE_POLICY)
+ u32 window_render_fps;
+#endif
+
+ _mali_osk_spinlock_irq_lock(time_data_lock);
+
+ if (accumulated_work_time_gpu == 0 && work_start_time_gpu == 0) {
+ /*
+ * No work done for this period
+ * - No need to reschedule timer
+ * - Report zero usage
+ */
+ timer_running = MALI_FALSE;
+
+ last_utilization_gpu = 0;
+ last_utilization_gp = 0;
+ last_utilization_pp = 0;
+
+ _mali_osk_spinlock_irq_unlock(time_data_lock);
+
+ if (NULL != mali_utilization_callback) {
+ struct mali_gpu_utilization_data data = { 0, };
+ mali_utilization_callback(&data);
+ }
+
+ mali_scheduler_hint_disable(MALI_SCHEDULER_HINT_GP_BOUND);
+
+ return;
+ }
+
+ time_now = _mali_osk_time_get_ns();
+
+ time_period = time_now - period_start_time;
+
+ /* If we are currently busy, update working period up to now */
+ if (work_start_time_gpu != 0) {
+ accumulated_work_time_gpu += (time_now - work_start_time_gpu);
+ work_start_time_gpu = time_now;
+
+ /* GP and/or PP will also be busy if the GPU is busy at this point */
+
+ if (work_start_time_gp != 0) {
+ accumulated_work_time_gp += (time_now - work_start_time_gp);
+ work_start_time_gp = time_now;
+ }
+
+ if (work_start_time_pp != 0) {
+ accumulated_work_time_pp += (time_now - work_start_time_pp);
+ work_start_time_pp = time_now;
+ }
+ }
+
+ /*
+ * We have two 64-bit values, a dividend and a divisor.
+ * To avoid dependencies to a 64-bit divider, we shift down the two values
+ * equally first.
+ * We shift the dividend up and possibly the divisor down, making the result X in 256.
+ */
+
+ /* Shift the 64-bit values down so they fit inside a 32-bit integer */
+ leading_zeroes = _mali_osk_clz((u32)(time_period >> 32));
+ shift_val = 32 - leading_zeroes;
+ work_normalized_gpu = (u32)(accumulated_work_time_gpu >> shift_val);
+ work_normalized_gp = (u32)(accumulated_work_time_gp >> shift_val);
+ work_normalized_pp = (u32)(accumulated_work_time_pp >> shift_val);
+ period_normalized = (u32)(time_period >> shift_val);
+
+ /*
+ * Now, we should report the usage in parts of 256
+ * this means we must shift up the dividend or down the divisor by 8
+ * (we could do a combination, but we just use one for simplicity,
+ * but the end result should be good enough anyway)
+ */
+ if (period_normalized > 0x00FFFFFF) {
+ /* The divisor is so big that it is safe to shift it down */
+ period_normalized >>= 8;
+ } else {
+ /*
+ * The divisor is so small that we can shift up the dividend, without loosing any data.
+ * (dividend is always smaller than the divisor)
+ */
+ work_normalized_gpu <<= 8;
+ work_normalized_gp <<= 8;
+ work_normalized_pp <<= 8;
+ }
+
+ utilization_gpu = work_normalized_gpu / period_normalized;
+ utilization_gp = work_normalized_gp / period_normalized;
+ utilization_pp = work_normalized_pp / period_normalized;
+
+#if defined(CONFIG_MALI400_POWER_PERFORMANCE_POLICY)
+ window_render_fps = calculate_window_render_fps(time_period);
+#endif
+
+ last_utilization_gpu = utilization_gpu;
+ last_utilization_gp = utilization_gp;
+ last_utilization_pp = utilization_pp;
+
+ if ((MALI_GP_BOUND_GP_UTILIZATION_THRESHOLD < last_utilization_gp) &&
+ (MALI_GP_BOUND_PP_UTILIZATION_THRESHOLD > last_utilization_pp)) {
+ mali_scheduler_hint_enable(MALI_SCHEDULER_HINT_GP_BOUND);
+ } else {
+ mali_scheduler_hint_disable(MALI_SCHEDULER_HINT_GP_BOUND);
+ }
+
+ /* starting a new period */
+ accumulated_work_time_gpu = 0;
+ accumulated_work_time_gp = 0;
+ accumulated_work_time_pp = 0;
+ period_start_time = time_now;
+
+ _mali_osk_spinlock_irq_unlock(time_data_lock);
+
+ _mali_osk_timer_add(utilization_timer, _mali_osk_time_mstoticks(mali_utilization_timeout));
+
+ if (NULL != mali_utilization_callback) {
+ struct mali_gpu_utilization_data data = {
+ utilization_gpu, utilization_gp, utilization_pp,
+#if defined(CONFIG_MALI400_POWER_PERFORMANCE_POLICY)
+ window_render_fps, window_render_fps
+#endif
+ };
+ mali_utilization_callback(&data);
+ }
+}
+
+_mali_osk_errcode_t mali_utilization_init(void)
+{
+#if USING_GPU_UTILIZATION
+ struct _mali_osk_device_data data;
+ if (_MALI_OSK_ERR_OK == _mali_osk_device_data_get(&data)) {
+ /* Use device specific settings (if defined) */
+ if (0 != data.utilization_interval) {
+ mali_utilization_timeout = data.utilization_interval;
+ }
+ if (NULL != data.utilization_callback) {
+ mali_utilization_callback = data.utilization_callback;
+ MALI_DEBUG_PRINT(2, ("Mali GPU Utilization: Platform has it's own policy \n"));
+ MALI_DEBUG_PRINT(2, ("Mali GPU Utilization: Utilization handler installed with interval %u\n", mali_utilization_timeout));
+ }
+ }
+#endif
+
+#if defined(CONFIG_MALI400_POWER_PERFORMANCE_POLICY)
+ if (mali_utilization_callback == NULL) {
+ MALI_DEBUG_PRINT(2, ("Mali GPU Utilization: MALI Power Performance Policy Algorithm \n"));
+ mali_utilization_callback = mali_power_performance_policy_callback;
+ }
+#endif
+
+ if (NULL == mali_utilization_callback) {
+ MALI_DEBUG_PRINT(2, ("Mali GPU Utilization: No utilization handler installed\n"));
+ }
+
+ time_data_lock = _mali_osk_spinlock_irq_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_UTILIZATION);
+
+ if (NULL == time_data_lock) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ num_running_gp_cores = 0;
+ num_running_pp_cores = 0;
+
+ utilization_timer = _mali_osk_timer_init();
+ if (NULL == utilization_timer) {
+ _mali_osk_spinlock_irq_term(time_data_lock);
+ return _MALI_OSK_ERR_FAULT;
+ }
+ _mali_osk_timer_setcallback(utilization_timer, calculate_gpu_utilization, NULL);
+
+ return _MALI_OSK_ERR_OK;
+}
+
+void mali_utilization_suspend(void)
+{
+ _mali_osk_spinlock_irq_lock(time_data_lock);
+
+ if (timer_running == MALI_TRUE) {
+ timer_running = MALI_FALSE;
+ _mali_osk_spinlock_irq_unlock(time_data_lock);
+ _mali_osk_timer_del(utilization_timer);
+ return;
+ }
+
+ _mali_osk_spinlock_irq_unlock(time_data_lock);
+}
+
+void mali_utilization_term(void)
+{
+ if (NULL != utilization_timer) {
+ _mali_osk_timer_del(utilization_timer);
+ timer_running = MALI_FALSE;
+ _mali_osk_timer_term(utilization_timer);
+ utilization_timer = NULL;
+ }
+
+ _mali_osk_spinlock_irq_term(time_data_lock);
+}
+
+void mali_utilization_gp_start(void)
+{
+ _mali_osk_spinlock_irq_lock(time_data_lock);
+
+ ++num_running_gp_cores;
+ if (1 == num_running_gp_cores) {
+ u64 time_now = _mali_osk_time_get_ns();
+
+ /* First GP core started, consider GP busy from now and onwards */
+ work_start_time_gp = time_now;
+
+ if (0 == num_running_pp_cores) {
+ /*
+ * There are no PP cores running, so this is also the point
+ * at which we consider the GPU to be busy as well.
+ */
+ work_start_time_gpu = time_now;
+ }
+
+ /* Start a new period (and timer) if needed */
+ if (timer_running != MALI_TRUE) {
+ timer_running = MALI_TRUE;
+ period_start_time = time_now;
+
+ /* Clear session->number_of_window_jobs */
+#if defined(CONFIG_MALI400_POWER_PERFORMANCE_POLICY)
+ mali_session_max_window_num();
+#endif
+ _mali_osk_spinlock_irq_unlock(time_data_lock);
+
+ _mali_osk_timer_add(utilization_timer, _mali_osk_time_mstoticks(mali_utilization_timeout));
+ } else {
+ _mali_osk_spinlock_irq_unlock(time_data_lock);
+ }
+ } else {
+ /* Nothing to do */
+ _mali_osk_spinlock_irq_unlock(time_data_lock);
+ }
+}
+
+void mali_utilization_pp_start(void)
+{
+ _mali_osk_spinlock_irq_lock(time_data_lock);
+
+ ++num_running_pp_cores;
+ if (1 == num_running_pp_cores) {
+ u64 time_now = _mali_osk_time_get_ns();
+
+ /* First PP core started, consider PP busy from now and onwards */
+ work_start_time_pp = time_now;
+
+ if (0 == num_running_gp_cores) {
+ /*
+ * There are no GP cores running, so this is also the point
+ * at which we consider the GPU to be busy as well.
+ */
+ work_start_time_gpu = time_now;
+ }
+
+ /* Start a new period (and timer) if needed */
+ if (timer_running != MALI_TRUE) {
+ timer_running = MALI_TRUE;
+ period_start_time = time_now;
+
+ /* Clear session->number_of_window_jobs */
+#if defined(CONFIG_MALI400_POWER_PERFORMANCE_POLICY)
+ mali_session_max_window_num();
+#endif
+ _mali_osk_spinlock_irq_unlock(time_data_lock);
+
+ _mali_osk_timer_add(utilization_timer, _mali_osk_time_mstoticks(mali_utilization_timeout));
+ } else {
+ _mali_osk_spinlock_irq_unlock(time_data_lock);
+ }
+ } else {
+ /* Nothing to do */
+ _mali_osk_spinlock_irq_unlock(time_data_lock);
+ }
+}
+
+void mali_utilization_gp_end(void)
+{
+ _mali_osk_spinlock_irq_lock(time_data_lock);
+
+ --num_running_gp_cores;
+ if (0 == num_running_gp_cores) {
+ u64 time_now = _mali_osk_time_get_ns();
+
+ /* Last GP core ended, consider GP idle from now and onwards */
+ accumulated_work_time_gp += (time_now - work_start_time_gp);
+ work_start_time_gp = 0;
+
+ if (0 == num_running_pp_cores) {
+ /*
+ * There are no PP cores running, so this is also the point
+ * at which we consider the GPU to be idle as well.
+ */
+ accumulated_work_time_gpu += (time_now - work_start_time_gpu);
+ work_start_time_gpu = 0;
+ }
+ }
+
+ _mali_osk_spinlock_irq_unlock(time_data_lock);
+}
+
+void mali_utilization_pp_end(void)
+{
+ _mali_osk_spinlock_irq_lock(time_data_lock);
+
+ --num_running_pp_cores;
+ if (0 == num_running_pp_cores) {
+ u64 time_now = _mali_osk_time_get_ns();
+
+ /* Last PP core ended, consider PP idle from now and onwards */
+ accumulated_work_time_pp += (time_now - work_start_time_pp);
+ work_start_time_pp = 0;
+
+ if (0 == num_running_gp_cores) {
+ /*
+ * There are no GP cores running, so this is also the point
+ * at which we consider the GPU to be idle as well.
+ */
+ accumulated_work_time_gpu += (time_now - work_start_time_gpu);
+ work_start_time_gpu = 0;
+ }
+ }
+
+ _mali_osk_spinlock_irq_unlock(time_data_lock);
+}
+
+u32 _mali_ukk_utilization_gp_pp(void)
+{
+ return last_utilization_gpu;
+}
+
+u32 _mali_ukk_utilization_gp(void)
+{
+ return last_utilization_gp;
+}
+
+u32 _mali_ukk_utilization_pp(void)
+{
+ return last_utilization_pp;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_KERNEL_UTILIZATION_H__
+#define __MALI_KERNEL_UTILIZATION_H__
+
+#include <linux/mali/mali_utgard.h>
+#include "mali_osk.h"
+
+extern void (*mali_utilization_callback)(struct mali_gpu_utilization_data *data);
+
+/**
+ * Initialize/start the Mali GPU utilization metrics reporting.
+ *
+ * @return _MALI_OSK_ERR_OK on success, otherwise failure.
+ */
+_mali_osk_errcode_t mali_utilization_init(void);
+
+/**
+ * Terminate the Mali GPU utilization metrics reporting
+ */
+void mali_utilization_term(void);
+
+/**
+ * Check if Mali utilization is enabled
+ */
+MALI_STATIC_INLINE mali_bool mali_utilization_enabled(void)
+{
+ return (NULL != mali_utilization_callback);
+}
+
+/**
+ * Should be called when a job is about to execute a GP job
+ */
+void mali_utilization_gp_start(void);
+
+/**
+ * Should be called when a job has completed executing a GP job
+ */
+void mali_utilization_gp_end(void);
+
+/**
+ * Should be called when a job is about to execute a PP job
+ */
+void mali_utilization_pp_start(void);
+
+/**
+ * Should be called when a job has completed executing a PP job
+ */
+void mali_utilization_pp_end(void);
+
+/**
+ * Should be called to stop the utilization timer during system suspend
+ */
+void mali_utilization_suspend(void);
+
+
+#endif /* __MALI_KERNEL_UTILIZATION_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+#include "mali_ukk.h"
+
+#if defined(CONFIG_MALI400_PROFILING)
+#include "mali_osk_profiling.h"
+#endif
+
+_mali_osk_errcode_t _mali_ukk_vsync_event_report(_mali_uk_vsync_event_report_s *args)
+{
+ _mali_uk_vsync_event event = (_mali_uk_vsync_event)args->event;
+ MALI_IGNORE(event); /* event is not used for release code, and that is OK */
+
+#if defined(CONFIG_MALI400_PROFILING)
+ /*
+ * Manually generate user space events in kernel space.
+ * This saves user space from calling kernel space twice in this case.
+ * We just need to remember to add pid and tid manually.
+ */
+ if ( event==_MALI_UK_VSYNC_EVENT_BEGIN_WAIT) {
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_SUSPEND |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_VSYNC,
+ _mali_osk_get_pid(), _mali_osk_get_tid(), 0, 0, 0);
+ }
+
+ if (event==_MALI_UK_VSYNC_EVENT_END_WAIT) {
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_RESUME |
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE |
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_VSYNC,
+ _mali_osk_get_pid(), _mali_osk_get_tid(), 0, 0, 0);
+ }
+#endif
+
+ MALI_DEBUG_PRINT(4, ("Received VSYNC event: %d\n", event));
+ MALI_SUCCESS;
+}
+
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+#include "mali_l2_cache.h"
+#include "mali_hw_core.h"
+#include "mali_scheduler.h"
+#include "mali_pm_domain.h"
+
+/**
+ * Size of the Mali L2 cache registers in bytes
+ */
+#define MALI400_L2_CACHE_REGISTERS_SIZE 0x30
+
+/**
+ * Mali L2 cache register numbers
+ * Used in the register read/write routines.
+ * See the hardware documentation for more information about each register
+ */
+typedef enum mali_l2_cache_register {
+ MALI400_L2_CACHE_REGISTER_SIZE = 0x0004,
+ MALI400_L2_CACHE_REGISTER_STATUS = 0x0008,
+ /*unused = 0x000C */
+ MALI400_L2_CACHE_REGISTER_COMMAND = 0x0010, /**< Misc cache commands, e.g. clear */
+ MALI400_L2_CACHE_REGISTER_CLEAR_PAGE = 0x0014,
+ MALI400_L2_CACHE_REGISTER_MAX_READS = 0x0018, /**< Limit of outstanding read requests */
+ MALI400_L2_CACHE_REGISTER_ENABLE = 0x001C, /**< Enable misc cache features */
+ MALI400_L2_CACHE_REGISTER_PERFCNT_SRC0 = 0x0020,
+ MALI400_L2_CACHE_REGISTER_PERFCNT_VAL0 = 0x0024,
+ MALI400_L2_CACHE_REGISTER_PERFCNT_SRC1 = 0x0028,
+ MALI400_L2_CACHE_REGISTER_PERFCNT_VAL1 = 0x002C,
+} mali_l2_cache_register;
+
+/**
+ * Mali L2 cache commands
+ * These are the commands that can be sent to the Mali L2 cache unit
+ */
+typedef enum mali_l2_cache_command {
+ MALI400_L2_CACHE_COMMAND_CLEAR_ALL = 0x01, /**< Clear the entire cache */
+ /* Read HW TRM carefully before adding/using other commands than the clear above */
+} mali_l2_cache_command;
+
+/**
+ * Mali L2 cache commands
+ * These are the commands that can be sent to the Mali L2 cache unit
+ */
+typedef enum mali_l2_cache_enable {
+ MALI400_L2_CACHE_ENABLE_DEFAULT = 0x0, /**< Default state of enable register */
+ MALI400_L2_CACHE_ENABLE_ACCESS = 0x01, /**< Permit cacheable accesses */
+ MALI400_L2_CACHE_ENABLE_READ_ALLOCATE = 0x02, /**< Permit cache read allocate */
+} mali_l2_cache_enable;
+
+/**
+ * Mali L2 cache status bits
+ */
+typedef enum mali_l2_cache_status {
+ MALI400_L2_CACHE_STATUS_COMMAND_BUSY = 0x01, /**< Command handler of L2 cache is busy */
+ MALI400_L2_CACHE_STATUS_DATA_BUSY = 0x02, /**< L2 cache is busy handling data requests */
+} mali_l2_cache_status;
+
+#define MALI400_L2_MAX_READS_DEFAULT 0x1C
+
+static struct mali_l2_cache_core *mali_global_l2_cache_cores[MALI_MAX_NUMBER_OF_L2_CACHE_CORES] = { NULL, };
+static u32 mali_global_num_l2_cache_cores = 0;
+
+int mali_l2_max_reads = MALI400_L2_MAX_READS_DEFAULT;
+
+
+/* Local helper functions */
+static _mali_osk_errcode_t mali_l2_cache_send_command(struct mali_l2_cache_core *cache, u32 reg, u32 val);
+
+
+static void mali_l2_cache_counter_lock(struct mali_l2_cache_core *cache)
+{
+#ifdef MALI_UPPER_HALF_SCHEDULING
+ _mali_osk_spinlock_irq_lock(cache->counter_lock);
+#else
+ _mali_osk_spinlock_lock(cache->counter_lock);
+#endif
+}
+
+static void mali_l2_cache_counter_unlock(struct mali_l2_cache_core *cache)
+{
+#ifdef MALI_UPPER_HALF_SCHEDULING
+ _mali_osk_spinlock_irq_unlock(cache->counter_lock);
+#else
+ _mali_osk_spinlock_unlock(cache->counter_lock);
+#endif
+}
+
+static void mali_l2_cache_command_lock(struct mali_l2_cache_core *cache)
+{
+#ifdef MALI_UPPER_HALF_SCHEDULING
+ _mali_osk_spinlock_irq_lock(cache->command_lock);
+#else
+ _mali_osk_spinlock_lock(cache->command_lock);
+#endif
+}
+
+static void mali_l2_cache_command_unlock(struct mali_l2_cache_core *cache)
+{
+#ifdef MALI_UPPER_HALF_SCHEDULING
+ _mali_osk_spinlock_irq_unlock(cache->command_lock);
+#else
+ _mali_osk_spinlock_unlock(cache->command_lock);
+#endif
+}
+
+struct mali_l2_cache_core *mali_l2_cache_create(_mali_osk_resource_t *resource)
+{
+ struct mali_l2_cache_core *cache = NULL;
+
+ MALI_DEBUG_PRINT(4, ("Mali L2 cache: Creating Mali L2 cache: %s\n", resource->description));
+
+ if (mali_global_num_l2_cache_cores >= MALI_MAX_NUMBER_OF_L2_CACHE_CORES) {
+ MALI_PRINT_ERROR(("Mali L2 cache: Too many L2 cache core objects created\n"));
+ return NULL;
+ }
+
+ cache = _mali_osk_malloc(sizeof(struct mali_l2_cache_core));
+ if (NULL != cache) {
+ cache->core_id = mali_global_num_l2_cache_cores;
+ cache->counter_src0 = MALI_HW_CORE_NO_COUNTER;
+ cache->counter_src1 = MALI_HW_CORE_NO_COUNTER;
+ cache->pm_domain = NULL;
+ cache->mali_l2_status = MALI_L2_NORMAL;
+ if (_MALI_OSK_ERR_OK == mali_hw_core_create(&cache->hw_core, resource, MALI400_L2_CACHE_REGISTERS_SIZE)) {
+ MALI_DEBUG_CODE(u32 cache_size = mali_hw_core_register_read(&cache->hw_core, MALI400_L2_CACHE_REGISTER_SIZE));
+ MALI_DEBUG_PRINT(2, ("Mali L2 cache: Created %s: % 3uK, %u-way, % 2ubyte cache line, % 3ubit external bus\n",
+ resource->description,
+ 1 << (((cache_size >> 16) & 0xff) - 10),
+ 1 << ((cache_size >> 8) & 0xff),
+ 1 << (cache_size & 0xff),
+ 1 << ((cache_size >> 24) & 0xff)));
+
+#ifdef MALI_UPPER_HALF_SCHEDULING
+ cache->command_lock = _mali_osk_spinlock_irq_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_L2_COMMAND);
+#else
+ cache->command_lock = _mali_osk_spinlock_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_L2_COMMAND);
+#endif
+ if (NULL != cache->command_lock) {
+#ifdef MALI_UPPER_HALF_SCHEDULING
+ cache->counter_lock = _mali_osk_spinlock_irq_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_L2_COMMAND);
+#else
+ cache->counter_lock = _mali_osk_spinlock_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_L2_COMMAND);
+#endif
+ if (NULL != cache->counter_lock) {
+ mali_l2_cache_reset(cache);
+
+ cache->last_invalidated_id = 0;
+
+ mali_global_l2_cache_cores[mali_global_num_l2_cache_cores] = cache;
+ mali_global_num_l2_cache_cores++;
+
+ return cache;
+ } else {
+ MALI_PRINT_ERROR(("Mali L2 cache: Failed to create counter lock for L2 cache core %s\n", cache->hw_core.description));
+ }
+#ifdef MALI_UPPER_HALF_SCHEDULING
+ _mali_osk_spinlock_irq_term(cache->command_lock);
+#else
+ _mali_osk_spinlock_term(cache->command_lock);
+#endif
+ } else {
+ MALI_PRINT_ERROR(("Mali L2 cache: Failed to create command lock for L2 cache core %s\n", cache->hw_core.description));
+ }
+
+ mali_hw_core_delete(&cache->hw_core);
+ }
+
+ _mali_osk_free(cache);
+ } else {
+ MALI_PRINT_ERROR(("Mali L2 cache: Failed to allocate memory for L2 cache core\n"));
+ }
+
+ return NULL;
+}
+
+void mali_l2_cache_delete(struct mali_l2_cache_core *cache)
+{
+ u32 i;
+
+ /* reset to defaults */
+ mali_hw_core_register_write(&cache->hw_core, MALI400_L2_CACHE_REGISTER_MAX_READS, (u32)MALI400_L2_MAX_READS_DEFAULT);
+ mali_hw_core_register_write(&cache->hw_core, MALI400_L2_CACHE_REGISTER_ENABLE, (u32)MALI400_L2_CACHE_ENABLE_DEFAULT);
+
+#ifdef MALI_UPPER_HALF_SCHEDULING
+ _mali_osk_spinlock_irq_term(cache->counter_lock);
+ _mali_osk_spinlock_irq_term(cache->command_lock);
+#else
+ _mali_osk_spinlock_term(cache->command_lock);
+ _mali_osk_spinlock_term(cache->counter_lock);
+#endif
+
+ mali_hw_core_delete(&cache->hw_core);
+
+ for (i = 0; i < mali_global_num_l2_cache_cores; i++) {
+ if (mali_global_l2_cache_cores[i] == cache) {
+ mali_global_l2_cache_cores[i] = NULL;
+ mali_global_num_l2_cache_cores--;
+
+ if (i != mali_global_num_l2_cache_cores) {
+ /* We removed a l2 cache from the middle of the array -- move the last
+ * l2 cache to the current position to close the gap */
+ mali_global_l2_cache_cores[i] = mali_global_l2_cache_cores[mali_global_num_l2_cache_cores];
+ mali_global_l2_cache_cores[mali_global_num_l2_cache_cores] = NULL;
+ }
+
+ break;
+ }
+ }
+
+ _mali_osk_free(cache);
+}
+
+u32 mali_l2_cache_get_id(struct mali_l2_cache_core *cache)
+{
+ return cache->core_id;
+}
+
+static void mali_l2_cache_core_set_counter_internal(struct mali_l2_cache_core *cache, u32 source_id, u32 counter)
+{
+ u32 value = 0; /* disabled src */
+ u32 reg_offset = 0;
+ mali_bool core_is_on;
+
+ MALI_DEBUG_ASSERT_POINTER(cache);
+
+ core_is_on = mali_l2_cache_lock_power_state(cache);
+
+ mali_l2_cache_counter_lock(cache);
+
+ switch (source_id) {
+ case 0:
+ cache->counter_src0 = counter;
+ reg_offset = MALI400_L2_CACHE_REGISTER_PERFCNT_SRC0;
+ break;
+
+ case 1:
+ cache->counter_src1 = counter;
+ reg_offset = MALI400_L2_CACHE_REGISTER_PERFCNT_SRC1;
+ break;
+
+ default:
+ MALI_DEBUG_ASSERT(0);
+ break;
+ }
+
+ if (MALI_L2_PAUSE == cache->mali_l2_status) {
+ mali_l2_cache_counter_unlock(cache);
+ mali_l2_cache_unlock_power_state(cache);
+ return;
+ }
+
+ if (MALI_HW_CORE_NO_COUNTER != counter) {
+ value = counter;
+ }
+
+ if (MALI_TRUE == core_is_on) {
+ mali_hw_core_register_write(&cache->hw_core, reg_offset, value);
+ }
+
+ mali_l2_cache_counter_unlock(cache);
+ mali_l2_cache_unlock_power_state(cache);
+}
+
+void mali_l2_cache_core_set_counter_src0(struct mali_l2_cache_core *cache, u32 counter)
+{
+ mali_l2_cache_core_set_counter_internal(cache, 0, counter);
+}
+
+void mali_l2_cache_core_set_counter_src1(struct mali_l2_cache_core *cache, u32 counter)
+{
+ mali_l2_cache_core_set_counter_internal(cache, 1, counter);
+}
+
+u32 mali_l2_cache_core_get_counter_src0(struct mali_l2_cache_core *cache)
+{
+ return cache->counter_src0;
+}
+
+u32 mali_l2_cache_core_get_counter_src1(struct mali_l2_cache_core *cache)
+{
+ return cache->counter_src1;
+}
+
+void mali_l2_cache_core_get_counter_values(struct mali_l2_cache_core *cache, u32 *src0, u32 *value0, u32 *src1, u32 *value1)
+{
+ MALI_DEBUG_ASSERT(NULL != src0);
+ MALI_DEBUG_ASSERT(NULL != value0);
+ MALI_DEBUG_ASSERT(NULL != src1);
+ MALI_DEBUG_ASSERT(NULL != value1);
+
+ /* Caller must hold the PM lock and know that we are powered on */
+
+ mali_l2_cache_counter_lock(cache);
+
+ if (MALI_L2_PAUSE == cache->mali_l2_status) {
+ mali_l2_cache_counter_unlock(cache);
+
+ return;
+ }
+
+ *src0 = cache->counter_src0;
+ *src1 = cache->counter_src1;
+
+ if (cache->counter_src0 != MALI_HW_CORE_NO_COUNTER) {
+ *value0 = mali_hw_core_register_read(&cache->hw_core, MALI400_L2_CACHE_REGISTER_PERFCNT_VAL0);
+ }
+
+ if (cache->counter_src1 != MALI_HW_CORE_NO_COUNTER) {
+ *value1 = mali_hw_core_register_read(&cache->hw_core, MALI400_L2_CACHE_REGISTER_PERFCNT_VAL1);
+ }
+
+ mali_l2_cache_counter_unlock(cache);
+}
+
+static void mali_l2_cache_reset_counters_all(void)
+{
+ int i;
+ u32 value;
+ struct mali_l2_cache_core *cache;
+ u32 num_cores = mali_l2_cache_core_get_glob_num_l2_cores();
+
+ for (i = 0; i < num_cores; i++) {
+ cache = mali_l2_cache_core_get_glob_l2_core(i);
+ if (MALI_TRUE == mali_l2_cache_lock_power_state(cache)) {
+ mali_l2_cache_counter_lock(cache);
+
+ if (MALI_L2_PAUSE == cache->mali_l2_status) {
+ mali_l2_cache_counter_unlock(cache);
+ mali_l2_cache_unlock_power_state(cache);
+ return;
+ }
+
+ /* Reset performance counters */
+ if (MALI_HW_CORE_NO_COUNTER == cache->counter_src0) {
+ value = 0;
+ } else {
+ value = cache->counter_src0;
+ }
+ mali_hw_core_register_write(&cache->hw_core,
+ MALI400_L2_CACHE_REGISTER_PERFCNT_SRC0, value);
+
+ if (MALI_HW_CORE_NO_COUNTER == cache->counter_src1) {
+ value = 0;
+ } else {
+ value = cache->counter_src1;
+ }
+ mali_hw_core_register_write(&cache->hw_core,
+ MALI400_L2_CACHE_REGISTER_PERFCNT_SRC1, value);
+
+ mali_l2_cache_counter_unlock(cache);
+ }
+
+ mali_l2_cache_unlock_power_state(cache);
+ }
+}
+
+
+struct mali_l2_cache_core *mali_l2_cache_core_get_glob_l2_core(u32 index)
+{
+ if (mali_global_num_l2_cache_cores > index) {
+ return mali_global_l2_cache_cores[index];
+ }
+
+ return NULL;
+}
+
+u32 mali_l2_cache_core_get_glob_num_l2_cores(void)
+{
+ return mali_global_num_l2_cache_cores;
+}
+
+void mali_l2_cache_reset(struct mali_l2_cache_core *cache)
+{
+ /* Invalidate cache (just to keep it in a known state at startup) */
+ mali_l2_cache_send_command(cache, MALI400_L2_CACHE_REGISTER_COMMAND, MALI400_L2_CACHE_COMMAND_CLEAR_ALL);
+
+ mali_l2_cache_counter_lock(cache);
+
+ if (MALI_L2_PAUSE == cache->mali_l2_status) {
+ mali_l2_cache_counter_unlock(cache);
+
+ return;
+ }
+
+ /* Enable cache */
+ mali_hw_core_register_write(&cache->hw_core, MALI400_L2_CACHE_REGISTER_ENABLE, (u32)MALI400_L2_CACHE_ENABLE_ACCESS | (u32)MALI400_L2_CACHE_ENABLE_READ_ALLOCATE);
+ mali_hw_core_register_write(&cache->hw_core, MALI400_L2_CACHE_REGISTER_MAX_READS, (u32)mali_l2_max_reads);
+
+ /* Restart any performance counters (if enabled) */
+ if (cache->counter_src0 != MALI_HW_CORE_NO_COUNTER) {
+ mali_hw_core_register_write(&cache->hw_core, MALI400_L2_CACHE_REGISTER_PERFCNT_SRC0, cache->counter_src0);
+ }
+
+ if (cache->counter_src1 != MALI_HW_CORE_NO_COUNTER) {
+ mali_hw_core_register_write(&cache->hw_core, MALI400_L2_CACHE_REGISTER_PERFCNT_SRC1, cache->counter_src1);
+ }
+
+ mali_l2_cache_counter_unlock(cache);
+}
+
+void mali_l2_cache_reset_all(void)
+{
+ int i;
+ u32 num_cores = mali_l2_cache_core_get_glob_num_l2_cores();
+
+ for (i = 0; i < num_cores; i++) {
+ mali_l2_cache_reset(mali_l2_cache_core_get_glob_l2_core(i));
+ }
+}
+
+void mali_l2_cache_invalidate(struct mali_l2_cache_core *cache)
+{
+ MALI_DEBUG_ASSERT_POINTER(cache);
+
+ if (NULL != cache) {
+ cache->last_invalidated_id = mali_scheduler_get_new_cache_order();
+ mali_l2_cache_send_command(cache, MALI400_L2_CACHE_REGISTER_COMMAND, MALI400_L2_CACHE_COMMAND_CLEAR_ALL);
+ }
+}
+
+mali_bool mali_l2_cache_invalidate_conditional(struct mali_l2_cache_core *cache, u32 id)
+{
+ MALI_DEBUG_ASSERT_POINTER(cache);
+
+ if (NULL != cache) {
+ /* If the last cache invalidation was done by a job with a higher id we
+ * don't have to flush. Since user space will store jobs w/ their
+ * corresponding memory in sequence (first job #0, then job #1, ...),
+ * we don't have to flush for job n-1 if job n has already invalidated
+ * the cache since we know for sure that job n-1's memory was already
+ * written when job n was started. */
+ if (((s32)id) <= ((s32)cache->last_invalidated_id)) {
+ return MALI_FALSE;
+ } else {
+ cache->last_invalidated_id = mali_scheduler_get_new_cache_order();
+ }
+
+ mali_l2_cache_send_command(cache, MALI400_L2_CACHE_REGISTER_COMMAND, MALI400_L2_CACHE_COMMAND_CLEAR_ALL);
+ }
+ return MALI_TRUE;
+}
+
+void mali_l2_cache_invalidate_all(void)
+{
+ u32 i;
+ for (i = 0; i < mali_global_num_l2_cache_cores; i++) {
+ /*additional check*/
+ if (MALI_TRUE == mali_l2_cache_lock_power_state(mali_global_l2_cache_cores[i])) {
+ _mali_osk_errcode_t ret;
+ mali_global_l2_cache_cores[i]->last_invalidated_id = mali_scheduler_get_new_cache_order();
+ ret = mali_l2_cache_send_command(mali_global_l2_cache_cores[i], MALI400_L2_CACHE_REGISTER_COMMAND, MALI400_L2_CACHE_COMMAND_CLEAR_ALL);
+ if (_MALI_OSK_ERR_OK != ret) {
+ MALI_PRINT_ERROR(("Failed to invalidate cache\n"));
+ }
+ }
+ mali_l2_cache_unlock_power_state(mali_global_l2_cache_cores[i]);
+ }
+}
+
+void mali_l2_cache_invalidate_all_pages(u32 *pages, u32 num_pages)
+{
+ u32 i;
+ for (i = 0; i < mali_global_num_l2_cache_cores; i++) {
+ /*additional check*/
+ if (MALI_TRUE == mali_l2_cache_lock_power_state(mali_global_l2_cache_cores[i])) {
+ u32 j;
+ for (j = 0; j < num_pages; j++) {
+ _mali_osk_errcode_t ret;
+ ret = mali_l2_cache_send_command(mali_global_l2_cache_cores[i], MALI400_L2_CACHE_REGISTER_CLEAR_PAGE, pages[j]);
+ if (_MALI_OSK_ERR_OK != ret) {
+ MALI_PRINT_ERROR(("Failed to invalidate page cache\n"));
+ }
+ }
+ }
+ mali_l2_cache_unlock_power_state(mali_global_l2_cache_cores[i]);
+ }
+}
+
+mali_bool mali_l2_cache_lock_power_state(struct mali_l2_cache_core *cache)
+{
+ return mali_pm_domain_lock_state(cache->pm_domain);
+}
+
+void mali_l2_cache_unlock_power_state(struct mali_l2_cache_core *cache)
+{
+ return mali_pm_domain_unlock_state(cache->pm_domain);
+}
+
+/* -------- local helper functions below -------- */
+
+
+static _mali_osk_errcode_t mali_l2_cache_send_command(struct mali_l2_cache_core *cache, u32 reg, u32 val)
+{
+ int i = 0;
+ const int loop_count = 100000;
+
+ /*
+ * Grab lock in order to send commands to the L2 cache in a serialized fashion.
+ * The L2 cache will ignore commands if it is busy.
+ */
+ mali_l2_cache_command_lock(cache);
+
+ if (MALI_L2_PAUSE == cache->mali_l2_status) {
+ mali_l2_cache_command_unlock(cache);
+ MALI_DEBUG_PRINT(1, ( "Mali L2 cache: aborting wait for L2 come back\n"));
+
+ MALI_ERROR( _MALI_OSK_ERR_BUSY );
+ }
+
+ /* First, wait for L2 cache command handler to go idle */
+
+ for (i = 0; i < loop_count; i++) {
+ if (!(mali_hw_core_register_read(&cache->hw_core, MALI400_L2_CACHE_REGISTER_STATUS) & (u32)MALI400_L2_CACHE_STATUS_COMMAND_BUSY)) {
+ break;
+ }
+ }
+
+ if (i == loop_count) {
+ mali_l2_cache_command_unlock(cache);
+ MALI_DEBUG_PRINT(1, ( "Mali L2 cache: aborting wait for command interface to go idle\n"));
+ MALI_ERROR( _MALI_OSK_ERR_FAULT );
+ }
+
+ /* then issue the command */
+ mali_hw_core_register_write(&cache->hw_core, reg, val);
+
+ mali_l2_cache_command_unlock(cache);
+
+ MALI_SUCCESS;
+}
+
+void mali_l2_cache_pause_all(mali_bool pause)
+{
+ int i;
+ struct mali_l2_cache_core * cache;
+ u32 num_cores = mali_l2_cache_core_get_glob_num_l2_cores();
+ mali_l2_power_status status = MALI_L2_NORMAL;
+
+ if (pause) {
+ status = MALI_L2_PAUSE;
+ }
+
+ for (i = 0; i < num_cores; i++) {
+ cache = mali_l2_cache_core_get_glob_l2_core(i);
+ if (NULL != cache) {
+ cache->mali_l2_status = status;
+
+ /* Take and release the counter and command locks to
+ * ensure there are no active threads that didn't get
+ * the status flag update.
+ *
+ * The locks will also ensure the necessary memory
+ * barriers are done on SMP systems.
+ */
+ mali_l2_cache_counter_lock(cache);
+ mali_l2_cache_counter_unlock(cache);
+
+ mali_l2_cache_command_lock(cache);
+ mali_l2_cache_command_unlock(cache);
+ }
+ }
+
+ /* Resume from pause: do the cache invalidation here to prevent any
+ * loss of cache operation during the pause period to make sure the SW
+ * status is consistent with L2 cache status.
+ */
+ if(!pause) {
+ mali_l2_cache_invalidate_all();
+ mali_l2_cache_reset_counters_all();
+ }
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_KERNEL_L2_CACHE_H__
+#define __MALI_KERNEL_L2_CACHE_H__
+
+#include "mali_osk.h"
+#include "mali_hw_core.h"
+
+#define MALI_MAX_NUMBER_OF_L2_CACHE_CORES 3
+/* Maximum 1 GP and 4 PP for an L2 cache core (Mali-400 Quad-core) */
+#define MALI_MAX_NUMBER_OF_GROUPS_PER_L2_CACHE 5
+
+struct mali_group;
+struct mali_pm_domain;
+
+/* Flags describing state of the L2 */
+typedef enum mali_l2_power_status {
+ MALI_L2_NORMAL, /**< L2 is in normal state and operational */
+ MALI_L2_PAUSE, /**< L2 may not be accessed and may be powered off */
+} mali_l2_power_status;
+
+/**
+ * Definition of the L2 cache core struct
+ * Used to track a L2 cache unit in the system.
+ * Contains information about the mapping of the registers
+ */
+struct mali_l2_cache_core {
+ struct mali_hw_core hw_core; /**< Common for all HW cores */
+ u32 core_id; /**< Unique core ID */
+#ifdef MALI_UPPER_HALF_SCHEDULING
+ _mali_osk_spinlock_irq_t *command_lock; /**< Serialize all L2 cache commands */
+ _mali_osk_spinlock_irq_t *counter_lock; /**< Synchronize L2 cache counter access */
+#else
+ _mali_osk_spinlock_t *command_lock;
+ _mali_osk_spinlock_t *counter_lock;
+#endif
+ u32 counter_src0; /**< Performance counter 0, MALI_HW_CORE_NO_COUNTER for disabled */
+ u32 counter_src1; /**< Performance counter 1, MALI_HW_CORE_NO_COUNTER for disabled */
+ u32 last_invalidated_id;
+ struct mali_pm_domain *pm_domain;
+ mali_l2_power_status mali_l2_status; /**< Indicate whether the L2 is paused or not */
+};
+
+_mali_osk_errcode_t mali_l2_cache_initialize(void);
+void mali_l2_cache_terminate(void);
+/**
+ * L2 pause is just a status that the L2 can't be accessed temporarily.
+*/
+void mali_l2_cache_pause_all(mali_bool pause);
+struct mali_l2_cache_core *mali_l2_cache_create(_mali_osk_resource_t * resource);
+void mali_l2_cache_delete(struct mali_l2_cache_core *cache);
+
+MALI_STATIC_INLINE void mali_l2_cache_set_pm_domain(struct mali_l2_cache_core *cache, struct mali_pm_domain *domain)
+{
+ cache->pm_domain = domain;
+}
+
+u32 mali_l2_cache_get_id(struct mali_l2_cache_core *cache);
+
+void mali_l2_cache_core_set_counter_src0(struct mali_l2_cache_core *cache, u32 counter);
+void mali_l2_cache_core_set_counter_src1(struct mali_l2_cache_core *cache, u32 counter);
+u32 mali_l2_cache_core_get_counter_src0(struct mali_l2_cache_core *cache);
+u32 mali_l2_cache_core_get_counter_src1(struct mali_l2_cache_core *cache);
+void mali_l2_cache_core_get_counter_values(struct mali_l2_cache_core *cache, u32 *src0, u32 *value0, u32 *src1, u32 *value1);
+struct mali_l2_cache_core *mali_l2_cache_core_get_glob_l2_core(u32 index);
+u32 mali_l2_cache_core_get_glob_num_l2_cores(void);
+
+void mali_l2_cache_reset(struct mali_l2_cache_core *cache);
+void mali_l2_cache_reset_all(void);
+
+struct mali_group *mali_l2_cache_get_group(struct mali_l2_cache_core *cache, u32 index);
+
+void mali_l2_cache_invalidate(struct mali_l2_cache_core *cache);
+mali_bool mali_l2_cache_invalidate_conditional(struct mali_l2_cache_core *cache, u32 id);
+void mali_l2_cache_invalidate_all(void);
+void mali_l2_cache_invalidate_all_pages(u32 *pages, u32 num_pages);
+
+mali_bool mali_l2_cache_lock_power_state(struct mali_l2_cache_core *cache);
+void mali_l2_cache_unlock_power_state(struct mali_l2_cache_core *cache);
+
+#endif /* __MALI_KERNEL_L2_CACHE_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_mem_validation.h"
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+
+//#include "mali_platform.h"
+#include <linux/fb.h>
+
+#define MALI_INVALID_MEM_ADDR 0xFFFFFFFF
+
+typedef struct {
+ u32 phys_base; /**< Mali physical base of the memory, page aligned */
+ u32 size; /**< size in bytes of the memory, multiple of page size */
+} _mali_mem_validation_t;
+
+static _mali_mem_validation_t mali_mem_validator = { MALI_INVALID_MEM_ADDR, MALI_INVALID_MEM_ADDR };
+
+extern struct fb_info *rk_get_fb(int fb_id);
+_mali_osk_errcode_t mali_mem_validation_add_range(u32 start, u32 size_para)
+{
+ /* Check that no other MEM_VALIDATION resources exist */
+ struct fb_info *fb = rk_get_fb(0);
+ u32 base = (fb->fix).smem_start;
+ u32 size = (fb->fix).smem_len;
+ if (MALI_INVALID_MEM_ADDR != mali_mem_validator.phys_base) {
+ MALI_PRINT_ERROR(("Failed to add frame buffer memory; another range is already specified\n"));
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ /* Check restrictions on page alignment */
+ if ((0 != (base & (~_MALI_OSK_CPU_PAGE_MASK))) ||
+ (0 != (size & (~_MALI_OSK_CPU_PAGE_MASK)))) {
+ MALI_PRINT_ERROR(("Failed to add frame buffer memory; incorrect alignment\n"));
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ mali_mem_validator.phys_base = base;
+ mali_mem_validator.size = size;
+ MALI_DEBUG_PRINT(2, ("Memory Validator installed for Mali physical address base=0x%08X, size=0x%08X\n",
+ mali_mem_validator.phys_base, mali_mem_validator.size));
+
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t mali_mem_validation_check(u32 phys_addr, u32 size)
+{
+#if 0
+ if (phys_addr < (phys_addr + size)) { /* Don't allow overflow (or zero size) */
+ if ((0 == ( phys_addr & (~_MALI_OSK_CPU_PAGE_MASK))) &&
+ (0 == ( size & (~_MALI_OSK_CPU_PAGE_MASK)))) {
+ if ((phys_addr >= mali_mem_validator.phys_base) &&
+ ((phys_addr + (size - 1)) >= mali_mem_validator.phys_base) &&
+ (phys_addr <= (mali_mem_validator.phys_base + (mali_mem_validator.size - 1))) &&
+ ((phys_addr + (size - 1)) <= (mali_mem_validator.phys_base + (mali_mem_validator.size - 1))) ) {
+ MALI_DEBUG_PRINT(3, ("Accepted range 0x%08X + size 0x%08X (= 0x%08X)\n", phys_addr, size, (phys_addr + size - 1)));
+ return _MALI_OSK_ERR_OK;
+ }
+ }
+ }
+
+ MALI_PRINT_ERROR(("MALI PHYSICAL RANGE VALIDATION ERROR: The range supplied was: phys_base=0x%08X, size=0x%08X\n", phys_addr, size));
+
+ return _MALI_OSK_ERR_FAULT;
+#endif
+ MALI_PRINT(("abort mali mem validation check needed by little Q \r\n"));
+ return _MALI_OSK_ERR_OK;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_MEM_VALIDATION_H__
+#define __MALI_MEM_VALIDATION_H__
+
+#include "mali_osk.h"
+
+_mali_osk_errcode_t mali_mem_validation_add_range(u32 start, u32 size);
+_mali_osk_errcode_t mali_mem_validation_check(u32 phys_addr, u32 size);
+
+#endif /* __MALI_MEM_VALIDATION_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2007-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+#include "mali_osk_list.h"
+#include "mali_ukk.h"
+
+#include "mali_mmu.h"
+#include "mali_hw_core.h"
+#include "mali_group.h"
+#include "mali_mmu_page_directory.h"
+
+/**
+ * Size of the MMU registers in bytes
+ */
+#define MALI_MMU_REGISTERS_SIZE 0x24
+
+/**
+ * MMU commands
+ * These are the commands that can be sent
+ * to the MMU unit.
+ */
+typedef enum mali_mmu_command {
+ MALI_MMU_COMMAND_ENABLE_PAGING = 0x00, /**< Enable paging (memory translation) */
+ MALI_MMU_COMMAND_DISABLE_PAGING = 0x01, /**< Disable paging (memory translation) */
+ MALI_MMU_COMMAND_ENABLE_STALL = 0x02, /**< Enable stall on page fault */
+ MALI_MMU_COMMAND_DISABLE_STALL = 0x03, /**< Disable stall on page fault */
+ MALI_MMU_COMMAND_ZAP_CACHE = 0x04, /**< Zap the entire page table cache */
+ MALI_MMU_COMMAND_PAGE_FAULT_DONE = 0x05, /**< Page fault processed */
+ MALI_MMU_COMMAND_HARD_RESET = 0x06 /**< Reset the MMU back to power-on settings */
+} mali_mmu_command;
+
+static void mali_mmu_probe_trigger(void *data);
+static _mali_osk_errcode_t mali_mmu_probe_ack(void *data);
+
+MALI_STATIC_INLINE _mali_osk_errcode_t mali_mmu_raw_reset(struct mali_mmu_core *mmu);
+
+/* page fault queue flush helper pages
+ * note that the mapping pointers are currently unused outside of the initialization functions */
+static u32 mali_page_fault_flush_page_directory = MALI_INVALID_PAGE;
+static mali_io_address mali_page_fault_flush_page_directory_mapping = NULL;
+static u32 mali_page_fault_flush_page_table = MALI_INVALID_PAGE;
+static mali_io_address mali_page_fault_flush_page_table_mapping = NULL;
+static u32 mali_page_fault_flush_data_page = MALI_INVALID_PAGE;
+static mali_io_address mali_page_fault_flush_data_page_mapping = NULL;
+
+/* an empty page directory (no address valid) which is active on any MMU not currently marked as in use */
+static u32 mali_empty_page_directory_phys = MALI_INVALID_PAGE;
+static mali_io_address mali_empty_page_directory_virt = NULL;
+
+
+_mali_osk_errcode_t mali_mmu_initialize(void)
+{
+ /* allocate the helper pages */
+ mali_empty_page_directory_phys = mali_allocate_empty_page(&mali_empty_page_directory_virt);
+ if(0 == mali_empty_page_directory_phys) {
+ MALI_DEBUG_PRINT_ERROR(("Mali MMU: Could not allocate empty page directory.\n"));
+ mali_empty_page_directory_phys = MALI_INVALID_PAGE;
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ if (_MALI_OSK_ERR_OK != mali_create_fault_flush_pages(&mali_page_fault_flush_page_directory,
+ &mali_page_fault_flush_page_directory_mapping,
+ &mali_page_fault_flush_page_table,
+ &mali_page_fault_flush_page_table_mapping,
+ &mali_page_fault_flush_data_page,
+ &mali_page_fault_flush_data_page_mapping)) {
+ MALI_DEBUG_PRINT_ERROR(("Mali MMU: Could not allocate fault flush pages\n"));
+ mali_free_empty_page(mali_empty_page_directory_phys, mali_empty_page_directory_virt);
+ mali_empty_page_directory_phys = MALI_INVALID_PAGE;
+ mali_empty_page_directory_virt = NULL;
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ return _MALI_OSK_ERR_OK;
+}
+
+void mali_mmu_terminate(void)
+{
+ MALI_DEBUG_PRINT(3, ("Mali MMU: terminating\n"));
+
+ /* Free global helper pages */
+ mali_free_empty_page(mali_empty_page_directory_phys, mali_empty_page_directory_virt);
+ mali_empty_page_directory_phys = MALI_INVALID_PAGE;
+ mali_empty_page_directory_virt = NULL;
+
+ /* Free the page fault flush pages */
+ mali_destroy_fault_flush_pages(&mali_page_fault_flush_page_directory, &mali_page_fault_flush_page_directory_mapping,
+ &mali_page_fault_flush_page_table, &mali_page_fault_flush_page_table_mapping,
+ &mali_page_fault_flush_data_page, &mali_page_fault_flush_data_page_mapping);
+}
+
+struct mali_mmu_core *mali_mmu_create(_mali_osk_resource_t *resource, struct mali_group *group, mali_bool is_virtual)
+{
+ struct mali_mmu_core* mmu = NULL;
+
+ MALI_DEBUG_ASSERT_POINTER(resource);
+
+ MALI_DEBUG_PRINT(2, ("Mali MMU: Creating Mali MMU: %s\n", resource->description));
+
+ mmu = _mali_osk_calloc(1,sizeof(struct mali_mmu_core));
+ if (NULL != mmu) {
+ if (_MALI_OSK_ERR_OK == mali_hw_core_create(&mmu->hw_core, resource, MALI_MMU_REGISTERS_SIZE)) {
+ if (_MALI_OSK_ERR_OK == mali_group_add_mmu_core(group, mmu)) {
+ if (is_virtual) {
+ /* Skip reset and IRQ setup for virtual MMU */
+ return mmu;
+ }
+
+ if (_MALI_OSK_ERR_OK == mali_mmu_reset(mmu)) {
+ /* Setup IRQ handlers (which will do IRQ probing if needed) */
+ mmu->irq = _mali_osk_irq_init(resource->irq,
+ mali_group_upper_half_mmu,
+ group,
+ mali_mmu_probe_trigger,
+ mali_mmu_probe_ack,
+ mmu,
+ resource->description);
+ if (NULL != mmu->irq) {
+ return mmu;
+ } else {
+ MALI_PRINT_ERROR(("Mali MMU: Failed to setup interrupt handlers for MMU %s\n", mmu->hw_core.description));
+ }
+ }
+ mali_group_remove_mmu_core(group);
+ } else {
+ MALI_PRINT_ERROR(("Mali MMU: Failed to add core %s to group\n", mmu->hw_core.description));
+ }
+ mali_hw_core_delete(&mmu->hw_core);
+ }
+
+ _mali_osk_free(mmu);
+ } else {
+ MALI_PRINT_ERROR(("Failed to allocate memory for MMU\n"));
+ }
+
+ return NULL;
+}
+
+void mali_mmu_delete(struct mali_mmu_core *mmu)
+{
+ if (NULL != mmu->irq) {
+ _mali_osk_irq_term(mmu->irq);
+ }
+
+ mali_hw_core_delete(&mmu->hw_core);
+ _mali_osk_free(mmu);
+}
+
+static void mali_mmu_enable_paging(struct mali_mmu_core *mmu)
+{
+ int i;
+
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_COMMAND, MALI_MMU_COMMAND_ENABLE_PAGING);
+
+ for (i = 0; i < MALI_REG_POLL_COUNT_FAST; ++i) {
+ if (mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS) & MALI_MMU_STATUS_BIT_PAGING_ENABLED) {
+ break;
+ }
+ }
+ if (MALI_REG_POLL_COUNT_FAST == i) {
+ MALI_PRINT_ERROR(("Enable paging request failed, MMU status is 0x%08X\n", mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS)));
+ }
+}
+
+/**
+ * Issues the enable stall command to the MMU and waits for HW to complete the request
+ * @param mmu The MMU to enable paging for
+ * @return MALI_TRUE if HW stall was successfully engaged, otherwise MALI_FALSE (req timed out)
+ */
+static mali_bool mali_mmu_enable_stall(struct mali_mmu_core *mmu)
+{
+ int i;
+ u32 mmu_status = mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS);
+
+ if ( 0 == (mmu_status & MALI_MMU_STATUS_BIT_PAGING_ENABLED) ) {
+ MALI_DEBUG_PRINT(4, ("MMU stall is implicit when Paging is not enabled.\n"));
+ return MALI_TRUE;
+ }
+
+ if ( mmu_status & MALI_MMU_STATUS_BIT_PAGE_FAULT_ACTIVE ) {
+ MALI_DEBUG_PRINT(3, ("Aborting MMU stall request since it is in pagefault state.\n"));
+ return MALI_FALSE;
+ }
+
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_COMMAND, MALI_MMU_COMMAND_ENABLE_STALL);
+
+ for (i = 0; i < MALI_REG_POLL_COUNT_FAST; ++i) {
+ mmu_status = mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS);
+ if (mmu_status & MALI_MMU_STATUS_BIT_PAGE_FAULT_ACTIVE) {
+ break;
+ }
+ if ((mmu_status & MALI_MMU_STATUS_BIT_STALL_ACTIVE) && (0 == (mmu_status & MALI_MMU_STATUS_BIT_STALL_NOT_ACTIVE))) {
+ break;
+ }
+ if (0 == (mmu_status & ( MALI_MMU_STATUS_BIT_PAGING_ENABLED ))) {
+ break;
+ }
+ }
+ if (MALI_REG_POLL_COUNT_FAST == i) {
+ MALI_DEBUG_PRINT(2, ("Enable stall request failed, MMU status is 0x%08X\n", mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS)));
+ return MALI_FALSE;
+ }
+
+ if ( mmu_status & MALI_MMU_STATUS_BIT_PAGE_FAULT_ACTIVE ) {
+ MALI_DEBUG_PRINT(2, ("Aborting MMU stall request since it has a pagefault.\n"));
+ return MALI_FALSE;
+ }
+
+ return MALI_TRUE;
+}
+
+/**
+ * Issues the disable stall command to the MMU and waits for HW to complete the request
+ * @param mmu The MMU to enable paging for
+ */
+static void mali_mmu_disable_stall(struct mali_mmu_core *mmu)
+{
+ int i;
+ u32 mmu_status = mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS);
+
+ if ( 0 == (mmu_status & MALI_MMU_STATUS_BIT_PAGING_ENABLED )) {
+ MALI_DEBUG_PRINT(3, ("MMU disable skipped since it was not enabled.\n"));
+ return;
+ }
+ if (mmu_status & MALI_MMU_STATUS_BIT_PAGE_FAULT_ACTIVE) {
+ MALI_DEBUG_PRINT(2, ("Aborting MMU disable stall request since it is in pagefault state.\n"));
+ return;
+ }
+
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_COMMAND, MALI_MMU_COMMAND_DISABLE_STALL);
+
+ for (i = 0; i < MALI_REG_POLL_COUNT_FAST; ++i) {
+ u32 status = mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS);
+ if ( 0 == (status & MALI_MMU_STATUS_BIT_STALL_ACTIVE) ) {
+ break;
+ }
+ if ( status & MALI_MMU_STATUS_BIT_PAGE_FAULT_ACTIVE ) {
+ break;
+ }
+ if ( 0 == (mmu_status & MALI_MMU_STATUS_BIT_PAGING_ENABLED )) {
+ break;
+ }
+ }
+ if (MALI_REG_POLL_COUNT_FAST == i) MALI_DEBUG_PRINT(1,("Disable stall request failed, MMU status is 0x%08X\n", mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS)));
+}
+
+void mali_mmu_page_fault_done(struct mali_mmu_core *mmu)
+{
+ MALI_DEBUG_PRINT(4, ("Mali MMU: %s: Leaving page fault mode\n", mmu->hw_core.description));
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_COMMAND, MALI_MMU_COMMAND_PAGE_FAULT_DONE);
+}
+
+MALI_STATIC_INLINE _mali_osk_errcode_t mali_mmu_raw_reset(struct mali_mmu_core *mmu)
+{
+ int i;
+
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_DTE_ADDR, 0xCAFEBABE);
+ MALI_DEBUG_ASSERT(0xCAFEB000 == mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_DTE_ADDR));
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_COMMAND, MALI_MMU_COMMAND_HARD_RESET);
+
+ for (i = 0; i < MALI_REG_POLL_COUNT_FAST; ++i) {
+ if (mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_DTE_ADDR) == 0) {
+ break;
+ }
+ }
+ if (MALI_REG_POLL_COUNT_FAST == i) {
+ MALI_PRINT_ERROR(("Reset request failed, MMU status is 0x%08X\n", mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS)));
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t mali_mmu_reset(struct mali_mmu_core *mmu)
+{
+ _mali_osk_errcode_t err = _MALI_OSK_ERR_FAULT;
+ mali_bool stall_success;
+ MALI_DEBUG_ASSERT_POINTER(mmu);
+
+ stall_success = mali_mmu_enable_stall(mmu);
+ if (!stall_success) {
+ err = _MALI_OSK_ERR_BUSY;
+ }
+
+ MALI_DEBUG_PRINT(3, ("Mali MMU: mali_kernel_mmu_reset: %s\n", mmu->hw_core.description));
+
+ if (_MALI_OSK_ERR_OK == mali_mmu_raw_reset(mmu)) {
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_INT_MASK, MALI_MMU_INTERRUPT_PAGE_FAULT | MALI_MMU_INTERRUPT_READ_BUS_ERROR);
+ /* no session is active, so just activate the empty page directory */
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_DTE_ADDR, mali_empty_page_directory_phys);
+ mali_mmu_enable_paging(mmu);
+ err = _MALI_OSK_ERR_OK;
+ }
+ mali_mmu_disable_stall(mmu);
+
+ return err;
+}
+
+mali_bool mali_mmu_zap_tlb(struct mali_mmu_core *mmu)
+{
+ mali_bool stall_success = mali_mmu_enable_stall(mmu);
+
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_COMMAND, MALI_MMU_COMMAND_ZAP_CACHE);
+
+ if (MALI_FALSE == stall_success) {
+ /* False means that it is in Pagefault state. Not possible to disable_stall then */
+ return MALI_FALSE;
+ }
+
+ mali_mmu_disable_stall(mmu);
+ return MALI_TRUE;
+}
+
+void mali_mmu_zap_tlb_without_stall(struct mali_mmu_core *mmu)
+{
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_COMMAND, MALI_MMU_COMMAND_ZAP_CACHE);
+}
+
+
+void mali_mmu_invalidate_page(struct mali_mmu_core *mmu, u32 mali_address)
+{
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_ZAP_ONE_LINE, MALI_MMU_PDE_ENTRY(mali_address));
+}
+
+static void mali_mmu_activate_address_space(struct mali_mmu_core *mmu, u32 page_directory)
+{
+ /* The MMU must be in stalled or page fault mode, for this writing to work */
+ MALI_DEBUG_ASSERT( 0 != ( mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS)
+ & (MALI_MMU_STATUS_BIT_STALL_ACTIVE|MALI_MMU_STATUS_BIT_PAGE_FAULT_ACTIVE) ) );
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_DTE_ADDR, page_directory);
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_COMMAND, MALI_MMU_COMMAND_ZAP_CACHE);
+
+}
+
+void mali_mmu_activate_page_directory(struct mali_mmu_core *mmu, struct mali_page_directory *pagedir)
+{
+ mali_bool stall_success;
+ MALI_DEBUG_ASSERT_POINTER(mmu);
+
+ MALI_DEBUG_PRINT(5, ("Asked to activate page directory 0x%x on MMU %s\n", pagedir, mmu->hw_core.description));
+
+ stall_success = mali_mmu_enable_stall(mmu);
+ MALI_DEBUG_ASSERT(stall_success);
+ MALI_IGNORE(stall_success);
+ mali_mmu_activate_address_space(mmu, pagedir->page_directory);
+ mali_mmu_disable_stall(mmu);
+}
+
+void mali_mmu_activate_empty_page_directory(struct mali_mmu_core* mmu)
+{
+ mali_bool stall_success;
+
+ MALI_DEBUG_ASSERT_POINTER(mmu);
+ MALI_DEBUG_PRINT(3, ("Activating the empty page directory on MMU %s\n", mmu->hw_core.description));
+
+ stall_success = mali_mmu_enable_stall(mmu);
+
+ /* This function can only be called when the core is idle, so it could not fail. */
+ MALI_DEBUG_ASSERT(stall_success);
+ MALI_IGNORE(stall_success);
+
+ mali_mmu_activate_address_space(mmu, mali_empty_page_directory_phys);
+ mali_mmu_disable_stall(mmu);
+}
+
+void mali_mmu_activate_fault_flush_page_directory(struct mali_mmu_core* mmu)
+{
+ mali_bool stall_success;
+ MALI_DEBUG_ASSERT_POINTER(mmu);
+
+ MALI_DEBUG_PRINT(3, ("Activating the page fault flush page directory on MMU %s\n", mmu->hw_core.description));
+ stall_success = mali_mmu_enable_stall(mmu);
+ /* This function is expect to fail the stalling, since it might be in PageFault mode when it is called */
+ mali_mmu_activate_address_space(mmu, mali_page_fault_flush_page_directory);
+ if ( MALI_TRUE==stall_success ) mali_mmu_disable_stall(mmu);
+}
+
+/* Is called when we want the mmu to give an interrupt */
+static void mali_mmu_probe_trigger(void *data)
+{
+ struct mali_mmu_core *mmu = (struct mali_mmu_core *)data;
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_INT_RAWSTAT, MALI_MMU_INTERRUPT_PAGE_FAULT|MALI_MMU_INTERRUPT_READ_BUS_ERROR);
+}
+
+/* Is called when the irq probe wants the mmu to acknowledge an interrupt from the hw */
+static _mali_osk_errcode_t mali_mmu_probe_ack(void *data)
+{
+ struct mali_mmu_core *mmu = (struct mali_mmu_core *)data;
+ u32 int_stat;
+
+ int_stat = mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_INT_STATUS);
+
+ MALI_DEBUG_PRINT(2, ("mali_mmu_probe_irq_acknowledge: intstat 0x%x\n", int_stat));
+ if (int_stat & MALI_MMU_INTERRUPT_PAGE_FAULT) {
+ MALI_DEBUG_PRINT(2, ("Probe: Page fault detect: PASSED\n"));
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_INT_CLEAR, MALI_MMU_INTERRUPT_PAGE_FAULT);
+ } else {
+ MALI_DEBUG_PRINT(1, ("Probe: Page fault detect: FAILED\n"));
+ }
+
+ if (int_stat & MALI_MMU_INTERRUPT_READ_BUS_ERROR) {
+ MALI_DEBUG_PRINT(2, ("Probe: Bus read error detect: PASSED\n"));
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_INT_CLEAR, MALI_MMU_INTERRUPT_READ_BUS_ERROR);
+ } else {
+ MALI_DEBUG_PRINT(1, ("Probe: Bus read error detect: FAILED\n"));
+ }
+
+ if ( (int_stat & (MALI_MMU_INTERRUPT_PAGE_FAULT|MALI_MMU_INTERRUPT_READ_BUS_ERROR)) ==
+ (MALI_MMU_INTERRUPT_PAGE_FAULT|MALI_MMU_INTERRUPT_READ_BUS_ERROR)) {
+ return _MALI_OSK_ERR_OK;
+ }
+
+ return _MALI_OSK_ERR_FAULT;
+}
+
+#if 0
+void mali_mmu_print_state(struct mali_mmu_core *mmu)
+{
+ MALI_DEBUG_PRINT(2, ("MMU: State of %s is 0x%08x\n", mmu->hw_core.description, mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS)));
+}
+#endif
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2007-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_MMU_H__
+#define __MALI_MMU_H__
+
+#include "mali_osk.h"
+#include "mali_mmu_page_directory.h"
+#include "mali_hw_core.h"
+
+/* Forward declaration from mali_group.h */
+struct mali_group;
+
+/**
+ * MMU register numbers
+ * Used in the register read/write routines.
+ * See the hardware documentation for more information about each register
+ */
+typedef enum mali_mmu_register {
+ MALI_MMU_REGISTER_DTE_ADDR = 0x0000, /**< Current Page Directory Pointer */
+ MALI_MMU_REGISTER_STATUS = 0x0004, /**< Status of the MMU */
+ MALI_MMU_REGISTER_COMMAND = 0x0008, /**< Command register, used to control the MMU */
+ MALI_MMU_REGISTER_PAGE_FAULT_ADDR = 0x000C, /**< Logical address of the last page fault */
+ MALI_MMU_REGISTER_ZAP_ONE_LINE = 0x010, /**< Used to invalidate the mapping of a single page from the MMU */
+ MALI_MMU_REGISTER_INT_RAWSTAT = 0x0014, /**< Raw interrupt status, all interrupts visible */
+ MALI_MMU_REGISTER_INT_CLEAR = 0x0018, /**< Indicate to the MMU that the interrupt has been received */
+ MALI_MMU_REGISTER_INT_MASK = 0x001C, /**< Enable/disable types of interrupts */
+ MALI_MMU_REGISTER_INT_STATUS = 0x0020 /**< Interrupt status based on the mask */
+} mali_mmu_register;
+
+/**
+ * MMU interrupt register bits
+ * Each cause of the interrupt is reported
+ * through the (raw) interrupt status registers.
+ * Multiple interrupts can be pending, so multiple bits
+ * can be set at once.
+ */
+typedef enum mali_mmu_interrupt {
+ MALI_MMU_INTERRUPT_PAGE_FAULT = 0x01, /**< A page fault occured */
+ MALI_MMU_INTERRUPT_READ_BUS_ERROR = 0x02 /**< A bus read error occured */
+} mali_mmu_interrupt;
+
+typedef enum mali_mmu_status_bits {
+ MALI_MMU_STATUS_BIT_PAGING_ENABLED = 1 << 0,
+ MALI_MMU_STATUS_BIT_PAGE_FAULT_ACTIVE = 1 << 1,
+ MALI_MMU_STATUS_BIT_STALL_ACTIVE = 1 << 2,
+ MALI_MMU_STATUS_BIT_IDLE = 1 << 3,
+ MALI_MMU_STATUS_BIT_REPLAY_BUFFER_EMPTY = 1 << 4,
+ MALI_MMU_STATUS_BIT_PAGE_FAULT_IS_WRITE = 1 << 5,
+ MALI_MMU_STATUS_BIT_STALL_NOT_ACTIVE = 1 << 31,
+} mali_mmu_status_bits;
+
+/**
+ * Definition of the MMU struct
+ * Used to track a MMU unit in the system.
+ * Contains information about the mapping of the registers
+ */
+struct mali_mmu_core {
+ struct mali_hw_core hw_core; /**< Common for all HW cores */
+ _mali_osk_irq_t *irq; /**< IRQ handler */
+};
+
+_mali_osk_errcode_t mali_mmu_initialize(void);
+
+void mali_mmu_terminate(void);
+
+struct mali_mmu_core *mali_mmu_create(_mali_osk_resource_t *resource, struct mali_group *group, mali_bool is_virtual);
+void mali_mmu_delete(struct mali_mmu_core *mmu);
+
+_mali_osk_errcode_t mali_mmu_reset(struct mali_mmu_core *mmu);
+mali_bool mali_mmu_zap_tlb(struct mali_mmu_core *mmu);
+void mali_mmu_zap_tlb_without_stall(struct mali_mmu_core *mmu);
+void mali_mmu_invalidate_page(struct mali_mmu_core *mmu, u32 mali_address);
+
+void mali_mmu_activate_page_directory(struct mali_mmu_core* mmu, struct mali_page_directory *pagedir);
+void mali_mmu_activate_empty_page_directory(struct mali_mmu_core* mmu);
+void mali_mmu_activate_fault_flush_page_directory(struct mali_mmu_core* mmu);
+
+void mali_mmu_page_fault_done(struct mali_mmu_core *mmu);
+
+/*** Register reading/writing functions ***/
+MALI_STATIC_INLINE u32 mali_mmu_get_int_status(struct mali_mmu_core *mmu)
+{
+ return mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_INT_STATUS);
+}
+
+MALI_STATIC_INLINE u32 mali_mmu_get_rawstat(struct mali_mmu_core *mmu)
+{
+ return mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_INT_RAWSTAT);
+}
+
+MALI_STATIC_INLINE void mali_mmu_mask_all_interrupts(struct mali_mmu_core *mmu)
+{
+ mali_hw_core_register_write(&mmu->hw_core, MALI_MMU_REGISTER_INT_MASK, 0);
+}
+
+MALI_STATIC_INLINE u32 mali_mmu_get_status(struct mali_mmu_core *mmu)
+{
+ return mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_STATUS);
+}
+
+MALI_STATIC_INLINE u32 mali_mmu_get_page_fault_addr(struct mali_mmu_core *mmu)
+{
+ return mali_hw_core_register_read(&mmu->hw_core, MALI_MMU_REGISTER_PAGE_FAULT_ADDR);
+}
+
+#endif /* __MALI_MMU_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+#include "mali_uk_types.h"
+#include "mali_mmu_page_directory.h"
+#include "mali_memory.h"
+#include "mali_l2_cache.h"
+
+static _mali_osk_errcode_t fill_page(mali_io_address mapping, u32 data);
+
+u32 mali_allocate_empty_page(mali_io_address *virt_addr)
+{
+ _mali_osk_errcode_t err;
+ mali_io_address mapping;
+ u32 address;
+
+ if(_MALI_OSK_ERR_OK != mali_mmu_get_table_page(&address, &mapping)) {
+ /* Allocation failed */
+ MALI_DEBUG_PRINT(2, ("Mali MMU: Failed to get table page for empty pgdir\n"));
+ return 0;
+ }
+
+ MALI_DEBUG_ASSERT_POINTER( mapping );
+
+ err = fill_page(mapping, 0);
+ if (_MALI_OSK_ERR_OK != err) {
+ mali_mmu_release_table_page(address, mapping);
+ MALI_DEBUG_PRINT(2, ("Mali MMU: Failed to zero page\n"));
+ return 0;
+ }
+
+ *virt_addr = mapping;
+ return address;
+}
+
+void mali_free_empty_page(u32 address, mali_io_address virt_addr)
+{
+ if (MALI_INVALID_PAGE != address) {
+ mali_mmu_release_table_page(address, virt_addr);
+ }
+}
+
+_mali_osk_errcode_t mali_create_fault_flush_pages(u32 *page_directory, mali_io_address *page_directory_mapping,
+ u32 *page_table, mali_io_address *page_table_mapping,
+ u32 *data_page, mali_io_address *data_page_mapping)
+{
+ _mali_osk_errcode_t err;
+
+ err = mali_mmu_get_table_page(data_page, data_page_mapping);
+ if (_MALI_OSK_ERR_OK == err) {
+ err = mali_mmu_get_table_page(page_table, page_table_mapping);
+ if (_MALI_OSK_ERR_OK == err) {
+ err = mali_mmu_get_table_page(page_directory, page_directory_mapping);
+ if (_MALI_OSK_ERR_OK == err) {
+ fill_page(*data_page_mapping, 0);
+ fill_page(*page_table_mapping, *data_page | MALI_MMU_FLAGS_DEFAULT);
+ fill_page(*page_directory_mapping, *page_table | MALI_MMU_FLAGS_PRESENT);
+ MALI_SUCCESS;
+ }
+ mali_mmu_release_table_page(*page_table, *page_table_mapping);
+ *page_table = MALI_INVALID_PAGE;
+ }
+ mali_mmu_release_table_page(*data_page, *data_page_mapping);
+ *data_page = MALI_INVALID_PAGE;
+ }
+ return err;
+}
+
+void mali_destroy_fault_flush_pages(u32 *page_directory, mali_io_address *page_directory_mapping,
+ u32 *page_table, mali_io_address *page_table_mapping,
+ u32 *data_page, mali_io_address *data_page_mapping)
+{
+ if (MALI_INVALID_PAGE != *page_directory) {
+ mali_mmu_release_table_page(*page_directory, *page_directory_mapping);
+ *page_directory = MALI_INVALID_PAGE;
+ *page_directory_mapping = NULL;
+ }
+
+ if (MALI_INVALID_PAGE != *page_table) {
+ mali_mmu_release_table_page(*page_table, *page_table_mapping);
+ *page_table = MALI_INVALID_PAGE;
+ *page_table_mapping = NULL;
+ }
+
+ if (MALI_INVALID_PAGE != *data_page) {
+ mali_mmu_release_table_page(*data_page, *data_page_mapping);
+ *data_page = MALI_INVALID_PAGE;
+ *data_page_mapping = NULL;
+ }
+}
+
+static _mali_osk_errcode_t fill_page(mali_io_address mapping, u32 data)
+{
+ int i;
+ MALI_DEBUG_ASSERT_POINTER( mapping );
+
+ for(i = 0; i < MALI_MMU_PAGE_SIZE/4; i++) {
+ _mali_osk_mem_iowrite32_relaxed( mapping, i * sizeof(u32), data);
+ }
+ _mali_osk_mem_barrier();
+ MALI_SUCCESS;
+}
+
+_mali_osk_errcode_t mali_mmu_pagedir_map(struct mali_page_directory *pagedir, u32 mali_address, u32 size)
+{
+ const int first_pde = MALI_MMU_PDE_ENTRY(mali_address);
+ const int last_pde = MALI_MMU_PDE_ENTRY(mali_address + size - 1);
+ _mali_osk_errcode_t err;
+ mali_io_address pde_mapping;
+ u32 pde_phys;
+ int i;
+
+ if (last_pde < first_pde) {
+ MALI_ERROR(_MALI_OSK_ERR_INVALID_ARGS);
+ }
+
+ for(i = first_pde; i <= last_pde; i++) {
+ if(0 == (_mali_osk_mem_ioread32(pagedir->page_directory_mapped, i*sizeof(u32)) & MALI_MMU_FLAGS_PRESENT)) {
+ /* Page table not present */
+ MALI_DEBUG_ASSERT(0 == pagedir->page_entries_usage_count[i]);
+ MALI_DEBUG_ASSERT(NULL == pagedir->page_entries_mapped[i]);
+
+ err = mali_mmu_get_table_page(&pde_phys, &pde_mapping);
+ if(_MALI_OSK_ERR_OK != err) {
+ MALI_PRINT_ERROR(("Failed to allocate page table page.\n"));
+ return err;
+ }
+ pagedir->page_entries_mapped[i] = pde_mapping;
+
+ /* Update PDE, mark as present */
+ _mali_osk_mem_iowrite32_relaxed(pagedir->page_directory_mapped, i*sizeof(u32),
+ pde_phys | MALI_MMU_FLAGS_PRESENT);
+
+ MALI_DEBUG_ASSERT(0 == pagedir->page_entries_usage_count[i]);
+ pagedir->page_entries_usage_count[i] = 1;
+ } else {
+ pagedir->page_entries_usage_count[i]++;
+ }
+ }
+ _mali_osk_write_mem_barrier();
+
+ MALI_SUCCESS;
+}
+
+MALI_STATIC_INLINE void mali_mmu_zero_pte(mali_io_address page_table, u32 mali_address, u32 size)
+{
+ int i;
+ const int first_pte = MALI_MMU_PTE_ENTRY(mali_address);
+ const int last_pte = MALI_MMU_PTE_ENTRY(mali_address + size - 1);
+
+ for (i = first_pte; i <= last_pte; i++) {
+ _mali_osk_mem_iowrite32_relaxed(page_table, i * sizeof(u32), 0);
+ }
+}
+
+_mali_osk_errcode_t mali_mmu_pagedir_unmap(struct mali_page_directory *pagedir, u32 mali_address, u32 size)
+{
+ const int first_pde = MALI_MMU_PDE_ENTRY(mali_address);
+ const int last_pde = MALI_MMU_PDE_ENTRY(mali_address + size - 1);
+ u32 left = size;
+ int i;
+ mali_bool pd_changed = MALI_FALSE;
+ u32 pages_to_invalidate[3]; /* hard-coded to 3: max two pages from the PT level plus max one page from PD level */
+ u32 num_pages_inv = 0;
+ mali_bool invalidate_all = MALI_FALSE; /* safety mechanism in case page_entries_usage_count is unreliable */
+
+ /* For all page directory entries in range. */
+ for (i = first_pde; i <= last_pde; i++) {
+ u32 size_in_pde, offset;
+
+ MALI_DEBUG_ASSERT_POINTER(pagedir->page_entries_mapped[i]);
+ MALI_DEBUG_ASSERT(0 != pagedir->page_entries_usage_count[i]);
+
+ /* Offset into page table, 0 if mali_address is 4MiB aligned */
+ offset = (mali_address & (MALI_MMU_VIRTUAL_PAGE_SIZE - 1));
+ if (left < MALI_MMU_VIRTUAL_PAGE_SIZE - offset) {
+ size_in_pde = left;
+ } else {
+ size_in_pde = MALI_MMU_VIRTUAL_PAGE_SIZE - offset;
+ }
+
+ pagedir->page_entries_usage_count[i]--;
+
+ /* If entire page table is unused, free it */
+ if (0 == pagedir->page_entries_usage_count[i]) {
+ u32 page_phys;
+ void *page_virt;
+ MALI_DEBUG_PRINT(4, ("Releasing page table as this is the last reference\n"));
+ /* last reference removed, no need to zero out each PTE */
+
+ page_phys = MALI_MMU_ENTRY_ADDRESS(_mali_osk_mem_ioread32(pagedir->page_directory_mapped, i*sizeof(u32)));
+ page_virt = pagedir->page_entries_mapped[i];
+ pagedir->page_entries_mapped[i] = NULL;
+ _mali_osk_mem_iowrite32_relaxed(pagedir->page_directory_mapped, i*sizeof(u32), 0);
+
+ mali_mmu_release_table_page(page_phys, page_virt);
+ pd_changed = MALI_TRUE;
+ } else {
+ MALI_DEBUG_ASSERT(num_pages_inv < 2);
+ if (num_pages_inv < 2) {
+ pages_to_invalidate[num_pages_inv] = mali_page_directory_get_phys_address(pagedir, i);
+ num_pages_inv++;
+ } else {
+ invalidate_all = MALI_TRUE;
+ }
+
+ /* If part of the page table is still in use, zero the relevant PTEs */
+ mali_mmu_zero_pte(pagedir->page_entries_mapped[i], mali_address, size_in_pde);
+ }
+
+ left -= size_in_pde;
+ mali_address += size_in_pde;
+ }
+ _mali_osk_write_mem_barrier();
+
+ /* L2 pages invalidation */
+ if (MALI_TRUE == pd_changed) {
+ MALI_DEBUG_ASSERT(num_pages_inv < 3);
+ if (num_pages_inv < 3) {
+ pages_to_invalidate[num_pages_inv] = pagedir->page_directory;
+ num_pages_inv++;
+ } else {
+ invalidate_all = MALI_TRUE;
+ }
+ }
+
+ if (invalidate_all) {
+ mali_l2_cache_invalidate_all();
+ } else {
+ mali_l2_cache_invalidate_all_pages(pages_to_invalidate, num_pages_inv);
+ }
+
+ MALI_SUCCESS;
+}
+
+struct mali_page_directory *mali_mmu_pagedir_alloc(void)
+{
+ struct mali_page_directory *pagedir;
+
+ pagedir = _mali_osk_calloc(1, sizeof(struct mali_page_directory));
+ if(NULL == pagedir) {
+ return NULL;
+ }
+
+ if(_MALI_OSK_ERR_OK != mali_mmu_get_table_page(&pagedir->page_directory, &pagedir->page_directory_mapped)) {
+ _mali_osk_free(pagedir);
+ return NULL;
+ }
+
+ /* Zero page directory */
+ fill_page(pagedir->page_directory_mapped, 0);
+
+ return pagedir;
+}
+
+void mali_mmu_pagedir_free(struct mali_page_directory *pagedir)
+{
+ const int num_page_table_entries = sizeof(pagedir->page_entries_mapped) / sizeof(pagedir->page_entries_mapped[0]);
+ int i;
+
+ /* Free referenced page tables and zero PDEs. */
+ for (i = 0; i < num_page_table_entries; i++) {
+ if (pagedir->page_directory_mapped && (_mali_osk_mem_ioread32(pagedir->page_directory_mapped, sizeof(u32)*i) & MALI_MMU_FLAGS_PRESENT)) {
+ u32 phys = _mali_osk_mem_ioread32(pagedir->page_directory_mapped, i*sizeof(u32)) & ~MALI_MMU_FLAGS_MASK;
+ _mali_osk_mem_iowrite32_relaxed(pagedir->page_directory_mapped, i * sizeof(u32), 0);
+ mali_mmu_release_table_page(phys, pagedir->page_entries_mapped[i]);
+ }
+ }
+ _mali_osk_write_mem_barrier();
+
+ /* Free the page directory page. */
+ mali_mmu_release_table_page(pagedir->page_directory, pagedir->page_directory_mapped);
+
+ _mali_osk_free(pagedir);
+}
+
+
+void mali_mmu_pagedir_update(struct mali_page_directory *pagedir, u32 mali_address, u32 phys_address, u32 size, u32 permission_bits)
+{
+ u32 end_address = mali_address + size;
+
+ /* Map physical pages into MMU page tables */
+ for ( ; mali_address < end_address; mali_address += MALI_MMU_PAGE_SIZE, phys_address += MALI_MMU_PAGE_SIZE) {
+ MALI_DEBUG_ASSERT_POINTER(pagedir->page_entries_mapped[MALI_MMU_PDE_ENTRY(mali_address)]);
+ _mali_osk_mem_iowrite32_relaxed(pagedir->page_entries_mapped[MALI_MMU_PDE_ENTRY(mali_address)],
+ MALI_MMU_PTE_ENTRY(mali_address) * sizeof(u32),
+ phys_address | permission_bits);
+ }
+}
+
+u32 mali_page_directory_get_phys_address(struct mali_page_directory *pagedir, u32 index)
+{
+ return (_mali_osk_mem_ioread32(pagedir->page_directory_mapped, index*sizeof(u32)) & ~MALI_MMU_FLAGS_MASK);
+}
+
+/* For instrumented */
+struct dump_info {
+ u32 buffer_left;
+ u32 register_writes_size;
+ u32 page_table_dump_size;
+ u32 *buffer;
+};
+
+static _mali_osk_errcode_t writereg(u32 where, u32 what, const char *comment, struct dump_info *info)
+{
+ if (NULL != info) {
+ info->register_writes_size += sizeof(u32)*2; /* two 32-bit words */
+
+ if (NULL != info->buffer) {
+ /* check that we have enough space */
+ if (info->buffer_left < sizeof(u32)*2) MALI_ERROR(_MALI_OSK_ERR_NOMEM);
+
+ *info->buffer = where;
+ info->buffer++;
+
+ *info->buffer = what;
+ info->buffer++;
+
+ info->buffer_left -= sizeof(u32)*2;
+ }
+ }
+
+ MALI_SUCCESS;
+}
+
+static _mali_osk_errcode_t mali_mmu_dump_page(mali_io_address page, u32 phys_addr, struct dump_info * info)
+{
+ if (NULL != info) {
+ /* 4096 for the page and 4 bytes for the address */
+ const u32 page_size_in_elements = MALI_MMU_PAGE_SIZE / 4;
+ const u32 page_size_in_bytes = MALI_MMU_PAGE_SIZE;
+ const u32 dump_size_in_bytes = MALI_MMU_PAGE_SIZE + 4;
+
+ info->page_table_dump_size += dump_size_in_bytes;
+
+ if (NULL != info->buffer) {
+ if (info->buffer_left < dump_size_in_bytes) MALI_ERROR(_MALI_OSK_ERR_NOMEM);
+
+ *info->buffer = phys_addr;
+ info->buffer++;
+
+ _mali_osk_memcpy(info->buffer, page, page_size_in_bytes);
+ info->buffer += page_size_in_elements;
+
+ info->buffer_left -= dump_size_in_bytes;
+ }
+ }
+
+ MALI_SUCCESS;
+}
+
+static _mali_osk_errcode_t dump_mmu_page_table(struct mali_page_directory *pagedir, struct dump_info * info)
+{
+ MALI_DEBUG_ASSERT_POINTER(pagedir);
+ MALI_DEBUG_ASSERT_POINTER(info);
+
+ if (NULL != pagedir->page_directory_mapped) {
+ int i;
+
+ MALI_CHECK_NO_ERROR(
+ mali_mmu_dump_page(pagedir->page_directory_mapped, pagedir->page_directory, info)
+ );
+
+ for (i = 0; i < 1024; i++) {
+ if (NULL != pagedir->page_entries_mapped[i]) {
+ MALI_CHECK_NO_ERROR(
+ mali_mmu_dump_page(pagedir->page_entries_mapped[i],
+ _mali_osk_mem_ioread32(pagedir->page_directory_mapped,
+ i * sizeof(u32)) & ~MALI_MMU_FLAGS_MASK, info)
+ );
+ }
+ }
+ }
+
+ MALI_SUCCESS;
+}
+
+static _mali_osk_errcode_t dump_mmu_registers(struct mali_page_directory *pagedir, struct dump_info * info)
+{
+ MALI_CHECK_NO_ERROR(writereg(0x00000000, pagedir->page_directory,
+ "set the page directory address", info));
+ MALI_CHECK_NO_ERROR(writereg(0x00000008, 4, "zap???", info));
+ MALI_CHECK_NO_ERROR(writereg(0x00000008, 0, "enable paging", info));
+ MALI_SUCCESS;
+}
+
+_mali_osk_errcode_t _mali_ukk_query_mmu_page_table_dump_size( _mali_uk_query_mmu_page_table_dump_size_s *args )
+{
+ struct dump_info info = { 0, 0, 0, NULL };
+ struct mali_session_data * session_data;
+
+ MALI_DEBUG_ASSERT_POINTER(args);
+ MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS);
+
+ session_data = (struct mali_session_data *)(args->ctx);
+
+ MALI_CHECK_NO_ERROR(dump_mmu_registers(session_data->page_directory, &info));
+ MALI_CHECK_NO_ERROR(dump_mmu_page_table(session_data->page_directory, &info));
+ args->size = info.register_writes_size + info.page_table_dump_size;
+ MALI_SUCCESS;
+}
+
+_mali_osk_errcode_t _mali_ukk_dump_mmu_page_table( _mali_uk_dump_mmu_page_table_s * args )
+{
+ struct dump_info info = { 0, 0, 0, NULL };
+ struct mali_session_data * session_data;
+
+ MALI_DEBUG_ASSERT_POINTER(args);
+ MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS);
+ MALI_CHECK_NON_NULL(args->buffer, _MALI_OSK_ERR_INVALID_ARGS);
+
+ session_data = (struct mali_session_data *)(args->ctx);
+
+ info.buffer_left = args->size;
+ info.buffer = args->buffer;
+
+ args->register_writes = info.buffer;
+ MALI_CHECK_NO_ERROR(dump_mmu_registers(session_data->page_directory, &info));
+
+ args->page_table_dump = info.buffer;
+ MALI_CHECK_NO_ERROR(dump_mmu_page_table(session_data->page_directory, &info));
+
+ args->register_writes_size = info.register_writes_size;
+ args->page_table_dump_size = info.page_table_dump_size;
+
+ MALI_SUCCESS;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_MMU_PAGE_DIRECTORY_H__
+#define __MALI_MMU_PAGE_DIRECTORY_H__
+
+#include "mali_osk.h"
+
+/**
+ * Size of an MMU page in bytes
+ */
+#define MALI_MMU_PAGE_SIZE 0x1000
+
+/*
+ * Size of the address space referenced by a page table page
+ */
+#define MALI_MMU_VIRTUAL_PAGE_SIZE 0x400000 /* 4 MiB */
+
+/**
+ * Page directory index from address
+ * Calculates the page directory index from the given address
+ */
+#define MALI_MMU_PDE_ENTRY(address) (((address)>>22) & 0x03FF)
+
+/**
+ * Page table index from address
+ * Calculates the page table index from the given address
+ */
+#define MALI_MMU_PTE_ENTRY(address) (((address)>>12) & 0x03FF)
+
+/**
+ * Extract the memory address from an PDE/PTE entry
+ */
+#define MALI_MMU_ENTRY_ADDRESS(value) ((value) & 0xFFFFFC00)
+
+#define MALI_INVALID_PAGE ((u32)(~0))
+
+/**
+ *
+ */
+typedef enum mali_mmu_entry_flags {
+ MALI_MMU_FLAGS_PRESENT = 0x01,
+ MALI_MMU_FLAGS_READ_PERMISSION = 0x02,
+ MALI_MMU_FLAGS_WRITE_PERMISSION = 0x04,
+ MALI_MMU_FLAGS_OVERRIDE_CACHE = 0x8,
+ MALI_MMU_FLAGS_WRITE_CACHEABLE = 0x10,
+ MALI_MMU_FLAGS_WRITE_ALLOCATE = 0x20,
+ MALI_MMU_FLAGS_WRITE_BUFFERABLE = 0x40,
+ MALI_MMU_FLAGS_READ_CACHEABLE = 0x80,
+ MALI_MMU_FLAGS_READ_ALLOCATE = 0x100,
+ MALI_MMU_FLAGS_MASK = 0x1FF,
+} mali_mmu_entry_flags;
+
+
+#define MALI_MMU_FLAGS_FORCE_GP_READ_ALLOCATE ( \
+MALI_MMU_FLAGS_PRESENT | \
+ MALI_MMU_FLAGS_READ_PERMISSION | \
+ MALI_MMU_FLAGS_WRITE_PERMISSION | \
+ MALI_MMU_FLAGS_OVERRIDE_CACHE | \
+ MALI_MMU_FLAGS_WRITE_CACHEABLE | \
+ MALI_MMU_FLAGS_WRITE_BUFFERABLE | \
+ MALI_MMU_FLAGS_READ_CACHEABLE | \
+ MALI_MMU_FLAGS_READ_ALLOCATE )
+
+#define MALI_MMU_FLAGS_DEFAULT ( \
+ MALI_MMU_FLAGS_PRESENT | \
+ MALI_MMU_FLAGS_READ_PERMISSION | \
+ MALI_MMU_FLAGS_WRITE_PERMISSION )
+
+
+struct mali_page_directory {
+ u32 page_directory; /**< Physical address of the memory session's page directory */
+ mali_io_address page_directory_mapped; /**< Pointer to the mapped version of the page directory into the kernel's address space */
+
+ mali_io_address page_entries_mapped[1024]; /**< Pointers to the page tables which exists in the page directory mapped into the kernel's address space */
+ u32 page_entries_usage_count[1024]; /**< Tracks usage count of the page table pages, so they can be releases on the last reference */
+};
+
+/* Map Mali virtual address space (i.e. ensure page tables exist for the virtual range) */
+_mali_osk_errcode_t mali_mmu_pagedir_map(struct mali_page_directory *pagedir, u32 mali_address, u32 size);
+_mali_osk_errcode_t mali_mmu_pagedir_unmap(struct mali_page_directory *pagedir, u32 mali_address, u32 size);
+
+/* Back virtual address space with actual pages. Assumes input is contiguous and 4k aligned. */
+void mali_mmu_pagedir_update(struct mali_page_directory *pagedir, u32 mali_address, u32 phys_address, u32 size, u32 cache_settings);
+
+u32 mali_page_directory_get_phys_address(struct mali_page_directory *pagedir, u32 index);
+
+u32 mali_allocate_empty_page(mali_io_address *virtual);
+void mali_free_empty_page(u32 address, mali_io_address virtual);
+_mali_osk_errcode_t mali_create_fault_flush_pages(u32 *page_directory, mali_io_address *page_directory_mapping,
+ u32 *page_table, mali_io_address *page_table_mapping,
+ u32 *data_page, mali_io_address *data_page_mapping);
+void mali_destroy_fault_flush_pages(u32 *page_directory, mali_io_address *page_directory_mapping,
+ u32 *page_table, mali_io_address *page_table_mapping,
+ u32 *data_page, mali_io_address *data_page_mapping);
+
+struct mali_page_directory *mali_mmu_pagedir_alloc(void);
+void mali_mmu_pagedir_free(struct mali_page_directory *pagedir);
+
+#endif /* __MALI_MMU_PAGE_DIRECTORY_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk.h
+ * Defines the OS abstraction layer for the kernel device driver (OSK)
+ */
+
+#ifndef __MALI_OSK_H__
+#define __MALI_OSK_H__
+
+#include "mali_osk_types.h"
+#include "mali_osk_specific.h" /* include any per-os specifics */
+#include "mali_osk_locks.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * @addtogroup uddapi Unified Device Driver (UDD) APIs
+ *
+ * @{
+ */
+
+/**
+ * @addtogroup oskapi UDD OS Abstraction for Kernel-side (OSK) APIs
+ *
+ * @{
+ */
+
+/** @addtogroup _mali_osk_lock OSK Mutual Exclusion Locks
+ * @{ */
+
+#ifdef DEBUG
+/** @brief Macro for asserting that the current thread holds a given lock
+ */
+#define MALI_DEBUG_ASSERT_LOCK_HELD(l) MALI_DEBUG_ASSERT(_mali_osk_lock_get_owner((_mali_osk_lock_debug_t *)l) == _mali_osk_get_tid());
+
+/** @brief returns a lock's owner (thread id) if debugging is enabled
+ */
+#else
+#define MALI_DEBUG_ASSERT_LOCK_HELD(l) do {} while(0)
+#endif
+
+/** @} */ /* end group _mali_osk_lock */
+
+/** @addtogroup _mali_osk_miscellaneous
+ * @{ */
+
+/** @brief Find the containing structure of another structure
+ *
+ * This is the reverse of the operation 'offsetof'. This means that the
+ * following condition is satisfied:
+ *
+ * ptr == _MALI_OSK_CONTAINER_OF( &ptr->member, type, member )
+ *
+ * When ptr is of type 'type'.
+ *
+ * Its purpose it to recover a larger structure that has wrapped a smaller one.
+ *
+ * @note no type or memory checking occurs to ensure that a wrapper structure
+ * does in fact exist, and that it is being recovered with respect to the
+ * correct member.
+ *
+ * @param ptr the pointer to the member that is contained within the larger
+ * structure
+ * @param type the type of the structure that contains the member
+ * @param member the name of the member in the structure that ptr points to.
+ * @return a pointer to a \a type object which contains \a member, as pointed
+ * to by \a ptr.
+ */
+#define _MALI_OSK_CONTAINER_OF(ptr, type, member) \
+ ((type *)( ((char *)ptr) - offsetof(type,member) ))
+
+/** @addtogroup _mali_osk_wq
+ * @{ */
+
+/** @brief Initialize work queues (for deferred work)
+ *
+ * @return _MALI_OSK_ERR_OK on success, otherwise failure.
+ */
+_mali_osk_errcode_t _mali_osk_wq_init(void);
+
+/** @brief Terminate work queues (for deferred work)
+ */
+void _mali_osk_wq_term(void);
+
+/** @brief Create work in the work queue
+ *
+ * Creates a work object which can be scheduled in the work queue. When
+ * scheduled, \a handler will be called with \a data as the argument.
+ *
+ * Refer to \ref _mali_osk_wq_schedule_work() for details on how work
+ * is scheduled in the queue.
+ *
+ * The returned pointer must be freed with \ref _mali_osk_wq_delete_work()
+ * when no longer needed.
+ */
+_mali_osk_wq_work_t *_mali_osk_wq_create_work( _mali_osk_wq_work_handler_t handler, void *data );
+
+/** @brief A high priority version of \a _mali_osk_wq_create_work()
+ *
+ * Creates a work object which can be scheduled in the high priority work queue.
+ *
+ * This is unfortunately needed to get low latency scheduling of the Mali cores. Normally we would
+ * schedule the next job in hw_irq or tasklet, but often we can't since we need to synchronously map
+ * and unmap shared memory when a job is connected to external fences (timelines). And this requires
+ * taking a mutex.
+ *
+ * We do signal a lot of other (low priority) work also as part of the job being finished, and if we
+ * don't set this Mali scheduling thread as high priority, we see that the CPU scheduler often runs
+ * random things instead of starting the next GPU job when the GPU is idle. So setting the gpu
+ * scheduler to high priority does give a visually more responsive system.
+ *
+ * Start the high priority work with: \a _mali_osk_wq_schedule_work_high_pri()
+ */
+_mali_osk_wq_work_t *_mali_osk_wq_create_work_high_pri( _mali_osk_wq_work_handler_t handler, void *data );
+
+/** @brief Delete a work object
+ *
+ * This will flush the work queue to ensure that the work handler will not
+ * be called after deletion.
+ */
+void _mali_osk_wq_delete_work( _mali_osk_wq_work_t *work );
+
+/** @brief Delete a work object
+ *
+ * This will NOT flush the work queue, so only call this if you are sure that the work handler will
+ * not be called after deletion.
+ */
+void _mali_osk_wq_delete_work_nonflush( _mali_osk_wq_work_t *work );
+
+/** @brief Cause a queued, deferred call of the work handler
+ *
+ * _mali_osk_wq_schedule_work provides a mechanism for enqueuing deferred calls
+ * to the work handler. After calling \ref _mali_osk_wq_schedule_work(), the
+ * work handler will be scheduled to run at some point in the future.
+ *
+ * Typically this is called by the IRQ upper-half to defer further processing of
+ * IRQ-related work to the IRQ bottom-half handler. This is necessary for work
+ * that cannot be done in an IRQ context by the IRQ upper-half handler. Timer
+ * callbacks also use this mechanism, because they are treated as though they
+ * operate in an IRQ context. Refer to \ref _mali_osk_timer_t for more
+ * information.
+ *
+ * Code that operates in a kernel-process context (with no IRQ context
+ * restrictions) may also enqueue deferred calls to the IRQ bottom-half. The
+ * advantage over direct calling is that deferred calling allows the caller and
+ * IRQ bottom half to hold the same mutex, with a guarantee that they will not
+ * deadlock just by using this mechanism.
+ *
+ * _mali_osk_wq_schedule_work() places deferred call requests on a queue, to
+ * allow for more than one thread to make a deferred call. Therfore, if it is
+ * called 'K' times, then the IRQ bottom-half will be scheduled 'K' times too.
+ * 'K' is a number that is implementation-specific.
+ *
+ * _mali_osk_wq_schedule_work() is guaranteed to not block on:
+ * - enqueuing a deferred call request.
+ * - the completion of the work handler.
+ *
+ * This is to prevent deadlock. For example, if _mali_osk_wq_schedule_work()
+ * blocked, then it would cause a deadlock when the following two conditions
+ * hold:
+ * - The work handler callback (of type _mali_osk_wq_work_handler_t) locks
+ * a mutex
+ * - And, at the same time, the caller of _mali_osk_wq_schedule_work() also
+ * holds the same mutex
+ *
+ * @note care must be taken to not overflow the queue that
+ * _mali_osk_wq_schedule_work() operates on. Code must be structured to
+ * ensure that the number of requests made to the queue is bounded. Otherwise,
+ * work will be lost.
+ *
+ * The queue that _mali_osk_wq_schedule_work implements is a FIFO of N-writer,
+ * 1-reader type. The writers are the callers of _mali_osk_wq_schedule_work
+ * (all OSK-registered IRQ upper-half handlers in the system, watchdog timers,
+ * callers from a Kernel-process context). The reader is a single thread that
+ * handles all OSK-registered work.
+ *
+ * @param work a pointer to the _mali_osk_wq_work_t object corresponding to the
+ * work to begin processing.
+ */
+void _mali_osk_wq_schedule_work( _mali_osk_wq_work_t *work );
+
+/** @brief Cause a queued, deferred call of the high priority work handler
+ *
+ * Function is the same as \a _mali_osk_wq_schedule_work() with the only
+ * difference that it runs in a high (real time) priority on the system.
+ *
+ * Should only be used as a substitue for doing the same work in interrupts.
+ *
+ * This is allowed to sleep, but the work should be small since it will block
+ * all other applications.
+*/
+void _mali_osk_wq_schedule_work_high_pri( _mali_osk_wq_work_t *work );
+
+/** @brief Flush the work queue
+ *
+ * This will flush the OSK work queue, ensuring all work in the queue has
+ * completed before returning.
+ *
+ * Since this blocks on the completion of work in the work-queue, the
+ * caller of this function \b must \b not hold any mutexes that are taken by
+ * any registered work handler. To do so may cause a deadlock.
+ *
+ */
+void _mali_osk_wq_flush(void);
+
+/** @brief Create work in the delayed work queue
+ *
+ * Creates a work object which can be scheduled in the work queue. When
+ * scheduled, a timer will be start and the \a handler will be called with
+ * \a data as the argument when timer out
+ *
+ * Refer to \ref _mali_osk_wq_delayed_schedule_work() for details on how work
+ * is scheduled in the queue.
+ *
+ * The returned pointer must be freed with \ref _mali_osk_wq_delayed_delete_work_nonflush()
+ * when no longer needed.
+ */
+_mali_osk_wq_delayed_work_t *_mali_osk_wq_delayed_create_work(_mali_osk_wq_work_handler_t handler, void *data);
+
+/** @brief Delete a work object
+ *
+ * This will NOT flush the work queue, so only call this if you are sure that the work handler will
+ * not be called after deletion.
+ */
+void _mali_osk_wq_delayed_delete_work_nonflush(_mali_osk_wq_delayed_work_t *work);
+
+/** @brief Cancel a delayed work without waiting for it to finish
+ *
+ * Note that the \a work callback function may still be running on return from
+ * _mali_osk_wq_delayed_cancel_work_async().
+ *
+ * @param work The delayed work to be cancelled
+ */
+void _mali_osk_wq_delayed_cancel_work_async(_mali_osk_wq_delayed_work_t *work);
+
+/** @brief Cancel a delayed work and wait for it to finish
+ *
+ * When this function returns, the \a work was either cancelled or it finished running.
+ *
+ * @param work The delayed work to be cancelled
+ */
+void _mali_osk_wq_delayed_cancel_work_sync(_mali_osk_wq_delayed_work_t *work);
+
+/** @brief Put \a work task in global workqueue after delay
+ *
+ * After waiting for a given time this puts a job in the kernel-global
+ * workqueue.
+ *
+ * If \a work was already on a queue, this function will return without doing anything
+ *
+ * @param work job to be done
+ * @param delay number of jiffies to wait or 0 for immediate execution
+ */
+void _mali_osk_wq_delayed_schedule_work(_mali_osk_wq_delayed_work_t *work, u32 delay);
+
+/** @} */ /* end group _mali_osk_wq */
+
+
+/** @addtogroup _mali_osk_irq
+ * @{ */
+
+/** @brief Initialize IRQ handling for a resource
+ *
+ * Registers an interrupt handler \a uhandler for the given IRQ number \a irqnum.
+ * \a data will be passed as argument to the handler when an interrupt occurs.
+ *
+ * If \a irqnum is -1, _mali_osk_irq_init will probe for the IRQ number using
+ * the supplied \a trigger_func and \a ack_func. These functions will also
+ * receive \a data as their argument.
+ *
+ * @param irqnum The IRQ number that the resource uses, as seen by the CPU.
+ * The value -1 has a special meaning which indicates the use of probing, and
+ * trigger_func and ack_func must be non-NULL.
+ * @param uhandler The interrupt handler, corresponding to a ISR handler for
+ * the resource
+ * @param int_data resource specific data, which will be passed to uhandler
+ * @param trigger_func Optional: a function to trigger the resource's irq, to
+ * probe for the interrupt. Use NULL if irqnum != -1.
+ * @param ack_func Optional: a function to acknowledge the resource's irq, to
+ * probe for the interrupt. Use NULL if irqnum != -1.
+ * @param probe_data resource-specific data, which will be passed to
+ * (if present) trigger_func and ack_func
+ * @param description textual description of the IRQ resource.
+ * @return on success, a pointer to a _mali_osk_irq_t object, which represents
+ * the IRQ handling on this resource. NULL on failure.
+ */
+_mali_osk_irq_t *_mali_osk_irq_init( u32 irqnum, _mali_osk_irq_uhandler_t uhandler, void *int_data, _mali_osk_irq_trigger_t trigger_func, _mali_osk_irq_ack_t ack_func, void *probe_data, const char *description );
+
+/** @brief Terminate IRQ handling on a resource.
+ *
+ * This will disable the interrupt from the device, and then waits for any
+ * currently executing IRQ handlers to complete.
+ *
+ * @note If work is deferred to an IRQ bottom-half handler through
+ * \ref _mali_osk_wq_schedule_work(), be sure to flush any remaining work
+ * with \ref _mali_osk_wq_flush() or (implicitly) with \ref _mali_osk_wq_delete_work()
+ *
+ * @param irq a pointer to the _mali_osk_irq_t object corresponding to the
+ * resource whose IRQ handling is to be terminated.
+ */
+void _mali_osk_irq_term( _mali_osk_irq_t *irq );
+
+/** @} */ /* end group _mali_osk_irq */
+
+
+/** @addtogroup _mali_osk_atomic
+ * @{ */
+
+/** @brief Decrement an atomic counter
+ *
+ * @note It is an error to decrement the counter beyond -(1<<23)
+ *
+ * @param atom pointer to an atomic counter */
+void _mali_osk_atomic_dec( _mali_osk_atomic_t *atom );
+
+/** @brief Decrement an atomic counter, return new value
+ *
+ * @param atom pointer to an atomic counter
+ * @return The new value, after decrement */
+u32 _mali_osk_atomic_dec_return( _mali_osk_atomic_t *atom );
+
+/** @brief Increment an atomic counter
+ *
+ * @note It is an error to increment the counter beyond (1<<23)-1
+ *
+ * @param atom pointer to an atomic counter */
+void _mali_osk_atomic_inc( _mali_osk_atomic_t *atom );
+
+/** @brief Increment an atomic counter, return new value
+ *
+ * @param atom pointer to an atomic counter */
+u32 _mali_osk_atomic_inc_return( _mali_osk_atomic_t *atom );
+
+/** @brief Initialize an atomic counter
+ *
+ * @note the parameter required is a u32, and so signed integers should be
+ * cast to u32.
+ *
+ * @param atom pointer to an atomic counter
+ * @param val the value to initialize the atomic counter.
+ * @return _MALI_OSK_ERR_OK on success, otherwise, a suitable
+ * _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_osk_atomic_init( _mali_osk_atomic_t *atom, u32 val );
+
+/** @brief Read a value from an atomic counter
+ *
+ * This can only be safely used to determine the value of the counter when it
+ * is guaranteed that other threads will not be modifying the counter. This
+ * makes its usefulness limited.
+ *
+ * @param atom pointer to an atomic counter
+ */
+u32 _mali_osk_atomic_read( _mali_osk_atomic_t *atom );
+
+/** @brief Terminate an atomic counter
+ *
+ * @param atom pointer to an atomic counter
+ */
+void _mali_osk_atomic_term( _mali_osk_atomic_t *atom );
+
+/** @brief Assign a new val to atomic counter, and return the old atomic counter
+ *
+ * @param atom pointer to an atomic counter
+ * @param val the new value assign to the atomic counter
+ * @return the old value of the atomic counter
+ */
+u32 _mali_osk_atomic_xchg( _mali_osk_atomic_t *atom, u32 val );
+/** @} */ /* end group _mali_osk_atomic */
+
+
+/** @defgroup _mali_osk_memory OSK Memory Allocation
+ * @{ */
+
+/** @brief Allocate zero-initialized memory.
+ *
+ * Returns a buffer capable of containing at least \a n elements of \a size
+ * bytes each. The buffer is initialized to zero.
+ *
+ * If there is a need for a bigger block of memory (16KB or bigger), then
+ * consider to use _mali_osk_vmalloc() instead, as this function might
+ * map down to a OS function with size limitations.
+ *
+ * The buffer is suitably aligned for storage and subsequent access of every
+ * type that the compiler supports. Therefore, the pointer to the start of the
+ * buffer may be cast into any pointer type, and be subsequently accessed from
+ * such a pointer, without loss of information.
+ *
+ * When the buffer is no longer in use, it must be freed with _mali_osk_free().
+ * Failure to do so will cause a memory leak.
+ *
+ * @note Most toolchains supply memory allocation functions that meet the
+ * compiler's alignment requirements.
+ *
+ * @param n Number of elements to allocate
+ * @param size Size of each element
+ * @return On success, the zero-initialized buffer allocated. NULL on failure
+ */
+void *_mali_osk_calloc( u32 n, u32 size );
+
+/** @brief Allocate memory.
+ *
+ * Returns a buffer capable of containing at least \a size bytes. The
+ * contents of the buffer are undefined.
+ *
+ * If there is a need for a bigger block of memory (16KB or bigger), then
+ * consider to use _mali_osk_vmalloc() instead, as this function might
+ * map down to a OS function with size limitations.
+ *
+ * The buffer is suitably aligned for storage and subsequent access of every
+ * type that the compiler supports. Therefore, the pointer to the start of the
+ * buffer may be cast into any pointer type, and be subsequently accessed from
+ * such a pointer, without loss of information.
+ *
+ * When the buffer is no longer in use, it must be freed with _mali_osk_free().
+ * Failure to do so will cause a memory leak.
+ *
+ * @note Most toolchains supply memory allocation functions that meet the
+ * compiler's alignment requirements.
+ *
+ * Remember to free memory using _mali_osk_free().
+ * @param size Number of bytes to allocate
+ * @return On success, the buffer allocated. NULL on failure.
+ */
+void *_mali_osk_malloc( u32 size );
+
+/** @brief Free memory.
+ *
+ * Reclaims the buffer pointed to by the parameter \a ptr for the system.
+ * All memory returned from _mali_osk_malloc() and _mali_osk_calloc()
+ * must be freed before the application exits. Otherwise,
+ * a memory leak will occur.
+ *
+ * Memory must be freed once. It is an error to free the same non-NULL pointer
+ * more than once.
+ *
+ * It is legal to free the NULL pointer.
+ *
+ * @param ptr Pointer to buffer to free
+ */
+void _mali_osk_free( void *ptr );
+
+/** @brief Allocate memory.
+ *
+ * Returns a buffer capable of containing at least \a size bytes. The
+ * contents of the buffer are undefined.
+ *
+ * This function is potentially slower than _mali_osk_malloc() and _mali_osk_calloc(),
+ * but do support bigger sizes.
+ *
+ * The buffer is suitably aligned for storage and subsequent access of every
+ * type that the compiler supports. Therefore, the pointer to the start of the
+ * buffer may be cast into any pointer type, and be subsequently accessed from
+ * such a pointer, without loss of information.
+ *
+ * When the buffer is no longer in use, it must be freed with _mali_osk_free().
+ * Failure to do so will cause a memory leak.
+ *
+ * @note Most toolchains supply memory allocation functions that meet the
+ * compiler's alignment requirements.
+ *
+ * Remember to free memory using _mali_osk_free().
+ * @param size Number of bytes to allocate
+ * @return On success, the buffer allocated. NULL on failure.
+ */
+void *_mali_osk_valloc( u32 size );
+
+/** @brief Free memory.
+ *
+ * Reclaims the buffer pointed to by the parameter \a ptr for the system.
+ * All memory returned from _mali_osk_valloc() must be freed before the
+ * application exits. Otherwise a memory leak will occur.
+ *
+ * Memory must be freed once. It is an error to free the same non-NULL pointer
+ * more than once.
+ *
+ * It is legal to free the NULL pointer.
+ *
+ * @param ptr Pointer to buffer to free
+ */
+void _mali_osk_vfree( void *ptr );
+
+/** @brief Copies memory.
+ *
+ * Copies the \a len bytes from the buffer pointed by the parameter \a src
+ * directly to the buffer pointed by \a dst.
+ *
+ * It is an error for \a src to overlap \a dst anywhere in \a len bytes.
+ *
+ * @param dst Pointer to the destination array where the content is to be
+ * copied.
+ * @param src Pointer to the source of data to be copied.
+ * @param len Number of bytes to copy.
+ * @return \a dst is always passed through unmodified.
+ */
+void *_mali_osk_memcpy( void *dst, const void *src, u32 len );
+
+/** @brief Fills memory.
+ *
+ * Sets the first \a n bytes of the block of memory pointed to by \a s to
+ * the specified value
+ * @param s Pointer to the block of memory to fill.
+ * @param c Value to be set, passed as u32. Only the 8 Least Significant Bits (LSB)
+ * are used.
+ * @param n Number of bytes to be set to the value.
+ * @return \a s is always passed through unmodified
+ */
+void *_mali_osk_memset( void *s, u32 c, u32 n );
+/** @} */ /* end group _mali_osk_memory */
+
+
+/** @brief Checks the amount of memory allocated
+ *
+ * Checks that not more than \a max_allocated bytes are allocated.
+ *
+ * Some OS bring up an interactive out of memory dialogue when the
+ * system runs out of memory. This can stall non-interactive
+ * apps (e.g. automated test runs). This function can be used to
+ * not trigger the OOM dialogue by keeping allocations
+ * within a certain limit.
+ *
+ * @return MALI_TRUE when \a max_allocated bytes are not in use yet. MALI_FALSE
+ * when at least \a max_allocated bytes are in use.
+ */
+mali_bool _mali_osk_mem_check_allocated( u32 max_allocated );
+
+
+/** @addtogroup _mali_osk_low_level_memory
+ * @{ */
+
+/** @brief Issue a memory barrier
+ *
+ * This defines an arbitrary memory barrier operation, which forces an ordering constraint
+ * on memory read and write operations.
+ */
+void _mali_osk_mem_barrier( void );
+
+/** @brief Issue a write memory barrier
+ *
+ * This defines an write memory barrier operation which forces an ordering constraint
+ * on memory write operations.
+ */
+void _mali_osk_write_mem_barrier( void );
+
+/** @brief Map a physically contiguous region into kernel space
+ *
+ * This is primarily used for mapping in registers from resources, and Mali-MMU
+ * page tables. The mapping is only visable from kernel-space.
+ *
+ * Access has to go through _mali_osk_mem_ioread32 and _mali_osk_mem_iowrite32
+ *
+ * @param phys CPU-physical base address of the memory to map in. This must
+ * be aligned to the system's page size, which is assumed to be 4K.
+ * @param size the number of bytes of physically contiguous address space to
+ * map in
+ * @param description A textual description of the memory being mapped in.
+ * @return On success, a Mali IO address through which the mapped-in
+ * memory/registers can be accessed. NULL on failure.
+ */
+mali_io_address _mali_osk_mem_mapioregion( u32 phys, u32 size, const char *description );
+
+/** @brief Unmap a physically contiguous address range from kernel space.
+ *
+ * The address range should be one previously mapped in through
+ * _mali_osk_mem_mapioregion.
+ *
+ * It is a programming error to do (but not limited to) the following:
+ * - attempt an unmap twice
+ * - unmap only part of a range obtained through _mali_osk_mem_mapioregion
+ * - unmap more than the range obtained through _mali_osk_mem_mapioregion
+ * - unmap an address range that was not successfully mapped using
+ * _mali_osk_mem_mapioregion
+ * - provide a mapping that does not map to phys.
+ *
+ * @param phys CPU-physical base address of the memory that was originally
+ * mapped in. This must be aligned to the system's page size, which is assumed
+ * to be 4K
+ * @param size The number of bytes that were originally mapped in.
+ * @param mapping The Mali IO address through which the mapping is
+ * accessed.
+ */
+void _mali_osk_mem_unmapioregion( u32 phys, u32 size, mali_io_address mapping );
+
+/** @brief Allocate and Map a physically contiguous region into kernel space
+ *
+ * This is used for allocating physically contiguous regions (such as Mali-MMU
+ * page tables) and mapping them into kernel space. The mapping is only
+ * visible from kernel-space.
+ *
+ * The alignment of the returned memory is guaranteed to be at least
+ * _MALI_OSK_CPU_PAGE_SIZE.
+ *
+ * Access must go through _mali_osk_mem_ioread32 and _mali_osk_mem_iowrite32
+ *
+ * @note This function is primarily to provide support for OSs that are
+ * incapable of separating the tasks 'allocate physically contiguous memory'
+ * and 'map it into kernel space'
+ *
+ * @param[out] phys CPU-physical base address of memory that was allocated.
+ * (*phys) will be guaranteed to be aligned to at least
+ * _MALI_OSK_CPU_PAGE_SIZE on success.
+ *
+ * @param[in] size the number of bytes of physically contiguous memory to
+ * allocate. This must be a multiple of _MALI_OSK_CPU_PAGE_SIZE.
+ *
+ * @return On success, a Mali IO address through which the mapped-in
+ * memory/registers can be accessed. NULL on failure, and (*phys) is unmodified.
+ */
+mali_io_address _mali_osk_mem_allocioregion( u32 *phys, u32 size );
+
+/** @brief Free a physically contiguous address range from kernel space.
+ *
+ * The address range should be one previously mapped in through
+ * _mali_osk_mem_allocioregion.
+ *
+ * It is a programming error to do (but not limited to) the following:
+ * - attempt a free twice on the same ioregion
+ * - free only part of a range obtained through _mali_osk_mem_allocioregion
+ * - free more than the range obtained through _mali_osk_mem_allocioregion
+ * - free an address range that was not successfully mapped using
+ * _mali_osk_mem_allocioregion
+ * - provide a mapping that does not map to phys.
+ *
+ * @param phys CPU-physical base address of the memory that was originally
+ * mapped in, which was aligned to _MALI_OSK_CPU_PAGE_SIZE.
+ * @param size The number of bytes that were originally mapped in, which was
+ * a multiple of _MALI_OSK_CPU_PAGE_SIZE.
+ * @param mapping The Mali IO address through which the mapping is
+ * accessed.
+ */
+void _mali_osk_mem_freeioregion( u32 phys, u32 size, mali_io_address mapping );
+
+/** @brief Request a region of physically contiguous memory
+ *
+ * This is used to ensure exclusive access to a region of physically contigous
+ * memory.
+ *
+ * It is acceptable to implement this as a stub. However, it is then the job
+ * of the System Integrator to ensure that no other device driver will be using
+ * the physical address ranges used by Mali, while the Mali device driver is
+ * loaded.
+ *
+ * @param phys CPU-physical base address of the memory to request. This must
+ * be aligned to the system's page size, which is assumed to be 4K.
+ * @param size the number of bytes of physically contiguous address space to
+ * request.
+ * @param description A textual description of the memory being requested.
+ * @return _MALI_OSK_ERR_OK on success. Otherwise, a suitable
+ * _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_osk_mem_reqregion( u32 phys, u32 size, const char *description );
+
+/** @brief Un-request a region of physically contiguous memory
+ *
+ * This is used to release a regious of physically contiguous memory previously
+ * requested through _mali_osk_mem_reqregion, so that other device drivers may
+ * use it. This will be called at time of Mali device driver termination.
+ *
+ * It is a programming error to attempt to:
+ * - unrequest a region twice
+ * - unrequest only part of a range obtained through _mali_osk_mem_reqregion
+ * - unrequest more than the range obtained through _mali_osk_mem_reqregion
+ * - unrequest an address range that was not successfully requested using
+ * _mali_osk_mem_reqregion
+ *
+ * @param phys CPU-physical base address of the memory to un-request. This must
+ * be aligned to the system's page size, which is assumed to be 4K
+ * @param size the number of bytes of physically contiguous address space to
+ * un-request.
+ */
+void _mali_osk_mem_unreqregion( u32 phys, u32 size );
+
+/** @brief Read from a location currently mapped in through
+ * _mali_osk_mem_mapioregion
+ *
+ * This reads a 32-bit word from a 32-bit aligned location. It is a programming
+ * error to provide unaligned locations, or to read from memory that is not
+ * mapped in, or not mapped through either _mali_osk_mem_mapioregion() or
+ * _mali_osk_mem_allocioregion().
+ *
+ * @param mapping Mali IO address to read from
+ * @param offset Byte offset from the given IO address to operate on, must be a multiple of 4
+ * @return the 32-bit word from the specified location.
+ */
+u32 _mali_osk_mem_ioread32( volatile mali_io_address mapping, u32 offset );
+
+/** @brief Write to a location currently mapped in through
+ * _mali_osk_mem_mapioregion without memory barriers
+ *
+ * This write a 32-bit word to a 32-bit aligned location without using memory barrier.
+ * It is a programming error to provide unaligned locations, or to write to memory that is not
+ * mapped in, or not mapped through either _mali_osk_mem_mapioregion() or
+ * _mali_osk_mem_allocioregion().
+ *
+ * @param mapping Mali IO address to write to
+ * @param offset Byte offset from the given IO address to operate on, must be a multiple of 4
+ * @param val the 32-bit word to write.
+ */
+void _mali_osk_mem_iowrite32_relaxed( volatile mali_io_address addr, u32 offset, u32 val );
+
+/** @brief Write to a location currently mapped in through
+ * _mali_osk_mem_mapioregion with write memory barrier
+ *
+ * This write a 32-bit word to a 32-bit aligned location. It is a programming
+ * error to provide unaligned locations, or to write to memory that is not
+ * mapped in, or not mapped through either _mali_osk_mem_mapioregion() or
+ * _mali_osk_mem_allocioregion().
+ *
+ * @param mapping Mali IO address to write to
+ * @param offset Byte offset from the given IO address to operate on, must be a multiple of 4
+ * @param val the 32-bit word to write.
+ */
+void _mali_osk_mem_iowrite32( volatile mali_io_address mapping, u32 offset, u32 val );
+
+/** @brief Flush all CPU caches
+ *
+ * This should only be implemented if flushing of the cache is required for
+ * memory mapped in through _mali_osk_mem_mapregion.
+ */
+void _mali_osk_cache_flushall( void );
+
+/** @brief Flush any caches necessary for the CPU and MALI to have the same view of a range of uncached mapped memory
+ *
+ * This should only be implemented if your OS doesn't do a full cache flush (inner & outer)
+ * after allocating uncached mapped memory.
+ *
+ * Some OS do not perform a full cache flush (including all outer caches) for uncached mapped memory.
+ * They zero the memory through a cached mapping, then flush the inner caches but not the outer caches.
+ * This is required for MALI to have the correct view of the memory.
+ */
+void _mali_osk_cache_ensure_uncached_range_flushed( void *uncached_mapping, u32 offset, u32 size );
+
+/** @} */ /* end group _mali_osk_low_level_memory */
+
+
+/** @addtogroup _mali_osk_notification
+ *
+ * User space notification framework
+ *
+ * Communication with user space of asynchronous events is performed through a
+ * synchronous call to the \ref u_k_api.
+ *
+ * Since the events are asynchronous, the events have to be queued until a
+ * synchronous U/K API call can be made by user-space. A U/K API call might also
+ * be received before any event has happened. Therefore the notifications the
+ * different subsystems wants to send to user space has to be queued for later
+ * reception, or a U/K API call has to be blocked until an event has occured.
+ *
+ * Typical uses of notifications are after running of jobs on the hardware or
+ * when changes to the system is detected that needs to be relayed to user
+ * space.
+ *
+ * After an event has occured user space has to be notified using some kind of
+ * message. The notification framework supports sending messages to waiting
+ * threads or queueing of messages until a U/K API call is made.
+ *
+ * The notification queue is a FIFO. There are no restrictions on the numbers
+ * of readers or writers in the queue.
+ *
+ * A message contains what user space needs to identifiy how to handle an
+ * event. This includes a type field and a possible type specific payload.
+ *
+ * A notification to user space is represented by a
+ * \ref _mali_osk_notification_t object. A sender gets hold of such an object
+ * using _mali_osk_notification_create(). The buffer given by the
+ * _mali_osk_notification_t::result_buffer field in the object is used to store
+ * any type specific data. The other fields are internal to the queue system
+ * and should not be touched.
+ *
+ * @{ */
+
+/** @brief Create a notification object
+ *
+ * Returns a notification object which can be added to the queue of
+ * notifications pending for user space transfer.
+ *
+ * The implementation will initialize all members of the
+ * \ref _mali_osk_notification_t object. In particular, the
+ * _mali_osk_notification_t::result_buffer member will be initialized to point
+ * to \a size bytes of storage, and that storage will be suitably aligned for
+ * storage of any structure. That is, the created buffer meets the same
+ * requirements as _mali_osk_malloc().
+ *
+ * The notification object must be deleted when not in use. Use
+ * _mali_osk_notification_delete() for deleting it.
+ *
+ * @note You \b must \b not call _mali_osk_free() on a \ref _mali_osk_notification_t,
+ * object, or on a _mali_osk_notification_t::result_buffer. You must only use
+ * _mali_osk_notification_delete() to free the resources assocaited with a
+ * \ref _mali_osk_notification_t object.
+ *
+ * @param type The notification type
+ * @param size The size of the type specific buffer to send
+ * @return Pointer to a notification object with a suitable buffer, or NULL on error.
+ */
+_mali_osk_notification_t *_mali_osk_notification_create( u32 type, u32 size );
+
+/** @brief Delete a notification object
+ *
+ * This must be called to reclaim the resources of a notification object. This
+ * includes:
+ * - The _mali_osk_notification_t::result_buffer
+ * - The \ref _mali_osk_notification_t itself.
+ *
+ * A notification object \b must \b not be used after it has been deleted by
+ * _mali_osk_notification_delete().
+ *
+ * In addition, the notification object may not be deleted while it is in a
+ * queue. That is, if it has been placed on a queue with
+ * _mali_osk_notification_queue_send(), then it must not be deleted until
+ * it has been received by a call to _mali_osk_notification_queue_receive().
+ * Otherwise, the queue may be corrupted.
+ *
+ * @param object the notification object to delete.
+ */
+void _mali_osk_notification_delete( _mali_osk_notification_t *object );
+
+/** @brief Create a notification queue
+ *
+ * Creates a notification queue which can be used to queue messages for user
+ * delivery and get queued messages from
+ *
+ * The queue is a FIFO, and has no restrictions on the numbers of readers or
+ * writers.
+ *
+ * When the queue is no longer in use, it must be terminated with
+ * \ref _mali_osk_notification_queue_term(). Failure to do so will result in a
+ * memory leak.
+ *
+ * @return Pointer to a new notification queue or NULL on error.
+ */
+_mali_osk_notification_queue_t *_mali_osk_notification_queue_init( void );
+
+/** @brief Destroy a notification queue
+ *
+ * Destroys a notification queue and frees associated resources from the queue.
+ *
+ * A notification queue \b must \b not be destroyed in the following cases:
+ * - while there are \ref _mali_osk_notification_t objects in the queue.
+ * - while there are writers currently acting upon the queue. That is, while
+ * a thread is currently calling \ref _mali_osk_notification_queue_send() on
+ * the queue, or while a thread may call
+ * \ref _mali_osk_notification_queue_send() on the queue in the future.
+ * - while there are readers currently waiting upon the queue. That is, while
+ * a thread is currently calling \ref _mali_osk_notification_queue_receive() on
+ * the queue, or while a thread may call
+ * \ref _mali_osk_notification_queue_receive() on the queue in the future.
+ *
+ * Therefore, all \ref _mali_osk_notification_t objects must be flushed and
+ * deleted by the code that makes use of the notification queues, since only
+ * they know the structure of the _mali_osk_notification_t::result_buffer
+ * (even if it may only be a flat sturcture).
+ *
+ * @note Since the queue is a FIFO, the code using notification queues may
+ * create its own 'flush' type of notification, to assist in flushing the
+ * queue.
+ *
+ * Once the queue has been destroyed, it must not be used again.
+ *
+ * @param queue The queue to destroy
+ */
+void _mali_osk_notification_queue_term( _mali_osk_notification_queue_t *queue );
+
+/** @brief Schedule notification for delivery
+ *
+ * When a \ref _mali_osk_notification_t object has been created successfully
+ * and set up, it may be added to the queue of objects waiting for user space
+ * transfer.
+ *
+ * The sending will not block if the queue is full.
+ *
+ * A \ref _mali_osk_notification_t object \b must \b not be put on two different
+ * queues at the same time, or enqueued twice onto a single queue before
+ * reception. However, it is acceptable for it to be requeued \em after reception
+ * from a call to _mali_osk_notification_queue_receive(), even onto the same queue.
+ *
+ * Again, requeuing must also not enqueue onto two different queues at the same
+ * time, or enqueue onto the same queue twice before reception.
+ *
+ * @param queue The notification queue to add this notification to
+ * @param object The entry to add
+ */
+void _mali_osk_notification_queue_send( _mali_osk_notification_queue_t *queue, _mali_osk_notification_t *object );
+
+/** @brief Receive a notification from a queue
+ *
+ * Receives a single notification from the given queue.
+ *
+ * If no notifciations are ready the thread will sleep until one becomes ready.
+ * Therefore, notifications may not be received into an
+ * IRQ or 'atomic' context (that is, a context where sleeping is disallowed).
+ *
+ * @param queue The queue to receive from
+ * @param result Pointer to storage of a pointer of type
+ * \ref _mali_osk_notification_t*. \a result will be written to such that the
+ * expression \a (*result) will evaluate to a pointer to a valid
+ * \ref _mali_osk_notification_t object, or NULL if none were received.
+ * @return _MALI_OSK_ERR_OK on success. _MALI_OSK_ERR_RESTARTSYSCALL if the sleep was interrupted.
+ */
+_mali_osk_errcode_t _mali_osk_notification_queue_receive( _mali_osk_notification_queue_t *queue, _mali_osk_notification_t **result );
+
+/** @brief Dequeues a notification from a queue
+ *
+ * Receives a single notification from the given queue.
+ *
+ * If no notifciations are ready the function call will return an error code.
+ *
+ * @param queue The queue to receive from
+ * @param result Pointer to storage of a pointer of type
+ * \ref _mali_osk_notification_t*. \a result will be written to such that the
+ * expression \a (*result) will evaluate to a pointer to a valid
+ * \ref _mali_osk_notification_t object, or NULL if none were received.
+ * @return _MALI_OSK_ERR_OK on success, _MALI_OSK_ERR_ITEM_NOT_FOUND if queue was empty.
+ */
+_mali_osk_errcode_t _mali_osk_notification_queue_dequeue( _mali_osk_notification_queue_t *queue, _mali_osk_notification_t **result );
+
+/** @} */ /* end group _mali_osk_notification */
+
+
+/** @addtogroup _mali_osk_timer
+ *
+ * Timers use the OS's representation of time, which are 'ticks'. This is to
+ * prevent aliasing problems between the internal timer time, and the time
+ * asked for.
+ *
+ * @{ */
+
+/** @brief Initialize a timer
+ *
+ * Allocates resources for a new timer, and initializes them. This does not
+ * start the timer.
+ *
+ * @return a pointer to the allocated timer object, or NULL on failure.
+ */
+_mali_osk_timer_t *_mali_osk_timer_init(void);
+
+/** @brief Start a timer
+ *
+ * It is an error to start a timer without setting the callback via
+ * _mali_osk_timer_setcallback().
+ *
+ * It is an error to use this to start an already started timer.
+ *
+ * The timer will expire in \a ticks_to_expire ticks, at which point, the
+ * callback function will be invoked with the callback-specific data,
+ * as registered by _mali_osk_timer_setcallback().
+ *
+ * @param tim the timer to start
+ * @param ticks_to_expire the amount of time in ticks for the timer to run
+ * before triggering.
+ */
+void _mali_osk_timer_add( _mali_osk_timer_t *tim, u32 ticks_to_expire );
+
+/** @brief Modify a timer
+ *
+ * Set the relative time at which a timer will expire, and start it if it is
+ * stopped. If \a ticks_to_expire 0 the timer fires immediately.
+ *
+ * It is an error to modify a timer without setting the callback via
+ * _mali_osk_timer_setcallback().
+ *
+ * The timer will expire at \a ticks_to_expire from the time of the call, at
+ * which point, the callback function will be invoked with the
+ * callback-specific data, as set by _mali_osk_timer_setcallback().
+ *
+ * @param tim the timer to modify, and start if necessary
+ * @param ticks_to_expire the \em absolute time in ticks at which this timer
+ * should trigger.
+ *
+ */
+void _mali_osk_timer_mod( _mali_osk_timer_t *tim, u32 ticks_to_expire);
+
+/** @brief Stop a timer, and block on its completion.
+ *
+ * Stop the timer. When the function returns, it is guaranteed that the timer's
+ * callback will not be running on any CPU core.
+ *
+ * Since stoping the timer blocks on compeletion of the callback, the callback
+ * may not obtain any mutexes that the caller holds. Otherwise, a deadlock will
+ * occur.
+ *
+ * @note While the callback itself is guaranteed to not be running, work
+ * enqueued on the work-queue by the timer (with
+ * \ref _mali_osk_wq_schedule_work()) may still run. The timer callback and
+ * work handler must take this into account.
+ *
+ * It is legal to stop an already stopped timer.
+ *
+ * @param tim the timer to stop.
+ *
+ */
+void _mali_osk_timer_del( _mali_osk_timer_t *tim );
+
+/** @brief Stop a timer.
+ *
+ * Stop the timer. When the function returns, the timer's callback may still be
+ * running on any CPU core.
+ *
+ * It is legal to stop an already stopped timer.
+ *
+ * @param tim the timer to stop.
+ */
+void _mali_osk_timer_del_async( _mali_osk_timer_t *tim );
+
+/** @brief Check if timer is pending.
+ *
+ * Check if timer is active.
+ *
+ * @param tim the timer to check
+ * @return MALI_TRUE if time is active, MALI_FALSE if it is not active
+ */
+mali_bool _mali_osk_timer_pending( _mali_osk_timer_t *tim);
+
+/** @brief Set a timer's callback parameters.
+ *
+ * This must be called at least once before a timer is started/modified.
+ *
+ * After a timer has been stopped or expires, the callback remains set. This
+ * means that restarting the timer will call the same function with the same
+ * parameters on expiry.
+ *
+ * @param tim the timer to set callback on.
+ * @param callback Function to call when timer expires
+ * @param data Function-specific data to supply to the function on expiry.
+ */
+void _mali_osk_timer_setcallback( _mali_osk_timer_t *tim, _mali_osk_timer_callback_t callback, void *data );
+
+/** @brief Terminate a timer, and deallocate resources.
+ *
+ * The timer must first be stopped by calling _mali_osk_timer_del().
+ *
+ * It is a programming error for _mali_osk_timer_term() to be called on:
+ * - timer that is currently running
+ * - a timer that is currently executing its callback.
+ *
+ * @param tim the timer to deallocate.
+ */
+void _mali_osk_timer_term( _mali_osk_timer_t *tim );
+/** @} */ /* end group _mali_osk_timer */
+
+
+/** @defgroup _mali_osk_time OSK Time functions
+ *
+ * \ref _mali_osk_time use the OS's representation of time, which are
+ * 'ticks'. This is to prevent aliasing problems between the internal timer
+ * time, and the time asked for.
+ *
+ * OS tick time is measured as a u32. The time stored in a u32 may either be
+ * an absolute time, or a time delta between two events. Whilst it is valid to
+ * use math opeartors to \em change the tick value represented as a u32, it
+ * is often only meaningful to do such operations on time deltas, rather than
+ * on absolute time. However, it is meaningful to add/subtract time deltas to
+ * absolute times.
+ *
+ * Conversion between tick time and milliseconds (ms) may not be loss-less,
+ * and are \em implementation \em depenedant.
+ *
+ * Code use OS time must take this into account, since:
+ * - a small OS time may (or may not) be rounded
+ * - a large time may (or may not) overflow
+ *
+ * @{ */
+
+/** @brief Return whether ticka occurs after tickb
+ *
+ * Some OSs handle tick 'rollover' specially, and so can be more robust against
+ * tick counters rolling-over. This function must therefore be called to
+ * determine if a time (in ticks) really occurs after another time (in ticks).
+ *
+ * @param ticka ticka
+ * @param tickb tickb
+ * @return non-zero if ticka represents a time that occurs after tickb.
+ * Zero otherwise.
+ */
+int _mali_osk_time_after( u32 ticka, u32 tickb );
+
+/** @brief Convert milliseconds to OS 'ticks'
+ *
+ * @param ms time interval in milliseconds
+ * @return the corresponding time interval in OS ticks.
+ */
+u32 _mali_osk_time_mstoticks( u32 ms );
+
+/** @brief Convert OS 'ticks' to milliseconds
+ *
+ * @param ticks time interval in OS ticks.
+ * @return the corresponding time interval in milliseconds
+ */
+u32 _mali_osk_time_tickstoms( u32 ticks );
+
+
+/** @brief Get the current time in OS 'ticks'.
+ * @return the current time in OS 'ticks'.
+ */
+u32 _mali_osk_time_tickcount( void );
+
+/** @brief Cause a microsecond delay
+ *
+ * The delay will have microsecond resolution, and is necessary for correct
+ * operation of the driver. At worst, the delay will be \b at least \a usecs
+ * microseconds, and so may be (significantly) more.
+ *
+ * This function may be implemented as a busy-wait, which is the most sensible
+ * implementation. On OSs where there are situations in which a thread must not
+ * sleep, this is definitely implemented as a busy-wait.
+ *
+ * @param usecs the number of microseconds to wait for.
+ */
+void _mali_osk_time_ubusydelay( u32 usecs );
+
+/** @brief Return time in nano seconds, since any given reference.
+ *
+ * @return Time in nano seconds
+ */
+u64 _mali_osk_time_get_ns( void );
+
+
+/** @} */ /* end group _mali_osk_time */
+
+/** @defgroup _mali_osk_math OSK Math
+ * @{ */
+
+/** @brief Count Leading Zeros (Little-endian)
+ *
+ * @note This function must be implemented to support the reference
+ * implementation of _mali_osk_find_first_zero_bit, as defined in
+ * mali_osk_bitops.h.
+ *
+ * @param val 32-bit words to count leading zeros on
+ * @return the number of leading zeros.
+ */
+u32 _mali_osk_clz( u32 val );
+
+/** @brief find last (most-significant) bit set
+ *
+ * @param val 32-bit words to count last bit set on
+ * @return last bit set.
+ */
+u32 _mali_osk_fls( u32 val );
+
+/** @} */ /* end group _mali_osk_math */
+
+/** @addtogroup _mali_osk_wait_queue OSK Wait Queue functionality
+ * @{ */
+
+/** @brief Initialize an empty Wait Queue */
+_mali_osk_wait_queue_t* _mali_osk_wait_queue_init( void );
+
+/** @brief Sleep if condition is false
+ *
+ * @param queue the queue to use
+ * @param condition function pointer to a boolean function
+ * @param data data parameter for condition function
+ *
+ * Put thread to sleep if the given \a condition function returns false. When
+ * being asked to wake up again, the condition will be re-checked and the
+ * thread only woken up if the condition is now true.
+ */
+void _mali_osk_wait_queue_wait_event( _mali_osk_wait_queue_t *queue, mali_bool (*condition)(void *), void *data );
+
+/** @brief Sleep if condition is false
+ *
+ * @param queue the queue to use
+ * @param condition function pointer to a boolean function
+ * @param data data parameter for condition function
+ * @param timeout timeout in ms
+ *
+ * Put thread to sleep if the given \a condition function returns false. When
+ * being asked to wake up again, the condition will be re-checked and the
+ * thread only woken up if the condition is now true. Will return if time
+ * exceeds timeout.
+ */
+void _mali_osk_wait_queue_wait_event_timeout( _mali_osk_wait_queue_t *queue, mali_bool (*condition)(void *), void *data, u32 timeout );
+
+/** @brief Wake up all threads in wait queue if their respective conditions are
+ * true
+ *
+ * @param queue the queue whose threads should be woken up
+ *
+ * Wake up all threads in wait queue \a queue whose condition is now true.
+ */
+void _mali_osk_wait_queue_wake_up( _mali_osk_wait_queue_t *queue );
+
+/** @brief terminate a wait queue
+ *
+ * @param queue the queue to terminate.
+ */
+void _mali_osk_wait_queue_term( _mali_osk_wait_queue_t *queue );
+/** @} */ /* end group _mali_osk_wait_queue */
+
+
+/** @addtogroup _mali_osk_miscellaneous
+ * @{ */
+
+/** @brief Output a device driver debug message.
+ *
+ * The interpretation of \a fmt is the same as the \c format parameter in
+ * _mali_osu_vsnprintf().
+ *
+ * @param fmt a _mali_osu_vsnprintf() style format string
+ * @param ... a variable-number of parameters suitable for \a fmt
+ */
+void _mali_osk_dbgmsg( const char *fmt, ... );
+
+/** @brief Print fmt into buf.
+ *
+ * The interpretation of \a fmt is the same as the \c format parameter in
+ * _mali_osu_vsnprintf().
+ *
+ * @param buf a pointer to the result buffer
+ * @param size the total number of bytes allowed to write to \a buf
+ * @param fmt a _mali_osu_vsnprintf() style format string
+ * @param ... a variable-number of parameters suitable for \a fmt
+ * @return The number of bytes written to \a buf
+ */
+u32 _mali_osk_snprintf( char *buf, u32 size, const char *fmt, ... );
+
+/** @brief Abnormal process abort.
+ *
+ * Terminates the caller-process if this function is called.
+ *
+ * This function will be called from Debug assert-macros in mali_kernel_common.h.
+ *
+ * This function will never return - because to continue from a Debug assert
+ * could cause even more problems, and hinder debugging of the initial problem.
+ *
+ * This function is only used in Debug builds, and is not used in Release builds.
+ */
+void _mali_osk_abort(void);
+
+/** @brief Sets breakpoint at point where function is called.
+ *
+ * This function will be called from Debug assert-macros in mali_kernel_common.h,
+ * to assist in debugging. If debugging at this level is not required, then this
+ * function may be implemented as a stub.
+ *
+ * This function is only used in Debug builds, and is not used in Release builds.
+ */
+void _mali_osk_break(void);
+
+/** @brief Return an identificator for calling process.
+ *
+ * @return Identificator for calling process.
+ */
+u32 _mali_osk_get_pid(void);
+
+/** @brief Return an identificator for calling thread.
+ *
+ * @return Identificator for calling thread.
+ */
+u32 _mali_osk_get_tid(void);
+
+/** @brief Enable OS controlled runtime power management
+ */
+void _mali_osk_pm_dev_enable(void);
+
+/** @brief Disable OS controlled runtime power management
+ */
+void _mali_osk_pm_dev_disable(void);
+
+
+/** @brief Take a reference to the power manager system for the Mali device.
+ *
+ * When function returns successfully, Mali is ON.
+ *
+ * @note Call \a _mali_osk_pm_dev_ref_dec() to release this reference.
+ */
+_mali_osk_errcode_t _mali_osk_pm_dev_ref_add(void);
+
+
+/** @brief Release the reference to the power manger system for the Mali device.
+ *
+ * When reference count reach zero, the cores can be off.
+ *
+ * @note This must be used to release references taken with \a _mali_osk_pm_dev_ref_add().
+ */
+void _mali_osk_pm_dev_ref_dec(void);
+
+
+/** @brief Take a reference to the power manager system for the Mali device.
+ *
+ * Will leave the cores powered off if they are already powered off.
+ *
+ * @note Call \a _mali_osk_pm_dev_ref_dec() to release this reference.
+ *
+ * @return MALI_TRUE if the Mali GPU is powered on, otherwise MALI_FALSE.
+ */
+mali_bool _mali_osk_pm_dev_ref_add_no_power_on(void);
+
+
+/** @brief Releasing the reference to the power manger system for the Mali device.
+ *
+ * When reference count reach zero, the cores can be off.
+ *
+ * @note This must be used to release references taken with \a _mali_osk_pm_dev_ref_add_no_power_on().
+ */
+void _mali_osk_pm_dev_ref_dec_no_power_on(void);
+
+/** @brief Block untill pending PM operations are done
+ */
+void _mali_osk_pm_dev_barrier(void);
+
+/** @} */ /* end group _mali_osk_miscellaneous */
+
+/** @} */ /* end group osuapi */
+
+/** @} */ /* end group uddapi */
+
+
+
+#ifdef __cplusplus
+}
+#endif
+
+/* Check standard inlines */
+#ifndef MALI_STATIC_INLINE
+#error MALI_STATIC_INLINE not defined on your OS
+#endif
+
+#ifndef MALI_NON_STATIC_INLINE
+#error MALI_NON_STATIC_INLINE not defined on your OS
+#endif
+
+#endif /* __MALI_OSK_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2010, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_bitops.h
+ * Implementation of the OS abstraction layer for the kernel device driver
+ */
+
+#ifndef __MALI_OSK_BITOPS_H__
+#define __MALI_OSK_BITOPS_H__
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+MALI_STATIC_INLINE void _mali_internal_clear_bit( u32 bit, u32 *addr )
+{
+ MALI_DEBUG_ASSERT( bit < 32 );
+ MALI_DEBUG_ASSERT( NULL != addr );
+
+ (*addr) &= ~(1 << bit);
+}
+
+MALI_STATIC_INLINE void _mali_internal_set_bit( u32 bit, u32 *addr )
+{
+ MALI_DEBUG_ASSERT( bit < 32 );
+ MALI_DEBUG_ASSERT( NULL != addr );
+
+ (*addr) |= (1 << bit);
+}
+
+MALI_STATIC_INLINE u32 _mali_internal_test_bit( u32 bit, u32 value )
+{
+ MALI_DEBUG_ASSERT( bit < 32 );
+ return value & (1 << bit);
+}
+
+MALI_STATIC_INLINE int _mali_internal_find_first_zero_bit( u32 value )
+{
+ u32 inverted;
+ u32 negated;
+ u32 isolated;
+ u32 leading_zeros;
+
+ /* Begin with xxx...x0yyy...y, where ys are 1, number of ys is in range 0..31 */
+ inverted = ~value; /* zzz...z1000...0 */
+ /* Using count_trailing_zeros on inverted value -
+ * See ARM System Developers Guide for details of count_trailing_zeros */
+
+ /* Isolate the zero: it is preceeded by a run of 1s, so add 1 to it */
+ negated = (u32)-inverted ; /* -a == ~a + 1 (mod 2^n) for n-bit numbers */
+ /* negated = xxx...x1000...0 */
+
+ isolated = negated & inverted ; /* xxx...x1000...0 & zzz...z1000...0, zs are ~xs */
+ /* And so the first zero bit is in the same position as the 1 == number of 1s that preceeded it
+ * Note that the output is zero if value was all 1s */
+
+ leading_zeros = _mali_osk_clz( isolated );
+
+ return 31 - leading_zeros;
+}
+
+
+/** @defgroup _mali_osk_bitops OSK Non-atomic Bit-operations
+ * @{ */
+
+/**
+ * These bit-operations do not work atomically, and so locks must be used if
+ * atomicity is required.
+ *
+ * Reference implementations for Little Endian are provided, and so it should
+ * not normally be necessary to re-implement these. Efficient bit-twiddling
+ * techniques are used where possible, implemented in portable C.
+ *
+ * Note that these reference implementations rely on _mali_osk_clz() being
+ * implemented.
+ */
+
+/** @brief Clear a bit in a sequence of 32-bit words
+ * @param nr bit number to clear, starting from the (Little-endian) least
+ * significant bit
+ * @param addr starting point for counting.
+ */
+MALI_STATIC_INLINE void _mali_osk_clear_nonatomic_bit( u32 nr, u32 *addr )
+{
+ addr += nr >> 5; /* find the correct word */
+ nr = nr & ((1 << 5)-1); /* The bit number within the word */
+
+ _mali_internal_clear_bit( nr, addr );
+}
+
+/** @brief Set a bit in a sequence of 32-bit words
+ * @param nr bit number to set, starting from the (Little-endian) least
+ * significant bit
+ * @param addr starting point for counting.
+ */
+MALI_STATIC_INLINE void _mali_osk_set_nonatomic_bit( u32 nr, u32 *addr )
+{
+ addr += nr >> 5; /* find the correct word */
+ nr = nr & ((1 << 5)-1); /* The bit number within the word */
+
+ _mali_internal_set_bit( nr, addr );
+}
+
+/** @brief Test a bit in a sequence of 32-bit words
+ * @param nr bit number to test, starting from the (Little-endian) least
+ * significant bit
+ * @param addr starting point for counting.
+ * @return zero if bit was clear, non-zero if set. Do not rely on the return
+ * value being related to the actual word under test.
+ */
+MALI_STATIC_INLINE u32 _mali_osk_test_bit( u32 nr, u32 *addr )
+{
+ addr += nr >> 5; /* find the correct word */
+ nr = nr & ((1 << 5)-1); /* The bit number within the word */
+
+ return _mali_internal_test_bit( nr, *addr );
+}
+
+/* Return maxbit if not found */
+/** @brief Find the first zero bit in a sequence of 32-bit words
+ * @param addr starting point for search.
+ * @param maxbit the maximum number of bits to search
+ * @return the number of the first zero bit found, or maxbit if none were found
+ * in the specified range.
+ */
+MALI_STATIC_INLINE u32 _mali_osk_find_first_zero_bit( const u32 *addr, u32 maxbit )
+{
+ u32 total;
+
+ for ( total = 0; total < maxbit; total += 32, ++addr ) {
+ int result;
+ result = _mali_internal_find_first_zero_bit( *addr );
+
+ /* non-negative signifies the bit was found */
+ if ( result >= 0 ) {
+ total += (u32)result;
+ break;
+ }
+ }
+
+ /* Now check if we reached maxbit or above */
+ if ( total >= maxbit ) {
+ total = maxbit;
+ }
+
+ return total; /* either the found bit nr, or maxbit if not found */
+}
+/** @} */ /* end group _mali_osk_bitops */
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __MALI_OSK_BITOPS_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_list.h
+ * Implementation of the OS abstraction layer for the kernel device driver
+ */
+
+#ifndef __MALI_OSK_LIST_H__
+#define __MALI_OSK_LIST_H__
+
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+MALI_STATIC_INLINE void __mali_osk_list_add(_mali_osk_list_t *new_entry, _mali_osk_list_t *prev, _mali_osk_list_t *next)
+{
+ next->prev = new_entry;
+ new_entry->next = next;
+ new_entry->prev = prev;
+ prev->next = new_entry;
+}
+
+MALI_STATIC_INLINE void __mali_osk_list_del(_mali_osk_list_t *prev, _mali_osk_list_t *next)
+{
+ next->prev = prev;
+ prev->next = next;
+}
+
+/** @addtogroup _mali_osk_list OSK Doubly-Linked Circular Lists
+ * @{ */
+
+/** Reference implementations of Doubly-linked Circular Lists are provided.
+ * There is often no need to re-implement these.
+ *
+ * @note The implementation may differ subtly from any lists the OS provides.
+ * For this reason, these lists should not be mixed with OS-specific lists
+ * inside the OSK/UKK implementation. */
+
+/** @brief Initialize a list to be a head of an empty list
+ * @param exp the list to initialize. */
+#define _MALI_OSK_INIT_LIST_HEAD(exp) _mali_osk_list_init(exp)
+
+/** @brief Define a list variable, which is uninitialized.
+ * @param exp the name of the variable that the list will be defined as. */
+#define _MALI_OSK_LIST_HEAD(exp) _mali_osk_list_t exp
+
+/** @brief Define a list variable, which is initialized.
+ * @param exp the name of the variable that the list will be defined as. */
+#define _MALI_OSK_LIST_HEAD_STATIC_INIT(exp) _mali_osk_list_t exp = { &exp, &exp }
+
+/** @brief Initialize a list element.
+ *
+ * All list elements must be initialized before use.
+ *
+ * Do not use on any list element that is present in a list without using
+ * _mali_osk_list_del first, otherwise this will break the list.
+ *
+ * @param list the list element to initialize
+ */
+MALI_STATIC_INLINE void _mali_osk_list_init( _mali_osk_list_t *list )
+{
+ list->next = list;
+ list->prev = list;
+}
+
+/** @brief Insert a single list element after an entry in a list
+ *
+ * As an example, if this is inserted to the head of a list, then this becomes
+ * the first element of the list.
+ *
+ * Do not use to move list elements from one list to another, as it will break
+ * the originating list.
+ *
+ *
+ * @param newlist the list element to insert
+ * @param list the list in which to insert. The new element will be the next
+ * entry in this list
+ */
+MALI_STATIC_INLINE void _mali_osk_list_add( _mali_osk_list_t *new_entry, _mali_osk_list_t *list )
+{
+ __mali_osk_list_add(new_entry, list, list->next);
+}
+
+/** @brief Insert a single list element before an entry in a list
+ *
+ * As an example, if this is inserted to the head of a list, then this becomes
+ * the last element of the list.
+ *
+ * Do not use to move list elements from one list to another, as it will break
+ * the originating list.
+ *
+ * @param newlist the list element to insert
+ * @param list the list in which to insert. The new element will be the previous
+ * entry in this list
+ */
+MALI_STATIC_INLINE void _mali_osk_list_addtail( _mali_osk_list_t *new_entry, _mali_osk_list_t *list )
+{
+ __mali_osk_list_add(new_entry, list->prev, list);
+}
+
+/** @brief Remove a single element from a list
+ *
+ * The element will no longer be present in the list. The removed list element
+ * will be uninitialized, and so should not be traversed. It must be
+ * initialized before further use.
+ *
+ * @param list the list element to remove.
+ */
+MALI_STATIC_INLINE void _mali_osk_list_del( _mali_osk_list_t *list )
+{
+ __mali_osk_list_del(list->prev, list->next);
+}
+
+/** @brief Remove a single element from a list, and re-initialize it
+ *
+ * The element will no longer be present in the list. The removed list element
+ * will initialized, and so can be used as normal.
+ *
+ * @param list the list element to remove and initialize.
+ */
+MALI_STATIC_INLINE void _mali_osk_list_delinit( _mali_osk_list_t *list )
+{
+ __mali_osk_list_del(list->prev, list->next);
+ _mali_osk_list_init(list);
+}
+
+/** @brief Determine whether a list is empty.
+ *
+ * An empty list is one that contains a single element that points to itself.
+ *
+ * @param list the list to check.
+ * @return non-zero if the list is empty, and zero otherwise.
+ */
+MALI_STATIC_INLINE mali_bool _mali_osk_list_empty( _mali_osk_list_t *list )
+{
+ return list->next == list;
+}
+
+/** @brief Move a list element from one list to another.
+ *
+ * The list element must be initialized.
+ *
+ * As an example, moving a list item to the head of a new list causes this item
+ * to be the first element in the new list.
+ *
+ * @param move the list element to move
+ * @param list the new list into which the element will be inserted, as the next
+ * element in the list.
+ */
+MALI_STATIC_INLINE void _mali_osk_list_move( _mali_osk_list_t *move_entry, _mali_osk_list_t *list )
+{
+ __mali_osk_list_del(move_entry->prev, move_entry->next);
+ _mali_osk_list_add(move_entry, list);
+}
+
+/** @brief Move an entire list
+ *
+ * The list element must be initialized.
+ *
+ * Allows you to move a list from one list head to another list head
+ *
+ * @param old_list The existing list head
+ * @param new_list The new list head (must be an empty list)
+ */
+MALI_STATIC_INLINE void _mali_osk_list_move_list( _mali_osk_list_t *old_list, _mali_osk_list_t *new_list )
+{
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(new_list));
+ if (!_mali_osk_list_empty(old_list)) {
+ new_list->next = old_list->next;
+ new_list->prev = old_list->prev;
+ new_list->next->prev = new_list;
+ new_list->prev->next = new_list;
+ old_list->next = old_list;
+ old_list->prev = old_list;
+ }
+}
+
+/** @brief Find the containing structure of a list
+ *
+ * When traversing a list, this is used to recover the containing structure,
+ * given that is contains a _mali_osk_list_t member.
+ *
+ * Each list must be of structures of one type, and must link the same members
+ * together, otherwise it will not be possible to correctly recover the
+ * sturctures that the lists link.
+ *
+ * @note no type or memory checking occurs to ensure that a structure does in
+ * fact exist for the list entry, and that it is being recovered with respect
+ * to the correct list member.
+ *
+ * @param ptr the pointer to the _mali_osk_list_t member in this structure
+ * @param type the type of the structure that contains the member
+ * @param member the member of the structure that ptr points to.
+ * @return a pointer to a \a type object which contains the _mali_osk_list_t
+ * \a member, as pointed to by the _mali_osk_list_t \a *ptr.
+ */
+#define _MALI_OSK_LIST_ENTRY(ptr, type, member) \
+ _MALI_OSK_CONTAINER_OF(ptr, type, member)
+
+/** @brief Enumerate a list safely
+ *
+ * With this macro, lists can be enumerated in a 'safe' manner. That is,
+ * entries can be deleted from the list without causing an error during
+ * enumeration. To achieve this, a 'temporary' pointer is required, which must
+ * be provided to the macro.
+ *
+ * Use it like a 'for()', 'while()' or 'do()' construct, and so it must be
+ * followed by a statement or compound-statement which will be executed for
+ * each list entry.
+ *
+ * Upon loop completion, providing that an early out was not taken in the
+ * loop body, then it is guaranteed that ptr->member == list, even if the loop
+ * body never executed.
+ *
+ * @param ptr a pointer to an object of type 'type', which points to the
+ * structure that contains the currently enumerated list entry.
+ * @param tmp a pointer to an object of type 'type', which must not be used
+ * inside the list-execution statement.
+ * @param list a pointer to a _mali_osk_list_t, from which enumeration will
+ * begin
+ * @param type the type of the structure that contains the _mali_osk_list_t
+ * member that is part of the list to be enumerated.
+ * @param member the _mali_osk_list_t member of the structure that is part of
+ * the list to be enumerated.
+ */
+#define _MALI_OSK_LIST_FOREACHENTRY(ptr, tmp, list, type, member) \
+ for (ptr = _MALI_OSK_LIST_ENTRY((list)->next, type, member), \
+ tmp = _MALI_OSK_LIST_ENTRY(ptr->member.next, type, member); \
+ &ptr->member != (list); \
+ ptr = tmp, \
+ tmp = _MALI_OSK_LIST_ENTRY(tmp->member.next, type, member))
+
+/** @brief Enumerate a list in reverse order safely
+ *
+ * This macro is identical to @ref _MALI_OSK_LIST_FOREACHENTRY, except that
+ * entries are enumerated in reverse order.
+ *
+ * @param ptr a pointer to an object of type 'type', which points to the
+ * structure that contains the currently enumerated list entry.
+ * @param tmp a pointer to an object of type 'type', which must not be used
+ * inside the list-execution statement.
+ * @param list a pointer to a _mali_osk_list_t, from which enumeration will
+ * begin
+ * @param type the type of the structure that contains the _mali_osk_list_t
+ * member that is part of the list to be enumerated.
+ * @param member the _mali_osk_list_t member of the structure that is part of
+ * the list to be enumerated.
+ */
+#define _MALI_OSK_LIST_FOREACHENTRY_REVERSE(ptr, tmp, list, type, member) \
+ for (ptr = _MALI_OSK_LIST_ENTRY((list)->prev, type, member), \
+ tmp = _MALI_OSK_LIST_ENTRY(ptr->member.prev, type, member); \
+ &ptr->member != (list); \
+ ptr = tmp, \
+ tmp = _MALI_OSK_LIST_ENTRY(tmp->member.prev, type, member))
+
+/** @} */ /* end group _mali_osk_list */
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __MALI_OSK_LIST_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_mali.h
+ * Defines the OS abstraction layer which is specific for the Mali kernel device driver (OSK)
+ */
+
+#ifndef __MALI_OSK_MALI_H__
+#define __MALI_OSK_MALI_H__
+
+#include <linux/mali/mali_utgard.h>
+#include <mali_osk.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/** @addtogroup _mali_osk_miscellaneous
+ * @{ */
+
+/** @brief Struct with device specific configuration data
+ */
+struct _mali_osk_device_data {
+ /* Dedicated GPU memory range (physical). */
+ u32 dedicated_mem_start;
+ u32 dedicated_mem_size;
+
+ /* Shared GPU memory */
+ u32 shared_mem_size;
+
+ /* Frame buffer memory to be accessible by Mali GPU (physical) */
+ u32 fb_start;
+ u32 fb_size;
+
+ /* Max runtime [ms] for jobs */
+ int max_job_runtime;
+
+ /* Report GPU utilization in this interval (specified in ms) */
+ u32 utilization_interval;
+
+ /* Function that will receive periodic GPU utilization numbers */
+ void (*utilization_callback)(struct mali_gpu_utilization_data *data);
+
+ /*
+ * Mali PMU switch delay.
+ * Only needed if the power gates are connected to the PMU in a high fanout
+ * network. This value is the number of Mali clock cycles it takes to
+ * enable the power gates and turn on the power mesh.
+ * This value will have no effect if a daisy chain implementation is used.
+ */
+ u32 pmu_switch_delay;
+
+ /* Mali Dynamic power domain configuration in sequence from 0-11
+ * GP PP0 PP1 PP2 PP3 PP4 PP5 PP6 PP7, L2$0 L2$1 L2$2
+ */
+ u16 pmu_domain_config[12];
+
+ /* Fuction that platform callback for freq tunning, needed when MALI400_POWER_PERFORMANCE_POLICY enabled */
+ int (*set_freq_callback)(unsigned int mhz);
+};
+
+/** @brief Find Mali GPU HW resource
+ *
+ * @param addr Address of Mali GPU resource to find
+ * @param res Storage for resource information if resource is found.
+ * @return _MALI_OSK_ERR_OK on success, _MALI_OSK_ERR_ITEM_NOT_FOUND if resource is not found
+ */
+_mali_osk_errcode_t _mali_osk_resource_find(u32 addr, _mali_osk_resource_t *res);
+
+
+/** @brief Find Mali GPU HW base address
+ *
+ * @return 0 if resources are found, otherwise the Mali GPU component with lowest address.
+ */
+u32 _mali_osk_resource_base_address(void);
+
+/** @brief Retrieve the Mali GPU specific data
+ *
+ * @return _MALI_OSK_ERR_OK on success, otherwise failure.
+ */
+_mali_osk_errcode_t _mali_osk_device_data_get(struct _mali_osk_device_data *data);
+
+/** @brief Determines if Mali GPU has been configured with shared interrupts.
+ *
+ * @return MALI_TRUE if shared interrupts, MALI_FALSE if not.
+ */
+mali_bool _mali_osk_shared_interrupts(void);
+
+/** @} */ /* end group _mali_osk_miscellaneous */
+
+/** @addtogroup _mali_osk_low_level_memory
+ * @{ */
+
+/** @brief Copy as much data as possible from src to dest, do not crash if src or dest isn't available.
+ *
+ * @param dest Destination buffer (limited to user space mapped Mali memory)
+ * @param src Source buffer
+ * @param size Number of bytes to copy
+ * @return Number of bytes actually copied
+ */
+u32 _mali_osk_mem_write_safe(void *dest, const void *src, u32 size);
+
+/** @} */ /* end group _mali_osk_low_level_memory */
+
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __MALI_OSK_MALI_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_OSK_PROFILING_H__
+#define __MALI_OSK_PROFILING_H__
+
+#if defined(CONFIG_MALI400_PROFILING) && defined (CONFIG_TRACEPOINTS)
+
+#include "mali_linux_trace.h"
+#include "mali_profiling_events.h"
+#include "mali_profiling_gator_api.h"
+
+#define MALI_PROFILING_MAX_BUFFER_ENTRIES 1048576
+
+#define MALI_PROFILING_NO_HW_COUNTER = ((u32)-1)
+
+/** @defgroup _mali_osk_profiling External profiling connectivity
+ * @{ */
+
+/**
+ * Initialize the profiling module.
+ * @return _MALI_OSK_ERR_OK on success, otherwise failure.
+ */
+_mali_osk_errcode_t _mali_osk_profiling_init(mali_bool auto_start);
+
+/*
+ * Terminate the profiling module.
+ */
+void _mali_osk_profiling_term(void);
+
+/**
+ * Start recording profiling data
+ *
+ * The specified limit will determine how large the capture buffer is.
+ * MALI_PROFILING_MAX_BUFFER_ENTRIES determines the maximum size allowed by the device driver.
+ *
+ * @param limit The desired maximum number of events to record on input, the actual maximum on output.
+ * @return _MALI_OSK_ERR_OK on success, otherwise failure.
+ */
+_mali_osk_errcode_t _mali_osk_profiling_start(u32 * limit);
+
+/**
+ * Add an profiling event
+ *
+ * @param event_id The event identificator.
+ * @param data0 First data parameter, depending on event_id specified.
+ * @param data1 Second data parameter, depending on event_id specified.
+ * @param data2 Third data parameter, depending on event_id specified.
+ * @param data3 Fourth data parameter, depending on event_id specified.
+ * @param data4 Fifth data parameter, depending on event_id specified.
+ * @return _MALI_OSK_ERR_OK on success, otherwise failure.
+ */
+/* Call Linux tracepoint directly */
+#define _mali_osk_profiling_add_event(event_id, data0, data1, data2, data3, data4) trace_mali_timeline_event((event_id), (data0), (data1), (data2), (data3), (data4))
+
+/**
+ * Report a hardware counter event.
+ *
+ * @param counter_id The ID of the counter.
+ * @param value The value of the counter.
+ */
+
+/* Call Linux tracepoint directly */
+#define _mali_osk_profiling_report_hw_counter(counter_id, value) trace_mali_hw_counter(counter_id, value)
+
+/**
+ * Report SW counters
+ *
+ * @param counters array of counter values
+ */
+void _mali_osk_profiling_report_sw_counters(u32 *counters);
+
+/**
+ * Stop recording profiling data
+ *
+ * @param count Returns the number of recorded events.
+ * @return _MALI_OSK_ERR_OK on success, otherwise failure.
+ */
+_mali_osk_errcode_t _mali_osk_profiling_stop(u32 * count);
+
+/**
+ * Retrieves the number of events that can be retrieved
+ *
+ * @return The number of recorded events that can be retrieved.
+ */
+u32 _mali_osk_profiling_get_count(void);
+
+/**
+ * Retrieve an event
+ *
+ * @param index Event index (start with 0 and continue until this function fails to retrieve all events)
+ * @param timestamp The timestamp for the retrieved event will be stored here.
+ * @param event_id The event ID for the retrieved event will be stored here.
+ * @param data The 5 data values for the retrieved event will be stored here.
+ * @return _MALI_OSK_ERR_OK on success, otherwise failure.
+ */
+_mali_osk_errcode_t _mali_osk_profiling_get_event(u32 index, u64* timestamp, u32* event_id, u32 data[5]);
+
+/**
+ * Clear the recorded buffer.
+ *
+ * This is needed in order to start another recording.
+ *
+ * @return _MALI_OSK_ERR_OK on success, otherwise failure.
+ */
+_mali_osk_errcode_t _mali_osk_profiling_clear(void);
+
+/**
+ * Checks if a recording of profiling data is in progress
+ *
+ * @return MALI_TRUE if recording of profiling data is in progress, MALI_FALSE if not
+ */
+mali_bool _mali_osk_profiling_is_recording(void);
+
+/**
+ * Checks if profiling data is available for retrival
+ *
+ * @return MALI_TRUE if profiling data is avaiable, MALI_FALSE if not
+ */
+mali_bool _mali_osk_profiling_have_recording(void);
+
+/** @} */ /* end group _mali_osk_profiling */
+
+#else /* defined(CONFIG_MALI400_PROFILING) && defined(CONFIG_TRACEPOINTS) */
+
+/* Dummy add_event, for when profiling is disabled. */
+
+#define _mali_osk_profiling_add_event(event_id, data0, data1, data2, data3, data4)
+
+#endif /* defined(CONFIG_MALI400_PROFILING) && defined(CONFIG_TRACEPOINTS) */
+
+#endif /* __MALI_OSK_PROFILING_H__ */
+
+
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_types.h
+ * Defines types of the OS abstraction layer for the kernel device driver (OSK)
+ */
+
+#ifndef __MALI_OSK_TYPES_H__
+#define __MALI_OSK_TYPES_H__
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * @addtogroup uddapi Unified Device Driver (UDD) APIs
+ *
+ * @{
+ */
+
+/**
+ * @addtogroup oskapi UDD OS Abstraction for Kernel-side (OSK) APIs
+ *
+ * @{
+ */
+
+/** @defgroup _mali_osk_miscellaneous OSK Miscellaneous functions, constants and types
+ * @{ */
+
+/* Define integer types used by OSK. Note: these currently clash with Linux so we only define them if not defined already */
+#ifndef __KERNEL__
+typedef unsigned char u8;
+typedef signed char s8;
+typedef unsigned short u16;
+typedef signed short s16;
+typedef unsigned int u32;
+typedef signed int s32;
+typedef unsigned long long u64;
+#define BITS_PER_LONG (sizeof(long)*8)
+#else
+/* Ensure Linux types u32, etc. are defined */
+#include <linux/types.h>
+#endif
+
+/** @brief Mali Boolean type which uses MALI_TRUE and MALI_FALSE
+ */
+typedef unsigned long mali_bool;
+
+#ifndef MALI_TRUE
+#define MALI_TRUE ((mali_bool)1)
+#endif
+
+#ifndef MALI_FALSE
+#define MALI_FALSE ((mali_bool)0)
+#endif
+
+#define MALI_HW_CORE_NO_COUNTER ((u32)-1)
+
+/**
+ * @brief OSK Error codes
+ *
+ * Each OS may use its own set of error codes, and may require that the
+ * User/Kernel interface take certain error code. This means that the common
+ * error codes need to be sufficiently rich to pass the correct error code
+ * thorugh from the OSK to U/K layer, across all OSs.
+ *
+ * The result is that some error codes will appear redundant on some OSs.
+ * Under all OSs, the OSK layer must translate native OS error codes to
+ * _mali_osk_errcode_t codes. Similarly, the U/K layer must translate from
+ * _mali_osk_errcode_t codes to native OS error codes.
+ */
+typedef enum {
+ _MALI_OSK_ERR_OK = 0, /**< Success. */
+ _MALI_OSK_ERR_FAULT = -1, /**< General non-success */
+ _MALI_OSK_ERR_INVALID_FUNC = -2, /**< Invalid function requested through User/Kernel interface (e.g. bad IOCTL number) */
+ _MALI_OSK_ERR_INVALID_ARGS = -3, /**< Invalid arguments passed through User/Kernel interface */
+ _MALI_OSK_ERR_NOMEM = -4, /**< Insufficient memory */
+ _MALI_OSK_ERR_TIMEOUT = -5, /**< Timeout occurred */
+ _MALI_OSK_ERR_RESTARTSYSCALL = -6, /**< Special: On certain OSs, must report when an interruptable mutex is interrupted. Ignore otherwise. */
+ _MALI_OSK_ERR_ITEM_NOT_FOUND = -7, /**< Table Lookup failed */
+ _MALI_OSK_ERR_BUSY = -8, /**< Device/operation is busy. Try again later */
+ _MALI_OSK_ERR_UNSUPPORTED = -9, /**< Optional part of the interface used, and is unsupported */
+} _mali_osk_errcode_t;
+
+/** @} */ /* end group _mali_osk_miscellaneous */
+
+/** @defgroup _mali_osk_wq OSK work queues
+ * @{ */
+
+/** @brief Private type for work objects */
+typedef struct _mali_osk_wq_work_s _mali_osk_wq_work_t;
+typedef struct _mali_osk_wq_delayed_work_s _mali_osk_wq_delayed_work_t;
+
+/** @brief Work queue handler function
+ *
+ * This function type is called when the work is scheduled by the work queue,
+ * e.g. as an IRQ bottom-half handler.
+ *
+ * Refer to \ref _mali_osk_wq_schedule_work() for more information on the
+ * work-queue and work handlers.
+ *
+ * @param arg resource-specific data
+ */
+typedef void (*_mali_osk_wq_work_handler_t)( void * arg );
+
+/* @} */ /* end group _mali_osk_wq */
+
+/** @defgroup _mali_osk_irq OSK IRQ handling
+ * @{ */
+
+/** @brief Private type for IRQ handling objects */
+typedef struct _mali_osk_irq_t_struct _mali_osk_irq_t;
+
+/** @brief Optional function to trigger an irq from a resource
+ *
+ * This function is implemented by the common layer to allow probing of a resource's IRQ.
+ * @param arg resource-specific data */
+typedef void (*_mali_osk_irq_trigger_t)( void * arg );
+
+/** @brief Optional function to acknowledge an irq from a resource
+ *
+ * This function is implemented by the common layer to allow probing of a resource's IRQ.
+ * @param arg resource-specific data
+ * @return _MALI_OSK_ERR_OK if the IRQ was successful, or a suitable _mali_osk_errcode_t on failure. */
+typedef _mali_osk_errcode_t (*_mali_osk_irq_ack_t)( void * arg );
+
+/** @brief IRQ 'upper-half' handler callback.
+ *
+ * This function is implemented by the common layer to do the initial handling of a
+ * resource's IRQ. This maps on to the concept of an ISR that does the minimum
+ * work necessary before handing off to an IST.
+ *
+ * The communication of the resource-specific data from the ISR to the IST is
+ * handled by the OSK implementation.
+ *
+ * On most systems, the IRQ upper-half handler executes in IRQ context.
+ * Therefore, the system may have restrictions about what can be done in this
+ * context
+ *
+ * If an IRQ upper-half handler requires more work to be done than can be
+ * acheived in an IRQ context, then it may defer the work with
+ * _mali_osk_wq_schedule_work(). Refer to \ref _mali_osk_wq_create_work() for
+ * more information.
+ *
+ * @param arg resource-specific data
+ * @return _MALI_OSK_ERR_OK if the IRQ was correctly handled, or a suitable
+ * _mali_osk_errcode_t otherwise.
+ */
+typedef _mali_osk_errcode_t (*_mali_osk_irq_uhandler_t)( void * arg );
+
+
+/** @} */ /* end group _mali_osk_irq */
+
+
+/** @defgroup _mali_osk_atomic OSK Atomic counters
+ * @{ */
+
+/** @brief Public type of atomic counters
+ *
+ * This is public for allocation on stack. On systems that support it, this is just a single 32-bit value.
+ * On others, it could be encapsulating an object stored elsewhere.
+ *
+ * Regardless of implementation, the \ref _mali_osk_atomic functions \b must be used
+ * for all accesses to the variable's value, even if atomicity is not required.
+ * Do not access u.val or u.obj directly.
+ */
+typedef struct {
+ union {
+ u32 val;
+ void *obj;
+ } u;
+} _mali_osk_atomic_t;
+/** @} */ /* end group _mali_osk_atomic */
+
+
+/** @defgroup _mali_osk_lock OSK Mutual Exclusion Locks
+ * @{ */
+
+
+/** @brief OSK Mutual Exclusion Lock ordered list
+ *
+ * This lists the various types of locks in the system and is used to check
+ * that locks are taken in the correct order.
+ *
+ * - Holding more than one lock of the same order at the same time is not
+ * allowed.
+ * - Taking a lock of a lower order than the highest-order lock currently held
+ * is not allowed.
+ *
+ */
+typedef enum {
+ /* || Locks || */
+ /* || must be || */
+ /* _||_ taken in _||_ */
+ /* \ / this \ / */
+ /* \/ order! \/ */
+
+ _MALI_OSK_LOCK_ORDER_FIRST = 0,
+
+ _MALI_OSK_LOCK_ORDER_SESSIONS,
+ _MALI_OSK_LOCK_ORDER_MEM_SESSION,
+ _MALI_OSK_LOCK_ORDER_MEM_INFO,
+ _MALI_OSK_LOCK_ORDER_MEM_PT_CACHE,
+ _MALI_OSK_LOCK_ORDER_DESCRIPTOR_MAP,
+ _MALI_OSK_LOCK_ORDER_GROUP_VIRTUAL,
+ _MALI_OSK_LOCK_ORDER_GROUP,
+ _MALI_OSK_LOCK_ORDER_TIMELINE_SYSTEM,
+ _MALI_OSK_LOCK_ORDER_SCHEDULER,
+ _MALI_OSK_LOCK_ORDER_SCHEDULER_DEFERRED,
+ _MALI_OSK_LOCK_ORDER_PM_CORE_STATE,
+ _MALI_OSK_LOCK_ORDER_L2_COMMAND,
+ _MALI_OSK_LOCK_ORDER_DMA_COMMAND,
+ _MALI_OSK_LOCK_ORDER_PROFILING,
+ _MALI_OSK_LOCK_ORDER_L2_COUNTER,
+ _MALI_OSK_LOCK_ORDER_UTILIZATION,
+ _MALI_OSK_LOCK_ORDER_PM_EXECUTE,
+ _MALI_OSK_LOCK_ORDER_SESSION_PENDING_JOBS,
+ _MALI_OSK_LOCK_ORDER_PM_DOMAIN,
+ _MALI_OSK_LOCK_ORDER_PMU,
+
+ _MALI_OSK_LOCK_ORDER_LAST,
+} _mali_osk_lock_order_t;
+
+
+/** @brief OSK Mutual Exclusion Lock flags type
+ *
+ * - Any lock can use the order parameter.
+ */
+typedef enum {
+ _MALI_OSK_LOCKFLAG_UNORDERED = 0x1, /**< Indicate that the order of this lock should not be checked */
+ _MALI_OSK_LOCKFLAG_ORDERED = 0x2,
+ /** @enum _mali_osk_lock_flags_t
+ *
+ * Flags from 0x10000--0x80000000 are RESERVED for User-mode */
+
+} _mali_osk_lock_flags_t;
+
+/** @brief Mutual Exclusion Lock Mode Optimization hint
+ *
+ * The lock mode is used to implement the read/write locking of locks when we call
+ * functions _mali_osk_mutex_rw_init/wait/signal/term/. In this case, the RO mode can
+ * be used to allow multiple concurrent readers, but no writers. The RW mode is used for
+ * writers, and so will wait for all readers to release the lock (if any present).
+ * Further readers and writers will wait until the writer releases the lock.
+ *
+ * The mode is purely an optimization hint: for example, it is permissible for
+ * all locks to behave in RW mode, regardless of that supplied.
+ *
+ * It is an error to attempt to use locks in anything other that RW mode when
+ * call functions _mali_osk_mutex_rw_wait/signal().
+ *
+ */
+typedef enum {
+ _MALI_OSK_LOCKMODE_UNDEF = -1, /**< Undefined lock mode. For internal use only */
+ _MALI_OSK_LOCKMODE_RW = 0x0, /**< Read-write mode, default. All readers and writers are mutually-exclusive */
+ _MALI_OSK_LOCKMODE_RO, /**< Read-only mode, to support multiple concurrent readers, but mutual exclusion in the presence of writers. */
+ /** @enum _mali_osk_lock_mode_t
+ *
+ * Lock modes 0x40--0x7F are RESERVED for User-mode */
+} _mali_osk_lock_mode_t;
+
+/** @brief Private types for Mutual Exclusion lock objects */
+typedef struct _mali_osk_lock_debug_s _mali_osk_lock_debug_t;
+typedef struct _mali_osk_spinlock_s _mali_osk_spinlock_t;
+typedef struct _mali_osk_spinlock_irq_s _mali_osk_spinlock_irq_t;
+typedef struct _mali_osk_mutex_s _mali_osk_mutex_t;
+typedef struct _mali_osk_mutex_rw_s _mali_osk_mutex_rw_t;
+
+/** @} */ /* end group _mali_osk_lock */
+
+/** @defgroup _mali_osk_low_level_memory OSK Low-level Memory Operations
+ * @{ */
+
+/**
+ * @brief Private data type for use in IO accesses to/from devices.
+ *
+ * This represents some range that is accessible from the device. Examples
+ * include:
+ * - Device Registers, which could be readable and/or writeable.
+ * - Memory that the device has access to, for storing configuration structures.
+ *
+ * Access to this range must be made through the _mali_osk_mem_ioread32() and
+ * _mali_osk_mem_iowrite32() functions.
+ */
+typedef struct _mali_io_address * mali_io_address;
+
+/** @defgroup _MALI_OSK_CPU_PAGE CPU Physical page size macros.
+ *
+ * The order of the page size is supplied for
+ * ease of use by algorithms that might require it, since it is easier to know
+ * it ahead of time rather than calculating it.
+ *
+ * The Mali Page Mask macro masks off the lower bits of a physical address to
+ * give the start address of the page for that physical address.
+ *
+ * @note The Mali device driver code is designed for systems with 4KB page size.
+ * Changing these macros will not make the entire Mali device driver work with
+ * page sizes other than 4KB.
+ *
+ * @note The CPU Physical Page Size has been assumed to be the same as the Mali
+ * Physical Page Size.
+ *
+ * @{
+ */
+
+/** CPU Page Order, as log to base 2 of the Page size. @see _MALI_OSK_CPU_PAGE_SIZE */
+#define _MALI_OSK_CPU_PAGE_ORDER ((u32)12)
+/** CPU Page Size, in bytes. */
+#define _MALI_OSK_CPU_PAGE_SIZE (((u32)1) << (_MALI_OSK_CPU_PAGE_ORDER))
+/** CPU Page Mask, which masks off the offset within a page */
+#define _MALI_OSK_CPU_PAGE_MASK (~((((u32)1) << (_MALI_OSK_CPU_PAGE_ORDER)) - ((u32)1)))
+/** @} */ /* end of group _MALI_OSK_CPU_PAGE */
+
+/** @defgroup _MALI_OSK_MALI_PAGE Mali Physical Page size macros
+ *
+ * Mali Physical page size macros. The order of the page size is supplied for
+ * ease of use by algorithms that might require it, since it is easier to know
+ * it ahead of time rather than calculating it.
+ *
+ * The Mali Page Mask macro masks off the lower bits of a physical address to
+ * give the start address of the page for that physical address.
+ *
+ * @note The Mali device driver code is designed for systems with 4KB page size.
+ * Changing these macros will not make the entire Mali device driver work with
+ * page sizes other than 4KB.
+ *
+ * @note The Mali Physical Page Size has been assumed to be the same as the CPU
+ * Physical Page Size.
+ *
+ * @{
+ */
+
+/** Mali Page Order, as log to base 2 of the Page size. @see _MALI_OSK_MALI_PAGE_SIZE */
+#define _MALI_OSK_MALI_PAGE_ORDER ((u32)12)
+/** Mali Page Size, in bytes. */
+#define _MALI_OSK_MALI_PAGE_SIZE (((u32)1) << (_MALI_OSK_MALI_PAGE_ORDER))
+/** Mali Page Mask, which masks off the offset within a page */
+#define _MALI_OSK_MALI_PAGE_MASK (~((((u32)1) << (_MALI_OSK_MALI_PAGE_ORDER)) - ((u32)1)))
+/** @} */ /* end of group _MALI_OSK_MALI_PAGE*/
+
+/** @brief flags for mapping a user-accessible memory range
+ *
+ * Where a function with prefix '_mali_osk_mem_mapregion' accepts flags as one
+ * of the function parameters, it will use one of these. These allow per-page
+ * control over mappings. Compare with the mali_memory_allocation_flag type,
+ * which acts over an entire range
+ *
+ * These may be OR'd together with bitwise OR (|), but must be cast back into
+ * the type after OR'ing.
+ */
+typedef enum {
+ _MALI_OSK_MEM_MAPREGION_FLAG_OS_ALLOCATED_PHYSADDR = 0x1, /**< Physical address is OS Allocated */
+} _mali_osk_mem_mapregion_flags_t;
+/** @} */ /* end group _mali_osk_low_level_memory */
+
+/** @defgroup _mali_osk_notification OSK Notification Queues
+ * @{ */
+
+/** @brief Private type for notification queue objects */
+typedef struct _mali_osk_notification_queue_t_struct _mali_osk_notification_queue_t;
+
+/** @brief Public notification data object type */
+typedef struct _mali_osk_notification_t_struct {
+ u32 notification_type; /**< The notification type */
+ u32 result_buffer_size; /**< Size of the result buffer to copy to user space */
+ void * result_buffer; /**< Buffer containing any type specific data */
+} _mali_osk_notification_t;
+
+/** @} */ /* end group _mali_osk_notification */
+
+
+/** @defgroup _mali_osk_timer OSK Timer Callbacks
+ * @{ */
+
+/** @brief Function to call when a timer expires
+ *
+ * When a timer expires, this function is called. Note that on many systems,
+ * a timer callback will be executed in IRQ context. Therefore, restrictions
+ * may apply on what can be done inside the timer callback.
+ *
+ * If a timer requires more work to be done than can be acheived in an IRQ
+ * context, then it may defer the work with a work-queue. For example, it may
+ * use \ref _mali_osk_wq_schedule_work() to make use of a bottom-half handler
+ * to carry out the remaining work.
+ *
+ * Stopping the timer with \ref _mali_osk_timer_del() blocks on compeletion of
+ * the callback. Therefore, the callback may not obtain any mutexes also held
+ * by any callers of _mali_osk_timer_del(). Otherwise, a deadlock may occur.
+ *
+ * @param arg Function-specific data */
+typedef void (*_mali_osk_timer_callback_t)(void * arg);
+
+/** @brief Private type for Timer Callback Objects */
+typedef struct _mali_osk_timer_t_struct _mali_osk_timer_t;
+/** @} */ /* end group _mali_osk_timer */
+
+
+/** @addtogroup _mali_osk_list OSK Doubly-Linked Circular Lists
+ * @{ */
+
+/** @brief Public List objects.
+ *
+ * To use, add a _mali_osk_list_t member to the structure that may become part
+ * of a list. When traversing the _mali_osk_list_t objects, use the
+ * _MALI_OSK_CONTAINER_OF() macro to recover the structure from its
+ *_mali_osk_list_t member
+ *
+ * Each structure may have multiple _mali_osk_list_t members, so that the
+ * structure is part of multiple lists. When traversing lists, ensure that the
+ * correct _mali_osk_list_t member is used, because type-checking will be
+ * lost by the compiler.
+ */
+typedef struct _mali_osk_list_s {
+ struct _mali_osk_list_s *next;
+ struct _mali_osk_list_s *prev;
+} _mali_osk_list_t;
+/** @} */ /* end group _mali_osk_list */
+
+/** @addtogroup _mali_osk_miscellaneous
+ * @{ */
+
+/** @brief resource description struct
+ *
+ * Platform independent representation of a Mali HW resource
+ */
+typedef struct _mali_osk_resource {
+ const char * description; /**< short description of the resource */
+ u32 base; /**< Physical base address of the resource, as seen by Mali resources. */
+ u32 irq; /**< IRQ number delivered to the CPU, or -1 to tell the driver to probe for it (if possible) */
+} _mali_osk_resource_t;
+/** @} */ /* end group _mali_osk_miscellaneous */
+
+/** @defgroup _mali_osk_wait_queue OSK Wait Queue functionality
+ * @{ */
+/** @brief Private type for wait queue objects */
+typedef struct _mali_osk_wait_queue_t_struct _mali_osk_wait_queue_t;
+/** @} */ /* end group _mali_osk_wait_queue */
+
+/** @} */ /* end group osuapi */
+
+/** @} */ /* end group uddapi */
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __MALI_OSK_TYPES_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_pm.h"
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+#include "mali_gp_scheduler.h"
+#include "mali_pp_scheduler.h"
+#include "mali_scheduler.h"
+#include "mali_kernel_utilization.h"
+#include "mali_group.h"
+#include "mali_pm_domain.h"
+#include "mali_pmu.h"
+
+static mali_bool mali_power_on = MALI_FALSE;
+
+_mali_osk_errcode_t mali_pm_initialize(void)
+{
+ _mali_osk_pm_dev_enable();
+ return _MALI_OSK_ERR_OK;
+}
+
+void mali_pm_terminate(void)
+{
+ mali_pm_domain_terminate();
+ _mali_osk_pm_dev_disable();
+}
+
+/* Reset GPU after power up */
+static void mali_pm_reset_gpu(void)
+{
+ /* Reset all L2 caches */
+ mali_l2_cache_reset_all();
+
+ /* Reset all groups */
+ mali_scheduler_reset_all_groups();
+}
+
+void mali_pm_os_suspend(void)
+{
+ MALI_DEBUG_PRINT(3, ("Mali PM: OS suspend\n"));
+ mali_gp_scheduler_suspend();
+ mali_pp_scheduler_suspend();
+ mali_utilization_suspend();
+ mali_group_power_off(MALI_TRUE);
+ mali_power_on = MALI_FALSE;
+}
+
+void mali_pm_os_resume(void)
+{
+ struct mali_pmu_core *pmu = mali_pmu_get_global_pmu_core();
+ mali_bool do_reset = MALI_FALSE;
+
+ MALI_DEBUG_PRINT(3, ("Mali PM: OS resume\n"));
+
+ if (MALI_TRUE != mali_power_on) {
+ do_reset = MALI_TRUE;
+ }
+
+ if (NULL != pmu) {
+ mali_pmu_reset(pmu);
+ }
+
+ mali_power_on = MALI_TRUE;
+ _mali_osk_write_mem_barrier();
+
+ if (do_reset) {
+ mali_pm_reset_gpu();
+ mali_group_power_on();
+ }
+
+ mali_gp_scheduler_resume();
+ mali_pp_scheduler_resume();
+}
+
+void mali_pm_runtime_suspend(void)
+{
+ MALI_DEBUG_PRINT(2, ("Mali PM: Runtime suspend\n"));
+ mali_group_power_off(MALI_TRUE);
+ mali_power_on = MALI_FALSE;
+}
+
+void mali_pm_runtime_resume(void)
+{
+ struct mali_pmu_core *pmu = mali_pmu_get_global_pmu_core();
+ mali_bool do_reset = MALI_FALSE;
+
+ MALI_DEBUG_PRINT(2, ("Mali PM: Runtime resume\n"));
+
+ if (MALI_TRUE != mali_power_on) {
+ do_reset = MALI_TRUE;
+ }
+
+ if (NULL != pmu) {
+ mali_pmu_reset(pmu);
+ }
+
+ mali_power_on = MALI_TRUE;
+ _mali_osk_write_mem_barrier();
+
+ if (do_reset) {
+ mali_pm_reset_gpu();
+ mali_group_power_on();
+ }
+}
+
+void mali_pm_set_power_is_on(void)
+{
+ mali_power_on = MALI_TRUE;
+}
+
+mali_bool mali_pm_is_power_on(void)
+{
+ return mali_power_on;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_PM_H__
+#define __MALI_PM_H__
+
+#include "mali_osk.h"
+
+_mali_osk_errcode_t mali_pm_initialize(void);
+void mali_pm_terminate(void);
+
+/* Callback functions registered for the runtime PMM system */
+void mali_pm_os_suspend(void);
+void mali_pm_os_resume(void);
+void mali_pm_runtime_suspend(void);
+void mali_pm_runtime_resume(void);
+
+void mali_pm_set_power_is_on(void);
+mali_bool mali_pm_is_power_on(void);
+
+#endif /* __MALI_PM_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+#include "mali_pm_domain.h"
+#include "mali_pmu.h"
+#include "mali_group.h"
+
+static struct mali_pm_domain *mali_pm_domains[MALI_MAX_NUMBER_OF_DOMAINS] = { NULL, };
+
+static void mali_pm_domain_lock(struct mali_pm_domain *domain)
+{
+ _mali_osk_spinlock_irq_lock(domain->lock);
+}
+
+static void mali_pm_domain_unlock(struct mali_pm_domain *domain)
+{
+ _mali_osk_spinlock_irq_unlock(domain->lock);
+}
+
+MALI_STATIC_INLINE void mali_pm_domain_state_set(struct mali_pm_domain *domain, mali_pm_domain_state state)
+{
+ domain->state = state;
+}
+
+struct mali_pm_domain *mali_pm_domain_create(u32 pmu_mask)
+{
+ struct mali_pm_domain* domain = NULL;
+ u32 domain_id = 0;
+
+ domain = mali_pm_domain_get_from_mask(pmu_mask);
+ if (NULL != domain) return domain;
+
+ MALI_DEBUG_PRINT(2, ("Mali PM domain: Creating Mali PM domain (mask=0x%08X)\n", pmu_mask));
+
+ domain = (struct mali_pm_domain *)_mali_osk_malloc(sizeof(struct mali_pm_domain));
+ if (NULL != domain) {
+ domain->lock = _mali_osk_spinlock_irq_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_PM_DOMAIN);
+ if (NULL == domain->lock) {
+ _mali_osk_free(domain);
+ return NULL;
+ }
+
+ domain->state = MALI_PM_DOMAIN_ON;
+ domain->pmu_mask = pmu_mask;
+ domain->use_count = 0;
+ domain->group_list = NULL;
+ domain->group_count = 0;
+ domain->l2 = NULL;
+
+ domain_id = _mali_osk_fls(pmu_mask) - 1;
+ /* Verify the domain_id */
+ MALI_DEBUG_ASSERT(MALI_MAX_NUMBER_OF_DOMAINS > domain_id);
+ /* Verify that pmu_mask only one bit is set */
+ MALI_DEBUG_ASSERT((1 << domain_id) == pmu_mask);
+ mali_pm_domains[domain_id] = domain;
+
+ return domain;
+ } else {
+ MALI_DEBUG_PRINT_ERROR(("Unable to create PM domain\n"));
+ }
+
+ return NULL;
+}
+
+void mali_pm_domain_delete(struct mali_pm_domain *domain)
+{
+ if (NULL == domain) {
+ return;
+ }
+ _mali_osk_spinlock_irq_term(domain->lock);
+
+ _mali_osk_free(domain);
+}
+
+void mali_pm_domain_terminate(void)
+{
+ int i;
+
+ /* Delete all domains */
+ for (i = 0; i < MALI_MAX_NUMBER_OF_DOMAINS; i++) {
+ mali_pm_domain_delete(mali_pm_domains[i]);
+ }
+}
+
+void mali_pm_domain_add_group(u32 mask, struct mali_group *group)
+{
+ struct mali_pm_domain *domain = mali_pm_domain_get_from_mask(mask);
+ struct mali_group *next;
+
+ if (NULL == domain) return;
+
+ MALI_DEBUG_ASSERT_POINTER(group);
+
+ ++domain->group_count;
+ next = domain->group_list;
+
+ domain->group_list = group;
+
+ group->pm_domain_list = next;
+
+ mali_group_set_pm_domain(group, domain);
+
+ /* Get pm domain ref after mali_group_set_pm_domain */
+ mali_group_get_pm_domain_ref(group);
+}
+
+void mali_pm_domain_add_l2(u32 mask, struct mali_l2_cache_core *l2)
+{
+ struct mali_pm_domain *domain = mali_pm_domain_get_from_mask(mask);
+
+ if (NULL == domain) return;
+
+ MALI_DEBUG_ASSERT(NULL == domain->l2);
+ MALI_DEBUG_ASSERT(NULL != l2);
+
+ domain->l2 = l2;
+
+ mali_l2_cache_set_pm_domain(l2, domain);
+}
+
+struct mali_pm_domain *mali_pm_domain_get_from_mask(u32 mask)
+{
+ u32 id = 0;
+
+ if (0 == mask) return NULL;
+
+ id = _mali_osk_fls(mask)-1;
+
+ MALI_DEBUG_ASSERT(MALI_MAX_NUMBER_OF_DOMAINS > id);
+ /* Verify that pmu_mask only one bit is set */
+ MALI_DEBUG_ASSERT((1 << id) == mask);
+
+ return mali_pm_domains[id];
+}
+
+struct mali_pm_domain *mali_pm_domain_get_from_index(u32 id)
+{
+ MALI_DEBUG_ASSERT(MALI_MAX_NUMBER_OF_DOMAINS > id);
+
+ return mali_pm_domains[id];
+}
+
+void mali_pm_domain_ref_get(struct mali_pm_domain *domain)
+{
+ if (NULL == domain) return;
+
+ mali_pm_domain_lock(domain);
+ ++domain->use_count;
+
+ if (MALI_PM_DOMAIN_ON != domain->state) {
+ /* Power on */
+ struct mali_pmu_core *pmu = mali_pmu_get_global_pmu_core();
+
+ MALI_DEBUG_PRINT(3, ("PM Domain: Powering on 0x%08x\n", domain->pmu_mask));
+
+ if (NULL != pmu) {
+ _mali_osk_errcode_t err;
+
+ err = mali_pmu_power_up(pmu, domain->pmu_mask);
+
+ if (_MALI_OSK_ERR_OK != err && _MALI_OSK_ERR_BUSY != err) {
+ MALI_PRINT_ERROR(("PM Domain: Failed to power up PM domain 0x%08x\n",
+ domain->pmu_mask));
+ }
+ }
+ mali_pm_domain_state_set(domain, MALI_PM_DOMAIN_ON);
+ } else {
+ MALI_DEBUG_ASSERT(MALI_PM_DOMAIN_ON == mali_pm_domain_state_get(domain));
+ }
+
+ mali_pm_domain_unlock(domain);
+}
+
+void mali_pm_domain_ref_put(struct mali_pm_domain *domain)
+{
+ if (NULL == domain) return;
+
+ mali_pm_domain_lock(domain);
+ --domain->use_count;
+
+ if (0 == domain->use_count && MALI_PM_DOMAIN_OFF != domain->state) {
+ /* Power off */
+ struct mali_pmu_core *pmu = mali_pmu_get_global_pmu_core();
+
+ MALI_DEBUG_PRINT(3, ("PM Domain: Powering off 0x%08x\n", domain->pmu_mask));
+
+ mali_pm_domain_state_set(domain, MALI_PM_DOMAIN_OFF);
+
+ if (NULL != pmu) {
+ _mali_osk_errcode_t err;
+
+ err = mali_pmu_power_down(pmu, domain->pmu_mask);
+
+ if (_MALI_OSK_ERR_OK != err && _MALI_OSK_ERR_BUSY != err) {
+ MALI_PRINT_ERROR(("PM Domain: Failed to power down PM domain 0x%08x\n",
+ domain->pmu_mask));
+ }
+ }
+ }
+ mali_pm_domain_unlock(domain);
+}
+
+mali_bool mali_pm_domain_lock_state(struct mali_pm_domain *domain)
+{
+ mali_bool is_powered = MALI_TRUE;
+
+ /* Take a reference without powering on */
+ if (NULL != domain) {
+ mali_pm_domain_lock(domain);
+ ++domain->use_count;
+
+ if (MALI_PM_DOMAIN_ON != domain->state) {
+ is_powered = MALI_FALSE;
+ }
+ mali_pm_domain_unlock(domain);
+ }
+
+ if(!_mali_osk_pm_dev_ref_add_no_power_on()) {
+ is_powered = MALI_FALSE;
+ }
+
+ return is_powered;
+}
+
+void mali_pm_domain_unlock_state(struct mali_pm_domain *domain)
+{
+ _mali_osk_pm_dev_ref_dec_no_power_on();
+
+ if (NULL != domain) {
+ mali_pm_domain_ref_put(domain);
+ }
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_PM_DOMAIN_H__
+#define __MALI_PM_DOMAIN_H__
+
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+
+#include "mali_l2_cache.h"
+#include "mali_group.h"
+#include "mali_pmu.h"
+
+typedef enum {
+ MALI_PM_DOMAIN_ON,
+ MALI_PM_DOMAIN_OFF,
+} mali_pm_domain_state;
+
+struct mali_pm_domain {
+ mali_pm_domain_state state;
+ _mali_osk_spinlock_irq_t *lock;
+
+ s32 use_count;
+
+ u32 pmu_mask;
+
+ int group_count;
+ struct mali_group *group_list;
+
+ struct mali_l2_cache_core *l2;
+};
+
+struct mali_pm_domain *mali_pm_domain_create(u32 pmu_mask);
+
+void mali_pm_domain_add_group(u32 mask, struct mali_group *group);
+
+void mali_pm_domain_add_l2(u32 mask, struct mali_l2_cache_core *l2);
+void mali_pm_domain_delete(struct mali_pm_domain *domain);
+
+void mali_pm_domain_terminate(void);
+
+/** Get PM domain from domain ID
+ */
+struct mali_pm_domain *mali_pm_domain_get_from_mask(u32 mask);
+struct mali_pm_domain *mali_pm_domain_get_from_index(u32 id);
+
+/* Ref counting */
+void mali_pm_domain_ref_get(struct mali_pm_domain *domain);
+void mali_pm_domain_ref_put(struct mali_pm_domain *domain);
+
+MALI_STATIC_INLINE struct mali_l2_cache_core *mali_pm_domain_l2_get(struct mali_pm_domain *domain)
+{
+ return domain->l2;
+}
+
+MALI_STATIC_INLINE mali_pm_domain_state mali_pm_domain_state_get(struct mali_pm_domain *domain)
+{
+ return domain->state;
+}
+
+mali_bool mali_pm_domain_lock_state(struct mali_pm_domain *domain);
+void mali_pm_domain_unlock_state(struct mali_pm_domain *domain);
+
+#define MALI_PM_DOMAIN_FOR_EACH_GROUP(group, domain) for ((group) = (domain)->group_list;\
+ NULL != (group); (group) = (group)->pm_domain_list)
+
+#endif /* __MALI_PM_DOMAIN_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_pmu.c
+ * Mali driver functions for Mali 400 PMU hardware
+ */
+#include "mali_hw_core.h"
+#include "mali_pmu.h"
+#include "mali_pp.h"
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+#include "mali_pm.h"
+#include "mali_osk_mali.h"
+
+u16 mali_pmu_global_domain_config[MALI_MAX_NUMBER_OF_DOMAINS]= {0};
+
+static u32 mali_pmu_detect_mask(void);
+
+/** @brief MALI inbuilt PMU hardware info and PMU hardware has knowledge of cores power mask
+ */
+struct mali_pmu_core {
+ struct mali_hw_core hw_core;
+ _mali_osk_spinlock_t *lock;
+ u32 registered_cores_mask;
+ u32 active_cores_mask;
+ u32 switch_delay;
+};
+
+static struct mali_pmu_core *mali_global_pmu_core = NULL;
+
+/** @brief Register layout for hardware PMU
+ */
+typedef enum {
+ PMU_REG_ADDR_MGMT_POWER_UP = 0x00, /*< Power up register */
+ PMU_REG_ADDR_MGMT_POWER_DOWN = 0x04, /*< Power down register */
+ PMU_REG_ADDR_MGMT_STATUS = 0x08, /*< Core sleep status register */
+ PMU_REG_ADDR_MGMT_INT_MASK = 0x0C, /*< Interrupt mask register */
+ PMU_REG_ADDR_MGMT_INT_RAWSTAT = 0x10, /*< Interrupt raw status register */
+ PMU_REG_ADDR_MGMT_INT_CLEAR = 0x18, /*< Interrupt clear register */
+ PMU_REG_ADDR_MGMT_SW_DELAY = 0x1C, /*< Switch delay register */
+ PMU_REGISTER_ADDRESS_SPACE_SIZE = 0x28, /*< Size of register space */
+} pmu_reg_addr_mgmt_addr;
+
+#define PMU_REG_VAL_IRQ 1
+
+struct mali_pmu_core *mali_pmu_create(_mali_osk_resource_t *resource)
+{
+ struct mali_pmu_core* pmu;
+
+ MALI_DEBUG_ASSERT(NULL == mali_global_pmu_core);
+ MALI_DEBUG_PRINT(2, ("Mali PMU: Creating Mali PMU core\n"));
+
+ pmu = (struct mali_pmu_core *)_mali_osk_malloc(sizeof(struct mali_pmu_core));
+ if (NULL != pmu) {
+ pmu->lock = _mali_osk_spinlock_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_PMU);
+ if (NULL != pmu->lock) {
+ pmu->registered_cores_mask = mali_pmu_detect_mask();
+ pmu->active_cores_mask = pmu->registered_cores_mask;
+
+ if (_MALI_OSK_ERR_OK == mali_hw_core_create(&pmu->hw_core, resource, PMU_REGISTER_ADDRESS_SPACE_SIZE)) {
+ _mali_osk_errcode_t err;
+ struct _mali_osk_device_data data = { 0, };
+
+ err = _mali_osk_device_data_get(&data);
+ if (_MALI_OSK_ERR_OK == err) {
+ pmu->switch_delay = data.pmu_switch_delay;
+ mali_global_pmu_core = pmu;
+ return pmu;
+ }
+ mali_hw_core_delete(&pmu->hw_core);
+ }
+ _mali_osk_spinlock_term(pmu->lock);
+ }
+ _mali_osk_free(pmu);
+ }
+
+ return NULL;
+}
+
+void mali_pmu_delete(struct mali_pmu_core *pmu)
+{
+ MALI_DEBUG_ASSERT_POINTER(pmu);
+ MALI_DEBUG_ASSERT(pmu == mali_global_pmu_core);
+ MALI_DEBUG_PRINT(2, ("Mali PMU: Deleting Mali PMU core\n"));
+
+ _mali_osk_spinlock_term(pmu->lock);
+ mali_hw_core_delete(&pmu->hw_core);
+ _mali_osk_free(pmu);
+ mali_global_pmu_core = NULL;
+}
+
+static void mali_pmu_lock(struct mali_pmu_core *pmu)
+{
+ _mali_osk_spinlock_lock(pmu->lock);
+}
+static void mali_pmu_unlock(struct mali_pmu_core *pmu)
+{
+ _mali_osk_spinlock_unlock(pmu->lock);
+}
+
+static _mali_osk_errcode_t mali_pmu_wait_for_command_finish(struct mali_pmu_core *pmu)
+{
+ u32 rawstat;
+ u32 timeout = MALI_REG_POLL_COUNT_SLOW;
+
+ MALI_DEBUG_ASSERT(pmu);
+
+ /* Wait for the command to complete */
+ do {
+ rawstat = mali_hw_core_register_read(&pmu->hw_core, PMU_REG_ADDR_MGMT_INT_RAWSTAT);
+ --timeout;
+ } while (0 == (rawstat & PMU_REG_VAL_IRQ) && 0 < timeout);
+
+ MALI_DEBUG_ASSERT(0 < timeout);
+ if (0 == timeout) {
+ return _MALI_OSK_ERR_TIMEOUT;
+ }
+
+ mali_hw_core_register_write(&pmu->hw_core, PMU_REG_ADDR_MGMT_INT_CLEAR, PMU_REG_VAL_IRQ);
+
+ return _MALI_OSK_ERR_OK;
+}
+
+static _mali_osk_errcode_t mali_pmu_power_up_internal(struct mali_pmu_core *pmu, const u32 mask)
+{
+ u32 stat;
+ _mali_osk_errcode_t err;
+#if !defined(CONFIG_MALI_PMU_PARALLEL_POWER_UP)
+ u32 current_domain;
+#endif
+
+ MALI_DEBUG_ASSERT_POINTER(pmu);
+ MALI_DEBUG_ASSERT(0 == (mali_hw_core_register_read(&pmu->hw_core, PMU_REG_ADDR_MGMT_INT_RAWSTAT)
+ & PMU_REG_VAL_IRQ));
+
+ stat = mali_hw_core_register_read(&pmu->hw_core, PMU_REG_ADDR_MGMT_STATUS);
+ stat &= pmu->registered_cores_mask;
+ if (0 == mask || 0 == (stat & mask)) return _MALI_OSK_ERR_OK;
+
+#if defined(CONFIG_MALI_PMU_PARALLEL_POWER_UP)
+ mali_hw_core_register_write(&pmu->hw_core, PMU_REG_ADDR_MGMT_POWER_UP, mask);
+
+ err = mali_pmu_wait_for_command_finish(pmu);
+ if (_MALI_OSK_ERR_OK != err) {
+ return err;
+ }
+#else
+ for (current_domain = 1; current_domain <= pmu->registered_cores_mask; current_domain <<= 1) {
+ if (current_domain & mask & stat) {
+ mali_hw_core_register_write(&pmu->hw_core, PMU_REG_ADDR_MGMT_POWER_UP, current_domain);
+
+ err = mali_pmu_wait_for_command_finish(pmu);
+ if (_MALI_OSK_ERR_OK != err) {
+ return err;
+ }
+ }
+ }
+#endif
+
+#if defined(DEBUG)
+ /* Get power status of cores */
+ stat = mali_hw_core_register_read(&pmu->hw_core, PMU_REG_ADDR_MGMT_STATUS);
+ stat &= pmu->registered_cores_mask;
+
+ MALI_DEBUG_ASSERT(0 == (stat & mask));
+ MALI_DEBUG_ASSERT(0 == (stat & pmu->active_cores_mask));
+#endif /* defined(DEBUG) */
+
+ return _MALI_OSK_ERR_OK;
+}
+
+static _mali_osk_errcode_t mali_pmu_power_down_internal(struct mali_pmu_core *pmu, const u32 mask)
+{
+ u32 stat;
+ _mali_osk_errcode_t err;
+
+ MALI_DEBUG_ASSERT_POINTER(pmu);
+ MALI_DEBUG_ASSERT(0 == (mali_hw_core_register_read(&pmu->hw_core, PMU_REG_ADDR_MGMT_INT_RAWSTAT)
+ & PMU_REG_VAL_IRQ));
+
+ stat = mali_hw_core_register_read(&pmu->hw_core, PMU_REG_ADDR_MGMT_STATUS);
+ stat &= pmu->registered_cores_mask;
+
+ if (0 == mask || 0 == ((~stat) & mask)) return _MALI_OSK_ERR_OK;
+
+ mali_hw_core_register_write(&pmu->hw_core, PMU_REG_ADDR_MGMT_POWER_DOWN, mask);
+
+ /* Do not wait for interrupt on Mali-300/400 if all domains are powered off
+ * by our power down command, because the HW will simply not generate an
+ * interrupt in this case.*/
+ if (mali_is_mali450() || pmu->registered_cores_mask != (mask | stat)) {
+ err = mali_pmu_wait_for_command_finish(pmu);
+ if (_MALI_OSK_ERR_OK != err) {
+ return err;
+ }
+ } else {
+ mali_hw_core_register_write(&pmu->hw_core, PMU_REG_ADDR_MGMT_INT_CLEAR, PMU_REG_VAL_IRQ);
+ }
+#if defined(DEBUG)
+ /* Get power status of cores */
+ stat = mali_hw_core_register_read(&pmu->hw_core, PMU_REG_ADDR_MGMT_STATUS);
+ stat &= pmu->registered_cores_mask;
+
+ MALI_DEBUG_ASSERT(mask == (stat & mask));
+#endif
+
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t mali_pmu_reset(struct mali_pmu_core *pmu)
+{
+ _mali_osk_errcode_t err;
+ u32 cores_off_mask, cores_on_mask, stat;
+
+ mali_pmu_lock(pmu);
+
+ /* Setup the desired defaults */
+ mali_hw_core_register_write_relaxed(&pmu->hw_core, PMU_REG_ADDR_MGMT_INT_MASK, 0);
+ mali_hw_core_register_write_relaxed(&pmu->hw_core, PMU_REG_ADDR_MGMT_SW_DELAY, pmu->switch_delay);
+
+ /* Get power status of cores */
+ stat = mali_hw_core_register_read(&pmu->hw_core, PMU_REG_ADDR_MGMT_STATUS);
+
+ cores_off_mask = pmu->registered_cores_mask & ~(stat | pmu->active_cores_mask);
+ cores_on_mask = pmu->registered_cores_mask & (stat & pmu->active_cores_mask);
+
+ if (0 != cores_off_mask) {
+ err = mali_pmu_power_down_internal(pmu, cores_off_mask);
+ if (_MALI_OSK_ERR_OK != err) return err;
+ }
+
+ if (0 != cores_on_mask) {
+ err = mali_pmu_power_up_internal(pmu, cores_on_mask);
+ if (_MALI_OSK_ERR_OK != err) return err;
+ }
+
+#if defined(DEBUG)
+ {
+ stat = mali_hw_core_register_read(&pmu->hw_core, PMU_REG_ADDR_MGMT_STATUS);
+ stat &= pmu->registered_cores_mask;
+
+ MALI_DEBUG_ASSERT(stat == (pmu->registered_cores_mask & ~pmu->active_cores_mask));
+ }
+#endif /* defined(DEBUG) */
+
+ mali_pmu_unlock(pmu);
+
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t mali_pmu_power_down(struct mali_pmu_core *pmu, u32 mask)
+{
+ _mali_osk_errcode_t err;
+
+ MALI_DEBUG_ASSERT_POINTER(pmu);
+ MALI_DEBUG_ASSERT(pmu->registered_cores_mask != 0 );
+
+ /* Make sure we have a valid power domain mask */
+ if (mask > pmu->registered_cores_mask) {
+ return _MALI_OSK_ERR_INVALID_ARGS;
+ }
+
+ mali_pmu_lock(pmu);
+
+ MALI_DEBUG_PRINT(4, ("Mali PMU: Power down (0x%08X)\n", mask));
+
+ pmu->active_cores_mask &= ~mask;
+
+ _mali_osk_pm_dev_ref_add_no_power_on();
+ if (!mali_pm_is_power_on()) {
+ /* Don't touch hardware if all of Mali is powered off. */
+ _mali_osk_pm_dev_ref_dec_no_power_on();
+ mali_pmu_unlock(pmu);
+
+ MALI_DEBUG_PRINT(4, ("Mali PMU: Skipping power down (0x%08X) since Mali is off\n", mask));
+
+ return _MALI_OSK_ERR_BUSY;
+ }
+
+ err = mali_pmu_power_down_internal(pmu, mask);
+
+ _mali_osk_pm_dev_ref_dec_no_power_on();
+ mali_pmu_unlock(pmu);
+
+ return err;
+}
+
+_mali_osk_errcode_t mali_pmu_power_up(struct mali_pmu_core *pmu, u32 mask)
+{
+ _mali_osk_errcode_t err;
+
+ MALI_DEBUG_ASSERT_POINTER(pmu);
+ MALI_DEBUG_ASSERT(pmu->registered_cores_mask != 0 );
+
+ /* Make sure we have a valid power domain mask */
+ if (mask & ~pmu->registered_cores_mask) {
+ return _MALI_OSK_ERR_INVALID_ARGS;
+ }
+
+ mali_pmu_lock(pmu);
+
+ MALI_DEBUG_PRINT(4, ("Mali PMU: Power up (0x%08X)\n", mask));
+
+ pmu->active_cores_mask |= mask;
+
+ _mali_osk_pm_dev_ref_add_no_power_on();
+ if (!mali_pm_is_power_on()) {
+ /* Don't touch hardware if all of Mali is powered off. */
+ _mali_osk_pm_dev_ref_dec_no_power_on();
+ mali_pmu_unlock(pmu);
+
+ MALI_DEBUG_PRINT(4, ("Mali PMU: Skipping power up (0x%08X) since Mali is off\n", mask));
+
+ return _MALI_OSK_ERR_BUSY;
+ }
+
+ err = mali_pmu_power_up_internal(pmu, mask);
+
+ _mali_osk_pm_dev_ref_dec_no_power_on();
+ mali_pmu_unlock(pmu);
+
+ return err;
+}
+
+_mali_osk_errcode_t mali_pmu_power_down_all(struct mali_pmu_core *pmu)
+{
+ _mali_osk_errcode_t err;
+
+ MALI_DEBUG_ASSERT_POINTER(pmu);
+ MALI_DEBUG_ASSERT(pmu->registered_cores_mask != 0);
+
+ mali_pmu_lock(pmu);
+
+ /* Setup the desired defaults in case we were called before mali_pmu_reset() */
+ mali_hw_core_register_write_relaxed(&pmu->hw_core, PMU_REG_ADDR_MGMT_INT_MASK, 0);
+ mali_hw_core_register_write_relaxed(&pmu->hw_core, PMU_REG_ADDR_MGMT_SW_DELAY, pmu->switch_delay);
+
+ err = mali_pmu_power_down_internal(pmu, pmu->registered_cores_mask);
+
+ mali_pmu_unlock(pmu);
+
+ return err;
+}
+
+_mali_osk_errcode_t mali_pmu_power_up_all(struct mali_pmu_core *pmu)
+{
+ _mali_osk_errcode_t err;
+
+ MALI_DEBUG_ASSERT_POINTER(pmu);
+ MALI_DEBUG_ASSERT(pmu->registered_cores_mask != 0);
+
+ mali_pmu_lock(pmu);
+
+ /* Setup the desired defaults in case we were called before mali_pmu_reset() */
+ mali_hw_core_register_write_relaxed(&pmu->hw_core, PMU_REG_ADDR_MGMT_INT_MASK, 0);
+ mali_hw_core_register_write_relaxed(&pmu->hw_core, PMU_REG_ADDR_MGMT_SW_DELAY, pmu->switch_delay);
+
+ err = mali_pmu_power_up_internal(pmu, pmu->active_cores_mask);
+
+ mali_pmu_unlock(pmu);
+ return err;
+}
+
+struct mali_pmu_core *mali_pmu_get_global_pmu_core(void)
+{
+ return mali_global_pmu_core;
+}
+
+static u32 mali_pmu_detect_mask(void)
+{
+ int dynamic_config_pp = 0;
+ int dynamic_config_l2 = 0;
+ int i = 0;
+ u32 mask = 0;
+
+ /* Check if PM domain compatible with actually pp core and l2 cache and collection info about domain */
+ mask = mali_pmu_get_domain_mask(MALI_GP_DOMAIN_INDEX);
+
+ for (i = MALI_PP0_DOMAIN_INDEX; i <= MALI_PP7_DOMAIN_INDEX; i++) {
+ mask |= mali_pmu_get_domain_mask(i);
+
+ if (0x0 != mali_pmu_get_domain_mask(i)) {
+ dynamic_config_pp++;
+ }
+ }
+
+ for (i = MALI_L20_DOMAIN_INDEX; i <= MALI_L22_DOMAIN_INDEX; i++) {
+ mask |= mali_pmu_get_domain_mask(i);
+
+ if (0x0 != mali_pmu_get_domain_mask(i)) {
+ dynamic_config_l2++;
+ }
+ }
+
+ MALI_DEBUG_PRINT(2, ("Mali PMU: mask 0x%x, pp_core %d, l2_core %d \n", mask, dynamic_config_pp, dynamic_config_l2));
+
+ return mask;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_platform.h
+ * Platform specific Mali driver functions
+ */
+
+#ifndef __MALI_PMU_H__
+#define __MALI_PMU_H__
+
+#include "mali_osk.h"
+
+#define MALI_GP_DOMAIN_INDEX 0
+#define MALI_PP0_DOMAIN_INDEX 1
+#define MALI_PP1_DOMAIN_INDEX 2
+#define MALI_PP2_DOMAIN_INDEX 3
+#define MALI_PP3_DOMAIN_INDEX 4
+#define MALI_PP4_DOMAIN_INDEX 5
+#define MALI_PP5_DOMAIN_INDEX 6
+#define MALI_PP6_DOMAIN_INDEX 7
+#define MALI_PP7_DOMAIN_INDEX 8
+#define MALI_L20_DOMAIN_INDEX 9
+#define MALI_L21_DOMAIN_INDEX 10
+#define MALI_L22_DOMAIN_INDEX 11
+
+#define MALI_MAX_NUMBER_OF_DOMAINS 12
+
+/* Record the domain config from the customer or default config */
+extern u16 mali_pmu_global_domain_config[];
+
+static inline u16 mali_pmu_get_domain_mask(u32 index)
+{
+ MALI_DEBUG_ASSERT(MALI_MAX_NUMBER_OF_DOMAINS > index);
+
+ return mali_pmu_global_domain_config[index];
+}
+
+static inline void mali_pmu_set_domain_mask(u32 index, u16 value)
+{
+ MALI_DEBUG_ASSERT(MALI_MAX_NUMBER_OF_DOMAINS > index);
+
+ mali_pmu_global_domain_config[index] = value;
+}
+
+static inline void mali_pmu_copy_domain_mask(void *src, u32 len)
+{
+ _mali_osk_memcpy(mali_pmu_global_domain_config, src, len);
+}
+
+struct mali_pmu_core;
+
+/** @brief Initialisation of MALI PMU
+ *
+ * This is called from entry point of the driver in order to create and intialize the PMU resource
+ *
+ * @param resource it will be a pointer to a PMU resource
+ * @param number_of_pp_cores Number of found PP resources in configuration
+ * @param number_of_l2_caches Number of found L2 cache resources in configuration
+ * @return The created PMU object, or NULL in case of failure.
+ */
+struct mali_pmu_core *mali_pmu_create(_mali_osk_resource_t *resource);
+
+/** @brief It deallocates the PMU resource
+ *
+ * This is called on the exit of the driver to terminate the PMU resource
+ *
+ * @param pmu Pointer to PMU core object to delete
+ */
+void mali_pmu_delete(struct mali_pmu_core *pmu);
+
+/** @brief Reset PMU core
+ *
+ * @param pmu Pointer to PMU core object to reset
+ * @return _MALI_OSK_ERR_OK on success, otherwise failure.
+ */
+_mali_osk_errcode_t mali_pmu_reset(struct mali_pmu_core *pmu);
+
+/** @brief MALI GPU power down using MALI in-built PMU
+ *
+ * Called to power down the specified cores. The mask will be saved so that \a
+ * mali_pmu_power_up_all will bring the PMU back to the previous state set with
+ * this function or \a mali_pmu_power_up.
+ *
+ * @param pmu Pointer to PMU core object to power down
+ * @param mask Mask specifying which power domains to power down
+ * @return _MALI_OSK_ERR_OK on success otherwise, a suitable _mali_osk_errcode_t error.
+ */
+_mali_osk_errcode_t mali_pmu_power_down(struct mali_pmu_core *pmu, u32 mask);
+
+/** @brief MALI GPU power up using MALI in-built PMU
+ *
+ * Called to power up the specified cores. The mask will be saved so that \a
+ * mali_pmu_power_up_all will bring the PMU back to the previous state set with
+ * this function or \a mali_pmu_power_down.
+ *
+ * @param pmu Pointer to PMU core object to power up
+ * @param mask Mask specifying which power domains to power up
+ * @return _MALI_OSK_ERR_OK on success otherwise, a suitable _mali_osk_errcode_t error.
+ */
+_mali_osk_errcode_t mali_pmu_power_up(struct mali_pmu_core *pmu, u32 mask);
+
+/** @brief MALI GPU power down using MALI in-built PMU
+ *
+ * called to power down all cores
+ *
+ * @param pmu Pointer to PMU core object to power down
+ * @return _MALI_OSK_ERR_OK on success otherwise, a suitable _mali_osk_errcode_t error.
+ */
+_mali_osk_errcode_t mali_pmu_power_down_all(struct mali_pmu_core *pmu);
+
+/** @brief MALI GPU power up using MALI in-built PMU
+ *
+ * called to power up all cores
+ *
+ * @param pmu Pointer to PMU core object to power up
+ * @return _MALI_OSK_ERR_OK on success otherwise, a suitable _mali_osk_errcode_t error.
+ */
+_mali_osk_errcode_t mali_pmu_power_up_all(struct mali_pmu_core *pmu);
+
+/** @brief Retrieves the Mali PMU core object (if any)
+ *
+ * @return The Mali PMU object, or NULL if no PMU exists.
+ */
+struct mali_pmu_core *mali_pmu_get_global_pmu_core(void);
+
+#endif /* __MALI_PMU_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_pp_job.h"
+#include "mali_pp.h"
+#include "mali_hw_core.h"
+#include "mali_group.h"
+#include "regs/mali_200_regs.h"
+#include "mali_kernel_common.h"
+#include "mali_kernel_core.h"
+#include "mali_dma.h"
+#if defined(CONFIG_MALI400_PROFILING)
+#include "mali_osk_profiling.h"
+#endif
+
+/* Number of frame registers on Mali-200 */
+#define MALI_PP_MALI200_NUM_FRAME_REGISTERS ((0x04C/4)+1)
+/* Number of frame registers on Mali-300 and later */
+#define MALI_PP_MALI400_NUM_FRAME_REGISTERS ((0x058/4)+1)
+
+static struct mali_pp_core* mali_global_pp_cores[MALI_MAX_NUMBER_OF_PP_CORES] = { NULL };
+static u32 mali_global_num_pp_cores = 0;
+
+/* Interrupt handlers */
+static void mali_pp_irq_probe_trigger(void *data);
+static _mali_osk_errcode_t mali_pp_irq_probe_ack(void *data);
+
+struct mali_pp_core *mali_pp_create(const _mali_osk_resource_t *resource, struct mali_group *group, mali_bool is_virtual, u32 bcast_id)
+{
+ struct mali_pp_core* core = NULL;
+
+ MALI_DEBUG_PRINT(2, ("Mali PP: Creating Mali PP core: %s\n", resource->description));
+ MALI_DEBUG_PRINT(2, ("Mali PP: Base address of PP core: 0x%x\n", resource->base));
+
+ if (mali_global_num_pp_cores >= MALI_MAX_NUMBER_OF_PP_CORES) {
+ MALI_PRINT_ERROR(("Mali PP: Too many PP core objects created\n"));
+ return NULL;
+ }
+
+ core = _mali_osk_malloc(sizeof(struct mali_pp_core));
+ if (NULL != core) {
+ core->core_id = mali_global_num_pp_cores;
+ core->bcast_id = bcast_id;
+
+ if (_MALI_OSK_ERR_OK == mali_hw_core_create(&core->hw_core, resource, MALI200_REG_SIZEOF_REGISTER_BANK)) {
+ _mali_osk_errcode_t ret;
+
+ if (!is_virtual) {
+ ret = mali_pp_reset(core);
+ } else {
+ ret = _MALI_OSK_ERR_OK;
+ }
+
+ if (_MALI_OSK_ERR_OK == ret) {
+ ret = mali_group_add_pp_core(group, core);
+ if (_MALI_OSK_ERR_OK == ret) {
+ /* Setup IRQ handlers (which will do IRQ probing if needed) */
+ MALI_DEBUG_ASSERT(!is_virtual || -1 != resource->irq);
+
+ core->irq = _mali_osk_irq_init(resource->irq,
+ mali_group_upper_half_pp,
+ group,
+ mali_pp_irq_probe_trigger,
+ mali_pp_irq_probe_ack,
+ core,
+ resource->description);
+ if (NULL != core->irq) {
+ mali_global_pp_cores[mali_global_num_pp_cores] = core;
+ mali_global_num_pp_cores++;
+
+ return core;
+ } else {
+ MALI_PRINT_ERROR(("Mali PP: Failed to setup interrupt handlers for PP core %s\n", core->hw_core.description));
+ }
+ mali_group_remove_pp_core(group);
+ } else {
+ MALI_PRINT_ERROR(("Mali PP: Failed to add core %s to group\n", core->hw_core.description));
+ }
+ }
+ mali_hw_core_delete(&core->hw_core);
+ }
+
+ _mali_osk_free(core);
+ } else {
+ MALI_PRINT_ERROR(("Mali PP: Failed to allocate memory for PP core\n"));
+ }
+
+ return NULL;
+}
+
+void mali_pp_delete(struct mali_pp_core *core)
+{
+ u32 i;
+
+ MALI_DEBUG_ASSERT_POINTER(core);
+
+ _mali_osk_irq_term(core->irq);
+ mali_hw_core_delete(&core->hw_core);
+
+ /* Remove core from global list */
+ for (i = 0; i < mali_global_num_pp_cores; i++) {
+ if (mali_global_pp_cores[i] == core) {
+ mali_global_pp_cores[i] = NULL;
+ mali_global_num_pp_cores--;
+
+ if (i != mali_global_num_pp_cores) {
+ /* We removed a PP core from the middle of the array -- move the last
+ * PP core to the current position to close the gap */
+ mali_global_pp_cores[i] = mali_global_pp_cores[mali_global_num_pp_cores];
+ mali_global_pp_cores[mali_global_num_pp_cores] = NULL;
+ }
+
+ break;
+ }
+ }
+
+ _mali_osk_free(core);
+}
+
+void mali_pp_stop_bus(struct mali_pp_core *core)
+{
+ MALI_DEBUG_ASSERT_POINTER(core);
+ /* Will only send the stop bus command, and not wait for it to complete */
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_CTRL_MGMT, MALI200_REG_VAL_CTRL_MGMT_STOP_BUS);
+}
+
+_mali_osk_errcode_t mali_pp_stop_bus_wait(struct mali_pp_core *core)
+{
+ int i;
+
+ MALI_DEBUG_ASSERT_POINTER(core);
+
+ /* Send the stop bus command. */
+ mali_pp_stop_bus(core);
+
+ /* Wait for bus to be stopped */
+ for (i = 0; i < MALI_REG_POLL_COUNT_FAST; i++) {
+ if (mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_STATUS) & MALI200_REG_VAL_STATUS_BUS_STOPPED)
+ break;
+ }
+
+ if (MALI_REG_POLL_COUNT_FAST == i) {
+ MALI_PRINT_ERROR(("Mali PP: Failed to stop bus on %s. Status: 0x%08x\n", core->hw_core.description, mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_STATUS)));
+ return _MALI_OSK_ERR_FAULT;
+ }
+ return _MALI_OSK_ERR_OK;
+}
+
+/* Frame register reset values.
+ * Taken from the Mali400 TRM, 3.6. Pixel processor control register summary */
+static const u32 mali_frame_registers_reset_values[_MALI_PP_MAX_FRAME_REGISTERS] = {
+ 0x0, /* Renderer List Address Register */
+ 0x0, /* Renderer State Word Base Address Register */
+ 0x0, /* Renderer Vertex Base Register */
+ 0x2, /* Feature Enable Register */
+ 0x0, /* Z Clear Value Register */
+ 0x0, /* Stencil Clear Value Register */
+ 0x0, /* ABGR Clear Value 0 Register */
+ 0x0, /* ABGR Clear Value 1 Register */
+ 0x0, /* ABGR Clear Value 2 Register */
+ 0x0, /* ABGR Clear Value 3 Register */
+ 0x0, /* Bounding Box Left Right Register */
+ 0x0, /* Bounding Box Bottom Register */
+ 0x0, /* FS Stack Address Register */
+ 0x0, /* FS Stack Size and Initial Value Register */
+ 0x0, /* Reserved */
+ 0x0, /* Reserved */
+ 0x0, /* Origin Offset X Register */
+ 0x0, /* Origin Offset Y Register */
+ 0x75, /* Subpixel Specifier Register */
+ 0x0, /* Tiebreak mode Register */
+ 0x0, /* Polygon List Format Register */
+ 0x0, /* Scaling Register */
+ 0x0 /* Tilebuffer configuration Register */
+};
+
+/* WBx register reset values */
+static const u32 mali_wb_registers_reset_values[_MALI_PP_MAX_WB_REGISTERS] = {
+ 0x0, /* WBx Source Select Register */
+ 0x0, /* WBx Target Address Register */
+ 0x0, /* WBx Target Pixel Format Register */
+ 0x0, /* WBx Target AA Format Register */
+ 0x0, /* WBx Target Layout */
+ 0x0, /* WBx Target Scanline Length */
+ 0x0, /* WBx Target Flags Register */
+ 0x0, /* WBx MRT Enable Register */
+ 0x0, /* WBx MRT Offset Register */
+ 0x0, /* WBx Global Test Enable Register */
+ 0x0, /* WBx Global Test Reference Value Register */
+ 0x0 /* WBx Global Test Compare Function Register */
+};
+
+/* Performance Counter 0 Enable Register reset value */
+static const u32 mali_perf_cnt_enable_reset_value = 0;
+
+_mali_osk_errcode_t mali_pp_hard_reset(struct mali_pp_core *core)
+{
+ /* Bus must be stopped before calling this function */
+ const u32 reset_invalid_value = 0xC0FFE000;
+ const u32 reset_check_value = 0xC01A0000;
+ int i;
+
+ MALI_DEBUG_ASSERT_POINTER(core);
+ MALI_DEBUG_PRINT(2, ("Mali PP: Hard reset of core %s\n", core->hw_core.description));
+
+ /* Set register to a bogus value. The register will be used to detect when reset is complete */
+ mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_MGMT_WRITE_BOUNDARY_LOW, reset_invalid_value);
+ mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK, MALI200_REG_VAL_IRQ_MASK_NONE);
+
+ /* Force core to reset */
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_CTRL_MGMT, MALI200_REG_VAL_CTRL_MGMT_FORCE_RESET);
+
+ /* Wait for reset to be complete */
+ for (i = 0; i < MALI_REG_POLL_COUNT_FAST; i++) {
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_WRITE_BOUNDARY_LOW, reset_check_value);
+ if (reset_check_value == mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_WRITE_BOUNDARY_LOW)) {
+ break;
+ }
+ }
+
+ if (MALI_REG_POLL_COUNT_FAST == i) {
+ MALI_PRINT_ERROR(("Mali PP: The hard reset loop didn't work, unable to recover\n"));
+ }
+
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_WRITE_BOUNDARY_LOW, 0x00000000); /* set it back to the default */
+ /* Re-enable interrupts */
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_CLEAR, MALI200_REG_VAL_IRQ_MASK_ALL);
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK, MALI200_REG_VAL_IRQ_MASK_USED);
+
+ return _MALI_OSK_ERR_OK;
+}
+
+void mali_pp_reset_async(struct mali_pp_core *core)
+{
+ MALI_DEBUG_ASSERT_POINTER(core);
+
+ MALI_DEBUG_PRINT(4, ("Mali PP: Reset of core %s\n", core->hw_core.description));
+
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK, 0); /* disable the IRQs */
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_RAWSTAT, MALI200_REG_VAL_IRQ_MASK_ALL);
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_CTRL_MGMT, MALI400PP_REG_VAL_CTRL_MGMT_SOFT_RESET);
+}
+
+_mali_osk_errcode_t mali_pp_reset_wait(struct mali_pp_core *core)
+{
+ int i;
+ u32 rawstat = 0;
+
+ for (i = 0; i < MALI_REG_POLL_COUNT_FAST; i++) {
+ if (!(mali_pp_read_status(core) & MALI200_REG_VAL_STATUS_RENDERING_ACTIVE)) {
+ rawstat = mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_RAWSTAT);
+ if (rawstat == MALI400PP_REG_VAL_IRQ_RESET_COMPLETED) {
+ break;
+ }
+ }
+ }
+
+ if (i == MALI_REG_POLL_COUNT_FAST) {
+ MALI_PRINT_ERROR(("Mali PP: Failed to reset core %s, rawstat: 0x%08x\n",
+ core->hw_core.description, rawstat));
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ /* Re-enable interrupts */
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_CLEAR, MALI200_REG_VAL_IRQ_MASK_ALL);
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK, MALI200_REG_VAL_IRQ_MASK_USED);
+
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t mali_pp_reset(struct mali_pp_core *core)
+{
+ mali_pp_reset_async(core);
+ return mali_pp_reset_wait(core);
+}
+
+void mali_pp_job_dma_cmd_prepare(struct mali_pp_core *core, struct mali_pp_job *job, u32 sub_job,
+ mali_bool restart_virtual, mali_dma_cmd_buf *buf)
+{
+ u32 relative_address;
+ u32 start_index;
+ u32 nr_of_regs;
+ u32 *frame_registers = mali_pp_job_get_frame_registers(job);
+ u32 *wb0_registers = mali_pp_job_get_wb0_registers(job);
+ u32 *wb1_registers = mali_pp_job_get_wb1_registers(job);
+ u32 *wb2_registers = mali_pp_job_get_wb2_registers(job);
+ u32 counter_src0 = mali_pp_job_get_perf_counter_src0(job, sub_job);
+ u32 counter_src1 = mali_pp_job_get_perf_counter_src1(job, sub_job);
+
+ MALI_DEBUG_ASSERT_POINTER(core);
+
+ /* Write frame registers */
+
+ /*
+ * There are two frame registers which are different for each sub job:
+ * 1. The Renderer List Address Register (MALI200_REG_ADDR_FRAME)
+ * 2. The FS Stack Address Register (MALI200_REG_ADDR_STACK)
+ */
+ mali_dma_write_conditional(buf, &core->hw_core, MALI200_REG_ADDR_FRAME, mali_pp_job_get_addr_frame(job, sub_job), mali_frame_registers_reset_values[MALI200_REG_ADDR_FRAME / sizeof(u32)]);
+
+ /* For virtual jobs, the stack address shouldn't be broadcast but written individually */
+ if (!mali_pp_job_is_virtual(job) || restart_virtual) {
+ mali_dma_write_conditional(buf, &core->hw_core, MALI200_REG_ADDR_STACK, mali_pp_job_get_addr_stack(job, sub_job), mali_frame_registers_reset_values[MALI200_REG_ADDR_STACK / sizeof(u32)]);
+ }
+
+ /* Write registers between MALI200_REG_ADDR_FRAME and MALI200_REG_ADDR_STACK */
+ relative_address = MALI200_REG_ADDR_RSW;
+ start_index = MALI200_REG_ADDR_RSW / sizeof(u32);
+ nr_of_regs = (MALI200_REG_ADDR_STACK - MALI200_REG_ADDR_RSW) / sizeof(u32);
+
+ mali_dma_write_array_conditional(buf, &core->hw_core,
+ relative_address, &frame_registers[start_index],
+ nr_of_regs, &mali_frame_registers_reset_values[start_index]);
+
+ /* MALI200_REG_ADDR_STACK_SIZE */
+ relative_address = MALI200_REG_ADDR_STACK_SIZE;
+ start_index = MALI200_REG_ADDR_STACK_SIZE / sizeof(u32);
+
+ mali_dma_write_conditional(buf, &core->hw_core,
+ relative_address, frame_registers[start_index],
+ mali_frame_registers_reset_values[start_index]);
+
+ /* Skip 2 reserved registers */
+
+ /* Write remaining registers */
+ relative_address = MALI200_REG_ADDR_ORIGIN_OFFSET_X;
+ start_index = MALI200_REG_ADDR_ORIGIN_OFFSET_X / sizeof(u32);
+ nr_of_regs = MALI_PP_MALI400_NUM_FRAME_REGISTERS - MALI200_REG_ADDR_ORIGIN_OFFSET_X / sizeof(u32);
+
+ mali_dma_write_array_conditional(buf, &core->hw_core,
+ relative_address, &frame_registers[start_index],
+ nr_of_regs, &mali_frame_registers_reset_values[start_index]);
+
+ /* Write WBx registers */
+ if (wb0_registers[0]) { /* M200_WB0_REG_SOURCE_SELECT register */
+ mali_dma_write_array_conditional(buf, &core->hw_core, MALI200_REG_ADDR_WB0, wb0_registers, _MALI_PP_MAX_WB_REGISTERS, mali_wb_registers_reset_values);
+ }
+
+ if (wb1_registers[0]) { /* M200_WB1_REG_SOURCE_SELECT register */
+ mali_dma_write_array_conditional(buf, &core->hw_core, MALI200_REG_ADDR_WB1, wb1_registers, _MALI_PP_MAX_WB_REGISTERS, mali_wb_registers_reset_values);
+ }
+
+ if (wb2_registers[0]) { /* M200_WB2_REG_SOURCE_SELECT register */
+ mali_dma_write_array_conditional(buf, &core->hw_core, MALI200_REG_ADDR_WB2, wb2_registers, _MALI_PP_MAX_WB_REGISTERS, mali_wb_registers_reset_values);
+ }
+
+ if (MALI_HW_CORE_NO_COUNTER != counter_src0) {
+ mali_dma_write(buf, &core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_SRC, counter_src0);
+ mali_dma_write_conditional(buf, &core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_ENABLE, MALI200_REG_VAL_PERF_CNT_ENABLE, mali_perf_cnt_enable_reset_value);
+ }
+ if (MALI_HW_CORE_NO_COUNTER != counter_src1) {
+ mali_dma_write(buf, &core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_SRC, counter_src1);
+ mali_dma_write_conditional(buf, &core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_ENABLE, MALI200_REG_VAL_PERF_CNT_ENABLE, mali_perf_cnt_enable_reset_value);
+ }
+
+ /* This is the command that starts the core. */
+ mali_dma_write(buf, &core->hw_core, MALI200_REG_ADDR_MGMT_CTRL_MGMT, MALI200_REG_VAL_CTRL_MGMT_START_RENDERING);
+}
+
+void mali_pp_job_start(struct mali_pp_core *core, struct mali_pp_job *job, u32 sub_job, mali_bool restart_virtual)
+{
+ u32 relative_address;
+ u32 start_index;
+ u32 nr_of_regs;
+ u32 *frame_registers = mali_pp_job_get_frame_registers(job);
+ u32 *wb0_registers = mali_pp_job_get_wb0_registers(job);
+ u32 *wb1_registers = mali_pp_job_get_wb1_registers(job);
+ u32 *wb2_registers = mali_pp_job_get_wb2_registers(job);
+ u32 counter_src0 = mali_pp_job_get_perf_counter_src0(job, sub_job);
+ u32 counter_src1 = mali_pp_job_get_perf_counter_src1(job, sub_job);
+
+ MALI_DEBUG_ASSERT_POINTER(core);
+
+ /* Write frame registers */
+
+ /*
+ * There are two frame registers which are different for each sub job:
+ * 1. The Renderer List Address Register (MALI200_REG_ADDR_FRAME)
+ * 2. The FS Stack Address Register (MALI200_REG_ADDR_STACK)
+ */
+ mali_hw_core_register_write_relaxed_conditional(&core->hw_core, MALI200_REG_ADDR_FRAME, mali_pp_job_get_addr_frame(job, sub_job), mali_frame_registers_reset_values[MALI200_REG_ADDR_FRAME / sizeof(u32)]);
+
+ /* For virtual jobs, the stack address shouldn't be broadcast but written individually */
+ if (!mali_pp_job_is_virtual(job) || restart_virtual) {
+ mali_hw_core_register_write_relaxed_conditional(&core->hw_core, MALI200_REG_ADDR_STACK, mali_pp_job_get_addr_stack(job, sub_job), mali_frame_registers_reset_values[MALI200_REG_ADDR_STACK / sizeof(u32)]);
+ }
+
+ /* Write registers between MALI200_REG_ADDR_FRAME and MALI200_REG_ADDR_STACK */
+ relative_address = MALI200_REG_ADDR_RSW;
+ start_index = MALI200_REG_ADDR_RSW / sizeof(u32);
+ nr_of_regs = (MALI200_REG_ADDR_STACK - MALI200_REG_ADDR_RSW) / sizeof(u32);
+
+ mali_hw_core_register_write_array_relaxed_conditional(&core->hw_core,
+ relative_address, &frame_registers[start_index],
+ nr_of_regs, &mali_frame_registers_reset_values[start_index]);
+
+ /* MALI200_REG_ADDR_STACK_SIZE */
+ relative_address = MALI200_REG_ADDR_STACK_SIZE;
+ start_index = MALI200_REG_ADDR_STACK_SIZE / sizeof(u32);
+
+ mali_hw_core_register_write_relaxed_conditional(&core->hw_core,
+ relative_address, frame_registers[start_index],
+ mali_frame_registers_reset_values[start_index]);
+
+ /* Skip 2 reserved registers */
+
+ /* Write remaining registers */
+ relative_address = MALI200_REG_ADDR_ORIGIN_OFFSET_X;
+ start_index = MALI200_REG_ADDR_ORIGIN_OFFSET_X / sizeof(u32);
+ nr_of_regs = MALI_PP_MALI400_NUM_FRAME_REGISTERS - MALI200_REG_ADDR_ORIGIN_OFFSET_X / sizeof(u32);
+
+ mali_hw_core_register_write_array_relaxed_conditional(&core->hw_core,
+ relative_address, &frame_registers[start_index],
+ nr_of_regs, &mali_frame_registers_reset_values[start_index]);
+
+ /* Write WBx registers */
+ if (wb0_registers[0]) { /* M200_WB0_REG_SOURCE_SELECT register */
+ mali_hw_core_register_write_array_relaxed_conditional(&core->hw_core, MALI200_REG_ADDR_WB0, wb0_registers, _MALI_PP_MAX_WB_REGISTERS, mali_wb_registers_reset_values);
+ }
+
+ if (wb1_registers[0]) { /* M200_WB1_REG_SOURCE_SELECT register */
+ mali_hw_core_register_write_array_relaxed_conditional(&core->hw_core, MALI200_REG_ADDR_WB1, wb1_registers, _MALI_PP_MAX_WB_REGISTERS, mali_wb_registers_reset_values);
+ }
+
+ if (wb2_registers[0]) { /* M200_WB2_REG_SOURCE_SELECT register */
+ mali_hw_core_register_write_array_relaxed_conditional(&core->hw_core, MALI200_REG_ADDR_WB2, wb2_registers, _MALI_PP_MAX_WB_REGISTERS, mali_wb_registers_reset_values);
+ }
+
+ if (MALI_HW_CORE_NO_COUNTER != counter_src0) {
+ mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_SRC, counter_src0);
+ mali_hw_core_register_write_relaxed_conditional(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_ENABLE, MALI200_REG_VAL_PERF_CNT_ENABLE, mali_perf_cnt_enable_reset_value);
+ }
+ if (MALI_HW_CORE_NO_COUNTER != counter_src1) {
+ mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_SRC, counter_src1);
+ mali_hw_core_register_write_relaxed_conditional(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_ENABLE, MALI200_REG_VAL_PERF_CNT_ENABLE, mali_perf_cnt_enable_reset_value);
+ }
+
+#ifdef CONFIG_MALI400_HEATMAPS_ENABLED
+ if(job->uargs.perf_counter_flag & _MALI_PERFORMANCE_COUNTER_FLAG_HEATMAP_ENABLE) {
+ mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_MGMT_PERFMON_CONTR, ((job->uargs.tilesx & 0x3FF) << 16) | 1);
+ mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_MGMT_PERFMON_BASE, job->uargs.heatmap_mem & 0xFFFFFFF8);
+ }
+#endif /* CONFIG_MALI400_HEATMAPS_ENABLED */
+
+ MALI_DEBUG_PRINT(3, ("Mali PP: Starting job 0x%08X part %u/%u on PP core %s\n", job, sub_job + 1, mali_pp_job_get_sub_job_count(job), core->hw_core.description));
+
+ /* Adding barrier to make sure all rester writes are finished */
+ _mali_osk_write_mem_barrier();
+
+ /* This is the command that starts the core. */
+ mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_MGMT_CTRL_MGMT, MALI200_REG_VAL_CTRL_MGMT_START_RENDERING);
+
+ /* Adding barrier to make sure previous rester writes is finished */
+ _mali_osk_write_mem_barrier();
+}
+
+u32 mali_pp_core_get_version(struct mali_pp_core *core)
+{
+ MALI_DEBUG_ASSERT_POINTER(core);
+ return mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_VERSION);
+}
+
+struct mali_pp_core* mali_pp_get_global_pp_core(u32 index)
+{
+ if (mali_global_num_pp_cores > index) {
+ return mali_global_pp_cores[index];
+ }
+
+ return NULL;
+}
+
+u32 mali_pp_get_glob_num_pp_cores(void)
+{
+ return mali_global_num_pp_cores;
+}
+
+/* ------------- interrupt handling below ------------------ */
+static void mali_pp_irq_probe_trigger(void *data)
+{
+ struct mali_pp_core *core = (struct mali_pp_core *)data;
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK, MALI200_REG_VAL_IRQ_MASK_USED);
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_RAWSTAT, MALI200_REG_VAL_IRQ_FORCE_HANG);
+ _mali_osk_mem_barrier();
+}
+
+static _mali_osk_errcode_t mali_pp_irq_probe_ack(void *data)
+{
+ struct mali_pp_core *core = (struct mali_pp_core *)data;
+ u32 irq_readout;
+
+ irq_readout = mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_STATUS);
+ if (MALI200_REG_VAL_IRQ_FORCE_HANG & irq_readout) {
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_CLEAR, MALI200_REG_VAL_IRQ_FORCE_HANG);
+ _mali_osk_mem_barrier();
+ return _MALI_OSK_ERR_OK;
+ }
+
+ return _MALI_OSK_ERR_FAULT;
+}
+
+
+#if 0
+static void mali_pp_print_registers(struct mali_pp_core *core)
+{
+ MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_VERSION = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_VERSION)));
+ MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_CURRENT_REND_LIST_ADDR = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_CURRENT_REND_LIST_ADDR)));
+ MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_STATUS = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_STATUS)));
+ MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_INT_RAWSTAT = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_RAWSTAT)));
+ MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_INT_MASK = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK)));
+ MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_INT_STATUS = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_STATUS)));
+ MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_BUS_ERROR_STATUS = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_BUS_ERROR_STATUS)));
+ MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_PERF_CNT_0_ENABLE = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_ENABLE)));
+ MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_PERF_CNT_0_SRC = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_SRC)));
+ MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_PERF_CNT_0_VALUE = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_VALUE)));
+ MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_PERF_CNT_1_ENABLE = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_ENABLE)));
+ MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_PERF_CNT_1_SRC = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_SRC)));
+ MALI_DEBUG_PRINT(2, ("Mali PP: Register MALI200_REG_ADDR_MGMT_PERF_CNT_1_VALUE = 0x%08X\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_VALUE)));
+}
+#endif
+
+#if 0
+void mali_pp_print_state(struct mali_pp_core *core)
+{
+ MALI_DEBUG_PRINT(2, ("Mali PP: State: 0x%08x\n", mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_STATUS) ));
+}
+#endif
+
+void mali_pp_update_performance_counters(struct mali_pp_core *parent, struct mali_pp_core *child, struct mali_pp_job *job, u32 subjob)
+{
+ u32 val0 = 0;
+ u32 val1 = 0;
+ u32 counter_src0 = mali_pp_job_get_perf_counter_src0(job, subjob);
+ u32 counter_src1 = mali_pp_job_get_perf_counter_src1(job, subjob);
+#if defined(CONFIG_MALI400_PROFILING)
+ int counter_index = COUNTER_FP_0_C0 + (2 * child->core_id);
+#endif
+
+ if (MALI_HW_CORE_NO_COUNTER != counter_src0) {
+ val0 = mali_hw_core_register_read(&child->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_0_VALUE);
+ mali_pp_job_set_perf_counter_value0(job, subjob, val0);
+
+#if defined(CONFIG_MALI400_PROFILING)
+ _mali_osk_profiling_report_hw_counter(counter_index, val0);
+#endif
+ }
+
+ if (MALI_HW_CORE_NO_COUNTER != counter_src1) {
+ val1 = mali_hw_core_register_read(&child->hw_core, MALI200_REG_ADDR_MGMT_PERF_CNT_1_VALUE);
+ mali_pp_job_set_perf_counter_value1(job, subjob, val1);
+
+#if defined(CONFIG_MALI400_PROFILING)
+ _mali_osk_profiling_report_hw_counter(counter_index + 1, val1);
+#endif
+ }
+}
+
+#if MALI_STATE_TRACKING
+u32 mali_pp_dump_state(struct mali_pp_core *core, char *buf, u32 size)
+{
+ int n = 0;
+
+ n += _mali_osk_snprintf(buf + n, size - n, "\tPP #%d: %s\n", core->core_id, core->hw_core.description);
+
+ return n;
+}
+#endif
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_PP_H__
+#define __MALI_PP_H__
+
+#include "mali_osk.h"
+#include "mali_pp_job.h"
+#include "mali_hw_core.h"
+#include "mali_dma.h"
+
+struct mali_group;
+
+#define MALI_MAX_NUMBER_OF_PP_CORES 9
+
+/**
+ * Definition of the PP core struct
+ * Used to track a PP core in the system.
+ */
+struct mali_pp_core {
+ struct mali_hw_core hw_core; /**< Common for all HW cores */
+ _mali_osk_irq_t *irq; /**< IRQ handler */
+ u32 core_id; /**< Unique core ID */
+ u32 bcast_id; /**< The "flag" value used by the Mali-450 broadcast and DLBU unit */
+};
+
+_mali_osk_errcode_t mali_pp_initialize(void);
+void mali_pp_terminate(void);
+
+struct mali_pp_core *mali_pp_create(const _mali_osk_resource_t * resource, struct mali_group *group, mali_bool is_virtual, u32 bcast_id);
+void mali_pp_delete(struct mali_pp_core *core);
+
+void mali_pp_stop_bus(struct mali_pp_core *core);
+_mali_osk_errcode_t mali_pp_stop_bus_wait(struct mali_pp_core *core);
+void mali_pp_reset_async(struct mali_pp_core *core);
+_mali_osk_errcode_t mali_pp_reset_wait(struct mali_pp_core *core);
+_mali_osk_errcode_t mali_pp_reset(struct mali_pp_core *core);
+_mali_osk_errcode_t mali_pp_hard_reset(struct mali_pp_core *core);
+
+void mali_pp_job_start(struct mali_pp_core *core, struct mali_pp_job *job, u32 sub_job, mali_bool restart_virtual);
+
+/**
+ * @brief Add commands to DMA command buffer to start PP job on core.
+ */
+void mali_pp_job_dma_cmd_prepare(struct mali_pp_core *core, struct mali_pp_job *job, u32 sub_job,
+ mali_bool restart_virtual, mali_dma_cmd_buf *buf);
+
+u32 mali_pp_core_get_version(struct mali_pp_core *core);
+
+MALI_STATIC_INLINE u32 mali_pp_core_get_id(struct mali_pp_core *core)
+{
+ MALI_DEBUG_ASSERT_POINTER(core);
+ return core->core_id;
+}
+
+MALI_STATIC_INLINE u32 mali_pp_core_get_bcast_id(struct mali_pp_core *core)
+{
+ MALI_DEBUG_ASSERT_POINTER(core);
+ return core->bcast_id;
+}
+
+struct mali_pp_core* mali_pp_get_global_pp_core(u32 index);
+u32 mali_pp_get_glob_num_pp_cores(void);
+
+/* Debug */
+u32 mali_pp_dump_state(struct mali_pp_core *core, char *buf, u32 size);
+
+/**
+ * Put instrumented HW counters from the core(s) to the job object (if enabled)
+ *
+ * parent and child is always the same, except for virtual jobs on Mali-450.
+ * In this case, the counters will be enabled on the virtual core (parent),
+ * but values need to be read from the child cores.
+ *
+ * @param parent The core used to see if the counters was enabled
+ * @param child The core to actually read the values from
+ * @job Job object to update with counter values (if enabled)
+ * @subjob Which subjob the counters are applicable for (core ID for virtual jobs)
+ */
+void mali_pp_update_performance_counters(struct mali_pp_core *parent, struct mali_pp_core *child, struct mali_pp_job *job, u32 subjob);
+
+MALI_STATIC_INLINE const char *mali_pp_get_hw_core_desc(struct mali_pp_core *core)
+{
+ return core->hw_core.description;
+}
+
+/*** Register reading/writing functions ***/
+MALI_STATIC_INLINE u32 mali_pp_get_int_stat(struct mali_pp_core *core)
+{
+ return mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_STATUS);
+}
+
+MALI_STATIC_INLINE u32 mali_pp_read_rawstat(struct mali_pp_core *core)
+{
+ return mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_RAWSTAT) & MALI200_REG_VAL_IRQ_MASK_USED;
+}
+
+MALI_STATIC_INLINE u32 mali_pp_read_status(struct mali_pp_core *core)
+{
+ return mali_hw_core_register_read(&core->hw_core, MALI200_REG_ADDR_MGMT_STATUS);
+}
+
+MALI_STATIC_INLINE void mali_pp_mask_all_interrupts(struct mali_pp_core *core)
+{
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK, MALI200_REG_VAL_IRQ_MASK_NONE);
+}
+
+MALI_STATIC_INLINE void mali_pp_clear_hang_interrupt(struct mali_pp_core *core)
+{
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_CLEAR, MALI200_REG_VAL_IRQ_HANG);
+}
+
+MALI_STATIC_INLINE void mali_pp_enable_interrupts(struct mali_pp_core *core)
+{
+ mali_hw_core_register_write(&core->hw_core, MALI200_REG_ADDR_MGMT_INT_MASK, MALI200_REG_VAL_IRQ_MASK_USED);
+}
+
+MALI_STATIC_INLINE void mali_pp_write_addr_stack(struct mali_pp_core *core, struct mali_pp_job *job)
+{
+ u32 addr = mali_pp_job_get_addr_stack(job, core->core_id);
+ mali_hw_core_register_write_relaxed(&core->hw_core, MALI200_REG_ADDR_STACK, addr);
+}
+
+#endif /* __MALI_PP_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_pp.h"
+#include "mali_pp_job.h"
+#include "mali_dma.h"
+#include "mali_osk.h"
+#include "mali_osk_list.h"
+#include "mali_kernel_common.h"
+#include "mali_uk_types.h"
+#include "mali_pp_scheduler.h"
+#if defined(CONFIG_DMA_SHARED_BUFFER) && !defined(CONFIG_MALI_DMA_BUF_MAP_ON_ATTACH)
+#include "linux/mali_memory_dma_buf.h"
+#endif
+
+static u32 pp_counter_src0 = MALI_HW_CORE_NO_COUNTER; /**< Performance counter 0, MALI_HW_CORE_NO_COUNTER for disabled */
+static u32 pp_counter_src1 = MALI_HW_CORE_NO_COUNTER; /**< Performance counter 1, MALI_HW_CORE_NO_COUNTER for disabled */
+static _mali_osk_atomic_t pp_counter_per_sub_job_count; /**< Number of values in the two arrays which is != MALI_HW_CORE_NO_COUNTER */
+static u32 pp_counter_per_sub_job_src0[_MALI_PP_MAX_SUB_JOBS] = { MALI_HW_CORE_NO_COUNTER, MALI_HW_CORE_NO_COUNTER, MALI_HW_CORE_NO_COUNTER, MALI_HW_CORE_NO_COUNTER, MALI_HW_CORE_NO_COUNTER, MALI_HW_CORE_NO_COUNTER, MALI_HW_CORE_NO_COUNTER, MALI_HW_CORE_NO_COUNTER };
+static u32 pp_counter_per_sub_job_src1[_MALI_PP_MAX_SUB_JOBS] = { MALI_HW_CORE_NO_COUNTER, MALI_HW_CORE_NO_COUNTER, MALI_HW_CORE_NO_COUNTER, MALI_HW_CORE_NO_COUNTER, MALI_HW_CORE_NO_COUNTER, MALI_HW_CORE_NO_COUNTER, MALI_HW_CORE_NO_COUNTER, MALI_HW_CORE_NO_COUNTER };
+
+void mali_pp_job_initialize(void)
+{
+ _mali_osk_atomic_init(&pp_counter_per_sub_job_count, 0);
+}
+
+void mali_pp_job_terminate(void)
+{
+ _mali_osk_atomic_term(&pp_counter_per_sub_job_count);
+}
+
+struct mali_pp_job *mali_pp_job_create(struct mali_session_data *session, _mali_uk_pp_start_job_s *uargs, u32 id)
+{
+ struct mali_pp_job *job;
+ u32 perf_counter_flag;
+
+ job = _mali_osk_calloc(1, sizeof(struct mali_pp_job));
+ if (NULL != job) {
+ if (0 != _mali_osk_copy_from_user(&job->uargs, uargs, sizeof(_mali_uk_pp_start_job_s))) {
+ goto fail;
+ }
+
+ if (job->uargs.num_cores > _MALI_PP_MAX_SUB_JOBS) {
+ MALI_PRINT_ERROR(("Mali PP job: Too many sub jobs specified in job object\n"));
+ goto fail;
+ }
+
+ if (!mali_pp_job_use_no_notification(job)) {
+ job->finished_notification = _mali_osk_notification_create(_MALI_NOTIFICATION_PP_FINISHED, sizeof(_mali_uk_pp_job_finished_s));
+ if (NULL == job->finished_notification) goto fail;
+ }
+
+ perf_counter_flag = mali_pp_job_get_perf_counter_flag(job);
+
+ /* case when no counters came from user space
+ * so pass the debugfs / DS-5 provided global ones to the job object */
+ if (!((perf_counter_flag & _MALI_PERFORMANCE_COUNTER_FLAG_SRC0_ENABLE) ||
+ (perf_counter_flag & _MALI_PERFORMANCE_COUNTER_FLAG_SRC1_ENABLE))) {
+ u32 sub_job_count = _mali_osk_atomic_read(&pp_counter_per_sub_job_count);
+
+ /* These counters apply for all virtual jobs, and where no per sub job counter is specified */
+ job->uargs.perf_counter_src0 = pp_counter_src0;
+ job->uargs.perf_counter_src1 = pp_counter_src1;
+
+ /* We only copy the per sub job array if it is enabled with at least one counter */
+ if (0 < sub_job_count) {
+ job->perf_counter_per_sub_job_count = sub_job_count;
+ _mali_osk_memcpy(job->perf_counter_per_sub_job_src0, pp_counter_per_sub_job_src0, sizeof(pp_counter_per_sub_job_src0));
+ _mali_osk_memcpy(job->perf_counter_per_sub_job_src1, pp_counter_per_sub_job_src1, sizeof(pp_counter_per_sub_job_src1));
+ }
+ }
+
+ _mali_osk_list_init(&job->list);
+ job->session = session;
+ _mali_osk_list_init(&job->session_list);
+ job->id = id;
+
+ job->sub_jobs_num = job->uargs.num_cores ? job->uargs.num_cores : 1;
+ job->pid = _mali_osk_get_pid();
+ job->tid = _mali_osk_get_tid();
+
+ job->num_memory_cookies = job->uargs.num_memory_cookies;
+ if (job->num_memory_cookies > 0) {
+ u32 size;
+
+ if (job->uargs.num_memory_cookies > session->descriptor_mapping->current_nr_mappings) {
+ MALI_PRINT_ERROR(("Mali PP job: Too many memory cookies specified in job object\n"));
+ goto fail;
+ }
+
+ size = sizeof(*job->uargs.memory_cookies) * job->num_memory_cookies;
+
+ job->memory_cookies = _mali_osk_malloc(size);
+ if (NULL == job->memory_cookies) {
+ MALI_PRINT_ERROR(("Mali PP job: Failed to allocate %d bytes of memory cookies!\n", size));
+ goto fail;
+ }
+
+ if (0 != _mali_osk_copy_from_user(job->memory_cookies, job->uargs.memory_cookies, size)) {
+ MALI_PRINT_ERROR(("Mali PP job: Failed to copy %d bytes of memory cookies from user!\n", size));
+ goto fail;
+ }
+
+#if defined(CONFIG_DMA_SHARED_BUFFER) && !defined(CONFIG_MALI_DMA_BUF_MAP_ON_ATTACH)
+ job->num_dma_bufs = job->num_memory_cookies;
+ job->dma_bufs = _mali_osk_calloc(job->num_dma_bufs, sizeof(struct mali_dma_buf_attachment *));
+ if (NULL == job->dma_bufs) {
+ MALI_PRINT_ERROR(("Mali PP job: Failed to allocate dma_bufs array!\n"));
+ goto fail;
+ }
+#endif
+ }
+
+ /* Prepare DMA command buffer to start job, if it is virtual. */
+ if (mali_pp_job_is_virtual(job)) {
+ struct mali_pp_core *core;
+ _mali_osk_errcode_t err = mali_dma_get_cmd_buf(&job->dma_cmd_buf);
+
+ if (_MALI_OSK_ERR_OK != err) {
+ MALI_PRINT_ERROR(("Mali PP job: Failed to allocate DMA command buffer\n"));
+ goto fail;
+ }
+
+ core = mali_pp_scheduler_get_virtual_pp();
+ MALI_DEBUG_ASSERT_POINTER(core);
+
+ mali_pp_job_dma_cmd_prepare(core, job, 0, MALI_FALSE, &job->dma_cmd_buf);
+ }
+
+ if (_MALI_OSK_ERR_OK != mali_pp_job_check(job)) {
+ /* Not a valid job. */
+ goto fail;
+ }
+
+ mali_timeline_tracker_init(&job->tracker, MALI_TIMELINE_TRACKER_PP, NULL, job);
+ mali_timeline_fence_copy_uk_fence(&(job->tracker.fence), &(job->uargs.fence));
+
+ return job;
+ }
+
+fail:
+ if (NULL != job) {
+ mali_pp_job_delete(job);
+ }
+
+ return NULL;
+}
+
+void mali_pp_job_delete(struct mali_pp_job *job)
+{
+ mali_dma_put_cmd_buf(&job->dma_cmd_buf);
+ if (NULL != job->finished_notification) {
+ _mali_osk_notification_delete(job->finished_notification);
+ }
+
+ _mali_osk_free(job->memory_cookies);
+
+#if defined(CONFIG_DMA_SHARED_BUFFER) && !defined(CONFIG_MALI_DMA_BUF_MAP_ON_ATTACH)
+ /* Unmap buffers attached to job */
+ if (0 < job->num_dma_bufs) {
+ mali_dma_buf_unmap_job(job);
+ }
+
+ _mali_osk_free(job->dma_bufs);
+#endif /* CONFIG_DMA_SHARED_BUFFER */
+
+ _mali_osk_free(job);
+}
+
+u32 mali_pp_job_get_perf_counter_src0(struct mali_pp_job *job, u32 sub_job)
+{
+ /* Virtual jobs always use the global job counter (or if there are per sub job counters at all) */
+ if (mali_pp_job_is_virtual(job) || 0 == job->perf_counter_per_sub_job_count) {
+ return job->uargs.perf_counter_src0;
+ }
+
+ /* Use per sub job counter if enabled... */
+ if (MALI_HW_CORE_NO_COUNTER != job->perf_counter_per_sub_job_src0[sub_job]) {
+ return job->perf_counter_per_sub_job_src0[sub_job];
+ }
+
+ /* ...else default to global job counter */
+ return job->uargs.perf_counter_src0;
+}
+
+u32 mali_pp_job_get_perf_counter_src1(struct mali_pp_job *job, u32 sub_job)
+{
+ /* Virtual jobs always use the global job counter (or if there are per sub job counters at all) */
+ if (mali_pp_job_is_virtual(job) || 0 == job->perf_counter_per_sub_job_count) {
+ /* Virtual jobs always use the global job counter */
+ return job->uargs.perf_counter_src1;
+ }
+
+ /* Use per sub job counter if enabled... */
+ if (MALI_HW_CORE_NO_COUNTER != job->perf_counter_per_sub_job_src1[sub_job]) {
+ return job->perf_counter_per_sub_job_src1[sub_job];
+ }
+
+ /* ...else default to global job counter */
+ return job->uargs.perf_counter_src1;
+}
+
+void mali_pp_job_set_pp_counter_global_src0(u32 counter)
+{
+ pp_counter_src0 = counter;
+}
+
+void mali_pp_job_set_pp_counter_global_src1(u32 counter)
+{
+ pp_counter_src1 = counter;
+}
+
+void mali_pp_job_set_pp_counter_sub_job_src0(u32 sub_job, u32 counter)
+{
+ MALI_DEBUG_ASSERT(sub_job < _MALI_PP_MAX_SUB_JOBS);
+
+ if (MALI_HW_CORE_NO_COUNTER == pp_counter_per_sub_job_src0[sub_job]) {
+ /* increment count since existing counter was disabled */
+ _mali_osk_atomic_inc(&pp_counter_per_sub_job_count);
+ }
+
+ if (MALI_HW_CORE_NO_COUNTER == counter) {
+ /* decrement count since new counter is disabled */
+ _mali_osk_atomic_dec(&pp_counter_per_sub_job_count);
+ }
+
+ /* PS: A change from MALI_HW_CORE_NO_COUNTER to MALI_HW_CORE_NO_COUNTER will inc and dec, result will be 0 change */
+
+ pp_counter_per_sub_job_src0[sub_job] = counter;
+}
+
+void mali_pp_job_set_pp_counter_sub_job_src1(u32 sub_job, u32 counter)
+{
+ MALI_DEBUG_ASSERT(sub_job < _MALI_PP_MAX_SUB_JOBS);
+
+ if (MALI_HW_CORE_NO_COUNTER == pp_counter_per_sub_job_src1[sub_job]) {
+ /* increment count since existing counter was disabled */
+ _mali_osk_atomic_inc(&pp_counter_per_sub_job_count);
+ }
+
+ if (MALI_HW_CORE_NO_COUNTER == counter) {
+ /* decrement count since new counter is disabled */
+ _mali_osk_atomic_dec(&pp_counter_per_sub_job_count);
+ }
+
+ /* PS: A change from MALI_HW_CORE_NO_COUNTER to MALI_HW_CORE_NO_COUNTER will inc and dec, result will be 0 change */
+
+ pp_counter_per_sub_job_src1[sub_job] = counter;
+}
+
+u32 mali_pp_job_get_pp_counter_global_src0(void)
+{
+ return pp_counter_src0;
+}
+
+u32 mali_pp_job_get_pp_counter_global_src1(void)
+{
+ return pp_counter_src1;
+}
+
+u32 mali_pp_job_get_pp_counter_sub_job_src0(u32 sub_job)
+{
+ MALI_DEBUG_ASSERT(sub_job < _MALI_PP_MAX_SUB_JOBS);
+ return pp_counter_per_sub_job_src0[sub_job];
+}
+
+u32 mali_pp_job_get_pp_counter_sub_job_src1(u32 sub_job)
+{
+ MALI_DEBUG_ASSERT(sub_job < _MALI_PP_MAX_SUB_JOBS);
+ return pp_counter_per_sub_job_src1[sub_job];
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_PP_JOB_H__
+#define __MALI_PP_JOB_H__
+
+#include "mali_osk.h"
+#include "mali_osk_list.h"
+#include "mali_uk_types.h"
+#include "mali_session.h"
+#include "mali_kernel_common.h"
+#include "regs/mali_200_regs.h"
+#include "mali_kernel_core.h"
+#include "mali_dma.h"
+#include "mali_dlbu.h"
+#include "mali_timeline.h"
+#if defined(CONFIG_DMA_SHARED_BUFFER) && !defined(CONFIG_MALI_DMA_BUF_MAP_ON_ATTACH)
+#include "linux/mali_memory_dma_buf.h"
+#endif
+
+/**
+ * The structure represents a PP job, including all sub-jobs
+ * (This struct unfortunately needs to be public because of how the _mali_osk_list_*
+ * mechanism works)
+ */
+struct mali_pp_job {
+ _mali_osk_list_t list; /**< Used to link jobs together in the scheduler queue */
+ struct mali_session_data *session; /**< Session which submitted this job */
+ _mali_osk_list_t session_list; /**< Used to link jobs together in the session job list */
+ _mali_osk_list_t session_fb_lookup_list; /**< Used to link jobs together from the same frame builder in the session */
+ _mali_uk_pp_start_job_s uargs; /**< Arguments from user space */
+ mali_dma_cmd_buf dma_cmd_buf; /**< Command buffer for starting job using Mali-450 DMA unit */
+ u32 id; /**< Identifier for this job in kernel space (sequential numbering) */
+ u32 cache_order; /**< Cache order used for L2 cache flushing (sequential numbering) */
+ u32 perf_counter_value0[_MALI_PP_MAX_SUB_JOBS]; /**< Value of performance counter 0 (to be returned to user space), one for each sub job */
+ u32 perf_counter_value1[_MALI_PP_MAX_SUB_JOBS]; /**< Value of performance counter 1 (to be returned to user space), one for each sub job */
+ u32 sub_jobs_num; /**< Number of subjobs; set to 1 for Mali-450 if DLBU is used, otherwise equals number of PP cores */
+ u32 sub_jobs_started; /**< Total number of sub-jobs started (always started in ascending order) */
+ u32 sub_jobs_completed; /**< Number of completed sub-jobs in this superjob */
+ u32 sub_job_errors; /**< Bitfield with errors (errors for each single sub-job is or'ed together) */
+ u32 pid; /**< Process ID of submitting process */
+ u32 tid; /**< Thread ID of submitting thread */
+ _mali_osk_notification_t *finished_notification; /**< Notification sent back to userspace on job complete */
+ u32 num_memory_cookies; /**< Number of memory cookies attached to job */
+ u32 *memory_cookies; /**< Memory cookies attached to job */
+#if defined(CONFIG_DMA_SHARED_BUFFER) && !defined(CONFIG_MALI_DMA_BUF_MAP_ON_ATTACH)
+ struct mali_dma_buf_attachment **dma_bufs; /**< Array of DMA-bufs used by job */
+ u32 num_dma_bufs; /**< Number of DMA-bufs used by job */
+#endif
+ struct mali_timeline_tracker tracker; /**< Timeline tracker for this job */
+ u32 perf_counter_per_sub_job_count; /**< Number of values in the two arrays which is != MALI_HW_CORE_NO_COUNTER */
+ u32 perf_counter_per_sub_job_src0[_MALI_PP_MAX_SUB_JOBS]; /**< Per sub job counters src0 */
+ u32 perf_counter_per_sub_job_src1[_MALI_PP_MAX_SUB_JOBS]; /**< Per sub job counters src1 */
+};
+
+void mali_pp_job_initialize(void);
+void mali_pp_job_terminate(void);
+
+struct mali_pp_job *mali_pp_job_create(struct mali_session_data *session, _mali_uk_pp_start_job_s *uargs, u32 id);
+void mali_pp_job_delete(struct mali_pp_job *job);
+
+u32 mali_pp_job_get_perf_counter_src0(struct mali_pp_job *job, u32 sub_job);
+u32 mali_pp_job_get_perf_counter_src1(struct mali_pp_job *job, u32 sub_job);
+
+void mali_pp_job_set_pp_counter_global_src0(u32 counter);
+void mali_pp_job_set_pp_counter_global_src1(u32 counter);
+void mali_pp_job_set_pp_counter_sub_job_src0(u32 sub_job, u32 counter);
+void mali_pp_job_set_pp_counter_sub_job_src1(u32 sub_job, u32 counter);
+
+u32 mali_pp_job_get_pp_counter_global_src0(void);
+u32 mali_pp_job_get_pp_counter_global_src1(void);
+u32 mali_pp_job_get_pp_counter_sub_job_src0(u32 sub_job);
+u32 mali_pp_job_get_pp_counter_sub_job_src1(u32 sub_job);
+
+MALI_STATIC_INLINE u32 mali_pp_job_get_id(struct mali_pp_job *job)
+{
+ return (NULL == job) ? 0 : job->id;
+}
+
+MALI_STATIC_INLINE u32 mali_pp_job_get_cache_order(struct mali_pp_job *job)
+{
+ return (NULL == job) ? 0 : job->cache_order;
+}
+
+MALI_STATIC_INLINE u32 mali_pp_job_get_user_id(struct mali_pp_job *job)
+{
+ return job->uargs.user_job_ptr;
+}
+
+MALI_STATIC_INLINE u32 mali_pp_job_get_frame_builder_id(struct mali_pp_job *job)
+{
+ return job->uargs.frame_builder_id;
+}
+
+MALI_STATIC_INLINE u32 mali_pp_job_get_flush_id(struct mali_pp_job *job)
+{
+ return job->uargs.flush_id;
+}
+
+MALI_STATIC_INLINE u32 mali_pp_job_get_pid(struct mali_pp_job *job)
+{
+ return job->pid;
+}
+
+MALI_STATIC_INLINE u32 mali_pp_job_get_tid(struct mali_pp_job *job)
+{
+ return job->tid;
+}
+
+MALI_STATIC_INLINE u32* mali_pp_job_get_frame_registers(struct mali_pp_job *job)
+{
+ return job->uargs.frame_registers;
+}
+
+MALI_STATIC_INLINE u32* mali_pp_job_get_dlbu_registers(struct mali_pp_job *job)
+{
+ return job->uargs.dlbu_registers;
+}
+
+MALI_STATIC_INLINE mali_bool mali_pp_job_is_virtual(struct mali_pp_job *job)
+{
+#if defined(CONFIG_MALI450)
+ return 0 == job->uargs.num_cores;
+#else
+ return MALI_FALSE;
+#endif
+}
+
+MALI_STATIC_INLINE u32 mali_pp_job_get_addr_frame(struct mali_pp_job *job, u32 sub_job)
+{
+ if (mali_pp_job_is_virtual(job)) {
+ return MALI_DLBU_VIRT_ADDR;
+ } else if (0 == sub_job) {
+ return job->uargs.frame_registers[MALI200_REG_ADDR_FRAME / sizeof(u32)];
+ } else if (sub_job < _MALI_PP_MAX_SUB_JOBS) {
+ return job->uargs.frame_registers_addr_frame[sub_job - 1];
+ }
+
+ return 0;
+}
+
+MALI_STATIC_INLINE u32 mali_pp_job_get_addr_stack(struct mali_pp_job *job, u32 sub_job)
+{
+ if (0 == sub_job) {
+ return job->uargs.frame_registers[MALI200_REG_ADDR_STACK / sizeof(u32)];
+ } else if (sub_job < _MALI_PP_MAX_SUB_JOBS) {
+ return job->uargs.frame_registers_addr_stack[sub_job - 1];
+ }
+
+ return 0;
+}
+
+MALI_STATIC_INLINE u32* mali_pp_job_get_wb0_registers(struct mali_pp_job *job)
+{
+ return job->uargs.wb0_registers;
+}
+
+MALI_STATIC_INLINE u32* mali_pp_job_get_wb1_registers(struct mali_pp_job *job)
+{
+ return job->uargs.wb1_registers;
+}
+
+MALI_STATIC_INLINE u32* mali_pp_job_get_wb2_registers(struct mali_pp_job *job)
+{
+ return job->uargs.wb2_registers;
+}
+
+MALI_STATIC_INLINE void mali_pp_job_disable_wb0(struct mali_pp_job *job)
+{
+ job->uargs.wb0_registers[MALI200_REG_ADDR_WB_SOURCE_SELECT] = 0;
+}
+
+MALI_STATIC_INLINE void mali_pp_job_disable_wb1(struct mali_pp_job *job)
+{
+ job->uargs.wb1_registers[MALI200_REG_ADDR_WB_SOURCE_SELECT] = 0;
+}
+
+MALI_STATIC_INLINE void mali_pp_job_disable_wb2(struct mali_pp_job *job)
+{
+ job->uargs.wb2_registers[MALI200_REG_ADDR_WB_SOURCE_SELECT] = 0;
+}
+
+MALI_STATIC_INLINE mali_bool mali_pp_job_all_writeback_unit_disabled(struct mali_pp_job *job)
+{
+ MALI_DEBUG_ASSERT_POINTER(job);
+
+ if ( job->uargs.wb0_registers[MALI200_REG_ADDR_WB_SOURCE_SELECT] ||
+ job->uargs.wb1_registers[MALI200_REG_ADDR_WB_SOURCE_SELECT] ||
+ job->uargs.wb2_registers[MALI200_REG_ADDR_WB_SOURCE_SELECT]
+ ) {
+ /* At least one output unit active */
+ return MALI_FALSE;
+ }
+
+ /* All outputs are disabled - we can abort the job */
+ return MALI_TRUE;
+}
+
+MALI_STATIC_INLINE u32 mali_pp_job_get_fb_lookup_id(struct mali_pp_job *job)
+{
+ MALI_DEBUG_ASSERT_POINTER(job);
+
+ return MALI_PP_JOB_FB_LOOKUP_LIST_MASK & job->uargs.frame_builder_id;
+}
+
+MALI_STATIC_INLINE struct mali_session_data *mali_pp_job_get_session(struct mali_pp_job *job)
+{
+ return job->session;
+}
+
+MALI_STATIC_INLINE mali_bool mali_pp_job_has_unstarted_sub_jobs(struct mali_pp_job *job)
+{
+ return (job->sub_jobs_started < job->sub_jobs_num) ? MALI_TRUE : MALI_FALSE;
+}
+
+/* Function used when we are terminating a session with jobs. Return TRUE if it has a rendering job.
+ Makes sure that no new subjobs are started. */
+MALI_STATIC_INLINE void mali_pp_job_mark_unstarted_failed(struct mali_pp_job *job)
+{
+ u32 jobs_remaining = job->sub_jobs_num - job->sub_jobs_started;
+ job->sub_jobs_started += jobs_remaining;
+ job->sub_jobs_completed += jobs_remaining;
+ job->sub_job_errors += jobs_remaining;
+}
+
+MALI_STATIC_INLINE void mali_pp_job_mark_unstarted_success(struct mali_pp_job *job)
+{
+ u32 jobs_remaining = job->sub_jobs_num - job->sub_jobs_started;
+ job->sub_jobs_started += jobs_remaining;
+ job->sub_jobs_completed += jobs_remaining;
+}
+
+MALI_STATIC_INLINE mali_bool mali_pp_job_is_complete(struct mali_pp_job *job)
+{
+ return (job->sub_jobs_num == job->sub_jobs_completed) ? MALI_TRUE : MALI_FALSE;
+}
+
+MALI_STATIC_INLINE u32 mali_pp_job_get_first_unstarted_sub_job(struct mali_pp_job *job)
+{
+ return job->sub_jobs_started;
+}
+
+MALI_STATIC_INLINE u32 mali_pp_job_get_sub_job_count(struct mali_pp_job *job)
+{
+ return job->sub_jobs_num;
+}
+
+MALI_STATIC_INLINE mali_bool mali_pp_job_needs_dma_buf_mapping(struct mali_pp_job *job)
+{
+ MALI_DEBUG_ASSERT(job);
+
+ if (0 != job->num_memory_cookies) {
+ return MALI_TRUE;
+ }
+
+ return MALI_FALSE;
+}
+
+MALI_STATIC_INLINE void mali_pp_job_mark_sub_job_started(struct mali_pp_job *job, u32 sub_job)
+{
+ MALI_DEBUG_ASSERT_POINTER(job);
+
+ /* Assert that we are marking the "first unstarted sub job" as started */
+ MALI_DEBUG_ASSERT(job->sub_jobs_started == sub_job);
+
+ job->sub_jobs_started++;
+}
+
+MALI_STATIC_INLINE void mali_pp_job_mark_sub_job_completed(struct mali_pp_job *job, mali_bool success)
+{
+ job->sub_jobs_completed++;
+ if ( MALI_FALSE == success ) {
+ job->sub_job_errors++;
+ }
+}
+
+MALI_STATIC_INLINE mali_bool mali_pp_job_was_success(struct mali_pp_job *job)
+{
+ if ( 0 == job->sub_job_errors ) {
+ return MALI_TRUE;
+ }
+ return MALI_FALSE;
+}
+
+MALI_STATIC_INLINE mali_bool mali_pp_job_use_no_notification(struct mali_pp_job *job)
+{
+ return job->uargs.flags & _MALI_PP_JOB_FLAG_NO_NOTIFICATION ? MALI_TRUE : MALI_FALSE;
+}
+
+MALI_STATIC_INLINE u32 mali_pp_job_get_perf_counter_flag(struct mali_pp_job *job)
+{
+ return job->uargs.perf_counter_flag;
+}
+
+
+MALI_STATIC_INLINE u32 mali_pp_job_get_perf_counter_value0(struct mali_pp_job *job, u32 sub_job)
+{
+ return job->perf_counter_value0[sub_job];
+}
+
+MALI_STATIC_INLINE u32 mali_pp_job_get_perf_counter_value1(struct mali_pp_job *job, u32 sub_job)
+{
+ return job->perf_counter_value1[sub_job];
+}
+
+MALI_STATIC_INLINE void mali_pp_job_set_perf_counter_value0(struct mali_pp_job *job, u32 sub_job, u32 value)
+{
+ job->perf_counter_value0[sub_job] = value;
+}
+
+MALI_STATIC_INLINE void mali_pp_job_set_perf_counter_value1(struct mali_pp_job *job, u32 sub_job, u32 value)
+{
+ job->perf_counter_value1[sub_job] = value;
+}
+
+MALI_STATIC_INLINE _mali_osk_errcode_t mali_pp_job_check(struct mali_pp_job *job)
+{
+ if (mali_pp_job_is_virtual(job) && job->sub_jobs_num != 1) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+ return _MALI_OSK_ERR_OK;
+}
+
+/**
+ * Returns MALI_TRUE if first job should be started after second job.
+ *
+ * @param first First job.
+ * @param second Second job.
+ * @return MALI_TRUE if first job should be started after second job, MALI_FALSE if not.
+ */
+MALI_STATIC_INLINE mali_bool mali_pp_job_should_start_after(struct mali_pp_job *first, struct mali_pp_job *second)
+{
+ MALI_DEBUG_ASSERT_POINTER(first);
+ MALI_DEBUG_ASSERT_POINTER(second);
+
+ /* First job should be started after second job if second job is in progress. */
+ if (0 < second->sub_jobs_started) {
+ return MALI_TRUE;
+ }
+
+ /* First job should be started after second job if first job has a higher job id. A span is
+ used to handle job id wrapping. */
+ if ((mali_pp_job_get_id(first) - mali_pp_job_get_id(second)) < MALI_SCHEDULER_JOB_ID_SPAN) {
+ return MALI_TRUE;
+ }
+
+ /* Second job should be started after first job. */
+ return MALI_FALSE;
+}
+
+/**
+ * Returns MALI_TRUE if this job has more than two sub jobs and all sub jobs are unstarted.
+ *
+ * @param job Job to check.
+ * @return MALI_TRUE if job has more than two sub jobs and all sub jobs are unstarted, MALI_FALSE if not.
+ */
+MALI_STATIC_INLINE mali_bool mali_pp_job_is_large_and_unstarted(struct mali_pp_job *job)
+{
+ MALI_DEBUG_ASSERT_POINTER(job);
+ MALI_DEBUG_ASSERT(!mali_pp_job_is_virtual(job));
+
+ return (0 == job->sub_jobs_started && 2 < job->sub_jobs_num);
+}
+
+/**
+ * Get PP job's Timeline tracker.
+ *
+ * @param job PP job.
+ * @return Pointer to Timeline tracker for the job.
+ */
+MALI_STATIC_INLINE struct mali_timeline_tracker *mali_pp_job_get_tracker(struct mali_pp_job *job)
+{
+ MALI_DEBUG_ASSERT_POINTER(job);
+ return &(job->tracker);
+}
+
+#endif /* __MALI_PP_JOB_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_pp_scheduler.h"
+#include "mali_kernel_common.h"
+#include "mali_kernel_core.h"
+#include "mali_osk.h"
+#include "mali_osk_list.h"
+#include "mali_scheduler.h"
+#include "mali_pp.h"
+#include "mali_pp_job.h"
+#include "mali_group.h"
+#include "mali_pm.h"
+#include "mali_timeline.h"
+#include "mali_osk_profiling.h"
+#include "mali_kernel_utilization.h"
+#include "mali_session.h"
+#include "mali_pm_domain.h"
+#include "linux/mali/mali_utgard.h"
+
+#if defined(CONFIG_DMA_SHARED_BUFFER)
+#include "mali_memory_dma_buf.h"
+#endif
+#if defined(CONFIG_GPU_TRACEPOINTS) && defined(CONFIG_TRACEPOINTS)
+#include <linux/sched.h>
+#include <trace/events/gpu.h>
+#endif
+
+/* Queue type used for physical and virtual job queues. */
+struct mali_pp_scheduler_job_queue {
+ _MALI_OSK_LIST_HEAD(normal_pri); /* List of jobs with some unscheduled work. */
+ _MALI_OSK_LIST_HEAD(high_pri); /* List of high priority jobs with some unscheduled work. */
+ u32 depth; /* Depth of combined queues. */
+};
+
+/* If dma_buf with map on demand is used, we defer job deletion and job queue if in atomic context,
+ * since both might sleep. */
+#if defined(CONFIG_DMA_SHARED_BUFFER) && !defined(CONFIG_MALI_DMA_BUF_MAP_ON_ATTACH)
+#define MALI_PP_SCHEDULER_USE_DEFERRED_JOB_DELETE 1
+#define MALI_PP_SCHEDULER_USE_DEFERRED_JOB_QUEUE 1
+#endif /* !defined(CONFIG_DMA_SHARED_BUFFER) && !defined(CONFIG_MALI_DMA_BUF_MAP_ON_ATTACH) */
+
+static void mali_pp_scheduler_job_queued(void);
+static void mali_pp_scheduler_job_completed(void);
+
+/* Maximum of 8 PP cores (a group can only have maximum of 1 PP core) */
+#define MALI_MAX_NUMBER_OF_PP_GROUPS 9
+
+static mali_bool mali_pp_scheduler_is_suspended(void *data);
+
+static u32 pp_version = 0;
+
+/* Physical job queue */
+static struct mali_pp_scheduler_job_queue job_queue;
+
+/* Physical groups */
+static _MALI_OSK_LIST_HEAD_STATIC_INIT(group_list_working); /* List of physical groups with working jobs on the pp core */
+static _MALI_OSK_LIST_HEAD_STATIC_INIT(group_list_idle); /* List of physical groups with idle jobs on the pp core */
+static _MALI_OSK_LIST_HEAD_STATIC_INIT(group_list_disabled); /* List of disabled physical groups */
+
+/* Virtual job queue (Mali-450 only) */
+static struct mali_pp_scheduler_job_queue virtual_job_queue;
+
+/**
+ * Add job to scheduler queue.
+ *
+ * @param job Job to queue.
+ * @return Schedule mask.
+ */
+static mali_scheduler_mask mali_pp_scheduler_queue_job(struct mali_pp_job *job);
+
+/* Virtual group (Mali-450 only) */
+static struct mali_group *virtual_group = NULL; /* Virtual group (if any) */
+static enum {
+ VIRTUAL_GROUP_IDLE,
+ VIRTUAL_GROUP_WORKING,
+ VIRTUAL_GROUP_DISABLED,
+}
+virtual_group_state = VIRTUAL_GROUP_IDLE; /* Flag which indicates whether the virtual group is working or idle */
+
+/* Number of physical cores */
+static u32 num_cores = 0;
+
+/* Number of physical cores which are enabled */
+static u32 enabled_cores = 0;
+
+/* Enable or disable core scaling */
+static mali_bool core_scaling_enabled = MALI_TRUE;
+
+/* Variables to allow safe pausing of the scheduler */
+static _mali_osk_wait_queue_t *pp_scheduler_working_wait_queue = NULL;
+static u32 pause_count = 0;
+
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+static _mali_osk_spinlock_irq_t *pp_scheduler_lock = NULL;
+#else
+static _mali_osk_spinlock_t *pp_scheduler_lock = NULL;
+#endif /* defined(MALI_UPPER_HALF_SCHEDULING) */
+
+MALI_STATIC_INLINE void mali_pp_scheduler_lock(void)
+{
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ _mali_osk_spinlock_irq_lock(pp_scheduler_lock);
+#else
+ _mali_osk_spinlock_lock(pp_scheduler_lock);
+#endif /* defined(MALI_UPPER_HALF_SCHEDULING) */
+ MALI_DEBUG_PRINT(5, ("Mali PP scheduler: PP scheduler lock taken.\n"));
+}
+
+MALI_STATIC_INLINE void mali_pp_scheduler_unlock(void)
+{
+ MALI_DEBUG_PRINT(5, ("Mali PP scheduler: Releasing PP scheduler lock.\n"));
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ _mali_osk_spinlock_irq_unlock(pp_scheduler_lock);
+#else
+ _mali_osk_spinlock_unlock(pp_scheduler_lock);
+#endif /* defined(MALI_UPPER_HALF_SCHEDULING) */
+}
+
+#if defined(DEBUG)
+#define MALI_ASSERT_PP_SCHEDULER_LOCKED() MALI_DEBUG_ASSERT_LOCK_HELD(pp_scheduler_lock)
+#else
+#define MALI_ASSERT_PP_SCHEDULER_LOCKED() do {} while (0)
+#endif /* defined(DEBUG) */
+
+#if defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_DELETE)
+
+static _mali_osk_wq_work_t *pp_scheduler_wq_job_delete = NULL;
+static _mali_osk_spinlock_irq_t *pp_scheduler_job_delete_lock = NULL;
+static _MALI_OSK_LIST_HEAD_STATIC_INIT(pp_scheduler_job_deletion_queue);
+
+static void mali_pp_scheduler_deferred_job_delete(struct mali_pp_job *job)
+{
+ MALI_DEBUG_ASSERT_POINTER(job);
+
+ _mali_osk_spinlock_irq_lock(pp_scheduler_job_delete_lock);
+
+ /* This job object should not be on any lists. */
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(&job->list));
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(&job->session_list));
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(&job->session_fb_lookup_list));
+
+ _mali_osk_list_addtail(&job->list, &pp_scheduler_job_deletion_queue);
+
+ _mali_osk_spinlock_irq_unlock(pp_scheduler_job_delete_lock);
+
+ _mali_osk_wq_schedule_work(pp_scheduler_wq_job_delete);
+}
+
+static void mali_pp_scheduler_do_job_delete(void *arg)
+{
+ _MALI_OSK_LIST_HEAD_STATIC_INIT(list);
+ struct mali_pp_job *job;
+ struct mali_pp_job *tmp;
+
+ MALI_IGNORE(arg);
+
+ _mali_osk_spinlock_irq_lock(pp_scheduler_job_delete_lock);
+
+ /*
+ * Quickly "unhook" the jobs pending to be deleted, so we can release the lock before
+ * we start deleting the job objects (without any locks held
+ */
+ _mali_osk_list_move_list(&pp_scheduler_job_deletion_queue, &list);
+
+ _mali_osk_spinlock_irq_unlock(pp_scheduler_job_delete_lock);
+
+ _MALI_OSK_LIST_FOREACHENTRY(job, tmp, &list, struct mali_pp_job, list) {
+ mali_pp_job_delete(job); /* delete the job object itself */
+ }
+}
+
+#endif /* defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_DELETE) */
+
+#if defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_QUEUE)
+
+static _mali_osk_wq_work_t *pp_scheduler_wq_job_queue = NULL;
+static _mali_osk_spinlock_irq_t *pp_scheduler_job_queue_lock = NULL;
+static _MALI_OSK_LIST_HEAD_STATIC_INIT(pp_scheduler_job_queue_list);
+
+static void mali_pp_scheduler_deferred_job_queue(struct mali_pp_job *job)
+{
+ MALI_DEBUG_ASSERT_POINTER(job);
+
+ _mali_osk_spinlock_irq_lock(pp_scheduler_job_queue_lock);
+ _mali_osk_list_addtail(&job->list, &pp_scheduler_job_queue_list);
+ _mali_osk_spinlock_irq_unlock(pp_scheduler_job_queue_lock);
+
+ _mali_osk_wq_schedule_work(pp_scheduler_wq_job_queue);
+}
+
+static void mali_pp_scheduler_do_job_queue(void *arg)
+{
+ _MALI_OSK_LIST_HEAD_STATIC_INIT(list);
+ struct mali_pp_job *job;
+ struct mali_pp_job *tmp;
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+
+ MALI_IGNORE(arg);
+
+ _mali_osk_spinlock_irq_lock(pp_scheduler_job_queue_lock);
+
+ /*
+ * Quickly "unhook" the jobs pending to be queued, so we can release the lock before
+ * we start queueing the job objects (without any locks held)
+ */
+ _mali_osk_list_move_list(&pp_scheduler_job_queue_list, &list);
+
+ _mali_osk_spinlock_irq_unlock(pp_scheduler_job_queue_lock);
+
+ _MALI_OSK_LIST_FOREACHENTRY(job, tmp, &list, struct mali_pp_job, list) {
+ _mali_osk_list_delinit(&job->list);
+ schedule_mask |= mali_pp_scheduler_queue_job(job);
+ }
+
+ mali_scheduler_schedule_from_mask(schedule_mask, MALI_FALSE);
+}
+
+#endif /* defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_QUEUE) */
+
+MALI_STATIC_INLINE mali_bool mali_pp_scheduler_has_virtual_group(void)
+{
+#if defined(CONFIG_MALI450)
+ return NULL != virtual_group;
+#else
+ return MALI_FALSE;
+#endif /* defined(CONFIG_MALI450) */
+}
+
+_mali_osk_errcode_t mali_pp_scheduler_initialize(void)
+{
+ _MALI_OSK_INIT_LIST_HEAD(&job_queue.normal_pri);
+ _MALI_OSK_INIT_LIST_HEAD(&job_queue.high_pri);
+ job_queue.depth = 0;
+
+ _MALI_OSK_INIT_LIST_HEAD(&virtual_job_queue.normal_pri);
+ _MALI_OSK_INIT_LIST_HEAD(&virtual_job_queue.high_pri);
+ virtual_job_queue.depth = 0;
+
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ pp_scheduler_lock = _mali_osk_spinlock_irq_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_SCHEDULER);
+#else
+ pp_scheduler_lock = _mali_osk_spinlock_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_SCHEDULER);
+#endif /* defined(MALI_UPPER_HALF_SCHEDULING) */
+ if (NULL == pp_scheduler_lock) goto cleanup;
+
+ pp_scheduler_working_wait_queue = _mali_osk_wait_queue_init();
+ if (NULL == pp_scheduler_working_wait_queue) goto cleanup;
+
+#if defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_DELETE)
+ pp_scheduler_wq_job_delete = _mali_osk_wq_create_work(mali_pp_scheduler_do_job_delete, NULL);
+ if (NULL == pp_scheduler_wq_job_delete) goto cleanup;
+
+ pp_scheduler_job_delete_lock = _mali_osk_spinlock_irq_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_SCHEDULER_DEFERRED);
+ if (NULL == pp_scheduler_job_delete_lock) goto cleanup;
+#endif /* defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_DELETE) */
+
+#if defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_QUEUE)
+ pp_scheduler_wq_job_queue = _mali_osk_wq_create_work(mali_pp_scheduler_do_job_queue, NULL);
+ if (NULL == pp_scheduler_wq_job_queue) goto cleanup;
+
+ pp_scheduler_job_queue_lock = _mali_osk_spinlock_irq_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_SCHEDULER_DEFERRED);
+ if (NULL == pp_scheduler_job_queue_lock) goto cleanup;
+#endif /* defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_QUEUE) */
+
+ return _MALI_OSK_ERR_OK;
+
+cleanup:
+#if defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_QUEUE)
+ if (NULL != pp_scheduler_job_queue_lock) {
+ _mali_osk_spinlock_irq_term(pp_scheduler_job_queue_lock);
+ pp_scheduler_job_queue_lock = NULL;
+ }
+
+ if (NULL != pp_scheduler_wq_job_queue) {
+ _mali_osk_wq_delete_work(pp_scheduler_wq_job_queue);
+ pp_scheduler_wq_job_queue = NULL;
+ }
+#endif /* defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_QUEUE) */
+
+#if defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_DELETE)
+ if (NULL != pp_scheduler_job_delete_lock) {
+ _mali_osk_spinlock_irq_term(pp_scheduler_job_delete_lock);
+ pp_scheduler_job_delete_lock = NULL;
+ }
+
+ if (NULL != pp_scheduler_wq_job_delete) {
+ _mali_osk_wq_delete_work(pp_scheduler_wq_job_delete);
+ pp_scheduler_wq_job_delete = NULL;
+ }
+#endif /* defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_DELETE) */
+
+ if (NULL != pp_scheduler_working_wait_queue) {
+ _mali_osk_wait_queue_term(pp_scheduler_working_wait_queue);
+ pp_scheduler_working_wait_queue = NULL;
+ }
+
+ if (NULL != pp_scheduler_lock) {
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ _mali_osk_spinlock_irq_term(pp_scheduler_lock);
+#else
+ _mali_osk_spinlock_term(pp_scheduler_lock);
+#endif /* defined(MALI_UPPER_HALF_SCHEDULING) */
+ pp_scheduler_lock = NULL;
+ }
+
+ return _MALI_OSK_ERR_NOMEM;
+}
+
+void mali_pp_scheduler_terminate(void)
+{
+#if defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_QUEUE)
+ _mali_osk_spinlock_irq_term(pp_scheduler_job_queue_lock);
+ _mali_osk_wq_delete_work(pp_scheduler_wq_job_queue);
+#endif /* defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_QUEUE) */
+
+#if defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_DELETE)
+ _mali_osk_spinlock_irq_term(pp_scheduler_job_delete_lock);
+ _mali_osk_wq_delete_work(pp_scheduler_wq_job_delete);
+#endif /* defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_DELETE) */
+
+ _mali_osk_wait_queue_term(pp_scheduler_working_wait_queue);
+
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ _mali_osk_spinlock_irq_term(pp_scheduler_lock);
+#else
+ _mali_osk_spinlock_term(pp_scheduler_lock);
+#endif /* defined(MALI_UPPER_HALF_SCHEDULING) */
+}
+
+void mali_pp_scheduler_populate(void)
+{
+ struct mali_group *group;
+ struct mali_pp_core *pp_core;
+ u32 num_groups;
+ u32 i;
+
+ num_groups = mali_group_get_glob_num_groups();
+
+ /* Do we have a virtual group? */
+ for (i = 0; i < num_groups; i++) {
+ group = mali_group_get_glob_group(i);
+
+ if (mali_group_is_virtual(group)) {
+ MALI_DEBUG_PRINT(3, ("Mali PP scheduler: Found virtual group %p.\n", group));
+
+ virtual_group = group;
+ break;
+ }
+ }
+
+ /* Find all the available PP cores */
+ for (i = 0; i < num_groups; i++) {
+ group = mali_group_get_glob_group(i);
+ pp_core = mali_group_get_pp_core(group);
+
+ if (NULL != pp_core && !mali_group_is_virtual(group)) {
+ if (0 == pp_version) {
+ /* Retrieve PP version from the first available PP core */
+ pp_version = mali_pp_core_get_version(pp_core);
+ }
+
+ if (mali_pp_scheduler_has_virtual_group()) {
+ /* Add all physical PP cores to the virtual group */
+ mali_group_lock(virtual_group);
+ group->state = MALI_GROUP_STATE_JOINING_VIRTUAL;
+ mali_group_add_group(virtual_group, group, MALI_TRUE);
+ mali_group_unlock(virtual_group);
+ } else {
+ _mali_osk_list_add(&group->pp_scheduler_list, &group_list_idle);
+ }
+
+ num_cores++;
+ }
+ }
+
+ enabled_cores = num_cores;
+}
+
+void mali_pp_scheduler_depopulate(void)
+{
+ struct mali_group *group, *temp;
+
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(&group_list_working));
+ MALI_DEBUG_ASSERT(VIRTUAL_GROUP_WORKING != virtual_group_state);
+
+ /* Delete all groups owned by scheduler */
+ if (mali_pp_scheduler_has_virtual_group()) {
+ mali_group_delete(virtual_group);
+ }
+
+ _MALI_OSK_LIST_FOREACHENTRY(group, temp, &group_list_idle, struct mali_group, pp_scheduler_list) {
+ mali_group_delete(group);
+ }
+ _MALI_OSK_LIST_FOREACHENTRY(group, temp, &group_list_disabled, struct mali_group, pp_scheduler_list) {
+ mali_group_delete(group);
+ }
+}
+
+MALI_STATIC_INLINE void mali_pp_scheduler_disable_empty_virtual(void)
+{
+ MALI_ASSERT_GROUP_LOCKED(virtual_group);
+
+ if (mali_group_virtual_disable_if_empty(virtual_group)) {
+ MALI_DEBUG_PRINT(4, ("Disabling empty virtual group\n"));
+
+ MALI_DEBUG_ASSERT(VIRTUAL_GROUP_IDLE == virtual_group_state);
+
+ virtual_group_state = VIRTUAL_GROUP_DISABLED;
+ }
+}
+
+MALI_STATIC_INLINE void mali_pp_scheduler_enable_empty_virtual(void)
+{
+ MALI_ASSERT_GROUP_LOCKED(virtual_group);
+
+ if (mali_group_virtual_enable_if_empty(virtual_group)) {
+ MALI_DEBUG_PRINT(4, ("Re-enabling empty virtual group\n"));
+
+ MALI_DEBUG_ASSERT(VIRTUAL_GROUP_DISABLED == virtual_group_state);
+
+ virtual_group_state = VIRTUAL_GROUP_IDLE;
+ }
+}
+
+static struct mali_pp_job *mali_pp_scheduler_get_job(struct mali_pp_scheduler_job_queue *queue)
+{
+ struct mali_pp_job *job = NULL;
+
+ MALI_ASSERT_PP_SCHEDULER_LOCKED();
+ MALI_DEBUG_ASSERT_POINTER(queue);
+
+ /* Check if we have a normal priority job. */
+ if (!_mali_osk_list_empty(&queue->normal_pri)) {
+ MALI_DEBUG_ASSERT(queue->depth > 0);
+ job = _MALI_OSK_LIST_ENTRY(queue->normal_pri.next, struct mali_pp_job, list);
+ }
+
+ /* Prefer normal priority job if it is in progress. */
+ if (NULL != job && 0 < job->sub_jobs_started) {
+ return job;
+ }
+
+ /* Check if we have a high priority job. */
+ if (!_mali_osk_list_empty(&queue->high_pri)) {
+ MALI_DEBUG_ASSERT(queue->depth > 0);
+ job = _MALI_OSK_LIST_ENTRY(queue->high_pri.next, struct mali_pp_job, list);
+ }
+
+ return job;
+}
+
+/**
+ * Returns a physical job if a physical job is ready to run
+ */
+MALI_STATIC_INLINE struct mali_pp_job *mali_pp_scheduler_get_physical_job(void)
+{
+ MALI_ASSERT_PP_SCHEDULER_LOCKED();
+ return mali_pp_scheduler_get_job(&job_queue);
+}
+
+MALI_STATIC_INLINE void mali_pp_scheduler_dequeue_physical_job(struct mali_pp_job *job)
+{
+ MALI_ASSERT_PP_SCHEDULER_LOCKED();
+ MALI_DEBUG_ASSERT(job_queue.depth > 0);
+
+ /* Remove job from queue */
+ if (!mali_pp_job_has_unstarted_sub_jobs(job)) {
+ /* All sub jobs have been started: remove job from queue */
+ _mali_osk_list_delinit(&job->list);
+ _mali_osk_list_delinit(&job->session_fb_lookup_list);
+ }
+
+ --job_queue.depth;
+}
+
+/**
+ * Returns a virtual job if a virtual job is ready to run
+ */
+MALI_STATIC_INLINE struct mali_pp_job *mali_pp_scheduler_get_virtual_job(void)
+{
+ MALI_ASSERT_PP_SCHEDULER_LOCKED();
+ MALI_DEBUG_ASSERT_POINTER(virtual_group);
+ return mali_pp_scheduler_get_job(&virtual_job_queue);
+}
+
+MALI_STATIC_INLINE void mali_pp_scheduler_dequeue_virtual_job(struct mali_pp_job *job)
+{
+ MALI_ASSERT_PP_SCHEDULER_LOCKED();
+ MALI_DEBUG_ASSERT(virtual_job_queue.depth > 0);
+
+ /* Remove job from queue */
+ _mali_osk_list_delinit(&job->list);
+ _mali_osk_list_delinit(&job->session_fb_lookup_list);
+ --virtual_job_queue.depth;
+}
+
+/**
+ * Checks if the criteria is met for removing a physical core from virtual group
+ */
+MALI_STATIC_INLINE mali_bool mali_pp_scheduler_can_move_virtual_to_physical(void)
+{
+ MALI_ASSERT_PP_SCHEDULER_LOCKED();
+ MALI_DEBUG_ASSERT(mali_pp_scheduler_has_virtual_group());
+ MALI_ASSERT_GROUP_LOCKED(virtual_group);
+ /*
+ * The criteria for taking out a physical group from a virtual group are the following:
+ * - There virtual group is idle
+ * - There are currently no physical groups (idle and working)
+ * - There are physical jobs to be scheduled
+ */
+ return (VIRTUAL_GROUP_IDLE == virtual_group_state) &&
+ _mali_osk_list_empty(&group_list_idle) &&
+ _mali_osk_list_empty(&group_list_working) &&
+ (NULL != mali_pp_scheduler_get_physical_job());
+}
+
+MALI_STATIC_INLINE struct mali_group *mali_pp_scheduler_acquire_physical_group(void)
+{
+ MALI_ASSERT_PP_SCHEDULER_LOCKED();
+
+ if (!_mali_osk_list_empty(&group_list_idle)) {
+ MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Acquiring physical group from idle list.\n"));
+ return _MALI_OSK_LIST_ENTRY(group_list_idle.next, struct mali_group, pp_scheduler_list);
+ } else if (mali_pp_scheduler_has_virtual_group()) {
+ MALI_ASSERT_GROUP_LOCKED(virtual_group);
+ if (mali_pp_scheduler_can_move_virtual_to_physical()) {
+ struct mali_group *group;
+ MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Acquiring physical group from virtual group.\n"));
+ group = mali_group_acquire_group(virtual_group);
+
+ if (mali_pp_scheduler_has_virtual_group()) {
+ mali_pp_scheduler_disable_empty_virtual();
+ }
+
+ return group;
+ }
+ }
+
+ return NULL;
+}
+
+static void mali_pp_scheduler_return_job_to_user(struct mali_pp_job *job, mali_bool deferred)
+{
+ if (MALI_FALSE == mali_pp_job_use_no_notification(job)) {
+ u32 i;
+ u32 num_counters_to_copy;
+ mali_bool success = mali_pp_job_was_success(job);
+
+ _mali_uk_pp_job_finished_s *jobres = job->finished_notification->result_buffer;
+ _mali_osk_memset(jobres, 0, sizeof(_mali_uk_pp_job_finished_s)); /* @@@@ can be removed once we initialize all members in this struct */
+ jobres->user_job_ptr = mali_pp_job_get_user_id(job);
+ if (MALI_TRUE == success) {
+ jobres->status = _MALI_UK_JOB_STATUS_END_SUCCESS;
+ } else {
+ jobres->status = _MALI_UK_JOB_STATUS_END_UNKNOWN_ERR;
+ }
+
+ if (mali_pp_job_is_virtual(job)) {
+ num_counters_to_copy = num_cores; /* Number of physical cores available */
+ } else {
+ num_counters_to_copy = mali_pp_job_get_sub_job_count(job);
+ }
+
+ for (i = 0; i < num_counters_to_copy; i++) {
+ jobres->perf_counter0[i] = mali_pp_job_get_perf_counter_value0(job, i);
+ jobres->perf_counter1[i] = mali_pp_job_get_perf_counter_value1(job, i);
+ jobres->perf_counter_src0 = mali_pp_job_get_pp_counter_global_src0();
+ jobres->perf_counter_src1 = mali_pp_job_get_pp_counter_global_src1();
+ }
+
+ mali_session_send_notification(mali_pp_job_get_session(job), job->finished_notification);
+ job->finished_notification = NULL;
+ }
+
+#if defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_DELETE)
+ if (MALI_TRUE == deferred) {
+ /* The deletion of the job object (releasing sync refs etc) must be done in a different context */
+ mali_pp_scheduler_deferred_job_delete(job);
+ } else {
+ mali_pp_job_delete(job);
+ }
+#else
+ MALI_DEBUG_ASSERT(MALI_FALSE == deferred); /* no use cases need this in this configuration */
+ mali_pp_job_delete(job);
+#endif
+}
+
+static void mali_pp_scheduler_finalize_job(struct mali_pp_job * job)
+{
+ /* This job object should not be on any lists. */
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(&job->list));
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(&job->session_list));
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(&job->session_fb_lookup_list));
+
+ /* Send notification back to user space */
+#if defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_DELETE)
+ mali_pp_scheduler_return_job_to_user(job, MALI_TRUE);
+#else
+ mali_pp_scheduler_return_job_to_user(job, MALI_FALSE);
+#endif
+
+#if defined(CONFIG_MALI400_POWER_PERFORMANCE_POLICY)
+ if (_MALI_PP_JOB_FLAG_IS_WINDOW_SURFACE & job->uargs.flags) {
+ _mali_osk_atomic_inc(&job->session->number_of_window_jobs);
+ }
+#endif
+
+ mali_pp_scheduler_job_completed();
+}
+
+void mali_pp_scheduler_schedule(void)
+{
+ struct mali_group* physical_groups_to_start[MALI_MAX_NUMBER_OF_PP_GROUPS - 1];
+ struct mali_pp_job* physical_jobs_to_start[MALI_MAX_NUMBER_OF_PP_GROUPS - 1];
+ u32 physical_sub_jobs_to_start[MALI_MAX_NUMBER_OF_PP_GROUPS - 1];
+ int num_physical_jobs_to_start = 0;
+ int i;
+
+ if (mali_pp_scheduler_has_virtual_group()) {
+ /* Lock the virtual group since we might have to grab physical groups. */
+ mali_group_lock(virtual_group);
+ }
+
+ mali_pp_scheduler_lock();
+ if (pause_count > 0) {
+ /* Scheduler is suspended, don't schedule any jobs. */
+ mali_pp_scheduler_unlock();
+ if (mali_pp_scheduler_has_virtual_group()) {
+ mali_group_unlock(virtual_group);
+ }
+ return;
+ }
+
+ /* Find physical job(s) to schedule first. */
+ while (1) {
+ struct mali_group *group;
+ struct mali_pp_job *job;
+ u32 sub_job;
+
+ job = mali_pp_scheduler_get_physical_job();
+ if (NULL == job) {
+ break; /* No job, early out. */
+ }
+
+ if (mali_scheduler_hint_is_enabled(MALI_SCHEDULER_HINT_GP_BOUND) &&
+ mali_pp_job_is_large_and_unstarted(job) && !_mali_osk_list_empty(&group_list_working)) {
+ /* Since not all groups are idle, don't schedule yet. */
+ break;
+ }
+
+ MALI_DEBUG_ASSERT(!mali_pp_job_is_virtual(job));
+ MALI_DEBUG_ASSERT(mali_pp_job_has_unstarted_sub_jobs(job));
+ MALI_DEBUG_ASSERT(1 <= mali_pp_job_get_sub_job_count(job));
+
+ /* Acquire a physical group, either from the idle list or from the virtual group.
+ * In case the group was acquired from the virtual group, it's state will be
+ * LEAVING_VIRTUAL and must be set to IDLE before it can be used. */
+ group = mali_pp_scheduler_acquire_physical_group();
+ if (NULL == group) {
+ /* Could not get a group to run the job on, early out. */
+ MALI_DEBUG_PRINT(4, ("Mali PP scheduler: No more physical groups available.\n"));
+ break;
+ }
+
+ MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Acquired physical group %p.\n", group));
+
+ /* Mark sub job as started. */
+ sub_job = mali_pp_job_get_first_unstarted_sub_job(job);
+ mali_pp_job_mark_sub_job_started(job, sub_job);
+
+ /* Remove job from queue (if this was the last sub job). */
+ mali_pp_scheduler_dequeue_physical_job(job);
+
+ /* Move group to working list. */
+ _mali_osk_list_move(&(group->pp_scheduler_list), &group_list_working);
+
+ /* Keep track of this group, so that we actually can start the job once we are done with the scheduler lock we are now holding. */
+ physical_groups_to_start[num_physical_jobs_to_start] = group;
+ physical_jobs_to_start[num_physical_jobs_to_start] = job;
+ physical_sub_jobs_to_start[num_physical_jobs_to_start] = sub_job;
+ ++num_physical_jobs_to_start;
+
+ MALI_DEBUG_ASSERT(num_physical_jobs_to_start < MALI_MAX_NUMBER_OF_PP_GROUPS);
+ }
+
+ if (mali_pp_scheduler_has_virtual_group()) {
+ if (VIRTUAL_GROUP_IDLE == virtual_group_state) {
+ /* We have a virtual group and it is idle. */
+
+ struct mali_pp_job *job;
+
+ /* Find a virtual job we can start. */
+ job = mali_pp_scheduler_get_virtual_job();
+
+ if (NULL != job) {
+ MALI_DEBUG_ASSERT(mali_pp_job_is_virtual(job));
+ MALI_DEBUG_ASSERT(mali_pp_job_has_unstarted_sub_jobs(job));
+ MALI_DEBUG_ASSERT(1 == mali_pp_job_get_sub_job_count(job));
+
+ /* Mark the one and only sub job as started. */
+ mali_pp_job_mark_sub_job_started(job, 0);
+
+ /* Remove job from queue. */
+ mali_pp_scheduler_dequeue_virtual_job(job);
+
+ /* Virtual group is now working. */
+ virtual_group_state = VIRTUAL_GROUP_WORKING;
+
+ /* We no longer need the scheduler lock, but we still need the virtual lock
+ * in order to start the virtual job. */
+ mali_pp_scheduler_unlock();
+
+ /* Start job. */
+ mali_group_start_pp_job(virtual_group, job, 0);
+
+ MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Virtual job %u (0x%08X) part %u/%u started (from schedule).\n",
+ mali_pp_job_get_id(job), job, 1,
+ mali_pp_job_get_sub_job_count(job)));
+
+ mali_group_unlock(virtual_group);
+ } else {
+ /* No virtual job to start. */
+ mali_pp_scheduler_unlock();
+ mali_group_unlock(virtual_group);
+ }
+ } else {
+ /* We have a virtual group, but it is busy or disabled. */
+ MALI_DEBUG_ASSERT(VIRTUAL_GROUP_IDLE != virtual_group_state);
+
+ mali_pp_scheduler_unlock();
+ mali_group_unlock(virtual_group);
+ }
+ } else {
+ /* There is no virtual group. */
+ mali_pp_scheduler_unlock();
+ }
+
+ /* We have now released the scheduler lock, and we are ready to start the physical jobs.
+ * The reason we want to wait until we have released the scheduler lock is that job start
+ * may take quite a bit of time (many registers have to be written). This will allow new
+ * jobs from user space to come in, and post-processing of other PP jobs to happen at the
+ * same time as we start jobs. */
+ for (i = 0; i < num_physical_jobs_to_start; i++) {
+ struct mali_group *group = physical_groups_to_start[i];
+ struct mali_pp_job *job = physical_jobs_to_start[i];
+ u32 sub_job = physical_sub_jobs_to_start[i];
+
+ MALI_DEBUG_ASSERT_POINTER(group);
+ MALI_DEBUG_ASSERT_POINTER(job);
+ MALI_DEBUG_ASSERT(!mali_group_is_virtual(group));
+ MALI_DEBUG_ASSERT(!mali_pp_job_is_virtual(job));
+
+ mali_group_lock(group);
+
+ /* Set state to IDLE if group was acquired from the virtual group. */
+ group->state = MALI_GROUP_STATE_IDLE;
+
+ mali_group_start_pp_job(group, job, sub_job);
+
+ MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Physical job %u (0x%08X) part %u/%u started (from schedule).\n",
+ mali_pp_job_get_id(job), job, sub_job + 1,
+ mali_pp_job_get_sub_job_count(job)));
+
+ mali_group_unlock(group);
+ }
+}
+
+/**
+ * Set group idle.
+ *
+ * If @ref group is the virtual group, nothing is done since the virtual group should be idle
+ * already.
+ *
+ * If @ref group is a physical group we rejoin the virtual group, if it exists. If not, we move the
+ * physical group to the idle list.
+ *
+ * @note The group and the scheduler must both be locked when entering this function. Both will be
+ * unlocked before exiting.
+ *
+ * @param group The group to set idle.
+ */
+static void mali_pp_scheduler_set_group_idle_and_unlock(struct mali_group *group)
+{
+ MALI_DEBUG_ASSERT_POINTER(group);
+
+ MALI_ASSERT_GROUP_LOCKED(group);
+ MALI_DEBUG_ASSERT_LOCK_HELD(pp_scheduler_lock);
+
+ if (mali_group_is_virtual(group)) {
+ /* The virtual group should have been set to non-working already. */
+ MALI_DEBUG_ASSERT(VIRTUAL_GROUP_IDLE == virtual_group_state);
+
+ mali_pp_scheduler_unlock();
+ mali_group_unlock(group);
+
+ return;
+ } else {
+ if (mali_pp_scheduler_has_virtual_group()) {
+ /* Rejoin virtual group. */
+
+ /* We're no longer needed on the scheduler list. */
+ _mali_osk_list_delinit(&(group->pp_scheduler_list));
+
+ /* Make sure no interrupts are handled for this group during the transition
+ * from physical to virtual. */
+ group->state = MALI_GROUP_STATE_JOINING_VIRTUAL;
+
+ mali_pp_scheduler_unlock();
+ mali_group_unlock(group);
+
+ mali_group_lock(virtual_group);
+
+ if (mali_pp_scheduler_has_virtual_group()) {
+ mali_pp_scheduler_enable_empty_virtual();
+ }
+
+ /* We need to recheck the group state since it is possible that someone has
+ * modified the group before we locked the virtual group. */
+ if (MALI_GROUP_STATE_JOINING_VIRTUAL == group->state) {
+ mali_group_add_group(virtual_group, group, MALI_TRUE);
+ }
+
+ mali_group_unlock(virtual_group);
+ } else {
+ /* Move physical group back to idle list. */
+ _mali_osk_list_move(&(group->pp_scheduler_list), &group_list_idle);
+
+#if defined(CONFIG_GPU_TRACEPOINTS) && defined(CONFIG_TRACEPOINTS)
+ trace_gpu_sched_switch(mali_pp_get_hw_core_desc(group->pp_core), sched_clock(), 0, 0, 0);
+#endif
+
+ mali_pp_scheduler_unlock();
+ mali_group_unlock(group);
+ }
+ }
+}
+
+/**
+ * Schedule job on locked group.
+ *
+ * @note The group and the scheduler must both be locked when entering this function. Both will be
+ * unlocked before exiting.
+ *
+ * @param group The group to schedule on.
+ */
+static void mali_pp_scheduler_schedule_on_group_and_unlock(struct mali_group *group)
+{
+ MALI_DEBUG_ASSERT_POINTER(group);
+
+ MALI_ASSERT_GROUP_LOCKED(group);
+ MALI_DEBUG_ASSERT_LOCK_HELD(pp_scheduler_lock);
+
+ if (mali_group_is_virtual(group)) {
+ /* Now that the virtual group is idle, check if we should reconfigure. */
+
+ struct mali_pp_job *virtual_job = NULL;
+ struct mali_pp_job *physical_job = NULL;
+ struct mali_group *physical_group = NULL;
+ u32 physical_sub_job = 0;
+
+ MALI_DEBUG_ASSERT(VIRTUAL_GROUP_IDLE == virtual_group_state);
+
+ if (mali_pp_scheduler_can_move_virtual_to_physical()) {
+ /* There is a runnable physical job and we can acquire a physical group. */
+ physical_job = mali_pp_scheduler_get_physical_job();
+ MALI_DEBUG_ASSERT_POINTER(physical_job);
+ MALI_DEBUG_ASSERT(mali_pp_job_has_unstarted_sub_jobs(physical_job));
+
+ /* Mark sub job as started. */
+ physical_sub_job = mali_pp_job_get_first_unstarted_sub_job(physical_job);
+ mali_pp_job_mark_sub_job_started(physical_job, physical_sub_job);
+
+ /* Remove job from queue (if this was the last sub job). */
+ mali_pp_scheduler_dequeue_physical_job(physical_job);
+
+ /* Acquire a physical group from the virtual group. Its state will
+ * be LEAVING_VIRTUAL and must be set to IDLE before it can be
+ * used. */
+ physical_group = mali_group_acquire_group(virtual_group);
+
+ /* Move physical group to the working list, as we will soon start a job on it. */
+ _mali_osk_list_move(&(physical_group->pp_scheduler_list), &group_list_working);
+
+ mali_pp_scheduler_disable_empty_virtual();
+ }
+
+ /* Get next virtual job. */
+ virtual_job = mali_pp_scheduler_get_virtual_job();
+ if (NULL != virtual_job && VIRTUAL_GROUP_IDLE == virtual_group_state) {
+ /* There is a runnable virtual job. */
+
+ MALI_DEBUG_ASSERT(mali_pp_job_is_virtual(virtual_job));
+ MALI_DEBUG_ASSERT(mali_pp_job_has_unstarted_sub_jobs(virtual_job));
+ MALI_DEBUG_ASSERT(1 == mali_pp_job_get_sub_job_count(virtual_job));
+
+ mali_pp_job_mark_sub_job_started(virtual_job, 0);
+
+ /* Remove job from queue. */
+ mali_pp_scheduler_dequeue_virtual_job(virtual_job);
+
+ /* Virtual group is now working. */
+ virtual_group_state = VIRTUAL_GROUP_WORKING;
+
+ mali_pp_scheduler_unlock();
+
+ /* Start job. */
+ mali_group_start_pp_job(group, virtual_job, 0);
+
+ MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Virtual job %u (0x%08X) part %u/%u started (from job_done).\n",
+ mali_pp_job_get_id(virtual_job), virtual_job, 1,
+ mali_pp_job_get_sub_job_count(virtual_job)));
+ } else {
+#if defined(CONFIG_GPU_TRACEPOINTS) && defined(CONFIG_TRACEPOINTS)
+ trace_gpu_sched_switch("Mali_Virtual_PP", sched_clock(), 0, 0, 0);
+#endif
+
+ mali_pp_scheduler_unlock();
+ }
+
+ /* Releasing the virtual group lock that was held when entering the function. */
+ mali_group_unlock(group);
+
+ /* Start a physical job (if we acquired a physical group earlier). */
+ if (NULL != physical_job && NULL != physical_group) {
+ mali_group_lock(physical_group);
+
+ /* Change the group state from LEAVING_VIRTUAL to IDLE to complete the transition. */
+ physical_group->state = MALI_GROUP_STATE_IDLE;
+
+ /* Start job. */
+ mali_group_start_pp_job(physical_group, physical_job, physical_sub_job);
+
+ MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Physical job %u (0x%08X) part %u/%u started (from job_done).\n",
+ mali_pp_job_get_id(physical_job), physical_job, physical_sub_job + 1,
+ mali_pp_job_get_sub_job_count(physical_job)));
+
+ mali_group_unlock(physical_group);
+ }
+ } else {
+ /* Physical group. */
+ struct mali_pp_job *job = NULL;
+ u32 sub_job = 0;
+
+ job = mali_pp_scheduler_get_physical_job();
+ if (NULL != job) {
+ /* There is a runnable physical job. */
+ MALI_DEBUG_ASSERT(mali_pp_job_has_unstarted_sub_jobs(job));
+
+ /* Mark sub job as started. */
+ sub_job = mali_pp_job_get_first_unstarted_sub_job(job);
+ mali_pp_job_mark_sub_job_started(job, sub_job);
+
+ /* Remove job from queue (if this was the last sub job). */
+ mali_pp_scheduler_dequeue_physical_job(job);
+
+ mali_pp_scheduler_unlock();
+
+ /* Group is already on the working list, so start the new job. */
+ mali_group_start_pp_job(group, job, sub_job);
+
+ MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Physical job %u (0x%08X) part %u/%u started (from job_done).\n",
+ mali_pp_job_get_id(job), job, sub_job + 1, mali_pp_job_get_sub_job_count(job)));
+
+ mali_group_unlock(group);
+ } else {
+ mali_pp_scheduler_set_group_idle_and_unlock(group);
+ }
+ }
+}
+
+void mali_pp_scheduler_job_done(struct mali_group *group, struct mali_pp_job *job, u32 sub_job, mali_bool success, mali_bool in_upper_half)
+{
+ mali_bool job_is_done = MALI_FALSE;
+ mali_bool schedule_on_group = MALI_FALSE;
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+
+ MALI_DEBUG_PRINT(3, ("Mali PP scheduler: %s job %u (0x%08X) part %u/%u completed (%s).\n",
+ mali_pp_job_is_virtual(job) ? "Virtual" : "Physical",
+ mali_pp_job_get_id(job),
+ job, sub_job + 1,
+ mali_pp_job_get_sub_job_count(job),
+ success ? "success" : "failure"));
+
+ MALI_ASSERT_GROUP_LOCKED(group);
+ mali_pp_scheduler_lock();
+
+ mali_pp_job_mark_sub_job_completed(job, success);
+
+ MALI_DEBUG_ASSERT(mali_pp_job_is_virtual(job) == mali_group_is_virtual(group));
+
+ job_is_done = mali_pp_job_is_complete(job);
+
+ if (job_is_done) {
+ /* Job is removed from these lists when the last sub job is scheduled. */
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(&job->list));
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(&job->session_fb_lookup_list));
+
+ /* Remove job from session list. */
+ _mali_osk_list_delinit(&job->session_list);
+
+ MALI_DEBUG_PRINT(4, ("Mali PP scheduler: All parts completed for %s job %u (0x%08X).\n",
+ mali_pp_job_is_virtual(job) ? "virtual" : "physical",
+ mali_pp_job_get_id(job), job));
+
+ mali_pp_scheduler_unlock();
+
+ /* Release tracker. If other trackers are waiting on this tracker, this could
+ * trigger activation. The returned scheduling mask can be used to determine if we
+ * have to schedule GP, PP or both. */
+ schedule_mask = mali_timeline_tracker_release(&job->tracker);
+
+ mali_pp_scheduler_lock();
+ }
+
+ if (mali_group_is_virtual(group)) {
+ /* Obey the policy. */
+ virtual_group_state = VIRTUAL_GROUP_IDLE;
+ }
+
+ /* If paused, then this was the last job, so wake up sleeping workers and return. */
+ if (pause_count > 0) {
+ /* Wake up sleeping workers. Their wake-up condition is that
+ * num_slots == num_slots_idle, so unless we are done working, no
+ * threads will actually be woken up.
+ */
+ if (!mali_group_is_virtual(group)) {
+ /* Move physical group to idle list. */
+ _mali_osk_list_move(&(group->pp_scheduler_list), &group_list_idle);
+ }
+
+#if defined(CONFIG_GPU_TRACEPOINTS) && defined(CONFIG_TRACEPOINTS)
+ trace_gpu_sched_switch(mali_pp_get_hw_core_desc(group->pp_core), sched_clock(), 0, 0, 0);
+#endif
+
+ _mali_osk_wait_queue_wake_up(pp_scheduler_working_wait_queue);
+
+ mali_pp_scheduler_unlock();
+ mali_group_unlock(group);
+
+ if (job_is_done) {
+ /* Return job to user and delete it. */
+ mali_pp_scheduler_finalize_job(job);
+ }
+
+ /* A GP job might be queued by tracker release above,
+ * make sure GP scheduler gets a chance to schedule this (if possible)
+ */
+ mali_scheduler_schedule_from_mask(schedule_mask & ~MALI_SCHEDULER_MASK_PP, in_upper_half);
+
+ return;
+ }
+
+ /* Since this group just finished running a job, we can reschedule a new job on it
+ * immediately. */
+
+ /* By default, don't schedule on group. */
+ schedule_on_group = MALI_FALSE;
+
+ if (mali_group_is_virtual(group)) {
+ /* Always schedule immediately on virtual group. */
+ schedule_mask &= ~MALI_SCHEDULER_MASK_PP;
+ schedule_on_group = MALI_TRUE;
+ } else if (0 < job_queue.depth && (!mali_scheduler_mask_is_set(schedule_mask, MALI_SCHEDULER_MASK_PP) || _mali_osk_list_empty(&group_list_idle))) {
+ struct mali_pp_job *next_job = NULL;
+
+ next_job = mali_pp_scheduler_get_physical_job();
+ MALI_DEBUG_ASSERT_POINTER(next_job);
+
+ /* If no new jobs have been queued or if this group is the only idle group, we can
+ * schedule immediately on this group, unless we are GP bound and the next job would
+ * benefit from all its sub jobs being started concurrently. */
+
+ if (mali_scheduler_hint_is_enabled(MALI_SCHEDULER_HINT_GP_BOUND) && mali_pp_job_is_large_and_unstarted(next_job)) {
+ /* We are GP bound and the job would benefit from all sub jobs being started
+ * concurrently. Postpone scheduling until after group has been unlocked. */
+ schedule_mask |= MALI_SCHEDULER_MASK_PP;
+ schedule_on_group = MALI_FALSE;
+ } else {
+ /* Schedule job immediately since we are not GP bound. */
+ schedule_mask &= ~MALI_SCHEDULER_MASK_PP;
+ schedule_on_group = MALI_TRUE;
+ }
+ }
+
+ if (schedule_on_group) {
+ /* Schedule a new job on this group. */
+ mali_pp_scheduler_schedule_on_group_and_unlock(group);
+ } else {
+ /* Set group idle. Will rejoin virtual group, under appropriate conditions. */
+ mali_pp_scheduler_set_group_idle_and_unlock(group);
+ }
+
+ if (!schedule_on_group || MALI_SCHEDULER_MASK_EMPTY != schedule_mask) {
+ if (MALI_SCHEDULER_MASK_PP & schedule_mask) {
+ /* Schedule PP directly. */
+ mali_pp_scheduler_schedule();
+ schedule_mask &= ~MALI_SCHEDULER_MASK_PP;
+ }
+
+ /* Schedule other jobs that were activated. */
+ mali_scheduler_schedule_from_mask(schedule_mask, in_upper_half);
+ }
+
+ if (job_is_done) {
+ /* Return job to user and delete it. */
+ mali_pp_scheduler_finalize_job(job);
+ }
+}
+
+void mali_pp_scheduler_suspend(void)
+{
+ mali_pp_scheduler_lock();
+ pause_count++; /* Increment the pause_count so that no more jobs will be scheduled */
+ mali_pp_scheduler_unlock();
+
+ /* Go to sleep. When woken up again (in mali_pp_scheduler_job_done), the
+ * mali_pp_scheduler_suspended() function will be called. This will return true
+ * if state is idle and pause_count > 0, so if the core is active this
+ * will not do anything.
+ */
+ _mali_osk_wait_queue_wait_event(pp_scheduler_working_wait_queue, mali_pp_scheduler_is_suspended, NULL);
+}
+
+void mali_pp_scheduler_resume(void)
+{
+ mali_pp_scheduler_lock();
+ pause_count--; /* Decrement pause_count to allow scheduling again (if it reaches 0) */
+ mali_pp_scheduler_unlock();
+ if (0 == pause_count) {
+ mali_pp_scheduler_schedule();
+ }
+}
+
+mali_timeline_point mali_pp_scheduler_submit_job(struct mali_session_data *session, struct mali_pp_job *job)
+{
+ mali_timeline_point point;
+ u32 fb_lookup_id = 0;
+
+ MALI_DEBUG_ASSERT_POINTER(session);
+ MALI_DEBUG_ASSERT_POINTER(job);
+
+ mali_pp_scheduler_lock();
+
+ fb_lookup_id = mali_pp_job_get_fb_lookup_id(job);
+ MALI_DEBUG_ASSERT(MALI_PP_JOB_FB_LOOKUP_LIST_SIZE > fb_lookup_id);
+
+ /* Adding job to the lookup list used to quickly discard writeback units of queued jobs. */
+ _mali_osk_list_addtail(&job->session_fb_lookup_list, &session->pp_job_fb_lookup_list[fb_lookup_id]);
+
+ mali_pp_scheduler_unlock();
+
+ mali_pp_scheduler_job_queued();
+
+ /* Add job to Timeline system. */
+ point = mali_timeline_system_add_tracker(session->timeline_system, &job->tracker, MALI_TIMELINE_PP);
+
+ return point;
+}
+
+_mali_osk_errcode_t _mali_ukk_pp_start_job(void *ctx, _mali_uk_pp_start_job_s *uargs)
+{
+ struct mali_session_data *session;
+ struct mali_pp_job *job;
+ mali_timeline_point point;
+ u32 __user *timeline_point_ptr = NULL;
+
+ MALI_DEBUG_ASSERT_POINTER(uargs);
+ MALI_DEBUG_ASSERT_POINTER(ctx);
+
+ session = (struct mali_session_data*)ctx;
+
+ job = mali_pp_job_create(session, uargs, mali_scheduler_get_new_id());
+ if (NULL == job) {
+ MALI_PRINT_ERROR(("Failed to create PP job.\n"));
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ timeline_point_ptr = (u32 __user *) job->uargs.timeline_point_ptr;
+
+ point = mali_pp_scheduler_submit_job(session, job);
+ job = NULL;
+
+ if (0 != _mali_osk_put_user(((u32) point), timeline_point_ptr)) {
+ /* Let user space know that something failed after the job was started. */
+ return _MALI_OSK_ERR_ITEM_NOT_FOUND;
+ }
+
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t _mali_ukk_pp_and_gp_start_job(void *ctx, _mali_uk_pp_and_gp_start_job_s *uargs)
+{
+ struct mali_session_data *session;
+ _mali_uk_pp_and_gp_start_job_s kargs;
+ struct mali_pp_job *pp_job;
+ struct mali_gp_job *gp_job;
+ u32 __user *timeline_point_ptr = NULL;
+ mali_timeline_point point;
+
+ MALI_DEBUG_ASSERT_POINTER(ctx);
+ MALI_DEBUG_ASSERT_POINTER(uargs);
+
+ session = (struct mali_session_data *) ctx;
+
+ if (0 != _mali_osk_copy_from_user(&kargs, uargs, sizeof(_mali_uk_pp_and_gp_start_job_s))) {
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ pp_job = mali_pp_job_create(session, kargs.pp_args, mali_scheduler_get_new_id());
+ if (NULL == pp_job) {
+ MALI_PRINT_ERROR(("Failed to create PP job.\n"));
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ gp_job = mali_gp_job_create(session, kargs.gp_args, mali_scheduler_get_new_id(), mali_pp_job_get_tracker(pp_job));
+ if (NULL == gp_job) {
+ MALI_PRINT_ERROR(("Failed to create GP job.\n"));
+ mali_pp_job_delete(pp_job);
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ timeline_point_ptr = (u32 __user *) pp_job->uargs.timeline_point_ptr;
+
+ /* Submit GP job. */
+ mali_gp_scheduler_submit_job(session, gp_job);
+ gp_job = NULL;
+
+ /* Submit PP job. */
+ point = mali_pp_scheduler_submit_job(session, pp_job);
+ pp_job = NULL;
+
+ if (0 != _mali_osk_put_user(((u32) point), timeline_point_ptr)) {
+ /* Let user space know that something failed after the jobs were started. */
+ return _MALI_OSK_ERR_ITEM_NOT_FOUND;
+ }
+
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t _mali_ukk_get_pp_number_of_cores(_mali_uk_get_pp_number_of_cores_s *args)
+{
+ MALI_DEBUG_ASSERT_POINTER(args);
+ MALI_DEBUG_ASSERT_POINTER(args->ctx);
+ args->number_of_total_cores = num_cores;
+ args->number_of_enabled_cores = enabled_cores;
+ return _MALI_OSK_ERR_OK;
+}
+
+u32 mali_pp_scheduler_get_num_cores_total(void)
+{
+ return num_cores;
+}
+
+u32 mali_pp_scheduler_get_num_cores_enabled(void)
+{
+ return enabled_cores;
+}
+
+_mali_osk_errcode_t _mali_ukk_get_pp_core_version(_mali_uk_get_pp_core_version_s *args)
+{
+ MALI_DEBUG_ASSERT_POINTER(args);
+ MALI_DEBUG_ASSERT_POINTER(args->ctx);
+ args->version = pp_version;
+ return _MALI_OSK_ERR_OK;
+}
+
+void _mali_ukk_pp_job_disable_wb(_mali_uk_pp_disable_wb_s *args)
+{
+ struct mali_session_data *session;
+ struct mali_pp_job *job;
+ struct mali_pp_job *tmp;
+ u32 fb_lookup_id;
+
+ MALI_DEBUG_ASSERT_POINTER(args);
+ MALI_DEBUG_ASSERT_POINTER(args->ctx);
+
+ session = (struct mali_session_data*)args->ctx;
+
+ fb_lookup_id = args->fb_id & MALI_PP_JOB_FB_LOOKUP_LIST_MASK;
+
+ mali_pp_scheduler_lock();
+
+ /* Iterate over all jobs for given frame builder_id. */
+ _MALI_OSK_LIST_FOREACHENTRY(job, tmp, &session->pp_job_fb_lookup_list[fb_lookup_id], struct mali_pp_job, session_fb_lookup_list) {
+ MALI_DEBUG_CODE(u32 disable_mask = 0);
+
+ if (mali_pp_job_get_frame_builder_id(job) == (u32) args->fb_id) {
+ MALI_DEBUG_CODE(disable_mask |= 0xD<<(4*3));
+ if (args->wb0_memory == job->uargs.wb0_registers[MALI200_REG_ADDR_WB_SOURCE_ADDR/sizeof(u32)]) {
+ MALI_DEBUG_CODE(disable_mask |= 0x1<<(4*1));
+ mali_pp_job_disable_wb0(job);
+ }
+ if (args->wb1_memory == job->uargs.wb1_registers[MALI200_REG_ADDR_WB_SOURCE_ADDR/sizeof(u32)]) {
+ MALI_DEBUG_CODE(disable_mask |= 0x2<<(4*2));
+ mali_pp_job_disable_wb1(job);
+ }
+ if (args->wb2_memory == job->uargs.wb2_registers[MALI200_REG_ADDR_WB_SOURCE_ADDR/sizeof(u32)]) {
+ MALI_DEBUG_CODE(disable_mask |= 0x3<<(4*3));
+ mali_pp_job_disable_wb2(job);
+ }
+ MALI_DEBUG_PRINT(3, ("Mali PP scheduler: Disable WB: 0x%X.\n", disable_mask));
+ } else {
+ MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Disable WB mismatching FB.\n"));
+ }
+ }
+
+ mali_pp_scheduler_unlock();
+}
+
+void mali_pp_scheduler_abort_session(struct mali_session_data *session)
+{
+ u32 i = 0;
+ struct mali_pp_job *job, *tmp_job;
+ struct mali_group *group, *tmp_group;
+ struct mali_group *groups[MALI_MAX_NUMBER_OF_GROUPS];
+ _MALI_OSK_LIST_HEAD_STATIC_INIT(removed_jobs);
+
+ MALI_DEBUG_ASSERT_POINTER(session);
+ MALI_DEBUG_ASSERT(session->is_aborting);
+
+ MALI_DEBUG_PRINT(3, ("Mali PP scheduler: Aborting all jobs from session 0x%08X.\n", session));
+
+ mali_pp_scheduler_lock();
+
+ /* Find all jobs from the aborting session. */
+ _MALI_OSK_LIST_FOREACHENTRY(job, tmp_job, &session->pp_job_list, struct mali_pp_job, session_list) {
+ /* Remove job from queue. */
+ if (mali_pp_job_is_virtual(job)) {
+ MALI_DEBUG_ASSERT(1 == mali_pp_job_get_sub_job_count(job));
+ if (0 == mali_pp_job_get_first_unstarted_sub_job(job)) {
+ --virtual_job_queue.depth;
+ }
+ } else {
+ job_queue.depth -= mali_pp_job_get_sub_job_count(job) - mali_pp_job_get_first_unstarted_sub_job(job);
+ }
+
+ _mali_osk_list_delinit(&job->list);
+ _mali_osk_list_delinit(&job->session_fb_lookup_list);
+
+ mali_pp_job_mark_unstarted_failed(job);
+
+ if (mali_pp_job_is_complete(job)) {
+ /* Job is complete, remove from session list. */
+ _mali_osk_list_delinit(&job->session_list);
+
+ /* Move job to local list for release and deletion. */
+ _mali_osk_list_add(&job->list, &removed_jobs);
+
+ MALI_DEBUG_PRINT(3, ("Mali PP scheduler: Aborted PP job %u (0x%08X).\n", mali_pp_job_get_id(job), job));
+ } else {
+ MALI_DEBUG_PRINT(3, ("Mali PP scheduler: Keeping partially started PP job %u (0x%08X) in session.\n", mali_pp_job_get_id(job), job));
+ }
+ }
+
+ _MALI_OSK_LIST_FOREACHENTRY(group, tmp_group, &group_list_working, struct mali_group, pp_scheduler_list) {
+ groups[i++] = group;
+ }
+
+ _MALI_OSK_LIST_FOREACHENTRY(group, tmp_group, &group_list_idle, struct mali_group, pp_scheduler_list) {
+ groups[i++] = group;
+ }
+
+ mali_pp_scheduler_unlock();
+
+ /* Release and delete all found jobs from the aborting session. */
+ _MALI_OSK_LIST_FOREACHENTRY(job, tmp_job, &removed_jobs, struct mali_pp_job, list) {
+ mali_timeline_tracker_release(&job->tracker);
+ mali_pp_job_delete(job);
+ mali_pp_scheduler_job_completed();
+ }
+
+ /* Abort any running jobs from the session. */
+ while (i > 0) {
+ mali_group_abort_session(groups[--i], session);
+ }
+
+ if (mali_pp_scheduler_has_virtual_group()) {
+ mali_group_abort_session(virtual_group, session);
+ }
+}
+
+static mali_bool mali_pp_scheduler_is_suspended(void *data)
+{
+ mali_bool ret;
+
+ /* This callback does not use the data pointer. */
+ MALI_IGNORE(data);
+
+ mali_pp_scheduler_lock();
+
+ ret = pause_count > 0
+ && _mali_osk_list_empty(&group_list_working)
+ && VIRTUAL_GROUP_WORKING != virtual_group_state;
+
+ mali_pp_scheduler_unlock();
+
+ return ret;
+}
+
+struct mali_pp_core *mali_pp_scheduler_get_virtual_pp(void)
+{
+ if (mali_pp_scheduler_has_virtual_group()) {
+ return mali_group_get_pp_core(virtual_group);
+ } else {
+ return NULL;
+ }
+}
+
+#if MALI_STATE_TRACKING
+u32 mali_pp_scheduler_dump_state(char *buf, u32 size)
+{
+ int n = 0;
+ struct mali_group *group;
+ struct mali_group *temp;
+
+ n += _mali_osk_snprintf(buf + n, size - n, "PP:\n");
+ n += _mali_osk_snprintf(buf + n, size - n, "\tQueue is %s\n", _mali_osk_list_empty(&job_queue.normal_pri) ? "empty" : "not empty");
+ n += _mali_osk_snprintf(buf + n, size - n, "\tHigh priority queue is %s\n", _mali_osk_list_empty(&job_queue.high_pri) ? "empty" : "not empty");
+ n += _mali_osk_snprintf(buf + n, size - n, "\n");
+
+ _MALI_OSK_LIST_FOREACHENTRY(group, temp, &group_list_working, struct mali_group, pp_scheduler_list) {
+ n += mali_group_dump_state(group, buf + n, size - n);
+ }
+
+ _MALI_OSK_LIST_FOREACHENTRY(group, temp, &group_list_idle, struct mali_group, pp_scheduler_list) {
+ n += mali_group_dump_state(group, buf + n, size - n);
+ }
+
+ _MALI_OSK_LIST_FOREACHENTRY(group, temp, &group_list_disabled, struct mali_group, pp_scheduler_list) {
+ n += mali_group_dump_state(group, buf + n, size - n);
+ }
+
+ if (mali_pp_scheduler_has_virtual_group()) {
+ n += mali_group_dump_state(virtual_group, buf + n, size -n);
+ }
+
+ n += _mali_osk_snprintf(buf + n, size - n, "\n");
+ return n;
+}
+#endif
+
+/* This function is intended for power on reset of all cores.
+ * No locking is done for the list iteration, which can only be safe if the
+ * scheduler is paused and all cores idle. That is always the case on init and
+ * power on. */
+void mali_pp_scheduler_reset_all_groups(void)
+{
+ struct mali_group *group, *temp;
+ struct mali_group *groups[MALI_MAX_NUMBER_OF_GROUPS];
+ s32 i = 0;
+
+ if (mali_pp_scheduler_has_virtual_group()) {
+ mali_group_lock(virtual_group);
+ mali_group_reset(virtual_group);
+ mali_group_unlock(virtual_group);
+ }
+
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(&group_list_working));
+ MALI_DEBUG_ASSERT(VIRTUAL_GROUP_WORKING != virtual_group_state);
+ mali_pp_scheduler_lock();
+ _MALI_OSK_LIST_FOREACHENTRY(group, temp, &group_list_idle, struct mali_group, pp_scheduler_list) {
+ groups[i++] = group;
+ }
+ mali_pp_scheduler_unlock();
+
+ while (i > 0) {
+ group = groups[--i];
+
+ mali_group_lock(group);
+ mali_group_reset(group);
+ mali_group_unlock(group);
+ }
+}
+
+void mali_pp_scheduler_zap_all_active(struct mali_session_data *session)
+{
+ struct mali_group *group, *temp;
+ struct mali_group *groups[MALI_MAX_NUMBER_OF_GROUPS];
+ s32 i = 0;
+
+ if (mali_pp_scheduler_has_virtual_group()) {
+ mali_group_zap_session(virtual_group, session);
+ }
+
+ mali_pp_scheduler_lock();
+ _MALI_OSK_LIST_FOREACHENTRY(group, temp, &group_list_working, struct mali_group, pp_scheduler_list) {
+ groups[i++] = group;
+ }
+ mali_pp_scheduler_unlock();
+
+ while (i > 0) {
+ mali_group_zap_session(groups[--i], session);
+ }
+}
+
+/* A pm reference must be taken with _mali_osk_pm_dev_ref_add_no_power_on
+ * before calling this function to avoid Mali powering down as HW is accessed.
+ */
+static void mali_pp_scheduler_enable_group_internal(struct mali_group *group)
+{
+ MALI_DEBUG_ASSERT_POINTER(group);
+
+ mali_group_lock(group);
+
+ if (MALI_GROUP_STATE_DISABLED != group->state) {
+ mali_group_unlock(group);
+ MALI_DEBUG_PRINT(4, ("Mali PP scheduler: PP group %p already enabled.\n", group));
+ return;
+ }
+
+ MALI_DEBUG_PRINT(3, ("Mali PP scheduler: Enabling PP group %p.\n", group));
+
+ mali_pp_scheduler_lock();
+
+ MALI_DEBUG_ASSERT(MALI_GROUP_STATE_DISABLED == group->state);
+ ++enabled_cores;
+
+ if (mali_pp_scheduler_has_virtual_group()) {
+ mali_bool update_hw;
+
+ /* Add group to virtual group. */
+ _mali_osk_list_delinit(&(group->pp_scheduler_list));
+ group->state = MALI_GROUP_STATE_JOINING_VIRTUAL;
+
+ mali_pp_scheduler_unlock();
+ mali_group_unlock(group);
+
+ mali_group_lock(virtual_group);
+
+ update_hw = mali_pm_is_power_on();
+ /* Get ref of group domain */
+ mali_group_get_pm_domain_ref(group);
+
+ MALI_DEBUG_ASSERT(NULL == group->pm_domain ||
+ MALI_PM_DOMAIN_ON == mali_pm_domain_state_get(group->pm_domain));
+
+ if (update_hw) {
+ mali_group_lock(group);
+ mali_group_power_on_group(group);
+ mali_group_reset(group);
+ mali_group_unlock(group);
+ }
+
+ mali_pp_scheduler_enable_empty_virtual();
+ mali_group_add_group(virtual_group, group, update_hw);
+ MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Done enabling group %p. Added to virtual group.\n", group));
+
+ mali_group_unlock(virtual_group);
+ } else {
+ /* Get ref of group domain */
+ mali_group_get_pm_domain_ref(group);
+
+ MALI_DEBUG_ASSERT(NULL == group->pm_domain ||
+ MALI_PM_DOMAIN_ON == mali_pm_domain_state_get(group->pm_domain));
+
+ /* Put group on idle list. */
+ if (mali_pm_is_power_on()) {
+ mali_group_power_on_group(group);
+ mali_group_reset(group);
+ }
+
+ _mali_osk_list_move(&(group->pp_scheduler_list), &group_list_idle);
+ group->state = MALI_GROUP_STATE_IDLE;
+
+ MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Done enabling group %p. Now on idle list.\n", group));
+ mali_pp_scheduler_unlock();
+ mali_group_unlock(group);
+ }
+}
+
+void mali_pp_scheduler_enable_group(struct mali_group *group)
+{
+ MALI_DEBUG_ASSERT_POINTER(group);
+
+ _mali_osk_pm_dev_ref_add_no_power_on();
+
+ mali_pp_scheduler_enable_group_internal(group);
+
+ _mali_osk_pm_dev_ref_dec_no_power_on();
+
+ /* Pick up any jobs that might have been queued if all PP groups were disabled. */
+ mali_pp_scheduler_schedule();
+}
+
+static void mali_pp_scheduler_disable_group_internal(struct mali_group *group)
+{
+ if (mali_pp_scheduler_has_virtual_group()) {
+ mali_group_lock(virtual_group);
+
+ MALI_DEBUG_ASSERT(VIRTUAL_GROUP_WORKING != virtual_group_state);
+ if (MALI_GROUP_STATE_JOINING_VIRTUAL == group->state) {
+ /* The group was in the process of being added to the virtual group. We
+ * only need to change the state to reverse this. */
+ group->state = MALI_GROUP_STATE_LEAVING_VIRTUAL;
+ } else if (MALI_GROUP_STATE_IN_VIRTUAL == group->state) {
+ /* Remove group from virtual group. The state of the group will be
+ * LEAVING_VIRTUAL and the group will not be on any scheduler list. */
+ mali_group_remove_group(virtual_group, group);
+
+ mali_pp_scheduler_disable_empty_virtual();
+ }
+
+ mali_group_unlock(virtual_group);
+ }
+
+ mali_group_lock(group);
+ mali_pp_scheduler_lock();
+
+ MALI_DEBUG_ASSERT( MALI_GROUP_STATE_IDLE == group->state
+ || MALI_GROUP_STATE_LEAVING_VIRTUAL == group->state
+ || MALI_GROUP_STATE_DISABLED == group->state);
+
+ if (MALI_GROUP_STATE_DISABLED == group->state) {
+ MALI_DEBUG_PRINT(4, ("Mali PP scheduler: PP group %p already disabled.\n", group));
+ } else {
+ MALI_DEBUG_PRINT(3, ("Mali PP scheduler: Disabling PP group %p.\n", group));
+
+ --enabled_cores;
+ _mali_osk_list_move(&(group->pp_scheduler_list), &group_list_disabled);
+ group->state = MALI_GROUP_STATE_DISABLED;
+
+ mali_group_power_off_group(group, MALI_TRUE);
+ mali_group_put_pm_domain_ref(group);
+ }
+
+ mali_pp_scheduler_unlock();
+ mali_group_unlock(group);
+}
+
+void mali_pp_scheduler_disable_group(struct mali_group *group)
+{
+ MALI_DEBUG_ASSERT_POINTER(group);
+
+ mali_pp_scheduler_suspend();
+
+ _mali_osk_pm_dev_ref_add_no_power_on();
+
+ mali_pp_scheduler_disable_group_internal(group);
+
+ _mali_osk_pm_dev_ref_dec_no_power_on();
+
+ mali_pp_scheduler_resume();
+}
+
+static void mali_pp_scheduler_notify_core_change(u32 num_cores)
+{
+ mali_bool done = MALI_FALSE;
+
+ if (mali_is_mali450()) {
+ return;
+ }
+
+ /*
+ * This function gets a bit complicated because we can't hold the session lock while
+ * allocating notification objects.
+ */
+
+ while (!done) {
+ u32 i;
+ u32 num_sessions_alloc;
+ u32 num_sessions_with_lock;
+ u32 used_notification_objects = 0;
+ _mali_osk_notification_t **notobjs;
+
+ /* Pre allocate the number of notifications objects we need right now (might change after lock has been taken) */
+ num_sessions_alloc = mali_session_get_count();
+ if (0 == num_sessions_alloc) {
+ /* No sessions to report to */
+ return;
+ }
+
+ notobjs = (_mali_osk_notification_t **)_mali_osk_malloc(sizeof(_mali_osk_notification_t *) * num_sessions_alloc);
+ if (NULL == notobjs) {
+ MALI_PRINT_ERROR(("Failed to notify user space session about num PP core change (alloc failure)\n"));
+ /* there is probably no point in trying again, system must be really low on memory and probably unusable now anyway */
+ return;
+ }
+
+ for (i = 0; i < num_sessions_alloc; i++) {
+ notobjs[i] = _mali_osk_notification_create(_MALI_NOTIFICATION_PP_NUM_CORE_CHANGE, sizeof(_mali_uk_pp_num_cores_changed_s));
+ if (NULL != notobjs[i]) {
+ _mali_uk_pp_num_cores_changed_s *data = notobjs[i]->result_buffer;
+ data->number_of_enabled_cores = num_cores;
+ } else {
+ MALI_PRINT_ERROR(("Failed to notify user space session about num PP core change (alloc failure %u)\n", i));
+ }
+ }
+
+ mali_session_lock();
+
+ /* number of sessions will not change while we hold the lock */
+ num_sessions_with_lock = mali_session_get_count();
+
+ if (num_sessions_alloc >= num_sessions_with_lock) {
+ /* We have allocated enough notification objects for all the sessions atm */
+ struct mali_session_data *session, *tmp;
+ MALI_SESSION_FOREACH(session, tmp, link) {
+ MALI_DEBUG_ASSERT(used_notification_objects < num_sessions_alloc);
+ if (NULL != notobjs[used_notification_objects]) {
+ mali_session_send_notification(session, notobjs[used_notification_objects]);
+ notobjs[used_notification_objects] = NULL; /* Don't track this notification object any more */
+ }
+ used_notification_objects++;
+ }
+ done = MALI_TRUE;
+ }
+
+ mali_session_unlock();
+
+ /* Delete any remaining/unused notification objects */
+ for (; used_notification_objects < num_sessions_alloc; used_notification_objects++) {
+ if (NULL != notobjs[used_notification_objects]) {
+ _mali_osk_notification_delete(notobjs[used_notification_objects]);
+ }
+ }
+
+ _mali_osk_free(notobjs);
+ }
+}
+
+static void mali_pp_scheduler_core_scale_up(unsigned int target_core_nr)
+{
+ MALI_DEBUG_PRINT(2, ("Requesting %d cores: enabling %d cores\n", target_core_nr, target_core_nr - enabled_cores));
+
+ _mali_osk_pm_dev_ref_add_no_power_on();
+ _mali_osk_pm_dev_barrier();
+
+ while (target_core_nr > enabled_cores) {
+ /*
+ * If there are any cores which do not belong to any domain,
+ * then these will always be found at the head of the list and
+ * we'll thus enabled these first.
+ */
+
+ mali_pp_scheduler_lock();
+
+ if (!_mali_osk_list_empty(&group_list_disabled)) {
+ struct mali_group *group;
+
+ group = _MALI_OSK_LIST_ENTRY(group_list_disabled.next, struct mali_group, pp_scheduler_list);
+
+ MALI_DEBUG_ASSERT_POINTER(group);
+ MALI_DEBUG_ASSERT(MALI_GROUP_STATE_DISABLED == group->state);
+
+ mali_pp_scheduler_unlock();
+
+ mali_pp_scheduler_enable_group_internal(group);
+ } else {
+ mali_pp_scheduler_unlock();
+ break; /* no more groups on disabled list */
+ }
+ }
+
+ _mali_osk_pm_dev_ref_dec_no_power_on();
+
+ mali_pp_scheduler_schedule();
+}
+
+static void mali_pp_scheduler_core_scale_down(unsigned int target_core_nr)
+{
+ MALI_DEBUG_PRINT(2, ("Requesting %d cores: disabling %d cores\n", target_core_nr, enabled_cores - target_core_nr));
+
+ mali_pp_scheduler_suspend();
+
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(&group_list_working));
+
+ _mali_osk_pm_dev_ref_add_no_power_on();
+
+ if (NULL != mali_pmu_get_global_pmu_core()) {
+ int i;
+
+ for (i = MALI_MAX_NUMBER_OF_DOMAINS - 1; i >= 0; i--) {
+ if (target_core_nr < enabled_cores) {
+ struct mali_pm_domain *domain;
+
+ domain = mali_pm_domain_get_from_index(i);
+
+ /* Domain is valid and has pp cores */
+ if ((NULL != domain) && (NULL != domain->group_list)) {
+ struct mali_group *group;
+
+ MALI_PM_DOMAIN_FOR_EACH_GROUP(group, domain) {
+ /* If group is pp core */
+ if (NULL != mali_group_get_pp_core(group)) {
+ mali_pp_scheduler_disable_group_internal(group);
+ if (target_core_nr >= enabled_cores) {
+ break;
+ }
+ }
+ }
+ }
+ } else {
+ break;
+ }
+ }
+ }
+
+ /*
+ * Didn't find enough cores associated with a power domain,
+ * so we need to disable cores which we can't power off with the PMU.
+ * Start with physical groups used by the scheduler,
+ * then remove physical from virtual if even more groups are needed.
+ */
+
+ while (target_core_nr < enabled_cores) {
+ mali_pp_scheduler_lock();
+ if (!_mali_osk_list_empty(&group_list_idle)) {
+ struct mali_group *group;
+
+ group = _MALI_OSK_LIST_ENTRY(group_list_idle.next, struct mali_group, pp_scheduler_list);
+ MALI_DEBUG_ASSERT_POINTER(group);
+
+ mali_pp_scheduler_unlock();
+
+ mali_pp_scheduler_disable_group_internal(group);
+ } else {
+ mali_pp_scheduler_unlock();
+ break; /* No more physical groups */
+ }
+ }
+
+ if (mali_pp_scheduler_has_virtual_group()) {
+ while (target_core_nr < enabled_cores) {
+ mali_group_lock(virtual_group);
+ if (!_mali_osk_list_empty(&virtual_group->group_list)) {
+ struct mali_group *group;
+
+ group = _MALI_OSK_LIST_ENTRY(virtual_group->group_list.next, struct mali_group, group_list);
+ MALI_DEBUG_ASSERT_POINTER(group);
+
+ mali_group_unlock(virtual_group);
+
+ mali_pp_scheduler_disable_group_internal(group);
+ } else {
+ mali_group_unlock(virtual_group);
+ break; /* No more physical groups in virtual group */
+ }
+ }
+ }
+
+ _mali_osk_pm_dev_ref_dec_no_power_on();
+
+ mali_pp_scheduler_resume();
+}
+
+int mali_pp_scheduler_set_perf_level(unsigned int target_core_nr, mali_bool override)
+{
+ if (target_core_nr == enabled_cores) return 0;
+ if (MALI_FALSE == core_scaling_enabled && MALI_FALSE == override) return -EPERM;
+ if (target_core_nr > num_cores) return -EINVAL;
+ if (0 == target_core_nr) return -EINVAL;
+
+ if (target_core_nr > enabled_cores) {
+ mali_pp_scheduler_core_scale_up(target_core_nr);
+ } else if (target_core_nr < enabled_cores) {
+ mali_pp_scheduler_core_scale_down(target_core_nr);
+ }
+
+ if (target_core_nr != enabled_cores) {
+ MALI_DEBUG_PRINT(2, ("Core scaling failed, target number: %d, actual number: %d\n", target_core_nr, enabled_cores));
+ }
+
+ mali_pp_scheduler_notify_core_change(enabled_cores);
+
+ return 0;
+}
+
+void mali_pp_scheduler_core_scaling_enable(void)
+{
+ /* PS: Core scaling is by default enabled */
+ core_scaling_enabled = MALI_TRUE;
+}
+
+void mali_pp_scheduler_core_scaling_disable(void)
+{
+ core_scaling_enabled = MALI_FALSE;
+}
+
+mali_bool mali_pp_scheduler_core_scaling_is_enabled(void)
+{
+ return core_scaling_enabled;
+}
+
+static void mali_pp_scheduler_job_queued(void)
+{
+ /* We hold a PM reference for every job we hold queued (and running) */
+ _mali_osk_pm_dev_ref_add();
+
+ if (mali_utilization_enabled()) {
+ /*
+ * We cheat a little bit by counting the PP as busy from the time a PP job is queued.
+ * This will be fine because we only loose the tiny idle gap between jobs, but
+ * we will instead get less utilization work to do (less locks taken)
+ */
+ mali_utilization_pp_start();
+ }
+}
+
+static void mali_pp_scheduler_job_completed(void)
+{
+ /* Release the PM reference we got in the mali_pp_scheduler_job_queued() function */
+ _mali_osk_pm_dev_ref_dec();
+
+ if (mali_utilization_enabled()) {
+ mali_utilization_pp_end();
+ }
+}
+
+static void mali_pp_scheduler_abort_job_and_unlock_scheduler(struct mali_pp_job *job)
+{
+ MALI_DEBUG_ASSERT_POINTER(job);
+ MALI_DEBUG_ASSERT_LOCK_HELD(pp_scheduler_lock);
+
+ /* This job should not be on any lists. */
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(&job->list));
+ MALI_DEBUG_ASSERT(_mali_osk_list_empty(&job->session_list));
+
+ _mali_osk_list_delinit(&job->session_fb_lookup_list);
+
+ mali_pp_scheduler_unlock();
+
+ /* Release tracker. */
+ mali_timeline_tracker_release(&job->tracker);
+}
+
+static mali_scheduler_mask mali_pp_scheduler_queue_job(struct mali_pp_job *job)
+{
+ _mali_osk_list_t *queue = NULL;
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+ struct mali_pp_job *iter, *tmp;
+
+ MALI_DEBUG_ASSERT_POINTER(job);
+ MALI_DEBUG_ASSERT_POINTER(job->session);
+
+#if defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_QUEUE)
+ if (mali_pp_job_needs_dma_buf_mapping(job)) {
+ mali_dma_buf_map_job(job);
+ }
+#endif /* defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_QUEUE) */
+
+ mali_pp_scheduler_lock();
+
+ if (unlikely(job->session->is_aborting)) {
+ /* Before checking if the session is aborting, the scheduler must be locked. */
+ MALI_DEBUG_ASSERT_LOCK_HELD(pp_scheduler_lock);
+
+ MALI_DEBUG_PRINT(2, ("Mali PP scheduler: Job %u (0x%08X) queued while session is aborting.\n", mali_pp_job_get_id(job), job));
+
+ mali_pp_scheduler_abort_job_and_unlock_scheduler(job);
+
+ /* Delete job. */
+#if defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_DELETE)
+ mali_pp_scheduler_deferred_job_delete(job);
+#else
+ mali_pp_job_delete(job);
+#endif /* defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_DELETE) */
+ mali_pp_scheduler_job_completed();
+
+ /* Since we are aborting we ignore the scheduler mask. */
+ return MALI_SCHEDULER_MASK_EMPTY;
+ }
+
+#if defined(CONFIG_GPU_TRACEPOINTS) && defined(CONFIG_TRACEPOINTS)
+ trace_gpu_job_enqueue(mali_pp_job_get_tid(job), mali_pp_job_get_id(job), "PP");
+#endif
+
+ _mali_osk_profiling_add_event(MALI_PROFILING_EVENT_TYPE_SINGLE | MALI_PROFILING_EVENT_CHANNEL_SOFTWARE | MALI_PROFILING_EVENT_REASON_SINGLE_SW_PP_ENQUEUE, job->pid, job->tid, job->uargs.frame_builder_id, job->uargs.flush_id, 0);
+
+ job->cache_order = mali_scheduler_get_new_cache_order();
+
+ /* Determine which queue the job should be added to. */
+ if (mali_pp_job_is_virtual(job)) {
+ if (job->session->use_high_priority_job_queue) {
+ queue = &virtual_job_queue.high_pri;
+ } else {
+ queue = &virtual_job_queue.normal_pri;
+ }
+
+ virtual_job_queue.depth += 1;
+
+ /* Set schedule bitmask if the virtual group is idle. */
+ if (VIRTUAL_GROUP_IDLE == virtual_group_state) {
+ schedule_mask |= MALI_SCHEDULER_MASK_PP;
+ }
+ } else {
+ if (job->session->use_high_priority_job_queue) {
+ queue = &job_queue.high_pri;
+ } else {
+ queue = &job_queue.normal_pri;
+ }
+
+ job_queue.depth += mali_pp_job_get_sub_job_count(job);
+
+ /* Set schedule bitmask if there are physical PP cores available, or if there is an
+ * idle virtual group. */
+ if (!_mali_osk_list_empty(&group_list_idle)
+ || (mali_pp_scheduler_has_virtual_group()
+ && (VIRTUAL_GROUP_IDLE == virtual_group_state))) {
+ schedule_mask |= MALI_SCHEDULER_MASK_PP;
+ }
+ }
+
+ /* Find position in queue where job should be added. */
+ _MALI_OSK_LIST_FOREACHENTRY_REVERSE(iter, tmp, queue, struct mali_pp_job, list) {
+ if (mali_pp_job_should_start_after(job, iter)) {
+ break;
+ }
+ }
+
+ /* Add job to queue. */
+ _mali_osk_list_add(&job->list, &iter->list);
+
+ /* Add job to session list. */
+ _mali_osk_list_addtail(&job->session_list, &(job->session->pp_job_list));
+
+ MALI_DEBUG_PRINT(3, ("Mali PP scheduler: %s job %u (0x%08X) with %u parts queued.\n",
+ mali_pp_job_is_virtual(job) ? "Virtual" : "Physical",
+ mali_pp_job_get_id(job), job, mali_pp_job_get_sub_job_count(job)));
+
+ mali_pp_scheduler_unlock();
+
+ return schedule_mask;
+}
+
+mali_scheduler_mask mali_pp_scheduler_activate_job(struct mali_pp_job *job)
+{
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+
+ MALI_DEBUG_ASSERT_POINTER(job);
+ MALI_DEBUG_ASSERT_POINTER(job->session);
+
+ MALI_DEBUG_PRINT(4, ("Mali PP scheduler: Timeline activation for job %u (0x%08X).\n", mali_pp_job_get_id(job), job));
+
+ if (MALI_TIMELINE_ACTIVATION_ERROR_FATAL_BIT & job->tracker.activation_error) {
+ MALI_DEBUG_PRINT(2, ("Mali PP scheduler: Job %u (0x%08X) activated with error, aborting.\n", mali_pp_job_get_id(job), job));
+
+ mali_pp_scheduler_lock();
+ mali_pp_scheduler_abort_job_and_unlock_scheduler(job);
+
+ mali_pp_job_mark_sub_job_completed(job, MALI_FALSE); /* Flagging the job as failed. */
+ mali_pp_scheduler_finalize_job(job);
+
+ return MALI_SCHEDULER_MASK_EMPTY;
+ }
+
+ /* PP job is ready to run, queue it. */
+
+#if defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_QUEUE)
+ if (mali_pp_job_needs_dma_buf_mapping(job)) {
+ mali_pp_scheduler_deferred_job_queue(job);
+
+ return MALI_SCHEDULER_MASK_EMPTY;
+ }
+#endif /* defined(MALI_PP_SCHEDULER_USE_DEFERRED_JOB_QUEUE) */
+
+ schedule_mask = mali_pp_scheduler_queue_job(job);
+
+ return schedule_mask;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_PP_SCHEDULER_H__
+#define __MALI_PP_SCHEDULER_H__
+
+#include "mali_osk.h"
+#include "mali_pp_job.h"
+#include "mali_group.h"
+#include "linux/mali/mali_utgard.h"
+
+/** Initalize the HW independent parts of the PP scheduler
+ */
+_mali_osk_errcode_t mali_pp_scheduler_initialize(void);
+void mali_pp_scheduler_terminate(void);
+
+/** Poplulate the PP scheduler with groups
+ */
+void mali_pp_scheduler_populate(void);
+void mali_pp_scheduler_depopulate(void);
+
+/**
+ * @brief Handle job completion.
+ *
+ * Will attempt to start a new job on the locked group.
+ *
+ * If all sub jobs have completed the job's tracker will be released, any other resources associated
+ * with the job will be freed. A notification will also be sent to user space.
+ *
+ * Releasing the tracker might activate other jobs, so if appropriate we also schedule them.
+ *
+ * @note Group must be locked when entering this function. Will be unlocked before exiting.
+ *
+ * @param group The group that completed the job.
+ * @param job The job that is done.
+ * @param sub_job Sub job of job.
+ * @param success MALI_TRUE if job completed successfully, MALI_FALSE if not.
+ * @param in_upper_half MALI_TRUE if called from upper half, MALI_FALSE if not.
+ */
+void mali_pp_scheduler_job_done(struct mali_group *group, struct mali_pp_job *job, u32 sub_job, mali_bool success, mali_bool in_upper_half);
+
+void mali_pp_scheduler_suspend(void);
+void mali_pp_scheduler_resume(void);
+
+/**
+ * @brief Abort all running and queued PP jobs from session.
+ *
+ * This functions aborts all PP jobs from the specified session. Queued jobs are removed from the
+ * queue and jobs currently running on a core will be aborted.
+ *
+ * @param session Session that is aborting.
+ */
+void mali_pp_scheduler_abort_session(struct mali_session_data *session);
+
+/**
+ * @brief Reset all groups
+ *
+ * This function resets all groups known by the PP scheuduler. This must be
+ * called after the Mali HW has been powered on in order to reset the HW.
+ *
+ * This function is intended for power on reset of all cores.
+ * No locking is done, which can only be safe if the scheduler is paused and
+ * all cores idle. That is always the case on init and power on.
+ */
+void mali_pp_scheduler_reset_all_groups(void);
+
+/**
+ * @brief Zap TLB on all groups with \a session active
+ *
+ * The scheculer will zap the session on all groups it owns.
+ */
+void mali_pp_scheduler_zap_all_active(struct mali_session_data *session);
+
+/**
+ * @brief Get the virtual PP core
+ *
+ * The returned PP core may only be used to prepare DMA command buffers for the
+ * PP core. Other actions must go through the PP scheduler, or the virtual
+ * group.
+ *
+ * @return Pointer to the virtual PP core, NULL if this doesn't exist
+ */
+struct mali_pp_core *mali_pp_scheduler_get_virtual_pp(void);
+
+u32 mali_pp_scheduler_dump_state(char *buf, u32 size);
+
+void mali_pp_scheduler_enable_group(struct mali_group *group);
+void mali_pp_scheduler_disable_group(struct mali_group *group);
+
+/**
+ * @brief Used by the Timeline system to queue a PP job.
+ *
+ * @note @ref mali_scheduler_schedule_from_mask() should be called if this function returns non-zero.
+ *
+ * @param job The PP job that is being activated.
+ *
+ * @return A scheduling bitmask that can be used to decide if scheduling is necessary after this
+ * call.
+ */
+mali_scheduler_mask mali_pp_scheduler_activate_job(struct mali_pp_job *job);
+
+/**
+ * @brief Schedule queued jobs on idle cores.
+ */
+void mali_pp_scheduler_schedule(void);
+
+int mali_pp_scheduler_set_perf_level(u32 cores, mali_bool override);
+
+void mali_pp_scheduler_core_scaling_enable(void);
+void mali_pp_scheduler_core_scaling_disable(void);
+mali_bool mali_pp_scheduler_core_scaling_is_enabled(void);
+
+u32 mali_pp_scheduler_get_num_cores_total(void);
+u32 mali_pp_scheduler_get_num_cores_enabled(void);
+
+/**
+ * @brief Returns the number of Pixel Processors in the system irrespective of the context
+ *
+ * @return number of physical Pixel Processor cores in the system
+ */
+u32 mali_pp_scheduler_get_num_cores_total(void);
+
+#endif /* __MALI_PP_SCHEDULER_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_scheduler.h"
+
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+
+mali_bool mali_scheduler_hints[MALI_SCHEDULER_HINT_MAX];
+
+static _mali_osk_atomic_t mali_job_id_autonumber;
+static _mali_osk_atomic_t mali_job_cache_order_autonumber;
+
+static _mali_osk_wq_work_t *pp_scheduler_wq_high_pri = NULL;
+static _mali_osk_wq_work_t *gp_scheduler_wq_high_pri = NULL;
+
+static void mali_scheduler_wq_schedule_pp(void *arg)
+{
+ MALI_IGNORE(arg);
+
+ mali_pp_scheduler_schedule();
+}
+
+static void mali_scheduler_wq_schedule_gp(void *arg)
+{
+ MALI_IGNORE(arg);
+
+ mali_gp_scheduler_schedule();
+}
+
+_mali_osk_errcode_t mali_scheduler_initialize(void)
+{
+ if ( _MALI_OSK_ERR_OK != _mali_osk_atomic_init(&mali_job_id_autonumber, 0)) {
+ MALI_DEBUG_PRINT(1, ("Initialization of atomic job id counter failed.\n"));
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ if ( _MALI_OSK_ERR_OK != _mali_osk_atomic_init(&mali_job_cache_order_autonumber, 0)) {
+ MALI_DEBUG_PRINT(1, ("Initialization of atomic job cache order counter failed.\n"));
+ _mali_osk_atomic_term(&mali_job_id_autonumber);
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ pp_scheduler_wq_high_pri = _mali_osk_wq_create_work_high_pri(mali_scheduler_wq_schedule_pp, NULL);
+ if (NULL == pp_scheduler_wq_high_pri) {
+ _mali_osk_atomic_term(&mali_job_cache_order_autonumber);
+ _mali_osk_atomic_term(&mali_job_id_autonumber);
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ gp_scheduler_wq_high_pri = _mali_osk_wq_create_work_high_pri(mali_scheduler_wq_schedule_gp, NULL);
+ if (NULL == gp_scheduler_wq_high_pri) {
+ _mali_osk_wq_delete_work(pp_scheduler_wq_high_pri);
+ _mali_osk_atomic_term(&mali_job_cache_order_autonumber);
+ _mali_osk_atomic_term(&mali_job_id_autonumber);
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ return _MALI_OSK_ERR_OK;
+}
+
+void mali_scheduler_terminate(void)
+{
+ _mali_osk_wq_delete_work(gp_scheduler_wq_high_pri);
+ _mali_osk_wq_delete_work(pp_scheduler_wq_high_pri);
+ _mali_osk_atomic_term(&mali_job_cache_order_autonumber);
+ _mali_osk_atomic_term(&mali_job_id_autonumber);
+}
+
+u32 mali_scheduler_get_new_id(void)
+{
+ u32 job_id = _mali_osk_atomic_inc_return(&mali_job_id_autonumber);
+ return job_id;
+}
+
+u32 mali_scheduler_get_new_cache_order(void)
+{
+ u32 job_cache_order = _mali_osk_atomic_inc_return(&mali_job_cache_order_autonumber);
+ return job_cache_order;
+}
+
+void mali_scheduler_schedule_from_mask(mali_scheduler_mask mask, mali_bool deferred_schedule)
+{
+ if (MALI_SCHEDULER_MASK_GP & mask) {
+ /* GP needs scheduling. */
+ if (deferred_schedule) {
+ /* Schedule GP deferred. */
+ _mali_osk_wq_schedule_work_high_pri(gp_scheduler_wq_high_pri);
+ } else {
+ /* Schedule GP now. */
+ mali_gp_scheduler_schedule();
+ }
+ }
+
+ if (MALI_SCHEDULER_MASK_PP & mask) {
+ /* PP needs scheduling. */
+ if (deferred_schedule) {
+ /* Schedule PP deferred. */
+ _mali_osk_wq_schedule_work_high_pri(pp_scheduler_wq_high_pri);
+ } else {
+ /* Schedule PP now. */
+ mali_pp_scheduler_schedule();
+ }
+ }
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_SCHEDULER_H__
+#define __MALI_SCHEDULER_H__
+
+#include "mali_osk.h"
+#include "mali_scheduler_types.h"
+#include "mali_gp_scheduler.h"
+#include "mali_pp_scheduler.h"
+
+_mali_osk_errcode_t mali_scheduler_initialize(void);
+void mali_scheduler_terminate(void);
+
+u32 mali_scheduler_get_new_id(void);
+u32 mali_scheduler_get_new_cache_order(void);
+
+/**
+ * @brief Reset all groups
+ *
+ * This function resets all groups known by the both the PP and GP scheuduler.
+ * This must be called after the Mali HW has been powered on in order to reset
+ * the HW.
+ */
+MALI_STATIC_INLINE void mali_scheduler_reset_all_groups(void)
+{
+ mali_gp_scheduler_reset_all_groups();
+ mali_pp_scheduler_reset_all_groups();
+}
+
+/**
+ * @brief Zap TLB on all active groups running \a session
+ *
+ * @param session Pointer to the session to zap
+ */
+MALI_STATIC_INLINE void mali_scheduler_zap_all_active(struct mali_session_data *session)
+{
+ mali_gp_scheduler_zap_all_active(session);
+ mali_pp_scheduler_zap_all_active(session);
+}
+
+/**
+ * Check if bit is set in scheduler mask.
+ *
+ * @param mask Scheduler mask to check.
+ * @param bit Bit to check.
+ * @return MALI_TRUE if bit is set in scheduler mask, MALI_FALSE if not.
+ */
+MALI_STATIC_INLINE mali_bool mali_scheduler_mask_is_set(mali_scheduler_mask mask, mali_scheduler_mask bit)
+{
+ return MALI_SCHEDULER_MASK_EMPTY != (bit & mask);
+}
+
+/**
+ * Schedule GP and PP according to bitmask.
+ *
+ * @param mask A scheduling bitmask.
+ * @param deferred_schedule MALI_TRUE if schedule should be deferred, MALI_FALSE if not.
+ */
+void mali_scheduler_schedule_from_mask(mali_scheduler_mask mask, mali_bool deferred_schedule);
+
+/* Enable or disable scheduler hint. */
+extern mali_bool mali_scheduler_hints[MALI_SCHEDULER_HINT_MAX];
+
+MALI_STATIC_INLINE void mali_scheduler_hint_enable(mali_scheduler_hint hint)
+{
+ MALI_DEBUG_ASSERT(hint < MALI_SCHEDULER_HINT_MAX);
+ mali_scheduler_hints[hint] = MALI_TRUE;
+}
+
+MALI_STATIC_INLINE void mali_scheduler_hint_disable(mali_scheduler_hint hint)
+{
+ MALI_DEBUG_ASSERT(hint < MALI_SCHEDULER_HINT_MAX);
+ mali_scheduler_hints[hint] = MALI_FALSE;
+}
+
+MALI_STATIC_INLINE mali_bool mali_scheduler_hint_is_enabled(mali_scheduler_hint hint)
+{
+ MALI_DEBUG_ASSERT(hint < MALI_SCHEDULER_HINT_MAX);
+ return mali_scheduler_hints[hint];
+}
+
+#endif /* __MALI_SCHEDULER_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_SCHEDULER_TYPES_H__
+#define __MALI_SCHEDULER_TYPES_H__
+
+#include "mali_osk.h"
+
+#define MALI_SCHEDULER_JOB_ID_SPAN 65535
+
+/**
+ * Bitmask used for defered scheduling of subsystems.
+ */
+typedef u32 mali_scheduler_mask;
+
+#define MALI_SCHEDULER_MASK_GP (1<<0)
+#define MALI_SCHEDULER_MASK_PP (1<<1)
+
+#define MALI_SCHEDULER_MASK_EMPTY 0
+#define MALI_SCHEDULER_MASK_ALL (MALI_SCHEDULER_MASK_GP | MALI_SCHEDULER_MASK_PP)
+
+typedef enum {
+ MALI_SCHEDULER_HINT_GP_BOUND = 0
+#define MALI_SCHEDULER_HINT_MAX 1
+} mali_scheduler_hint;
+
+#endif /* __MALI_SCHEDULER_TYPES_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_osk.h"
+#include "mali_osk_list.h"
+#include "mali_session.h"
+
+_MALI_OSK_LIST_HEAD(mali_sessions);
+static u32 mali_session_count = 0;
+
+_mali_osk_spinlock_irq_t *mali_sessions_lock;
+
+_mali_osk_errcode_t mali_session_initialize(void)
+{
+ _MALI_OSK_INIT_LIST_HEAD(&mali_sessions);
+
+ mali_sessions_lock = _mali_osk_spinlock_irq_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_SESSIONS);
+
+ if (NULL == mali_sessions_lock) return _MALI_OSK_ERR_NOMEM;
+
+ return _MALI_OSK_ERR_OK;
+}
+
+void mali_session_terminate(void)
+{
+ _mali_osk_spinlock_irq_term(mali_sessions_lock);
+}
+
+void mali_session_add(struct mali_session_data *session)
+{
+ mali_session_lock();
+ _mali_osk_list_add(&session->link, &mali_sessions);
+ mali_session_count++;
+ mali_session_unlock();
+}
+
+void mali_session_remove(struct mali_session_data *session)
+{
+ mali_session_lock();
+ _mali_osk_list_delinit(&session->link);
+ mali_session_count--;
+ mali_session_unlock();
+}
+
+u32 mali_session_get_count(void)
+{
+ return mali_session_count;
+}
+
+/*
+ * Get the max completed window jobs from all active session,
+ * which will be used in window render frame per sec calculate
+ */
+#if defined(CONFIG_MALI400_POWER_PERFORMANCE_POLICY)
+u32 mali_session_max_window_num(void)
+{
+ struct mali_session_data *session, *tmp;
+ u32 max_window_num = 0;
+ u32 tmp_number = 0;
+
+ mali_session_lock();
+
+ MALI_SESSION_FOREACH(session, tmp, link) {
+ tmp_number = _mali_osk_atomic_xchg(&session->number_of_window_jobs, 0);
+ if (max_window_num < tmp_number) {
+ max_window_num = tmp_number;
+ }
+ }
+
+ mali_session_unlock();
+
+ return max_window_num;
+}
+#endif
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_SESSION_H__
+#define __MALI_SESSION_H__
+
+#include "mali_mmu_page_directory.h"
+#include "mali_kernel_descriptor_mapping.h"
+#include "mali_osk.h"
+#include "mali_osk_list.h"
+
+struct mali_timeline_system;
+struct mali_soft_system;
+
+/* Number of frame builder job lists per session. */
+#define MALI_PP_JOB_FB_LOOKUP_LIST_SIZE 16
+#define MALI_PP_JOB_FB_LOOKUP_LIST_MASK (MALI_PP_JOB_FB_LOOKUP_LIST_SIZE - 1)
+
+struct mali_session_data {
+ _mali_osk_notification_queue_t * ioctl_queue;
+
+ _mali_osk_mutex_t *memory_lock; /**< Lock protecting the vm manipulation */
+ mali_descriptor_mapping * descriptor_mapping; /**< Mapping between userspace descriptors and our pointers */
+ _mali_osk_list_t memory_head; /**< Track all the memory allocated in this session, for freeing on abnormal termination */
+
+ struct mali_page_directory *page_directory; /**< MMU page directory for this session */
+
+ _MALI_OSK_LIST_HEAD(link); /**< Link for list of all sessions */
+ _MALI_OSK_LIST_HEAD(pp_job_list); /**< List of all PP jobs on this session */
+
+#if defined(CONFIG_MALI400_POWER_PERFORMANCE_POLICY)
+ _mali_osk_atomic_t number_of_window_jobs; /**< Record the window jobs completed on this session in a period */
+#endif
+
+ _mali_osk_list_t pp_job_fb_lookup_list[MALI_PP_JOB_FB_LOOKUP_LIST_SIZE]; /**< List of PP job lists per frame builder id. Used to link jobs from same frame builder. */
+
+ struct mali_soft_job_system *soft_job_system; /**< Soft job system for this session. */
+ struct mali_timeline_system *timeline_system; /**< Timeline system for this session. */
+
+ mali_bool is_aborting; /**< MALI_TRUE if the session is aborting, MALI_FALSE if not. */
+ mali_bool use_high_priority_job_queue; /**< If MALI_TRUE, jobs added from this session will use the high priority job queues. */
+};
+
+_mali_osk_errcode_t mali_session_initialize(void);
+void mali_session_terminate(void);
+
+/* List of all sessions. Actual list head in mali_kernel_core.c */
+extern _mali_osk_list_t mali_sessions;
+/* Lock to protect modification and access to the mali_sessions list */
+extern _mali_osk_spinlock_irq_t *mali_sessions_lock;
+
+MALI_STATIC_INLINE void mali_session_lock(void)
+{
+ _mali_osk_spinlock_irq_lock(mali_sessions_lock);
+}
+
+MALI_STATIC_INLINE void mali_session_unlock(void)
+{
+ _mali_osk_spinlock_irq_unlock(mali_sessions_lock);
+}
+
+void mali_session_add(struct mali_session_data *session);
+void mali_session_remove(struct mali_session_data *session);
+u32 mali_session_get_count(void);
+
+#define MALI_SESSION_FOREACH(session, tmp, link) \
+ _MALI_OSK_LIST_FOREACHENTRY(session, tmp, &mali_sessions, struct mali_session_data, link)
+
+MALI_STATIC_INLINE struct mali_page_directory *mali_session_get_page_directory(struct mali_session_data *session)
+{
+ return session->page_directory;
+}
+
+MALI_STATIC_INLINE void mali_session_send_notification(struct mali_session_data *session, _mali_osk_notification_t *object)
+{
+ _mali_osk_notification_queue_send(session->ioctl_queue, object);
+}
+
+/*
+ * Get the max completed window jobs from all active session,
+ * which will be used in window render frame per sec calculate
+ */
+#if defined(CONFIG_MALI400_POWER_PERFORMANCE_POLICY)
+u32 mali_session_max_window_num(void);
+#endif
+
+#endif /* __MALI_SESSION_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_soft_job.h"
+#include "mali_osk.h"
+#include "mali_osk_mali.h"
+#include "mali_timeline.h"
+#include "mali_session.h"
+#include "mali_kernel_common.h"
+#include "mali_uk_types.h"
+#include "mali_scheduler.h"
+
+MALI_STATIC_INLINE void mali_soft_job_system_lock(struct mali_soft_job_system *system)
+{
+ MALI_DEBUG_ASSERT_POINTER(system);
+ _mali_osk_spinlock_irq_lock(system->lock);
+ MALI_DEBUG_PRINT(5, ("Mali Soft Job: soft system %p lock taken\n", system));
+ MALI_DEBUG_ASSERT(0 == system->lock_owner);
+ MALI_DEBUG_CODE(system->lock_owner = _mali_osk_get_tid());
+}
+
+MALI_STATIC_INLINE void mali_soft_job_system_unlock(struct mali_soft_job_system *system)
+{
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_PRINT(5, ("Mali Soft Job: releasing soft system %p lock\n", system));
+ MALI_DEBUG_ASSERT(_mali_osk_get_tid() == system->lock_owner);
+ MALI_DEBUG_CODE(system->lock_owner = 0);
+ _mali_osk_spinlock_irq_unlock(system->lock);
+}
+
+#if defined(DEBUG)
+MALI_STATIC_INLINE void mali_soft_job_system_assert_locked(struct mali_soft_job_system *system)
+{
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT(_mali_osk_get_tid() == system->lock_owner);
+}
+#define MALI_ASSERT_SOFT_JOB_SYSTEM_LOCKED(system) mali_soft_job_system_assert_locked(system)
+#else
+#define MALI_ASSERT_SOFT_JOB_SYSTEM_LOCKED(system)
+#endif /* defined(DEBUG) */
+
+struct mali_soft_job_system *mali_soft_job_system_create(struct mali_session_data *session)
+{
+ u32 i;
+ struct mali_soft_job_system *system;
+ struct mali_soft_job *job;
+
+ MALI_DEBUG_ASSERT_POINTER(session);
+
+ system = (struct mali_soft_job_system *) _mali_osk_calloc(1, sizeof(struct mali_soft_job_system));
+ if (NULL == system) {
+ return NULL;
+ }
+
+ system->session = session;
+
+ system->lock = _mali_osk_spinlock_irq_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_SCHEDULER);
+ if (NULL == system->lock) {
+ mali_soft_job_system_destroy(system);
+ return NULL;
+ }
+ system->lock_owner = 0;
+
+ _MALI_OSK_INIT_LIST_HEAD(&(system->jobs_free));
+ _MALI_OSK_INIT_LIST_HEAD(&(system->jobs_used));
+
+ for (i = 0; i < MALI_MAX_NUM_SOFT_JOBS; ++i) {
+ job = &(system->jobs[i]);
+ _mali_osk_list_add(&(job->system_list), &(system->jobs_free));
+ job->system = system;
+ job->state = MALI_SOFT_JOB_STATE_FREE;
+ job->id = i;
+ }
+
+ return system;
+}
+
+void mali_soft_job_system_destroy(struct mali_soft_job_system *system)
+{
+ MALI_DEBUG_ASSERT_POINTER(system);
+
+ /* All jobs should be free at this point. */
+ MALI_DEBUG_CODE( {
+ u32 i;
+ struct mali_soft_job *job;
+
+ for (i = 0; i < MALI_MAX_NUM_SOFT_JOBS; ++i)
+ {
+ job = &(system->jobs[i]);
+ MALI_DEBUG_ASSERT(MALI_SOFT_JOB_STATE_FREE == job->state);
+ }
+ });
+
+ if (NULL != system) {
+ if (NULL != system->lock) {
+ _mali_osk_spinlock_irq_term(system->lock);
+ }
+ _mali_osk_free(system);
+ }
+}
+
+static struct mali_soft_job *mali_soft_job_system_alloc_job(struct mali_soft_job_system *system)
+{
+ struct mali_soft_job *job;
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_ASSERT_SOFT_JOB_SYSTEM_LOCKED(system);
+
+ if (_mali_osk_list_empty(&(system->jobs_free))) {
+ /* No jobs available. */
+ return NULL;
+ }
+
+ /* Grab first job and move it to the used list. */
+ job = _MALI_OSK_LIST_ENTRY(system->jobs_free.next, struct mali_soft_job, system_list);
+ MALI_DEBUG_ASSERT(MALI_SOFT_JOB_STATE_FREE == job->state);
+
+ _mali_osk_list_move(&(job->system_list), &(system->jobs_used));
+ job->state = MALI_SOFT_JOB_STATE_ALLOCATED;
+
+ MALI_DEBUG_ASSERT(MALI_SOFT_JOB_INVALID_ID != job->id);
+ MALI_DEBUG_ASSERT(system == job->system);
+
+ return job;
+}
+
+static void mali_soft_job_system_free_job(struct mali_soft_job_system *system, struct mali_soft_job *job)
+{
+ MALI_DEBUG_ASSERT_POINTER(job);
+ MALI_DEBUG_ASSERT_POINTER(system);
+
+ mali_soft_job_system_lock(job->system);
+
+ MALI_DEBUG_ASSERT(MALI_SOFT_JOB_STATE_FREE != job->state);
+ MALI_DEBUG_ASSERT(MALI_SOFT_JOB_INVALID_ID != job->id);
+ MALI_DEBUG_ASSERT(system == job->system);
+
+ job->state = MALI_SOFT_JOB_STATE_FREE;
+ _mali_osk_list_move(&(job->system_list), &(system->jobs_free));
+
+ mali_soft_job_system_unlock(job->system);
+}
+
+MALI_STATIC_INLINE struct mali_soft_job *mali_soft_job_system_lookup_job(struct mali_soft_job_system *system, u32 job_id)
+{
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_ASSERT_SOFT_JOB_SYSTEM_LOCKED(system);
+
+ if (job_id < MALI_MAX_NUM_SOFT_JOBS) {
+ return &system->jobs[job_id];
+ }
+
+ return NULL;
+}
+
+void mali_soft_job_destroy(struct mali_soft_job *job)
+{
+ MALI_DEBUG_ASSERT_POINTER(job);
+ MALI_DEBUG_ASSERT_POINTER(job->system);
+
+ MALI_DEBUG_PRINT(4, ("Mali Soft Job: destroying soft job %u (0x%08X)\n", job->id, job));
+
+ if (NULL != job) {
+ if (0 < _mali_osk_atomic_dec_return(&job->refcount)) return;
+
+ _mali_osk_atomic_term(&job->refcount);
+
+ if (NULL != job->activated_notification) {
+ _mali_osk_notification_delete(job->activated_notification);
+ job->activated_notification = NULL;
+ }
+
+ mali_soft_job_system_free_job(job->system, job);
+ }
+}
+
+struct mali_soft_job *mali_soft_job_create(struct mali_soft_job_system *system, mali_soft_job_type type, u32 user_job)
+{
+ struct mali_soft_job *job;
+ _mali_osk_notification_t *notification = NULL;
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT(MALI_SOFT_JOB_TYPE_USER_SIGNALED >= type);
+
+ if (MALI_SOFT_JOB_TYPE_USER_SIGNALED == type) {
+ notification = _mali_osk_notification_create(_MALI_NOTIFICATION_SOFT_ACTIVATED, sizeof(_mali_uk_soft_job_activated_s));
+ if (unlikely(NULL == notification)) {
+ MALI_PRINT_ERROR(("Mali Soft Job: failed to allocate notification"));
+ return NULL;
+ }
+ }
+
+ mali_soft_job_system_lock(system);
+
+ job = mali_soft_job_system_alloc_job(system);
+ if (NULL == job) {
+ mali_soft_job_system_unlock(system);
+ MALI_PRINT_ERROR(("Mali Soft Job: failed to allocate job"));
+ _mali_osk_notification_delete(notification);
+ return NULL;
+ }
+
+ job->type = type;
+ job->user_job = user_job;
+ job->activated = MALI_FALSE;
+
+ if (MALI_SOFT_JOB_TYPE_USER_SIGNALED == type) {
+ job->activated_notification = notification;
+ }
+
+ _mali_osk_atomic_init(&job->refcount, 1);
+
+ MALI_DEBUG_ASSERT(MALI_SOFT_JOB_STATE_ALLOCATED == job->state);
+ MALI_DEBUG_ASSERT(system == job->system);
+ MALI_DEBUG_ASSERT(MALI_SOFT_JOB_INVALID_ID != job->id);
+
+ mali_soft_job_system_unlock(system);
+
+ return job;
+}
+
+mali_timeline_point mali_soft_job_start(struct mali_soft_job *job, struct mali_timeline_fence *fence)
+{
+ mali_timeline_point point;
+ struct mali_soft_job_system *system;
+
+ MALI_DEBUG_ASSERT_POINTER(job);
+ MALI_DEBUG_ASSERT_POINTER(fence);
+
+ MALI_DEBUG_ASSERT_POINTER(job->system);
+ system = job->system;
+
+ MALI_DEBUG_ASSERT_POINTER(system->session);
+ MALI_DEBUG_ASSERT_POINTER(system->session->timeline_system);
+
+ mali_soft_job_system_lock(system);
+
+ MALI_DEBUG_ASSERT(MALI_SOFT_JOB_STATE_ALLOCATED == job->state);
+ job->state = MALI_SOFT_JOB_STATE_STARTED;
+
+ mali_soft_job_system_unlock(system);
+
+ MALI_DEBUG_PRINT(4, ("Mali Soft Job: starting soft job %u (0x%08X)\n", job->id, job));
+
+ mali_timeline_tracker_init(&job->tracker, MALI_TIMELINE_TRACKER_SOFT, fence, job);
+ point = mali_timeline_system_add_tracker(system->session->timeline_system, &job->tracker, MALI_TIMELINE_SOFT);
+
+ return point;
+}
+
+static mali_bool mali_soft_job_is_activated(void *data)
+{
+ struct mali_soft_job *job;
+
+ job = (struct mali_soft_job *) data;
+ MALI_DEBUG_ASSERT_POINTER(job);
+
+ return job->activated;
+}
+
+_mali_osk_errcode_t mali_soft_job_system_signal_job(struct mali_soft_job_system *system, u32 job_id)
+{
+ struct mali_soft_job *job;
+ struct mali_timeline_system *timeline_system;
+ mali_scheduler_mask schedule_mask;
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+
+ mali_soft_job_system_lock(system);
+
+ job = mali_soft_job_system_lookup_job(system, job_id);
+
+ if (NULL == job || !(MALI_SOFT_JOB_STATE_STARTED == job->state || MALI_SOFT_JOB_STATE_TIMED_OUT == job->state)) {
+ mali_soft_job_system_unlock(system);
+ MALI_PRINT_ERROR(("Mali Soft Job: invalid soft job id %u", job_id));
+ return _MALI_OSK_ERR_ITEM_NOT_FOUND;
+ }
+
+ if (MALI_SOFT_JOB_STATE_TIMED_OUT == job->state) {
+ job->state = MALI_SOFT_JOB_STATE_SIGNALED;
+ mali_soft_job_system_unlock(system);
+
+ MALI_DEBUG_ASSERT(MALI_TRUE == job->activated);
+ MALI_DEBUG_PRINT(4, ("Mali Soft Job: soft job %u (0x%08X) was timed out\n", job->id, job));
+ mali_soft_job_destroy(job);
+
+ return _MALI_OSK_ERR_TIMEOUT;
+ }
+
+ MALI_DEBUG_ASSERT(MALI_SOFT_JOB_STATE_STARTED == job->state);
+
+ job->state = MALI_SOFT_JOB_STATE_SIGNALED;
+ mali_soft_job_system_unlock(system);
+
+ /* Since the job now is in signaled state, timeouts from the timeline system will be
+ * ignored, and it is not possible to signal this job again. */
+
+ timeline_system = system->session->timeline_system;
+ MALI_DEBUG_ASSERT_POINTER(timeline_system);
+
+ /* Wait until activated. */
+ _mali_osk_wait_queue_wait_event(timeline_system->wait_queue, mali_soft_job_is_activated, (void *) job);
+
+ MALI_DEBUG_PRINT(4, ("Mali Soft Job: signaling soft job %u (0x%08X)\n", job->id, job));
+
+ schedule_mask = mali_timeline_tracker_release(&job->tracker);
+ mali_scheduler_schedule_from_mask(schedule_mask, MALI_FALSE);
+
+ mali_soft_job_destroy(job);
+
+ return _MALI_OSK_ERR_OK;
+}
+
+static void mali_soft_job_send_activated_notification(struct mali_soft_job *job)
+{
+ if (NULL != job->activated_notification) {
+ _mali_uk_soft_job_activated_s *res = job->activated_notification->result_buffer;
+ res->user_job = job->user_job;
+ mali_session_send_notification(job->system->session, job->activated_notification);
+ }
+ job->activated_notification = NULL;
+}
+
+void mali_soft_job_system_activate_job(struct mali_soft_job *job)
+{
+ MALI_DEBUG_ASSERT_POINTER(job);
+ MALI_DEBUG_ASSERT_POINTER(job->system);
+ MALI_DEBUG_ASSERT_POINTER(job->system->session);
+
+ MALI_DEBUG_PRINT(4, ("Mali Soft Job: Timeline activation for soft job %u (0x%08X).\n", job->id, job));
+
+ mali_soft_job_system_lock(job->system);
+
+ if (unlikely(job->system->session->is_aborting)) {
+ MALI_DEBUG_PRINT(3, ("Mali Soft Job: Soft job %u (0x%08X) activated while session is aborting.\n", job->id, job));
+
+ mali_soft_job_system_unlock(job->system);
+
+ /* Since we are in shutdown, we can ignore the scheduling bitmask. */
+ mali_timeline_tracker_release(&job->tracker);
+ mali_soft_job_destroy(job);
+ return;
+ }
+
+ /* Send activated notification. */
+ mali_soft_job_send_activated_notification(job);
+
+ /* Wake up sleeping signaler. */
+ job->activated = MALI_TRUE;
+ _mali_osk_wait_queue_wake_up(job->tracker.system->wait_queue);
+
+ mali_soft_job_system_unlock(job->system);
+}
+
+mali_scheduler_mask mali_soft_job_system_timeout_job(struct mali_soft_job *job)
+{
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+
+ MALI_DEBUG_ASSERT_POINTER(job);
+ MALI_DEBUG_ASSERT_POINTER(job->system);
+ MALI_DEBUG_ASSERT_POINTER(job->system->session);
+ MALI_DEBUG_ASSERT(MALI_TRUE == job->activated);
+
+ MALI_DEBUG_PRINT(4, ("Mali Soft Job: Timeline timeout for soft job %u (0x%08X).\n", job->id, job));
+
+ mali_soft_job_system_lock(job->system);
+
+ MALI_DEBUG_ASSERT(MALI_SOFT_JOB_STATE_STARTED == job->state ||
+ MALI_SOFT_JOB_STATE_SIGNALED == job->state);
+
+ if (unlikely(job->system->session->is_aborting)) {
+ /* The session is aborting. This job will be released and destroyed by @ref
+ * mali_soft_job_system_abort(). */
+ mali_soft_job_system_unlock(job->system);
+
+ return MALI_SCHEDULER_MASK_EMPTY;
+ }
+
+ if (MALI_SOFT_JOB_STATE_STARTED != job->state) {
+ MALI_DEBUG_ASSERT(MALI_SOFT_JOB_STATE_SIGNALED == job->state);
+
+ /* The job is about to be signaled, ignore timeout. */
+ MALI_DEBUG_PRINT(4, ("Mali Soft Job: Timeout on soft job %u (0x%08X) in signaled state.\n", job->id, job));
+ mali_soft_job_system_unlock(job->system);
+ return schedule_mask;
+ }
+
+ MALI_DEBUG_ASSERT(MALI_SOFT_JOB_STATE_STARTED == job->state);
+
+ job->state = MALI_SOFT_JOB_STATE_TIMED_OUT;
+ _mali_osk_atomic_inc(&job->refcount);
+
+ mali_soft_job_system_unlock(job->system);
+
+ schedule_mask = mali_timeline_tracker_release(&job->tracker);
+
+ mali_soft_job_destroy(job);
+
+ return schedule_mask;
+}
+
+void mali_soft_job_system_abort(struct mali_soft_job_system *system)
+{
+ u32 i;
+ struct mali_soft_job *job, *tmp;
+ _MALI_OSK_LIST_HEAD_STATIC_INIT(jobs);
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT_POINTER(system->session);
+ MALI_DEBUG_ASSERT(system->session->is_aborting);
+
+ MALI_DEBUG_PRINT(3, ("Mali Soft Job: Aborting soft job system for session 0x%08X.\n", system->session));
+
+ mali_soft_job_system_lock(system);
+
+ for (i = 0; i < MALI_MAX_NUM_SOFT_JOBS; ++i) {
+ job = &(system->jobs[i]);
+
+ MALI_DEBUG_ASSERT(MALI_SOFT_JOB_STATE_FREE == job->state ||
+ MALI_SOFT_JOB_STATE_STARTED == job->state ||
+ MALI_SOFT_JOB_STATE_TIMED_OUT == job->state);
+
+ if (MALI_SOFT_JOB_STATE_STARTED == job->state) {
+ /* If the job has been activated, we have to release the tracker and destroy
+ * the job. If not, the tracker will be released and the job destroyed when
+ * it is activated. */
+ if (MALI_TRUE == job->activated) {
+ MALI_DEBUG_PRINT(3, ("Mali Soft Job: Aborting unsignaled soft job %u (0x%08X).\n", job->id, job));
+
+ job->state = MALI_SOFT_JOB_STATE_SIGNALED;
+ _mali_osk_list_move(&job->system_list, &jobs);
+ }
+ } else if (MALI_SOFT_JOB_STATE_TIMED_OUT == job->state) {
+ MALI_DEBUG_PRINT(3, ("Mali Soft Job: Aborting timed out soft job %u (0x%08X).\n", job->id, job));
+
+ /* We need to destroy this soft job. */
+ _mali_osk_list_move(&job->system_list, &jobs);
+ }
+ }
+
+ mali_soft_job_system_unlock(system);
+
+ /* Release and destroy jobs. */
+ _MALI_OSK_LIST_FOREACHENTRY(job, tmp, &jobs, struct mali_soft_job, system_list) {
+ MALI_DEBUG_ASSERT(MALI_SOFT_JOB_STATE_SIGNALED == job->state ||
+ MALI_SOFT_JOB_STATE_TIMED_OUT == job->state);
+
+ if (MALI_SOFT_JOB_STATE_SIGNALED == job->state) {
+ mali_timeline_tracker_release(&job->tracker);
+ }
+
+ /* Move job back to used list before destroying. */
+ _mali_osk_list_move(&job->system_list, &system->jobs_used);
+
+ mali_soft_job_destroy(job);
+ }
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_SOFT_JOB_H__
+#define __MALI_SOFT_JOB_H__
+
+#include "mali_osk.h"
+
+#include "mali_timeline.h"
+
+struct mali_timeline_fence;
+struct mali_session_data;
+struct mali_soft_job;
+struct mali_soft_job_system;
+
+/**
+ * Soft job types.
+ *
+ * Soft jobs of type MALI_SOFT_JOB_TYPE_USER_SIGNALED will only complete after activation if either
+ * they are signaled by user-space (@ref mali_soft_job_system_signaled_job) or if they are timed out
+ * by the Timeline system.
+ */
+typedef enum mali_soft_job_type {
+ MALI_SOFT_JOB_TYPE_USER_SIGNALED,
+} mali_soft_job_type;
+
+/**
+ * Soft job state.
+ *
+ * All soft jobs in a soft job system will initially be in state MALI_SOFT_JOB_STATE_FREE. On @ref
+ * mali_soft_job_system_start_job a job will first be allocated. A job in state
+ * MALI_SOFT_JOB_STATE_FREE will be picked and the state changed to MALI_SOFT_JOB_STATE_ALLOCATED.
+ * Once the job is added to the timeline system, the state changes to MALI_SOFT_JOB_STATE_STARTED.
+ *
+ * For soft jobs of type MALI_SOFT_JOB_TYPE_USER_SIGNALED the state is changed to
+ * MALI_SOFT_JOB_STATE_SIGNALED when @ref mali_soft_job_system_signal_job is called and the soft
+ * job's state is MALI_SOFT_JOB_STATE_STARTED or MALI_SOFT_JOB_STATE_TIMED_OUT.
+ *
+ * If a soft job of type MALI_SOFT_JOB_TYPE_USER_SIGNALED is timed out before being signaled, the
+ * state is changed to MALI_SOFT_JOB_STATE_TIMED_OUT. This can only happen to soft jobs in state
+ * MALI_SOFT_JOB_STATE_STARTED.
+ *
+ * When a soft job's reference count reaches zero, it will be freed and the state returns to
+ * MALI_SOFT_JOB_STATE_FREE.
+ */
+typedef enum mali_soft_job_state {
+ MALI_SOFT_JOB_STATE_FREE,
+ MALI_SOFT_JOB_STATE_ALLOCATED,
+ MALI_SOFT_JOB_STATE_STARTED,
+ MALI_SOFT_JOB_STATE_SIGNALED,
+ MALI_SOFT_JOB_STATE_TIMED_OUT,
+} mali_soft_job_state;
+
+#define MALI_SOFT_JOB_INVALID_ID ((u32) -1)
+
+/* Maximum number of soft jobs per soft system. */
+#define MALI_MAX_NUM_SOFT_JOBS 20
+
+/**
+ * Soft job struct.
+ *
+ * Soft job can be used to represent any kind of CPU work done in kernel-space.
+ */
+typedef struct mali_soft_job {
+ mali_soft_job_type type; /**< Soft job type. Must be one of MALI_SOFT_JOB_TYPE_*. */
+ u32 user_job; /**< Identifier for soft job in user space. */
+ _mali_osk_atomic_t refcount; /**< Soft jobs are reference counted to prevent premature deletion. */
+ struct mali_timeline_tracker tracker; /**< Timeline tracker for soft job. */
+ mali_bool activated; /**< MALI_TRUE if the job has been activated, MALI_FALSE if not. */
+ _mali_osk_notification_t *activated_notification; /**< Pre-allocated notification object for ACTIVATED_NOTIFICATION. */
+
+ /* Protected by soft job system lock. */
+ u32 id; /**< Used by user-space to find corresponding soft job in kernel-space. */
+ mali_soft_job_state state; /**< State of soft job, must be one of MALI_SOFT_JOB_STATE_*. */
+ struct mali_soft_job_system *system; /**< The soft job system this job is in. */
+ _mali_osk_list_t system_list; /**< List element used by soft job system. */
+} mali_soft_job;
+
+/**
+ * Per-session soft job system.
+ *
+ * The soft job system is used to manage all soft jobs that belongs to a session.
+ */
+typedef struct mali_soft_job_system {
+ struct mali_session_data *session; /**< The session this soft job system belongs to. */
+
+ struct mali_soft_job jobs[MALI_MAX_NUM_SOFT_JOBS]; /**< Array of all soft jobs in this system. */
+ _MALI_OSK_LIST_HEAD(jobs_free); /**< List of all free soft jobs. */
+ _MALI_OSK_LIST_HEAD(jobs_used); /**< List of all allocated soft jobs. */
+
+ _mali_osk_spinlock_irq_t *lock; /**< Lock used to protect soft job system and its soft jobs. */
+ u32 lock_owner; /**< Contains tid of thread that locked the system or 0, if not locked. */
+} mali_soft_job_system;
+
+/**
+ * Create a soft job system.
+ *
+ * @param session The session this soft job system will belong to.
+ * @return The new soft job system, or NULL if unsuccessful.
+ */
+struct mali_soft_job_system *mali_soft_job_system_create(struct mali_session_data *session);
+
+/**
+ * Destroy a soft job system.
+ *
+ * @note The soft job must not have any started or activated jobs. Call @ref
+ * mali_soft_job_system_abort first.
+ *
+ * @param system The soft job system we are destroying.
+ */
+void mali_soft_job_system_destroy(struct mali_soft_job_system *system);
+
+/**
+ * Create a soft job.
+ *
+ * @param system Soft job system to create soft job from.
+ * @param type Type of the soft job.
+ * @param user_job Identifier for soft job in user space.
+ * @return New soft job if successful, NULL if not.
+ */
+struct mali_soft_job *mali_soft_job_create(struct mali_soft_job_system *system, mali_soft_job_type type, u32 user_job);
+
+/**
+ * Destroy soft job.
+ *
+ * @param job Soft job to destroy.
+ */
+void mali_soft_job_destroy(struct mali_soft_job *job);
+
+/**
+ * Start a soft job.
+ *
+ * The soft job will be added to the Timeline system which will then activate it after all
+ * dependencies have been resolved.
+ *
+ * Create soft jobs with @ref mali_soft_job_create before starting them.
+ *
+ * @param job Soft job to start.
+ * @param fence Fence representing dependencies for this soft job.
+ * @return Point on soft job timeline.
+ */
+mali_timeline_point mali_soft_job_start(struct mali_soft_job *job, struct mali_timeline_fence *fence);
+
+/**
+ * Use by user-space to signal that a soft job has completed.
+ *
+ * @note Only valid for soft jobs with type MALI_SOFT_JOB_TYPE_USER_SIGNALED.
+ *
+ * @note The soft job must be in state MALI_SOFT_JOB_STATE_STARTED for the signal to be successful.
+ *
+ * @note If the soft job was signaled successfully, or it received a time out, the soft job will be
+ * destroyed after this call and should no longer be used.
+ *
+ * @note This function will block until the soft job has been activated.
+ *
+ * @param system The soft job system the job was started in.
+ * @param job_id ID of soft job we are signaling.
+ *
+ * @return _MALI_OSK_ERR_ITEM_NOT_FOUND if the soft job ID was invalid, _MALI_OSK_ERR_TIMEOUT if the
+ * soft job was timed out or _MALI_OSK_ERR_OK if we successfully signaled the soft job.
+ */
+_mali_osk_errcode_t mali_soft_job_system_signal_job(struct mali_soft_job_system *system, u32 job_id);
+
+/**
+ * Used by the Timeline system to activate a soft job.
+ *
+ * @param job The soft job that is being activated.
+ */
+void mali_soft_job_system_activate_job(struct mali_soft_job *job);
+
+/**
+ * Used by the Timeline system to timeout a soft job.
+ *
+ * A soft job is timed out if it completes or is signaled later than MALI_TIMELINE_TIMEOUT_HZ after
+ * activation.
+ *
+ * @param job The soft job that is being timed out.
+ * @return A scheduling bitmask.
+ */
+mali_scheduler_mask mali_soft_job_system_timeout_job(struct mali_soft_job *job);
+
+/**
+ * Used to cleanup activated soft jobs in the soft job system on session abort.
+ *
+ * @param system The soft job system that is being aborted.
+ */
+void mali_soft_job_system_abort(struct mali_soft_job_system *system);
+
+#endif /* __MALI_SOFT_JOB_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_spinlock_reentrant.h"
+
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+
+struct mali_spinlock_reentrant *mali_spinlock_reentrant_init(_mali_osk_lock_order_t lock_order)
+{
+ struct mali_spinlock_reentrant *spinlock;
+
+ spinlock = _mali_osk_calloc(1, sizeof(struct mali_spinlock_reentrant));
+ if (NULL == spinlock) {
+ return NULL;
+ }
+
+ spinlock->lock = _mali_osk_spinlock_irq_init(_MALI_OSK_LOCKFLAG_ORDERED, lock_order);
+ if (NULL == spinlock->lock) {
+ mali_spinlock_reentrant_term(spinlock);
+ return NULL;
+ }
+
+ return spinlock;
+}
+
+void mali_spinlock_reentrant_term(struct mali_spinlock_reentrant *spinlock)
+{
+ MALI_DEBUG_ASSERT_POINTER(spinlock);
+ MALI_DEBUG_ASSERT(0 == spinlock->counter && 0 == spinlock->owner);
+
+ if (NULL != spinlock->lock) {
+ _mali_osk_spinlock_irq_term(spinlock->lock);
+ }
+
+ _mali_osk_free(spinlock);
+}
+
+void mali_spinlock_reentrant_wait(struct mali_spinlock_reentrant *spinlock, u32 tid)
+{
+ MALI_DEBUG_ASSERT_POINTER(spinlock);
+ MALI_DEBUG_ASSERT_POINTER(spinlock->lock);
+ MALI_DEBUG_ASSERT(0 != tid);
+
+ MALI_DEBUG_PRINT(5, ("%s ^\n", __FUNCTION__));
+
+ if (tid != spinlock->owner) {
+ _mali_osk_spinlock_irq_lock(spinlock->lock);
+ MALI_DEBUG_ASSERT(0 == spinlock->owner && 0 == spinlock->counter);
+ spinlock->owner = tid;
+ }
+
+ MALI_DEBUG_PRINT(5, ("%s v\n", __FUNCTION__));
+
+ ++spinlock->counter;
+}
+
+void mali_spinlock_reentrant_signal(struct mali_spinlock_reentrant *spinlock, u32 tid)
+{
+ MALI_DEBUG_ASSERT_POINTER(spinlock);
+ MALI_DEBUG_ASSERT_POINTER(spinlock->lock);
+ MALI_DEBUG_ASSERT(0 != tid && tid == spinlock->owner);
+
+ --spinlock->counter;
+ if (0 == spinlock->counter) {
+ spinlock->owner = 0;
+ MALI_DEBUG_PRINT(5, ("%s release last\n", __FUNCTION__));
+ _mali_osk_spinlock_irq_unlock(spinlock->lock);
+ }
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_SPINLOCK_REENTRANT_H__
+#define __MALI_SPINLOCK_REENTRANT_H__
+
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+
+/**
+ * Reentrant spinlock.
+ */
+struct mali_spinlock_reentrant {
+ _mali_osk_spinlock_irq_t *lock;
+ u32 owner;
+ u32 counter;
+};
+
+/**
+ * Create a new reentrant spinlock.
+ *
+ * @param lock_order Lock order.
+ * @return New reentrant spinlock.
+ */
+struct mali_spinlock_reentrant *mali_spinlock_reentrant_init(_mali_osk_lock_order_t lock_order);
+
+/**
+ * Terminate reentrant spinlock and free any associated resources.
+ *
+ * @param spinlock Reentrant spinlock to terminate.
+ */
+void mali_spinlock_reentrant_term(struct mali_spinlock_reentrant *spinlock);
+
+/**
+ * Wait for reentrant spinlock to be signaled.
+ *
+ * @param spinlock Reentrant spinlock.
+ * @param tid Thread ID.
+ */
+void mali_spinlock_reentrant_wait(struct mali_spinlock_reentrant *spinlock, u32 tid);
+
+/**
+ * Signal reentrant spinlock.
+ *
+ * @param spinlock Reentrant spinlock.
+ * @param tid Thread ID.
+ */
+void mali_spinlock_reentrant_signal(struct mali_spinlock_reentrant *spinlock, u32 tid);
+
+/**
+ * Check if thread is holding reentrant spinlock.
+ *
+ * @param spinlock Reentrant spinlock.
+ * @param tid Thread ID.
+ * @return MALI_TRUE if thread is holding spinlock, MALI_FALSE if not.
+ */
+MALI_STATIC_INLINE mali_bool mali_spinlock_reentrant_is_held(struct mali_spinlock_reentrant *spinlock, u32 tid)
+{
+ MALI_DEBUG_ASSERT_POINTER(spinlock->lock);
+ return (tid == spinlock->owner && 0 < spinlock->counter);
+}
+
+#endif /* __MALI_SPINLOCK_REENTRANT_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_timeline.h"
+#include "mali_kernel_common.h"
+#include "mali_osk_mali.h"
+#include "mali_scheduler.h"
+#include "mali_soft_job.h"
+#include "mali_timeline_fence_wait.h"
+#include "mali_timeline_sync_fence.h"
+
+#define MALI_TIMELINE_SYSTEM_LOCKED(system) (mali_spinlock_reentrant_is_held((system)->spinlock, _mali_osk_get_tid()))
+
+static mali_scheduler_mask mali_timeline_system_release_waiter(struct mali_timeline_system *system,
+ struct mali_timeline_waiter *waiter);
+
+#if defined(CONFIG_SYNC)
+/* Callback that is called when a sync fence a tracker is waiting on is signaled. */
+static void mali_timeline_sync_fence_callback(struct sync_fence *sync_fence, struct sync_fence_waiter *sync_fence_waiter)
+{
+ struct mali_timeline_system *system;
+ struct mali_timeline_waiter *waiter;
+ struct mali_timeline_tracker *tracker;
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+ u32 tid = _mali_osk_get_tid();
+ mali_bool is_aborting = MALI_FALSE;
+ int fence_status = sync_fence->status;
+
+ MALI_DEBUG_ASSERT_POINTER(sync_fence);
+ MALI_DEBUG_ASSERT_POINTER(sync_fence_waiter);
+
+ tracker = _MALI_OSK_CONTAINER_OF(sync_fence_waiter, struct mali_timeline_tracker, sync_fence_waiter);
+ MALI_DEBUG_ASSERT_POINTER(tracker);
+
+ system = tracker->system;
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT_POINTER(system->session);
+
+ mali_spinlock_reentrant_wait(system->spinlock, tid);
+
+ is_aborting = system->session->is_aborting;
+ if (!is_aborting && (0 > fence_status)) {
+ MALI_PRINT_ERROR(("Mali Timeline: sync fence fd %d signaled with error %d\n", tracker->fence.sync_fd, fence_status));
+ tracker->activation_error |= MALI_TIMELINE_ACTIVATION_ERROR_SYNC_BIT;
+ }
+
+ waiter = tracker->waiter_sync;
+ MALI_DEBUG_ASSERT_POINTER(waiter);
+
+ tracker->sync_fence = NULL;
+ schedule_mask |= mali_timeline_system_release_waiter(system, waiter);
+
+ /* If aborting, wake up sleepers that are waiting for sync fence callbacks to complete. */
+ if (is_aborting) {
+ _mali_osk_wait_queue_wake_up(system->wait_queue);
+ }
+
+ mali_spinlock_reentrant_signal(system->spinlock, tid);
+
+ sync_fence_put(sync_fence);
+
+ if (!is_aborting) {
+ mali_scheduler_schedule_from_mask(schedule_mask, MALI_TRUE);
+ }
+}
+#endif /* defined(CONFIG_SYNC) */
+
+static mali_scheduler_mask mali_timeline_tracker_time_out(struct mali_timeline_tracker *tracker)
+{
+ MALI_DEBUG_ASSERT_POINTER(tracker);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_TRACKER_SOFT == tracker->type);
+
+ return mali_soft_job_system_timeout_job((struct mali_soft_job *) tracker->job);
+}
+
+static void mali_timeline_timer_callback(void *data)
+{
+ struct mali_timeline_system *system;
+ struct mali_timeline_tracker *tracker;
+ struct mali_timeline *timeline;
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+ u32 tid = _mali_osk_get_tid();
+
+ timeline = (struct mali_timeline *) data;
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+
+ system = timeline->system;
+ MALI_DEBUG_ASSERT_POINTER(system);
+
+ mali_spinlock_reentrant_wait(system->spinlock, tid);
+
+ if (!system->timer_enabled) {
+ mali_spinlock_reentrant_signal(system->spinlock, tid);
+ return;
+ }
+
+ tracker = timeline->tracker_tail;
+ timeline->timer_active = MALI_FALSE;
+
+ if (NULL != tracker && MALI_TRUE == tracker->timer_active) {
+ /* This is likely the delayed work that has been schedule out before cancelled. */
+ if (MALI_TIMELINE_TIMEOUT_HZ > (_mali_osk_time_tickcount() - tracker->os_tick_activate)) {
+ mali_spinlock_reentrant_signal(system->spinlock, tid);
+ return;
+ }
+
+ schedule_mask = mali_timeline_tracker_time_out(tracker);
+ tracker->timer_active = MALI_FALSE;
+ } else {
+ MALI_PRINT_ERROR(("Mali Timeline: Soft job timer callback without a waiting tracker.\n"));
+ }
+
+ mali_spinlock_reentrant_signal(system->spinlock, tid);
+
+ mali_scheduler_schedule_from_mask(schedule_mask, MALI_FALSE);
+}
+
+void mali_timeline_system_stop_timer(struct mali_timeline_system *system)
+{
+ u32 i;
+ u32 tid = _mali_osk_get_tid();
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+
+ mali_spinlock_reentrant_wait(system->spinlock, tid);
+ system->timer_enabled = MALI_FALSE;
+ mali_spinlock_reentrant_signal(system->spinlock, tid);
+
+ for (i = 0; i < MALI_TIMELINE_MAX; ++i) {
+ struct mali_timeline *timeline = system->timelines[i];
+
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+
+ if (NULL != timeline->delayed_work) {
+ _mali_osk_wq_delayed_cancel_work_sync(timeline->delayed_work);
+ timeline->timer_active = MALI_FALSE;
+ }
+ }
+}
+
+static void mali_timeline_destroy(struct mali_timeline *timeline)
+{
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+ if (NULL != timeline) {
+ /* Assert that the timeline object has been properly cleaned up before destroying it. */
+ MALI_DEBUG_ASSERT(timeline->point_oldest == timeline->point_next);
+ MALI_DEBUG_ASSERT(NULL == timeline->tracker_head);
+ MALI_DEBUG_ASSERT(NULL == timeline->tracker_tail);
+ MALI_DEBUG_ASSERT(NULL == timeline->waiter_head);
+ MALI_DEBUG_ASSERT(NULL == timeline->waiter_tail);
+ MALI_DEBUG_ASSERT(NULL != timeline->system);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_MAX > timeline->id);
+
+#if defined(CONFIG_SYNC)
+ if (NULL != timeline->sync_tl) {
+ sync_timeline_destroy(timeline->sync_tl);
+ }
+#endif /* defined(CONFIG_SYNC) */
+
+ if (NULL != timeline->delayed_work) {
+ _mali_osk_wq_delayed_cancel_work_sync(timeline->delayed_work);
+ _mali_osk_wq_delayed_delete_work_nonflush(timeline->delayed_work);
+ }
+
+ _mali_osk_free(timeline);
+ }
+}
+
+static struct mali_timeline *mali_timeline_create(struct mali_timeline_system *system, enum mali_timeline_id id)
+{
+ struct mali_timeline *timeline;
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT(id < MALI_TIMELINE_MAX);
+
+ timeline = (struct mali_timeline *) _mali_osk_calloc(1, sizeof(struct mali_timeline));
+ if (NULL == timeline) {
+ return NULL;
+ }
+
+ /* Initially the timeline is empty. */
+#if defined(MALI_TIMELINE_DEBUG_START_POINT)
+ /* Start the timeline a bit before wrapping when debugging. */
+ timeline->point_next = UINT_MAX - MALI_TIMELINE_MAX_POINT_SPAN - 128;
+#else
+ timeline->point_next = 1;
+#endif
+ timeline->point_oldest = timeline->point_next;
+
+ /* The tracker and waiter lists will initially be empty. */
+
+ timeline->system = system;
+ timeline->id = id;
+
+ timeline->delayed_work = _mali_osk_wq_delayed_create_work(mali_timeline_timer_callback, timeline);
+ if (NULL == timeline->delayed_work) {
+ mali_timeline_destroy(timeline);
+ return NULL;
+ }
+
+ timeline->timer_active = MALI_FALSE;
+
+#if defined(CONFIG_SYNC)
+ {
+ char timeline_name[32];
+
+ switch (id) {
+ case MALI_TIMELINE_GP:
+ _mali_osk_snprintf(timeline_name, 32, "mali-%u-gp", _mali_osk_get_pid());
+ break;
+ case MALI_TIMELINE_PP:
+ _mali_osk_snprintf(timeline_name, 32, "mali-%u-pp", _mali_osk_get_pid());
+ break;
+ case MALI_TIMELINE_SOFT:
+ _mali_osk_snprintf(timeline_name, 32, "mali-%u-soft", _mali_osk_get_pid());
+ break;
+ default:
+ MALI_PRINT_ERROR(("Mali Timeline: Invalid timeline id %d\n", id));
+ mali_timeline_destroy(timeline);
+ return NULL;
+ }
+
+ timeline->sync_tl = mali_sync_timeline_create(timeline_name);
+ if (NULL == timeline->sync_tl) {
+ mali_timeline_destroy(timeline);
+ return NULL;
+ }
+ }
+#endif /* defined(CONFIG_SYNC) */
+
+ return timeline;
+}
+
+static void mali_timeline_insert_tracker(struct mali_timeline *timeline, struct mali_timeline_tracker *tracker)
+{
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+ MALI_DEBUG_ASSERT_POINTER(tracker);
+
+ if (mali_timeline_is_full(timeline)) {
+ /* Don't add tracker if timeline is full. */
+ tracker->point = MALI_TIMELINE_NO_POINT;
+ return;
+ }
+
+ tracker->timeline = timeline;
+ tracker->point = timeline->point_next;
+
+ /* Find next available point. */
+ timeline->point_next++;
+ if (MALI_TIMELINE_NO_POINT == timeline->point_next) {
+ timeline->point_next++;
+ }
+
+ MALI_DEBUG_ASSERT(!mali_timeline_is_empty(timeline));
+
+ /* Add tracker as new head on timeline's tracker list. */
+ if (NULL == timeline->tracker_head) {
+ /* Tracker list is empty. */
+ MALI_DEBUG_ASSERT(NULL == timeline->tracker_tail);
+
+ timeline->tracker_tail = tracker;
+
+ MALI_DEBUG_ASSERT(NULL == tracker->timeline_next);
+ MALI_DEBUG_ASSERT(NULL == tracker->timeline_prev);
+ } else {
+ MALI_DEBUG_ASSERT(NULL == timeline->tracker_head->timeline_next);
+
+ tracker->timeline_prev = timeline->tracker_head;
+ timeline->tracker_head->timeline_next = tracker;
+
+ MALI_DEBUG_ASSERT(NULL == tracker->timeline_next);
+ }
+ timeline->tracker_head = tracker;
+
+ MALI_DEBUG_ASSERT(NULL == timeline->tracker_head->timeline_next);
+ MALI_DEBUG_ASSERT(NULL == timeline->tracker_tail->timeline_prev);
+}
+
+/* Inserting the waiter object into the given timeline */
+static void mali_timeline_insert_waiter(struct mali_timeline *timeline, struct mali_timeline_waiter *waiter_new)
+{
+ struct mali_timeline_waiter *waiter_prev;
+ struct mali_timeline_waiter *waiter_next;
+
+ /* Waiter time must be between timeline head and tail, and there must
+ * be less than MALI_TIMELINE_MAX_POINT_SPAN elements between */
+ MALI_DEBUG_ASSERT(( waiter_new->point - timeline->point_oldest) < MALI_TIMELINE_MAX_POINT_SPAN);
+ MALI_DEBUG_ASSERT((-waiter_new->point + timeline->point_next) < MALI_TIMELINE_MAX_POINT_SPAN);
+
+ /* Finding out where to put this waiter, in the linked waiter list of the given timeline **/
+ waiter_prev = timeline->waiter_head; /* Insert new after waiter_prev */
+ waiter_next = NULL; /* Insert new before waiter_next */
+
+ /* Iterating backwards from head (newest) to tail (oldest) until we
+ * find the correct spot to insert the new waiter */
+ while (waiter_prev && mali_timeline_point_after(waiter_prev->point, waiter_new->point)) {
+ waiter_next = waiter_prev;
+ waiter_prev = waiter_prev->timeline_prev;
+ }
+
+ if (NULL == waiter_prev && NULL == waiter_next) {
+ /* list is empty */
+ timeline->waiter_head = waiter_new;
+ timeline->waiter_tail = waiter_new;
+ } else if (NULL == waiter_next) {
+ /* insert at head */
+ waiter_new->timeline_prev = timeline->waiter_head;
+ timeline->waiter_head->timeline_next = waiter_new;
+ timeline->waiter_head = waiter_new;
+ } else if (NULL == waiter_prev) {
+ /* insert at tail */
+ waiter_new->timeline_next = timeline->waiter_tail;
+ timeline->waiter_tail->timeline_prev = waiter_new;
+ timeline->waiter_tail = waiter_new;
+ } else {
+ /* insert between */
+ waiter_new->timeline_next = waiter_next;
+ waiter_new->timeline_prev = waiter_prev;
+ waiter_next->timeline_prev = waiter_new;
+ waiter_prev->timeline_next = waiter_new;
+ }
+}
+
+static void mali_timeline_update_delayed_work(struct mali_timeline *timeline)
+{
+ struct mali_timeline_system *system;
+ struct mali_timeline_tracker *oldest_tracker;
+
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_SOFT == timeline->id);
+
+ system = timeline->system;
+ MALI_DEBUG_ASSERT_POINTER(system);
+
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system));
+
+ /* Timer is disabled, early out. */
+ if (!system->timer_enabled) return;
+
+ oldest_tracker = timeline->tracker_tail;
+ if (NULL != oldest_tracker && 0 == oldest_tracker->trigger_ref_count) {
+ if (MALI_FALSE == oldest_tracker->timer_active) {
+ if (MALI_TRUE == timeline->timer_active) {
+ _mali_osk_wq_delayed_cancel_work_async(timeline->delayed_work);
+ }
+ _mali_osk_wq_delayed_schedule_work(timeline->delayed_work, MALI_TIMELINE_TIMEOUT_HZ);
+ oldest_tracker->timer_active = MALI_TRUE;
+ timeline->timer_active = MALI_TRUE;
+ }
+ } else if (MALI_TRUE == timeline->timer_active) {
+ _mali_osk_wq_delayed_cancel_work_async(timeline->delayed_work);
+ timeline->timer_active = MALI_FALSE;
+ }
+}
+
+static mali_scheduler_mask mali_timeline_update_oldest_point(struct mali_timeline *timeline)
+{
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+
+ MALI_DEBUG_CODE({
+ struct mali_timeline_system *system = timeline->system;
+ MALI_DEBUG_ASSERT_POINTER(system);
+
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system));
+ });
+
+ if (NULL != timeline->tracker_tail) {
+ /* Set oldest point to oldest tracker's point */
+ timeline->point_oldest = timeline->tracker_tail->point;
+ } else {
+ /* No trackers, mark point list as empty */
+ timeline->point_oldest = timeline->point_next;
+ }
+
+ /* Release all waiters no longer on the timeline's point list.
+ * Releasing a waiter can trigger this function to be called again, so
+ * we do not store any pointers on stack. */
+ while (NULL != timeline->waiter_tail) {
+ u32 waiter_time_relative;
+ u32 time_head_relative;
+ struct mali_timeline_waiter *waiter = timeline->waiter_tail;
+
+ time_head_relative = timeline->point_next - timeline->point_oldest;
+ waiter_time_relative = waiter->point - timeline->point_oldest;
+
+ if (waiter_time_relative < time_head_relative) {
+ /* This and all following waiters are on the point list, so we are done. */
+ break;
+ }
+
+ /* Remove waiter from timeline's waiter list. */
+ if (NULL != waiter->timeline_next) {
+ waiter->timeline_next->timeline_prev = NULL;
+ } else {
+ /* This was the last waiter */
+ timeline->waiter_head = NULL;
+ }
+ timeline->waiter_tail = waiter->timeline_next;
+
+ /* Release waiter. This could activate a tracker, if this was
+ * the last waiter for the tracker. */
+ schedule_mask |= mali_timeline_system_release_waiter(timeline->system, waiter);
+ }
+
+ return schedule_mask;
+}
+
+void mali_timeline_tracker_init(struct mali_timeline_tracker *tracker,
+ mali_timeline_tracker_type type,
+ struct mali_timeline_fence *fence,
+ void *job)
+{
+ MALI_DEBUG_ASSERT_POINTER(tracker);
+ MALI_DEBUG_ASSERT_POINTER(job);
+
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_TRACKER_MAX > type);
+
+ /* Zero out all tracker members. */
+ _mali_osk_memset(tracker, 0, sizeof(*tracker));
+
+ tracker->type = type;
+ tracker->job = job;
+ tracker->trigger_ref_count = 1; /* Prevents any callback from trigging while adding it */
+ tracker->os_tick_create = _mali_osk_time_tickcount();
+ MALI_DEBUG_CODE(tracker->magic = MALI_TIMELINE_TRACKER_MAGIC);
+
+ tracker->activation_error = MALI_TIMELINE_ACTIVATION_ERROR_NONE;
+
+ /* Copy fence. */
+ if (NULL != fence) {
+ _mali_osk_memcpy(&tracker->fence, fence, sizeof(struct mali_timeline_fence));
+ }
+}
+
+mali_scheduler_mask mali_timeline_tracker_release(struct mali_timeline_tracker *tracker)
+{
+ struct mali_timeline *timeline;
+ struct mali_timeline_system *system;
+ struct mali_timeline_tracker *tracker_next, *tracker_prev;
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+ u32 tid = _mali_osk_get_tid();
+
+ /* Upon entry a group lock will be held, but not a scheduler lock. */
+ MALI_DEBUG_ASSERT_POINTER(tracker);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_TRACKER_MAGIC == tracker->magic);
+
+ /* Tracker should have been triggered */
+ MALI_DEBUG_ASSERT(0 == tracker->trigger_ref_count);
+
+ /* All waiters should have been released at this point */
+ MALI_DEBUG_ASSERT(NULL == tracker->waiter_head);
+ MALI_DEBUG_ASSERT(NULL == tracker->waiter_tail);
+
+ MALI_DEBUG_PRINT(3, ("Mali Timeline: releasing tracker for job 0x%08X\n", tracker->job));
+
+ timeline = tracker->timeline;
+ if (NULL == timeline) {
+ /* Tracker was not on a timeline, there is nothing to release. */
+ return MALI_SCHEDULER_MASK_EMPTY;
+ }
+
+ system = timeline->system;
+ MALI_DEBUG_ASSERT_POINTER(system);
+
+ mali_spinlock_reentrant_wait(system->spinlock, tid);
+
+ /* Tracker should still be on timeline */
+ MALI_DEBUG_ASSERT(!mali_timeline_is_empty(timeline));
+ MALI_DEBUG_ASSERT( mali_timeline_is_point_on(timeline, tracker->point));
+
+ /* Tracker is no longer valid. */
+ MALI_DEBUG_CODE(tracker->magic = 0);
+
+ tracker_next = tracker->timeline_next;
+ tracker_prev = tracker->timeline_prev;
+ tracker->timeline_next = NULL;
+ tracker->timeline_prev = NULL;
+
+ /* Removing tracker from timeline's tracker list */
+ if (NULL == tracker_next) {
+ /* This tracker was the head */
+ timeline->tracker_head = tracker_prev;
+ } else {
+ tracker_next->timeline_prev = tracker_prev;
+ }
+
+ if (NULL == tracker_prev) {
+ /* This tracker was the tail */
+ timeline->tracker_tail = tracker_next;
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system));
+ /* Update the timeline's oldest time and release any waiters */
+ schedule_mask |= mali_timeline_update_oldest_point(timeline);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system));
+ } else {
+ tracker_prev->timeline_next = tracker_next;
+ }
+
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system));
+
+ /* Update delayed work only when it is the soft job timeline */
+ if (MALI_TIMELINE_SOFT == tracker->timeline->id) {
+ mali_timeline_update_delayed_work(tracker->timeline);
+ }
+
+ mali_spinlock_reentrant_signal(system->spinlock, tid);
+
+ return schedule_mask;
+}
+
+void mali_timeline_system_release_waiter_list(struct mali_timeline_system *system,
+ struct mali_timeline_waiter *tail,
+ struct mali_timeline_waiter *head)
+{
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT_POINTER(head);
+ MALI_DEBUG_ASSERT_POINTER(tail);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system));
+
+ head->tracker_next = system->waiter_empty_list;
+ system->waiter_empty_list = tail;
+}
+
+static mali_scheduler_mask mali_timeline_tracker_activate(struct mali_timeline_tracker *tracker)
+{
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+ struct mali_timeline_system *system;
+ struct mali_timeline *timeline;
+ u32 tid = _mali_osk_get_tid();
+
+ MALI_DEBUG_ASSERT_POINTER(tracker);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_TRACKER_MAGIC == tracker->magic);
+
+ system = tracker->system;
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system));
+
+ tracker->os_tick_activate = _mali_osk_time_tickcount();
+
+ if (NULL != tracker->waiter_head) {
+ mali_timeline_system_release_waiter_list(system, tracker->waiter_tail, tracker->waiter_head);
+ tracker->waiter_head = NULL;
+ tracker->waiter_tail = NULL;
+ }
+
+ switch (tracker->type) {
+ case MALI_TIMELINE_TRACKER_GP:
+ schedule_mask = mali_gp_scheduler_activate_job((struct mali_gp_job *) tracker->job);
+ break;
+ case MALI_TIMELINE_TRACKER_PP:
+ schedule_mask = mali_pp_scheduler_activate_job((struct mali_pp_job *) tracker->job);
+ break;
+ case MALI_TIMELINE_TRACKER_SOFT:
+ timeline = tracker->timeline;
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+
+ mali_soft_job_system_activate_job((struct mali_soft_job *) tracker->job);
+
+ /* Start a soft timer to make sure the soft job be released in a limited time */
+ mali_spinlock_reentrant_wait(system->spinlock, tid);
+ mali_timeline_update_delayed_work(timeline);
+ mali_spinlock_reentrant_signal(system->spinlock, tid);
+ break;
+ case MALI_TIMELINE_TRACKER_WAIT:
+ mali_timeline_fence_wait_activate((struct mali_timeline_fence_wait_tracker *) tracker->job);
+ break;
+ case MALI_TIMELINE_TRACKER_SYNC:
+#if defined(CONFIG_SYNC)
+ mali_timeline_sync_fence_activate((struct mali_timeline_sync_fence_tracker *) tracker->job);
+#else
+ MALI_PRINT_ERROR(("Mali Timeline: sync tracker not supported\n", tracker->type));
+#endif /* defined(CONFIG_SYNC) */
+ break;
+ default:
+ MALI_PRINT_ERROR(("Mali Timeline - Illegal tracker type: %d\n", tracker->type));
+ break;
+ }
+
+ return schedule_mask;
+}
+
+void mali_timeline_system_tracker_get(struct mali_timeline_system *system, struct mali_timeline_tracker *tracker)
+{
+ u32 tid = _mali_osk_get_tid();
+
+ MALI_DEBUG_ASSERT_POINTER(tracker);
+ MALI_DEBUG_ASSERT_POINTER(system);
+
+ mali_spinlock_reentrant_wait(system->spinlock, tid);
+
+ MALI_DEBUG_ASSERT(0 < tracker->trigger_ref_count);
+ tracker->trigger_ref_count++;
+
+ mali_spinlock_reentrant_signal(system->spinlock, tid);
+}
+
+mali_scheduler_mask mali_timeline_system_tracker_put(struct mali_timeline_system *system, struct mali_timeline_tracker *tracker, mali_timeline_activation_error activation_error)
+{
+ u32 tid = _mali_osk_get_tid();
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+
+ MALI_DEBUG_ASSERT_POINTER(tracker);
+ MALI_DEBUG_ASSERT_POINTER(system);
+
+ mali_spinlock_reentrant_wait(system->spinlock, tid);
+
+ MALI_DEBUG_ASSERT(0 < tracker->trigger_ref_count);
+ tracker->trigger_ref_count--;
+
+ tracker->activation_error |= activation_error;
+
+ if (0 == tracker->trigger_ref_count) {
+ schedule_mask |= mali_timeline_tracker_activate(tracker);
+ tracker = NULL;
+ }
+
+ mali_spinlock_reentrant_signal(system->spinlock, tid);
+
+ return schedule_mask;
+}
+
+void mali_timeline_fence_copy_uk_fence(struct mali_timeline_fence *fence, _mali_uk_fence_t *uk_fence)
+{
+ u32 i;
+
+ MALI_DEBUG_ASSERT_POINTER(fence);
+ MALI_DEBUG_ASSERT_POINTER(uk_fence);
+
+ for (i = 0; i < MALI_TIMELINE_MAX; ++i) {
+ fence->points[i] = uk_fence->points[i];
+ }
+
+ fence->sync_fd = uk_fence->sync_fd;
+}
+
+struct mali_timeline_system *mali_timeline_system_create(struct mali_session_data *session)
+{
+ u32 i;
+ struct mali_timeline_system *system;
+
+ MALI_DEBUG_ASSERT_POINTER(session);
+ MALI_DEBUG_PRINT(4, ("Mali Timeline: creating timeline system\n"));
+
+ system = (struct mali_timeline_system *) _mali_osk_calloc(1, sizeof(struct mali_timeline_system));
+ if (NULL == system) {
+ return NULL;
+ }
+
+ system->spinlock = mali_spinlock_reentrant_init(_MALI_OSK_LOCK_ORDER_TIMELINE_SYSTEM);
+ if (NULL == system->spinlock) {
+ mali_timeline_system_destroy(system);
+ return NULL;
+ }
+
+ for (i = 0; i < MALI_TIMELINE_MAX; ++i) {
+ system->timelines[i] = mali_timeline_create(system, (enum mali_timeline_id)i);
+ if (NULL == system->timelines[i]) {
+ mali_timeline_system_destroy(system);
+ return NULL;
+ }
+ }
+
+#if defined(CONFIG_SYNC)
+ system->signaled_sync_tl = mali_sync_timeline_create("mali-always-signaled");
+ if (NULL == system->signaled_sync_tl) {
+ mali_timeline_system_destroy(system);
+ return NULL;
+ }
+#endif /* defined(CONFIG_SYNC) */
+
+ system->waiter_empty_list = NULL;
+ system->session = session;
+ system->timer_enabled = MALI_TRUE;
+
+ system->wait_queue = _mali_osk_wait_queue_init();
+ if (NULL == system->wait_queue) {
+ mali_timeline_system_destroy(system);
+ return NULL;
+ }
+
+ return system;
+}
+
+#if defined(CONFIG_SYNC)
+
+/**
+ * Check if there are any trackers left on timeline.
+ *
+ * Used as a wait queue conditional.
+ *
+ * @param data Timeline.
+ * @return MALI_TRUE if there are no trackers on timeline, MALI_FALSE if not.
+ */
+static mali_bool mali_timeline_has_no_trackers(void *data)
+{
+ struct mali_timeline *timeline = (struct mali_timeline *) data;
+
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+
+ return mali_timeline_is_empty(timeline);
+}
+
+/**
+ * Cancel sync fence waiters waited upon by trackers on all timelines.
+ *
+ * Will return after all timelines have no trackers left.
+ *
+ * @param system Timeline system.
+ */
+static void mali_timeline_cancel_sync_fence_waiters(struct mali_timeline_system *system)
+{
+ u32 i;
+ u32 tid = _mali_osk_get_tid();
+ struct mali_timeline_tracker *tracker, *tracker_next;
+ _MALI_OSK_LIST_HEAD_STATIC_INIT(tracker_list);
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT_POINTER(system->session);
+ MALI_DEBUG_ASSERT(system->session->is_aborting);
+
+ mali_spinlock_reentrant_wait(system->spinlock, tid);
+
+ /* Cancel sync fence waiters. */
+ for (i = 0; i < MALI_TIMELINE_MAX; ++i) {
+ struct mali_timeline *timeline = system->timelines[i];
+
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+
+ tracker_next = timeline->tracker_tail;
+ while (NULL != tracker_next) {
+ tracker = tracker_next;
+ tracker_next = tracker->timeline_next;
+
+ if (NULL == tracker->sync_fence) continue;
+
+ MALI_DEBUG_PRINT(3, ("Mali Timeline: Cancelling sync fence wait for tracker 0x%08X.\n", tracker));
+
+ /* Cancel sync fence waiter. */
+ if (0 == sync_fence_cancel_async(tracker->sync_fence, &tracker->sync_fence_waiter)) {
+ /* Callback was not called, move tracker to local list. */
+ _mali_osk_list_add(&tracker->sync_fence_cancel_list, &tracker_list);
+ }
+ }
+ }
+
+ mali_spinlock_reentrant_signal(system->spinlock, tid);
+
+ /* Manually call sync fence callback in order to release waiter and trigger activation of tracker. */
+ _MALI_OSK_LIST_FOREACHENTRY(tracker, tracker_next, &tracker_list, struct mali_timeline_tracker, sync_fence_cancel_list) {
+ mali_timeline_sync_fence_callback(tracker->sync_fence, &tracker->sync_fence_waiter);
+ }
+
+ /* Sleep until all sync fence callbacks are done and all timelines are empty. */
+ for (i = 0; i < MALI_TIMELINE_MAX; ++i) {
+ struct mali_timeline *timeline = system->timelines[i];
+
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+
+ _mali_osk_wait_queue_wait_event(system->wait_queue, mali_timeline_has_no_trackers, (void *) timeline);
+ }
+}
+
+#endif /* defined(CONFIG_SYNC) */
+
+void mali_timeline_system_abort(struct mali_timeline_system *system)
+{
+ MALI_DEBUG_CODE(u32 tid = _mali_osk_get_tid(););
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT_POINTER(system->session);
+ MALI_DEBUG_ASSERT(system->session->is_aborting);
+
+ MALI_DEBUG_PRINT(3, ("Mali Timeline: Aborting timeline system for session 0x%08X.\n", system->session));
+
+#if defined(CONFIG_SYNC)
+ mali_timeline_cancel_sync_fence_waiters(system);
+#endif /* defined(CONFIG_SYNC) */
+
+ /* Should not be any waiters or trackers left at this point. */
+ MALI_DEBUG_CODE( {
+ u32 i;
+ mali_spinlock_reentrant_wait(system->spinlock, tid);
+ for (i = 0; i < MALI_TIMELINE_MAX; ++i)
+ {
+ struct mali_timeline *timeline = system->timelines[i];
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+ MALI_DEBUG_ASSERT(timeline->point_oldest == timeline->point_next);
+ MALI_DEBUG_ASSERT(NULL == timeline->tracker_head);
+ MALI_DEBUG_ASSERT(NULL == timeline->tracker_tail);
+ MALI_DEBUG_ASSERT(NULL == timeline->waiter_head);
+ MALI_DEBUG_ASSERT(NULL == timeline->waiter_tail);
+ }
+ mali_spinlock_reentrant_signal(system->spinlock, tid);
+ });
+}
+
+void mali_timeline_system_destroy(struct mali_timeline_system *system)
+{
+ u32 i;
+ struct mali_timeline_waiter *waiter, *next;
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT_POINTER(system->session);
+
+ MALI_DEBUG_PRINT(4, ("Mali Timeline: destroying timeline system\n"));
+
+ if (NULL != system) {
+ /* There should be no waiters left on this queue. */
+ if (NULL != system->wait_queue) {
+ _mali_osk_wait_queue_term(system->wait_queue);
+ system->wait_queue = NULL;
+ }
+
+ /* Free all waiters in empty list */
+ waiter = system->waiter_empty_list;
+ while (NULL != waiter) {
+ next = waiter->tracker_next;
+ _mali_osk_free(waiter);
+ waiter = next;
+ }
+
+#if defined(CONFIG_SYNC)
+ if (NULL != system->signaled_sync_tl) {
+ sync_timeline_destroy(system->signaled_sync_tl);
+ }
+#endif /* defined(CONFIG_SYNC) */
+
+ for (i = 0; i < MALI_TIMELINE_MAX; ++i) {
+ if (NULL != system->timelines[i]) {
+ mali_timeline_destroy(system->timelines[i]);
+ }
+ }
+ if (NULL != system->spinlock) {
+ mali_spinlock_reentrant_term(system->spinlock);
+ }
+
+ _mali_osk_free(system);
+ }
+}
+
+/**
+ * Find how many waiters are needed for a given fence.
+ *
+ * @param fence The fence to check.
+ * @return Number of waiters needed for fence.
+ */
+static u32 mali_timeline_fence_num_waiters(struct mali_timeline_fence *fence)
+{
+ u32 i, num_waiters = 0;
+
+ MALI_DEBUG_ASSERT_POINTER(fence);
+
+ for (i = 0; i < MALI_TIMELINE_MAX; ++i) {
+ if (MALI_TIMELINE_NO_POINT != fence->points[i]) {
+ ++num_waiters;
+ }
+ }
+
+#if defined(CONFIG_SYNC)
+ if (-1 != fence->sync_fd) ++num_waiters;
+#endif /* defined(CONFIG_SYNC) */
+
+ return num_waiters;
+}
+
+static struct mali_timeline_waiter *mali_timeline_system_get_zeroed_waiter(struct mali_timeline_system *system)
+{
+ struct mali_timeline_waiter *waiter;
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system));
+
+ waiter = system->waiter_empty_list;
+ if (NULL != waiter) {
+ /* Remove waiter from empty list and zero it */
+ system->waiter_empty_list = waiter->tracker_next;
+ _mali_osk_memset(waiter, 0, sizeof(*waiter));
+ }
+
+ /* Return NULL if list was empty. */
+ return waiter;
+}
+
+static void mali_timeline_system_allocate_waiters(struct mali_timeline_system *system,
+ struct mali_timeline_waiter **tail,
+ struct mali_timeline_waiter **head,
+ int max_num_waiters)
+{
+ u32 i, tid = _mali_osk_get_tid();
+ mali_bool do_alloc;
+ struct mali_timeline_waiter *waiter;
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT_POINTER(tail);
+ MALI_DEBUG_ASSERT_POINTER(head);
+
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system));
+
+ *head = *tail = NULL;
+ do_alloc = MALI_FALSE;
+ i = 0;
+ while (i < max_num_waiters) {
+ if (MALI_FALSE == do_alloc) {
+ waiter = mali_timeline_system_get_zeroed_waiter(system);
+ if (NULL == waiter) {
+ do_alloc = MALI_TRUE;
+ mali_spinlock_reentrant_signal(system->spinlock, tid);
+ continue;
+ }
+ } else {
+ waiter = _mali_osk_calloc(1, sizeof(struct mali_timeline_waiter));
+ if (NULL == waiter) break;
+ }
+ ++i;
+ if (NULL == *tail) {
+ *tail = waiter;
+ *head = waiter;
+ } else {
+ (*head)->tracker_next = waiter;
+ *head = waiter;
+ }
+ }
+ if (MALI_TRUE == do_alloc) {
+ mali_spinlock_reentrant_wait(system->spinlock, tid);
+ }
+}
+
+/**
+ * Create waiters for the given tracker. The tracker is activated when all waiters are release.
+ *
+ * @note Tracker can potentially be activated before this function returns.
+ *
+ * @param system Timeline system.
+ * @param tracker Tracker we will create waiters for.
+ * @param waiter_tail List of pre-allocated waiters.
+ * @param waiter_head List of pre-allocated waiters.
+ */
+static void mali_timeline_system_create_waiters_and_unlock(struct mali_timeline_system *system,
+ struct mali_timeline_tracker *tracker,
+ struct mali_timeline_waiter *waiter_tail,
+ struct mali_timeline_waiter *waiter_head)
+{
+ int i;
+ u32 tid = _mali_osk_get_tid();
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+#if defined(CONFIG_SYNC)
+ struct sync_fence *sync_fence = NULL;
+#endif /* defined(CONFIG_SYNC) */
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT_POINTER(tracker);
+
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system));
+
+ MALI_DEBUG_ASSERT(NULL == tracker->waiter_head);
+ MALI_DEBUG_ASSERT(NULL == tracker->waiter_tail);
+ MALI_DEBUG_ASSERT(NULL != tracker->job);
+
+ /* Creating waiter object for all the timelines the fence is put on. Inserting this waiter
+ * into the timelines sorted list of waiters */
+ for (i = 0; i < MALI_TIMELINE_MAX; ++i) {
+ mali_timeline_point point;
+ struct mali_timeline *timeline;
+ struct mali_timeline_waiter *waiter;
+
+ /* Get point on current timeline from tracker's fence. */
+ point = tracker->fence.points[i];
+
+ if (likely(MALI_TIMELINE_NO_POINT == point)) {
+ /* Fence contains no point on this timeline so we don't need a waiter. */
+ continue;
+ }
+
+ timeline = system->timelines[i];
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+
+ if (unlikely(!mali_timeline_is_point_valid(timeline, point))) {
+ MALI_PRINT_ERROR(("Mali Timeline: point %d is not valid (oldest=%d, next=%d)\n",
+ point, timeline->point_oldest, timeline->point_next));
+ continue;
+ }
+
+ if (likely(mali_timeline_is_point_released(timeline, point))) {
+ /* Tracker representing the point has been released so we don't need a
+ * waiter. */
+ continue;
+ }
+
+ /* The point is on timeline. */
+ MALI_DEBUG_ASSERT(mali_timeline_is_point_on(timeline, point));
+
+ /* Get a new zeroed waiter object. */
+ if (likely(NULL != waiter_tail)) {
+ waiter = waiter_tail;
+ waiter_tail = waiter_tail->tracker_next;
+ } else {
+ MALI_PRINT_ERROR(("Mali Timeline: failed to allocate memory for waiter\n"));
+ continue;
+ }
+
+ /* Yanking the trigger ref count of the tracker. */
+ tracker->trigger_ref_count++;
+
+ waiter->point = point;
+ waiter->tracker = tracker;
+
+ /* Insert waiter on tracker's singly-linked waiter list. */
+ if (NULL == tracker->waiter_head) {
+ /* list is empty */
+ MALI_DEBUG_ASSERT(NULL == tracker->waiter_tail);
+ tracker->waiter_tail = waiter;
+ } else {
+ tracker->waiter_head->tracker_next = waiter;
+ }
+ tracker->waiter_head = waiter;
+
+ /* Add waiter to timeline. */
+ mali_timeline_insert_waiter(timeline, waiter);
+ }
+#if defined(CONFIG_SYNC)
+ if (-1 != tracker->fence.sync_fd) {
+ int ret;
+ struct mali_timeline_waiter *waiter;
+
+ sync_fence = sync_fence_fdget(tracker->fence.sync_fd);
+ if (unlikely(NULL == sync_fence)) {
+ MALI_PRINT_ERROR(("Mali Timeline: failed to get sync fence from fd %d\n", tracker->fence.sync_fd));
+ goto exit;
+ }
+
+ /* Check if we have a zeroed waiter object available. */
+ if (unlikely(NULL == waiter_tail)) {
+ MALI_PRINT_ERROR(("Mali Timeline: failed to allocate memory for waiter\n"));
+ goto exit;
+ }
+
+ /* Start asynchronous wait that will release waiter when the fence is signaled. */
+ sync_fence_waiter_init(&tracker->sync_fence_waiter, mali_timeline_sync_fence_callback);
+ ret = sync_fence_wait_async(sync_fence, &tracker->sync_fence_waiter);
+ if (1 == ret) {
+ /* Fence already signaled, no waiter needed. */
+ goto exit;
+ } else if (0 != ret) {
+ MALI_PRINT_ERROR(("Mali Timeline: sync fence fd %d signaled with error %d\n", tracker->fence.sync_fd, ret));
+ tracker->activation_error |= MALI_TIMELINE_ACTIVATION_ERROR_SYNC_BIT;
+ goto exit;
+ }
+
+ /* Grab new zeroed waiter object. */
+ waiter = waiter_tail;
+ waiter_tail = waiter_tail->tracker_next;
+
+ /* Increase the trigger ref count of the tracker. */
+ tracker->trigger_ref_count++;
+
+ waiter->point = MALI_TIMELINE_NO_POINT;
+ waiter->tracker = tracker;
+
+ /* Insert waiter on tracker's singly-linked waiter list. */
+ if (NULL == tracker->waiter_head) {
+ /* list is empty */
+ MALI_DEBUG_ASSERT(NULL == tracker->waiter_tail);
+ tracker->waiter_tail = waiter;
+ } else {
+ tracker->waiter_head->tracker_next = waiter;
+ }
+ tracker->waiter_head = waiter;
+
+ /* Also store waiter in separate field for easy access by sync callback. */
+ tracker->waiter_sync = waiter;
+
+ /* Store the sync fence in tracker so we can retrieve in abort session, if needed. */
+ tracker->sync_fence = sync_fence;
+
+ sync_fence = NULL;
+ }
+exit:
+#endif /* defined(CONFIG_SYNC) */
+
+ if (NULL != waiter_tail) {
+ mali_timeline_system_release_waiter_list(system, waiter_tail, waiter_head);
+ }
+
+ /* Release the initial trigger ref count. */
+ tracker->trigger_ref_count--;
+
+ /* If there were no waiters added to this tracker we activate immediately. */
+ if (0 == tracker->trigger_ref_count) {
+ schedule_mask |= mali_timeline_tracker_activate(tracker);
+ }
+
+ mali_spinlock_reentrant_signal(system->spinlock, tid);
+
+#if defined(CONFIG_SYNC)
+ if (NULL != sync_fence) {
+ sync_fence_put(sync_fence);
+ }
+#endif /* defined(CONFIG_SYNC) */
+
+ mali_scheduler_schedule_from_mask(schedule_mask, MALI_FALSE);
+}
+
+mali_timeline_point mali_timeline_system_add_tracker(struct mali_timeline_system *system,
+ struct mali_timeline_tracker *tracker,
+ enum mali_timeline_id timeline_id)
+{
+ int num_waiters = 0;
+ struct mali_timeline_waiter *waiter_tail, *waiter_head;
+ u32 tid = _mali_osk_get_tid();
+ mali_timeline_point point = MALI_TIMELINE_NO_POINT;
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT_POINTER(system->session);
+ MALI_DEBUG_ASSERT_POINTER(tracker);
+
+ MALI_DEBUG_ASSERT(MALI_FALSE == system->session->is_aborting);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_TRACKER_MAX > tracker->type);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_TRACKER_MAGIC == tracker->magic);
+
+ MALI_DEBUG_PRINT(4, ("Mali Timeline: adding tracker for job %p, timeline: %d\n", tracker->job, timeline_id));
+
+ MALI_DEBUG_ASSERT(0 < tracker->trigger_ref_count);
+ tracker->system = system;
+
+ mali_spinlock_reentrant_wait(system->spinlock, tid);
+
+ num_waiters = mali_timeline_fence_num_waiters(&tracker->fence);
+
+ /* Allocate waiters. */
+ mali_timeline_system_allocate_waiters(system, &waiter_tail, &waiter_head, num_waiters);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system));
+
+ /* Add tracker to timeline. This will allocate a point for the tracker on the timeline. If
+ * timeline ID is MALI_TIMELINE_NONE the tracker will NOT be added to a timeline and the
+ * point will be MALI_TIMELINE_NO_POINT.
+ *
+ * NOTE: the tracker can fail to be added if the timeline is full. If this happens, the
+ * point will be MALI_TIMELINE_NO_POINT. */
+ MALI_DEBUG_ASSERT(timeline_id < MALI_TIMELINE_MAX || timeline_id == MALI_TIMELINE_NONE);
+ if (likely(timeline_id < MALI_TIMELINE_MAX)) {
+ struct mali_timeline *timeline = system->timelines[timeline_id];
+ mali_timeline_insert_tracker(timeline, tracker);
+ MALI_DEBUG_ASSERT(!mali_timeline_is_empty(timeline));
+ }
+
+ point = tracker->point;
+
+ /* Create waiters for tracker based on supplied fence. Each waiter will increase the
+ * trigger ref count. */
+ mali_timeline_system_create_waiters_and_unlock(system, tracker, waiter_tail, waiter_head);
+ tracker = NULL;
+
+ /* At this point the tracker object might have been freed so we should no longer
+ * access it. */
+
+
+ /* The tracker will always be activated after calling add_tracker, even if NO_POINT is
+ * returned. */
+ return point;
+}
+
+static mali_scheduler_mask mali_timeline_system_release_waiter(struct mali_timeline_system *system,
+ struct mali_timeline_waiter *waiter)
+{
+ struct mali_timeline_tracker *tracker;
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT_POINTER(waiter);
+
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system));
+
+ tracker = waiter->tracker;
+ MALI_DEBUG_ASSERT_POINTER(tracker);
+
+ /* At this point the waiter has been removed from the timeline's waiter list, but it is
+ * still on the tracker's waiter list. All of the tracker's waiters will be released when
+ * the tracker is activated. */
+
+ waiter->point = MALI_TIMELINE_NO_POINT;
+ waiter->tracker = NULL;
+
+ tracker->trigger_ref_count--;
+ if (0 == tracker->trigger_ref_count) {
+ /* This was the last waiter; activate tracker */
+ schedule_mask |= mali_timeline_tracker_activate(tracker);
+ tracker = NULL;
+ }
+
+ return schedule_mask;
+}
+
+mali_timeline_point mali_timeline_system_get_latest_point(struct mali_timeline_system *system,
+ enum mali_timeline_id timeline_id)
+{
+ mali_timeline_point point;
+ struct mali_timeline *timeline;
+ u32 tid = _mali_osk_get_tid();
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+
+ if (MALI_TIMELINE_MAX <= timeline_id) {
+ return MALI_TIMELINE_NO_POINT;
+ }
+
+ mali_spinlock_reentrant_wait(system->spinlock, tid);
+
+ timeline = system->timelines[timeline_id];
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+
+ point = MALI_TIMELINE_NO_POINT;
+ if (timeline->point_oldest != timeline->point_next) {
+ point = timeline->point_next - 1;
+ if (MALI_TIMELINE_NO_POINT == point) point--;
+ }
+
+ mali_spinlock_reentrant_signal(system->spinlock, tid);
+
+ return point;
+}
+
+#if defined(MALI_TIMELINE_DEBUG_FUNCTIONS)
+
+static mali_bool is_waiting_on_timeline(struct mali_timeline_tracker *tracker, enum mali_timeline_id id)
+{
+ struct mali_timeline *timeline;
+ struct mali_timeline_system *system;
+
+ MALI_DEBUG_ASSERT_POINTER(tracker);
+
+ MALI_DEBUG_ASSERT_POINTER(tracker->timeline);
+ timeline = tracker->timeline;
+
+ MALI_DEBUG_ASSERT_POINTER(timeline->system);
+ system = timeline->system;
+
+ if (MALI_TIMELINE_MAX > id) {
+ return mali_timeline_is_point_on(system->timelines[id], tracker->fence.points[id]);
+ } else {
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_NONE == id);
+ return MALI_FALSE;
+ }
+}
+
+static const char *timeline_id_to_string(enum mali_timeline_id id)
+{
+ switch (id) {
+ case MALI_TIMELINE_GP:
+ return " GP";
+ case MALI_TIMELINE_PP:
+ return " PP";
+ case MALI_TIMELINE_SOFT:
+ return "SOFT";
+ default:
+ return "NONE";
+ }
+}
+
+static const char *timeline_tracker_type_to_string(enum mali_timeline_tracker_type type)
+{
+ switch (type) {
+ case MALI_TIMELINE_TRACKER_GP:
+ return " GP";
+ case MALI_TIMELINE_TRACKER_PP:
+ return " PP";
+ case MALI_TIMELINE_TRACKER_SOFT:
+ return "SOFT";
+ case MALI_TIMELINE_TRACKER_WAIT:
+ return "WAIT";
+ case MALI_TIMELINE_TRACKER_SYNC:
+ return "SYNC";
+ default:
+ return "INVALID";
+ }
+}
+
+mali_timeline_tracker_state mali_timeline_debug_get_tracker_state(struct mali_timeline_tracker *tracker)
+{
+ struct mali_timeline *timeline = NULL;
+
+ MALI_DEBUG_ASSERT_POINTER(tracker);
+ timeline = tracker->timeline;
+
+ if (0 != tracker->trigger_ref_count) {
+ return MALI_TIMELINE_TS_WAITING;
+ }
+
+ if (timeline && (timeline->tracker_tail == tracker || NULL != tracker->timeline_prev)) {
+ return MALI_TIMELINE_TS_ACTIVE;
+ }
+
+ if (timeline && (MALI_TIMELINE_NO_POINT == tracker->point)) {
+ return MALI_TIMELINE_TS_INIT;
+ }
+
+ return MALI_TIMELINE_TS_FINISH;
+}
+
+void mali_timeline_debug_print_tracker(struct mali_timeline_tracker *tracker)
+{
+ const char *tracker_state = "IWAF";
+
+ MALI_DEBUG_ASSERT_POINTER(tracker);
+
+ if (0 != tracker->trigger_ref_count) {
+ MALI_PRINTF(("TL: %s %u %c - ref_wait:%u [%s%u,%s%u,%s%u,%d] (0x%08X)\n",
+ timeline_tracker_type_to_string(tracker->type), tracker->point,
+ *(tracker_state + mali_timeline_debug_get_tracker_state(tracker)),
+ tracker->trigger_ref_count,
+ is_waiting_on_timeline(tracker, MALI_TIMELINE_GP) ? "W" : " ", tracker->fence.points[0],
+ is_waiting_on_timeline(tracker, MALI_TIMELINE_PP) ? "W" : " ", tracker->fence.points[1],
+ is_waiting_on_timeline(tracker, MALI_TIMELINE_SOFT) ? "W" : " ", tracker->fence.points[2],
+ tracker->fence.sync_fd, tracker->job));
+ } else {
+ MALI_PRINTF(("TL: %s %u %c (0x%08X)\n",
+ timeline_tracker_type_to_string(tracker->type), tracker->point,
+ *(tracker_state + mali_timeline_debug_get_tracker_state(tracker)),
+ tracker->job));
+ }
+}
+
+void mali_timeline_debug_print_timeline(struct mali_timeline *timeline)
+{
+ struct mali_timeline_tracker *tracker = NULL;
+ int i_max = 30;
+
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+
+ tracker = timeline->tracker_tail;
+ while (NULL != tracker && 0 < --i_max) {
+ mali_timeline_debug_print_tracker(tracker);
+ tracker = tracker->timeline_next;
+ }
+
+ if (0 == i_max) {
+ MALI_PRINTF(("TL: Too many trackers in list to print\n"));
+ }
+}
+
+void mali_timeline_debug_print_system(struct mali_timeline_system *system)
+{
+ int i;
+ int num_printed = 0;
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+
+ /* Print all timelines */
+ for (i = 0; i < MALI_TIMELINE_MAX; ++i) {
+ struct mali_timeline *timeline = system->timelines[i];
+
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+
+ if (NULL == timeline->tracker_head) continue;
+
+ MALI_PRINTF(("TL: Timeline %s:\n",
+ timeline_id_to_string((enum mali_timeline_id)i)));
+ mali_timeline_debug_print_timeline(timeline);
+ num_printed++;
+ }
+
+ if (0 == num_printed) {
+ MALI_PRINTF(("TL: All timelines empty\n"));
+ }
+}
+
+#endif /* defined(MALI_TIMELINE_DEBUG_FUNCTIONS) */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_TIMELINE_H__
+#define __MALI_TIMELINE_H__
+
+#include "mali_osk.h"
+#include "mali_ukk.h"
+#include "mali_session.h"
+#include "mali_kernel_common.h"
+#include "mali_spinlock_reentrant.h"
+#include "mali_sync.h"
+#include "mali_scheduler_types.h"
+
+/**
+ * Soft job timeout.
+ *
+ * Soft jobs have to be signaled as complete after activation. Normally this is done by user space,
+ * but in order to guarantee that every soft job is completed, we also have a timer.
+ */
+#define MALI_TIMELINE_TIMEOUT_HZ ((u32) (HZ * 3 / 2)) /* 1500 ms. */
+
+/**
+ * Timeline type.
+ */
+typedef enum mali_timeline_id {
+ MALI_TIMELINE_GP = MALI_UK_TIMELINE_GP, /**< GP job timeline. */
+ MALI_TIMELINE_PP = MALI_UK_TIMELINE_PP, /**< PP job timeline. */
+ MALI_TIMELINE_SOFT = MALI_UK_TIMELINE_SOFT, /**< Soft job timeline. */
+ MALI_TIMELINE_MAX = MALI_UK_TIMELINE_MAX
+} mali_timeline_id;
+
+/**
+ * Used by trackers that should not be added to a timeline (@ref mali_timeline_system_add_tracker).
+ */
+#define MALI_TIMELINE_NONE MALI_TIMELINE_MAX
+
+/**
+ * Tracker type.
+ */
+typedef enum mali_timeline_tracker_type {
+ MALI_TIMELINE_TRACKER_GP = 0, /**< Tracker used by GP jobs. */
+ MALI_TIMELINE_TRACKER_PP = 1, /**< Tracker used by PP jobs. */
+ MALI_TIMELINE_TRACKER_SOFT = 2, /**< Tracker used by soft jobs. */
+ MALI_TIMELINE_TRACKER_WAIT = 3, /**< Tracker used for fence wait. */
+ MALI_TIMELINE_TRACKER_SYNC = 4, /**< Tracker used for sync fence. */
+ MALI_TIMELINE_TRACKER_MAX = 5,
+} mali_timeline_tracker_type;
+
+/**
+ * Tracker activation error.
+ */
+typedef u32 mali_timeline_activation_error;
+#define MALI_TIMELINE_ACTIVATION_ERROR_NONE 0
+#define MALI_TIMELINE_ACTIVATION_ERROR_SYNC_BIT (1<<1)
+#define MALI_TIMELINE_ACTIVATION_ERROR_FATAL_BIT (1<<0)
+
+/**
+ * Type used to represent a point on a timeline.
+ */
+typedef u32 mali_timeline_point;
+
+/**
+ * Used to represent that no point on a timeline.
+ */
+#define MALI_TIMELINE_NO_POINT ((mali_timeline_point) 0)
+
+/**
+ * The maximum span of points on a timeline. A timeline will be considered full if the difference
+ * between the oldest and newest points is equal or larger to this value.
+ */
+#define MALI_TIMELINE_MAX_POINT_SPAN 65536
+
+/**
+ * Magic value used to assert on validity of trackers.
+ */
+#define MALI_TIMELINE_TRACKER_MAGIC 0xabcdabcd
+
+struct mali_timeline;
+struct mali_timeline_waiter;
+struct mali_timeline_tracker;
+
+/**
+ * Timeline fence.
+ */
+struct mali_timeline_fence {
+ mali_timeline_point points[MALI_TIMELINE_MAX]; /**< For each timeline, a point or MALI_TIMELINE_NO_POINT. */
+ s32 sync_fd; /**< A file descriptor representing a sync fence, or -1. */
+};
+
+/**
+ * Timeline system.
+ *
+ * The Timeline system has a set of timelines associated with a session.
+ */
+struct mali_timeline_system {
+ struct mali_spinlock_reentrant *spinlock; /**< Spin lock protecting the timeline system */
+ struct mali_timeline *timelines[MALI_TIMELINE_MAX]; /**< The timelines in this system */
+
+ /* Single-linked list of unused waiter objects. Uses the tracker_next field in tracker. */
+ struct mali_timeline_waiter *waiter_empty_list;
+
+ struct mali_session_data *session; /**< Session that owns this system. */
+
+ mali_bool timer_enabled; /**< Set to MALI_TRUE if soft job timer should be enabled, MALI_FALSE if not. */
+
+ _mali_osk_wait_queue_t *wait_queue; /**< Wait queue. */
+
+#if defined(CONFIG_SYNC)
+ struct sync_timeline *signaled_sync_tl; /**< Special sync timeline used to create pre-signaled sync fences */
+#endif /* defined(CONFIG_SYNC) */
+};
+
+/**
+ * Timeline. Each Timeline system will have MALI_TIMELINE_MAX timelines.
+ */
+struct mali_timeline {
+ mali_timeline_point point_next; /**< The next available point. */
+ mali_timeline_point point_oldest; /**< The oldest point not released. */
+
+ /* Double-linked list of trackers. Sorted in ascending order by tracker->time_number with
+ * tail pointing to the tracker with the oldest time. */
+ struct mali_timeline_tracker *tracker_head;
+ struct mali_timeline_tracker *tracker_tail;
+
+ /* Double-linked list of waiters. Sorted in ascending order by waiter->time_number_wait
+ * with tail pointing to the waiter with oldest wait time. */
+ struct mali_timeline_waiter *waiter_head;
+ struct mali_timeline_waiter *waiter_tail;
+
+ struct mali_timeline_system *system; /**< Timeline system this timeline belongs to. */
+ enum mali_timeline_id id; /**< Timeline type. */
+
+#if defined(CONFIG_SYNC)
+ struct sync_timeline *sync_tl; /**< Sync timeline that corresponds to this timeline. */
+#endif /* defined(CONFIG_SYNC) */
+
+ /* The following fields are used to time out soft job trackers. */
+ _mali_osk_wq_delayed_work_t *delayed_work;
+ mali_bool timer_active;
+};
+
+/**
+ * Timeline waiter.
+ */
+struct mali_timeline_waiter {
+ mali_timeline_point point; /**< Point on timeline we are waiting for to be released. */
+ struct mali_timeline_tracker *tracker; /**< Tracker that is waiting. */
+
+ struct mali_timeline_waiter *timeline_next; /**< Next waiter on timeline's waiter list. */
+ struct mali_timeline_waiter *timeline_prev; /**< Previous waiter on timeline's waiter list. */
+
+ struct mali_timeline_waiter *tracker_next; /**< Next waiter on tracker's waiter list. */
+};
+
+/**
+ * Timeline tracker.
+ */
+struct mali_timeline_tracker {
+ MALI_DEBUG_CODE(u32 magic); /**< Should always be MALI_TIMELINE_TRACKER_MAGIC for a valid tracker. */
+
+ mali_timeline_point point; /**< Point on timeline for this tracker */
+
+ struct mali_timeline_tracker *timeline_next; /**< Next tracker on timeline's tracker list */
+ struct mali_timeline_tracker *timeline_prev; /**< Previous tracker on timeline's tracker list */
+
+ u32 trigger_ref_count; /**< When zero tracker will be activated */
+ mali_timeline_activation_error activation_error; /**< Activation error. */
+ struct mali_timeline_fence fence; /**< Fence used to create this tracker */
+
+ /* Single-linked list of waiters. Sorted in order of insertions with
+ * tail pointing to first waiter. */
+ struct mali_timeline_waiter *waiter_head;
+ struct mali_timeline_waiter *waiter_tail;
+
+#if defined(CONFIG_SYNC)
+ /* These are only used if the tracker is waiting on a sync fence. */
+ struct mali_timeline_waiter *waiter_sync; /**< A direct pointer to timeline waiter representing sync fence. */
+ struct sync_fence_waiter sync_fence_waiter; /**< Used to connect sync fence and tracker in sync fence wait callback. */
+ struct sync_fence *sync_fence; /**< The sync fence this tracker is waiting on. */
+ _mali_osk_list_t sync_fence_cancel_list; /**< List node used to cancel sync fence waiters. */
+#endif /* defined(CONFIG_SYNC) */
+
+ struct mali_timeline_system *system; /**< Timeline system. */
+ struct mali_timeline *timeline; /**< Timeline, or NULL if not on a timeline. */
+ enum mali_timeline_tracker_type type; /**< Type of tracker. */
+ void *job; /**< Owner of tracker. */
+
+ /* The following fields are used to time out soft job trackers. */
+ u32 os_tick_create;
+ u32 os_tick_activate;
+ mali_bool timer_active;
+};
+
+/**
+ * What follows is a set of functions to check the state of a timeline and to determine where on a
+ * timeline a given point is. Most of these checks will translate the timeline so the oldest point
+ * on the timeline is aligned with zero. Remember that all of these calculation are done on
+ * unsigned integers.
+ *
+ * The following example illustrates the three different states a point can be in. The timeline has
+ * been translated to put the oldest point at zero:
+ *
+ *
+ *
+ * [ point is in forbidden zone ]
+ * 64k wide
+ * MALI_TIMELINE_MAX_POINT_SPAN
+ *
+ * [ point is on timeline ) ( point is released ]
+ *
+ * 0--------------------------##############################--------------------2^32 - 1
+ * ^ ^
+ * \ |
+ * oldest point on timeline |
+ * \
+ * next point on timeline
+ */
+
+/**
+ * Compare two timeline points
+ *
+ * Returns true if a is after b, false if a is before or equal to b.
+ *
+ * This funcion ignores MALI_TIMELINE_MAX_POINT_SPAN. Wrapping is supported and
+ * the result will be correct if the points is less then UINT_MAX/2 apart.
+ *
+ * @param a Point on timeline
+ * @param b Point on timeline
+ * @return MALI_TRUE if a is after b
+ */
+MALI_STATIC_INLINE mali_bool mali_timeline_point_after(mali_timeline_point a, mali_timeline_point b)
+{
+ return 0 > ((s32)b) - ((s32)a);
+}
+
+/**
+ * Check if a point is on timeline. A point is on a timeline if it is greater than, or equal to,
+ * the oldest point, and less than the next point.
+ *
+ * @param timeline Timeline.
+ * @param point Point on timeline.
+ * @return MALI_TRUE if point is on timeline, MALI_FALSE if not.
+ */
+MALI_STATIC_INLINE mali_bool mali_timeline_is_point_on(struct mali_timeline *timeline, mali_timeline_point point)
+{
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_NO_POINT != point);
+
+ return (point - timeline->point_oldest) < (timeline->point_next - timeline->point_oldest);
+}
+
+/**
+ * Check if a point has been released. A point is released if it is older than the oldest point on
+ * the timeline, newer than the next point, and also not in the forbidden zone.
+ *
+ * @param timeline Timeline.
+ * @param point Point on timeline.
+ * @return MALI_TRUE if point has been release, MALI_FALSE if not.
+ */
+MALI_STATIC_INLINE mali_bool mali_timeline_is_point_released(struct mali_timeline *timeline, mali_timeline_point point)
+{
+ mali_timeline_point point_normalized;
+ mali_timeline_point next_normalized;
+
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_NO_POINT != point);
+
+ point_normalized = point - timeline->point_oldest;
+ next_normalized = timeline->point_next - timeline->point_oldest;
+
+ return point_normalized > (next_normalized + MALI_TIMELINE_MAX_POINT_SPAN);
+}
+
+/**
+ * Check if a point is valid. A point is valid if is on the timeline or has been released.
+ *
+ * @param timeline Timeline.
+ * @param point Point on timeline.
+ * @return MALI_TRUE if point is valid, MALI_FALSE if not.
+ */
+MALI_STATIC_INLINE mali_bool mali_timeline_is_point_valid(struct mali_timeline *timeline, mali_timeline_point point)
+{
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+ return mali_timeline_is_point_on(timeline, point) || mali_timeline_is_point_released(timeline, point);
+}
+
+/**
+ * Check if timeline is empty (has no points on it). A timeline is empty if next == oldest.
+ *
+ * @param timeline Timeline.
+ * @return MALI_TRUE if timeline is empty, MALI_FALSE if not.
+ */
+MALI_STATIC_INLINE mali_bool mali_timeline_is_empty(struct mali_timeline *timeline)
+{
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+ return timeline->point_next == timeline->point_oldest;
+}
+
+/**
+ * Check if timeline is full. A valid timeline cannot span more than 64k points (@ref
+ * MALI_TIMELINE_MAX_POINT_SPAN).
+ *
+ * @param timeline Timeline.
+ * @return MALI_TRUE if timeline is full, MALI_FALSE if not.
+ */
+MALI_STATIC_INLINE mali_bool mali_timeline_is_full(struct mali_timeline *timeline)
+{
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+ return MALI_TIMELINE_MAX_POINT_SPAN <= (timeline->point_next - timeline->point_oldest);
+}
+
+/**
+ * Create a new timeline system.
+ *
+ * @param session The session this timeline system will belong to.
+ * @return New timeline system.
+ */
+struct mali_timeline_system *mali_timeline_system_create(struct mali_session_data *session);
+
+/**
+ * Abort timeline system.
+ *
+ * This will release all pending waiters in the timeline system causing all trackers to be
+ * activated.
+ *
+ * @param system Timeline system to abort all jobs from.
+ */
+void mali_timeline_system_abort(struct mali_timeline_system *system);
+
+/**
+ * Destroy an empty timeline system.
+ *
+ * @note @ref mali_timeline_system_abort() should be called prior to this function.
+ *
+ * @param system Timeline system to destroy.
+ */
+void mali_timeline_system_destroy(struct mali_timeline_system *system);
+
+/**
+ * Stop the soft job timer.
+ *
+ * @param system Timeline system
+ */
+void mali_timeline_system_stop_timer(struct mali_timeline_system *system);
+
+/**
+ * Add a tracker to a timeline system and optionally also on a timeline.
+ *
+ * Once added to the timeline system, the tracker is guaranteed to be activated. The tracker can be
+ * activated before this function returns. Thus, it is also possible that the tracker is released
+ * before this function returns, depending on the tracker type.
+ *
+ * @note Tracker must be initialized (@ref mali_timeline_tracker_init) before being added to the
+ * timeline system.
+ *
+ * @param system Timeline system the tracker will be added to.
+ * @param tracker The tracker to be added.
+ * @param timeline_id Id of the timeline the tracker will be added to, or
+ * MALI_TIMELINE_NONE if it should not be added on a timeline.
+ * @return Point on timeline identifying this tracker, or MALI_TIMELINE_NO_POINT if not on timeline.
+ */
+mali_timeline_point mali_timeline_system_add_tracker(struct mali_timeline_system *system,
+ struct mali_timeline_tracker *tracker,
+ enum mali_timeline_id timeline_id);
+
+/**
+ * Get latest point on timeline.
+ *
+ * @param system Timeline system.
+ * @param timeline_id Id of timeline to get latest point from.
+ * @return Latest point on timeline, or MALI_TIMELINE_NO_POINT if the timeline is empty.
+ */
+mali_timeline_point mali_timeline_system_get_latest_point(struct mali_timeline_system *system,
+ enum mali_timeline_id timeline_id);
+
+/**
+ * Initialize tracker.
+ *
+ * Must be called before tracker is added to timeline system (@ref mali_timeline_system_add_tracker).
+ *
+ * @param tracker Tracker to initialize.
+ * @param type Type of tracker.
+ * @param fence Fence used to set up dependencies for tracker.
+ * @param job Pointer to job struct this tracker is associated with.
+ */
+void mali_timeline_tracker_init(struct mali_timeline_tracker *tracker,
+ mali_timeline_tracker_type type,
+ struct mali_timeline_fence *fence,
+ void *job);
+
+/**
+ * Grab trigger ref count on tracker.
+ *
+ * This will prevent tracker from being activated until the trigger ref count reaches zero.
+ *
+ * @note Tracker must have been initialized (@ref mali_timeline_tracker_init).
+ *
+ * @param system Timeline system.
+ * @param tracker Tracker.
+ */
+void mali_timeline_system_tracker_get(struct mali_timeline_system *system, struct mali_timeline_tracker *tracker);
+
+/**
+ * Release trigger ref count on tracker.
+ *
+ * If the trigger ref count reaches zero, the tracker will be activated.
+ *
+ * @param system Timeline system.
+ * @param tracker Tracker.
+ * @param activation_error Error bitmask if activated with error, or MALI_TIMELINE_ACTIVATION_ERROR_NONE if no error.
+ * @return Scheduling bitmask.
+ */
+mali_scheduler_mask mali_timeline_system_tracker_put(struct mali_timeline_system *system, struct mali_timeline_tracker *tracker, mali_timeline_activation_error activation_error);
+
+/**
+ * Release a tracker from the timeline system.
+ *
+ * This is used to signal that the job being tracker is finished, either due to normal circumstances
+ * (job complete/abort) or due to a timeout.
+ *
+ * We may need to schedule some subsystems after a tracker has been released and the returned
+ * bitmask will tell us if it is necessary. If the return value is non-zero, this value needs to be
+ * sent as an input parameter to @ref mali_scheduler_schedule_from_mask() to do the scheduling.
+ *
+ * @note Tracker must have been activated before being released.
+ * @warning Not calling @ref mali_scheduler_schedule_from_mask() after releasing a tracker can lead
+ * to a deadlock.
+ *
+ * @param tracker Tracker being released.
+ * @return Scheduling bitmask.
+ */
+mali_scheduler_mask mali_timeline_tracker_release(struct mali_timeline_tracker *tracker);
+
+/**
+ * Copy data from a UK fence to a Timeline fence.
+ *
+ * @param fence Timeline fence.
+ * @param uk_fence UK fence.
+ */
+void mali_timeline_fence_copy_uk_fence(struct mali_timeline_fence *fence, _mali_uk_fence_t *uk_fence);
+
+#define MALI_TIMELINE_DEBUG_FUNCTIONS
+#if defined(MALI_TIMELINE_DEBUG_FUNCTIONS)
+
+/**
+ * Tracker state. Used for debug printing.
+ */
+typedef enum mali_timeline_tracker_state {
+ MALI_TIMELINE_TS_INIT = 0,
+ MALI_TIMELINE_TS_WAITING = 1,
+ MALI_TIMELINE_TS_ACTIVE = 2,
+ MALI_TIMELINE_TS_FINISH = 3,
+} mali_timeline_tracker_state;
+
+/**
+ * Get tracker state.
+ *
+ * @param tracker Tracker to check.
+ * @return State of tracker.
+ */
+mali_timeline_tracker_state mali_timeline_debug_get_tracker_state(struct mali_timeline_tracker *tracker);
+
+/**
+ * Print debug information about tracker.
+ *
+ * @param tracker Tracker to print.
+ */
+void mali_timeline_debug_print_tracker(struct mali_timeline_tracker *tracker);
+
+/**
+ * Print debug information about timeline.
+ *
+ * @param timeline Timeline to print.
+ */
+void mali_timeline_debug_print_timeline(struct mali_timeline *timeline);
+
+/**
+ * Print debug information about timeline system.
+ *
+ * @param system Timeline system to print.
+ */
+void mali_timeline_debug_print_system(struct mali_timeline_system *system);
+
+#endif /* defined(MALI_TIMELINE_DEBUG_FUNCTIONS) */
+
+#endif /* __MALI_TIMELINE_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_timeline_fence_wait.h"
+
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_spinlock_reentrant.h"
+
+/**
+ * Allocate a fence waiter tracker.
+ *
+ * @return New fence waiter if successful, NULL if not.
+ */
+static struct mali_timeline_fence_wait_tracker *mali_timeline_fence_wait_tracker_alloc(void)
+{
+ return (struct mali_timeline_fence_wait_tracker *) _mali_osk_calloc(1, sizeof(struct mali_timeline_fence_wait_tracker));
+}
+
+/**
+ * Free fence waiter tracker.
+ *
+ * @param wait Fence wait tracker to free.
+ */
+static void mali_timeline_fence_wait_tracker_free(struct mali_timeline_fence_wait_tracker *wait)
+{
+ MALI_DEBUG_ASSERT_POINTER(wait);
+ _mali_osk_atomic_term(&wait->refcount);
+ _mali_osk_free(wait);
+}
+
+/**
+ * Check if fence wait tracker has been activated. Used as a wait queue condition.
+ *
+ * @param data Fence waiter.
+ * @return MALI_TRUE if tracker has been activated, MALI_FALSE if not.
+ */
+static mali_bool mali_timeline_fence_wait_tracker_is_activated(void *data)
+{
+ struct mali_timeline_fence_wait_tracker *wait;
+
+ wait = (struct mali_timeline_fence_wait_tracker *) data;
+ MALI_DEBUG_ASSERT_POINTER(wait);
+
+ return wait->activated;
+}
+
+/**
+ * Check if fence has been signaled.
+ *
+ * @param system Timeline system.
+ * @param fence Timeline fence.
+ * @return MALI_TRUE if fence is signaled, MALI_FALSE if not.
+ */
+static mali_bool mali_timeline_fence_wait_check_status(struct mali_timeline_system *system, struct mali_timeline_fence *fence)
+{
+ int i;
+ u32 tid = _mali_osk_get_tid();
+ mali_bool ret = MALI_TRUE;
+#if defined(CONFIG_SYNC)
+ struct sync_fence *sync_fence = NULL;
+#endif
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT_POINTER(fence);
+
+ mali_spinlock_reentrant_wait(system->spinlock, tid);
+
+ for (i = 0; i < MALI_TIMELINE_MAX; ++i) {
+ struct mali_timeline *timeline;
+ mali_timeline_point point;
+
+ point = fence->points[i];
+
+ if (likely(MALI_TIMELINE_NO_POINT == point)) {
+ /* Fence contains no point on this timeline. */
+ continue;
+ }
+
+ timeline = system->timelines[i];
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+
+ if (unlikely(!mali_timeline_is_point_valid(timeline, point))) {
+ MALI_PRINT_ERROR(("Mali Timeline: point %d is not valid (oldest=%d, next=%d)\n", point, timeline->point_oldest, timeline->point_next));
+ }
+
+ if (!mali_timeline_is_point_released(timeline, point)) {
+ ret = MALI_FALSE;
+ goto exit;
+ }
+ }
+
+#if defined(CONFIG_SYNC)
+ if (-1 != fence->sync_fd) {
+ sync_fence = sync_fence_fdget(fence->sync_fd);
+ if (likely(NULL != sync_fence)) {
+ if (0 == sync_fence->status) {
+ ret = MALI_FALSE;
+ }
+ } else {
+ MALI_PRINT_ERROR(("Mali Timeline: failed to get sync fence from fd %d\n", fence->sync_fd));
+ }
+ }
+#endif /* defined(CONFIG_SYNC) */
+
+exit:
+ mali_spinlock_reentrant_signal(system->spinlock, tid);
+
+#if defined(CONFIG_SYNC)
+ if (NULL != sync_fence) {
+ sync_fence_put(sync_fence);
+ }
+#endif /* defined(CONFIG_SYNC) */
+
+ return ret;
+}
+
+mali_bool mali_timeline_fence_wait(struct mali_timeline_system *system, struct mali_timeline_fence *fence, u32 timeout)
+{
+ struct mali_timeline_fence_wait_tracker *wait;
+ mali_timeline_point point;
+ mali_bool ret;
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT_POINTER(fence);
+
+ MALI_DEBUG_PRINT(4, ("Mali Timeline: wait on fence\n"));
+
+ if (MALI_TIMELINE_FENCE_WAIT_TIMEOUT_IMMEDIATELY == timeout) {
+ return mali_timeline_fence_wait_check_status(system, fence);
+ }
+
+ wait = mali_timeline_fence_wait_tracker_alloc();
+ if (unlikely(NULL == wait)) {
+ MALI_PRINT_ERROR(("Mali Timeline: failed to allocate data for fence wait\n"));
+ return MALI_FALSE;
+ }
+
+ wait->activated = MALI_FALSE;
+ wait->system = system;
+
+ /* Initialize refcount to two references. The reference first will be released by this
+ * function after the wait is over. The second reference will be released when the tracker
+ * is activated. */
+ _mali_osk_atomic_init(&wait->refcount, 2);
+
+ /* Add tracker to timeline system, but not to a timeline. */
+ mali_timeline_tracker_init(&wait->tracker, MALI_TIMELINE_TRACKER_WAIT, fence, wait);
+ point = mali_timeline_system_add_tracker(system, &wait->tracker, MALI_TIMELINE_NONE);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_NO_POINT == point);
+ MALI_IGNORE(point);
+
+ /* Wait for the tracker to be activated or time out. */
+ if (MALI_TIMELINE_FENCE_WAIT_TIMEOUT_NEVER == timeout) {
+ _mali_osk_wait_queue_wait_event(system->wait_queue, mali_timeline_fence_wait_tracker_is_activated, (void *) wait);
+ } else {
+ _mali_osk_wait_queue_wait_event_timeout(system->wait_queue, mali_timeline_fence_wait_tracker_is_activated, (void *) wait, timeout);
+ }
+
+ ret = wait->activated;
+
+ if (0 == _mali_osk_atomic_dec_return(&wait->refcount)) {
+ mali_timeline_fence_wait_tracker_free(wait);
+ }
+
+ return ret;
+}
+
+void mali_timeline_fence_wait_activate(struct mali_timeline_fence_wait_tracker *wait)
+{
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+
+ MALI_DEBUG_ASSERT_POINTER(wait);
+ MALI_DEBUG_ASSERT_POINTER(wait->system);
+
+ MALI_DEBUG_PRINT(4, ("Mali Timeline: activation for fence wait tracker\n"));
+
+ MALI_DEBUG_ASSERT(MALI_FALSE == wait->activated);
+ wait->activated = MALI_TRUE;
+
+ _mali_osk_wait_queue_wake_up(wait->system->wait_queue);
+
+ /* Nothing can wait on this tracker, so nothing to schedule after release. */
+ schedule_mask = mali_timeline_tracker_release(&wait->tracker);
+ MALI_DEBUG_ASSERT(MALI_SCHEDULER_MASK_EMPTY == schedule_mask);
+ MALI_IGNORE(schedule_mask);
+
+ if (0 == _mali_osk_atomic_dec_return(&wait->refcount)) {
+ mali_timeline_fence_wait_tracker_free(wait);
+ }
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_timeline_fence_wait.h
+ *
+ * This file contains functions used to wait until a Timeline fence is signaled.
+ */
+
+#ifndef __MALI_TIMELINE_FENCE_WAIT_H__
+#define __MALI_TIMELINE_FENCE_WAIT_H__
+
+#include "mali_osk.h"
+#include "mali_timeline.h"
+
+/**
+ * If used as the timeout argument in @ref mali_timeline_fence_wait, a timer is not used and the
+ * function only returns when the fence is signaled.
+ */
+#define MALI_TIMELINE_FENCE_WAIT_TIMEOUT_NEVER ((u32) -1)
+
+/**
+ * If used as the timeout argument in @ref mali_timeline_fence_wait, the function will return
+ * immediately with the current state of the fence.
+ */
+#define MALI_TIMELINE_FENCE_WAIT_TIMEOUT_IMMEDIATELY 0
+
+/**
+ * Fence wait tracker.
+ *
+ * The fence wait tracker is added to the Timeline system with the fence we are waiting on as a
+ * dependency. We will then perform a blocking wait, possibly with a timeout, until the tracker is
+ * activated, which happens when the fence is signaled.
+ */
+struct mali_timeline_fence_wait_tracker {
+ mali_bool activated; /**< MALI_TRUE if the tracker has been activated, MALI_FALSE if not. */
+ _mali_osk_atomic_t refcount; /**< Reference count. */
+ struct mali_timeline_system *system; /**< Timeline system. */
+ struct mali_timeline_tracker tracker; /**< Timeline tracker. */
+};
+
+/**
+ * Wait for a fence to be signaled, or timeout is reached.
+ *
+ * @param system Timeline system.
+ * @param fence Fence to wait on.
+ * @param timeout Timeout in ms, or MALI_TIMELINE_FENCE_WAIT_TIMEOUT_NEVER or
+ * MALI_TIMELINE_FENCE_WAIT_TIMEOUT_IMMEDIATELY.
+ * @return MALI_TRUE if signaled, MALI_FALSE if timed out.
+ */
+mali_bool mali_timeline_fence_wait(struct mali_timeline_system *system, struct mali_timeline_fence *fence, u32 timeout);
+
+/**
+ * Used by the Timeline system to activate a fence wait tracker.
+ *
+ * @param fence_wait_tracker Fence waiter tracker.
+ */
+void mali_timeline_fence_wait_activate(struct mali_timeline_fence_wait_tracker *fence_wait_tracker);
+
+#endif /* __MALI_TIMELINE_FENCE_WAIT_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_timeline_sync_fence.h"
+
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_sync.h"
+
+#if defined(CONFIG_SYNC)
+
+/**
+ * Creates a sync fence tracker and a sync fence. Adds sync fence tracker to Timeline system and
+ * returns sync fence. The sync fence will be signaled when the sync fence tracker is activated.
+ *
+ * @param timeline Timeline.
+ * @param point Point on timeline.
+ * @return Sync fence that will be signaled when tracker is activated.
+ */
+static struct sync_fence *mali_timeline_sync_fence_create_and_add_tracker(struct mali_timeline *timeline, mali_timeline_point point)
+{
+ struct mali_timeline_sync_fence_tracker *sync_fence_tracker;
+ struct sync_fence *sync_fence;
+ struct mali_timeline_fence fence;
+
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_NO_POINT != point);
+
+ /* Allocate sync fence tracker. */
+ sync_fence_tracker = _mali_osk_calloc(1, sizeof(struct mali_timeline_sync_fence_tracker));
+ if (NULL == sync_fence_tracker) {
+ MALI_PRINT_ERROR(("Mali Timeline: sync_fence_tracker allocation failed\n"));
+ return NULL;
+ }
+
+ /* Create sync flag. */
+ MALI_DEBUG_ASSERT_POINTER(timeline->sync_tl);
+ sync_fence_tracker->flag = mali_sync_flag_create(timeline->sync_tl, point);
+ if (NULL == sync_fence_tracker->flag) {
+ MALI_PRINT_ERROR(("Mali Timeline: sync_flag creation failed\n"));
+ _mali_osk_free(sync_fence_tracker);
+ return NULL;
+ }
+
+ /* Create sync fence from sync flag. */
+ sync_fence = mali_sync_flag_create_fence(sync_fence_tracker->flag);
+ if (NULL == sync_fence) {
+ MALI_PRINT_ERROR(("Mali Timeline: sync_fence creation failed\n"));
+ mali_sync_flag_put(sync_fence_tracker->flag);
+ _mali_osk_free(sync_fence_tracker);
+ return NULL;
+ }
+
+ /* Setup fence for tracker. */
+ _mali_osk_memset(&fence, 0, sizeof(struct mali_timeline_fence));
+ fence.sync_fd = -1;
+ fence.points[timeline->id] = point;
+
+ /* Finally, add the tracker to Timeline system. */
+ mali_timeline_tracker_init(&sync_fence_tracker->tracker, MALI_TIMELINE_TRACKER_SYNC, &fence, sync_fence_tracker);
+ point = mali_timeline_system_add_tracker(timeline->system, &sync_fence_tracker->tracker, MALI_TIMELINE_NONE);
+ MALI_DEBUG_ASSERT(MALI_TIMELINE_NO_POINT == point);
+
+ return sync_fence;
+}
+
+s32 mali_timeline_sync_fence_create(struct mali_timeline_system *system, struct mali_timeline_fence *fence)
+{
+ u32 i;
+ struct sync_fence *sync_fence_acc = NULL;
+
+ MALI_DEBUG_ASSERT_POINTER(system);
+ MALI_DEBUG_ASSERT_POINTER(fence);
+
+ for (i = 0; i < MALI_TIMELINE_MAX; ++i) {
+ struct mali_timeline *timeline;
+ struct sync_fence *sync_fence;
+
+ if (MALI_TIMELINE_NO_POINT == fence->points[i]) continue;
+
+ timeline = system->timelines[i];
+ MALI_DEBUG_ASSERT_POINTER(timeline);
+
+ sync_fence = mali_timeline_sync_fence_create_and_add_tracker(timeline, fence->points[i]);
+ if (NULL == sync_fence) goto error;
+
+ if (NULL != sync_fence_acc) {
+ /* Merge sync fences. */
+ sync_fence_acc = mali_sync_fence_merge(sync_fence_acc, sync_fence);
+ if (NULL == sync_fence_acc) goto error;
+ } else {
+ /* This was the first sync fence created. */
+ sync_fence_acc = sync_fence;
+ }
+ }
+
+ if (-1 != fence->sync_fd) {
+ struct sync_fence *sync_fence;
+
+ sync_fence = sync_fence_fdget(fence->sync_fd);
+ if (NULL == sync_fence) goto error;
+
+ if (NULL != sync_fence_acc) {
+ sync_fence_acc = mali_sync_fence_merge(sync_fence_acc, sync_fence);
+ if (NULL == sync_fence_acc) goto error;
+ } else {
+ sync_fence_acc = sync_fence;
+ }
+ }
+
+ if (NULL == sync_fence_acc) {
+ MALI_DEBUG_ASSERT_POINTER(system->signaled_sync_tl);
+
+ /* There was nothing to wait on, so return an already signaled fence. */
+
+ sync_fence_acc = mali_sync_timeline_create_signaled_fence(system->signaled_sync_tl);
+ if (NULL == sync_fence_acc) goto error;
+ }
+
+ /* Return file descriptor for the accumulated sync fence. */
+ return mali_sync_fence_fd_alloc(sync_fence_acc);
+
+error:
+ if (NULL != sync_fence_acc) {
+ sync_fence_put(sync_fence_acc);
+ }
+
+ return -1;
+}
+
+void mali_timeline_sync_fence_activate(struct mali_timeline_sync_fence_tracker *sync_fence_tracker)
+{
+ mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY;
+
+ MALI_DEBUG_ASSERT_POINTER(sync_fence_tracker);
+ MALI_DEBUG_ASSERT_POINTER(sync_fence_tracker->flag);
+
+ MALI_DEBUG_PRINT(4, ("Mali Timeline: activation for sync fence tracker\n"));
+
+ /* Signal flag and release reference. */
+ mali_sync_flag_signal(sync_fence_tracker->flag, 0);
+ mali_sync_flag_put(sync_fence_tracker->flag);
+
+ /* Nothing can wait on this tracker, so nothing to schedule after release. */
+ schedule_mask = mali_timeline_tracker_release(&sync_fence_tracker->tracker);
+ MALI_DEBUG_ASSERT(MALI_SCHEDULER_MASK_EMPTY == schedule_mask);
+
+ _mali_osk_free(sync_fence_tracker);
+}
+
+#endif /* defined(CONFIG_SYNC) */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_timeline_sync_fence.h
+ *
+ * This file contains code related to creating sync fences from timeline fences.
+ */
+
+#ifndef __MALI_TIMELINE_SYNC_FENCE_H__
+#define __MALI_TIMELINE_SYNC_FENCE_H__
+
+#include "mali_timeline.h"
+
+#if defined(CONFIG_SYNC)
+
+/**
+ * Sync fence tracker.
+ */
+struct mali_timeline_sync_fence_tracker {
+ struct mali_sync_flag *flag; /**< Sync flag used to connect tracker and sync fence. */
+ struct mali_timeline_tracker tracker; /**< Timeline tracker. */
+};
+
+/**
+ * Create a sync fence that will be signaled when @ref fence is signaled.
+ *
+ * @param system Timeline system.
+ * @param fence Fence to create sync fence from.
+ * @return File descriptor for new sync fence, or -1 on error.
+ */
+s32 mali_timeline_sync_fence_create(struct mali_timeline_system *system, struct mali_timeline_fence *fence);
+
+/**
+ * Used by the Timeline system to activate a sync fence tracker.
+ *
+ * @param sync_fence_tracker Sync fence tracker.
+ *
+ */
+void mali_timeline_sync_fence_activate(struct mali_timeline_sync_fence_tracker *sync_fence_tracker);
+
+#endif /* defined(CONFIG_SYNC) */
+
+#endif /* __MALI_TIMELINE_SYNC_FENCE_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_ukk.h
+ * Defines the kernel-side interface of the user-kernel interface
+ */
+
+#ifndef __MALI_UKK_H__
+#define __MALI_UKK_H__
+
+#include "mali_osk.h"
+#include "mali_uk_types.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * @addtogroup uddapi Unified Device Driver (UDD) APIs
+ *
+ * @{
+ */
+
+/**
+ * @addtogroup u_k_api UDD User/Kernel Interface (U/K) APIs
+ *
+ * - The _mali_uk functions are an abstraction of the interface to the device
+ * driver. On certain OSs, this would be implemented via the IOCTL interface.
+ * On other OSs, it could be via extension of some Device Driver Class, or
+ * direct function call for Bare metal/RTOSs.
+ * - It is important to note that:
+ * - The Device Driver has implemented the _mali_ukk set of functions
+ * - The Base Driver calls the corresponding set of _mali_uku functions.
+ * - What requires porting is solely the calling mechanism from User-side to
+ * Kernel-side, and propagating back the results.
+ * - Each U/K function is associated with a (group, number) pair from
+ * \ref _mali_uk_functions to make it possible for a common function in the
+ * Base Driver and Device Driver to route User/Kernel calls from/to the
+ * correct _mali_uk function. For example, in an IOCTL system, the IOCTL number
+ * would be formed based on the group and number assigned to the _mali_uk
+ * function, as listed in \ref _mali_uk_functions. On the user-side, each
+ * _mali_uku function would just make an IOCTL with the IOCTL-code being an
+ * encoded form of the (group, number) pair. On the kernel-side, the Device
+ * Driver's IOCTL handler decodes the IOCTL-code back into a (group, number)
+ * pair, and uses this to determine which corresponding _mali_ukk should be
+ * called.
+ * - Refer to \ref _mali_uk_functions for more information about this
+ * (group, number) pairing.
+ * - In a system where there is no distinction between user and kernel-side,
+ * the U/K interface may be implemented as:@code
+ * MALI_STATIC_INLINE _mali_osk_errcode_t _mali_uku_examplefunction( _mali_uk_examplefunction_s *args )
+ * {
+ * return mali_ukk_examplefunction( args );
+ * }
+ * @endcode
+ * - Therefore, all U/K calls behave \em as \em though they were direct
+ * function calls (but the \b implementation \em need \em not be a direct
+ * function calls)
+ *
+ * @note Naming the _mali_uk functions the same on both User and Kernel sides
+ * on non-RTOS systems causes debugging issues when setting breakpoints. In
+ * this case, it is not clear which function the breakpoint is put on.
+ * Therefore the _mali_uk functions in user space are prefixed with \c _mali_uku
+ * and in kernel space with \c _mali_ukk. The naming for the argument
+ * structures is unaffected.
+ *
+ * - The _mali_uk functions are synchronous.
+ * - Arguments to the _mali_uk functions are passed in a structure. The only
+ * parameter passed to the _mali_uk functions is a pointer to this structure.
+ * This first member of this structure, ctx, is a pointer to a context returned
+ * by _mali_uku_open(). For example:@code
+ * typedef struct
+ * {
+ * void *ctx;
+ * u32 number_of_cores;
+ * } _mali_uk_get_gp_number_of_cores_s;
+ * @endcode
+ *
+ * - Each _mali_uk function has its own argument structure named after the
+ * function. The argument is distinguished by the _s suffix.
+ * - The argument types are defined by the base driver and user-kernel
+ * interface.
+ * - All _mali_uk functions return a standard \ref _mali_osk_errcode_t.
+ * - Only arguments of type input or input/output need be initialized before
+ * calling a _mali_uk function.
+ * - Arguments of type output and input/output are only valid when the
+ * _mali_uk function returns \ref _MALI_OSK_ERR_OK.
+ * - The \c ctx member is always invalid after it has been used by a
+ * _mali_uk function, except for the context management functions
+ *
+ *
+ * \b Interface \b restrictions
+ *
+ * The requirements of the interface mean that an implementation of the
+ * User-kernel interface may do no 'real' work. For example, the following are
+ * illegal in the User-kernel implementation:
+ * - Calling functions necessary for operation on all systems, which would
+ * not otherwise get called on RTOS systems.
+ * - For example, a U/K interface that calls multiple _mali_ukk functions
+ * during one particular U/K call. This could not be achieved by the same code
+ * which uses direct function calls for the U/K interface.
+ * - Writing in values to the args members, when otherwise these members would
+ * not hold a useful value for a direct function call U/K interface.
+ * - For example, U/K interface implementation that take NULL members in
+ * their arguments structure from the user side, but those members are
+ * replaced with non-NULL values in the kernel-side of the U/K interface
+ * implementation. A scratch area for writing data is one such example. In this
+ * case, a direct function call U/K interface would segfault, because no code
+ * would be present to replace the NULL pointer with a meaningful pointer.
+ * - Note that we discourage the case where the U/K implementation changes
+ * a NULL argument member to non-NULL, and then the Device Driver code (outside
+ * of the U/K layer) re-checks this member for NULL, and corrects it when
+ * necessary. Whilst such code works even on direct function call U/K
+ * intefaces, it reduces the testing coverage of the Device Driver code. This
+ * is because we have no way of testing the NULL == value path on an OS
+ * implementation.
+ *
+ * A number of allowable examples exist where U/K interfaces do 'real' work:
+ * - The 'pointer switching' technique for \ref _mali_ukk_get_system_info
+ * - In this case, without the pointer switching on direct function call
+ * U/K interface, the Device Driver code still sees the same thing: a pointer
+ * to which it can write memory. This is because such a system has no
+ * distinction between a user and kernel pointer.
+ * - Writing an OS-specific value into the ukk_private member for
+ * _mali_ukk_mem_mmap().
+ * - In this case, this value is passed around by Device Driver code, but
+ * its actual value is never checked. Device Driver code simply passes it from
+ * the U/K layer to the OSK layer, where it can be acted upon. In this case,
+ * \em some OS implementations of the U/K (_mali_ukk_mem_mmap()) and OSK
+ * (_mali_osk_mem_mapregion_init()) functions will collaborate on the
+ * meaning of ukk_private member. On other OSs, it may be unused by both
+ * U/K and OSK layers
+ * - Therefore, on error inside the U/K interface implementation itself,
+ * it will be as though the _mali_ukk function itself had failed, and cleaned
+ * up after itself.
+ * - Compare this to a direct function call U/K implementation, where all
+ * error cleanup is handled by the _mali_ukk function itself. The direct
+ * function call U/K interface implementation is automatically atomic.
+ *
+ * The last example highlights a consequence of all U/K interface
+ * implementations: they must be atomic with respect to the Device Driver code.
+ * And therefore, should Device Driver code succeed but the U/K implementation
+ * fail afterwards (but before return to user-space), then the U/K
+ * implementation must cause appropriate cleanup actions to preserve the
+ * atomicity of the interface.
+ *
+ * @{
+ */
+
+
+/** @defgroup _mali_uk_context U/K Context management
+ *
+ * These functions allow for initialisation of the user-kernel interface once per process.
+ *
+ * Generally the context will store the OS specific object to communicate with the kernel device driver and further
+ * state information required by the specific implementation. The context is shareable among all threads in the caller process.
+ *
+ * On IOCTL systems, this is likely to be a file descriptor as a result of opening the kernel device driver.
+ *
+ * On a bare-metal/RTOS system with no distinction between kernel and
+ * user-space, the U/K interface simply calls the _mali_ukk variant of the
+ * function by direct function call. In this case, the context returned is the
+ * mali_session_data from _mali_ukk_open().
+ *
+ * The kernel side implementations of the U/K interface expect the first member of the argument structure to
+ * be the context created by _mali_uku_open(). On some OS implementations, the meaning of this context
+ * will be different between user-side and kernel-side. In which case, the kernel-side will need to replace this context
+ * with the kernel-side equivalent, because user-side will not have access to kernel-side data. The context parameter
+ * in the argument structure therefore has to be of type input/output.
+ *
+ * It should be noted that the caller cannot reuse the \c ctx member of U/K
+ * argument structure after a U/K call, because it may be overwritten. Instead,
+ * the context handle must always be stored elsewhere, and copied into
+ * the appropriate U/K argument structure for each user-side call to
+ * the U/K interface. This is not usually a problem, since U/K argument
+ * structures are usually placed on the stack.
+ *
+ * @{ */
+
+/** @brief Begin a new Mali Device Driver session
+ *
+ * This is used to obtain a per-process context handle for all future U/K calls.
+ *
+ * @param context pointer to storage to return a (void*)context handle.
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_open( void **context );
+
+/** @brief End a Mali Device Driver session
+ *
+ * This should be called when the process no longer requires use of the Mali Device Driver.
+ *
+ * The context handle must not be used after it has been closed.
+ *
+ * @param context pointer to a stored (void*)context handle.
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_close( void **context );
+
+/** @} */ /* end group _mali_uk_context */
+
+
+/** @addtogroup _mali_uk_core U/K Core
+ *
+ * The core functions provide the following functionality:
+ * - verify that the user and kernel API are compatible
+ * - retrieve information about the cores and memory banks in the system
+ * - wait for the result of jobs started on a core
+ *
+ * @{ */
+
+/** @brief Waits for a job notification.
+ *
+ * Sleeps until notified or a timeout occurs. Returns information about the notification.
+ *
+ * @param args see _mali_uk_wait_for_notification_s in "mali_utgard_uk_types.h"
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_wait_for_notification( _mali_uk_wait_for_notification_s *args );
+
+/** @brief Post a notification to the notification queue of this application.
+ *
+ * @param args see _mali_uk_post_notification_s in "mali_utgard_uk_types.h"
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_post_notification( _mali_uk_post_notification_s *args );
+
+/** @brief Verifies if the user and kernel side of this API are compatible.
+ *
+ * @param args see _mali_uk_get_api_version_s in "mali_utgard_uk_types.h"
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_get_api_version( _mali_uk_get_api_version_s *args );
+
+/** @brief Get the user space settings applicable for calling process.
+ *
+ * @param args see _mali_uk_get_user_settings_s in "mali_utgard_uk_types.h"
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_get_user_settings(_mali_uk_get_user_settings_s *args);
+
+/** @brief Get a user space setting applicable for calling process.
+ *
+ * @param args see _mali_uk_get_user_setting_s in "mali_utgard_uk_types.h"
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_get_user_setting(_mali_uk_get_user_setting_s *args);
+
+/* @brief Grant or deny high priority scheduling for this session.
+ *
+ * @param args see _mali_uk_request_high_priority_s in "mali_utgard_uk_types.h"
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_request_high_priority(_mali_uk_request_high_priority_s *args);
+
+/** @} */ /* end group _mali_uk_core */
+
+
+/** @addtogroup _mali_uk_memory U/K Memory
+ *
+ * The memory functions provide functionality with and without a Mali-MMU present.
+ *
+ * For Mali-MMU based systems, the following functionality is provided:
+ * - Initialize and terminate MALI virtual address space
+ * - Allocate/deallocate physical memory to a MALI virtual address range and map into/unmap from the
+ * current process address space
+ * - Map/unmap external physical memory into the MALI virtual address range
+ *
+ * For Mali-nonMMU based systems:
+ * - Allocate/deallocate MALI memory
+ *
+ * @{ */
+
+/** @brief Map Mali Memory into the current user process
+ *
+ * Maps Mali memory into the current user process in a generic way.
+ *
+ * This function is to be used for Mali-MMU mode. The function is available in both Mali-MMU and Mali-nonMMU modes,
+ * but should not be called by a user process in Mali-nonMMU mode.
+ *
+ * The implementation and operation of _mali_ukk_mem_mmap() is dependant on whether the driver is built for Mali-MMU
+ * or Mali-nonMMU:
+ * - In the nonMMU case, _mali_ukk_mem_mmap() requires a physical address to be specified. For this reason, an OS U/K
+ * implementation should not allow this to be called from user-space. In any case, nonMMU implementations are
+ * inherently insecure, and so the overall impact is minimal. Mali-MMU mode should be used if security is desired.
+ * - In the MMU case, _mali_ukk_mem_mmap() the _mali_uk_mem_mmap_s::phys_addr
+ * member is used for the \em Mali-virtual address desired for the mapping. The
+ * implementation of _mali_ukk_mem_mmap() will allocate both the CPU-virtual
+ * and CPU-physical addresses, and can cope with mapping a contiguous virtual
+ * address range to a sequence of non-contiguous physical pages. In this case,
+ * the CPU-physical addresses are not communicated back to the user-side, as
+ * they are unnecsessary; the \em Mali-virtual address range must be used for
+ * programming Mali structures.
+ *
+ * In the second (MMU) case, _mali_ukk_mem_mmap() handles management of
+ * CPU-virtual and CPU-physical ranges, but the \em caller must manage the
+ * \em Mali-virtual address range from the user-side.
+ *
+ * @note Mali-virtual address ranges are entirely separate between processes.
+ * It is not possible for a process to accidentally corrupt another process'
+ * \em Mali-virtual address space.
+ *
+ * @param args see _mali_uk_mem_mmap_s in "mali_utgard_uk_types.h"
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_mem_mmap( _mali_uk_mem_mmap_s *args );
+
+/** @brief Unmap Mali Memory from the current user process
+ *
+ * Unmaps Mali memory from the current user process in a generic way. This only operates on Mali memory supplied
+ * from _mali_ukk_mem_mmap().
+ *
+ * @param args see _mali_uk_mem_munmap_s in "mali_utgard_uk_types.h"
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_mem_munmap( _mali_uk_mem_munmap_s *args );
+
+/** @brief Determine the buffer size necessary for an MMU page table dump.
+ * @param args see _mali_uk_query_mmu_page_table_dump_size_s in mali_utgard_uk_types.h
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_query_mmu_page_table_dump_size( _mali_uk_query_mmu_page_table_dump_size_s *args );
+/** @brief Dump MMU Page tables.
+ * @param args see _mali_uk_dump_mmu_page_table_s in mali_utgard_uk_types.h
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_dump_mmu_page_table( _mali_uk_dump_mmu_page_table_s * args );
+
+/** @brief Write user data to specified Mali memory without causing segfaults.
+ * @param args see _mali_uk_mem_write_safe_s in mali_utgard_uk_types.h
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_mem_write_safe( _mali_uk_mem_write_safe_s *args );
+
+/** @brief Map a physically contiguous range of memory into Mali
+ * @param args see _mali_uk_map_external_mem_s in mali_utgard_uk_types.h
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_map_external_mem( _mali_uk_map_external_mem_s *args );
+
+/** @brief Unmap a physically contiguous range of memory from Mali
+ * @param args see _mali_uk_unmap_external_mem_s in mali_utgard_uk_types.h
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_unmap_external_mem( _mali_uk_unmap_external_mem_s *args );
+
+#if defined(CONFIG_MALI400_UMP)
+/** @brief Map UMP memory into Mali
+ * @param args see _mali_uk_attach_ump_mem_s in mali_utgard_uk_types.h
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_attach_ump_mem( _mali_uk_attach_ump_mem_s *args );
+/** @brief Unmap UMP memory from Mali
+ * @param args see _mali_uk_release_ump_mem_s in mali_utgard_uk_types.h
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_release_ump_mem( _mali_uk_release_ump_mem_s *args );
+#endif /* CONFIG_MALI400_UMP */
+
+/** @brief Determine virtual-to-physical mapping of a contiguous memory range
+ * (optional)
+ *
+ * This allows the user-side to do a virtual-to-physical address translation.
+ * In conjunction with _mali_uku_map_external_mem, this can be used to do
+ * direct rendering.
+ *
+ * This function will only succeed on a virtual range that is mapped into the
+ * current process, and that is contigious.
+ *
+ * If va is not page-aligned, then it is rounded down to the next page
+ * boundary. The remainer is added to size, such that ((u32)va)+size before
+ * rounding is equal to ((u32)va)+size after rounding. The rounded modified
+ * va and size will be written out into args on success.
+ *
+ * If the supplied size is zero, or not a multiple of the system's PAGE_SIZE,
+ * then size will be rounded up to the next multiple of PAGE_SIZE before
+ * translation occurs. The rounded up size will be written out into args on
+ * success.
+ *
+ * On most OSs, virtual-to-physical address translation is a priveledged
+ * function. Therefore, the implementer must validate the range supplied, to
+ * ensure they are not providing arbitrary virtual-to-physical address
+ * translations. While it is unlikely such a mechanism could be used to
+ * compromise the security of a system on its own, it is possible it could be
+ * combined with another small security risk to cause a much larger security
+ * risk.
+ *
+ * @note This is an optional part of the interface, and is only used by certain
+ * implementations of libEGL. If the platform layer in your libEGL
+ * implementation does not require Virtual-to-Physical address translation,
+ * then this function need not be implemented. A stub implementation should not
+ * be required either, as it would only be removed by the compiler's dead code
+ * elimination.
+ *
+ * @note if implemented, this function is entirely platform-dependant, and does
+ * not exist in common code.
+ *
+ * @param args see _mali_uk_va_to_mali_pa_s in "mali_utgard_uk_types.h"
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_va_to_mali_pa( _mali_uk_va_to_mali_pa_s * args );
+
+/** @} */ /* end group _mali_uk_memory */
+
+
+/** @addtogroup _mali_uk_pp U/K Fragment Processor
+ *
+ * The Fragment Processor (aka PP (Pixel Processor)) functions provide the following functionality:
+ * - retrieving version of the fragment processors
+ * - determine number of fragment processors
+ * - starting a job on a fragment processor
+ *
+ * @{ */
+
+/** @brief Issue a request to start a new job on a Fragment Processor.
+ *
+ * If the request fails args->status is set to _MALI_UK_START_JOB_NOT_STARTED_DO_REQUEUE and you can
+ * try to start the job again.
+ *
+ * An existing job could be returned for requeueing if the new job has a higher priority than a previously started job
+ * which the hardware hasn't actually started processing yet. In this case the new job will be started instead and the
+ * existing one returned, otherwise the new job is started and the status field args->status is set to
+ * _MALI_UK_START_JOB_STARTED.
+ *
+ * Job completion can be awaited with _mali_ukk_wait_for_notification().
+ *
+ * @param ctx user-kernel context (mali_session)
+ * @param uargs see _mali_uk_pp_start_job_s in "mali_utgard_uk_types.h". Use _mali_osk_copy_from_user to retrieve data!
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_pp_start_job( void *ctx, _mali_uk_pp_start_job_s *uargs );
+
+/**
+ * @brief Issue a request to start new jobs on both Vertex Processor and Fragment Processor.
+ *
+ * @note Will call into @ref _mali_ukk_pp_start_job and @ref _mali_ukk_gp_start_job.
+ *
+ * @param ctx user-kernel context (mali_session)
+ * @param uargs see _mali_uk_pp_and_gp_start_job_s in "mali_utgard_uk_types.h". Use _mali_osk_copy_from_user to retrieve data!
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_pp_and_gp_start_job( void *ctx, _mali_uk_pp_and_gp_start_job_s *uargs );
+
+/** @brief Returns the number of Fragment Processors in the system
+ *
+ * @param args see _mali_uk_get_pp_number_of_cores_s in "mali_utgard_uk_types.h"
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_get_pp_number_of_cores( _mali_uk_get_pp_number_of_cores_s *args );
+
+/** @brief Returns the version that all Fragment Processor cores are compatible with.
+ *
+ * This function may only be called when _mali_ukk_get_pp_number_of_cores() indicated at least one Fragment
+ * Processor core is available.
+ *
+ * @param args see _mali_uk_get_pp_core_version_s in "mali_utgard_uk_types.h"
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_get_pp_core_version( _mali_uk_get_pp_core_version_s *args );
+
+/** @brief Disable Write-back unit(s) on specified job
+ *
+ * @param args see _mali_uk_get_pp_core_version_s in "mali_utgard_uk_types.h"
+ */
+void _mali_ukk_pp_job_disable_wb(_mali_uk_pp_disable_wb_s *args);
+
+
+/** @} */ /* end group _mali_uk_pp */
+
+
+/** @addtogroup _mali_uk_gp U/K Vertex Processor
+ *
+ * The Vertex Processor (aka GP (Geometry Processor)) functions provide the following functionality:
+ * - retrieving version of the Vertex Processors
+ * - determine number of Vertex Processors available
+ * - starting a job on a Vertex Processor
+ *
+ * @{ */
+
+/** @brief Issue a request to start a new job on a Vertex Processor.
+ *
+ * If the request fails args->status is set to _MALI_UK_START_JOB_NOT_STARTED_DO_REQUEUE and you can
+ * try to start the job again.
+ *
+ * An existing job could be returned for requeueing if the new job has a higher priority than a previously started job
+ * which the hardware hasn't actually started processing yet. In this case the new job will be started and the
+ * existing one returned, otherwise the new job is started and the status field args->status is set to
+ * _MALI_UK_START_JOB_STARTED.
+ *
+ * Job completion can be awaited with _mali_ukk_wait_for_notification().
+ *
+ * @param ctx user-kernel context (mali_session)
+ * @param uargs see _mali_uk_gp_start_job_s in "mali_utgard_uk_types.h". Use _mali_osk_copy_from_user to retrieve data!
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_gp_start_job( void *ctx, _mali_uk_gp_start_job_s *uargs );
+
+/** @brief Returns the number of Vertex Processors in the system.
+ *
+ * @param args see _mali_uk_get_gp_number_of_cores_s in "mali_utgard_uk_types.h"
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_get_gp_number_of_cores( _mali_uk_get_gp_number_of_cores_s *args );
+
+/** @brief Returns the version that all Vertex Processor cores are compatible with.
+ *
+ * This function may only be called when _mali_uk_get_gp_number_of_cores() indicated at least one Vertex
+ * Processor core is available.
+ *
+ * @param args see _mali_uk_get_gp_core_version_s in "mali_utgard_uk_types.h"
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_get_gp_core_version( _mali_uk_get_gp_core_version_s *args );
+
+/** @brief Resume or abort suspended Vertex Processor jobs.
+ *
+ * After receiving notification that a Vertex Processor job was suspended from
+ * _mali_ukk_wait_for_notification() you can use this function to resume or abort the job.
+ *
+ * @param args see _mali_uk_gp_suspend_response_s in "mali_utgard_uk_types.h"
+ * @return _MALI_OSK_ERR_OK on success, otherwise a suitable _mali_osk_errcode_t on failure.
+ */
+_mali_osk_errcode_t _mali_ukk_gp_suspend_response( _mali_uk_gp_suspend_response_s *args );
+
+/** @} */ /* end group _mali_uk_gp */
+
+#if defined(CONFIG_MALI400_PROFILING)
+/** @addtogroup _mali_uk_profiling U/K Timeline profiling module
+ * @{ */
+
+/** @brief Start recording profiling events.
+ *
+ * @param args see _mali_uk_profiling_start_s in "mali_utgard_uk_types.h"
+ */
+_mali_osk_errcode_t _mali_ukk_profiling_start(_mali_uk_profiling_start_s *args);
+
+/** @brief Add event to profiling buffer.
+ *
+ * @param args see _mali_uk_profiling_add_event_s in "mali_utgard_uk_types.h"
+ */
+_mali_osk_errcode_t _mali_ukk_profiling_add_event(_mali_uk_profiling_add_event_s *args);
+
+/** @brief Stop recording profiling events.
+ *
+ * @param args see _mali_uk_profiling_stop_s in "mali_utgard_uk_types.h"
+ */
+_mali_osk_errcode_t _mali_ukk_profiling_stop(_mali_uk_profiling_stop_s *args);
+
+/** @brief Retrieve a recorded profiling event.
+ *
+ * @param args see _mali_uk_profiling_get_event_s in "mali_utgard_uk_types.h"
+ */
+_mali_osk_errcode_t _mali_ukk_profiling_get_event(_mali_uk_profiling_get_event_s *args);
+
+/** @brief Clear recorded profiling events.
+ *
+ * @param args see _mali_uk_profiling_clear_s in "mali_utgard_uk_types.h"
+ */
+_mali_osk_errcode_t _mali_ukk_profiling_clear(_mali_uk_profiling_clear_s *args);
+
+/** @} */ /* end group _mali_uk_profiling */
+#endif
+
+/** @addtogroup _mali_uk_vsync U/K VSYNC reporting module
+ * @{ */
+
+/** @brief Report events related to vsync.
+ *
+ * @note Events should be reported when starting to wait for vsync and when the
+ * waiting is finished. This information can then be used in kernel space to
+ * complement the GPU utilization metric.
+ *
+ * @param args see _mali_uk_vsync_event_report_s in "mali_utgard_uk_types.h"
+ */
+_mali_osk_errcode_t _mali_ukk_vsync_event_report(_mali_uk_vsync_event_report_s *args);
+
+/** @} */ /* end group _mali_uk_vsync */
+
+/** @addtogroup _mali_sw_counters_report U/K Software counter reporting
+ * @{ */
+
+/** @brief Report software counters.
+ *
+ * @param args see _mali_uk_sw_counters_report_s in "mali_uk_types.h"
+ */
+_mali_osk_errcode_t _mali_ukk_sw_counters_report(_mali_uk_sw_counters_report_s *args);
+
+/** @} */ /* end group _mali_sw_counters_report */
+
+/** @} */ /* end group u_k_api */
+
+/** @} */ /* end group uddapi */
+
+u32 _mali_ukk_report_memory_usage(void);
+
+u32 _mali_ukk_utilization_gp_pp(void);
+
+u32 _mali_ukk_utilization_gp(void);
+
+u32 _mali_ukk_utilization_pp(void);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __MALI_UKK_H__ */
--- /dev/null
+/**
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_uk_types.h"
+#include "mali_user_settings_db.h"
+#include "mali_session.h"
+
+static u32 mali_user_settings[_MALI_UK_USER_SETTING_MAX];
+const char *_mali_uk_user_setting_descriptions[] = _MALI_UK_USER_SETTING_DESCRIPTIONS;
+
+static void mali_user_settings_notify(_mali_uk_user_setting_t setting, u32 value)
+{
+ mali_bool done = MALI_FALSE;
+
+ /*
+ * This function gets a bit complicated because we can't hold the session lock while
+ * allocating notification objects.
+ */
+
+ while (!done) {
+ u32 i;
+ u32 num_sessions_alloc;
+ u32 num_sessions_with_lock;
+ u32 used_notification_objects = 0;
+ _mali_osk_notification_t **notobjs;
+
+ /* Pre allocate the number of notifications objects we need right now (might change after lock has been taken) */
+ num_sessions_alloc = mali_session_get_count();
+ if (0 == num_sessions_alloc) {
+ /* No sessions to report to */
+ return;
+ }
+
+ notobjs = (_mali_osk_notification_t **)_mali_osk_malloc(sizeof(_mali_osk_notification_t *) * num_sessions_alloc);
+ if (NULL == notobjs) {
+ MALI_PRINT_ERROR(("Failed to notify user space session about num PP core change (alloc failure)\n"));
+ return;
+ }
+
+ for (i = 0; i < num_sessions_alloc; i++) {
+ notobjs[i] = _mali_osk_notification_create(_MALI_NOTIFICATION_SETTINGS_CHANGED,
+ sizeof(_mali_uk_settings_changed_s));
+ if (NULL != notobjs[i]) {
+ _mali_uk_settings_changed_s *data;
+ data = notobjs[i]->result_buffer;
+
+ data->setting = setting;
+ data->value = value;
+ } else {
+ MALI_PRINT_ERROR(("Failed to notify user space session about setting change (alloc failure %u)\n", i));
+ }
+ }
+
+ mali_session_lock();
+
+ /* number of sessions will not change while we hold the lock */
+ num_sessions_with_lock = mali_session_get_count();
+
+ if (num_sessions_alloc >= num_sessions_with_lock) {
+ /* We have allocated enough notification objects for all the sessions atm */
+ struct mali_session_data *session, *tmp;
+ MALI_SESSION_FOREACH(session, tmp, link) {
+ MALI_DEBUG_ASSERT(used_notification_objects < num_sessions_alloc);
+ if (NULL != notobjs[used_notification_objects]) {
+ mali_session_send_notification(session, notobjs[used_notification_objects]);
+ notobjs[used_notification_objects] = NULL; /* Don't track this notification object any more */
+ }
+ used_notification_objects++;
+ }
+ done = MALI_TRUE;
+ }
+
+ mali_session_unlock();
+
+ /* Delete any remaining/unused notification objects */
+ for (; used_notification_objects < num_sessions_alloc; used_notification_objects++) {
+ if (NULL != notobjs[used_notification_objects]) {
+ _mali_osk_notification_delete(notobjs[used_notification_objects]);
+ }
+ }
+
+ _mali_osk_free(notobjs);
+ }
+}
+
+void mali_set_user_setting(_mali_uk_user_setting_t setting, u32 value)
+{
+ mali_bool notify = MALI_FALSE;
+
+ if (setting >= _MALI_UK_USER_SETTING_MAX) {
+ MALI_DEBUG_PRINT_ERROR(("Invalid user setting %ud\n"));
+ return;
+ }
+
+ if (mali_user_settings[setting] != value) {
+ notify = MALI_TRUE;
+ }
+
+ mali_user_settings[setting] = value;
+
+ if (notify) {
+ mali_user_settings_notify(setting, value);
+ }
+}
+
+u32 mali_get_user_setting(_mali_uk_user_setting_t setting)
+{
+ if (setting >= _MALI_UK_USER_SETTING_MAX) {
+ return 0;
+ }
+
+ return mali_user_settings[setting];
+}
+
+_mali_osk_errcode_t _mali_ukk_get_user_setting(_mali_uk_get_user_setting_s *args)
+{
+ _mali_uk_user_setting_t setting;
+ MALI_DEBUG_ASSERT_POINTER(args);
+
+ setting = args->setting;
+
+ if (_MALI_UK_USER_SETTING_MAX > setting) {
+ args->value = mali_user_settings[setting];
+ return _MALI_OSK_ERR_OK;
+ } else {
+ return _MALI_OSK_ERR_INVALID_ARGS;
+ }
+}
+
+_mali_osk_errcode_t _mali_ukk_get_user_settings(_mali_uk_get_user_settings_s *args)
+{
+ MALI_DEBUG_ASSERT_POINTER(args);
+
+ _mali_osk_memcpy(args->settings, mali_user_settings, sizeof(mali_user_settings));
+
+ return _MALI_OSK_ERR_OK;
+}
--- /dev/null
+/**
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_USER_SETTINGS_DB_H__
+#define __MALI_USER_SETTINGS_DB_H__
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include "mali_uk_types.h"
+
+/** @brief Set Mali user setting in DB
+ *
+ * Update the DB with a new value for \a setting. If the value is different from theprevious set value running sessions will be notified of the change.
+ *
+ * @param setting the setting to be changed
+ * @param value the new value to set
+ */
+void mali_set_user_setting(_mali_uk_user_setting_t setting, u32 value);
+
+/** @brief Get current Mali user setting value from DB
+ *
+ * @param setting the setting to extract
+ * @return the value of the selected setting
+ */
+u32 mali_get_user_setting(_mali_uk_user_setting_t setting);
+
+#ifdef __cplusplus
+}
+#endif
+#endif /* __MALI_KERNEL_USER_SETTING__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_utgard.h
+ * Defines types and interface exposed by the Mali Utgard device driver
+ */
+
+#ifndef __MALI_UTGARD_H__
+#define __MALI_UTGARD_H__
+
+#include "mali_osk_types.h"
+
+#define MALI_GPU_NAME_UTGARD "mali-utgard"
+
+/* Mali-200 */
+
+#define MALI_GPU_RESOURCES_MALI200(base_addr, gp_irq, pp_irq, mmu_irq) \
+ MALI_GPU_RESOURCE_PP(base_addr + 0x0000, pp_irq) \
+ MALI_GPU_RESOURCE_GP(base_addr + 0x2000, gp_irq) \
+ MALI_GPU_RESOURCE_MMU(base_addr + 0x3000, mmu_irq)
+
+/* Mali-300 */
+
+#define MALI_GPU_RESOURCES_MALI300(base_addr, gp_irq, gp_mmu_irq, pp_irq, pp_mmu_irq) \
+ MALI_GPU_RESOURCES_MALI400_MP1(base_addr, gp_irq, gp_mmu_irq, pp_irq, pp_mmu_irq)
+
+#define MALI_GPU_RESOURCES_MALI300_PMU(base_addr, gp_irq, gp_mmu_irq, pp_irq, pp_mmu_irq) \
+ MALI_GPU_RESOURCES_MALI400_MP1_PMU(base_addr, gp_irq, gp_mmu_irq, pp_irq, pp_mmu_irq)
+
+/* Mali-400 */
+
+#define MALI_GPU_RESOURCES_MALI400_MP1(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq) \
+ MALI_GPU_RESOURCE_L2(base_addr + 0x1000) \
+ MALI_GPU_RESOURCE_GP_WITH_MMU(base_addr + 0x0000, gp_irq, base_addr + 0x3000, gp_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(0, base_addr + 0x8000, pp0_irq, base_addr + 0x4000, pp0_mmu_irq)
+
+#define MALI_GPU_RESOURCES_MALI400_MP1_PMU(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq) \
+ MALI_GPU_RESOURCES_MALI400_MP1(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq) \
+ MALI_GPU_RESOURCE_PMU(base_addr + 0x2000)
+
+#define MALI_GPU_RESOURCES_MALI400_MP2(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq) \
+ MALI_GPU_RESOURCE_L2(base_addr + 0x1000) \
+ MALI_GPU_RESOURCE_GP_WITH_MMU(base_addr + 0x0000, gp_irq, base_addr + 0x3000, gp_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(0, base_addr + 0x8000, pp0_irq, base_addr + 0x4000, pp0_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(1, base_addr + 0xA000, pp1_irq, base_addr + 0x5000, pp1_mmu_irq)
+
+#define MALI_GPU_RESOURCES_MALI400_MP2_PMU(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq) \
+ MALI_GPU_RESOURCES_MALI400_MP2(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq) \
+ MALI_GPU_RESOURCE_PMU(base_addr + 0x2000)
+
+#define MALI_GPU_RESOURCES_MALI400_MP3(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq) \
+ MALI_GPU_RESOURCE_L2(base_addr + 0x1000) \
+ MALI_GPU_RESOURCE_GP_WITH_MMU(base_addr + 0x0000, gp_irq, base_addr + 0x3000, gp_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(0, base_addr + 0x8000, pp0_irq, base_addr + 0x4000, pp0_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(1, base_addr + 0xA000, pp1_irq, base_addr + 0x5000, pp1_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(2, base_addr + 0xC000, pp2_irq, base_addr + 0x6000, pp2_mmu_irq)
+
+#define MALI_GPU_RESOURCES_MALI400_MP3_PMU(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq) \
+ MALI_GPU_RESOURCES_MALI400_MP3(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq) \
+ MALI_GPU_RESOURCE_PMU(base_addr + 0x2000)
+
+#define MALI_GPU_RESOURCES_MALI400_MP4(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq, pp3_irq, pp3_mmu_irq) \
+ MALI_GPU_RESOURCE_L2(base_addr + 0x1000) \
+ MALI_GPU_RESOURCE_GP_WITH_MMU(base_addr + 0x0000, gp_irq, base_addr + 0x3000, gp_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(0, base_addr + 0x8000, pp0_irq, base_addr + 0x4000, pp0_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(1, base_addr + 0xA000, pp1_irq, base_addr + 0x5000, pp1_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(2, base_addr + 0xC000, pp2_irq, base_addr + 0x6000, pp2_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(3, base_addr + 0xE000, pp3_irq, base_addr + 0x7000, pp3_mmu_irq)
+
+#define MALI_GPU_RESOURCES_MALI400_MP4_PMU(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq, pp3_irq, pp3_mmu_irq) \
+ MALI_GPU_RESOURCES_MALI400_MP4(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq, pp3_irq, pp3_mmu_irq) \
+ MALI_GPU_RESOURCE_PMU(base_addr + 0x2000)
+
+/* Mali-450 */
+#define MALI_GPU_RESOURCES_MALI450_MP2(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp_bcast_irq) \
+ MALI_GPU_RESOURCE_L2(base_addr + 0x10000) \
+ MALI_GPU_RESOURCE_GP_WITH_MMU(base_addr + 0x00000, gp_irq, base_addr + 0x03000, gp_mmu_irq) \
+ MALI_GPU_RESOURCE_L2(base_addr + 0x01000) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(0, base_addr + 0x08000, pp0_irq, base_addr + 0x04000, pp0_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(1, base_addr + 0x0A000, pp1_irq, base_addr + 0x05000, pp1_mmu_irq) \
+ MALI_GPU_RESOURCE_BCAST(base_addr + 0x13000) \
+ MALI_GPU_RESOURCE_DLBU(base_addr + 0x14000) \
+ MALI_GPU_RESOURCE_PP_BCAST(base_addr + 0x16000, pp_bcast_irq) \
+ MALI_GPU_RESOURCE_PP_MMU_BCAST(base_addr + 0x15000) \
+ MALI_GPU_RESOURCE_DMA(base_addr + 0x12000)
+
+#define MALI_GPU_RESOURCES_MALI450_MP2_PMU(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp_bcast_irq) \
+ MALI_GPU_RESOURCES_MALI450_MP2(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp_bcast_irq) \
+ MALI_GPU_RESOURCE_PMU(base_addr + 0x2000) \
+
+#define MALI_GPU_RESOURCES_MALI450_MP3(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq, pp_bcast_irq) \
+ MALI_GPU_RESOURCE_L2(base_addr + 0x10000) \
+ MALI_GPU_RESOURCE_GP_WITH_MMU(base_addr + 0x00000, gp_irq, base_addr + 0x03000, gp_mmu_irq) \
+ MALI_GPU_RESOURCE_L2(base_addr + 0x01000) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(0, base_addr + 0x08000, pp0_irq, base_addr + 0x04000, pp0_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(1, base_addr + 0x0A000, pp1_irq, base_addr + 0x05000, pp1_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(2, base_addr + 0x0C000, pp2_irq, base_addr + 0x06000, pp2_mmu_irq) \
+ MALI_GPU_RESOURCE_BCAST(base_addr + 0x13000) \
+ MALI_GPU_RESOURCE_DLBU(base_addr + 0x14000) \
+ MALI_GPU_RESOURCE_PP_BCAST(base_addr + 0x16000, pp_bcast_irq) \
+ MALI_GPU_RESOURCE_PP_MMU_BCAST(base_addr + 0x15000)
+
+#define MALI_GPU_RESOURCES_MALI450_MP3_PMU(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq, pp_bcast_irq) \
+ MALI_GPU_RESOURCES_MALI450_MP3(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq, pp_bcast_irq) \
+ MALI_GPU_RESOURCE_PMU(base_addr + 0x2000) \
+
+#define MALI_GPU_RESOURCES_MALI450_MP4(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq, pp3_irq, pp3_mmu_irq, pp_bcast_irq) \
+ MALI_GPU_RESOURCE_L2(base_addr + 0x10000) \
+ MALI_GPU_RESOURCE_GP_WITH_MMU(base_addr + 0x00000, gp_irq, base_addr + 0x03000, gp_mmu_irq) \
+ MALI_GPU_RESOURCE_L2(base_addr + 0x01000) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(0, base_addr + 0x08000, pp0_irq, base_addr + 0x04000, pp0_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(1, base_addr + 0x0A000, pp1_irq, base_addr + 0x05000, pp1_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(2, base_addr + 0x0C000, pp2_irq, base_addr + 0x06000, pp2_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(3, base_addr + 0x0E000, pp3_irq, base_addr + 0x07000, pp3_mmu_irq) \
+ MALI_GPU_RESOURCE_BCAST(base_addr + 0x13000) \
+ MALI_GPU_RESOURCE_DLBU(base_addr + 0x14000) \
+ MALI_GPU_RESOURCE_PP_BCAST(base_addr + 0x16000, pp_bcast_irq) \
+ MALI_GPU_RESOURCE_PP_MMU_BCAST(base_addr + 0x15000) \
+ MALI_GPU_RESOURCE_DMA(base_addr + 0x12000)
+
+#define MALI_GPU_RESOURCES_MALI450_MP4_PMU(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq, pp3_irq, pp3_mmu_irq, pp_bcast_irq) \
+ MALI_GPU_RESOURCES_MALI450_MP4(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq, pp3_irq, pp3_mmu_irq, pp_bcast_irq) \
+ MALI_GPU_RESOURCE_PMU(base_addr + 0x2000) \
+
+#define MALI_GPU_RESOURCES_MALI450_MP6(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq, pp3_irq, pp3_mmu_irq, pp4_irq, pp4_mmu_irq, pp5_irq, pp5_mmu_irq, pp_bcast_irq) \
+ MALI_GPU_RESOURCE_L2(base_addr + 0x10000) \
+ MALI_GPU_RESOURCE_GP_WITH_MMU(base_addr + 0x00000, gp_irq, base_addr + 0x03000, gp_mmu_irq) \
+ MALI_GPU_RESOURCE_L2(base_addr + 0x01000) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(0, base_addr + 0x08000, pp0_irq, base_addr + 0x04000, pp0_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(1, base_addr + 0x0A000, pp1_irq, base_addr + 0x05000, pp1_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(2, base_addr + 0x0C000, pp2_irq, base_addr + 0x06000, pp2_mmu_irq) \
+ MALI_GPU_RESOURCE_L2(base_addr + 0x11000) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(3, base_addr + 0x28000, pp3_irq, base_addr + 0x1C000, pp3_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(4, base_addr + 0x2A000, pp4_irq, base_addr + 0x1D000, pp4_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(5, base_addr + 0x2C000, pp5_irq, base_addr + 0x1E000, pp5_mmu_irq) \
+ MALI_GPU_RESOURCE_BCAST(base_addr + 0x13000) \
+ MALI_GPU_RESOURCE_DLBU(base_addr + 0x14000) \
+ MALI_GPU_RESOURCE_PP_BCAST(base_addr + 0x16000, pp_bcast_irq) \
+ MALI_GPU_RESOURCE_PP_MMU_BCAST(base_addr + 0x15000) \
+ MALI_GPU_RESOURCE_DMA(base_addr + 0x12000)
+
+#define MALI_GPU_RESOURCES_MALI450_MP6_PMU(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq, pp3_irq, pp3_mmu_irq, pp4_irq, pp4_mmu_irq, pp5_irq, pp5_mmu_irq, pp_bcast_irq) \
+ MALI_GPU_RESOURCES_MALI450_MP6(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq, pp3_irq, pp3_mmu_irq, pp4_irq, pp4_mmu_irq, pp5_irq, pp5_mmu_irq, pp_bcast_irq) \
+ MALI_GPU_RESOURCE_PMU(base_addr + 0x2000) \
+
+#define MALI_GPU_RESOURCES_MALI450_MP8(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq, pp3_irq, pp3_mmu_irq, pp4_irq, pp4_mmu_irq, pp5_irq, pp5_mmu_irq, pp6_irq, pp6_mmu_irq, pp7_irq, pp7_mmu_irq, pp_bcast_irq) \
+ MALI_GPU_RESOURCE_L2(base_addr + 0x10000) \
+ MALI_GPU_RESOURCE_GP_WITH_MMU(base_addr + 0x00000, gp_irq, base_addr + 0x03000, gp_mmu_irq) \
+ MALI_GPU_RESOURCE_L2(base_addr + 0x01000) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(0, base_addr + 0x08000, pp0_irq, base_addr + 0x04000, pp0_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(1, base_addr + 0x0A000, pp1_irq, base_addr + 0x05000, pp1_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(2, base_addr + 0x0C000, pp2_irq, base_addr + 0x06000, pp2_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(3, base_addr + 0x0E000, pp3_irq, base_addr + 0x07000, pp3_mmu_irq) \
+ MALI_GPU_RESOURCE_L2(base_addr + 0x11000) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(4, base_addr + 0x28000, pp4_irq, base_addr + 0x1C000, pp4_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(5, base_addr + 0x2A000, pp5_irq, base_addr + 0x1D000, pp5_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(6, base_addr + 0x2C000, pp6_irq, base_addr + 0x1E000, pp6_mmu_irq) \
+ MALI_GPU_RESOURCE_PP_WITH_MMU(7, base_addr + 0x2E000, pp7_irq, base_addr + 0x1F000, pp7_mmu_irq) \
+ MALI_GPU_RESOURCE_BCAST(base_addr + 0x13000) \
+ MALI_GPU_RESOURCE_DLBU(base_addr + 0x14000) \
+ MALI_GPU_RESOURCE_PP_BCAST(base_addr + 0x16000, pp_bcast_irq) \
+ MALI_GPU_RESOURCE_PP_MMU_BCAST(base_addr + 0x15000) \
+ MALI_GPU_RESOURCE_DMA(base_addr + 0x12000)
+
+#define MALI_GPU_RESOURCES_MALI450_MP8_PMU(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq, pp3_irq, pp3_mmu_irq, pp4_irq, pp4_mmu_irq, pp5_irq, pp5_mmu_irq, pp6_irq, pp6_mmu_irq, pp7_irq, pp7_mmu_irq, pp_bcast_irq) \
+ MALI_GPU_RESOURCES_MALI450_MP8(base_addr, gp_irq, gp_mmu_irq, pp0_irq, pp0_mmu_irq, pp1_irq, pp1_mmu_irq, pp2_irq, pp2_mmu_irq, pp3_irq, pp3_mmu_irq, pp4_irq, pp4_mmu_irq, pp5_irq, pp5_mmu_irq, pp6_irq, pp6_mmu_irq, pp7_irq, pp7_mmu_irq, pp_bcast_irq) \
+ MALI_GPU_RESOURCE_PMU(base_addr + 0x2000) \
+
+#define MALI_GPU_RESOURCE_L2(addr) \
+ { \
+ .name = "Mali_L2", \
+ .flags = IORESOURCE_MEM, \
+ .start = addr, \
+ .end = addr + 0x200, \
+ },
+
+#define MALI_GPU_RESOURCE_GP(gp_addr, gp_irq) \
+ { \
+ .name = "Mali_GP", \
+ .flags = IORESOURCE_MEM, \
+ .start = gp_addr, \
+ .end = gp_addr + 0x100, \
+ }, \
+ { \
+ .name = "Mali_GP_IRQ", \
+ .flags = IORESOURCE_IRQ, \
+ .start = gp_irq, \
+ .end = gp_irq, \
+ }, \
+
+#define MALI_GPU_RESOURCE_GP_WITH_MMU(gp_addr, gp_irq, gp_mmu_addr, gp_mmu_irq) \
+ { \
+ .name = "Mali_GP", \
+ .flags = IORESOURCE_MEM, \
+ .start = gp_addr, \
+ .end = gp_addr + 0x100, \
+ }, \
+ { \
+ .name = "Mali_GP_IRQ", \
+ .flags = IORESOURCE_IRQ, \
+ .start = gp_irq, \
+ .end = gp_irq, \
+ }, \
+ { \
+ .name = "Mali_GP_MMU", \
+ .flags = IORESOURCE_MEM, \
+ .start = gp_mmu_addr, \
+ .end = gp_mmu_addr + 0x100, \
+ }, \
+ { \
+ .name = "Mali_GP_MMU_IRQ", \
+ .flags = IORESOURCE_IRQ, \
+ .start = gp_mmu_irq, \
+ .end = gp_mmu_irq, \
+ },
+
+#define MALI_GPU_RESOURCE_PP(pp_addr, pp_irq) \
+ { \
+ .name = "Mali_PP", \
+ .flags = IORESOURCE_MEM, \
+ .start = pp_addr, \
+ .end = pp_addr + 0x1100, \
+ }, \
+ { \
+ .name = "Mali_PP_IRQ", \
+ .flags = IORESOURCE_IRQ, \
+ .start = pp_irq, \
+ .end = pp_irq, \
+ }, \
+
+#define MALI_GPU_RESOURCE_PP_WITH_MMU(id, pp_addr, pp_irq, pp_mmu_addr, pp_mmu_irq) \
+ { \
+ .name = "Mali_PP" #id, \
+ .flags = IORESOURCE_MEM, \
+ .start = pp_addr, \
+ .end = pp_addr + 0x1100, \
+ }, \
+ { \
+ .name = "Mali_PP" #id "_IRQ", \
+ .flags = IORESOURCE_IRQ, \
+ .start = pp_irq, \
+ .end = pp_irq, \
+ }, \
+ { \
+ .name = "Mali_PP" #id "_MMU", \
+ .flags = IORESOURCE_MEM, \
+ .start = pp_mmu_addr, \
+ .end = pp_mmu_addr + 0x100, \
+ }, \
+ { \
+ .name = "Mali_PP" #id "_MMU_IRQ", \
+ .flags = IORESOURCE_IRQ, \
+ .start = pp_mmu_irq, \
+ .end = pp_mmu_irq, \
+ },
+
+#define MALI_GPU_RESOURCE_MMU(mmu_addr, mmu_irq) \
+ { \
+ .name = "Mali_MMU", \
+ .flags = IORESOURCE_MEM, \
+ .start = mmu_addr, \
+ .end = mmu_addr + 0x100, \
+ }, \
+ { \
+ .name = "Mali_MMU_IRQ", \
+ .flags = IORESOURCE_IRQ, \
+ .start = mmu_irq, \
+ .end = mmu_irq, \
+ },
+
+#define MALI_GPU_RESOURCE_PMU(pmu_addr) \
+ { \
+ .name = "Mali_PMU", \
+ .flags = IORESOURCE_MEM, \
+ .start = pmu_addr, \
+ .end = pmu_addr + 0x100, \
+ },
+
+#define MALI_GPU_RESOURCE_DMA(dma_addr) \
+ { \
+ .name = "Mali_DMA", \
+ .flags = IORESOURCE_MEM, \
+ .start = dma_addr, \
+ .end = dma_addr + 0x100, \
+ },
+
+#define MALI_GPU_RESOURCE_DLBU(dlbu_addr) \
+ { \
+ .name = "Mali_DLBU", \
+ .flags = IORESOURCE_MEM, \
+ .start = dlbu_addr, \
+ .end = dlbu_addr + 0x100, \
+ },
+
+#define MALI_GPU_RESOURCE_BCAST(bcast_addr) \
+ { \
+ .name = "Mali_Broadcast", \
+ .flags = IORESOURCE_MEM, \
+ .start = bcast_addr, \
+ .end = bcast_addr + 0x100, \
+ },
+
+#define MALI_GPU_RESOURCE_PP_BCAST(pp_addr, pp_irq) \
+ { \
+ .name = "Mali_PP_Broadcast", \
+ .flags = IORESOURCE_MEM, \
+ .start = pp_addr, \
+ .end = pp_addr + 0x1100, \
+ }, \
+ { \
+ .name = "Mali_PP_Broadcast_IRQ", \
+ .flags = IORESOURCE_IRQ, \
+ .start = pp_irq, \
+ .end = pp_irq, \
+ }, \
+
+#define MALI_GPU_RESOURCE_PP_MMU_BCAST(pp_mmu_bcast_addr) \
+ { \
+ .name = "Mali_PP_MMU_Broadcast", \
+ .flags = IORESOURCE_MEM, \
+ .start = pp_mmu_bcast_addr, \
+ .end = pp_mmu_bcast_addr + 0x100, \
+ },
+
+struct mali_gpu_utilization_data {
+ unsigned int utilization_gpu; /* Utilization for GP and all PP cores combined, 0 = no utilization, 256 = full utilization */
+ unsigned int utilization_gp; /* Utilization for GP core only, 0 = no utilization, 256 = full utilization */
+ unsigned int utilization_pp; /* Utilization for all PP cores combined, 0 = no utilization, 256 = full utilization */
+#if defined(CONFIG_MALI400_POWER_PERFORMANCE_POLICY)
+ unsigned int number_of_window_jobs;
+ unsigned int number_of_window_jobs_under_pressure;
+#endif
+};
+
+struct mali_gpu_device_data {
+ /* Dedicated GPU memory range (physical). */
+ unsigned long dedicated_mem_start;
+ unsigned long dedicated_mem_size;
+
+ /* Shared GPU memory */
+ unsigned long shared_mem_size;
+
+ /* Frame buffer memory to be accessible by Mali GPU (physical) */
+ unsigned long fb_start;
+ unsigned long fb_size;
+
+ /* Max runtime [ms] for jobs */
+ int max_job_runtime;
+
+ /* Report GPU utilization in this interval (specified in ms) */
+ unsigned long utilization_interval;
+
+ /* Function that will receive periodic GPU utilization numbers */
+ void (*utilization_callback)(struct mali_gpu_utilization_data *data);
+
+ /*
+ * Mali PMU switch delay.
+ * Only needed if the power gates are connected to the PMU in a high fanout
+ * network. This value is the number of Mali clock cycles it takes to
+ * enable the power gates and turn on the power mesh.
+ * This value will have no effect if a daisy chain implementation is used.
+ */
+ u32 pmu_switch_delay;
+
+
+ /* Mali Dynamic power domain configuration in sequence from 0-11
+ * GP PP0 PP1 PP2 PP3 PP4 PP5 PP6 PP7, L2$0 L2$1 L2$2
+ */
+ u16 pmu_domain_config[12];
+
+ /* Fuction that platform callback for freq tunning, needed when POWER_PERFORMANCE_POLICY enabled*/
+ int (*set_freq_callback)(unsigned int mhz);
+};
+
+/** @brief MALI GPU power down using MALI in-built PMU
+ *
+ * called to power down all cores
+ */
+int mali_pmu_powerdown(void);
+
+
+/** @brief MALI GPU power up using MALI in-built PMU
+ *
+ * called to power up all cores
+ */
+int mali_pmu_powerup(void);
+
+/**
+ * Pause the scheduling and power state changes of Mali device driver.
+ * mali_dev_resume() must always be called as soon as possible after this function
+ * in order to resume normal operation of the Mali driver.
+ */
+void mali_dev_pause(void);
+
+/**
+ * Resume scheduling and allow power changes in Mali device driver.
+ * This must always be called after mali_dev_pause().
+ */
+void mali_dev_resume(void);
+
+/** @brief Set the desired number of PP cores to use.
+ *
+ * The internal Mali PMU will be used, if present, to physically power off the PP cores.
+ *
+ * @param num_cores The number of desired cores
+ * @return 0 on success, otherwise error. -EINVAL means an invalid number of cores was specified.
+ */
+int mali_perf_set_num_pp_cores(unsigned int num_cores);
+
+#endif
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2007-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef _MALI_UTGARD_COUNTERS_H_
+#define _MALI_UTGARD_COUNTERS_H_
+
+typedef struct {
+ void *unused;
+} mali_cinstr_counter_info;
+
+typedef enum {
+ MALI_CINSTR_COUNTER_SOURCE_EGL = 0,
+ MALI_CINSTR_COUNTER_SOURCE_OPENGLES = 1000,
+ MALI_CINSTR_COUNTER_SOURCE_OPENVG = 2000,
+ MALI_CINSTR_COUNTER_SOURCE_GP = 3000,
+ MALI_CINSTR_COUNTER_SOURCE_PP = 4000,
+} cinstr_counter_source;
+
+#define MALI_CINSTR_EGL_FIRST_COUNTER MALI_CINSTR_COUNTER_SOURCE_EGL
+#define MALI_CINSTR_EGL_LAST_COUNTER (MALI_CINSTR_COUNTER_SOURCE_EGL + 999)
+
+#define MALI_CINSTR_GLES_FIRST_COUNTER MALI_CINSTR_COUNTER_SOURCE_OPENGLES
+#define MALI_CINSTR_GLES_LAST_COUNTER (MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 999)
+
+#define MALI_CINSTR_VG_FIRST_COUNTER MALI_CINSTR_COUNTER_SOURCE_OPENVG
+#define MALI_CINSTR_VG_LAST_COUNTER (MALI_CINSTR_COUNTER_SOURCE_OPENVG + 999)
+
+#define MALI_CINSTR_GP_FIRST_COUNTER MALI_CINSTR_COUNTER_SOURCE_GP
+#define MALI_CINSTR_GP_LAST_COUNTER (MALI_CINSTR_COUNTER_SOURCE_GP + 999)
+
+#define MALI_CINSTR_PP_FIRST_COUNTER MALI_CINSTR_COUNTER_SOURCE_PP
+#define MALI_CINSTR_PP_LAST_COUNTER (MALI_CINSTR_COUNTER_SOURCE_PP + 999)
+
+
+typedef enum {
+ /* EGL counters */
+
+ MALI_CINSTR_EGL_BLIT_TIME = MALI_CINSTR_COUNTER_SOURCE_EGL + 0,
+
+ /* Last counter in the EGL set */
+ MALI_CINSTR_EGL_MAX_COUNTER = MALI_CINSTR_COUNTER_SOURCE_EGL + 1,
+
+ /* GLES counters */
+
+ MALI_CINSTR_GLES_DRAW_ELEMENTS_CALLS = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 0,
+ MALI_CINSTR_GLES_DRAW_ELEMENTS_NUM_INDICES = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 1,
+ MALI_CINSTR_GLES_DRAW_ELEMENTS_NUM_TRANSFORMED = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 2,
+ MALI_CINSTR_GLES_DRAW_ARRAYS_CALLS = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 3,
+ MALI_CINSTR_GLES_DRAW_ARRAYS_NUM_TRANSFORMED = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 4,
+ MALI_CINSTR_GLES_DRAW_POINTS = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 5,
+ MALI_CINSTR_GLES_DRAW_LINES = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 6,
+ MALI_CINSTR_GLES_DRAW_LINE_LOOP = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 7,
+ MALI_CINSTR_GLES_DRAW_LINE_STRIP = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 8,
+ MALI_CINSTR_GLES_DRAW_TRIANGLES = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 9,
+ MALI_CINSTR_GLES_DRAW_TRIANGLE_STRIP = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 10,
+ MALI_CINSTR_GLES_DRAW_TRIANGLE_FAN = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 11,
+ MALI_CINSTR_GLES_NON_VBO_DATA_COPY_TIME = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 12,
+ MALI_CINSTR_GLES_UNIFORM_BYTES_COPIED_TO_MALI = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 13,
+ MALI_CINSTR_GLES_UPLOAD_TEXTURE_TIME = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 14,
+ MALI_CINSTR_GLES_UPLOAD_VBO_TIME = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 15,
+ MALI_CINSTR_GLES_NUM_FLUSHES = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 16,
+ MALI_CINSTR_GLES_NUM_VSHADERS_GENERATED = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 17,
+ MALI_CINSTR_GLES_NUM_FSHADERS_GENERATED = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 18,
+ MALI_CINSTR_GLES_VSHADER_GEN_TIME = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 19,
+ MALI_CINSTR_GLES_FSHADER_GEN_TIME = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 20,
+ MALI_CINSTR_GLES_INPUT_TRIANGLES = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 21,
+ MALI_CINSTR_GLES_VXCACHE_HIT = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 22,
+ MALI_CINSTR_GLES_VXCACHE_MISS = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 23,
+ MALI_CINSTR_GLES_VXCACHE_COLLISION = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 24,
+ MALI_CINSTR_GLES_CULLED_TRIANGLES = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 25,
+ MALI_CINSTR_GLES_CULLED_LINES = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 26,
+ MALI_CINSTR_GLES_BACKFACE_TRIANGLES = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 27,
+ MALI_CINSTR_GLES_GBCLIP_TRIANGLES = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 28,
+ MALI_CINSTR_GLES_GBCLIP_LINES = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 29,
+ MALI_CINSTR_GLES_TRIANGLES_DRAWN = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 30,
+ MALI_CINSTR_GLES_DRAWCALL_TIME = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 31,
+ MALI_CINSTR_GLES_TRIANGLES_COUNT = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 32,
+ MALI_CINSTR_GLES_INDEPENDENT_TRIANGLES_COUNT = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 33,
+ MALI_CINSTR_GLES_STRIP_TRIANGLES_COUNT = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 34,
+ MALI_CINSTR_GLES_FAN_TRIANGLES_COUNT = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 35,
+ MALI_CINSTR_GLES_LINES_COUNT = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 36,
+ MALI_CINSTR_GLES_INDEPENDENT_LINES_COUNT = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 37,
+ MALI_CINSTR_GLES_STRIP_LINES_COUNT = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 38,
+ MALI_CINSTR_GLES_LOOP_LINES_COUNT = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 39,
+ MALI_CINSTR_GLES_POINTS_COUNT = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 40,
+
+ /* Last counter in the GLES set */
+ MALI_CINSTR_GLES_MAX_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENGLES + 41,
+
+ /* OpenVG counters */
+
+ MALI_CINSTR_VG_MASK_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 0,
+ MALI_CINSTR_VG_CLEAR_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 1,
+ MALI_CINSTR_VG_APPEND_PATH_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 2,
+ MALI_CINSTR_VG_APPEND_PATH_DATA_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 3,
+ MALI_CINSTR_VG_MODIFY_PATH_COORDS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 4,
+ MALI_CINSTR_VG_TRANSFORM_PATH_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 5,
+ MALI_CINSTR_VG_INTERPOLATE_PATH_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 6,
+ MALI_CINSTR_VG_PATH_LENGTH_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 7,
+ MALI_CINSTR_VG_POINT_ALONG_PATH_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 8,
+ MALI_CINSTR_VG_PATH_BOUNDS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 9,
+ MALI_CINSTR_VG_PATH_TRANSFORMED_BOUNDS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 10,
+ MALI_CINSTR_VG_DRAW_PATH_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 11,
+ MALI_CINSTR_VG_CLEAR_IMAGE_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 12,
+ MALI_CINSTR_VG_IMAGE_SUB_DATA_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 13,
+ MALI_CINSTR_VG_GET_IMAGE_SUB_DATA_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 14,
+ MALI_CINSTR_VG_COPY_IMAGE_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 15,
+ MALI_CINSTR_VG_DRAW_IMAGE_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 16,
+ MALI_CINSTR_VG_SET_PIXELS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 17,
+ MALI_CINSTR_VG_WRITE_PIXELS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 18,
+ MALI_CINSTR_VG_GET_PIXELS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 19,
+ MALI_CINSTR_VG_READ_PIXELS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 20,
+ MALI_CINSTR_VG_COPY_PIXELS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 21,
+ MALI_CINSTR_VG_COLOR_MATRIX_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 22,
+ MALI_CINSTR_VG_CONVOLVE_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 23,
+ MALI_CINSTR_VG_SEPARABLE_CONVOLVE_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 24,
+ MALI_CINSTR_VG_GAUSSIAN_BLUR_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 25,
+ MALI_CINSTR_VG_LOOKUP_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 26,
+ MALI_CINSTR_VG_LOOKUP_SINGLE_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 27,
+ MALI_CINSTR_VG_CONTEXT_CREATE_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 28,
+ MALI_CINSTR_VG_STROKED_CUBICS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 29,
+ MALI_CINSTR_VG_STROKED_QUADS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 30,
+ MALI_CINSTR_VG_STROKED_ARCS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 31,
+ MALI_CINSTR_VG_STROKED_LINES_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 32,
+ MALI_CINSTR_VG_FILLED_CUBICS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 33,
+ MALI_CINSTR_VG_FILLED_QUADS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 34,
+ MALI_CINSTR_VG_FILLED_ARCS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 35,
+ MALI_CINSTR_VG_FILLED_LINES_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 36,
+ MALI_CINSTR_VG_DRAW_PATH_CALLS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 37,
+ MALI_CINSTR_VG_TRIANGLES_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 38,
+ MALI_CINSTR_VG_VERTICES_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 39,
+ MALI_CINSTR_VG_INDICES_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 40,
+ MALI_CINSTR_VG_FILLED_PATHS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 41,
+ MALI_CINSTR_VG_STROKED_PATHS_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 42,
+ MALI_CINSTR_VG_FILL_EXTRACT_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 43,
+ MALI_CINSTR_VG_DRAW_FILLED_PATH_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 44,
+ MALI_CINSTR_VG_STROKE_EXTRACT_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 45,
+ MALI_CINSTR_VG_DRAW_STROKED_PATH_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 46,
+ MALI_CINSTR_VG_DRAW_PAINT_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 47,
+ MALI_CINSTR_VG_DATA_STRUCTURES_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 48,
+ MALI_CINSTR_VG_MEM_PATH_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 49,
+ MALI_CINSTR_VG_RSW_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 50,
+
+ /* Last counter in the VG set */
+ MALI_CINSTR_VG_MAX_COUNTER = MALI_CINSTR_COUNTER_SOURCE_OPENVG + 51,
+
+ /* Mali GP counters */
+
+ MALI_CINSTR_GP_DEPRECATED_0 = MALI_CINSTR_COUNTER_SOURCE_GP + 0,
+ MALI_CINSTR_GP_ACTIVE_CYCLES_GP = MALI_CINSTR_COUNTER_SOURCE_GP + 1,
+ MALI_CINSTR_GP_ACTIVE_CYCLES_VERTEX_SHADER = MALI_CINSTR_COUNTER_SOURCE_GP + 2,
+ MALI_CINSTR_GP_ACTIVE_CYCLES_VERTEX_STORER = MALI_CINSTR_COUNTER_SOURCE_GP + 3,
+ MALI_CINSTR_GP_ACTIVE_CYCLES_VERTEX_LOADER = MALI_CINSTR_COUNTER_SOURCE_GP + 4,
+ MALI_CINSTR_GP_CYCLES_VERTEX_LOADER_WAITING_FOR_VERTEX_SHADER = MALI_CINSTR_COUNTER_SOURCE_GP + 5,
+ MALI_CINSTR_GP_NUMBER_OF_WORDS_READ = MALI_CINSTR_COUNTER_SOURCE_GP + 6,
+ MALI_CINSTR_GP_NUMBER_OF_WORDS_WRITTEN = MALI_CINSTR_COUNTER_SOURCE_GP + 7,
+ MALI_CINSTR_GP_NUMBER_OF_READ_BURSTS = MALI_CINSTR_COUNTER_SOURCE_GP + 8,
+ MALI_CINSTR_GP_NUMBER_OF_WRITE_BURSTS = MALI_CINSTR_COUNTER_SOURCE_GP + 9,
+ MALI_CINSTR_GP_NUMBER_OF_VERTICES_PROCESSED = MALI_CINSTR_COUNTER_SOURCE_GP + 10,
+ MALI_CINSTR_GP_NUMBER_OF_VERTICES_FETCHED = MALI_CINSTR_COUNTER_SOURCE_GP + 11,
+ MALI_CINSTR_GP_NUMBER_OF_PRIMITIVES_FETCHED = MALI_CINSTR_COUNTER_SOURCE_GP + 12,
+ MALI_CINSTR_GP_RESERVED_13 = MALI_CINSTR_COUNTER_SOURCE_GP + 13,
+ MALI_CINSTR_GP_NUMBER_OF_BACKFACE_CULLINGS_DONE = MALI_CINSTR_COUNTER_SOURCE_GP + 14,
+ MALI_CINSTR_GP_NUMBER_OF_COMMANDS_WRITTEN_TO_TILES = MALI_CINSTR_COUNTER_SOURCE_GP + 15,
+ MALI_CINSTR_GP_NUMBER_OF_MEMORY_BLOCKS_ALLOCATED = MALI_CINSTR_COUNTER_SOURCE_GP + 16,
+ MALI_CINSTR_GP_RESERVED_17 = MALI_CINSTR_COUNTER_SOURCE_GP + 17,
+ MALI_CINSTR_GP_RESERVED_18 = MALI_CINSTR_COUNTER_SOURCE_GP + 18,
+ MALI_CINSTR_GP_NUMBER_OF_VERTEX_LOADER_CACHE_MISSES = MALI_CINSTR_COUNTER_SOURCE_GP + 19,
+ MALI_CINSTR_GP_RESERVED_20 = MALI_CINSTR_COUNTER_SOURCE_GP + 20,
+ MALI_CINSTR_GP_RESERVED_21 = MALI_CINSTR_COUNTER_SOURCE_GP + 21,
+ MALI_CINSTR_GP_ACTIVE_CYCLES_VERTEX_SHADER_COMMAND_PROCESSOR = MALI_CINSTR_COUNTER_SOURCE_GP + 22,
+ MALI_CINSTR_GP_ACTIVE_CYCLES_PLBU_COMMAND_PROCESSOR = MALI_CINSTR_COUNTER_SOURCE_GP + 23,
+ MALI_CINSTR_GP_ACTIVE_CYCLES_PLBU_LIST_WRITER = MALI_CINSTR_COUNTER_SOURCE_GP + 24,
+ MALI_CINSTR_GP_ACTIVE_CYCLES_THROUGH_THE_PREPARE_LIST_COMMANDS = MALI_CINSTR_COUNTER_SOURCE_GP + 25,
+ MALI_CINSTR_GP_RESERVED_26 = MALI_CINSTR_COUNTER_SOURCE_GP + 26,
+ MALI_CINSTR_GP_ACTIVE_CYCLES_PRIMITIVE_ASSEMBLY = MALI_CINSTR_COUNTER_SOURCE_GP + 27,
+ MALI_CINSTR_GP_ACTIVE_CYCLES_PLBU_VERTEX_FETCHER = MALI_CINSTR_COUNTER_SOURCE_GP + 28,
+ MALI_CINSTR_GP_RESERVED_29 = MALI_CINSTR_COUNTER_SOURCE_GP + 29,
+ MALI_CINSTR_GP_ACTIVE_CYCLES_BOUNDINGBOX_AND_COMMAND_GENERATOR = MALI_CINSTR_COUNTER_SOURCE_GP + 30,
+ MALI_CINSTR_GP_RESERVED_31 = MALI_CINSTR_COUNTER_SOURCE_GP + 31,
+ MALI_CINSTR_GP_ACTIVE_CYCLES_SCISSOR_TILE_ITERATOR = MALI_CINSTR_COUNTER_SOURCE_GP + 32,
+ MALI_CINSTR_GP_ACTIVE_CYCLES_PLBU_TILE_ITERATOR = MALI_CINSTR_COUNTER_SOURCE_GP + 33,
+ MALI_CINSTR_GP_JOB_COUNT = MALI_CINSTR_COUNTER_SOURCE_GP + 900,
+
+ /* Mali PP counters */
+
+ MALI_CINSTR_PP_ACTIVE_CLOCK_CYCLES_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 0,
+ MALI_CINSTR_PP_TOTAL_CLOCK_CYCLES_COUNT_REMOVED = MALI_CINSTR_COUNTER_SOURCE_PP + 1,
+ MALI_CINSTR_PP_TOTAL_BUS_READS = MALI_CINSTR_COUNTER_SOURCE_PP + 2,
+ MALI_CINSTR_PP_TOTAL_BUS_WRITES = MALI_CINSTR_COUNTER_SOURCE_PP + 3,
+ MALI_CINSTR_PP_BUS_READ_REQUEST_CYCLES_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 4,
+ MALI_CINSTR_PP_BUS_WRITE_REQUEST_CYCLES_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 5,
+ MALI_CINSTR_PP_BUS_READ_TRANSACTIONS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 6,
+ MALI_CINSTR_PP_BUS_WRITE_TRANSACTIONS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 7,
+ MALI_CINSTR_PP_RESERVED_08 = MALI_CINSTR_COUNTER_SOURCE_PP + 8,
+ MALI_CINSTR_PP_TILE_WRITEBACK_WRITES = MALI_CINSTR_COUNTER_SOURCE_PP + 9,
+ MALI_CINSTR_PP_STORE_UNIT_WRITES = MALI_CINSTR_COUNTER_SOURCE_PP + 10,
+ MALI_CINSTR_PP_RESERVED_11 = MALI_CINSTR_COUNTER_SOURCE_PP + 11,
+ MALI_CINSTR_PP_PALETTE_CACHE_READS = MALI_CINSTR_COUNTER_SOURCE_PP + 12,
+ MALI_CINSTR_PP_TEXTURE_CACHE_UNCOMPRESSED_READS = MALI_CINSTR_COUNTER_SOURCE_PP + 13,
+ MALI_CINSTR_PP_POLYGON_LIST_READS = MALI_CINSTR_COUNTER_SOURCE_PP + 14,
+ MALI_CINSTR_PP_RSW_READS = MALI_CINSTR_COUNTER_SOURCE_PP + 15,
+ MALI_CINSTR_PP_VERTEX_CACHE_READS = MALI_CINSTR_COUNTER_SOURCE_PP + 16,
+ MALI_CINSTR_PP_UNIFORM_REMAPPING_READS = MALI_CINSTR_COUNTER_SOURCE_PP + 17,
+ MALI_CINSTR_PP_PROGRAM_CACHE_READS = MALI_CINSTR_COUNTER_SOURCE_PP + 18,
+ MALI_CINSTR_PP_VARYING_READS = MALI_CINSTR_COUNTER_SOURCE_PP + 19,
+ MALI_CINSTR_PP_TEXTURE_DESCRIPTORS_READS = MALI_CINSTR_COUNTER_SOURCE_PP + 20,
+ MALI_CINSTR_PP_TEXTURE_DESCRIPTORS_REMAPPING_READS = MALI_CINSTR_COUNTER_SOURCE_PP + 21,
+ MALI_CINSTR_PP_TEXTURE_CACHE_COMPRESSED_READS = MALI_CINSTR_COUNTER_SOURCE_PP + 22,
+ MALI_CINSTR_PP_LOAD_UNIT_READS = MALI_CINSTR_COUNTER_SOURCE_PP + 23,
+ MALI_CINSTR_PP_POLYGON_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 24,
+ MALI_CINSTR_PP_PIXEL_RECTANGLE_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 25,
+ MALI_CINSTR_PP_LINES_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 26,
+ MALI_CINSTR_PP_POINTS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 27,
+ MALI_CINSTR_PP_STALL_CYCLES_POLYGON_LIST_READER = MALI_CINSTR_COUNTER_SOURCE_PP + 28,
+ MALI_CINSTR_PP_STALL_CYCLES_TRIANGLE_SETUP = MALI_CINSTR_COUNTER_SOURCE_PP + 29,
+ MALI_CINSTR_PP_QUAD_RASTERIZED_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 30,
+ MALI_CINSTR_PP_FRAGMENT_RASTERIZED_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 31,
+ MALI_CINSTR_PP_FRAGMENT_REJECTED_FRAGMENT_KILL_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 32,
+ MALI_CINSTR_PP_FRAGMENT_REJECTED_FWD_FRAGMENT_KILL_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 33,
+ MALI_CINSTR_PP_FRAGMENT_PASSED_ZSTENCIL_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 34,
+ MALI_CINSTR_PP_PATCHES_REJECTED_EARLY_Z_STENCIL_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 35,
+ MALI_CINSTR_PP_PATCHES_EVALUATED = MALI_CINSTR_COUNTER_SOURCE_PP + 36,
+ MALI_CINSTR_PP_INSTRUCTION_COMPLETED_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 37,
+ MALI_CINSTR_PP_INSTRUCTION_FAILED_RENDEZVOUS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 38,
+ MALI_CINSTR_PP_INSTRUCTION_FAILED_VARYING_MISS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 39,
+ MALI_CINSTR_PP_INSTRUCTION_FAILED_TEXTURE_MISS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 40,
+ MALI_CINSTR_PP_INSTRUCTION_FAILED_LOAD_MISS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 41,
+ MALI_CINSTR_PP_INSTRUCTION_FAILED_TILE_READ_MISS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 42,
+ MALI_CINSTR_PP_INSTRUCTION_FAILED_STORE_MISS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 43,
+ MALI_CINSTR_PP_RENDEZVOUS_BREAKAGE_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 44,
+ MALI_CINSTR_PP_PIPELINE_BUBBLES_CYCLE_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 45,
+ MALI_CINSTR_PP_TEXTURE_MAPPER_MULTIPASS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 46,
+ MALI_CINSTR_PP_TEXTURE_MAPPER_CYCLE_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 47,
+ MALI_CINSTR_PP_VERTEX_CACHE_HIT_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 48,
+ MALI_CINSTR_PP_VERTEX_CACHE_MISS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 49,
+ MALI_CINSTR_PP_VARYING_CACHE_HIT_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 50,
+ MALI_CINSTR_PP_VARYING_CACHE_MISS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 51,
+ MALI_CINSTR_PP_VARYING_CACHE_CONFLICT_MISS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 52,
+ MALI_CINSTR_PP_TEXTURE_CACHE_HIT_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 53,
+ MALI_CINSTR_PP_TEXTURE_CACHE_MISS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 54,
+ MALI_CINSTR_PP_TEXTURE_CACHE_CONFLICT_MISS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 55,
+ MALI_CINSTR_PP_PALETTE_CACHE_HIT_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 56, /* Mali 200 only */
+ MALI_CINSTR_PP_PALETTE_CACHE_MISS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 57, /* Mali 200 only */
+ MALI_CINSTR_PP_COMPRESSED_TEXTURE_CACHE_HIT_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 56, /* Mali 400 class only */
+ MALI_CINSTR_PP_COMPRESSED_TEXTURE_CACHE_MISS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 57, /* Mali 400 class only */
+ MALI_CINSTR_PP_LOAD_STORE_CACHE_HIT_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 58,
+ MALI_CINSTR_PP_LOAD_STORE_CACHE_MISS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 59,
+ MALI_CINSTR_PP_PROGRAM_CACHE_HIT_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 60,
+ MALI_CINSTR_PP_PROGRAM_CACHE_MISS_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 61,
+ MALI_CINSTR_PP_JOB_COUNT = MALI_CINSTR_COUNTER_SOURCE_PP + 900,
+} cinstr_counters_m200_t;
+
+#endif /*_MALI_UTGARD_COUNTERS_H_*/
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2007-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_UTGARD_IOCTL_H__
+#define __MALI_UTGARD_IOCTL_H__
+
+#include <linux/types.h>
+#include <linux/ioctl.h>
+#include <linux/fs.h> /* file system operations */
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * @file mali_kernel_ioctl.h
+ * Interface to the Linux device driver.
+ * This file describes the interface needed to use the Linux device driver.
+ * Its interface is designed to used by the HAL implementation through a thin arch layer.
+ */
+
+/**
+ * ioctl commands
+ */
+
+#define MALI_IOC_BASE 0x82
+#define MALI_IOC_CORE_BASE (_MALI_UK_CORE_SUBSYSTEM + MALI_IOC_BASE)
+#define MALI_IOC_MEMORY_BASE (_MALI_UK_MEMORY_SUBSYSTEM + MALI_IOC_BASE)
+#define MALI_IOC_PP_BASE (_MALI_UK_PP_SUBSYSTEM + MALI_IOC_BASE)
+#define MALI_IOC_GP_BASE (_MALI_UK_GP_SUBSYSTEM + MALI_IOC_BASE)
+#define MALI_IOC_PROFILING_BASE (_MALI_UK_PROFILING_SUBSYSTEM + MALI_IOC_BASE)
+#define MALI_IOC_VSYNC_BASE (_MALI_UK_VSYNC_SUBSYSTEM + MALI_IOC_BASE)
+
+#define MALI_IOC_WAIT_FOR_NOTIFICATION _IOWR(MALI_IOC_CORE_BASE, _MALI_UK_WAIT_FOR_NOTIFICATION, _mali_uk_wait_for_notification_s *)
+#define MALI_IOC_GET_API_VERSION _IOWR(MALI_IOC_CORE_BASE, _MALI_UK_GET_API_VERSION, _mali_uk_get_api_version_s *)
+#define MALI_IOC_GET_MALI_VERSION_IN_RK30 _IOWR(MALI_IOC_CORE_BASE,_MALI_UK_GET_MALI_VERSION_IN_RK30,_mali_uk_get_mali_version_in_rk30_s *)
+#define MALI_IOC_POST_NOTIFICATION _IOWR(MALI_IOC_CORE_BASE, _MALI_UK_POST_NOTIFICATION, _mali_uk_post_notification_s *)
+#define MALI_IOC_GET_USER_SETTING _IOWR(MALI_IOC_CORE_BASE, _MALI_UK_GET_USER_SETTING, _mali_uk_get_user_setting_s *)
+#define MALI_IOC_GET_USER_SETTINGS _IOWR(MALI_IOC_CORE_BASE, _MALI_UK_GET_USER_SETTINGS, _mali_uk_get_user_settings_s *)
+#define MALI_IOC_REQUEST_HIGH_PRIORITY _IOW (MALI_IOC_CORE_BASE, _MALI_UK_REQUEST_HIGH_PRIORITY, _mali_uk_request_high_priority_s *)
+#define MALI_IOC_TIMELINE_GET_LATEST_POINT _IOWR(MALI_IOC_CORE_BASE, _MALI_UK_TIMELINE_GET_LATEST_POINT, _mali_uk_timeline_get_latest_point_s *)
+#define MALI_IOC_TIMELINE_WAIT _IOWR(MALI_IOC_CORE_BASE, _MALI_UK_TIMELINE_WAIT, _mali_uk_timeline_wait_s *)
+#define MALI_IOC_TIMELINE_CREATE_SYNC_FENCE _IOWR(MALI_IOC_CORE_BASE, _MALI_UK_TIMELINE_CREATE_SYNC_FENCE, _mali_uk_timeline_create_sync_fence_s *)
+#define MALI_IOC_SOFT_JOB_START _IOWR(MALI_IOC_CORE_BASE, _MALI_UK_SOFT_JOB_START, _mali_uk_soft_job_start_s *)
+#define MALI_IOC_SOFT_JOB_SIGNAL _IOWR(MALI_IOC_CORE_BASE, _MALI_UK_SOFT_JOB_SIGNAL, _mali_uk_soft_job_signal_s *)
+
+#define MALI_IOC_MEM_MAP_EXT _IOWR(MALI_IOC_MEMORY_BASE, _MALI_UK_MAP_EXT_MEM, _mali_uk_map_external_mem_s *)
+#define MALI_IOC_MEM_UNMAP_EXT _IOW (MALI_IOC_MEMORY_BASE, _MALI_UK_UNMAP_EXT_MEM, _mali_uk_unmap_external_mem_s *)
+#define MALI_IOC_MEM_ATTACH_DMA_BUF _IOWR(MALI_IOC_MEMORY_BASE, _MALI_UK_ATTACH_DMA_BUF, _mali_uk_attach_dma_buf_s *)
+#define MALI_IOC_MEM_RELEASE_DMA_BUF _IOW(MALI_IOC_MEMORY_BASE, _MALI_UK_RELEASE_DMA_BUF, _mali_uk_release_dma_buf_s *)
+#define MALI_IOC_MEM_DMA_BUF_GET_SIZE _IOR(MALI_IOC_MEMORY_BASE, _MALI_UK_DMA_BUF_GET_SIZE, _mali_uk_dma_buf_get_size_s *)
+#define MALI_IOC_MEM_ATTACH_UMP _IOWR(MALI_IOC_MEMORY_BASE, _MALI_UK_ATTACH_UMP_MEM, _mali_uk_attach_ump_mem_s *)
+#define MALI_IOC_MEM_RELEASE_UMP _IOW(MALI_IOC_MEMORY_BASE, _MALI_UK_RELEASE_UMP_MEM, _mali_uk_release_ump_mem_s *)
+#define MALI_IOC_MEM_QUERY_MMU_PAGE_TABLE_DUMP_SIZE _IOR (MALI_IOC_MEMORY_BASE, _MALI_UK_QUERY_MMU_PAGE_TABLE_DUMP_SIZE, _mali_uk_query_mmu_page_table_dump_size_s *)
+#define MALI_IOC_MEM_DUMP_MMU_PAGE_TABLE _IOWR(MALI_IOC_MEMORY_BASE, _MALI_UK_DUMP_MMU_PAGE_TABLE, _mali_uk_dump_mmu_page_table_s *)
+#define MALI_IOC_MEM_WRITE_SAFE _IOWR(MALI_IOC_MEMORY_BASE, _MALI_UK_MEM_WRITE_SAFE, _mali_uk_mem_write_safe_s *)
+
+#define MALI_IOC_PP_START_JOB _IOWR(MALI_IOC_PP_BASE, _MALI_UK_PP_START_JOB, _mali_uk_pp_start_job_s *)
+#define MALI_IOC_PP_AND_GP_START_JOB _IOWR(MALI_IOC_PP_BASE, _MALI_UK_PP_AND_GP_START_JOB, _mali_uk_pp_and_gp_start_job_s *)
+#define MALI_IOC_PP_NUMBER_OF_CORES_GET _IOR (MALI_IOC_PP_BASE, _MALI_UK_GET_PP_NUMBER_OF_CORES, _mali_uk_get_pp_number_of_cores_s *)
+#define MALI_IOC_PP_CORE_VERSION_GET _IOR (MALI_IOC_PP_BASE, _MALI_UK_GET_PP_CORE_VERSION, _mali_uk_get_pp_core_version_s * )
+#define MALI_IOC_PP_DISABLE_WB _IOW (MALI_IOC_PP_BASE, _MALI_UK_PP_DISABLE_WB, _mali_uk_pp_disable_wb_s * )
+
+#define MALI_IOC_GP2_START_JOB _IOWR(MALI_IOC_GP_BASE, _MALI_UK_GP_START_JOB, _mali_uk_gp_start_job_s *)
+#define MALI_IOC_GP2_NUMBER_OF_CORES_GET _IOR (MALI_IOC_GP_BASE, _MALI_UK_GET_GP_NUMBER_OF_CORES, _mali_uk_get_gp_number_of_cores_s *)
+#define MALI_IOC_GP2_CORE_VERSION_GET _IOR (MALI_IOC_GP_BASE, _MALI_UK_GET_GP_CORE_VERSION, _mali_uk_get_gp_core_version_s *)
+#define MALI_IOC_GP2_SUSPEND_RESPONSE _IOW (MALI_IOC_GP_BASE, _MALI_UK_GP_SUSPEND_RESPONSE,_mali_uk_gp_suspend_response_s *)
+
+#define MALI_IOC_PROFILING_START _IOWR(MALI_IOC_PROFILING_BASE, _MALI_UK_PROFILING_START, _mali_uk_profiling_start_s *)
+#define MALI_IOC_PROFILING_ADD_EVENT _IOWR(MALI_IOC_PROFILING_BASE, _MALI_UK_PROFILING_ADD_EVENT, _mali_uk_profiling_add_event_s*)
+#define MALI_IOC_PROFILING_STOP _IOWR(MALI_IOC_PROFILING_BASE, _MALI_UK_PROFILING_STOP, _mali_uk_profiling_stop_s *)
+#define MALI_IOC_PROFILING_GET_EVENT _IOWR(MALI_IOC_PROFILING_BASE, _MALI_UK_PROFILING_GET_EVENT, _mali_uk_profiling_get_event_s *)
+#define MALI_IOC_PROFILING_CLEAR _IOWR(MALI_IOC_PROFILING_BASE, _MALI_UK_PROFILING_CLEAR, _mali_uk_profiling_clear_s *)
+#define MALI_IOC_PROFILING_GET_CONFIG _IOWR(MALI_IOC_PROFILING_BASE, _MALI_UK_PROFILING_GET_CONFIG, _mali_uk_get_user_settings_s *)
+#define MALI_IOC_PROFILING_REPORT_SW_COUNTERS _IOW (MALI_IOC_PROFILING_BASE, _MALI_UK_PROFILING_REPORT_SW_COUNTERS, _mali_uk_sw_counters_report_s *)
+
+#define MALI_IOC_VSYNC_EVENT_REPORT _IOW (MALI_IOC_VSYNC_BASE, _MALI_UK_VSYNC_EVENT_REPORT, _mali_uk_vsync_event_report_s *)
+
+/* Deprecated ioctls */
+#define MALI_IOC_MEM_GET_BIG_BLOCK _IOWR(MALI_IOC_MEMORY_BASE, _MALI_UK_GET_BIG_BLOCK, void *)
+#define MALI_IOC_MEM_FREE_BIG_BLOCK _IOW (MALI_IOC_MEMORY_BASE, _MALI_UK_FREE_BIG_BLOCK, void *)
+#define MALI_IOC_MEM_INIT _IOR (MALI_IOC_MEMORY_BASE, _MALI_UK_INIT_MEM, void *)
+#define MALI_IOC_MEM_TERM _IOW (MALI_IOC_MEMORY_BASE, _MALI_UK_TERM_MEM, void *)
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __MALI_UTGARD_IOCTL_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef _MALI_UTGARD_PROFILING_EVENTS_H_
+#define _MALI_UTGARD_PROFILING_EVENTS_H_
+
+/*
+ * The event ID is a 32 bit value consisting of different fields
+ * reserved, 4 bits, for future use
+ * event type, 4 bits, cinstr_profiling_event_type_t
+ * event channel, 8 bits, the source of the event.
+ * event data, 16 bit field, data depending on event type
+ */
+
+/**
+ * Specifies what kind of event this is
+ */
+typedef enum {
+ MALI_PROFILING_EVENT_TYPE_SINGLE = 0 << 24,
+ MALI_PROFILING_EVENT_TYPE_START = 1 << 24,
+ MALI_PROFILING_EVENT_TYPE_STOP = 2 << 24,
+ MALI_PROFILING_EVENT_TYPE_SUSPEND = 3 << 24,
+ MALI_PROFILING_EVENT_TYPE_RESUME = 4 << 24,
+} cinstr_profiling_event_type_t;
+
+
+/**
+ * Secifies the channel/source of the event
+ */
+typedef enum {
+ MALI_PROFILING_EVENT_CHANNEL_SOFTWARE = 0 << 16,
+ MALI_PROFILING_EVENT_CHANNEL_GP0 = 1 << 16,
+ MALI_PROFILING_EVENT_CHANNEL_PP0 = 5 << 16,
+ MALI_PROFILING_EVENT_CHANNEL_PP1 = 6 << 16,
+ MALI_PROFILING_EVENT_CHANNEL_PP2 = 7 << 16,
+ MALI_PROFILING_EVENT_CHANNEL_PP3 = 8 << 16,
+ MALI_PROFILING_EVENT_CHANNEL_PP4 = 9 << 16,
+ MALI_PROFILING_EVENT_CHANNEL_PP5 = 10 << 16,
+ MALI_PROFILING_EVENT_CHANNEL_PP6 = 11 << 16,
+ MALI_PROFILING_EVENT_CHANNEL_PP7 = 12 << 16,
+ MALI_PROFILING_EVENT_CHANNEL_GPU = 21 << 16,
+} cinstr_profiling_event_channel_t;
+
+
+#define MALI_PROFILING_MAKE_EVENT_CHANNEL_GP(num) (((MALI_PROFILING_EVENT_CHANNEL_GP0 >> 16) + (num)) << 16)
+#define MALI_PROFILING_MAKE_EVENT_CHANNEL_PP(num) (((MALI_PROFILING_EVENT_CHANNEL_PP0 >> 16) + (num)) << 16)
+
+/**
+ * These events are applicable when the type MALI_PROFILING_EVENT_TYPE_SINGLE is used from software channel
+ */
+typedef enum {
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_NONE = 0,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_EGL_NEW_FRAME = 1,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_FLUSH = 2,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_EGL_SWAP_BUFFERS = 3,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_FB_EVENT = 4,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_GP_ENQUEUE = 5,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_PP_ENQUEUE = 6,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_READBACK = 7,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_WRITEBACK = 8,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_ENTER_API_FUNC = 10,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_LEAVE_API_FUNC = 11,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_DISCARD_ATTACHMENTS = 13,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_UMP_TRY_LOCK = 53,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_UMP_LOCK = 54,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_UMP_UNLOCK = 55,
+ MALI_PROFILING_EVENT_REASON_SINGLE_LOCK_CONTENDED = 56,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_EGL_MALI_FENCE_DUP = 57,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_EGL_SET_PP_JOB_FENCE = 58,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_EGL_WAIT_SYNC = 59,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_EGL_CREATE_FENCE_SYNC = 60,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_EGL_CREATE_NATIVE_FENCE_SYNC = 61,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_EGL_FENCE_FLUSH = 62,
+ MALI_PROFILING_EVENT_REASON_SINGLE_SW_EGL_FLUSH_SERVER_WAITS= 63,
+} cinstr_profiling_event_reason_single_sw_t;
+
+/**
+ * These events are applicable when the type MALI_PROFILING_EVENT_TYPE_START/STOP is used from software channel
+ * to inform whether the core is physical or virtual
+ */
+typedef enum {
+ MALI_PROFILING_EVENT_REASON_START_STOP_HW_PHYSICAL = 0,
+ MALI_PROFILING_EVENT_REASON_START_STOP_HW_VIRTUAL = 1,
+} cinstr_profiling_event_reason_start_stop_hw_t;
+
+/**
+ * These events are applicable when the type MALI_PROFILING_EVENT_TYPE_START/STOP is used from software channel
+ */
+typedef enum {
+ /*MALI_PROFILING_EVENT_REASON_START_STOP_SW_NONE = 0,*/
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_MALI = 1,
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_CALLBACK_THREAD = 2,
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_WORKER_THREAD = 3,
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_BOTTOM_HALF = 4,
+ MALI_PROFILING_EVENT_REASON_START_STOP_SW_UPPER_HALF = 5,
+} cinstr_profiling_event_reason_start_stop_sw_t;
+
+/**
+ * These events are applicable when the type MALI_PROFILING_EVENT_TYPE_SUSPEND/RESUME is used from software channel
+ */
+typedef enum {
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_NONE = 0, /* used */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_PIPELINE_FULL = 1, /* NOT used */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_VSYNC = 26, /* used in some build configurations */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_FB_IFRAME_WAIT = 27, /* USED */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_FB_IFRAME_SYNC = 28, /* USED */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_VG_WAIT_FILTER_CLEANUP = 29, /* used */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_VG_WAIT_TEXTURE = 30, /* used */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_GLES_WAIT_MIPLEVEL = 31, /* used */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_GLES_WAIT_READPIXELS = 32, /* used */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_EGL_WAIT_SWAP_IMMEDIATE = 33, /* NOT used */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_ICS_QUEUE_BUFFER = 34, /* USED */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_ICS_DEQUEUE_BUFFER = 35, /* USED */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_UMP_LOCK = 36, /* Not currently used */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_X11_GLOBAL_LOCK = 37, /* Not currently used */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_X11_SWAP = 38, /* Not currently used */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_MALI_EGL_IMAGE_SYNC_WAIT = 39, /* USED */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_GP_JOB_HANDLING = 40, /* USED */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_PP_JOB_HANDLING = 41, /* USED */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_EGL_MALI_FENCE_MERGE = 42, /* USED */
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_EGL_MALI_FENCE_DUP = 43,
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_EGL_FLUSH_SERVER_WAITS = 44,
+ MALI_PROFILING_EVENT_REASON_SUSPEND_RESUME_SW_EGL_WAIT_SYNC = 45, /* USED */
+} cinstr_profiling_event_reason_suspend_resume_sw_t;
+
+/**
+ * These events are applicable when the type MALI_PROFILING_EVENT_TYPE_SINGLE is used from a HW channel (GPx+PPx)
+ */
+typedef enum {
+ MALI_PROFILING_EVENT_REASON_SINGLE_HW_NONE = 0,
+ MALI_PROFILING_EVENT_REASON_SINGLE_HW_INTERRUPT = 1,
+ MALI_PROFILING_EVENT_REASON_SINGLE_HW_FLUSH = 2,
+} cinstr_profiling_event_reason_single_hw_t;
+
+/**
+ * These events are applicable when the type MALI_PROFILING_EVENT_TYPE_SINGLE is used from the GPU channel
+ */
+typedef enum {
+ MALI_PROFILING_EVENT_REASON_SINGLE_GPU_NONE = 0,
+ MALI_PROFILING_EVENT_REASON_SINGLE_GPU_FREQ_VOLT_CHANGE = 1,
+ MALI_PROFILING_EVENT_REASON_SINGLE_GPU_L20_COUNTERS = 2,
+ MALI_PROFILING_EVENT_REASON_SINGLE_GPU_L21_COUNTERS = 3,
+ MALI_PROFILING_EVENT_REASON_SINGLE_GPU_L22_COUNTERS = 4,
+} cinstr_profiling_event_reason_single_gpu_t;
+
+/**
+ * These values are applicable for the 3rd data parameter when
+ * the type MALI_PROFILING_EVENT_TYPE_START is used from the software channel
+ * with the MALI_PROFILING_EVENT_REASON_START_STOP_BOTTOM_HALF reason.
+ */
+typedef enum {
+ MALI_PROFILING_EVENT_DATA_CORE_GP0 = 1,
+ MALI_PROFILING_EVENT_DATA_CORE_PP0 = 5,
+ MALI_PROFILING_EVENT_DATA_CORE_PP1 = 6,
+ MALI_PROFILING_EVENT_DATA_CORE_PP2 = 7,
+ MALI_PROFILING_EVENT_DATA_CORE_PP3 = 8,
+ MALI_PROFILING_EVENT_DATA_CORE_PP4 = 9,
+ MALI_PROFILING_EVENT_DATA_CORE_PP5 = 10,
+ MALI_PROFILING_EVENT_DATA_CORE_PP6 = 11,
+ MALI_PROFILING_EVENT_DATA_CORE_PP7 = 12,
+} cinstr_profiling_event_data_core_t;
+
+#define MALI_PROFILING_MAKE_EVENT_DATA_CORE_GP(num) (MALI_PROFILING_EVENT_DATA_CORE_GP0 + (num))
+#define MALI_PROFILING_MAKE_EVENT_DATA_CORE_PP(num) (MALI_PROFILING_EVENT_DATA_CORE_PP0 + (num))
+
+
+#endif /*_MALI_UTGARD_PROFILING_EVENTS_H_*/
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_UTGARD_PROFILING_GATOR_API_H__
+#define __MALI_UTGARD_PROFILING_GATOR_API_H__
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#define MALI_PROFILING_API_VERSION 4
+
+#define MAX_NUM_L2_CACHE_CORES 3
+#define MAX_NUM_FP_CORES 8
+#define MAX_NUM_VP_CORES 1
+
+/** The list of events supported by the Mali DDK. */
+typedef enum {
+ /* Vertex processor activity */
+ ACTIVITY_VP_0 = 0,
+
+ /* Fragment processor activity */
+ ACTIVITY_FP_0,
+ ACTIVITY_FP_1,
+ ACTIVITY_FP_2,
+ ACTIVITY_FP_3,
+ ACTIVITY_FP_4,
+ ACTIVITY_FP_5,
+ ACTIVITY_FP_6,
+ ACTIVITY_FP_7,
+
+ /* L2 cache counters */
+ COUNTER_L2_0_C0,
+ COUNTER_L2_0_C1,
+ COUNTER_L2_1_C0,
+ COUNTER_L2_1_C1,
+ COUNTER_L2_2_C0,
+ COUNTER_L2_2_C1,
+
+ /* Vertex processor counters */
+ COUNTER_VP_0_C0,
+ COUNTER_VP_0_C1,
+
+ /* Fragment processor counters */
+ COUNTER_FP_0_C0,
+ COUNTER_FP_0_C1,
+ COUNTER_FP_1_C0,
+ COUNTER_FP_1_C1,
+ COUNTER_FP_2_C0,
+ COUNTER_FP_2_C1,
+ COUNTER_FP_3_C0,
+ COUNTER_FP_3_C1,
+ COUNTER_FP_4_C0,
+ COUNTER_FP_4_C1,
+ COUNTER_FP_5_C0,
+ COUNTER_FP_5_C1,
+ COUNTER_FP_6_C0,
+ COUNTER_FP_6_C1,
+ COUNTER_FP_7_C0,
+ COUNTER_FP_7_C1,
+
+ /*
+ * If more hardware counters are added, the _mali_osk_hw_counter_table
+ * below should also be updated.
+ */
+
+ /* EGL software counters */
+ COUNTER_EGL_BLIT_TIME,
+
+ /* GLES software counters */
+ COUNTER_GLES_DRAW_ELEMENTS_CALLS,
+ COUNTER_GLES_DRAW_ELEMENTS_NUM_INDICES,
+ COUNTER_GLES_DRAW_ELEMENTS_NUM_TRANSFORMED,
+ COUNTER_GLES_DRAW_ARRAYS_CALLS,
+ COUNTER_GLES_DRAW_ARRAYS_NUM_TRANSFORMED,
+ COUNTER_GLES_DRAW_POINTS,
+ COUNTER_GLES_DRAW_LINES,
+ COUNTER_GLES_DRAW_LINE_LOOP,
+ COUNTER_GLES_DRAW_LINE_STRIP,
+ COUNTER_GLES_DRAW_TRIANGLES,
+ COUNTER_GLES_DRAW_TRIANGLE_STRIP,
+ COUNTER_GLES_DRAW_TRIANGLE_FAN,
+ COUNTER_GLES_NON_VBO_DATA_COPY_TIME,
+ COUNTER_GLES_UNIFORM_BYTES_COPIED_TO_MALI,
+ COUNTER_GLES_UPLOAD_TEXTURE_TIME,
+ COUNTER_GLES_UPLOAD_VBO_TIME,
+ COUNTER_GLES_NUM_FLUSHES,
+ COUNTER_GLES_NUM_VSHADERS_GENERATED,
+ COUNTER_GLES_NUM_FSHADERS_GENERATED,
+ COUNTER_GLES_VSHADER_GEN_TIME,
+ COUNTER_GLES_FSHADER_GEN_TIME,
+ COUNTER_GLES_INPUT_TRIANGLES,
+ COUNTER_GLES_VXCACHE_HIT,
+ COUNTER_GLES_VXCACHE_MISS,
+ COUNTER_GLES_VXCACHE_COLLISION,
+ COUNTER_GLES_CULLED_TRIANGLES,
+ COUNTER_GLES_CULLED_LINES,
+ COUNTER_GLES_BACKFACE_TRIANGLES,
+ COUNTER_GLES_GBCLIP_TRIANGLES,
+ COUNTER_GLES_GBCLIP_LINES,
+ COUNTER_GLES_TRIANGLES_DRAWN,
+ COUNTER_GLES_DRAWCALL_TIME,
+ COUNTER_GLES_TRIANGLES_COUNT,
+ COUNTER_GLES_INDEPENDENT_TRIANGLES_COUNT,
+ COUNTER_GLES_STRIP_TRIANGLES_COUNT,
+ COUNTER_GLES_FAN_TRIANGLES_COUNT,
+ COUNTER_GLES_LINES_COUNT,
+ COUNTER_GLES_INDEPENDENT_LINES_COUNT,
+ COUNTER_GLES_STRIP_LINES_COUNT,
+ COUNTER_GLES_LOOP_LINES_COUNT,
+
+ /* Framebuffer capture pseudo-counter */
+ COUNTER_FILMSTRIP,
+
+ NUMBER_OF_EVENTS
+} _mali_osk_counter_id;
+
+#define FIRST_ACTIVITY_EVENT ACTIVITY_VP_0
+#define LAST_ACTIVITY_EVENT ACTIVITY_FP_7
+
+#define FIRST_HW_COUNTER COUNTER_L2_0_C0
+#define LAST_HW_COUNTER COUNTER_FP_7_C1
+
+#define FIRST_SW_COUNTER COUNTER_EGL_BLIT_TIME
+#define LAST_SW_COUNTER COUNTER_GLES_LOOP_LINES_COUNT
+
+#define FIRST_SPECIAL_COUNTER COUNTER_FILMSTRIP
+#define LAST_SPECIAL_COUNTER COUNTER_FILMSTRIP
+
+/**
+ * Structure to pass performance counter data of a Mali core
+ */
+typedef struct _mali_profiling_core_counters {
+ u32 source0;
+ u32 value0;
+ u32 source1;
+ u32 value1;
+} _mali_profiling_core_counters;
+
+/**
+ * Structure to pass performance counter data of Mali L2 cache cores
+ */
+typedef struct _mali_profiling_l2_counter_values {
+ struct _mali_profiling_core_counters cores[MAX_NUM_L2_CACHE_CORES];
+} _mali_profiling_l2_counter_values;
+
+/**
+ * Structure to pass data defining Mali instance in use:
+ *
+ * mali_product_id - Mali product id
+ * mali_version_major - Mali version major number
+ * mali_version_minor - Mali version minor number
+ * num_of_l2_cores - number of L2 cache cores
+ * num_of_fp_cores - number of fragment processor cores
+ * num_of_vp_cores - number of vertex processor cores
+ */
+typedef struct _mali_profiling_mali_version {
+ u32 mali_product_id;
+ u32 mali_version_major;
+ u32 mali_version_minor;
+ u32 num_of_l2_cores;
+ u32 num_of_fp_cores;
+ u32 num_of_vp_cores;
+} _mali_profiling_mali_version;
+
+/*
+ * List of possible actions to be controlled by Streamline.
+ * The following numbers are used by gator to control the frame buffer dumping and s/w counter reporting.
+ * We cannot use the enums in mali_uk_types.h because they are unknown inside gator.
+ */
+#define FBDUMP_CONTROL_ENABLE (1)
+#define FBDUMP_CONTROL_RATE (2)
+#define SW_COUNTER_ENABLE (3)
+#define FBDUMP_CONTROL_RESIZE_FACTOR (4)
+
+void _mali_profiling_control(u32 action, u32 value);
+
+u32 _mali_profiling_get_l2_counters(_mali_profiling_l2_counter_values *values);
+
+int _mali_profiling_set_event(u32 counter_id, s32 event_id);
+
+u32 _mali_profiling_get_api_version(void);
+
+void _mali_profiling_get_mali_version(struct _mali_profiling_mali_version *values);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __MALI_UTGARD_PROFILING_GATOR_API_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_uk_types.h
+ * Defines the types and constants used in the user-kernel interface
+ */
+
+#ifndef __MALI_UTGARD_UK_TYPES_H__
+#define __MALI_UTGARD_UK_TYPES_H__
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/* Iteration functions depend on these values being consecutive. */
+#define MALI_UK_TIMELINE_GP 0
+#define MALI_UK_TIMELINE_PP 1
+#define MALI_UK_TIMELINE_SOFT 2
+#define MALI_UK_TIMELINE_MAX 3
+
+typedef struct {
+ u32 points[MALI_UK_TIMELINE_MAX];
+ s32 sync_fd;
+} _mali_uk_fence_t;
+
+/**
+ * @addtogroup uddapi Unified Device Driver (UDD) APIs
+ *
+ * @{
+ */
+
+/**
+ * @addtogroup u_k_api UDD User/Kernel Interface (U/K) APIs
+ *
+ * @{
+ */
+
+/** @defgroup _mali_uk_core U/K Core
+ * @{ */
+
+/** Definition of subsystem numbers, to assist in creating a unique identifier
+ * for each U/K call.
+ *
+ * @see _mali_uk_functions */
+typedef enum {
+ _MALI_UK_CORE_SUBSYSTEM, /**< Core Group of U/K calls */
+ _MALI_UK_MEMORY_SUBSYSTEM, /**< Memory Group of U/K calls */
+ _MALI_UK_PP_SUBSYSTEM, /**< Fragment Processor Group of U/K calls */
+ _MALI_UK_GP_SUBSYSTEM, /**< Vertex Processor Group of U/K calls */
+ _MALI_UK_PROFILING_SUBSYSTEM, /**< Profiling Group of U/K calls */
+ _MALI_UK_PMM_SUBSYSTEM, /**< Power Management Module Group of U/K calls */
+ _MALI_UK_VSYNC_SUBSYSTEM, /**< VSYNC Group of U/K calls */
+} _mali_uk_subsystem_t;
+
+/** Within a function group each function has its unique sequence number
+ * to assist in creating a unique identifier for each U/K call.
+ *
+ * An ordered pair of numbers selected from
+ * ( \ref _mali_uk_subsystem_t,\ref _mali_uk_functions) will uniquely identify the
+ * U/K call across all groups of functions, and all functions. */
+typedef enum {
+ /** Core functions */
+
+ _MALI_UK_OPEN = 0, /**< _mali_ukk_open() */
+ _MALI_UK_CLOSE, /**< _mali_ukk_close() */
+ _MALI_UK_WAIT_FOR_NOTIFICATION, /**< _mali_ukk_wait_for_notification() */
+ _MALI_UK_GET_API_VERSION, /**< _mali_ukk_get_api_version() */
+ _MALI_UK_POST_NOTIFICATION, /**< _mali_ukk_post_notification() */
+ _MALI_UK_GET_MALI_VERSION_IN_RK30,
+ _MALI_UK_GET_USER_SETTING, /**< _mali_ukk_get_user_setting() *//**< [out] */
+ _MALI_UK_GET_USER_SETTINGS, /**< _mali_ukk_get_user_settings() *//**< [out] */
+ _MALI_UK_REQUEST_HIGH_PRIORITY, /**< _mali_ukk_request_high_priority() */
+ _MALI_UK_TIMELINE_GET_LATEST_POINT, /**< _mali_ukk_timeline_get_latest_point() */
+ _MALI_UK_TIMELINE_WAIT, /**< _mali_ukk_timeline_wait() */
+ _MALI_UK_TIMELINE_CREATE_SYNC_FENCE, /**< _mali_ukk_timeline_create_sync_fence() */
+ _MALI_UK_SOFT_JOB_START, /**< _mali_ukk_soft_job_start() */
+ _MALI_UK_SOFT_JOB_SIGNAL, /**< _mali_ukk_soft_job_signal() */
+
+ /** Memory functions */
+
+ _MALI_UK_INIT_MEM = 0, /**< _mali_ukk_init_mem() */
+ _MALI_UK_TERM_MEM, /**< _mali_ukk_term_mem() */
+ _MALI_UK_GET_BIG_BLOCK, /**< _mali_ukk_get_big_block() */
+ _MALI_UK_FREE_BIG_BLOCK, /**< _mali_ukk_free_big_block() */
+ _MALI_UK_MAP_MEM, /**< _mali_ukk_mem_mmap() */
+ _MALI_UK_UNMAP_MEM, /**< _mali_ukk_mem_munmap() */
+ _MALI_UK_QUERY_MMU_PAGE_TABLE_DUMP_SIZE, /**< _mali_ukk_mem_get_mmu_page_table_dump_size() */
+ _MALI_UK_DUMP_MMU_PAGE_TABLE, /**< _mali_ukk_mem_dump_mmu_page_table() */
+ _MALI_UK_ATTACH_DMA_BUF, /**< _mali_ukk_attach_dma_buf() */
+ _MALI_UK_RELEASE_DMA_BUF, /**< _mali_ukk_release_dma_buf() */
+ _MALI_UK_DMA_BUF_GET_SIZE, /**< _mali_ukk_dma_buf_get_size() */
+ _MALI_UK_ATTACH_UMP_MEM, /**< _mali_ukk_attach_ump_mem() */
+ _MALI_UK_RELEASE_UMP_MEM, /**< _mali_ukk_release_ump_mem() */
+ _MALI_UK_MAP_EXT_MEM, /**< _mali_uku_map_external_mem() */
+ _MALI_UK_UNMAP_EXT_MEM, /**< _mali_uku_unmap_external_mem() */
+ _MALI_UK_VA_TO_MALI_PA, /**< _mali_uku_va_to_mali_pa() */
+ _MALI_UK_MEM_WRITE_SAFE, /**< _mali_uku_mem_write_safe() */
+
+ /** Common functions for each core */
+
+ _MALI_UK_START_JOB = 0, /**< Start a Fragment/Vertex Processor Job on a core */
+ _MALI_UK_GET_NUMBER_OF_CORES, /**< Get the number of Fragment/Vertex Processor cores */
+ _MALI_UK_GET_CORE_VERSION, /**< Get the Fragment/Vertex Processor version compatible with all cores */
+
+ /** Fragment Processor Functions */
+
+ _MALI_UK_PP_START_JOB = _MALI_UK_START_JOB, /**< _mali_ukk_pp_start_job() */
+ _MALI_UK_GET_PP_NUMBER_OF_CORES = _MALI_UK_GET_NUMBER_OF_CORES, /**< _mali_ukk_get_pp_number_of_cores() */
+ _MALI_UK_GET_PP_CORE_VERSION = _MALI_UK_GET_CORE_VERSION, /**< _mali_ukk_get_pp_core_version() */
+ _MALI_UK_PP_DISABLE_WB, /**< _mali_ukk_pp_job_disable_wb() */
+ _MALI_UK_PP_AND_GP_START_JOB, /**< _mali_ukk_pp_and_gp_start_job() */
+
+ /** Vertex Processor Functions */
+
+ _MALI_UK_GP_START_JOB = _MALI_UK_START_JOB, /**< _mali_ukk_gp_start_job() */
+ _MALI_UK_GET_GP_NUMBER_OF_CORES = _MALI_UK_GET_NUMBER_OF_CORES, /**< _mali_ukk_get_gp_number_of_cores() */
+ _MALI_UK_GET_GP_CORE_VERSION = _MALI_UK_GET_CORE_VERSION, /**< _mali_ukk_get_gp_core_version() */
+ _MALI_UK_GP_SUSPEND_RESPONSE, /**< _mali_ukk_gp_suspend_response() */
+
+ /** Profiling functions */
+
+ _MALI_UK_PROFILING_START = 0, /**< __mali_uku_profiling_start() */
+ _MALI_UK_PROFILING_ADD_EVENT, /**< __mali_uku_profiling_add_event() */
+ _MALI_UK_PROFILING_STOP, /**< __mali_uku_profiling_stop() */
+ _MALI_UK_PROFILING_GET_EVENT, /**< __mali_uku_profiling_get_event() */
+ _MALI_UK_PROFILING_CLEAR, /**< __mali_uku_profiling_clear() */
+ _MALI_UK_PROFILING_GET_CONFIG, /**< __mali_uku_profiling_get_config() */
+ _MALI_UK_PROFILING_REPORT_SW_COUNTERS,/**< __mali_uku_profiling_report_sw_counters() */
+
+ /** VSYNC reporting fuctions */
+ _MALI_UK_VSYNC_EVENT_REPORT = 0, /**< _mali_ukk_vsync_event_report() */
+
+} _mali_uk_functions;
+
+/** @brief Get the size necessary for system info
+ *
+ * @see _mali_ukk_get_system_info_size()
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 size; /**< [out] size of buffer necessary to hold system information data, in bytes */
+} _mali_uk_get_system_info_size_s;
+
+
+/** @defgroup _mali_uk_getsysteminfo U/K Get System Info
+ * @{ */
+
+/**
+ * Type definition for the core version number.
+ * Used when returning the version number read from a core
+ *
+ * Its format is that of the 32-bit Version register for a particular core.
+ * Refer to the "Mali200 and MaliGP2 3D Graphics Processor Technical Reference
+ * Manual", ARM DDI 0415C, for more information.
+ */
+typedef u32 _mali_core_version;
+
+/**
+ * Enum values for the different modes the driver can be put in.
+ * Normal is the default mode. The driver then uses a job queue and takes job objects from the clients.
+ * Job completion is reported using the _mali_ukk_wait_for_notification call.
+ * The driver blocks this io command until a job has completed or failed or a timeout occurs.
+ *
+ * The 'raw' mode is reserved for future expansion.
+ */
+typedef enum _mali_driver_mode {
+ _MALI_DRIVER_MODE_RAW = 1, /**< Reserved for future expansion */
+ _MALI_DRIVER_MODE_NORMAL = 2 /**< Normal mode of operation */
+} _mali_driver_mode;
+
+/** @brief List of possible cores
+ *
+ * add new entries to the end of this enum */
+typedef enum _mali_core_type {
+ _MALI_GP2 = 2, /**< MaliGP2 Programmable Vertex Processor */
+ _MALI_200 = 5, /**< Mali200 Programmable Fragment Processor */
+ _MALI_400_GP = 6, /**< Mali400 Programmable Vertex Processor */
+ _MALI_400_PP = 7, /**< Mali400 Programmable Fragment Processor */
+ /* insert new core here, do NOT alter the existing values */
+} _mali_core_type;
+
+
+/** @brief Capabilities of Memory Banks
+ *
+ * These may be used to restrict memory banks for certain uses. They may be
+ * used when access is not possible (e.g. Bus does not support access to it)
+ * or when access is possible but not desired (e.g. Access is slow).
+ *
+ * In the case of 'possible but not desired', there is no way of specifying
+ * the flags as an optimization hint, so that the memory could be used as a
+ * last resort.
+ *
+ * @see _mali_mem_info
+ */
+typedef enum _mali_bus_usage {
+
+ _MALI_PP_READABLE = (1<<0), /** Readable by the Fragment Processor */
+ _MALI_PP_WRITEABLE = (1<<1), /** Writeable by the Fragment Processor */
+ _MALI_GP_READABLE = (1<<2), /** Readable by the Vertex Processor */
+ _MALI_GP_WRITEABLE = (1<<3), /** Writeable by the Vertex Processor */
+ _MALI_CPU_READABLE = (1<<4), /** Readable by the CPU */
+ _MALI_CPU_WRITEABLE = (1<<5), /** Writeable by the CPU */
+ _MALI_GP_L2_ALLOC = (1<<6), /** GP allocate mali L2 cache lines*/
+ _MALI_MMU_READABLE = _MALI_PP_READABLE | _MALI_GP_READABLE, /** Readable by the MMU (including all cores behind it) */
+ _MALI_MMU_WRITEABLE = _MALI_PP_WRITEABLE | _MALI_GP_WRITEABLE, /** Writeable by the MMU (including all cores behind it) */
+} _mali_bus_usage;
+
+typedef enum mali_memory_cache_settings {
+ MALI_CACHE_STANDARD = 0,
+ MALI_CACHE_GP_READ_ALLOCATE = 1,
+} mali_memory_cache_settings ;
+
+
+/** @brief Information about the Mali Memory system
+ *
+ * Information is stored in a linked list, which is stored entirely in the
+ * buffer pointed to by the system_info member of the
+ * _mali_uk_get_system_info_s arguments provided to _mali_ukk_get_system_info()
+ *
+ * Each element of the linked list describes a single Mali Memory bank.
+ * Each allocation can only come from one bank, and will not cross multiple
+ * banks.
+ *
+ * On Mali-MMU systems, there is only one bank, which describes the maximum
+ * possible address range that could be allocated (which may be much less than
+ * the available physical memory)
+ *
+ * The flags member describes the capabilities of the memory. It is an error
+ * to attempt to build a job for a particular core (PP or GP) when the memory
+ * regions used do not have the capabilities for supporting that core. This
+ * would result in a job abort from the Device Driver.
+ *
+ * For example, it is correct to build a PP job where read-only data structures
+ * are taken from a memory with _MALI_PP_READABLE set and
+ * _MALI_PP_WRITEABLE clear, and a framebuffer with _MALI_PP_WRITEABLE set and
+ * _MALI_PP_READABLE clear. However, it would be incorrect to use a framebuffer
+ * where _MALI_PP_WRITEABLE is clear.
+ */
+typedef struct _mali_mem_info {
+ u32 size; /**< Size of the memory bank in bytes */
+ _mali_bus_usage flags; /**< Capabilitiy flags of the memory */
+ u32 maximum_order_supported; /**< log2 supported size */
+ u32 identifier; /* mali_memory_cache_settings cache_settings; */
+ struct _mali_mem_info * next; /**< Next List Link */
+} _mali_mem_info;
+
+/** @} */ /* end group _mali_uk_core */
+
+
+/** @defgroup _mali_uk_gp U/K Vertex Processor
+ * @{ */
+
+/** @defgroup _mali_uk_gp_suspend_response_s Vertex Processor Suspend Response
+ * @{ */
+
+/** @brief Arguments for _mali_ukk_gp_suspend_response()
+ *
+ * When _mali_wait_for_notification() receives notification that a
+ * Vertex Processor job was suspended, you need to send a response to indicate
+ * what needs to happen with this job. You can either abort or resume the job.
+ *
+ * - set @c code to indicate response code. This is either @c _MALIGP_JOB_ABORT or
+ * @c _MALIGP_JOB_RESUME_WITH_NEW_HEAP to indicate you will provide a new heap
+ * for the job that will resolve the out of memory condition for the job.
+ * - copy the @c cookie value from the @c _mali_uk_gp_job_suspended_s notification;
+ * this is an identifier for the suspended job
+ * - set @c arguments[0] and @c arguments[1] to zero if you abort the job. If
+ * you resume it, @c argument[0] should specify the Mali start address for the new
+ * heap and @c argument[1] the Mali end address of the heap.
+ * - pass in the user-kernel context @c ctx that was returned from _mali_ukk_open()
+ *
+ */
+typedef enum _maligp_job_suspended_response_code {
+ _MALIGP_JOB_ABORT, /**< Abort the Vertex Processor job */
+ _MALIGP_JOB_RESUME_WITH_NEW_HEAP /**< Resume the Vertex Processor job with a new heap */
+} _maligp_job_suspended_response_code;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 cookie; /**< [in] cookie from the _mali_uk_gp_job_suspended_s notification */
+ _maligp_job_suspended_response_code code; /**< [in] abort or resume response code, see \ref _maligp_job_suspended_response_code */
+ u32 arguments[2]; /**< [in] 0 when aborting a job. When resuming a job, the Mali start and end address for a new heap to resume the job with */
+} _mali_uk_gp_suspend_response_s;
+
+/** @} */ /* end group _mali_uk_gp_suspend_response_s */
+
+/** @defgroup _mali_uk_gpstartjob_s Vertex Processor Start Job
+ * @{ */
+
+/** @brief Status indicating the result of starting a Vertex or Fragment processor job */
+typedef enum {
+ _MALI_UK_START_JOB_STARTED, /**< Job started */
+ _MALI_UK_START_JOB_NOT_STARTED_DO_REQUEUE /**< Job could not be started at this time. Try starting the job again */
+} _mali_uk_start_job_status;
+
+/** @brief Status indicating the result of the execution of a Vertex or Fragment processor job */
+
+typedef enum {
+ _MALI_UK_JOB_STATUS_END_SUCCESS = 1<<(16+0),
+ _MALI_UK_JOB_STATUS_END_OOM = 1<<(16+1),
+ _MALI_UK_JOB_STATUS_END_ABORT = 1<<(16+2),
+ _MALI_UK_JOB_STATUS_END_TIMEOUT_SW = 1<<(16+3),
+ _MALI_UK_JOB_STATUS_END_HANG = 1<<(16+4),
+ _MALI_UK_JOB_STATUS_END_SEG_FAULT = 1<<(16+5),
+ _MALI_UK_JOB_STATUS_END_ILLEGAL_JOB = 1<<(16+6),
+ _MALI_UK_JOB_STATUS_END_UNKNOWN_ERR = 1<<(16+7),
+ _MALI_UK_JOB_STATUS_END_SHUTDOWN = 1<<(16+8),
+ _MALI_UK_JOB_STATUS_END_SYSTEM_UNUSABLE = 1<<(16+9)
+} _mali_uk_job_status;
+
+#define MALIGP2_NUM_REGS_FRAME (6)
+
+/** @brief Arguments for _mali_ukk_gp_start_job()
+ *
+ * To start a Vertex Processor job
+ * - associate the request with a reference to a @c mali_gp_job_info by setting
+ * user_job_ptr to the address of the @c mali_gp_job_info of the job.
+ * - set @c priority to the priority of the @c mali_gp_job_info
+ * - specify a timeout for the job by setting @c watchdog_msecs to the number of
+ * milliseconds the job is allowed to run. Specifying a value of 0 selects the
+ * default timeout in use by the device driver.
+ * - copy the frame registers from the @c mali_gp_job_info into @c frame_registers.
+ * - set the @c perf_counter_flag, @c perf_counter_src0 and @c perf_counter_src1 to zero
+ * for a non-instrumented build. For an instrumented build you can use up
+ * to two performance counters. Set the corresponding bit in @c perf_counter_flag
+ * to enable them. @c perf_counter_src0 and @c perf_counter_src1 specify
+ * the source of what needs to get counted (e.g. number of vertex loader
+ * cache hits). For source id values, see ARM DDI0415A, Table 3-60.
+ * - pass in the user-kernel context @c ctx that was returned from _mali_ukk_open()
+ *
+ * When @c _mali_ukk_gp_start_job() returns @c _MALI_OSK_ERR_OK, status contains the
+ * result of the request (see \ref _mali_uk_start_job_status). If the job could
+ * not get started (@c _MALI_UK_START_JOB_NOT_STARTED_DO_REQUEUE) it should be
+ * tried again.
+ *
+ * After the job has started, @c _mali_wait_for_notification() will be notified
+ * that the job finished or got suspended. It may get suspended due to
+ * resource shortage. If it finished (see _mali_ukk_wait_for_notification())
+ * the notification will contain a @c _mali_uk_gp_job_finished_s result. If
+ * it got suspended the notification will contain a @c _mali_uk_gp_job_suspended_s
+ * result.
+ *
+ * The @c _mali_uk_gp_job_finished_s contains the job status (see \ref _mali_uk_job_status),
+ * the number of milliseconds the job took to render, and values of core registers
+ * when the job finished (irq status, performance counters, renderer list
+ * address). A job has finished succesfully when its status is
+ * @c _MALI_UK_JOB_STATUS_FINISHED. If the hardware detected a timeout while rendering
+ * the job, or software detected the job is taking more than watchdog_msecs to
+ * complete, the status will indicate @c _MALI_UK_JOB_STATUS_HANG.
+ * If the hardware detected a bus error while accessing memory associated with the
+ * job, status will indicate @c _MALI_UK_JOB_STATUS_SEG_FAULT.
+ * status will indicate @c _MALI_UK_JOB_STATUS_NOT_STARTED if the driver had to
+ * stop the job but the job didn't start on the hardware yet, e.g. when the
+ * driver shutdown.
+ *
+ * In case the job got suspended, @c _mali_uk_gp_job_suspended_s contains
+ * the @c user_job_ptr identifier used to start the job with, the @c reason
+ * why the job stalled (see \ref _maligp_job_suspended_reason) and a @c cookie
+ * to identify the core on which the job stalled. This @c cookie will be needed
+ * when responding to this nofication by means of _mali_ukk_gp_suspend_response().
+ * (see _mali_ukk_gp_suspend_response()). The response is either to abort or
+ * resume the job. If the job got suspended due to an out of memory condition
+ * you may be able to resolve this by providing more memory and resuming the job.
+ *
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 user_job_ptr; /**< [in] identifier for the job in user space, a @c mali_gp_job_info* */
+ u32 priority; /**< [in] job priority. A lower number means higher priority */
+ u32 frame_registers[MALIGP2_NUM_REGS_FRAME]; /**< [in] core specific registers associated with this job */
+ u32 perf_counter_flag; /**< [in] bitmask indicating which performance counters to enable, see \ref _MALI_PERFORMANCE_COUNTER_FLAG_SRC0_ENABLE and related macro definitions */
+ u32 perf_counter_src0; /**< [in] source id for performance counter 0 (see ARM DDI0415A, Table 3-60) */
+ u32 perf_counter_src1; /**< [in] source id for performance counter 1 (see ARM DDI0415A, Table 3-60) */
+ u32 frame_builder_id; /**< [in] id of the originating frame builder */
+ u32 flush_id; /**< [in] flush id within the originating frame builder */
+ _mali_uk_fence_t fence; /**< [in] fence this job must wait on */
+ u32 *timeline_point_ptr; /**< [in,out] pointer to location where point on gp timeline for this job will be written */
+} _mali_uk_gp_start_job_s;
+
+#define _MALI_PERFORMANCE_COUNTER_FLAG_SRC0_ENABLE (1<<0) /**< Enable performance counter SRC0 for a job */
+#define _MALI_PERFORMANCE_COUNTER_FLAG_SRC1_ENABLE (1<<1) /**< Enable performance counter SRC1 for a job */
+#define _MALI_PERFORMANCE_COUNTER_FLAG_HEATMAP_ENABLE (1<<2) /**< Enable per tile (aka heatmap) generation with for a job (using the enabled counter sources) */
+
+/** @} */ /* end group _mali_uk_gpstartjob_s */
+
+typedef struct {
+ u32 user_job_ptr; /**< [out] identifier for the job in user space */
+ _mali_uk_job_status status; /**< [out] status of finished job */
+ u32 heap_current_addr; /**< [out] value of the GP PLB PL heap start address register */
+ u32 perf_counter0; /**< [out] value of performance counter 0 (see ARM DDI0415A) */
+ u32 perf_counter1; /**< [out] value of performance counter 1 (see ARM DDI0415A) */
+} _mali_uk_gp_job_finished_s;
+
+typedef struct {
+ u32 user_job_ptr; /**< [out] identifier for the job in user space */
+ u32 cookie; /**< [out] identifier for the core in kernel space on which the job stalled */
+} _mali_uk_gp_job_suspended_s;
+
+/** @} */ /* end group _mali_uk_gp */
+
+
+/** @defgroup _mali_uk_pp U/K Fragment Processor
+ * @{ */
+
+#define _MALI_PP_MAX_SUB_JOBS 8
+
+#define _MALI_PP_MAX_FRAME_REGISTERS ((0x058/4)+1)
+
+#define _MALI_PP_MAX_WB_REGISTERS ((0x02C/4)+1)
+
+#define _MALI_DLBU_MAX_REGISTERS 4
+
+/** Flag for _mali_uk_pp_start_job_s */
+#define _MALI_PP_JOB_FLAG_NO_NOTIFICATION (1<<0)
+#define _MALI_PP_JOB_FLAG_IS_WINDOW_SURFACE (1<<1)
+
+/** @defgroup _mali_uk_ppstartjob_s Fragment Processor Start Job
+ * @{ */
+
+/** @brief Arguments for _mali_ukk_pp_start_job()
+ *
+ * To start a Fragment Processor job
+ * - associate the request with a reference to a mali_pp_job by setting
+ * @c user_job_ptr to the address of the @c mali_pp_job of the job.
+ * - set @c priority to the priority of the mali_pp_job
+ * - specify a timeout for the job by setting @c watchdog_msecs to the number of
+ * milliseconds the job is allowed to run. Specifying a value of 0 selects the
+ * default timeout in use by the device driver.
+ * - copy the frame registers from the @c mali_pp_job into @c frame_registers.
+ * For MALI200 you also need to copy the write back 0,1 and 2 registers.
+ * - set the @c perf_counter_flag, @c perf_counter_src0 and @c perf_counter_src1 to zero
+ * for a non-instrumented build. For an instrumented build you can use up
+ * to two performance counters. Set the corresponding bit in @c perf_counter_flag
+ * to enable them. @c perf_counter_src0 and @c perf_counter_src1 specify
+ * the source of what needs to get counted (e.g. number of vertex loader
+ * cache hits). For source id values, see ARM DDI0415A, Table 3-60.
+ * - pass in the user-kernel context in @c ctx that was returned from _mali_ukk_open()
+ *
+ * When _mali_ukk_pp_start_job() returns @c _MALI_OSK_ERR_OK, @c status contains the
+ * result of the request (see \ref _mali_uk_start_job_status). If the job could
+ * not get started (@c _MALI_UK_START_JOB_NOT_STARTED_DO_REQUEUE) it should be
+ * tried again.
+ *
+ * After the job has started, _mali_wait_for_notification() will be notified
+ * when the job finished. The notification will contain a
+ * @c _mali_uk_pp_job_finished_s result. It contains the @c user_job_ptr
+ * identifier used to start the job with, the job @c status (see \ref _mali_uk_job_status),
+ * the number of milliseconds the job took to render, and values of core registers
+ * when the job finished (irq status, performance counters, renderer list
+ * address). A job has finished succesfully when its status is
+ * @c _MALI_UK_JOB_STATUS_FINISHED. If the hardware detected a timeout while rendering
+ * the job, or software detected the job is taking more than @c watchdog_msecs to
+ * complete, the status will indicate @c _MALI_UK_JOB_STATUS_HANG.
+ * If the hardware detected a bus error while accessing memory associated with the
+ * job, status will indicate @c _MALI_UK_JOB_STATUS_SEG_FAULT.
+ * status will indicate @c _MALI_UK_JOB_STATUS_NOT_STARTED if the driver had to
+ * stop the job but the job didn't start on the hardware yet, e.g. when the
+ * driver shutdown.
+ *
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 user_job_ptr; /**< [in] identifier for the job in user space */
+ u32 priority; /**< [in] job priority. A lower number means higher priority */
+ u32 frame_registers[_MALI_PP_MAX_FRAME_REGISTERS]; /**< [in] core specific registers associated with first sub job, see ARM DDI0415A */
+ u32 frame_registers_addr_frame[_MALI_PP_MAX_SUB_JOBS - 1]; /**< [in] ADDR_FRAME registers for sub job 1-7 */
+ u32 frame_registers_addr_stack[_MALI_PP_MAX_SUB_JOBS - 1]; /**< [in] ADDR_STACK registers for sub job 1-7 */
+ u32 wb0_registers[_MALI_PP_MAX_WB_REGISTERS];
+ u32 wb1_registers[_MALI_PP_MAX_WB_REGISTERS];
+ u32 wb2_registers[_MALI_PP_MAX_WB_REGISTERS];
+ u32 dlbu_registers[_MALI_DLBU_MAX_REGISTERS]; /**< [in] Dynamic load balancing unit registers */
+ u32 num_cores; /**< [in] Number of cores to set up (valid range: 1-4) */
+ u32 perf_counter_flag; /**< [in] bitmask indicating which performance counters to enable, see \ref _MALI_PERFORMANCE_COUNTER_FLAG_SRC0_ENABLE and related macro definitions */
+ u32 perf_counter_src0; /**< [in] source id for performance counter 0 (see ARM DDI0415A, Table 3-60) */
+ u32 perf_counter_src1; /**< [in] source id for performance counter 1 (see ARM DDI0415A, Table 3-60) */
+ u32 frame_builder_id; /**< [in] id of the originating frame builder */
+ u32 flush_id; /**< [in] flush id within the originating frame builder */
+ u32 flags; /**< [in] See _MALI_PP_JOB_FLAG_* for a list of avaiable flags */
+ u32 tilesx; /**< [in] number of tiles in the x direction (needed for heatmap generation */
+ u32 tilesy; /**< [in] number of tiles in y direction (needed for reading the heatmap memory) */
+ u32 heatmap_mem; /**< [in] memory address to store counter values per tile (aka heatmap) */
+ u32 num_memory_cookies; /**< [in] number of memory cookies attached to job */
+ u32 *memory_cookies; /**< [in] memory cookies attached to job */
+ _mali_uk_fence_t fence; /**< [in] fence this job must wait on */
+ u32 *timeline_point_ptr; /**< [in,out] pointer to location where point on pp timeline for this job will be written */
+} _mali_uk_pp_start_job_s;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ _mali_uk_gp_start_job_s *gp_args; /**< [in,out] GP uk arguments (see _mali_uk_gp_start_job_s) */
+ _mali_uk_pp_start_job_s *pp_args; /**< [in,out] PP uk arguments (see _mali_uk_pp_start_job_s) */
+} _mali_uk_pp_and_gp_start_job_s;
+
+/** @} */ /* end group _mali_uk_ppstartjob_s */
+
+typedef struct {
+ u32 user_job_ptr; /**< [out] identifier for the job in user space */
+ _mali_uk_job_status status; /**< [out] status of finished job */
+ u32 perf_counter0[_MALI_PP_MAX_SUB_JOBS]; /**< [out] value of perfomance counter 0 (see ARM DDI0415A), one for each sub job */
+ u32 perf_counter1[_MALI_PP_MAX_SUB_JOBS]; /**< [out] value of perfomance counter 1 (see ARM DDI0415A), one for each sub job */
+ u32 perf_counter_src0;
+ u32 perf_counter_src1;
+} _mali_uk_pp_job_finished_s;
+
+typedef struct {
+ u32 number_of_enabled_cores; /**< [out] the new number of enabled cores */
+} _mali_uk_pp_num_cores_changed_s;
+
+
+
+/**
+ * Flags to indicate write-back units
+ */
+typedef enum {
+ _MALI_UK_PP_JOB_WB0 = 1,
+ _MALI_UK_PP_JOB_WB1 = 2,
+ _MALI_UK_PP_JOB_WB2 = 4,
+} _mali_uk_pp_job_wbx_flag;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 fb_id; /**< [in] Frame builder ID of job to disable WB units for */
+ u32 wb0_memory;
+ u32 wb1_memory;
+ u32 wb2_memory;
+} _mali_uk_pp_disable_wb_s;
+
+
+/** @} */ /* end group _mali_uk_pp */
+
+/** @defgroup _mali_uk_soft_job U/K Soft Job
+ * @{ */
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 type; /**< [in] type of soft job */
+ u32 user_job; /**< [in] identifier for the job in user space */
+ u32 *job_id_ptr; /**< [in,out] pointer to location where job id will be written */
+ _mali_uk_fence_t fence; /**< [in] fence this job must wait on */
+ u32 point; /**< [out] point on soft timeline for this job */
+} _mali_uk_soft_job_start_s;
+
+typedef struct {
+ u32 user_job; /**< [out] identifier for the job in user space */
+} _mali_uk_soft_job_activated_s;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 job_id; /**< [in] id for soft job */
+} _mali_uk_soft_job_signal_s;
+
+/** @} */ /* end group _mali_uk_soft_job */
+
+/** @addtogroup _mali_uk_core U/K Core
+ * @{ */
+
+/** @defgroup _mali_uk_waitfornotification_s Wait For Notification
+ * @{ */
+
+/** @brief Notification type encodings
+ *
+ * Each Notification type is an ordered pair of (subsystem,id), and is unique.
+ *
+ * The encoding of subsystem,id into a 32-bit word is:
+ * encoding = (( subsystem << _MALI_NOTIFICATION_SUBSYSTEM_SHIFT ) & _MALI_NOTIFICATION_SUBSYSTEM_MASK)
+ * | (( id << _MALI_NOTIFICATION_ID_SHIFT ) & _MALI_NOTIFICATION_ID_MASK)
+ *
+ * @see _mali_uk_wait_for_notification_s
+ */
+typedef enum {
+ /** core notifications */
+
+ _MALI_NOTIFICATION_CORE_SHUTDOWN_IN_PROGRESS = (_MALI_UK_CORE_SUBSYSTEM << 16) | 0x20,
+ _MALI_NOTIFICATION_APPLICATION_QUIT = (_MALI_UK_CORE_SUBSYSTEM << 16) | 0x40,
+ _MALI_NOTIFICATION_SETTINGS_CHANGED = (_MALI_UK_CORE_SUBSYSTEM << 16) | 0x80,
+ _MALI_NOTIFICATION_SOFT_ACTIVATED = (_MALI_UK_CORE_SUBSYSTEM << 16) | 0x100,
+
+ /** Fragment Processor notifications */
+
+ _MALI_NOTIFICATION_PP_FINISHED = (_MALI_UK_PP_SUBSYSTEM << 16) | 0x10,
+ _MALI_NOTIFICATION_PP_NUM_CORE_CHANGE = (_MALI_UK_PP_SUBSYSTEM << 16) | 0x20,
+
+ /** Vertex Processor notifications */
+
+ _MALI_NOTIFICATION_GP_FINISHED = (_MALI_UK_GP_SUBSYSTEM << 16) | 0x10,
+ _MALI_NOTIFICATION_GP_STALLED = (_MALI_UK_GP_SUBSYSTEM << 16) | 0x20,
+
+} _mali_uk_notification_type;
+
+/** to assist in splitting up 32-bit notification value in subsystem and id value */
+#define _MALI_NOTIFICATION_SUBSYSTEM_MASK 0xFFFF0000
+#define _MALI_NOTIFICATION_SUBSYSTEM_SHIFT 16
+#define _MALI_NOTIFICATION_ID_MASK 0x0000FFFF
+#define _MALI_NOTIFICATION_ID_SHIFT 0
+
+
+/** @brief Enumeration of possible settings which match mali_setting_t in user space
+ *
+ *
+ */
+typedef enum {
+ _MALI_UK_USER_SETTING_SW_EVENTS_ENABLE = 0,
+ _MALI_UK_USER_SETTING_COLORBUFFER_CAPTURE_ENABLED,
+ _MALI_UK_USER_SETTING_DEPTHBUFFER_CAPTURE_ENABLED,
+ _MALI_UK_USER_SETTING_STENCILBUFFER_CAPTURE_ENABLED,
+ _MALI_UK_USER_SETTING_PER_TILE_COUNTERS_CAPTURE_ENABLED,
+ _MALI_UK_USER_SETTING_BUFFER_CAPTURE_COMPOSITOR,
+ _MALI_UK_USER_SETTING_BUFFER_CAPTURE_WINDOW,
+ _MALI_UK_USER_SETTING_BUFFER_CAPTURE_OTHER,
+ _MALI_UK_USER_SETTING_BUFFER_CAPTURE_N_FRAMES,
+ _MALI_UK_USER_SETTING_BUFFER_CAPTURE_RESIZE_FACTOR,
+ _MALI_UK_USER_SETTING_SW_COUNTER_ENABLED,
+ _MALI_UK_USER_SETTING_MAX,
+} _mali_uk_user_setting_t;
+
+/* See mali_user_settings_db.c */
+extern const char *_mali_uk_user_setting_descriptions[];
+#define _MALI_UK_USER_SETTING_DESCRIPTIONS \
+{ \
+ "sw_events_enable", \
+ "colorbuffer_capture_enable", \
+ "depthbuffer_capture_enable", \
+ "stencilbuffer_capture_enable", \
+ "per_tile_counters_enable", \
+ "buffer_capture_compositor", \
+ "buffer_capture_window", \
+ "buffer_capture_other", \
+ "buffer_capture_n_frames", \
+ "buffer_capture_resize_factor", \
+ "sw_counters_enable", \
+};
+
+/** @brief struct to hold the value to a particular setting as seen in the kernel space
+ */
+typedef struct {
+ _mali_uk_user_setting_t setting;
+ u32 value;
+} _mali_uk_settings_changed_s;
+
+/** @brief Arguments for _mali_ukk_wait_for_notification()
+ *
+ * On successful return from _mali_ukk_wait_for_notification(), the members of
+ * this structure will indicate the reason for notification.
+ *
+ * Specifically, the source of the notification can be identified by the
+ * subsystem and id fields of the mali_uk_notification_type in the code.type
+ * member. The type member is encoded in a way to divide up the types into a
+ * subsystem field, and a per-subsystem ID field. See
+ * _mali_uk_notification_type for more information.
+ *
+ * Interpreting the data union member depends on the notification type:
+ *
+ * - type == _MALI_NOTIFICATION_CORE_SHUTDOWN_IN_PROGRESS
+ * - The kernel side is shutting down. No further
+ * _mali_uk_wait_for_notification() calls should be made.
+ * - In this case, the value of the data union member is undefined.
+ * - This is used to indicate to the user space client that it should close
+ * the connection to the Mali Device Driver.
+ * - type == _MALI_NOTIFICATION_PP_FINISHED
+ * - The notification data is of type _mali_uk_pp_job_finished_s. It contains the user_job_ptr
+ * identifier used to start the job with, the job status, the number of milliseconds the job took to render,
+ * and values of core registers when the job finished (irq status, performance counters, renderer list
+ * address).
+ * - A job has finished succesfully when its status member is _MALI_UK_JOB_STATUS_FINISHED.
+ * - If the hardware detected a timeout while rendering the job, or software detected the job is
+ * taking more than watchdog_msecs (see _mali_ukk_pp_start_job()) to complete, the status member will
+ * indicate _MALI_UK_JOB_STATUS_HANG.
+ * - If the hardware detected a bus error while accessing memory associated with the job, status will
+ * indicate _MALI_UK_JOB_STATUS_SEG_FAULT.
+ * - Status will indicate MALI_UK_JOB_STATUS_NOT_STARTED if the driver had to stop the job but the job
+ * didn't start the hardware yet, e.g. when the driver closes.
+ * - type == _MALI_NOTIFICATION_GP_FINISHED
+ * - The notification data is of type _mali_uk_gp_job_finished_s. The notification is similar to that of
+ * type == _MALI_NOTIFICATION_PP_FINISHED, except that several other GP core register values are returned.
+ * The status values have the same meaning for type == _MALI_NOTIFICATION_PP_FINISHED.
+ * - type == _MALI_NOTIFICATION_GP_STALLED
+ * - The nofication data is of type _mali_uk_gp_job_suspended_s. It contains the user_job_ptr
+ * identifier used to start the job with, the reason why the job stalled and a cookie to identify the core on
+ * which the job stalled.
+ * - The reason member of gp_job_suspended is set to _MALIGP_JOB_SUSPENDED_OUT_OF_MEMORY
+ * when the polygon list builder unit has run out of memory.
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ _mali_uk_notification_type type; /**< [out] Type of notification available */
+ union {
+ _mali_uk_gp_job_suspended_s gp_job_suspended;/**< [out] Notification data for _MALI_NOTIFICATION_GP_STALLED notification type */
+ _mali_uk_gp_job_finished_s gp_job_finished; /**< [out] Notification data for _MALI_NOTIFICATION_GP_FINISHED notification type */
+ _mali_uk_pp_job_finished_s pp_job_finished; /**< [out] Notification data for _MALI_NOTIFICATION_PP_FINISHED notification type */
+ _mali_uk_settings_changed_s setting_changed;/**< [out] Notification data for _MALI_NOTIFICAATION_SETTINGS_CHANGED notification type */
+ _mali_uk_soft_job_activated_s soft_job_activated; /**< [out] Notification data for _MALI_NOTIFICATION_SOFT_ACTIVATED notification type */
+ } data;
+} _mali_uk_wait_for_notification_s;
+
+/** @brief Arguments for _mali_ukk_post_notification()
+ *
+ * Posts the specified notification to the notification queue for this application.
+ * This is used to send a quit message to the callback thread.
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ _mali_uk_notification_type type; /**< [in] Type of notification to post */
+} _mali_uk_post_notification_s;
+
+/** @} */ /* end group _mali_uk_waitfornotification_s */
+
+/** @defgroup _mali_uk_getapiversion_s Get API Version
+ * @{ */
+
+/** helpers for Device Driver API version handling */
+
+/** @brief Encode a version ID from a 16-bit input
+ *
+ * @note the input is assumed to be 16 bits. It must not exceed 16 bits. */
+#define _MAKE_VERSION_ID(x) (((x) << 16UL) | (x))
+
+/** @brief Check whether a 32-bit value is likely to be Device Driver API
+ * version ID. */
+#define _IS_VERSION_ID(x) (((x) & 0xFFFF) == (((x) >> 16UL) & 0xFFFF))
+
+/** @brief Decode a 16-bit version number from a 32-bit Device Driver API version
+ * ID */
+#define _GET_VERSION(x) (((x) >> 16UL) & 0xFFFF)
+
+/** @brief Determine whether two 32-bit encoded version IDs match */
+#define _IS_API_MATCH(x, y) (IS_VERSION_ID((x)) && IS_VERSION_ID((y)) && (GET_VERSION((x)) == GET_VERSION((y))))
+
+ /**
+ * RK MALI version code
+ */
+#define _MALI_RK_LIBS_VERSION 6
+
+/**
+ * API version define.
+ * Indicates the version of the kernel API
+ * The version is a 16bit integer incremented on each API change.
+ * The 16bit integer is stored twice in a 32bit integer
+ * For example, for version 1 the value would be 0x00010001
+ */
+#define _MALI_API_VERSION 401
+#define _MALI_UK_API_VERSION _MAKE_VERSION_ID(_MALI_API_VERSION)
+
+/**
+ * The API version is a 16-bit integer stored in both the lower and upper 16-bits
+ * of a 32-bit value. The 16-bit API version value is incremented on each API
+ * change. Version 1 would be 0x00010001. Used in _mali_uk_get_api_version_s.
+ */
+typedef u32 _mali_uk_api_version;
+
+/** @brief Arguments for _mali_uk_get_api_version()
+ *
+ * The user-side interface version must be written into the version member,
+ * encoded using _MAKE_VERSION_ID(). It will be compared to the API version of
+ * the kernel-side interface.
+ *
+ * On successful return, the version member will be the API version of the
+ * kernel-side interface. _MALI_UK_API_VERSION macro defines the current version
+ * of the API.
+ *
+ * The compatible member must be checked to see if the version of the user-side
+ * interface is compatible with the kernel-side interface, since future versions
+ * of the interface may be backwards compatible.
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ _mali_uk_api_version version; /**< [in,out] API version of user-side interface. */
+ int compatible; /**< [out] @c 1 when @version is compatible, @c 0 otherwise */
+} _mali_uk_get_api_version_s;
+/** @} */ /* end group _mali_uk_getapiversion_s */
+
+typedef struct
+{
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ _mali_uk_api_version version; /**< [in,out] API version of user-side interface. */
+} _mali_uk_get_mali_version_in_rk30_s;
+
+/** @defgroup _mali_uk_get_user_settings_s Get user space settings */
+
+/** @brief struct to keep the matching values of the user space settings within certain context
+ *
+ * Each member of the settings array corresponds to a matching setting in the user space and its value is the value
+ * of that particular setting.
+ *
+ * All settings are given reference to the context pointed to by the ctx pointer.
+ *
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 settings[_MALI_UK_USER_SETTING_MAX]; /**< [out] The values for all settings */
+} _mali_uk_get_user_settings_s;
+
+/** @brief struct to hold the value of a particular setting from the user space within a given context
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ _mali_uk_user_setting_t setting; /**< [in] setting to get */
+ u32 value; /**< [out] value of setting */
+} _mali_uk_get_user_setting_s;
+
+/** @brief Arguments for _mali_ukk_request_high_priority() */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+} _mali_uk_request_high_priority_s;
+
+/** @} */ /* end group _mali_uk_core */
+
+
+/** @defgroup _mali_uk_memory U/K Memory
+ * @{ */
+
+/** Flag for _mali_uk_map_external_mem_s, _mali_uk_attach_ump_mem_s and _mali_uk_attach_dma_buf_s */
+#define _MALI_MAP_EXTERNAL_MAP_GUARD_PAGE (1<<0)
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 phys_addr; /**< [in] physical address */
+ u32 size; /**< [in] size */
+ u32 mali_address; /**< [in] mali address to map the physical memory to */
+ u32 rights; /**< [in] rights necessary for accessing memory */
+ u32 flags; /**< [in] flags, see \ref _MALI_MAP_EXTERNAL_MAP_GUARD_PAGE */
+ u32 cookie; /**< [out] identifier for mapped memory object in kernel space */
+} _mali_uk_map_external_mem_s;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 cookie; /**< [out] identifier for mapped memory object in kernel space */
+} _mali_uk_unmap_external_mem_s;
+
+/** @note This is identical to _mali_uk_map_external_mem_s above, however phys_addr is replaced by memory descriptor */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 mem_fd; /**< [in] Memory descriptor */
+ u32 size; /**< [in] size */
+ u32 mali_address; /**< [in] mali address to map the physical memory to */
+ u32 rights; /**< [in] rights necessary for accessing memory */
+ u32 flags; /**< [in] flags, see \ref _MALI_MAP_EXTERNAL_MAP_GUARD_PAGE */
+ u32 cookie; /**< [out] identifier for mapped memory object in kernel space */
+} _mali_uk_attach_dma_buf_s;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 mem_fd; /**< [in] Memory descriptor */
+ u32 size; /**< [out] size */
+} _mali_uk_dma_buf_get_size_s;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 cookie; /**< [in] identifier for mapped memory object in kernel space */
+} _mali_uk_release_dma_buf_s;
+
+/** @note This is identical to _mali_uk_map_external_mem_s above, however phys_addr is replaced by secure_id */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 secure_id; /**< [in] secure id */
+ u32 size; /**< [in] size */
+ u32 mali_address; /**< [in] mali address to map the physical memory to */
+ u32 rights; /**< [in] rights necessary for accessing memory */
+ u32 flags; /**< [in] flags, see \ref _MALI_MAP_EXTERNAL_MAP_GUARD_PAGE */
+ u32 cookie; /**< [out] identifier for mapped memory object in kernel space */
+} _mali_uk_attach_ump_mem_s;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 cookie; /**< [in] identifier for mapped memory object in kernel space */
+} _mali_uk_release_ump_mem_s;
+
+/** @brief Arguments for _mali_ukk_va_to_mali_pa()
+ *
+ * if size is zero or not a multiple of the system's page size, it will be
+ * rounded up to the next multiple of the page size. This will occur before
+ * any other use of the size parameter.
+ *
+ * if va is not PAGE_SIZE aligned, it will be rounded down to the next page
+ * boundary.
+ *
+ * The range (va) to ((u32)va)+(size-1) inclusive will be checked for physical
+ * contiguity.
+ *
+ * The implementor will check that the entire physical range is allowed to be mapped
+ * into user-space.
+ *
+ * Failure will occur if either of the above are not satisfied.
+ *
+ * Otherwise, the physical base address of the range is returned through pa,
+ * va is updated to be page aligned, and size is updated to be a non-zero
+ * multiple of the system's pagesize.
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ void *va; /**< [in,out] Virtual address of the start of the range */
+ u32 pa; /**< [out] Physical base address of the range */
+ u32 size; /**< [in,out] Size of the range, in bytes. */
+} _mali_uk_va_to_mali_pa_s;
+
+/**
+ * @brief Arguments for _mali_uk[uk]_mem_write_safe()
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ const void *src; /**< [in] Pointer to source data */
+ void *dest; /**< [in] Destination Mali buffer */
+ u32 size; /**< [in,out] Number of bytes to write/copy on input, number of bytes actually written/copied on output */
+} _mali_uk_mem_write_safe_s;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 size; /**< [out] size of MMU page table information (registers + page tables) */
+} _mali_uk_query_mmu_page_table_dump_size_s;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 size; /**< [in] size of buffer to receive mmu page table information */
+ void *buffer; /**< [in,out] buffer to receive mmu page table information */
+ u32 register_writes_size; /**< [out] size of MMU register dump */
+ u32 *register_writes; /**< [out] pointer within buffer where MMU register dump is stored */
+ u32 page_table_dump_size; /**< [out] size of MMU page table dump */
+ u32 *page_table_dump; /**< [out] pointer within buffer where MMU page table dump is stored */
+} _mali_uk_dump_mmu_page_table_s;
+
+/** @} */ /* end group _mali_uk_memory */
+
+
+/** @addtogroup _mali_uk_pp U/K Fragment Processor
+ * @{ */
+
+/** @brief Arguments for _mali_ukk_get_pp_number_of_cores()
+ *
+ * - pass in the user-kernel context @c ctx that was returned from _mali_ukk_open()
+ * - Upon successful return from _mali_ukk_get_pp_number_of_cores(), @c number_of_cores
+ * will contain the number of Fragment Processor cores in the system.
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 number_of_total_cores; /**< [out] Total number of Fragment Processor cores in the system */
+ u32 number_of_enabled_cores; /**< [out] Number of enabled Fragment Processor cores */
+} _mali_uk_get_pp_number_of_cores_s;
+
+/** @brief Arguments for _mali_ukk_get_pp_core_version()
+ *
+ * - pass in the user-kernel context @c ctx that was returned from _mali_ukk_open()
+ * - Upon successful return from _mali_ukk_get_pp_core_version(), @c version contains
+ * the version that all Fragment Processor cores are compatible with.
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ _mali_core_version version; /**< [out] version returned from core, see \ref _mali_core_version */
+} _mali_uk_get_pp_core_version_s;
+
+/** @} */ /* end group _mali_uk_pp */
+
+
+/** @addtogroup _mali_uk_gp U/K Vertex Processor
+ * @{ */
+
+/** @brief Arguments for _mali_ukk_get_gp_number_of_cores()
+ *
+ * - pass in the user-kernel context @c ctx that was returned from _mali_ukk_open()
+ * - Upon successful return from _mali_ukk_get_gp_number_of_cores(), @c number_of_cores
+ * will contain the number of Vertex Processor cores in the system.
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 number_of_cores; /**< [out] number of Vertex Processor cores in the system */
+} _mali_uk_get_gp_number_of_cores_s;
+
+/** @brief Arguments for _mali_ukk_get_gp_core_version()
+ *
+ * - pass in the user-kernel context @c ctx that was returned from _mali_ukk_open()
+ * - Upon successful return from _mali_ukk_get_gp_core_version(), @c version contains
+ * the version that all Vertex Processor cores are compatible with.
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ _mali_core_version version; /**< [out] version returned from core, see \ref _mali_core_version */
+} _mali_uk_get_gp_core_version_s;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 limit; /**< [in,out] The desired limit for number of events to record on input, actual limit on output */
+} _mali_uk_profiling_start_s;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 event_id; /**< [in] event id to register (see enum mali_profiling_events for values) */
+ u32 data[5]; /**< [in] event specific data */
+} _mali_uk_profiling_add_event_s;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 count; /**< [out] The number of events sampled */
+} _mali_uk_profiling_stop_s;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 index; /**< [in] which index to get (starting at zero) */
+ u64 timestamp; /**< [out] timestamp of event */
+ u32 event_id; /**< [out] event id of event (see enum mali_profiling_events for values) */
+ u32 data[5]; /**< [out] event specific data */
+} _mali_uk_profiling_get_event_s;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+} _mali_uk_profiling_clear_s;
+
+/** @} */ /* end group _mali_uk_gp */
+
+
+/** @addtogroup _mali_uk_memory U/K Memory
+ * @{ */
+
+/** @brief Arguments to _mali_ukk_mem_mmap()
+ *
+ * Use of the phys_addr member depends on whether the driver is compiled for
+ * Mali-MMU or nonMMU:
+ * - in the nonMMU case, this is the physical address of the memory as seen by
+ * the CPU (which may be a constant offset from that used by Mali)
+ * - in the MMU case, this is the Mali Virtual base address of the memory to
+ * allocate, and the particular physical pages used to back the memory are
+ * entirely determined by _mali_ukk_mem_mmap(). The details of the physical pages
+ * are not reported to user-space for security reasons.
+ *
+ * The cookie member must be stored for use later when freeing the memory by
+ * calling _mali_ukk_mem_munmap(). In the Mali-MMU case, the cookie is secure.
+ *
+ * The ukk_private word must be set to zero when calling from user-space. On
+ * Kernel-side, the OS implementation of the U/K interface can use it to
+ * communicate data to the OS implementation of the OSK layer. In particular,
+ * _mali_ukk_get_big_block() directly calls _mali_ukk_mem_mmap directly, and
+ * will communicate its own ukk_private word through the ukk_private member
+ * here. The common code itself will not inspect or modify the ukk_private
+ * word, and so it may be safely used for whatever purposes necessary to
+ * integrate Mali Memory handling into the OS.
+ *
+ * The uku_private member is currently reserved for use by the user-side
+ * implementation of the U/K interface. Its value must be zero.
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ void *mapping; /**< [out] Returns user-space virtual address for the mapping */
+ u32 size; /**< [in] Size of the requested mapping */
+ u32 phys_addr; /**< [in] Physical address - could be offset, depending on caller+callee convention */
+ u32 cookie; /**< [out] Returns a cookie for use in munmap calls */
+ void *uku_private; /**< [in] User-side Private word used by U/K interface */
+ void *ukk_private; /**< [in] Kernel-side Private word used by U/K interface */
+ mali_memory_cache_settings cache_settings; /**< [in] Option to set special cache flags, tuning L2 efficency */
+} _mali_uk_mem_mmap_s;
+
+/** @brief Arguments to _mali_ukk_mem_munmap()
+ *
+ * The cookie and mapping members must be that returned from the same previous
+ * call to _mali_ukk_mem_mmap(). The size member must correspond to cookie
+ * and mapping - that is, it must be the value originally supplied to a call to
+ * _mali_ukk_mem_mmap that returned the values of mapping and cookie.
+ *
+ * An error will be returned if an attempt is made to unmap only part of the
+ * originally obtained range, or to unmap more than was originally obtained.
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ void *mapping; /**< [in] The mapping returned from mmap call */
+ u32 size; /**< [in] The size passed to mmap call */
+ u32 cookie; /**< [in] Cookie from mmap call */
+} _mali_uk_mem_munmap_s;
+/** @} */ /* end group _mali_uk_memory */
+
+/** @defgroup _mali_uk_vsync U/K VSYNC Wait Reporting Module
+ * @{ */
+
+/** @brief VSYNC events
+ *
+ * These events are reported when DDK starts to wait for vsync and when the
+ * vsync has occured and the DDK can continue on the next frame.
+ */
+typedef enum _mali_uk_vsync_event {
+ _MALI_UK_VSYNC_EVENT_BEGIN_WAIT = 0,
+ _MALI_UK_VSYNC_EVENT_END_WAIT
+} _mali_uk_vsync_event;
+
+/** @brief Arguments to _mali_ukk_vsync_event()
+ *
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ _mali_uk_vsync_event event; /**< [in] VSYNCH event type */
+} _mali_uk_vsync_event_report_s;
+
+/** @} */ /* end group _mali_uk_vsync */
+
+/** @defgroup _mali_uk_sw_counters_report U/K Software Counter Reporting
+ * @{ */
+
+/** @brief Software counter values
+ *
+ * Values recorded for each of the software counters during a single renderpass.
+ */
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32* counters; /**< [in] The array of counter values */
+ u32 num_counters; /**< [in] The number of elements in counters array */
+} _mali_uk_sw_counters_report_s;
+
+/** @} */ /* end group _mali_uk_sw_counters_report */
+
+/** @defgroup _mali_uk_timeline U/K Mali Timeline
+ * @{ */
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ u32 timeline; /**< [in] timeline id */
+ u32 point; /**< [out] latest point on timeline */
+} _mali_uk_timeline_get_latest_point_s;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ _mali_uk_fence_t fence; /**< [in] fence */
+ u32 timeout; /**< [in] timeout (0 for no wait, -1 for blocking) */
+ u32 status; /**< [out] status of fence (1 if signaled, 0 if timeout) */
+} _mali_uk_timeline_wait_s;
+
+typedef struct {
+ void *ctx; /**< [in,out] user-kernel context (trashed on output) */
+ _mali_uk_fence_t fence; /**< [in] mali fence to create linux sync fence from */
+ s32 sync_fd; /**< [out] file descriptor for new linux sync fence */
+} _mali_uk_timeline_create_sync_fence_s;
+
+/** @} */ /* end group _mali_uk_timeline */
+
+/** @} */ /* end group u_k_api */
+
+/** @} */ /* end group uddapi */
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __MALI_UTGARD_UK_TYPES_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010, 2012 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_kernel_license.h
+ * Defines for the macro MODULE_LICENSE.
+ */
+
+#ifndef __MALI_KERNEL_LICENSE_H__
+#define __MALI_KERNEL_LICENSE_H__
+
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+#define MALI_KERNEL_LINUX_LICENSE "GPL"
+#define MALI_LICENSE_IS_GPL 1
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __MALI_KERNEL_LICENSE_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_kernel_license.h
+ * Defines for the macro MODULE_LICENSE.
+ */
+
+#ifndef __MALI_KERNEL_LICENSE_H__
+#define __MALI_KERNEL_LICENSE_H__
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#define MALI_KERNEL_LINUX_LICENSE "Proprietary"
+#define MALI_LICENSE_IS_GPL 0
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __MALI_KERNEL_LICENSE_H__ */
--- /dev/null
+/**
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_device_pause_resume.c
+ * Implementation of the Mali pause/resume functionality
+ */
+
+#include <linux/module.h>
+#include <linux/mali/mali_utgard.h>
+#include "mali_gp_scheduler.h"
+#include "mali_pp_scheduler.h"
+
+void mali_dev_pause(void)
+{
+ mali_gp_scheduler_suspend();
+ mali_pp_scheduler_suspend();
+ mali_group_power_off(MALI_FALSE);
+ mali_l2_cache_pause_all(MALI_TRUE);
+}
+
+EXPORT_SYMBOL(mali_dev_pause);
+
+void mali_dev_resume(void)
+{
+ mali_l2_cache_pause_all(MALI_FALSE);
+ mali_gp_scheduler_resume();
+ mali_pp_scheduler_resume();
+}
+
+EXPORT_SYMBOL(mali_dev_resume);
--- /dev/null
+/**
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_kernel_linux.c
+ * Implementation of the Linux device driver entrypoints
+ */
+#include <linux/module.h> /* kernel module definitions */
+#include <linux/fs.h> /* file system operations */
+#include <linux/cdev.h> /* character device definitions */
+#include <linux/mm.h> /* memory manager definitions */
+#include <linux/mali/mali_utgard_ioctl.h>
+#include <linux/version.h>
+#include <linux/device.h>
+#include "mali_kernel_license.h"
+#include <linux/platform_device.h>
+#include <linux/miscdevice.h>
+#include <linux/mali/mali_utgard.h>
+#include "mali_kernel_common.h"
+#include "mali_session.h"
+#include "mali_kernel_core.h"
+#include "mali_osk.h"
+#include "mali_kernel_linux.h"
+#include "mali_ukk.h"
+#include "mali_ukk_wrappers.h"
+#include "mali_kernel_sysfs.h"
+#include "mali_pm.h"
+#include "mali_kernel_license.h"
+#include "mali_memory.h"
+#include "mali_memory_dma_buf.h"
+#if defined(CONFIG_MALI400_INTERNAL_PROFILING)
+#include "mali_profiling_internal.h"
+#endif
+#include <linux/of.h>
+
+/* Streamline support for the Mali driver */
+#if defined(CONFIG_TRACEPOINTS) && defined(CONFIG_MALI400_PROFILING)
+/* Ask Linux to create the tracepoints */
+#define CREATE_TRACE_POINTS
+#include "mali_linux_trace.h"
+#endif /* CONFIG_TRACEPOINTS */
+
+/* from the __malidrv_build_info.c file that is generated during build */
+extern const char *__malidrv_build_info(void);
+
+/* Module parameter to control log level */
+int mali_debug_level = 2;
+module_param(mali_debug_level, int, S_IRUSR | S_IWUSR | S_IWGRP | S_IRGRP | S_IROTH); /* rw-rw-r-- */
+MODULE_PARM_DESC(mali_debug_level, "Higher number, more dmesg output");
+
+extern int mali_max_job_runtime;
+module_param(mali_max_job_runtime, int, S_IRUSR | S_IWUSR | S_IWGRP | S_IRGRP | S_IROTH);
+MODULE_PARM_DESC(mali_max_job_runtime, "Maximum allowed job runtime in msecs.\nJobs will be killed after this no matter what");
+
+extern int mali_l2_max_reads;
+module_param(mali_l2_max_reads, int, S_IRUSR | S_IRGRP | S_IROTH);
+MODULE_PARM_DESC(mali_l2_max_reads, "Maximum reads for Mali L2 cache");
+
+extern unsigned int mali_dedicated_mem_start;
+module_param(mali_dedicated_mem_start, uint, S_IRUSR | S_IRGRP | S_IROTH);
+MODULE_PARM_DESC(mali_dedicated_mem_start, "Physical start address of dedicated Mali GPU memory.");
+
+extern unsigned int mali_dedicated_mem_size;
+module_param(mali_dedicated_mem_size, uint, S_IRUSR | S_IRGRP | S_IROTH);
+MODULE_PARM_DESC(mali_dedicated_mem_size, "Size of dedicated Mali GPU memory.");
+
+extern unsigned long mali_shared_mem_size;
+module_param(mali_shared_mem_size, ulong, S_IRUSR | S_IRGRP | S_IROTH);
+MODULE_PARM_DESC(mali_shared_mem_size, "Size of shared Mali GPU memory.");
+
+#if defined(CONFIG_MALI400_PROFILING)
+extern int mali_boot_profiling;
+module_param(mali_boot_profiling, int, S_IRUSR | S_IRGRP | S_IROTH);
+MODULE_PARM_DESC(mali_boot_profiling, "Start profiling as a part of Mali driver initialization");
+#endif
+
+extern int mali_max_pp_cores_group_1;
+module_param(mali_max_pp_cores_group_1, int, S_IRUSR | S_IRGRP | S_IROTH);
+MODULE_PARM_DESC(mali_max_pp_cores_group_1, "Limit the number of PP cores to use from first PP group.");
+
+extern int mali_max_pp_cores_group_2;
+module_param(mali_max_pp_cores_group_2, int, S_IRUSR | S_IRGRP | S_IROTH);
+MODULE_PARM_DESC(mali_max_pp_cores_group_2, "Limit the number of PP cores to use from second PP group (Mali-450 only).");
+
+#if defined(CONFIG_MALI400_POWER_PERFORMANCE_POLICY)
+/** the max fps the same as display vsync default 60, can set by module insert parameter */
+extern int mali_max_system_fps;
+module_param(mali_max_system_fps, int, S_IRUSR | S_IWUSR | S_IWGRP | S_IRGRP | S_IROTH);
+MODULE_PARM_DESC(mali_max_system_fps, "Max system fps the same as display VSYNC.");
+
+/** a lower limit on their desired FPS default 58, can set by module insert parameter*/
+extern int mali_desired_fps;
+module_param(mali_desired_fps, int, S_IRUSR | S_IWUSR | S_IWGRP | S_IRGRP | S_IROTH);
+MODULE_PARM_DESC(mali_desired_fps, "A bit lower than max_system_fps which user desired fps");
+#endif
+
+#if MALI_ENABLE_CPU_CYCLES
+#include <linux/cpumask.h>
+#include <linux/timer.h>
+#include <asm/smp.h>
+static struct timer_list mali_init_cpu_clock_timers[8];
+static u32 mali_cpu_clock_last_value[8] = {0,};
+#endif
+
+/* Export symbols from common code: mali_user_settings.c */
+#include "mali_user_settings_db.h"
+EXPORT_SYMBOL(mali_set_user_setting);
+EXPORT_SYMBOL(mali_get_user_setting);
+
+static char mali_dev_name[] = "mali"; /* should be const, but the functions we call requires non-cost */
+
+/* This driver only supports one Mali device, and this variable stores this single platform device */
+struct platform_device *mali_platform_device = NULL;
+
+/* This driver only supports one Mali device, and this variable stores the exposed misc device (/dev/mali) */
+static struct miscdevice mali_miscdevice = { 0, };
+
+static int mali_miscdevice_register(struct platform_device *pdev);
+static void mali_miscdevice_unregister(void);
+
+static int mali_open(struct inode *inode, struct file *filp);
+static int mali_release(struct inode *inode, struct file *filp);
+#ifdef HAVE_UNLOCKED_IOCTL
+static long mali_ioctl(struct file *filp, unsigned int cmd, unsigned long arg);
+#else
+static int mali_ioctl(struct inode *inode, struct file *filp, unsigned int cmd, unsigned long arg);
+#endif
+
+static int mali_probe(struct platform_device *pdev);
+static int mali_remove(struct platform_device *pdev);
+
+static int mali_driver_suspend_scheduler(struct device *dev);
+static int mali_driver_resume_scheduler(struct device *dev);
+
+#ifdef CONFIG_PM_RUNTIME
+static int mali_driver_runtime_suspend(struct device *dev);
+static int mali_driver_runtime_resume(struct device *dev);
+static int mali_driver_runtime_idle(struct device *dev);
+#endif
+
+#if defined(MALI_FAKE_PLATFORM_DEVICE)
+extern int mali_platform_device_register(struct platform_device *pdev);
+extern int mali_platform_device_unregister(struct platform_device *pdev);
+#endif
+
+
+/* Linux power management operations provided by the Mali device driver */
+#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,29))
+struct pm_ext_ops mali_dev_ext_pm_ops = {
+ .base =
+ {
+ .suspend = mali_driver_suspend_scheduler,
+ .resume = mali_driver_resume_scheduler,
+ .freeze = mali_driver_suspend_scheduler,
+ .thaw = mali_driver_resume_scheduler,
+ },
+};
+#else
+static const struct dev_pm_ops mali_dev_pm_ops = {
+#ifdef CONFIG_PM_RUNTIME
+ .runtime_suspend = mali_driver_runtime_suspend,
+ .runtime_resume = mali_driver_runtime_resume,
+ .runtime_idle = mali_driver_runtime_idle,
+#endif
+ .suspend = mali_driver_suspend_scheduler,
+ .resume = mali_driver_resume_scheduler,
+ .freeze = mali_driver_suspend_scheduler,
+ .thaw = mali_driver_resume_scheduler,
+ .poweroff = mali_driver_suspend_scheduler,
+};
+#endif
+
+#ifdef CONFIG_OF
+static const struct of_device_id mali_dt_ids[] = {
+ { .compatible = "arm,mali400" },
+ { /* sentinel */ }
+};
+MODULE_DEVICE_TABLE(of, mali_dt_ids);
+#endif
+
+/* The Mali device driver struct */
+static struct platform_driver mali_platform_driver = {
+ .probe = mali_probe,
+ .remove = mali_remove,
+#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,29))
+ .pm = &mali_dev_ext_pm_ops,
+#endif
+ .driver =
+ {
+ .name = MALI_GPU_NAME_UTGARD,
+ .owner = THIS_MODULE,
+ .bus = &platform_bus_type,
+#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,29))
+ .pm = &mali_dev_pm_ops,
+ .of_match_table = of_match_ptr(mali_dt_ids),
+#endif
+ },
+};
+
+/* Linux misc device operations (/dev/mali) */
+struct file_operations mali_fops = {
+ .owner = THIS_MODULE,
+ .open = mali_open,
+ .release = mali_release,
+#ifdef HAVE_UNLOCKED_IOCTL
+ .unlocked_ioctl = mali_ioctl,
+#else
+ .ioctl = mali_ioctl,
+#endif
+ .mmap = mali_mmap
+};
+
+
+#if MALI_ENABLE_CPU_CYCLES
+void mali_init_cpu_time_counters(int reset, int enable_divide_by_64)
+{
+ /* The CPU assembly reference used is: ARM Architecture Reference Manual ARMv7-AR C.b */
+ u32 write_value;
+
+ /* See B4.1.116 PMCNTENSET, Performance Monitors Count Enable Set register, VMSA */
+ /* setting p15 c9 c12 1 to 0x8000000f==CPU_CYCLE_ENABLE |EVENT_3_ENABLE|EVENT_2_ENABLE|EVENT_1_ENABLE|EVENT_0_ENABLE */
+ asm volatile("mcr p15, 0, %0, c9, c12, 1" :: "r"(0x8000000f));
+
+
+ /* See B4.1.117 PMCR, Performance Monitors Control Register. Writing to p15, c9, c12, 0 */
+ write_value = 1<<0; /* Bit 0 set. Enable counters */
+ if (reset) {
+ write_value |= 1<<1; /* Reset event counters */
+ write_value |= 1<<2; /* Reset cycle counter */
+ }
+ if (enable_divide_by_64) {
+ write_value |= 1<<3; /* Enable the Clock divider by 64 */
+ }
+ write_value |= 1<<4; /* Export enable. Not needed */
+ asm volatile ("MCR p15, 0, %0, c9, c12, 0\t\n" :: "r"(write_value ));
+
+ /* PMOVSR Overflow Flag Status Register - Clear Clock and Event overflows */
+ asm volatile ("MCR p15, 0, %0, c9, c12, 3\t\n" :: "r"(0x8000000f));
+
+
+ /* See B4.1.124 PMUSERENR - setting p15 c9 c14 to 1" */
+ /* User mode access to the Performance Monitors enabled. */
+ /* Lets User space read cpu clock cycles */
+ asm volatile( "mcr p15, 0, %0, c9, c14, 0" :: "r"(1) );
+}
+
+/** A timer function that configures the cycle clock counter on current CPU.
+ The function \a mali_init_cpu_time_counters_on_all_cpus sets up this function
+ to trigger on all Cpus during module load. */
+static void mali_init_cpu_clock_timer_func(unsigned long data)
+{
+ int reset_counters, enable_divide_clock_counter_by_64;
+ int current_cpu = raw_smp_processor_id();
+ unsigned int sample0;
+ unsigned int sample1;
+
+ MALI_IGNORE(data);
+
+ reset_counters= 1;
+ enable_divide_clock_counter_by_64 = 0;
+ mali_init_cpu_time_counters(reset_counters, enable_divide_clock_counter_by_64);
+
+ sample0 = mali_get_cpu_cyclecount();
+ sample1 = mali_get_cpu_cyclecount();
+
+ MALI_DEBUG_PRINT(3, ("Init Cpu %d cycle counter- First two samples: %08x %08x \n", current_cpu, sample0, sample1));
+}
+
+/** A timer functions for storing current time on all cpus.
+ Used for checking if the clocks have similar values or if they are drifting. */
+static void mali_print_cpu_clock_timer_func(unsigned long data)
+{
+ int current_cpu = raw_smp_processor_id();
+ unsigned int sample0;
+
+ MALI_IGNORE(data);
+ sample0 = mali_get_cpu_cyclecount();
+ if ( current_cpu<8 ) {
+ mali_cpu_clock_last_value[current_cpu] = sample0;
+ }
+}
+
+/** Init the performance registers on all CPUs to count clock cycles.
+ For init \a print_only should be 0.
+ If \a print_only is 1, it will intead print the current clock value of all CPUs.*/
+void mali_init_cpu_time_counters_on_all_cpus(int print_only)
+{
+ int i = 0;
+ int cpu_number;
+ int jiffies_trigger;
+ int jiffies_wait;
+
+ jiffies_wait = 2;
+ jiffies_trigger = jiffies + jiffies_wait;
+
+ for ( i=0 ; i < 8 ; i++ ) {
+ init_timer(&mali_init_cpu_clock_timers[i]);
+ if (print_only) mali_init_cpu_clock_timers[i].function = mali_print_cpu_clock_timer_func;
+ else mali_init_cpu_clock_timers[i].function = mali_init_cpu_clock_timer_func;
+ mali_init_cpu_clock_timers[i].expires = jiffies_trigger ;
+ }
+ cpu_number = cpumask_first(cpu_online_mask);
+ for ( i=0 ; i < 8 ; i++ ) {
+ int next_cpu;
+ add_timer_on(&mali_init_cpu_clock_timers[i], cpu_number);
+ next_cpu = cpumask_next(cpu_number, cpu_online_mask);
+ if (next_cpu >= nr_cpu_ids) break;
+ cpu_number = next_cpu;
+ }
+
+ while (jiffies_wait) jiffies_wait= schedule_timeout_uninterruptible(jiffies_wait);
+
+ for ( i=0 ; i < 8 ; i++ ) {
+ del_timer_sync(&mali_init_cpu_clock_timers[i]);
+ }
+
+ if (print_only) {
+ if ( (0==mali_cpu_clock_last_value[2]) && (0==mali_cpu_clock_last_value[3]) ) {
+ /* Diff can be printed if we want to check if the clocks are in sync
+ int diff = mali_cpu_clock_last_value[0] - mali_cpu_clock_last_value[1];*/
+ MALI_DEBUG_PRINT(2, ("CPU cycle counters readout all: %08x %08x\n", mali_cpu_clock_last_value[0], mali_cpu_clock_last_value[1]));
+ } else {
+ MALI_DEBUG_PRINT(2, ("CPU cycle counters readout all: %08x %08x %08x %08x\n", mali_cpu_clock_last_value[0], mali_cpu_clock_last_value[1], mali_cpu_clock_last_value[2], mali_cpu_clock_last_value[3] ));
+ }
+ }
+}
+#endif
+
+
+int mali_module_init(void)
+{
+ int err = 0;
+
+ MALI_DEBUG_PRINT(2, ("Inserting Mali v%d device driver. \n",_MALI_API_VERSION));
+ MALI_DEBUG_PRINT(2, ("Compiled: %s, time: %s.\n", __DATE__, __TIME__));
+ MALI_DEBUG_PRINT(2, ("Driver revision: %s\n", SVN_REV_STRING));
+
+#if MALI_ENABLE_CPU_CYCLES
+ mali_init_cpu_time_counters_on_all_cpus(0);
+ MALI_DEBUG_PRINT(2, ("CPU cycle counter setup complete\n"));
+ /* Printing the current cpu counters */
+ mali_init_cpu_time_counters_on_all_cpus(1);
+#endif
+
+ MALI_PRINT(("mali_module_init() registering driver\n"));
+
+ err = platform_driver_register(&mali_platform_driver);
+
+ if (0 != err) {
+ MALI_PRINT(("mali_module_init() Failed to register driver (%d)\n", err));
+ mali_platform_device = NULL;
+ return err;
+ }
+
+#if defined(CONFIG_MALI400_INTERNAL_PROFILING)
+ err = _mali_internal_profiling_init(mali_boot_profiling ? MALI_TRUE : MALI_FALSE);
+ if (0 != err) {
+ /* No biggie if we wheren't able to initialize the profiling */
+ MALI_PRINT_ERROR(("Failed to initialize profiling, feature will be unavailable\n"));
+ }
+#endif
+
+ MALI_PRINT(("Mali device driver loaded\n"));
+
+ return 0; /* Success */
+}
+
+void mali_module_exit(void)
+{
+ MALI_DEBUG_PRINT(2, ("Unloading Mali v%d device driver.\n",_MALI_API_VERSION));
+
+ MALI_DEBUG_PRINT(2, ("mali_module_exit() unregistering driver\n"));
+
+#if defined(CONFIG_MALI400_INTERNAL_PROFILING)
+ _mali_internal_profiling_term();
+#endif
+
+ platform_driver_unregister(&mali_platform_driver);
+
+#if defined(MALI_FAKE_PLATFORM_DEVICE)
+ MALI_DEBUG_PRINT(2, ("mali_module_exit() unregistering device\n"));
+ mali_platform_device_unregister(mali_platform_device);
+#endif
+
+ MALI_PRINT(("Mali device driver unloaded\n"));
+}
+
+static int mali_probe(struct platform_device *pdev)
+{
+ int err;
+
+ MALI_DEBUG_PRINT(2, ("mali_probe(): Called for platform device %s\n", pdev->name));
+
+ if (NULL != mali_platform_device) {
+ /* Already connected to a device, return error */
+ MALI_PRINT_ERROR(("mali_probe(): The Mali driver is already connected with a Mali device."));
+ return -EEXIST;
+ }
+
+ mali_platform_device = pdev;
+
+ pr_info("mali_platform_device->num_resources = %d\n",mali_platform_device->num_resources);
+
+ {
+ int i = 0;
+ for(i=0;i<mali_platform_device->num_resources;i++)
+ {
+ pr_info("mali_platform_device->resource[%d].start = 0x%08x\n",i,mali_platform_device->resource[i].start);
+ }
+ }
+
+
+#if defined(MALI_FAKE_PLATFORM_DEVICE)
+ MALI_DEBUG_PRINT(2, ("mali_module_init() registering device\n"));
+ err = mali_platform_device_register(mali_platform_device);
+ if (0 != err)
+ {
+ mali_platform_device_unregister(mali_platform_device);
+ return err;
+ }
+#endif
+
+ if (_MALI_OSK_ERR_OK == _mali_osk_wq_init()) {
+ /* Initialize the Mali GPU HW specified by pdev */
+ if (_MALI_OSK_ERR_OK == mali_initialize_subsystems()) {
+ /* Register a misc device (so we are accessible from user space) */
+ err = mali_miscdevice_register(pdev);
+ if (0 == err) {
+ /* Setup sysfs entries */
+ err = mali_sysfs_register(mali_dev_name);
+ if (0 == err) {
+ MALI_DEBUG_PRINT(2, ("mali_probe(): Successfully initialized driver for platform device %s\n", pdev->name));
+ return 0;
+ } else {
+ MALI_PRINT_ERROR(("mali_probe(): failed to register sysfs entries"));
+ }
+ mali_miscdevice_unregister();
+ } else {
+ MALI_PRINT_ERROR(("mali_probe(): failed to register Mali misc device."));
+ }
+ mali_terminate_subsystems();
+ } else {
+ MALI_PRINT_ERROR(("mali_probe(): Failed to initialize Mali device driver."));
+ }
+ _mali_osk_wq_term();
+ }
+
+ mali_platform_device = NULL;
+ return -EFAULT;
+}
+
+static int mali_remove(struct platform_device *pdev)
+{
+ MALI_DEBUG_PRINT(2, ("mali_remove() called for platform device %s\n", pdev->name));
+ mali_sysfs_unregister();
+ mali_miscdevice_unregister();
+ mali_terminate_subsystems();
+ _mali_osk_wq_term();
+ mali_platform_device = NULL;
+ return 0;
+}
+
+static int mali_miscdevice_register(struct platform_device *pdev)
+{
+ int err;
+
+ mali_miscdevice.minor = MISC_DYNAMIC_MINOR;
+ mali_miscdevice.name = mali_dev_name;
+ mali_miscdevice.fops = &mali_fops;
+ mali_miscdevice.parent = get_device(&pdev->dev);
+
+ err = misc_register(&mali_miscdevice);
+ if (0 != err) {
+ MALI_PRINT_ERROR(("Failed to register misc device, misc_register() returned %d\n", err));
+ }
+
+ return err;
+}
+
+static void mali_miscdevice_unregister(void)
+{
+ misc_deregister(&mali_miscdevice);
+}
+
+static int mali_driver_suspend_scheduler(struct device *dev)
+{
+ mali_pm_os_suspend();
+ return 0;
+}
+
+static int mali_driver_resume_scheduler(struct device *dev)
+{
+ mali_pm_os_resume();
+ return 0;
+}
+
+#ifdef CONFIG_PM_RUNTIME
+static int mali_driver_runtime_suspend(struct device *dev)
+{
+ mali_pm_runtime_suspend();
+ return 0;
+}
+
+static int mali_driver_runtime_resume(struct device *dev)
+{
+ mali_pm_runtime_resume();
+ return 0;
+}
+
+static int mali_driver_runtime_idle(struct device *dev)
+{
+ /* Nothing to do */
+ return 0;
+}
+#endif
+
+static int mali_open(struct inode *inode, struct file *filp)
+{
+ struct mali_session_data * session_data;
+ _mali_osk_errcode_t err;
+
+ /* input validation */
+ if (mali_miscdevice.minor != iminor(inode)) {
+ MALI_PRINT_ERROR(("mali_open() Minor does not match\n"));
+ return -ENODEV;
+ }
+
+ /* allocated struct to track this session */
+ err = _mali_ukk_open((void **)&session_data);
+ if (_MALI_OSK_ERR_OK != err) return map_errcode(err);
+
+ /* initialize file pointer */
+ filp->f_pos = 0;
+
+ /* link in our session data */
+ filp->private_data = (void*)session_data;
+
+ return 0;
+}
+
+static int mali_release(struct inode *inode, struct file *filp)
+{
+ _mali_osk_errcode_t err;
+
+ /* input validation */
+ if (mali_miscdevice.minor != iminor(inode)) {
+ MALI_PRINT_ERROR(("mali_release() Minor does not match\n"));
+ return -ENODEV;
+ }
+
+ err = _mali_ukk_close((void **)&filp->private_data);
+ if (_MALI_OSK_ERR_OK != err) return map_errcode(err);
+
+ return 0;
+}
+#ifndef CONFIG_MALI400
+int map_errcode( _mali_osk_errcode_t err )
+{
+ switch(err) {
+ case _MALI_OSK_ERR_OK :
+ return 0;
+ case _MALI_OSK_ERR_FAULT:
+ return -EFAULT;
+ case _MALI_OSK_ERR_INVALID_FUNC:
+ return -ENOTTY;
+ case _MALI_OSK_ERR_INVALID_ARGS:
+ return -EINVAL;
+ case _MALI_OSK_ERR_NOMEM:
+ return -ENOMEM;
+ case _MALI_OSK_ERR_TIMEOUT:
+ return -ETIMEDOUT;
+ case _MALI_OSK_ERR_RESTARTSYSCALL:
+ return -ERESTARTSYS;
+ case _MALI_OSK_ERR_ITEM_NOT_FOUND:
+ return -ENOENT;
+ default:
+ return -EFAULT;
+ }
+}
+#endif
+
+#ifdef HAVE_UNLOCKED_IOCTL
+static long mali_ioctl(struct file *filp, unsigned int cmd, unsigned long arg)
+#else
+static int mali_ioctl(struct inode *inode, struct file *filp, unsigned int cmd, unsigned long arg)
+#endif
+{
+ int err;
+ struct mali_session_data *session_data;
+
+#ifndef HAVE_UNLOCKED_IOCTL
+ /* inode not used */
+ (void)inode;
+#endif
+
+ MALI_DEBUG_PRINT(7, ("Ioctl received 0x%08X 0x%08lX\n", cmd, arg));
+
+ session_data = (struct mali_session_data *)filp->private_data;
+ if (NULL == session_data) {
+ MALI_DEBUG_PRINT(7, ("filp->private_data was NULL\n"));
+ return -ENOTTY;
+ }
+
+ if (NULL == (void *)arg) {
+ MALI_DEBUG_PRINT(7, ("arg was NULL\n"));
+ return -ENOTTY;
+ }
+
+ switch(cmd) {
+ case MALI_IOC_WAIT_FOR_NOTIFICATION:
+ err = wait_for_notification_wrapper(session_data, (_mali_uk_wait_for_notification_s __user *)arg);
+ break;
+
+ case MALI_IOC_GET_API_VERSION:
+ err = get_api_version_wrapper(session_data, (_mali_uk_get_api_version_s __user *)arg);
+ break;
+
+ case MALI_IOC_POST_NOTIFICATION:
+ err = post_notification_wrapper(session_data, (_mali_uk_post_notification_s __user *)arg);
+ break;
+
+ case MALI_IOC_GET_MALI_VERSION_IN_RK30:
+ err = get_mali_version_in_rk30_wrapper(session_data,(_mali_uk_get_mali_version_in_rk30_s __user *)arg);
+ break;
+ case MALI_IOC_GET_USER_SETTINGS:
+ err = get_user_settings_wrapper(session_data, (_mali_uk_get_user_settings_s __user *)arg);
+ break;
+
+ case MALI_IOC_REQUEST_HIGH_PRIORITY:
+ err = request_high_priority_wrapper(session_data, (_mali_uk_request_high_priority_s __user *)arg);
+ break;
+
+#if defined(CONFIG_MALI400_PROFILING)
+ case MALI_IOC_PROFILING_START:
+ err = profiling_start_wrapper(session_data, (_mali_uk_profiling_start_s __user *)arg);
+ break;
+
+ case MALI_IOC_PROFILING_ADD_EVENT:
+ err = profiling_add_event_wrapper(session_data, (_mali_uk_profiling_add_event_s __user *)arg);
+ break;
+
+ case MALI_IOC_PROFILING_STOP:
+ err = profiling_stop_wrapper(session_data, (_mali_uk_profiling_stop_s __user *)arg);
+ break;
+
+ case MALI_IOC_PROFILING_GET_EVENT:
+ err = profiling_get_event_wrapper(session_data, (_mali_uk_profiling_get_event_s __user *)arg);
+ break;
+
+ case MALI_IOC_PROFILING_CLEAR:
+ err = profiling_clear_wrapper(session_data, (_mali_uk_profiling_clear_s __user *)arg);
+ break;
+
+ case MALI_IOC_PROFILING_GET_CONFIG:
+ /* Deprecated: still compatible with get_user_settings */
+ err = get_user_settings_wrapper(session_data, (_mali_uk_get_user_settings_s __user *)arg);
+ break;
+
+ case MALI_IOC_PROFILING_REPORT_SW_COUNTERS:
+ err = profiling_report_sw_counters_wrapper(session_data, (_mali_uk_sw_counters_report_s __user *)arg);
+ break;
+
+#else
+
+ case MALI_IOC_PROFILING_START: /* FALL-THROUGH */
+ case MALI_IOC_PROFILING_ADD_EVENT: /* FALL-THROUGH */
+ case MALI_IOC_PROFILING_STOP: /* FALL-THROUGH */
+ case MALI_IOC_PROFILING_GET_EVENT: /* FALL-THROUGH */
+ case MALI_IOC_PROFILING_CLEAR: /* FALL-THROUGH */
+ case MALI_IOC_PROFILING_GET_CONFIG: /* FALL-THROUGH */
+ case MALI_IOC_PROFILING_REPORT_SW_COUNTERS: /* FALL-THROUGH */
+ MALI_DEBUG_PRINT(2, ("Profiling not supported\n"));
+ err = -ENOTTY;
+ break;
+
+#endif
+
+ case MALI_IOC_MEM_WRITE_SAFE:
+ err = mem_write_safe_wrapper(session_data, (_mali_uk_mem_write_safe_s __user *)arg);
+ break;
+
+ case MALI_IOC_MEM_MAP_EXT:
+ err = mem_map_ext_wrapper(session_data, (_mali_uk_map_external_mem_s __user *)arg);
+ break;
+
+ case MALI_IOC_MEM_UNMAP_EXT:
+ err = mem_unmap_ext_wrapper(session_data, (_mali_uk_unmap_external_mem_s __user *)arg);
+ break;
+
+ case MALI_IOC_MEM_QUERY_MMU_PAGE_TABLE_DUMP_SIZE:
+ err = mem_query_mmu_page_table_dump_size_wrapper(session_data, (_mali_uk_query_mmu_page_table_dump_size_s __user *)arg);
+ break;
+
+ case MALI_IOC_MEM_DUMP_MMU_PAGE_TABLE:
+ err = mem_dump_mmu_page_table_wrapper(session_data, (_mali_uk_dump_mmu_page_table_s __user *)arg);
+ break;
+
+#if defined(CONFIG_MALI400_UMP)
+
+ case MALI_IOC_MEM_ATTACH_UMP:
+ err = mem_attach_ump_wrapper(session_data, (_mali_uk_attach_ump_mem_s __user *)arg);
+ break;
+
+ case MALI_IOC_MEM_RELEASE_UMP:
+ err = mem_release_ump_wrapper(session_data, (_mali_uk_release_ump_mem_s __user *)arg);
+ break;
+
+#else
+
+ case MALI_IOC_MEM_ATTACH_UMP:
+ case MALI_IOC_MEM_RELEASE_UMP: /* FALL-THROUGH */
+ MALI_DEBUG_PRINT(2, ("UMP not supported\n"));
+ err = -ENOTTY;
+ break;
+#endif
+
+#ifdef CONFIG_DMA_SHARED_BUFFER
+ case MALI_IOC_MEM_ATTACH_DMA_BUF:
+ err = mali_attach_dma_buf(session_data, (_mali_uk_attach_dma_buf_s __user *)arg);
+ break;
+
+ case MALI_IOC_MEM_RELEASE_DMA_BUF:
+ err = mali_release_dma_buf(session_data, (_mali_uk_release_dma_buf_s __user *)arg);
+ break;
+
+ case MALI_IOC_MEM_DMA_BUF_GET_SIZE:
+ err = mali_dma_buf_get_size(session_data, (_mali_uk_dma_buf_get_size_s __user *)arg);
+ break;
+#else
+
+ case MALI_IOC_MEM_ATTACH_DMA_BUF: /* FALL-THROUGH */
+ case MALI_IOC_MEM_RELEASE_DMA_BUF: /* FALL-THROUGH */
+ case MALI_IOC_MEM_DMA_BUF_GET_SIZE: /* FALL-THROUGH */
+ MALI_DEBUG_PRINT(2, ("DMA-BUF not supported\n"));
+ err = -ENOTTY;
+ break;
+#endif
+
+ case MALI_IOC_PP_START_JOB:
+ err = pp_start_job_wrapper(session_data, (_mali_uk_pp_start_job_s __user *)arg);
+ break;
+
+ case MALI_IOC_PP_AND_GP_START_JOB:
+ err = pp_and_gp_start_job_wrapper(session_data, (_mali_uk_pp_and_gp_start_job_s __user *)arg);
+ break;
+
+ case MALI_IOC_PP_NUMBER_OF_CORES_GET:
+ err = pp_get_number_of_cores_wrapper(session_data, (_mali_uk_get_pp_number_of_cores_s __user *)arg);
+ break;
+
+ case MALI_IOC_PP_CORE_VERSION_GET:
+ err = pp_get_core_version_wrapper(session_data, (_mali_uk_get_pp_core_version_s __user *)arg);
+ break;
+
+ case MALI_IOC_PP_DISABLE_WB:
+ err = pp_disable_wb_wrapper(session_data, (_mali_uk_pp_disable_wb_s __user *)arg);
+ break;
+
+ case MALI_IOC_GP2_START_JOB:
+ err = gp_start_job_wrapper(session_data, (_mali_uk_gp_start_job_s __user *)arg);
+ break;
+
+ case MALI_IOC_GP2_NUMBER_OF_CORES_GET:
+ err = gp_get_number_of_cores_wrapper(session_data, (_mali_uk_get_gp_number_of_cores_s __user *)arg);
+ break;
+
+ case MALI_IOC_GP2_CORE_VERSION_GET:
+ err = gp_get_core_version_wrapper(session_data, (_mali_uk_get_gp_core_version_s __user *)arg);
+ break;
+
+ case MALI_IOC_GP2_SUSPEND_RESPONSE:
+ err = gp_suspend_response_wrapper(session_data, (_mali_uk_gp_suspend_response_s __user *)arg);
+ break;
+
+ case MALI_IOC_VSYNC_EVENT_REPORT:
+ err = vsync_event_report_wrapper(session_data, (_mali_uk_vsync_event_report_s __user *)arg);
+ break;
+
+ case MALI_IOC_TIMELINE_GET_LATEST_POINT:
+ err = timeline_get_latest_point_wrapper(session_data, (_mali_uk_timeline_get_latest_point_s __user *)arg);
+ break;
+ case MALI_IOC_TIMELINE_WAIT:
+ err = timeline_wait_wrapper(session_data, (_mali_uk_timeline_wait_s __user *)arg);
+ break;
+ case MALI_IOC_TIMELINE_CREATE_SYNC_FENCE:
+ err = timeline_create_sync_fence_wrapper(session_data, (_mali_uk_timeline_create_sync_fence_s __user *)arg);
+ break;
+ case MALI_IOC_SOFT_JOB_START:
+ err = soft_job_start_wrapper(session_data, (_mali_uk_soft_job_start_s __user *)arg);
+ break;
+ case MALI_IOC_SOFT_JOB_SIGNAL:
+ err = soft_job_signal_wrapper(session_data, (_mali_uk_soft_job_signal_s __user *)arg);
+ break;
+
+ case MALI_IOC_MEM_INIT: /* Fallthrough */
+ case MALI_IOC_MEM_TERM: /* Fallthrough */
+ MALI_DEBUG_PRINT(2, ("Deprecated ioctls called\n"));
+ err = -ENOTTY;
+ break;
+
+ case MALI_IOC_MEM_GET_BIG_BLOCK: /* Fallthrough */
+ case MALI_IOC_MEM_FREE_BIG_BLOCK:
+ MALI_PRINT_ERROR(("Non-MMU mode is no longer supported.\n"));
+ err = -ENOTTY;
+ break;
+
+ default:
+ MALI_DEBUG_PRINT(2, ("No handler for ioctl 0x%08X 0x%08lX\n", cmd, arg));
+ err = -ENOTTY;
+ };
+
+ return err;
+}
+
+
+module_init(mali_module_init);
+module_exit(mali_module_exit);
+
+MODULE_LICENSE(MALI_KERNEL_LINUX_LICENSE);
+MODULE_AUTHOR("ARM Ltd.");
+MODULE_VERSION(SVN_REV_STRING);
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_KERNEL_LINUX_H__
+#define __MALI_KERNEL_LINUX_H__
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <linux/cdev.h> /* character device definitions */
+#include "mali_kernel_license.h"
+#include "mali_osk_types.h"
+
+extern struct platform_device *mali_platform_device;
+
+#if MALI_LICENSE_IS_GPL
+/* Defined in mali_osk_irq.h */
+extern struct workqueue_struct * mali_wq_normal;
+#endif
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __MALI_KERNEL_LINUX_H__ */
--- /dev/null
+/**
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+
+/**
+ * @file mali_kernel_sysfs.c
+ * Implementation of some sysfs data exports
+ */
+
+#include <linux/kernel.h>
+#include <linux/fs.h>
+#include <linux/device.h>
+#include <linux/module.h>
+#include "mali_kernel_license.h"
+#include "mali_kernel_common.h"
+#include "mali_ukk.h"
+
+#if MALI_LICENSE_IS_GPL
+
+#include <linux/seq_file.h>
+#include <linux/debugfs.h>
+#include <asm/uaccess.h>
+#include <linux/module.h>
+#include <linux/mali/mali_utgard.h>
+#include "mali_kernel_sysfs.h"
+#if defined(CONFIG_MALI400_INTERNAL_PROFILING)
+#include <linux/slab.h>
+#include "mali_osk_profiling.h"
+#endif
+
+#include <linux/mali/mali_utgard.h>
+#include "mali_pm.h"
+#include "mali_pmu.h"
+#include "mali_group.h"
+#include "mali_gp.h"
+#include "mali_pp.h"
+#include "mali_l2_cache.h"
+#include "mali_hw_core.h"
+#include "mali_kernel_core.h"
+#include "mali_user_settings_db.h"
+#include "mali_profiling_internal.h"
+#include "mali_gp_job.h"
+#include "mali_pp_job.h"
+#include "mali_pp_scheduler.h"
+
+#define PRIVATE_DATA_COUNTER_MAKE_GP(src) (src)
+#define PRIVATE_DATA_COUNTER_MAKE_PP(src) ((1 << 24) | src)
+#define PRIVATE_DATA_COUNTER_MAKE_PP_SUB_JOB(src, sub_job) ((1 << 24) | (1 << 16) | (sub_job << 8) | src)
+#define PRIVATE_DATA_COUNTER_IS_PP(a) ((((a) >> 24) & 0xFF) ? MALI_TRUE : MALI_FALSE)
+#define PRIVATE_DATA_COUNTER_GET_SRC(a) (a & 0xFF)
+#define PRIVATE_DATA_COUNTER_IS_SUB_JOB(a) ((((a) >> 16) & 0xFF) ? MALI_TRUE : MALI_FALSE)
+#define PRIVATE_DATA_COUNTER_GET_SUB_JOB(a) (((a) >> 8) & 0xFF)
+
+#define POWER_BUFFER_SIZE 3
+
+static struct dentry *mali_debugfs_dir = NULL;
+
+typedef enum {
+ _MALI_DEVICE_SUSPEND,
+ _MALI_DEVICE_RESUME,
+ _MALI_DEVICE_DVFS_PAUSE,
+ _MALI_DEVICE_DVFS_RESUME,
+ _MALI_MAX_EVENTS
+} _mali_device_debug_power_events;
+
+static const char* const mali_power_events[_MALI_MAX_EVENTS] = {
+ [_MALI_DEVICE_SUSPEND] = "suspend",
+ [_MALI_DEVICE_RESUME] = "resume",
+ [_MALI_DEVICE_DVFS_PAUSE] = "dvfs_pause",
+ [_MALI_DEVICE_DVFS_RESUME] = "dvfs_resume",
+};
+
+static mali_bool power_always_on_enabled = MALI_FALSE;
+
+static int open_copy_private_data(struct inode *inode, struct file *filp)
+{
+ filp->private_data = inode->i_private;
+ return 0;
+}
+
+static ssize_t group_enabled_read(struct file *filp, char __user *buf, size_t count, loff_t *offp)
+{
+ int r;
+ char buffer[64];
+ struct mali_group *group;
+
+ group = (struct mali_group *)filp->private_data;
+ MALI_DEBUG_ASSERT_POINTER(group);
+
+ r = sprintf(buffer, "%u\n", mali_group_is_enabled(group) ? 1 : 0);
+
+ return simple_read_from_buffer(buf, count, offp, buffer, r);
+}
+
+static ssize_t group_enabled_write(struct file *filp, const char __user *buf, size_t count, loff_t *offp)
+{
+ int r;
+ char buffer[64];
+ unsigned long val;
+ struct mali_group *group;
+
+ group = (struct mali_group *)filp->private_data;
+ MALI_DEBUG_ASSERT_POINTER(group);
+
+ if (count >= sizeof(buffer)) {
+ return -ENOMEM;
+ }
+
+ if (copy_from_user(&buffer[0], buf, count)) {
+ return -EFAULT;
+ }
+ buffer[count] = '\0';
+
+ r = strict_strtoul(&buffer[0], 10, &val);
+ if (0 != r) {
+ return -EINVAL;
+ }
+
+ switch (val) {
+ case 1:
+ mali_group_enable(group);
+ break;
+ case 0:
+ mali_group_disable(group);
+ break;
+ default:
+ return -EINVAL;
+ break;
+ }
+
+ *offp += count;
+ return count;
+}
+
+static const struct file_operations group_enabled_fops = {
+ .owner = THIS_MODULE,
+ .open = open_copy_private_data,
+ .read = group_enabled_read,
+ .write = group_enabled_write,
+};
+
+static ssize_t hw_core_base_addr_read(struct file *filp, char __user *buf, size_t count, loff_t *offp)
+{
+ int r;
+ char buffer[64];
+ struct mali_hw_core *hw_core;
+
+ hw_core = (struct mali_hw_core *)filp->private_data;
+ MALI_DEBUG_ASSERT_POINTER(hw_core);
+
+ r = sprintf(buffer, "0x%08X\n", hw_core->phys_addr);
+
+ return simple_read_from_buffer(buf, count, offp, buffer, r);
+}
+
+static const struct file_operations hw_core_base_addr_fops = {
+ .owner = THIS_MODULE,
+ .open = open_copy_private_data,
+ .read = hw_core_base_addr_read,
+};
+
+static ssize_t profiling_counter_src_read(struct file *filp, char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ u32 is_pp = PRIVATE_DATA_COUNTER_IS_PP((u32)filp->private_data);
+ u32 src_id = PRIVATE_DATA_COUNTER_GET_SRC((u32)filp->private_data);
+ mali_bool is_sub_job = PRIVATE_DATA_COUNTER_IS_SUB_JOB((u32)filp->private_data);
+ u32 sub_job = PRIVATE_DATA_COUNTER_GET_SUB_JOB((u32)filp->private_data);
+ char buf[64];
+ int r;
+ u32 val;
+
+ if (MALI_TRUE == is_pp) {
+ /* PP counter */
+ if (MALI_TRUE == is_sub_job) {
+ /* Get counter for a particular sub job */
+ if (0 == src_id) {
+ val = mali_pp_job_get_pp_counter_sub_job_src0(sub_job);
+ } else {
+ val = mali_pp_job_get_pp_counter_sub_job_src1(sub_job);
+ }
+ } else {
+ /* Get default counter for all PP sub jobs */
+ if (0 == src_id) {
+ val = mali_pp_job_get_pp_counter_global_src0();
+ } else {
+ val = mali_pp_job_get_pp_counter_global_src1();
+ }
+ }
+ } else {
+ /* GP counter */
+ if (0 == src_id) {
+ val = mali_gp_job_get_gp_counter_src0();
+ } else {
+ val = mali_gp_job_get_gp_counter_src1();
+ }
+ }
+
+ if (MALI_HW_CORE_NO_COUNTER == val) {
+ r = sprintf(buf, "-1\n");
+ } else {
+ r = sprintf(buf, "%u\n", val);
+ }
+
+ return simple_read_from_buffer(ubuf, cnt, ppos, buf, r);
+}
+
+static ssize_t profiling_counter_src_write(struct file *filp, const char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ u32 is_pp = PRIVATE_DATA_COUNTER_IS_PP((u32)filp->private_data);
+ u32 src_id = PRIVATE_DATA_COUNTER_GET_SRC((u32)filp->private_data);
+ mali_bool is_sub_job = PRIVATE_DATA_COUNTER_IS_SUB_JOB((u32)filp->private_data);
+ u32 sub_job = PRIVATE_DATA_COUNTER_GET_SUB_JOB((u32)filp->private_data);
+ char buf[64];
+ long val;
+ int ret;
+
+ if (cnt >= sizeof(buf)) {
+ return -EINVAL;
+ }
+
+ if (copy_from_user(&buf, ubuf, cnt)) {
+ return -EFAULT;
+ }
+
+ buf[cnt] = 0;
+
+ ret = strict_strtol(buf, 10, &val);
+ if (ret < 0) {
+ return ret;
+ }
+
+ if (val < 0) {
+ /* any negative input will disable counter */
+ val = MALI_HW_CORE_NO_COUNTER;
+ }
+
+ if (MALI_TRUE == is_pp) {
+ /* PP counter */
+ if (MALI_TRUE == is_sub_job) {
+ /* Set counter for a particular sub job */
+ if (0 == src_id) {
+ mali_pp_job_set_pp_counter_sub_job_src0(sub_job, (u32)val);
+ } else {
+ mali_pp_job_set_pp_counter_sub_job_src1(sub_job, (u32)val);
+ }
+ } else {
+ /* Set default counter for all PP sub jobs */
+ if (0 == src_id) {
+ mali_pp_job_set_pp_counter_global_src0((u32)val);
+ } else {
+ mali_pp_job_set_pp_counter_global_src1((u32)val);
+ }
+ }
+ } else {
+ /* GP counter */
+ if (0 == src_id) {
+ mali_gp_job_set_gp_counter_src0((u32)val);
+ } else {
+ mali_gp_job_set_gp_counter_src1((u32)val);
+ }
+ }
+
+ *ppos += cnt;
+ return cnt;
+}
+
+static const struct file_operations profiling_counter_src_fops = {
+ .owner = THIS_MODULE,
+ .open = open_copy_private_data,
+ .read = profiling_counter_src_read,
+ .write = profiling_counter_src_write,
+};
+
+static ssize_t l2_l2x_counter_srcx_read(struct file *filp, char __user *ubuf, size_t cnt, loff_t *ppos, u32 src_id)
+{
+ char buf[64];
+ int r;
+ u32 val;
+ struct mali_l2_cache_core *l2_core = (struct mali_l2_cache_core *)filp->private_data;
+
+ if (0 == src_id) {
+ val = mali_l2_cache_core_get_counter_src0(l2_core);
+ } else {
+ val = mali_l2_cache_core_get_counter_src1(l2_core);
+ }
+
+ if (MALI_HW_CORE_NO_COUNTER == val) {
+ r = sprintf(buf, "-1\n");
+ } else {
+ r = sprintf(buf, "%u\n", val);
+ }
+ return simple_read_from_buffer(ubuf, cnt, ppos, buf, r);
+}
+
+static ssize_t l2_l2x_counter_srcx_write(struct file *filp, const char __user *ubuf, size_t cnt, loff_t *ppos, u32 src_id)
+{
+ struct mali_l2_cache_core *l2_core = (struct mali_l2_cache_core *)filp->private_data;
+ char buf[64];
+ long val;
+ int ret;
+
+ if (cnt >= sizeof(buf)) {
+ return -EINVAL;
+ }
+
+ if (copy_from_user(&buf, ubuf, cnt)) {
+ return -EFAULT;
+ }
+
+ buf[cnt] = 0;
+
+ ret = strict_strtol(buf, 10, &val);
+ if (ret < 0) {
+ return ret;
+ }
+
+ if (val < 0) {
+ /* any negative input will disable counter */
+ val = MALI_HW_CORE_NO_COUNTER;
+ }
+
+ if (0 == src_id) {
+ mali_l2_cache_core_set_counter_src0(l2_core, (u32)val);
+ } else {
+ mali_l2_cache_core_set_counter_src1(l2_core, (u32)val);
+ }
+
+ *ppos += cnt;
+ return cnt;
+}
+
+static ssize_t l2_all_counter_srcx_write(struct file *filp, const char __user *ubuf, size_t cnt, loff_t *ppos, u32 src_id)
+{
+ char buf[64];
+ long val;
+ int ret;
+ u32 l2_id;
+ struct mali_l2_cache_core *l2_cache;
+
+ if (cnt >= sizeof(buf)) {
+ return -EINVAL;
+ }
+
+ if (copy_from_user(&buf, ubuf, cnt)) {
+ return -EFAULT;
+ }
+
+ buf[cnt] = 0;
+
+ ret = strict_strtol(buf, 10, &val);
+ if (ret < 0) {
+ return ret;
+ }
+
+ if (val < 0) {
+ /* any negative input will disable counter */
+ val = MALI_HW_CORE_NO_COUNTER;
+ }
+
+ l2_id = 0;
+ l2_cache = mali_l2_cache_core_get_glob_l2_core(l2_id);
+ while (NULL != l2_cache) {
+ if (0 == src_id) {
+ mali_l2_cache_core_set_counter_src0(l2_cache, (u32)val);
+ } else {
+ mali_l2_cache_core_set_counter_src1(l2_cache, (u32)val);
+ }
+
+ /* try next L2 */
+ l2_id++;
+ l2_cache = mali_l2_cache_core_get_glob_l2_core(l2_id);
+ }
+
+ *ppos += cnt;
+ return cnt;
+}
+
+static ssize_t l2_l2x_counter_src0_read(struct file *filp, char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ return l2_l2x_counter_srcx_read(filp, ubuf, cnt, ppos, 0);
+}
+
+static ssize_t l2_l2x_counter_src1_read(struct file *filp, char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ return l2_l2x_counter_srcx_read(filp, ubuf, cnt, ppos, 1);
+}
+
+static ssize_t l2_l2x_counter_src0_write(struct file *filp, const char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ return l2_l2x_counter_srcx_write(filp, ubuf, cnt, ppos, 0);
+}
+
+static ssize_t l2_l2x_counter_src1_write(struct file *filp, const char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ return l2_l2x_counter_srcx_write(filp, ubuf, cnt, ppos, 1);
+}
+
+static ssize_t l2_all_counter_src0_write(struct file *filp, const char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ return l2_all_counter_srcx_write(filp, ubuf, cnt, ppos, 0);
+}
+
+static ssize_t l2_all_counter_src1_write(struct file *filp, const char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ return l2_all_counter_srcx_write(filp, ubuf, cnt, ppos, 1);
+}
+
+static const struct file_operations l2_l2x_counter_src0_fops = {
+ .owner = THIS_MODULE,
+ .open = open_copy_private_data,
+ .read = l2_l2x_counter_src0_read,
+ .write = l2_l2x_counter_src0_write,
+};
+
+static const struct file_operations l2_l2x_counter_src1_fops = {
+ .owner = THIS_MODULE,
+ .open = open_copy_private_data,
+ .read = l2_l2x_counter_src1_read,
+ .write = l2_l2x_counter_src1_write,
+};
+
+static const struct file_operations l2_all_counter_src0_fops = {
+ .owner = THIS_MODULE,
+ .write = l2_all_counter_src0_write,
+};
+
+static const struct file_operations l2_all_counter_src1_fops = {
+ .owner = THIS_MODULE,
+ .write = l2_all_counter_src1_write,
+};
+
+static ssize_t power_always_on_write(struct file *filp, const char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ unsigned long val;
+ int ret;
+ char buf[32];
+
+ cnt = min(cnt, sizeof(buf) - 1);
+ if (copy_from_user(buf, ubuf, cnt)) {
+ return -EFAULT;
+ }
+ buf[cnt] = '\0';
+
+ ret = strict_strtoul(buf, 10, &val);
+ if (0 != ret) {
+ return ret;
+ }
+
+ /* Update setting (not exactly thread safe) */
+ if (1 == val && MALI_FALSE == power_always_on_enabled) {
+ power_always_on_enabled = MALI_TRUE;
+ _mali_osk_pm_dev_ref_add();
+ } else if (0 == val && MALI_TRUE == power_always_on_enabled) {
+ power_always_on_enabled = MALI_FALSE;
+ _mali_osk_pm_dev_ref_dec();
+ }
+
+ *ppos += cnt;
+ return cnt;
+}
+
+static ssize_t power_always_on_read(struct file *filp, char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ if (MALI_TRUE == power_always_on_enabled) {
+ return simple_read_from_buffer(ubuf, cnt, ppos, "1\n", 2);
+ } else {
+ return simple_read_from_buffer(ubuf, cnt, ppos, "0\n", 2);
+ }
+}
+
+static const struct file_operations power_always_on_fops = {
+ .owner = THIS_MODULE,
+ .read = power_always_on_read,
+ .write = power_always_on_write,
+};
+
+static ssize_t power_power_events_write(struct file *filp, const char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+
+ if (!strncmp(ubuf,mali_power_events[_MALI_DEVICE_SUSPEND],strlen(mali_power_events[_MALI_DEVICE_SUSPEND]))) {
+ mali_pm_os_suspend();
+
+ } else if (!strncmp(ubuf,mali_power_events[_MALI_DEVICE_RESUME],strlen(mali_power_events[_MALI_DEVICE_RESUME]))) {
+ mali_pm_os_resume();
+ } else if (!strncmp(ubuf,mali_power_events[_MALI_DEVICE_DVFS_PAUSE],strlen(mali_power_events[_MALI_DEVICE_DVFS_PAUSE]))) {
+ mali_dev_pause();
+ } else if (!strncmp(ubuf,mali_power_events[_MALI_DEVICE_DVFS_RESUME],strlen(mali_power_events[_MALI_DEVICE_DVFS_RESUME]))) {
+ mali_dev_resume();
+ }
+ *ppos += cnt;
+ return cnt;
+}
+
+static loff_t power_power_events_seek(struct file *file, loff_t offset, int orig)
+{
+ file->f_pos = offset;
+ return 0;
+}
+
+static const struct file_operations power_power_events_fops = {
+ .owner = THIS_MODULE,
+ .write = power_power_events_write,
+ .llseek = power_power_events_seek,
+};
+
+#if MALI_STATE_TRACKING
+static int mali_seq_internal_state_show(struct seq_file *seq_file, void *v)
+{
+ u32 len = 0;
+ u32 size;
+ char *buf;
+
+ size = seq_get_buf(seq_file, &buf);
+
+ if(!size) {
+ return -ENOMEM;
+ }
+
+ /* Create the internal state dump. */
+ len = snprintf(buf+len, size-len, "Mali device driver %s\n", SVN_REV_STRING);
+ len += snprintf(buf+len, size-len, "License: %s\n\n", MALI_KERNEL_LINUX_LICENSE);
+
+ len += _mali_kernel_core_dump_state(buf + len, size - len);
+
+ seq_commit(seq_file, len);
+
+ return 0;
+}
+
+static int mali_seq_internal_state_open(struct inode *inode, struct file *file)
+{
+ return single_open(file, mali_seq_internal_state_show, NULL);
+}
+
+static const struct file_operations mali_seq_internal_state_fops = {
+ .owner = THIS_MODULE,
+ .open = mali_seq_internal_state_open,
+ .read = seq_read,
+ .llseek = seq_lseek,
+ .release = single_release,
+};
+#endif /* MALI_STATE_TRACKING */
+
+#if defined(CONFIG_MALI400_INTERNAL_PROFILING)
+static ssize_t profiling_record_read(struct file *filp, char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ char buf[64];
+ int r;
+
+ r = sprintf(buf, "%u\n", _mali_internal_profiling_is_recording() ? 1 : 0);
+ return simple_read_from_buffer(ubuf, cnt, ppos, buf, r);
+}
+
+static ssize_t profiling_record_write(struct file *filp, const char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ char buf[64];
+ unsigned long val;
+ int ret;
+
+ if (cnt >= sizeof(buf)) {
+ return -EINVAL;
+ }
+
+ if (copy_from_user(&buf, ubuf, cnt)) {
+ return -EFAULT;
+ }
+
+ buf[cnt] = 0;
+
+ ret = strict_strtoul(buf, 10, &val);
+ if (ret < 0) {
+ return ret;
+ }
+
+ if (val != 0) {
+ u32 limit = MALI_PROFILING_MAX_BUFFER_ENTRIES; /* This can be made configurable at a later stage if we need to */
+
+ /* check if we are already recording */
+ if (MALI_TRUE == _mali_internal_profiling_is_recording()) {
+ MALI_DEBUG_PRINT(3, ("Recording of profiling events already in progress\n"));
+ return -EFAULT;
+ }
+
+ /* check if we need to clear out an old recording first */
+ if (MALI_TRUE == _mali_internal_profiling_have_recording()) {
+ if (_MALI_OSK_ERR_OK != _mali_internal_profiling_clear()) {
+ MALI_DEBUG_PRINT(3, ("Failed to clear existing recording of profiling events\n"));
+ return -EFAULT;
+ }
+ }
+
+ /* start recording profiling data */
+ if (_MALI_OSK_ERR_OK != _mali_internal_profiling_start(&limit)) {
+ MALI_DEBUG_PRINT(3, ("Failed to start recording of profiling events\n"));
+ return -EFAULT;
+ }
+
+ MALI_DEBUG_PRINT(3, ("Profiling recording started (max %u events)\n", limit));
+ } else {
+ /* stop recording profiling data */
+ u32 count = 0;
+ if (_MALI_OSK_ERR_OK != _mali_internal_profiling_stop(&count)) {
+ MALI_DEBUG_PRINT(2, ("Failed to stop recording of profiling events\n"));
+ return -EFAULT;
+ }
+
+ MALI_DEBUG_PRINT(2, ("Profiling recording stopped (recorded %u events)\n", count));
+ }
+
+ *ppos += cnt;
+ return cnt;
+}
+
+static const struct file_operations profiling_record_fops = {
+ .owner = THIS_MODULE,
+ .read = profiling_record_read,
+ .write = profiling_record_write,
+};
+
+static void *profiling_events_start(struct seq_file *s, loff_t *pos)
+{
+ loff_t *spos;
+
+ /* check if we have data avaiable */
+ if (MALI_TRUE != _mali_internal_profiling_have_recording()) {
+ return NULL;
+ }
+
+ spos = kmalloc(sizeof(loff_t), GFP_KERNEL);
+ if (NULL == spos) {
+ return NULL;
+ }
+
+ *spos = *pos;
+ return spos;
+}
+
+static void *profiling_events_next(struct seq_file *s, void *v, loff_t *pos)
+{
+ loff_t *spos = v;
+
+ /* check if we have data avaiable */
+ if (MALI_TRUE != _mali_internal_profiling_have_recording()) {
+ return NULL;
+ }
+
+ /* check if the next entry actually is avaiable */
+ if (_mali_internal_profiling_get_count() <= (u32)(*spos + 1)) {
+ return NULL;
+ }
+
+ *pos = ++*spos;
+ return spos;
+}
+
+static void profiling_events_stop(struct seq_file *s, void *v)
+{
+ kfree(v);
+}
+
+static int profiling_events_show(struct seq_file *seq_file, void *v)
+{
+ loff_t *spos = v;
+ u32 index;
+ u64 timestamp;
+ u32 event_id;
+ u32 data[5];
+
+ index = (u32)*spos;
+
+ /* Retrieve all events */
+ if (_MALI_OSK_ERR_OK == _mali_internal_profiling_get_event(index, ×tamp, &event_id, data)) {
+ seq_printf(seq_file, "%llu %u %u %u %u %u %u\n", timestamp, event_id, data[0], data[1], data[2], data[3], data[4]);
+ return 0;
+ }
+
+ return 0;
+}
+
+static int profiling_events_show_human_readable(struct seq_file *seq_file, void *v)
+{
+#define MALI_EVENT_ID_IS_HW(event_id) (((event_id & 0x00FF0000) >= MALI_PROFILING_EVENT_CHANNEL_GP0) && ((event_id & 0x00FF0000) <= MALI_PROFILING_EVENT_CHANNEL_PP7))
+
+ static u64 start_time = 0;
+ loff_t *spos = v;
+ u32 index;
+ u64 timestamp;
+ u32 event_id;
+ u32 data[5];
+
+ index = (u32)*spos;
+
+ /* Retrieve all events */
+ if (_MALI_OSK_ERR_OK == _mali_internal_profiling_get_event(index, ×tamp, &event_id, data)) {
+ seq_printf(seq_file, "%llu %u %u %u %u %u %u # ", timestamp, event_id, data[0], data[1], data[2], data[3], data[4]);
+
+ if (0 == index) {
+ start_time = timestamp;
+ }
+
+ seq_printf(seq_file, "[%06u] ", index);
+
+ switch(event_id & 0x0F000000) {
+ case MALI_PROFILING_EVENT_TYPE_SINGLE:
+ seq_printf(seq_file, "SINGLE | ");
+ break;
+ case MALI_PROFILING_EVENT_TYPE_START:
+ seq_printf(seq_file, "START | ");
+ break;
+ case MALI_PROFILING_EVENT_TYPE_STOP:
+ seq_printf(seq_file, "STOP | ");
+ break;
+ case MALI_PROFILING_EVENT_TYPE_SUSPEND:
+ seq_printf(seq_file, "SUSPEND | ");
+ break;
+ case MALI_PROFILING_EVENT_TYPE_RESUME:
+ seq_printf(seq_file, "RESUME | ");
+ break;
+ default:
+ seq_printf(seq_file, "0x%01X | ", (event_id & 0x0F000000) >> 24);
+ break;
+ }
+
+ switch(event_id & 0x00FF0000) {
+ case MALI_PROFILING_EVENT_CHANNEL_SOFTWARE:
+ seq_printf(seq_file, "SW | ");
+ break;
+ case MALI_PROFILING_EVENT_CHANNEL_GP0:
+ seq_printf(seq_file, "GP0 | ");
+ break;
+ case MALI_PROFILING_EVENT_CHANNEL_PP0:
+ seq_printf(seq_file, "PP0 | ");
+ break;
+ case MALI_PROFILING_EVENT_CHANNEL_PP1:
+ seq_printf(seq_file, "PP1 | ");
+ break;
+ case MALI_PROFILING_EVENT_CHANNEL_PP2:
+ seq_printf(seq_file, "PP2 | ");
+ break;
+ case MALI_PROFILING_EVENT_CHANNEL_PP3:
+ seq_printf(seq_file, "PP3 | ");
+ break;
+ case MALI_PROFILING_EVENT_CHANNEL_PP4:
+ seq_printf(seq_file, "PP4 | ");
+ break;
+ case MALI_PROFILING_EVENT_CHANNEL_PP5:
+ seq_printf(seq_file, "PP5 | ");
+ break;
+ case MALI_PROFILING_EVENT_CHANNEL_PP6:
+ seq_printf(seq_file, "PP6 | ");
+ break;
+ case MALI_PROFILING_EVENT_CHANNEL_PP7:
+ seq_printf(seq_file, "PP7 | ");
+ break;
+ case MALI_PROFILING_EVENT_CHANNEL_GPU:
+ seq_printf(seq_file, "GPU | ");
+ break;
+ default:
+ seq_printf(seq_file, "0x%02X | ", (event_id & 0x00FF0000) >> 16);
+ break;
+ }
+
+ if (MALI_EVENT_ID_IS_HW(event_id)) {
+ if (((event_id & 0x0F000000) == MALI_PROFILING_EVENT_TYPE_START) || ((event_id & 0x0F000000) == MALI_PROFILING_EVENT_TYPE_STOP)) {
+ switch(event_id & 0x0000FFFF) {
+ case MALI_PROFILING_EVENT_REASON_START_STOP_HW_PHYSICAL:
+ seq_printf(seq_file, "PHYSICAL | ");
+ break;
+ case MALI_PROFILING_EVENT_REASON_START_STOP_HW_VIRTUAL:
+ seq_printf(seq_file, "VIRTUAL | ");
+ break;
+ default:
+ seq_printf(seq_file, "0x%04X | ", event_id & 0x0000FFFF);
+ break;
+ }
+ } else {
+ seq_printf(seq_file, "0x%04X | ", event_id & 0x0000FFFF);
+ }
+ } else {
+ seq_printf(seq_file, "0x%04X | ", event_id & 0x0000FFFF);
+ }
+
+ seq_printf(seq_file, "T0 + 0x%016llX\n", timestamp - start_time);
+
+ return 0;
+ }
+
+ return 0;
+}
+
+static const struct seq_operations profiling_events_seq_ops = {
+ .start = profiling_events_start,
+ .next = profiling_events_next,
+ .stop = profiling_events_stop,
+ .show = profiling_events_show
+};
+
+static int profiling_events_open(struct inode *inode, struct file *file)
+{
+ return seq_open(file, &profiling_events_seq_ops);
+}
+
+static const struct file_operations profiling_events_fops = {
+ .owner = THIS_MODULE,
+ .open = profiling_events_open,
+ .read = seq_read,
+ .llseek = seq_lseek,
+ .release = seq_release,
+};
+
+static const struct seq_operations profiling_events_human_readable_seq_ops = {
+ .start = profiling_events_start,
+ .next = profiling_events_next,
+ .stop = profiling_events_stop,
+ .show = profiling_events_show_human_readable
+};
+
+static int profiling_events_human_readable_open(struct inode *inode, struct file *file)
+{
+ return seq_open(file, &profiling_events_human_readable_seq_ops);
+}
+
+static const struct file_operations profiling_events_human_readable_fops = {
+ .owner = THIS_MODULE,
+ .open = profiling_events_human_readable_open,
+ .read = seq_read,
+ .llseek = seq_lseek,
+ .release = seq_release,
+};
+
+#endif
+
+static ssize_t memory_used_read(struct file *filp, char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ char buf[64];
+ size_t r;
+ u32 mem = _mali_ukk_report_memory_usage();
+
+ r = snprintf(buf, 64, "%u\n", mem);
+ return simple_read_from_buffer(ubuf, cnt, ppos, buf, r);
+}
+
+static const struct file_operations memory_usage_fops = {
+ .owner = THIS_MODULE,
+ .read = memory_used_read,
+};
+
+static ssize_t utilization_gp_pp_read(struct file *filp, char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ char buf[64];
+ size_t r;
+ u32 uval= _mali_ukk_utilization_gp_pp();
+
+ r = snprintf(buf, 64, "%u\n", uval);
+ return simple_read_from_buffer(ubuf, cnt, ppos, buf, r);
+}
+
+static ssize_t utilization_gp_read(struct file *filp, char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ char buf[64];
+ size_t r;
+ u32 uval= _mali_ukk_utilization_gp();
+
+ r = snprintf(buf, 64, "%u\n", uval);
+ return simple_read_from_buffer(ubuf, cnt, ppos, buf, r);
+}
+
+static ssize_t utilization_pp_read(struct file *filp, char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ char buf[64];
+ size_t r;
+ u32 uval= _mali_ukk_utilization_pp();
+
+ r = snprintf(buf, 64, "%u\n", uval);
+ return simple_read_from_buffer(ubuf, cnt, ppos, buf, r);
+}
+
+
+static const struct file_operations utilization_gp_pp_fops = {
+ .owner = THIS_MODULE,
+ .read = utilization_gp_pp_read,
+};
+
+static const struct file_operations utilization_gp_fops = {
+ .owner = THIS_MODULE,
+ .read = utilization_gp_read,
+};
+
+static const struct file_operations utilization_pp_fops = {
+ .owner = THIS_MODULE,
+ .read = utilization_pp_read,
+};
+
+static ssize_t user_settings_write(struct file *filp, const char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ unsigned long val;
+ int ret;
+ _mali_uk_user_setting_t setting;
+ char buf[32];
+
+ cnt = min(cnt, sizeof(buf) - 1);
+ if (copy_from_user(buf, ubuf, cnt)) {
+ return -EFAULT;
+ }
+ buf[cnt] = '\0';
+
+ ret = strict_strtoul(buf, 10, &val);
+ if (0 != ret) {
+ return ret;
+ }
+
+ /* Update setting */
+ setting = (_mali_uk_user_setting_t)(filp->private_data);
+ mali_set_user_setting(setting, val);
+
+ *ppos += cnt;
+ return cnt;
+}
+
+static ssize_t user_settings_read(struct file *filp, char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ char buf[64];
+ size_t r;
+ u32 value;
+ _mali_uk_user_setting_t setting;
+
+ setting = (_mali_uk_user_setting_t)(filp->private_data);
+ value = mali_get_user_setting(setting);
+
+ r = snprintf(buf, 64, "%u\n", value);
+ return simple_read_from_buffer(ubuf, cnt, ppos, buf, r);
+}
+
+static const struct file_operations user_settings_fops = {
+ .owner = THIS_MODULE,
+ .open = open_copy_private_data,
+ .read = user_settings_read,
+ .write = user_settings_write,
+};
+
+static int mali_sysfs_user_settings_register(void)
+{
+ struct dentry *mali_user_settings_dir = debugfs_create_dir("userspace_settings", mali_debugfs_dir);
+
+ if (mali_user_settings_dir != NULL) {
+ int i;
+ for (i = 0; i < _MALI_UK_USER_SETTING_MAX; i++) {
+ debugfs_create_file(_mali_uk_user_setting_descriptions[i], 0600, mali_user_settings_dir, (void*)i, &user_settings_fops);
+ }
+ }
+
+ return 0;
+}
+
+static ssize_t pmu_power_down_write(struct file *filp, const char __user *buf, size_t count, loff_t *offp)
+{
+ int ret;
+ char buffer[32];
+ unsigned long val;
+ struct mali_pmu_core *pmu;
+ _mali_osk_errcode_t err;
+
+ if (count >= sizeof(buffer)) {
+ return -ENOMEM;
+ }
+
+ if (copy_from_user(&buffer[0], buf, count)) {
+ return -EFAULT;
+ }
+ buffer[count] = '\0';
+
+ ret = strict_strtoul(&buffer[0], 10, &val);
+ if (0 != ret) {
+ return -EINVAL;
+ }
+
+ pmu = mali_pmu_get_global_pmu_core();
+ MALI_DEBUG_ASSERT_POINTER(pmu);
+
+ err = mali_pmu_power_down(pmu, val);
+ if (_MALI_OSK_ERR_OK != err) {
+ return -EINVAL;
+ }
+
+ *offp += count;
+ return count;
+}
+
+static ssize_t pmu_power_up_write(struct file *filp, const char __user *buf, size_t count, loff_t *offp)
+{
+ int ret;
+ char buffer[32];
+ unsigned long val;
+ struct mali_pmu_core *pmu;
+ _mali_osk_errcode_t err;
+
+ if (count >= sizeof(buffer)) {
+ return -ENOMEM;
+ }
+
+ if (copy_from_user(&buffer[0], buf, count)) {
+ return -EFAULT;
+ }
+ buffer[count] = '\0';
+
+ ret = strict_strtoul(&buffer[0], 10, &val);
+ if (0 != ret) {
+ return -EINVAL;
+ }
+
+ pmu = mali_pmu_get_global_pmu_core();
+ MALI_DEBUG_ASSERT_POINTER(pmu);
+
+ err = mali_pmu_power_up(pmu, val);
+ if (_MALI_OSK_ERR_OK != err) {
+ return -EINVAL;
+ }
+
+ *offp += count;
+ return count;
+}
+
+static const struct file_operations pmu_power_down_fops = {
+ .owner = THIS_MODULE,
+ .write = pmu_power_down_write,
+};
+
+static const struct file_operations pmu_power_up_fops = {
+ .owner = THIS_MODULE,
+ .write = pmu_power_up_write,
+};
+
+static ssize_t pp_num_cores_enabled_write(struct file *filp, const char __user *buf, size_t count, loff_t *offp)
+{
+ int ret;
+ char buffer[32];
+ unsigned long val;
+
+ if (count >= sizeof(buffer)) {
+ return -ENOMEM;
+ }
+
+ if (copy_from_user(&buffer[0], buf, count)) {
+ return -EFAULT;
+ }
+ buffer[count] = '\0';
+
+ ret = strict_strtoul(&buffer[0], 10, &val);
+ if (0 != ret) {
+ return -EINVAL;
+ }
+
+ ret = mali_pp_scheduler_set_perf_level(val, MALI_TRUE); /* override even if core scaling is disabled */
+ if (ret) {
+ return ret;
+ }
+
+ *offp += count;
+ return count;
+}
+
+static ssize_t pp_num_cores_enabled_read(struct file *filp, char __user *buf, size_t count, loff_t *offp)
+{
+ int r;
+ char buffer[64];
+
+ r = sprintf(buffer, "%u\n", mali_pp_scheduler_get_num_cores_enabled());
+
+ return simple_read_from_buffer(buf, count, offp, buffer, r);
+}
+
+static const struct file_operations pp_num_cores_enabled_fops = {
+ .owner = THIS_MODULE,
+ .write = pp_num_cores_enabled_write,
+ .read = pp_num_cores_enabled_read,
+ .llseek = default_llseek,
+};
+
+static ssize_t pp_num_cores_total_read(struct file *filp, char __user *buf, size_t count, loff_t *offp)
+{
+ int r;
+ char buffer[64];
+
+ r = sprintf(buffer, "%u\n", mali_pp_scheduler_get_num_cores_total());
+
+ return simple_read_from_buffer(buf, count, offp, buffer, r);
+}
+
+static const struct file_operations pp_num_cores_total_fops = {
+ .owner = THIS_MODULE,
+ .read = pp_num_cores_total_read,
+};
+
+static ssize_t pp_core_scaling_enabled_write(struct file *filp, const char __user *buf, size_t count, loff_t *offp)
+{
+ int ret;
+ char buffer[32];
+ unsigned long val;
+
+ if (count >= sizeof(buffer)) {
+ return -ENOMEM;
+ }
+
+ if (copy_from_user(&buffer[0], buf, count)) {
+ return -EFAULT;
+ }
+ buffer[count] = '\0';
+
+ ret = strict_strtoul(&buffer[0], 10, &val);
+ if (0 != ret) {
+ return -EINVAL;
+ }
+
+ switch (val) {
+ case 1:
+ mali_pp_scheduler_core_scaling_enable();
+ break;
+ case 0:
+ mali_pp_scheduler_core_scaling_disable();
+ break;
+ default:
+ return -EINVAL;
+ break;
+ }
+
+ *offp += count;
+ return count;
+}
+
+static ssize_t pp_core_scaling_enabled_read(struct file *filp, char __user *buf, size_t count, loff_t *offp)
+{
+ return simple_read_from_buffer(buf, count, offp, mali_pp_scheduler_core_scaling_is_enabled() ? "1\n" : "0\n", 2);
+}
+static const struct file_operations pp_core_scaling_enabled_fops = {
+ .owner = THIS_MODULE,
+ .write = pp_core_scaling_enabled_write,
+ .read = pp_core_scaling_enabled_read,
+ .llseek = default_llseek,
+};
+
+static ssize_t version_read(struct file *filp, char __user *buf, size_t count, loff_t *offp)
+{
+ int r = 0;
+ char buffer[64];
+
+ switch (mali_kernel_core_get_product_id()) {
+ case _MALI_PRODUCT_ID_MALI200:
+ r = sprintf(buffer, "Mali-200\n");
+ break;
+ case _MALI_PRODUCT_ID_MALI300:
+ r = sprintf(buffer, "Mali-300\n");
+ break;
+ case _MALI_PRODUCT_ID_MALI400:
+ r = sprintf(buffer, "Mali-400 MP\n");
+ break;
+ case _MALI_PRODUCT_ID_MALI450:
+ r = sprintf(buffer, "Mali-450 MP\n");
+ break;
+ case _MALI_PRODUCT_ID_UNKNOWN:
+ return -EINVAL;
+ break;
+ };
+
+ return simple_read_from_buffer(buf, count, offp, buffer, r);
+}
+
+static const struct file_operations version_fops = {
+ .owner = THIS_MODULE,
+ .read = version_read,
+};
+
+int mali_sysfs_register(const char *mali_dev_name)
+{
+ mali_debugfs_dir = debugfs_create_dir(mali_dev_name, NULL);
+ if(ERR_PTR(-ENODEV) == mali_debugfs_dir) {
+ /* Debugfs not supported. */
+ mali_debugfs_dir = NULL;
+ } else {
+ if(NULL != mali_debugfs_dir) {
+ /* Debugfs directory created successfully; create files now */
+ struct dentry *mali_pmu_dir;
+ struct dentry *mali_power_dir;
+ struct dentry *mali_gp_dir;
+ struct dentry *mali_pp_dir;
+ struct dentry *mali_l2_dir;
+ struct dentry *mali_profiling_dir;
+
+ debugfs_create_file("version", 0400, mali_debugfs_dir, NULL, &version_fops);
+
+ mali_pmu_dir = debugfs_create_dir("pmu", mali_debugfs_dir);
+ if (NULL != mali_pmu_dir) {
+ debugfs_create_file("power_down", 0200, mali_pmu_dir, NULL, &pmu_power_down_fops);
+ debugfs_create_file("power_up", 0200, mali_pmu_dir, NULL, &pmu_power_up_fops);
+ }
+
+ mali_power_dir = debugfs_create_dir("power", mali_debugfs_dir);
+ if (mali_power_dir != NULL) {
+ debugfs_create_file("always_on", 0600, mali_power_dir, NULL, &power_always_on_fops);
+ debugfs_create_file("power_events", 0200, mali_power_dir, NULL, &power_power_events_fops);
+ }
+
+ mali_gp_dir = debugfs_create_dir("gp", mali_debugfs_dir);
+ if (mali_gp_dir != NULL) {
+ u32 num_groups;
+ int i;
+
+ num_groups = mali_group_get_glob_num_groups();
+ for (i = 0; i < num_groups; i++) {
+ struct mali_group *group = mali_group_get_glob_group(i);
+
+ struct mali_gp_core *gp_core = mali_group_get_gp_core(group);
+ if (NULL != gp_core) {
+ struct dentry *mali_gp_gpx_dir;
+ mali_gp_gpx_dir = debugfs_create_dir("gp0", mali_gp_dir);
+ if (NULL != mali_gp_gpx_dir) {
+ debugfs_create_file("base_addr", 0400, mali_gp_gpx_dir, &gp_core->hw_core, &hw_core_base_addr_fops);
+ debugfs_create_file("enabled", 0600, mali_gp_gpx_dir, group, &group_enabled_fops);
+ }
+ break; /* no need to look for any other GP cores */
+ }
+
+ }
+ }
+
+ mali_pp_dir = debugfs_create_dir("pp", mali_debugfs_dir);
+ if (mali_pp_dir != NULL) {
+ u32 num_groups;
+ int i;
+
+ debugfs_create_file("num_cores_total", 0400, mali_pp_dir, NULL, &pp_num_cores_total_fops);
+ debugfs_create_file("num_cores_enabled", 0600, mali_pp_dir, NULL, &pp_num_cores_enabled_fops);
+ debugfs_create_file("core_scaling_enabled", 0600, mali_pp_dir, NULL, &pp_core_scaling_enabled_fops);
+
+ num_groups = mali_group_get_glob_num_groups();
+ for (i = 0; i < num_groups; i++) {
+ struct mali_group *group = mali_group_get_glob_group(i);
+
+ struct mali_pp_core *pp_core = mali_group_get_pp_core(group);
+ if (NULL != pp_core) {
+ char buf[16];
+ struct dentry *mali_pp_ppx_dir;
+ _mali_osk_snprintf(buf, sizeof(buf), "pp%u", mali_pp_core_get_id(pp_core));
+ mali_pp_ppx_dir = debugfs_create_dir(buf, mali_pp_dir);
+ if (NULL != mali_pp_ppx_dir) {
+ debugfs_create_file("base_addr", 0400, mali_pp_ppx_dir, &pp_core->hw_core, &hw_core_base_addr_fops);
+ if (!mali_group_is_virtual(group)) {
+ debugfs_create_file("enabled", 0600, mali_pp_ppx_dir, group, &group_enabled_fops);
+ }
+ }
+ }
+ }
+ }
+
+ mali_l2_dir = debugfs_create_dir("l2", mali_debugfs_dir);
+ if (mali_l2_dir != NULL) {
+ struct dentry *mali_l2_all_dir;
+ u32 l2_id;
+ struct mali_l2_cache_core *l2_cache;
+
+ mali_l2_all_dir = debugfs_create_dir("all", mali_l2_dir);
+ if (mali_l2_all_dir != NULL) {
+ debugfs_create_file("counter_src0", 0200, mali_l2_all_dir, NULL, &l2_all_counter_src0_fops);
+ debugfs_create_file("counter_src1", 0200, mali_l2_all_dir, NULL, &l2_all_counter_src1_fops);
+ }
+
+ l2_id = 0;
+ l2_cache = mali_l2_cache_core_get_glob_l2_core(l2_id);
+ while (NULL != l2_cache) {
+ char buf[16];
+ struct dentry *mali_l2_l2x_dir;
+ _mali_osk_snprintf(buf, sizeof(buf), "l2%u", l2_id);
+ mali_l2_l2x_dir = debugfs_create_dir(buf, mali_l2_dir);
+ if (NULL != mali_l2_l2x_dir) {
+ debugfs_create_file("counter_src0", 0600, mali_l2_l2x_dir, l2_cache, &l2_l2x_counter_src0_fops);
+ debugfs_create_file("counter_src1", 0600, mali_l2_l2x_dir, l2_cache, &l2_l2x_counter_src1_fops);
+ debugfs_create_file("base_addr", 0400, mali_l2_l2x_dir, &l2_cache->hw_core, &hw_core_base_addr_fops);
+ }
+
+ /* try next L2 */
+ l2_id++;
+ l2_cache = mali_l2_cache_core_get_glob_l2_core(l2_id);
+ }
+ }
+
+ debugfs_create_file("memory_usage", 0400, mali_debugfs_dir, NULL, &memory_usage_fops);
+
+ debugfs_create_file("utilization_gp_pp", 0400, mali_debugfs_dir, NULL, &utilization_gp_pp_fops);
+ debugfs_create_file("utilization_gp", 0400, mali_debugfs_dir, NULL, &utilization_gp_fops);
+ debugfs_create_file("utilization_pp", 0400, mali_debugfs_dir, NULL, &utilization_pp_fops);
+
+ mali_profiling_dir = debugfs_create_dir("profiling", mali_debugfs_dir);
+ if (mali_profiling_dir != NULL) {
+ u32 max_sub_jobs;
+ int i;
+ struct dentry *mali_profiling_gp_dir;
+ struct dentry *mali_profiling_pp_dir;
+#if defined(CONFIG_MALI400_INTERNAL_PROFILING)
+ struct dentry *mali_profiling_proc_dir;
+#endif
+ /*
+ * Create directory where we can set GP HW counters.
+ */
+ mali_profiling_gp_dir = debugfs_create_dir("gp", mali_profiling_dir);
+ if (mali_profiling_gp_dir != NULL) {
+ debugfs_create_file("counter_src0", 0600, mali_profiling_gp_dir, (void*)PRIVATE_DATA_COUNTER_MAKE_GP(0), &profiling_counter_src_fops);
+ debugfs_create_file("counter_src1", 0600, mali_profiling_gp_dir, (void*)PRIVATE_DATA_COUNTER_MAKE_GP(1), &profiling_counter_src_fops);
+ }
+
+ /*
+ * Create directory where we can set PP HW counters.
+ * Possible override with specific HW counters for a particular sub job
+ * (Disable core scaling before using the override!)
+ */
+ mali_profiling_pp_dir = debugfs_create_dir("pp", mali_profiling_dir);
+ if (mali_profiling_pp_dir != NULL) {
+ debugfs_create_file("counter_src0", 0600, mali_profiling_pp_dir, (void*)PRIVATE_DATA_COUNTER_MAKE_PP(0), &profiling_counter_src_fops);
+ debugfs_create_file("counter_src1", 0600, mali_profiling_pp_dir, (void*)PRIVATE_DATA_COUNTER_MAKE_PP(1), &profiling_counter_src_fops);
+ }
+
+ max_sub_jobs = mali_pp_scheduler_get_num_cores_total();
+ for (i = 0; i < max_sub_jobs; i++) {
+ char buf[16];
+ struct dentry *mali_profiling_pp_x_dir;
+ _mali_osk_snprintf(buf, sizeof(buf), "%u", i);
+ mali_profiling_pp_x_dir = debugfs_create_dir(buf, mali_profiling_pp_dir);
+ if (NULL != mali_profiling_pp_x_dir) {
+ debugfs_create_file("counter_src0", 0600, mali_profiling_pp_x_dir, (void*)PRIVATE_DATA_COUNTER_MAKE_PP_SUB_JOB(0, i), &profiling_counter_src_fops);
+ debugfs_create_file("counter_src1", 0600, mali_profiling_pp_x_dir, (void*)PRIVATE_DATA_COUNTER_MAKE_PP_SUB_JOB(1, i), &profiling_counter_src_fops);
+ }
+ }
+
+#if defined(CONFIG_MALI400_INTERNAL_PROFILING)
+ mali_profiling_proc_dir = debugfs_create_dir("proc", mali_profiling_dir);
+ if (mali_profiling_proc_dir != NULL) {
+ struct dentry *mali_profiling_proc_default_dir = debugfs_create_dir("default", mali_profiling_proc_dir);
+ if (mali_profiling_proc_default_dir != NULL) {
+ debugfs_create_file("enable", 0600, mali_profiling_proc_default_dir, (void*)_MALI_UK_USER_SETTING_SW_EVENTS_ENABLE, &user_settings_fops);
+ }
+ }
+ debugfs_create_file("record", 0600, mali_profiling_dir, NULL, &profiling_record_fops);
+ debugfs_create_file("events", 0400, mali_profiling_dir, NULL, &profiling_events_fops);
+ debugfs_create_file("events_human_readable", 0400, mali_profiling_dir, NULL, &profiling_events_human_readable_fops);
+#endif
+ }
+
+#if MALI_STATE_TRACKING
+ debugfs_create_file("state_dump", 0400, mali_debugfs_dir, NULL, &mali_seq_internal_state_fops);
+#endif
+
+ if (mali_sysfs_user_settings_register()) {
+ /* Failed to create the debugfs entries for the user settings DB. */
+ MALI_DEBUG_PRINT(2, ("Failed to create user setting debugfs files. Ignoring...\n"));
+ }
+ }
+ }
+
+ /* Success! */
+ return 0;
+}
+
+int mali_sysfs_unregister(void)
+{
+ if(NULL != mali_debugfs_dir) {
+ debugfs_remove_recursive(mali_debugfs_dir);
+ }
+ return 0;
+}
+
+#else /* MALI_LICENSE_IS_GPL */
+
+/* Dummy implementations for non-GPL */
+
+int mali_sysfs_register(struct mali_dev *device, dev_t dev, const char *mali_dev_name)
+{
+ return 0;
+}
+
+int mali_sysfs_unregister(void)
+{
+ return 0;
+}
+
+#endif /* MALI_LICENSE_IS_GPL */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_KERNEL_SYSFS_H__
+#define __MALI_KERNEL_SYSFS_H__
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <linux/device.h>
+
+#define MALI_PROC_DIR "driver/mali"
+
+int mali_sysfs_register(const char *mali_dev_name);
+int mali_sysfs_unregister(void);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __MALI_KERNEL_LINUX_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#if !defined (MALI_LINUX_TRACE_H) || defined (TRACE_HEADER_MULTI_READ)
+#define MALI_LINUX_TRACE_H
+
+#include <linux/types.h>
+
+#include <linux/stringify.h>
+#include <linux/tracepoint.h>
+
+#undef TRACE_SYSTEM
+#define TRACE_SYSTEM mali
+#define TRACE_SYSTEM_STRING __stringfy(TRACE_SYSTEM)
+
+#define TRACE_INCLUDE_PATH .
+#define TRACE_INCLUDE_FILE mali_linux_trace
+
+/**
+ * Define the tracepoint used to communicate the status of a GPU. Called
+ * when a GPU turns on or turns off.
+ *
+ * @param event_id The type of the event. This parameter is a bitfield
+ * encoding the type of the event.
+ *
+ * @param d0 First data parameter.
+ * @param d1 Second data parameter.
+ * @param d2 Third data parameter.
+ * @param d3 Fourth data parameter.
+ * @param d4 Fifth data parameter.
+ */
+TRACE_EVENT(mali_timeline_event,
+
+ TP_PROTO(unsigned int event_id, unsigned int d0, unsigned int d1,
+ unsigned int d2, unsigned int d3, unsigned int d4),
+
+ TP_ARGS(event_id, d0, d1, d2, d3, d4),
+
+ TP_STRUCT__entry(
+ __field(unsigned int, event_id)
+ __field(unsigned int, d0)
+ __field(unsigned int, d1)
+ __field(unsigned int, d2)
+ __field(unsigned int, d3)
+ __field(unsigned int, d4)
+ ),
+
+ TP_fast_assign(
+ __entry->event_id = event_id;
+ __entry->d0 = d0;
+ __entry->d1 = d1;
+ __entry->d2 = d2;
+ __entry->d3 = d3;
+ __entry->d4 = d4;
+ ),
+
+ TP_printk("event=%d", __entry->event_id)
+ );
+
+/**
+ * Define a tracepoint used to regsiter the value of a hardware counter.
+ * Hardware counters belonging to the vertex or fragment processor are
+ * reported via this tracepoint each frame, whilst L2 cache hardware
+ * counters are reported continuously.
+ *
+ * @param counter_id The counter ID.
+ * @param value The value of the counter.
+ */
+TRACE_EVENT(mali_hw_counter,
+
+ TP_PROTO(unsigned int counter_id, unsigned int value),
+
+ TP_ARGS(counter_id, value),
+
+ TP_STRUCT__entry(
+ __field(unsigned int, counter_id)
+ __field(unsigned int, value)
+ ),
+
+ TP_fast_assign(
+ __entry->counter_id = counter_id;
+ ),
+
+ TP_printk("event %d = %d", __entry->counter_id, __entry->value)
+ );
+
+/**
+ * Define a tracepoint used to send a bundle of software counters.
+ *
+ * @param counters The bundle of counters.
+ */
+TRACE_EVENT(mali_sw_counters,
+
+ TP_PROTO(pid_t pid, pid_t tid, void * surface_id, unsigned int * counters),
+
+ TP_ARGS(pid, tid, surface_id, counters),
+
+ TP_STRUCT__entry(
+ __field(pid_t, pid)
+ __field(pid_t, tid)
+ __field(void *, surface_id)
+ __field(unsigned int *, counters)
+ ),
+
+ TP_fast_assign(
+ __entry->pid = pid;
+ __entry->tid = tid;
+ __entry->surface_id = surface_id;
+ __entry->counters = counters;
+ ),
+
+ TP_printk("counters were %s", __entry->counters == NULL? "NULL" : "not NULL")
+ );
+
+#endif /* MALI_LINUX_TRACE_H */
+
+/* This part must exist outside the header guard. */
+#include <trace/define_trace.h>
+
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include <linux/list.h>
+#include <linux/mm.h>
+#include <linux/mm_types.h>
+#include <linux/fs.h>
+#include <linux/dma-mapping.h>
+#include <linux/slab.h>
+#include <linux/version.h>
+#include <linux/platform_device.h>
+
+#include "mali_osk.h"
+#include "mali_osk_mali.h"
+#include "mali_kernel_linux.h"
+#include "mali_scheduler.h"
+#include "mali_kernel_descriptor_mapping.h"
+
+#include "mali_memory.h"
+#include "mali_memory_dma_buf.h"
+#include "mali_memory_os_alloc.h"
+#include "mali_memory_block_alloc.h"
+
+/* session->memory_lock must be held when calling this function */
+static void mali_mem_release(mali_mem_allocation *descriptor)
+{
+ MALI_DEBUG_ASSERT_POINTER(descriptor);
+ MALI_DEBUG_ASSERT_LOCK_HELD(descriptor->session->memory_lock);
+
+ MALI_DEBUG_ASSERT(MALI_MEM_ALLOCATION_VALID_MAGIC == descriptor->magic);
+
+ switch (descriptor->type) {
+ case MALI_MEM_OS:
+ mali_mem_os_release(descriptor);
+ break;
+ case MALI_MEM_DMA_BUF:
+#if defined(CONFIG_DMA_SHARED_BUFFER)
+ mali_mem_dma_buf_release(descriptor);
+#endif
+ break;
+ case MALI_MEM_UMP:
+#if defined(CONFIG_MALI400_UMP)
+ mali_mem_ump_release(descriptor);
+#endif
+ break;
+ case MALI_MEM_EXTERNAL:
+ mali_mem_external_release(descriptor);
+ break;
+ case MALI_MEM_BLOCK:
+ mali_mem_block_release(descriptor);
+ break;
+ }
+}
+
+static void mali_mem_vma_open(struct vm_area_struct * vma)
+{
+ mali_mem_allocation *descriptor = (mali_mem_allocation*)vma->vm_private_data;
+ MALI_DEBUG_PRINT(4, ("Open called on vma %p\n", vma));
+
+ descriptor->cpu_mapping.ref++;
+
+ return;
+}
+
+static void mali_mem_vma_close(struct vm_area_struct *vma)
+{
+ mali_mem_allocation *descriptor;
+ struct mali_session_data *session;
+ mali_mem_virt_cpu_mapping *mapping;
+
+ MALI_DEBUG_PRINT(3, ("Close called on vma %p\n", vma));
+
+ descriptor = (mali_mem_allocation*)vma->vm_private_data;
+ BUG_ON(!descriptor);
+
+ MALI_DEBUG_ASSERT(MALI_MEM_ALLOCATION_VALID_MAGIC == descriptor->magic);
+
+ mapping = &descriptor->cpu_mapping;
+ BUG_ON(0 == mapping->ref);
+
+ mapping->ref--;
+ if (0 != mapping->ref) {
+ MALI_DEBUG_PRINT(3, ("Ignoring this close, %d references still exists\n", mapping->ref));
+ return;
+ }
+
+ session = descriptor->session;
+
+ mali_descriptor_mapping_free(session->descriptor_mapping, descriptor->id);
+
+ _mali_osk_mutex_wait(session->memory_lock);
+ mali_mem_release(descriptor);
+ _mali_osk_mutex_signal(session->memory_lock);
+
+ mali_mem_descriptor_destroy(descriptor);
+}
+
+static int mali_kernel_memory_cpu_page_fault_handler(struct vm_area_struct *vma, struct vm_fault *vmf)
+{
+ void __user * address;
+ mali_mem_allocation *descriptor;
+
+ address = vmf->virtual_address;
+ descriptor = (mali_mem_allocation *)vma->vm_private_data;
+
+ MALI_DEBUG_ASSERT(MALI_MEM_ALLOCATION_VALID_MAGIC == descriptor->magic);
+
+ /*
+ * We always fail the call since all memory is pre-faulted when assigned to the process.
+ * Only the Mali cores can use page faults to extend buffers.
+ */
+
+ MALI_DEBUG_PRINT(1, ("Page-fault in Mali memory region caused by the CPU.\n"));
+ MALI_DEBUG_PRINT(1, ("Tried to access %p (process local virtual address) which is not currently mapped to any Mali memory.\n", (void*)address));
+
+ MALI_IGNORE(address);
+ MALI_IGNORE(descriptor);
+
+ return VM_FAULT_SIGBUS;
+}
+
+struct vm_operations_struct mali_kernel_vm_ops = {
+ .open = mali_mem_vma_open,
+ .close = mali_mem_vma_close,
+ .fault = mali_kernel_memory_cpu_page_fault_handler
+};
+
+/** @note munmap handler is done by vma close handler */
+int mali_mmap(struct file *filp, struct vm_area_struct *vma)
+{
+ struct mali_session_data *session;
+ mali_mem_allocation *descriptor;
+ u32 size = vma->vm_end - vma->vm_start;
+ u32 mali_addr = vma->vm_pgoff << PAGE_SHIFT;
+
+ session = (struct mali_session_data *)filp->private_data;
+ if (NULL == session) {
+ MALI_PRINT_ERROR(("mmap called without any session data available\n"));
+ return -EFAULT;
+ }
+
+ MALI_DEBUG_PRINT(4, ("MMap() handler: start=0x%08X, phys=0x%08X, size=0x%08X vma->flags 0x%08x\n",
+ (unsigned int)vma->vm_start, (unsigned int)(vma->vm_pgoff << PAGE_SHIFT),
+ (unsigned int)(vma->vm_end - vma->vm_start), vma->vm_flags));
+
+ /* Set some bits which indicate that, the memory is IO memory, meaning
+ * that no paging is to be performed and the memory should not be
+ * included in crash dumps. And that the memory is reserved, meaning
+ * that it's present and can never be paged out (see also previous
+ * entry)
+ */
+ vma->vm_flags |= VM_IO;
+ vma->vm_flags |= VM_DONTCOPY;
+ vma->vm_flags |= VM_PFNMAP;
+#if LINUX_VERSION_CODE < KERNEL_VERSION(3,7,0)
+ vma->vm_flags |= VM_RESERVED;
+#else
+ vma->vm_flags |= VM_DONTDUMP;
+ vma->vm_flags |= VM_DONTEXPAND;
+#endif
+
+ vma->vm_page_prot = pgprot_writecombine(vma->vm_page_prot);
+ vma->vm_ops = &mali_kernel_vm_ops; /* Operations used on any memory system */
+
+ descriptor = mali_mem_block_alloc(mali_addr, size, vma, session);
+ if (NULL == descriptor) {
+ descriptor = mali_mem_os_alloc(mali_addr, size, vma, session);
+ if (NULL == descriptor) {
+ MALI_DEBUG_PRINT(3, ("MMAP failed\n"));
+ return -ENOMEM;
+ }
+ }
+
+ MALI_DEBUG_ASSERT(MALI_MEM_ALLOCATION_VALID_MAGIC == descriptor->magic);
+
+ vma->vm_private_data = (void*)descriptor;
+
+ /* Put on descriptor map */
+ if (_MALI_OSK_ERR_OK != mali_descriptor_mapping_allocate_mapping(session->descriptor_mapping, descriptor, &descriptor->id)) {
+ _mali_osk_mutex_wait(session->memory_lock);
+ mali_mem_os_release(descriptor);
+ _mali_osk_mutex_signal(session->memory_lock);
+ return -EFAULT;
+ }
+
+ return 0;
+}
+
+
+/* Prepare memory descriptor */
+mali_mem_allocation *mali_mem_descriptor_create(struct mali_session_data *session, mali_mem_type type)
+{
+ mali_mem_allocation *descriptor;
+
+ descriptor = (mali_mem_allocation*)kzalloc(sizeof(mali_mem_allocation), GFP_KERNEL);
+ if (NULL == descriptor) {
+ MALI_DEBUG_PRINT(3,("mali_ukk_mem_mmap: descriptor was NULL\n"));
+ return NULL;
+ }
+
+ MALI_DEBUG_CODE(descriptor->magic = MALI_MEM_ALLOCATION_VALID_MAGIC);
+
+ descriptor->flags = 0;
+ descriptor->type = type;
+ descriptor->session = session;
+
+ return descriptor;
+}
+
+void mali_mem_descriptor_destroy(mali_mem_allocation *descriptor)
+{
+ MALI_DEBUG_ASSERT(MALI_MEM_ALLOCATION_VALID_MAGIC == descriptor->magic);
+ MALI_DEBUG_CODE(descriptor->magic = MALI_MEM_ALLOCATION_FREED_MAGIC);
+
+ kfree(descriptor);
+}
+
+_mali_osk_errcode_t mali_mem_mali_map_prepare(mali_mem_allocation *descriptor)
+{
+ u32 size = descriptor->size;
+ struct mali_session_data *session = descriptor->session;
+
+ MALI_DEBUG_ASSERT(MALI_MEM_ALLOCATION_VALID_MAGIC == descriptor->magic);
+
+ /* Map dma-buf into this session's page tables */
+
+ if (descriptor->flags & MALI_MEM_FLAG_MALI_GUARD_PAGE) {
+ size += MALI_MMU_PAGE_SIZE;
+ }
+
+ return mali_mmu_pagedir_map(session->page_directory, descriptor->mali_mapping.addr, size);
+}
+
+void mali_mem_mali_map_free(mali_mem_allocation *descriptor)
+{
+ u32 size = descriptor->size;
+ struct mali_session_data *session = descriptor->session;
+
+ MALI_DEBUG_ASSERT(MALI_MEM_ALLOCATION_VALID_MAGIC == descriptor->magic);
+
+ if (descriptor->flags & MALI_MEM_FLAG_MALI_GUARD_PAGE) {
+ size += MALI_MMU_PAGE_SIZE;
+ }
+
+ /* Umap and flush L2 */
+ mali_mmu_pagedir_unmap(session->page_directory, descriptor->mali_mapping.addr, descriptor->size);
+
+ mali_scheduler_zap_all_active(session);
+}
+
+u32 _mali_ukk_report_memory_usage(void)
+{
+ u32 sum = 0;
+
+ sum += mali_mem_block_allocator_stat();
+ sum += mali_mem_os_stat();
+
+ return sum;
+}
+
+/**
+ * Per-session memory descriptor mapping table sizes
+ */
+#define MALI_MEM_DESCRIPTORS_INIT 64
+#define MALI_MEM_DESCRIPTORS_MAX 65536
+
+_mali_osk_errcode_t mali_memory_session_begin(struct mali_session_data * session_data)
+{
+ MALI_DEBUG_PRINT(5, ("Memory session begin\n"));
+
+ /* Create descriptor mapping table */
+ session_data->descriptor_mapping = mali_descriptor_mapping_create(MALI_MEM_DESCRIPTORS_INIT, MALI_MEM_DESCRIPTORS_MAX);
+
+ if (NULL == session_data->descriptor_mapping) {
+ MALI_ERROR(_MALI_OSK_ERR_NOMEM);
+ }
+
+ session_data->memory_lock = _mali_osk_mutex_init(_MALI_OSK_LOCKFLAG_ORDERED,
+ _MALI_OSK_LOCK_ORDER_MEM_SESSION);
+
+ if (NULL == session_data->memory_lock) {
+ mali_descriptor_mapping_destroy(session_data->descriptor_mapping);
+ _mali_osk_free(session_data);
+ MALI_ERROR(_MALI_OSK_ERR_FAULT);
+ }
+
+ MALI_DEBUG_PRINT(5, ("MMU session begin: success\n"));
+ MALI_SUCCESS;
+}
+
+/** @brief Callback function that releases memory
+ *
+ * session->memory_lock must be held when calling this function.
+ */
+static void descriptor_table_cleanup_callback(int descriptor_id, void* map_target)
+{
+ mali_mem_allocation *descriptor;
+
+ descriptor = (mali_mem_allocation*)map_target;
+
+ MALI_DEBUG_ASSERT_LOCK_HELD(descriptor->session->memory_lock);
+
+ MALI_DEBUG_PRINT(3, ("Cleanup of descriptor %d mapping to 0x%x in descriptor table\n", descriptor_id, map_target));
+ MALI_DEBUG_ASSERT(descriptor);
+
+ mali_mem_release(descriptor);
+ mali_mem_descriptor_destroy(descriptor);
+}
+
+void mali_memory_session_end(struct mali_session_data *session)
+{
+ MALI_DEBUG_PRINT(3, ("MMU session end\n"));
+
+ if (NULL == session) {
+ MALI_DEBUG_PRINT(1, ("No session data found during session end\n"));
+ return;
+ }
+
+ /* Lock the session so we can modify the memory list */
+ _mali_osk_mutex_wait(session->memory_lock);
+
+ /* Free all allocations still in the descriptor map, and terminate the map */
+ if (NULL != session->descriptor_mapping) {
+ mali_descriptor_mapping_call_for_each(session->descriptor_mapping, descriptor_table_cleanup_callback);
+ mali_descriptor_mapping_destroy(session->descriptor_mapping);
+ session->descriptor_mapping = NULL;
+ }
+
+ _mali_osk_mutex_signal(session->memory_lock);
+
+ /* Free the lock */
+ _mali_osk_mutex_term(session->memory_lock);
+
+ return;
+}
+
+_mali_osk_errcode_t mali_memory_initialize(void)
+{
+ return mali_mem_os_init();
+}
+
+void mali_memory_terminate(void)
+{
+ mali_mem_os_term();
+ mali_mem_block_allocator_destroy(NULL);
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_MEMORY_H__
+#define __MALI_MEMORY_H__
+
+#include "mali_osk.h"
+#include "mali_session.h"
+
+#include <linux/list.h>
+#include <linux/mm.h>
+
+#include "mali_memory_types.h"
+#include "mali_memory_os_alloc.h"
+
+_mali_osk_errcode_t mali_memory_initialize(void);
+void mali_memory_terminate(void);
+
+/** @brief Allocate a page table page
+ *
+ * Allocate a page for use as a page directory or page table. The page is
+ * mapped into kernel space.
+ *
+ * @return _MALI_OSK_ERR_OK on success, otherwise an error code
+ * @param table_page GPU pointer to the allocated page
+ * @param mapping CPU pointer to the mapping of the allocated page
+ */
+MALI_STATIC_INLINE _mali_osk_errcode_t mali_mmu_get_table_page(u32 *table_page, mali_io_address *mapping)
+{
+ return mali_mem_os_get_table_page(table_page, mapping);
+}
+
+/** @brief Release a page table page
+ *
+ * Release a page table page allocated through \a mali_mmu_get_table_page
+ *
+ * @param pa the GPU address of the page to release
+ */
+MALI_STATIC_INLINE void mali_mmu_release_table_page(u32 phys, void *virt)
+{
+ mali_mem_os_release_table_page(phys, virt);
+}
+
+/** @brief mmap function
+ *
+ * mmap syscalls on the Mali device node will end up here.
+ *
+ * This function allocates Mali memory and maps it on CPU and Mali.
+ */
+int mali_mmap(struct file *filp, struct vm_area_struct *vma);
+
+/** @brief Allocate and initialize a Mali memory descriptor
+ *
+ * @param session Pointer to the session allocating the descriptor
+ * @param type Type of memory the descriptor will represent
+ */
+mali_mem_allocation *mali_mem_descriptor_create(struct mali_session_data *session, mali_mem_type type);
+
+/** @brief Destroy a Mali memory descriptor
+ *
+ * This function will only free the descriptor itself, and not the memory it
+ * represents.
+ *
+ * @param descriptor Pointer to the descriptor to destroy
+ */
+void mali_mem_descriptor_destroy(mali_mem_allocation *descriptor);
+
+/** @brief Start a new memory session
+ *
+ * Called when a process opens the Mali device node.
+ *
+ * @param session Pointer to session to initialize
+ */
+_mali_osk_errcode_t mali_memory_session_begin(struct mali_session_data *session);
+
+/** @brief Close a memory session
+ *
+ * Called when a process closes the Mali device node.
+ *
+ * Memory allocated by the session will be freed
+ *
+ * @param session Pointer to the session to terminate
+ */
+void mali_memory_session_end(struct mali_session_data *session);
+
+/** @brief Prepare Mali page tables for mapping
+ *
+ * This function will prepare the Mali page tables for mapping the memory
+ * described by \a descriptor.
+ *
+ * Page tables will be reference counted and allocated, if not yet present.
+ *
+ * @param descriptor Pointer to the memory descriptor to the mapping
+ */
+_mali_osk_errcode_t mali_mem_mali_map_prepare(mali_mem_allocation *descriptor);
+
+/** @brief Free Mali page tables for mapping
+ *
+ * This function will unmap pages from Mali memory and free the page tables
+ * that are now unused.
+ *
+ * The updated pages in the Mali L2 cache will be invalidated, and the MMU TLBs will be zapped if necessary.
+ *
+ * @param descriptor Pointer to the memory descriptor to unmap
+ */
+void mali_mem_mali_map_free(mali_mem_allocation *descriptor);
+
+/** @brief Parse resource and prepare the OS memory allocator
+ *
+ * @param size Maximum size to allocate for Mali GPU.
+ * @return _MALI_OSK_ERR_OK on success, otherwise failure.
+ */
+_mali_osk_errcode_t mali_memory_core_resource_os_memory(u32 size);
+
+/** @brief Parse resource and prepare the dedicated memory allocator
+ *
+ * @param start Physical start address of dedicated Mali GPU memory.
+ * @param size Size of dedicated Mali GPU memory.
+ * @return _MALI_OSK_ERR_OK on success, otherwise failure.
+ */
+_mali_osk_errcode_t mali_memory_core_resource_dedicated_memory(u32 start, u32 size);
+
+
+void mali_mem_ump_release(mali_mem_allocation *descriptor);
+void mali_mem_external_release(mali_mem_allocation *descriptor);
+
+#endif /* __MALI_MEMORY_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+#include "mali_kernel_common.h"
+#include "mali_memory.h"
+#include "mali_memory_block_alloc.h"
+#include "mali_osk.h"
+#include <linux/mutex.h>
+#define MALI_BLOCK_SIZE (256UL * 1024UL) /* 256 kB, remember to keep the ()s */
+
+struct block_info {
+ struct block_info *next;
+};
+
+typedef struct block_info block_info;
+
+
+typedef struct block_allocator {
+ struct mutex mutex;
+ block_info *all_blocks;
+ block_info *first_free;
+ u32 base;
+ u32 cpu_usage_adjust;
+ u32 num_blocks;
+ u32 free_blocks;
+} block_allocator;
+
+static block_allocator *mali_mem_block_gobal_allocator = NULL;
+
+MALI_STATIC_INLINE u32 get_phys(block_allocator *info, block_info *block)
+{
+ return info->base + ((block - info->all_blocks) * MALI_BLOCK_SIZE);
+}
+
+mali_mem_allocator *mali_mem_block_allocator_create(u32 base_address, u32 cpu_usage_adjust, u32 size)
+{
+ block_allocator *info;
+ u32 usable_size;
+ u32 num_blocks;
+
+ usable_size = size & ~(MALI_BLOCK_SIZE - 1);
+ MALI_DEBUG_PRINT(3, ("Mali block allocator create for region starting at 0x%08X length 0x%08X\n", base_address, size));
+ MALI_DEBUG_PRINT(4, ("%d usable bytes\n", usable_size));
+ num_blocks = usable_size / MALI_BLOCK_SIZE;
+ MALI_DEBUG_PRINT(4, ("which becomes %d blocks\n", num_blocks));
+
+ if (usable_size == 0) {
+ MALI_DEBUG_PRINT(1, ("Memory block of size %d is unusable\n", size));
+ return NULL;
+ }
+
+ info = _mali_osk_malloc(sizeof(block_allocator));
+ if (NULL != info) {
+ mutex_init(&info->mutex);
+ info->all_blocks = _mali_osk_malloc(sizeof(block_info) * num_blocks);
+ if (NULL != info->all_blocks) {
+ u32 i;
+ info->first_free = NULL;
+ info->num_blocks = num_blocks;
+ info->free_blocks = num_blocks;
+
+ info->base = base_address;
+ info->cpu_usage_adjust = cpu_usage_adjust;
+
+ for ( i = 0; i < num_blocks; i++) {
+ info->all_blocks[i].next = info->first_free;
+ info->first_free = &info->all_blocks[i];
+ }
+
+ return (mali_mem_allocator *)info;
+ }
+ _mali_osk_free(info);
+ }
+
+ return NULL;
+}
+
+void mali_mem_block_allocator_destroy(mali_mem_allocator *allocator)
+{
+ block_allocator *info = (block_allocator*)allocator;
+
+ info = mali_mem_block_gobal_allocator;
+ if (NULL == info) return;
+
+ MALI_DEBUG_ASSERT_POINTER(info);
+
+ _mali_osk_free(info->all_blocks);
+ _mali_osk_free(info);
+}
+
+static void mali_mem_block_mali_map(mali_mem_allocation *descriptor, u32 phys, u32 virt, u32 size)
+{
+ struct mali_page_directory *pagedir = descriptor->session->page_directory;
+ u32 prop = descriptor->mali_mapping.properties;
+ u32 offset = 0;
+
+ while (size) {
+ mali_mmu_pagedir_update(pagedir, virt + offset, phys + offset, MALI_MMU_PAGE_SIZE, prop);
+
+ size -= MALI_MMU_PAGE_SIZE;
+ offset += MALI_MMU_PAGE_SIZE;
+ }
+}
+
+static int mali_mem_block_cpu_map(mali_mem_allocation *descriptor, struct vm_area_struct *vma, u32 mali_phys, u32 mapping_offset, u32 size, u32 cpu_usage_adjust)
+{
+ u32 virt = vma->vm_start + mapping_offset;
+ u32 cpu_phys = mali_phys + cpu_usage_adjust;
+ u32 offset = 0;
+ int ret;
+
+ while (size) {
+ ret = vm_insert_pfn(vma, virt + offset, __phys_to_pfn(cpu_phys + offset));
+
+ if (unlikely(ret)) {
+ MALI_DEBUG_PRINT(1, ("Block allocator: Failed to insert pfn into vma\n"));
+ return 1;
+ }
+
+ size -= MALI_MMU_PAGE_SIZE;
+ offset += MALI_MMU_PAGE_SIZE;
+ }
+
+ return 0;
+}
+
+mali_mem_allocation *mali_mem_block_alloc(u32 mali_addr, u32 size, struct vm_area_struct *vma, struct mali_session_data *session)
+{
+ _mali_osk_errcode_t err;
+ mali_mem_allocation *descriptor;
+ block_allocator *info;
+ u32 left;
+ block_info *last_allocated = NULL;
+ block_allocator_allocation *ret_allocation;
+ u32 offset = 0;
+
+ size = ALIGN(size, MALI_BLOCK_SIZE);
+
+ info = mali_mem_block_gobal_allocator;
+ if (NULL == info) return NULL;
+
+ left = size;
+ MALI_DEBUG_ASSERT(0 != left);
+
+ descriptor = mali_mem_descriptor_create(session, MALI_MEM_BLOCK);
+ if (NULL == descriptor) {
+ return NULL;
+ }
+
+ descriptor->mali_mapping.addr = mali_addr;
+ descriptor->size = size;
+ descriptor->cpu_mapping.addr = (void __user*)vma->vm_start;
+ descriptor->cpu_mapping.ref = 1;
+
+ if (VM_SHARED == (VM_SHARED & vma->vm_flags)) {
+ descriptor->mali_mapping.properties = MALI_MMU_FLAGS_DEFAULT;
+ } else {
+ /* Cached Mali memory mapping */
+ descriptor->mali_mapping.properties = MALI_MMU_FLAGS_FORCE_GP_READ_ALLOCATE;
+ vma->vm_flags |= VM_SHARED;
+ }
+
+ ret_allocation = &descriptor->block_mem.mem;
+
+ ret_allocation->mapping_length = 0;
+
+ _mali_osk_mutex_wait(session->memory_lock);
+ mutex_lock(&info->mutex);
+
+ if (left > (info->free_blocks * MALI_BLOCK_SIZE)) {
+ MALI_DEBUG_PRINT(2, ("Mali block allocator: not enough free blocks to service allocation (%u)\n", left));
+ mutex_unlock(&info->mutex);
+ _mali_osk_mutex_signal(session->memory_lock);
+ mali_mem_descriptor_destroy(descriptor);
+ return NULL;
+ }
+
+ err = mali_mem_mali_map_prepare(descriptor);
+ if (_MALI_OSK_ERR_OK != err) {
+ mutex_unlock(&info->mutex);
+ _mali_osk_mutex_signal(session->memory_lock);
+ mali_mem_descriptor_destroy(descriptor);
+ return NULL;
+ }
+
+ while ((left > 0) && (info->first_free)) {
+ block_info *block;
+ u32 phys_addr;
+ u32 current_mapping_size;
+
+ block = info->first_free;
+ info->first_free = info->first_free->next;
+ block->next = last_allocated;
+ last_allocated = block;
+
+ phys_addr = get_phys(info, block);
+
+ if (MALI_BLOCK_SIZE < left) {
+ current_mapping_size = MALI_BLOCK_SIZE;
+ } else {
+ current_mapping_size = left;
+ }
+
+ mali_mem_block_mali_map(descriptor, phys_addr, mali_addr + offset, current_mapping_size);
+ if (mali_mem_block_cpu_map(descriptor, vma, phys_addr, offset, current_mapping_size, info->cpu_usage_adjust)) {
+ /* release all memory back to the pool */
+ while (last_allocated) {
+ /* This relinks every block we've just allocated back into the free-list */
+ block = last_allocated->next;
+ last_allocated->next = info->first_free;
+ info->first_free = last_allocated;
+ last_allocated = block;
+ }
+
+ mutex_unlock(&info->mutex);
+ _mali_osk_mutex_signal(session->memory_lock);
+
+ mali_mem_mali_map_free(descriptor);
+ mali_mem_descriptor_destroy(descriptor);
+
+ return NULL;
+ }
+
+ left -= current_mapping_size;
+ offset += current_mapping_size;
+ ret_allocation->mapping_length += current_mapping_size;
+
+ --info->free_blocks;
+ }
+
+ mutex_unlock(&info->mutex);
+ _mali_osk_mutex_signal(session->memory_lock);
+
+ MALI_DEBUG_ASSERT(0 == left);
+
+ /* Record all the information about this allocation */
+ ret_allocation->last_allocated = last_allocated;
+ ret_allocation->info = info;
+
+ return descriptor;
+}
+
+void mali_mem_block_release(mali_mem_allocation *descriptor)
+{
+ block_allocator *info = descriptor->block_mem.mem.info;
+ block_info *block, *next;
+ block_allocator_allocation *allocation = &descriptor->block_mem.mem;
+
+ MALI_DEBUG_ASSERT(MALI_MEM_BLOCK == descriptor->type);
+
+ block = allocation->last_allocated;
+
+ MALI_DEBUG_ASSERT_POINTER(block);
+
+ /* unmap */
+ mali_mem_mali_map_free(descriptor);
+
+ mutex_lock(&info->mutex);
+
+ while (block) {
+ MALI_DEBUG_ASSERT(!((block < info->all_blocks) || (block > (info->all_blocks + info->num_blocks))));
+
+ next = block->next;
+
+ /* relink into free-list */
+ block->next = info->first_free;
+ info->first_free = block;
+
+ /* advance the loop */
+ block = next;
+
+ ++info->free_blocks;
+ }
+
+ mutex_unlock(&info->mutex);
+}
+
+u32 mali_mem_block_allocator_stat(void)
+{
+ block_allocator *info = (block_allocator *)mali_mem_block_gobal_allocator;
+
+ if (NULL == info) return 0;
+
+ MALI_DEBUG_ASSERT_POINTER(info);
+
+ return (info->num_blocks - info->free_blocks) * MALI_BLOCK_SIZE;
+}
+
+_mali_osk_errcode_t mali_memory_core_resource_dedicated_memory(u32 start, u32 size)
+{
+ mali_mem_allocator *allocator;
+
+ /* Do the low level linux operation first */
+
+ /* Request ownership of the memory */
+ if (_MALI_OSK_ERR_OK != _mali_osk_mem_reqregion(start, size, "Dedicated Mali GPU memory")) {
+ MALI_DEBUG_PRINT(1, ("Failed to request memory region for frame buffer (0x%08X - 0x%08X)\n", start, start + size - 1));
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ /* Create generic block allocator object to handle it */
+ allocator = mali_mem_block_allocator_create(start, 0 /* cpu_usage_adjust */, size);
+
+ if (NULL == allocator) {
+ MALI_DEBUG_PRINT(1, ("Memory bank registration failed\n"));
+ _mali_osk_mem_unreqregion(start, size);
+ MALI_ERROR(_MALI_OSK_ERR_FAULT);
+ }
+
+ mali_mem_block_gobal_allocator = (block_allocator*)allocator;
+
+ return _MALI_OSK_ERR_OK;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2010, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_BLOCK_ALLOCATOR_H__
+#define __MALI_BLOCK_ALLOCATOR_H__
+
+#include "mali_session.h"
+#include "mali_memory.h"
+
+#include "mali_memory_types.h"
+
+typedef struct mali_mem_allocator mali_mem_allocator;
+
+mali_mem_allocator *mali_block_allocator_create(u32 base_address, u32 cpu_usage_adjust, u32 size);
+void mali_mem_block_allocator_destroy(mali_mem_allocator *allocator);
+
+mali_mem_allocation *mali_mem_block_alloc(u32 mali_addr, u32 size, struct vm_area_struct *vma, struct mali_session_data *session);
+void mali_mem_block_release(mali_mem_allocation *descriptor);
+
+u32 mali_mem_block_allocator_stat(void);
+
+#endif /* __MALI_BLOCK_ALLOCATOR_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include <linux/fs.h> /* file system operations */
+#include <asm/uaccess.h> /* user space access */
+#include <linux/dma-buf.h>
+#include <linux/scatterlist.h>
+#include <linux/rbtree.h>
+#include <linux/platform_device.h>
+#include <linux/wait.h>
+#include <linux/sched.h>
+#include <linux/mutex.h>
+
+#include "mali_ukk.h"
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_session.h"
+#include "mali_kernel_linux.h"
+
+#include "mali_memory.h"
+#include "mali_memory_dma_buf.h"
+
+#include "mali_pp_job.h"
+
+static void mali_dma_buf_unmap(struct mali_dma_buf_attachment *mem);
+
+struct mali_dma_buf_attachment {
+ struct dma_buf *buf;
+ struct dma_buf_attachment *attachment;
+ struct sg_table *sgt;
+ struct mali_session_data *session;
+ int map_ref;
+ struct mutex map_lock;
+ mali_bool is_mapped;
+ wait_queue_head_t wait_queue;
+};
+
+static void mali_dma_buf_release(struct mali_dma_buf_attachment *mem)
+{
+ MALI_DEBUG_PRINT(3, ("Mali DMA-buf: release attachment %p\n", mem));
+
+ MALI_DEBUG_ASSERT_POINTER(mem);
+ MALI_DEBUG_ASSERT_POINTER(mem->attachment);
+ MALI_DEBUG_ASSERT_POINTER(mem->buf);
+
+#if defined(CONFIG_MALI_DMA_BUF_MAP_ON_ATTACH)
+ /* We mapped implicitly on attach, so we need to unmap on release */
+ mali_dma_buf_unmap(mem);
+#endif
+
+ /* Wait for buffer to become unmapped */
+ wait_event(mem->wait_queue, !mem->is_mapped);
+ MALI_DEBUG_ASSERT(!mem->is_mapped);
+
+ dma_buf_detach(mem->buf, mem->attachment);
+ dma_buf_put(mem->buf);
+
+ _mali_osk_free(mem);
+}
+
+void mali_mem_dma_buf_release(mali_mem_allocation *descriptor)
+{
+ struct mali_dma_buf_attachment *mem = descriptor->dma_buf.attachment;
+
+ mali_dma_buf_release(mem);
+}
+
+/*
+ * Map DMA buf attachment \a mem into \a session at virtual address \a virt.
+ */
+static int mali_dma_buf_map(struct mali_dma_buf_attachment *mem, struct mali_session_data *session, u32 virt, u32 flags)
+{
+ struct mali_page_directory *pagedir;
+ struct scatterlist *sg;
+ int i;
+
+ MALI_DEBUG_ASSERT_POINTER(mem);
+ MALI_DEBUG_ASSERT_POINTER(session);
+ MALI_DEBUG_ASSERT(mem->session == session);
+
+ mutex_lock(&mem->map_lock);
+
+ mem->map_ref++;
+
+ MALI_DEBUG_PRINT(5, ("Mali DMA-buf: map attachment %p, new map_ref = %d\n", mem, mem->map_ref));
+
+ if (1 == mem->map_ref) {
+ /* First reference taken, so we need to map the dma buf */
+ MALI_DEBUG_ASSERT(!mem->is_mapped);
+
+ pagedir = mali_session_get_page_directory(session);
+ MALI_DEBUG_ASSERT_POINTER(pagedir);
+
+ mem->sgt = dma_buf_map_attachment(mem->attachment, DMA_BIDIRECTIONAL);
+ if (IS_ERR_OR_NULL(mem->sgt)) {
+ MALI_DEBUG_PRINT_ERROR(("Failed to map dma-buf attachment\n"));
+ return -EFAULT;
+ }
+
+ for_each_sg(mem->sgt->sgl, sg, mem->sgt->nents, i) {
+ u32 size = sg_dma_len(sg);
+ dma_addr_t phys = sg_dma_address(sg);
+
+ /* sg must be page aligned. */
+ MALI_DEBUG_ASSERT(0 == size % MALI_MMU_PAGE_SIZE);
+
+ mali_mmu_pagedir_update(pagedir, virt, phys, size, MALI_MMU_FLAGS_DEFAULT);
+
+ virt += size;
+ }
+
+ if (flags & MALI_MEM_FLAG_MALI_GUARD_PAGE) {
+ u32 guard_phys;
+ MALI_DEBUG_PRINT(7, ("Mapping in extra guard page\n"));
+
+ guard_phys = sg_dma_address(mem->sgt->sgl);
+ mali_mmu_pagedir_update(pagedir, virt, guard_phys, MALI_MMU_PAGE_SIZE, MALI_MMU_FLAGS_DEFAULT);
+ }
+
+ mem->is_mapped = MALI_TRUE;
+ mutex_unlock(&mem->map_lock);
+
+ /* Wake up any thread waiting for buffer to become mapped */
+ wake_up_all(&mem->wait_queue);
+ } else {
+ MALI_DEBUG_ASSERT(mem->is_mapped);
+ mutex_unlock(&mem->map_lock);
+ }
+
+ return 0;
+}
+
+static void mali_dma_buf_unmap(struct mali_dma_buf_attachment *mem)
+{
+ MALI_DEBUG_ASSERT_POINTER(mem);
+ MALI_DEBUG_ASSERT_POINTER(mem->attachment);
+ MALI_DEBUG_ASSERT_POINTER(mem->buf);
+
+ mutex_lock(&mem->map_lock);
+
+ mem->map_ref--;
+
+ MALI_DEBUG_PRINT(5, ("Mali DMA-buf: unmap attachment %p, new map_ref = %d\n", mem, mem->map_ref));
+
+ if (0 == mem->map_ref) {
+ dma_buf_unmap_attachment(mem->attachment, mem->sgt, DMA_BIDIRECTIONAL);
+
+ mem->is_mapped = MALI_FALSE;
+ }
+
+ mutex_unlock(&mem->map_lock);
+
+ /* Wake up any thread waiting for buffer to become unmapped */
+ wake_up_all(&mem->wait_queue);
+}
+
+#if !defined(CONFIG_MALI_DMA_BUF_MAP_ON_ATTACH)
+int mali_dma_buf_map_job(struct mali_pp_job *job)
+{
+ mali_mem_allocation *descriptor;
+ struct mali_dma_buf_attachment *mem;
+ _mali_osk_errcode_t err;
+ int i;
+ int ret = 0;
+
+ _mali_osk_mutex_wait(job->session->memory_lock);
+
+ for (i = 0; i < job->num_memory_cookies; i++) {
+ int cookie = job->memory_cookies[i];
+
+ if (0 == cookie) {
+ /* 0 is not a valid cookie */
+ MALI_DEBUG_ASSERT(NULL == job->dma_bufs[i]);
+ continue;
+ }
+
+ MALI_DEBUG_ASSERT(0 < cookie);
+
+ err = mali_descriptor_mapping_get(job->session->descriptor_mapping,
+ cookie, (void**)&descriptor);
+
+ if (_MALI_OSK_ERR_OK != err) {
+ MALI_DEBUG_PRINT_ERROR(("Mali DMA-buf: Failed to get descriptor for cookie %d\n", cookie));
+ ret = -EFAULT;
+ MALI_DEBUG_ASSERT(NULL == job->dma_bufs[i]);
+ continue;
+ }
+
+ if (MALI_MEM_DMA_BUF != descriptor->type) {
+ /* Not a DMA-buf */
+ MALI_DEBUG_ASSERT(NULL == job->dma_bufs[i]);
+ continue;
+ }
+
+ mem = descriptor->dma_buf.attachment;
+
+ MALI_DEBUG_ASSERT_POINTER(mem);
+ MALI_DEBUG_ASSERT(mem->session == job->session);
+
+ err = mali_dma_buf_map(mem, mem->session, descriptor->mali_mapping.addr, descriptor->flags);
+ if (0 != err) {
+ MALI_DEBUG_PRINT_ERROR(("Mali DMA-buf: Failed to map dma-buf for cookie %d at mali address %x\b",
+ cookie, descriptor->mali_mapping.addr));
+ ret = -EFAULT;
+ MALI_DEBUG_ASSERT(NULL == job->dma_bufs[i]);
+ continue;
+ }
+
+ /* Add mem to list of DMA-bufs mapped for this job */
+ job->dma_bufs[i] = mem;
+ }
+
+ _mali_osk_mutex_signal(job->session->memory_lock);
+
+ return ret;
+}
+
+void mali_dma_buf_unmap_job(struct mali_pp_job *job)
+{
+ int i;
+ for (i = 0; i < job->num_dma_bufs; i++) {
+ if (NULL == job->dma_bufs[i]) continue;
+
+ mali_dma_buf_unmap(job->dma_bufs[i]);
+ job->dma_bufs[i] = NULL;
+ }
+}
+#endif /* !CONFIG_MALI_DMA_BUF_MAP_ON_ATTACH */
+
+int mali_attach_dma_buf(struct mali_session_data *session, _mali_uk_attach_dma_buf_s __user *user_arg)
+{
+ struct dma_buf *buf;
+ struct mali_dma_buf_attachment *mem;
+ _mali_uk_attach_dma_buf_s args;
+ mali_mem_allocation *descriptor;
+ int md;
+ int fd;
+
+ /* Get call arguments from user space. copy_from_user returns how many bytes which where NOT copied */
+ if (0 != copy_from_user(&args, (void __user *)user_arg, sizeof(_mali_uk_attach_dma_buf_s))) {
+ return -EFAULT;
+ }
+
+ if (args.mali_address & ~PAGE_MASK) {
+ MALI_DEBUG_PRINT_ERROR(("Requested address (0x%08x) is not page aligned\n", args.mali_address));
+ return -EINVAL;
+ }
+
+ if (args.mali_address >= args.mali_address + args.size) {
+ MALI_DEBUG_PRINT_ERROR(("Requested address and size (0x%08x + 0x%08x) is too big\n", args.mali_address, args.size));
+ return -EINVAL;
+ }
+
+ fd = args.mem_fd;
+
+ buf = dma_buf_get(fd);
+ if (IS_ERR_OR_NULL(buf)) {
+ MALI_DEBUG_PRINT_ERROR(("Failed to get dma-buf from fd: %d\n", fd));
+ return PTR_RET(buf);
+ }
+
+ /* Currently, mapping of the full buffer are supported. */
+ if (args.size != buf->size) {
+ MALI_DEBUG_PRINT_ERROR(("dma-buf size doesn't match mapping size.\n"));
+ dma_buf_put(buf);
+ return -EINVAL;
+ }
+
+ mem = _mali_osk_calloc(1, sizeof(struct mali_dma_buf_attachment));
+ if (NULL == mem) {
+ MALI_DEBUG_PRINT_ERROR(("Failed to allocate dma-buf tracing struct\n"));
+ dma_buf_put(buf);
+ return -ENOMEM;
+ }
+
+ mem->buf = buf;
+ mem->session = session;
+ mem->map_ref = 0;
+ mutex_init(&mem->map_lock);
+ init_waitqueue_head(&mem->wait_queue);
+
+ mem->attachment = dma_buf_attach(mem->buf, &mali_platform_device->dev);
+ if (NULL == mem->attachment) {
+ MALI_DEBUG_PRINT_ERROR(("Failed to attach to dma-buf %d\n", fd));
+ dma_buf_put(mem->buf);
+ _mali_osk_free(mem);
+ return -EFAULT;
+ }
+
+ /* Set up Mali memory descriptor */
+ descriptor = mali_mem_descriptor_create(session, MALI_MEM_DMA_BUF);
+ if (NULL == descriptor) {
+ MALI_DEBUG_PRINT_ERROR(("Failed to allocate descriptor dma-buf %d\n", fd));
+ mali_dma_buf_release(mem);
+ return -ENOMEM;
+ }
+
+ descriptor->size = args.size;
+ descriptor->mali_mapping.addr = args.mali_address;
+
+ descriptor->dma_buf.attachment = mem;
+
+ descriptor->flags |= MALI_MEM_FLAG_DONT_CPU_MAP;
+ if (args.flags & _MALI_MAP_EXTERNAL_MAP_GUARD_PAGE) {
+ descriptor->flags = MALI_MEM_FLAG_MALI_GUARD_PAGE;
+ }
+
+ _mali_osk_mutex_wait(session->memory_lock);
+
+ /* Map dma-buf into this session's page tables */
+ if (_MALI_OSK_ERR_OK != mali_mem_mali_map_prepare(descriptor)) {
+ _mali_osk_mutex_signal(session->memory_lock);
+ MALI_DEBUG_PRINT_ERROR(("Failed to map dma-buf on Mali\n"));
+ mali_mem_descriptor_destroy(descriptor);
+ mali_dma_buf_release(mem);
+ return -ENOMEM;
+ }
+
+#if defined(CONFIG_MALI_DMA_BUF_MAP_ON_ATTACH)
+ /* Map memory into session's Mali virtual address space. */
+
+ if (0 != mali_dma_buf_map(mem, session, descriptor->mali_mapping.addr, descriptor->flags)) {
+ mali_mem_mali_map_free(descriptor);
+ _mali_osk_mutex_signal(session->memory_lock);
+
+ MALI_DEBUG_PRINT_ERROR(("Failed to map dma-buf %d into Mali address space\n", fd));
+ mali_mem_descriptor_destroy(descriptor);
+ mali_dma_buf_release(mem);
+ return -ENOMEM;
+ }
+
+#endif
+
+ _mali_osk_mutex_signal(session->memory_lock);
+
+ /* Get descriptor mapping for memory. */
+ if (_MALI_OSK_ERR_OK != mali_descriptor_mapping_allocate_mapping(session->descriptor_mapping, descriptor, &md)) {
+ _mali_osk_mutex_wait(session->memory_lock);
+ mali_mem_mali_map_free(descriptor);
+ _mali_osk_mutex_signal(session->memory_lock);
+
+ MALI_DEBUG_PRINT_ERROR(("Failed to create descriptor mapping for dma-buf %d\n", fd));
+ mali_mem_descriptor_destroy(descriptor);
+ mali_dma_buf_release(mem);
+ return -EFAULT;
+ }
+
+ /* Return stuff to user space */
+ if (0 != put_user(md, &user_arg->cookie)) {
+ _mali_osk_mutex_wait(session->memory_lock);
+ mali_mem_mali_map_free(descriptor);
+ _mali_osk_mutex_signal(session->memory_lock);
+
+ MALI_DEBUG_PRINT_ERROR(("Failed to return descriptor to user space for dma-buf %d\n", fd));
+ mali_descriptor_mapping_free(session->descriptor_mapping, md);
+ mali_dma_buf_release(mem);
+ return -EFAULT;
+ }
+
+ return 0;
+}
+
+int mali_release_dma_buf(struct mali_session_data *session, _mali_uk_release_dma_buf_s __user *user_arg)
+{
+ int ret = 0;
+ _mali_uk_release_dma_buf_s args;
+ mali_mem_allocation *descriptor;
+
+ /* get call arguments from user space. copy_from_user returns how many bytes which where NOT copied */
+ if ( 0 != copy_from_user(&args, (void __user *)user_arg, sizeof(_mali_uk_release_dma_buf_s)) ) {
+ return -EFAULT;
+ }
+
+ MALI_DEBUG_PRINT(3, ("Mali DMA-buf: release descriptor cookie %d\n", args.cookie));
+
+ _mali_osk_mutex_wait(session->memory_lock);
+
+ descriptor = mali_descriptor_mapping_free(session->descriptor_mapping, args.cookie);
+
+ if (NULL != descriptor) {
+ MALI_DEBUG_PRINT(3, ("Mali DMA-buf: Releasing dma-buf at mali address %x\n", descriptor->mali_mapping.addr));
+
+ mali_mem_mali_map_free(descriptor);
+
+ mali_dma_buf_release(descriptor->dma_buf.attachment);
+
+ mali_mem_descriptor_destroy(descriptor);
+ } else {
+ MALI_DEBUG_PRINT_ERROR(("Invalid memory descriptor %d used to release dma-buf\n", args.cookie));
+ ret = -EINVAL;
+ }
+
+ _mali_osk_mutex_signal(session->memory_lock);
+
+ /* Return the error that _mali_ukk_map_external_ump_mem produced */
+ return ret;
+}
+
+int mali_dma_buf_get_size(struct mali_session_data *session, _mali_uk_dma_buf_get_size_s __user *user_arg)
+{
+ _mali_uk_dma_buf_get_size_s args;
+ int fd;
+ struct dma_buf *buf;
+
+ /* get call arguments from user space. copy_from_user returns how many bytes which where NOT copied */
+ if ( 0 != copy_from_user(&args, (void __user *)user_arg, sizeof(_mali_uk_dma_buf_get_size_s)) ) {
+ return -EFAULT;
+ }
+
+ /* Do DMA-BUF stuff */
+ fd = args.mem_fd;
+
+ buf = dma_buf_get(fd);
+ if (IS_ERR_OR_NULL(buf)) {
+ MALI_DEBUG_PRINT_ERROR(("Failed to get dma-buf from fd: %d\n", fd));
+ return PTR_RET(buf);
+ }
+
+ if (0 != put_user(buf->size, &user_arg->size)) {
+ dma_buf_put(buf);
+ return -EFAULT;
+ }
+
+ dma_buf_put(buf);
+
+ return 0;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_MEMORY_DMA_BUF_H__
+#define __MALI_MEMORY_DMA_BUF_H__
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include "mali_osk.h"
+#include "mali_memory.h"
+
+struct mali_pp_job;
+
+struct mali_dma_buf_attachment;
+
+int mali_attach_dma_buf(struct mali_session_data *session, _mali_uk_attach_dma_buf_s __user *arg);
+int mali_release_dma_buf(struct mali_session_data *session, _mali_uk_release_dma_buf_s __user *arg);
+int mali_dma_buf_get_size(struct mali_session_data *session, _mali_uk_dma_buf_get_size_s __user *arg);
+
+void mali_mem_dma_buf_release(mali_mem_allocation *descriptor);
+
+#if !defined(CONFIG_MALI_DMA_BUF_MAP_ON_ATTACH)
+int mali_dma_buf_map_job(struct mali_pp_job *job);
+void mali_dma_buf_unmap_job(struct mali_pp_job *job);
+#endif
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __MALI_MEMORY_DMA_BUF_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_osk.h"
+#include "mali_memory.h"
+#include "mali_kernel_descriptor_mapping.h"
+#include "mali_mem_validation.h"
+#include "mali_uk_types.h"
+
+void mali_mem_external_release(mali_mem_allocation *descriptor)
+{
+ MALI_DEBUG_ASSERT(MALI_MEM_EXTERNAL == descriptor->type);
+
+ mali_mem_mali_map_free(descriptor);
+}
+
+_mali_osk_errcode_t _mali_ukk_map_external_mem(_mali_uk_map_external_mem_s *args)
+{
+ struct mali_session_data *session;
+ mali_mem_allocation * descriptor;
+ int md;
+ _mali_osk_errcode_t err;
+
+ MALI_DEBUG_ASSERT_POINTER(args);
+ MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS);
+
+ session = (struct mali_session_data *)args->ctx;
+ MALI_CHECK_NON_NULL(session, _MALI_OSK_ERR_INVALID_ARGS);
+
+ /* check arguments */
+ /* NULL might be a valid Mali address */
+ if (! args->size) MALI_ERROR(_MALI_OSK_ERR_INVALID_ARGS);
+
+ /* size must be a multiple of the system page size */
+ if (args->size % _MALI_OSK_MALI_PAGE_SIZE) MALI_ERROR(_MALI_OSK_ERR_INVALID_ARGS);
+
+ MALI_DEBUG_PRINT(3,
+ ("Requested to map physical memory 0x%x-0x%x into virtual memory 0x%x\n",
+ (void*)args->phys_addr,
+ (void*)(args->phys_addr + args->size -1),
+ (void*)args->mali_address)
+ );
+
+ /* Validate the mali physical range */
+ if (_MALI_OSK_ERR_OK != mali_mem_validation_check(args->phys_addr, args->size)) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ descriptor = mali_mem_descriptor_create(session, MALI_MEM_EXTERNAL);
+ if (NULL == descriptor) MALI_ERROR(_MALI_OSK_ERR_NOMEM);
+
+ descriptor->mali_mapping.addr = args->mali_address;
+ descriptor->size = args->size;
+
+ if (args->flags & _MALI_MAP_EXTERNAL_MAP_GUARD_PAGE) {
+ descriptor->flags = MALI_MEM_FLAG_MALI_GUARD_PAGE;
+ }
+
+ _mali_osk_mutex_wait(session->memory_lock);
+ {
+ u32 virt = descriptor->mali_mapping.addr;
+ u32 phys = args->phys_addr;
+ u32 size = args->size;
+
+ err = mali_mem_mali_map_prepare(descriptor);
+ if (_MALI_OSK_ERR_OK != err) {
+ _mali_osk_mutex_signal(session->memory_lock);
+ mali_mem_descriptor_destroy(descriptor);
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ mali_mmu_pagedir_update(session->page_directory, virt, phys, size, MALI_MMU_FLAGS_DEFAULT);
+
+ if (descriptor->flags & MALI_MEM_FLAG_MALI_GUARD_PAGE) {
+ mali_mmu_pagedir_update(session->page_directory, virt + size, phys, _MALI_OSK_MALI_PAGE_SIZE, MALI_MMU_FLAGS_DEFAULT);
+ }
+ }
+ _mali_osk_mutex_signal(session->memory_lock);
+
+ if (_MALI_OSK_ERR_OK != mali_descriptor_mapping_allocate_mapping(session->descriptor_mapping, descriptor, &md)) {
+ _mali_osk_mutex_wait(session->memory_lock);
+ mali_mem_external_release(descriptor);
+ _mali_osk_mutex_signal(session->memory_lock);
+ mali_mem_descriptor_destroy(descriptor);
+ MALI_ERROR(_MALI_OSK_ERR_FAULT);
+ }
+
+ args->cookie = md;
+
+ MALI_SUCCESS;
+}
+
+_mali_osk_errcode_t _mali_ukk_unmap_external_mem( _mali_uk_unmap_external_mem_s *args )
+{
+ mali_mem_allocation * descriptor;
+ void* old_value;
+ struct mali_session_data *session;
+
+ MALI_DEBUG_ASSERT_POINTER(args);
+ MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS);
+
+ session = (struct mali_session_data *)args->ctx;
+ MALI_CHECK_NON_NULL(session, _MALI_OSK_ERR_INVALID_ARGS);
+
+ if (_MALI_OSK_ERR_OK != mali_descriptor_mapping_get(session->descriptor_mapping, args->cookie, (void**)&descriptor)) {
+ MALI_DEBUG_PRINT(1, ("Invalid memory descriptor %d used to unmap external memory\n", args->cookie));
+ MALI_ERROR(_MALI_OSK_ERR_FAULT);
+ }
+
+ old_value = mali_descriptor_mapping_free(session->descriptor_mapping, args->cookie);
+
+ if (NULL != old_value) {
+ _mali_osk_mutex_wait(session->memory_lock);
+ mali_mem_external_release(descriptor);
+ _mali_osk_mutex_signal(session->memory_lock);
+ mali_mem_descriptor_destroy(descriptor);
+ }
+
+ MALI_SUCCESS;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include <linux/list.h>
+#include <linux/mm.h>
+#include <linux/mm_types.h>
+#include <linux/fs.h>
+#include <linux/dma-mapping.h>
+#include <linux/version.h>
+#include <linux/platform_device.h>
+#include <linux/workqueue.h>
+
+#include "mali_osk.h"
+#include "mali_memory.h"
+#include "mali_memory_os_alloc.h"
+#include "mali_kernel_linux.h"
+
+/* Minimum size of allocator page pool */
+#define MALI_OS_MEMORY_KERNEL_BUFFER_SIZE_IN_PAGES (MALI_OS_MEMORY_KERNEL_BUFFER_SIZE_IN_MB * 256)
+#define MALI_OS_MEMORY_POOL_TRIM_JIFFIES (10 * CONFIG_HZ) /* Default to 10s */
+
+#if LINUX_VERSION_CODE < KERNEL_VERSION(3,0,0)
+#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,35)
+static int mali_mem_os_shrink(int nr_to_scan, gfp_t gfp_mask);
+#else
+static int mali_mem_os_shrink(struct shrinker *shrinker, int nr_to_scan, gfp_t gfp_mask);
+#endif
+#else
+static int mali_mem_os_shrink(struct shrinker *shrinker, struct shrink_control *sc);
+#endif
+static void mali_mem_os_trim_pool(struct work_struct *work);
+
+static struct mali_mem_os_allocator {
+ spinlock_t pool_lock;
+ struct list_head pool_pages;
+ size_t pool_count;
+
+ atomic_t allocated_pages;
+ size_t allocation_limit;
+
+ struct shrinker shrinker;
+ struct delayed_work timed_shrinker;
+ struct workqueue_struct *wq;
+} mali_mem_os_allocator = {
+ .pool_lock = __SPIN_LOCK_UNLOCKED(pool_lock),
+ .pool_pages = LIST_HEAD_INIT(mali_mem_os_allocator.pool_pages),
+ .pool_count = 0,
+
+ .allocated_pages = ATOMIC_INIT(0),
+ .allocation_limit = 0,
+
+ .shrinker.shrink = mali_mem_os_shrink,
+ .shrinker.seeks = DEFAULT_SEEKS,
+#if LINUX_VERSION_CODE >= KERNEL_VERSION(3,7,0)
+ .timed_shrinker = __DELAYED_WORK_INITIALIZER(mali_mem_os_allocator.timed_shrinker, mali_mem_os_trim_pool, TIMER_DEFERRABLE),
+#elif LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,38)
+ .timed_shrinker = __DEFERRED_WORK_INITIALIZER(mali_mem_os_allocator.timed_shrinker, mali_mem_os_trim_pool),
+#else
+ .timed_shrinker = __DELAYED_WORK_INITIALIZER(mali_mem_os_allocator.timed_shrinker, mali_mem_os_trim_pool),
+#endif
+};
+
+static void mali_mem_os_free(mali_mem_allocation *descriptor)
+{
+ LIST_HEAD(pages);
+
+ MALI_DEBUG_ASSERT(MALI_MEM_OS == descriptor->type);
+
+ atomic_sub(descriptor->os_mem.count, &mali_mem_os_allocator.allocated_pages);
+
+ /* Put pages on pool. */
+ list_cut_position(&pages, &descriptor->os_mem.pages, descriptor->os_mem.pages.prev);
+
+ spin_lock(&mali_mem_os_allocator.pool_lock);
+
+ list_splice(&pages, &mali_mem_os_allocator.pool_pages);
+ mali_mem_os_allocator.pool_count += descriptor->os_mem.count;
+
+ spin_unlock(&mali_mem_os_allocator.pool_lock);
+
+ if (MALI_OS_MEMORY_KERNEL_BUFFER_SIZE_IN_PAGES < mali_mem_os_allocator.pool_count) {
+ MALI_DEBUG_PRINT(5, ("OS Mem: Starting pool trim timer %u\n", mali_mem_os_allocator.pool_count));
+ queue_delayed_work(mali_mem_os_allocator.wq, &mali_mem_os_allocator.timed_shrinker, MALI_OS_MEMORY_POOL_TRIM_JIFFIES);
+ }
+}
+
+static int mali_mem_os_alloc_pages(mali_mem_allocation *descriptor, u32 size)
+{
+ struct page *new_page, *tmp;
+ LIST_HEAD(pages);
+ size_t page_count = PAGE_ALIGN(size) / _MALI_OSK_MALI_PAGE_SIZE;
+ size_t remaining = page_count;
+ u32 i;
+
+ MALI_DEBUG_ASSERT_POINTER(descriptor);
+ MALI_DEBUG_ASSERT(MALI_MEM_OS == descriptor->type);
+
+ INIT_LIST_HEAD(&descriptor->os_mem.pages);
+ descriptor->os_mem.count = page_count;
+
+ /* Grab pages from pool. */
+ {
+ size_t pool_pages;
+ spin_lock(&mali_mem_os_allocator.pool_lock);
+ pool_pages = min(remaining, mali_mem_os_allocator.pool_count);
+ for (i = pool_pages; i > 0; i--) {
+ BUG_ON(list_empty(&mali_mem_os_allocator.pool_pages));
+ list_move(mali_mem_os_allocator.pool_pages.next, &pages);
+ }
+ mali_mem_os_allocator.pool_count -= pool_pages;
+ remaining -= pool_pages;
+ spin_unlock(&mali_mem_os_allocator.pool_lock);
+ }
+
+ /* Process pages from pool. */
+ i = 0;
+ list_for_each_entry_safe(new_page, tmp, &pages, lru) {
+ BUG_ON(NULL == new_page);
+
+ list_move_tail(&new_page->lru, &descriptor->os_mem.pages);
+ }
+
+ /* Allocate new pages, if needed. */
+ for (i = 0; i < remaining; i++) {
+ dma_addr_t dma_addr;
+
+ new_page = alloc_page(GFP_HIGHUSER | __GFP_ZERO | __GFP_REPEAT | __GFP_NOWARN | __GFP_COLD);
+
+ if (unlikely(NULL == new_page)) {
+ /* Calculate the number of pages actually allocated, and free them. */
+ descriptor->os_mem.count = (page_count - remaining) + i;
+ atomic_add(descriptor->os_mem.count, &mali_mem_os_allocator.allocated_pages);
+ mali_mem_os_free(descriptor);
+ return -ENOMEM;
+ }
+
+ /* Ensure page is flushed from CPU caches. */
+ dma_addr = dma_map_page(&mali_platform_device->dev, new_page,
+ 0, _MALI_OSK_MALI_PAGE_SIZE, DMA_TO_DEVICE);
+
+ /* Store page phys addr */
+ SetPagePrivate(new_page);
+ set_page_private(new_page, dma_addr);
+
+ list_add_tail(&new_page->lru, &descriptor->os_mem.pages);
+ }
+
+ atomic_add(page_count, &mali_mem_os_allocator.allocated_pages);
+
+ if (MALI_OS_MEMORY_KERNEL_BUFFER_SIZE_IN_PAGES > mali_mem_os_allocator.pool_count) {
+ MALI_DEBUG_PRINT(4, ("OS Mem: Stopping pool trim timer, only %u pages on pool\n", mali_mem_os_allocator.pool_count));
+ cancel_delayed_work(&mali_mem_os_allocator.timed_shrinker);
+ }
+
+ return 0;
+}
+
+static int mali_mem_os_mali_map(mali_mem_allocation *descriptor, struct mali_session_data *session)
+{
+ struct mali_page_directory *pagedir = session->page_directory;
+ struct page *page;
+ _mali_osk_errcode_t err;
+ u32 virt = descriptor->mali_mapping.addr;
+ u32 prop = descriptor->mali_mapping.properties;
+
+ MALI_DEBUG_ASSERT(MALI_MEM_OS == descriptor->type);
+
+ err = mali_mem_mali_map_prepare(descriptor);
+ if (_MALI_OSK_ERR_OK != err) {
+ return -ENOMEM;
+ }
+
+ list_for_each_entry(page, &descriptor->os_mem.pages, lru) {
+ u32 phys = page_private(page);
+ mali_mmu_pagedir_update(pagedir, virt, phys, MALI_MMU_PAGE_SIZE, prop);
+ virt += MALI_MMU_PAGE_SIZE;
+ }
+
+ return 0;
+}
+
+static void mali_mem_os_mali_unmap(struct mali_session_data *session, mali_mem_allocation *descriptor)
+{
+ mali_mem_mali_map_free(descriptor);
+}
+
+static int mali_mem_os_cpu_map(mali_mem_allocation *descriptor, struct vm_area_struct *vma)
+{
+ struct page *page;
+ int ret;
+ unsigned long addr = vma->vm_start;
+
+ list_for_each_entry(page, &descriptor->os_mem.pages, lru) {
+ /* We should use vm_insert_page, but it does a dcache
+ * flush which makes it way slower than remap_pfn_range or vm_insert_pfn.
+ ret = vm_insert_page(vma, addr, page);
+ */
+ ret = vm_insert_pfn(vma, addr, page_to_pfn(page));
+
+ if (unlikely(0 != ret)) {
+ return -EFAULT;
+ }
+ addr += _MALI_OSK_MALI_PAGE_SIZE;
+ }
+
+ return 0;
+}
+
+mali_mem_allocation *mali_mem_os_alloc(u32 mali_addr, u32 size, struct vm_area_struct *vma, struct mali_session_data *session)
+{
+ mali_mem_allocation *descriptor;
+ int err;
+
+ if (atomic_read(&mali_mem_os_allocator.allocated_pages) * _MALI_OSK_MALI_PAGE_SIZE + size > mali_mem_os_allocator.allocation_limit) {
+ MALI_DEBUG_PRINT(2, ("Mali Mem: Unable to allocate %u bytes. Currently allocated: %lu, max limit %lu\n",
+ size,
+ atomic_read(&mali_mem_os_allocator.allocated_pages) * _MALI_OSK_MALI_PAGE_SIZE,
+ mali_mem_os_allocator.allocation_limit));
+ return NULL;
+ }
+
+ descriptor = mali_mem_descriptor_create(session, MALI_MEM_OS);
+ if (NULL == descriptor) return NULL;
+
+ descriptor->mali_mapping.addr = mali_addr;
+ descriptor->size = size;
+ descriptor->cpu_mapping.addr = (void __user*)vma->vm_start;
+ descriptor->cpu_mapping.ref = 1;
+
+ if (VM_SHARED == (VM_SHARED & vma->vm_flags)) {
+ descriptor->mali_mapping.properties = MALI_MMU_FLAGS_DEFAULT;
+ } else {
+ /* Cached Mali memory mapping */
+ descriptor->mali_mapping.properties = MALI_MMU_FLAGS_FORCE_GP_READ_ALLOCATE;
+ vma->vm_flags |= VM_SHARED;
+ }
+
+ err = mali_mem_os_alloc_pages(descriptor, size); /* Allocate pages */
+ if (0 != err) goto alloc_failed;
+
+ /* Take session memory lock */
+ _mali_osk_mutex_wait(session->memory_lock);
+
+ err = mali_mem_os_mali_map(descriptor, session); /* Map on Mali */
+ if (0 != err) goto mali_map_failed;
+
+ _mali_osk_mutex_signal(session->memory_lock);
+
+ err = mali_mem_os_cpu_map(descriptor, vma); /* Map on CPU */
+ if (0 != err) goto cpu_map_failed;
+
+ return descriptor;
+
+cpu_map_failed:
+ mali_mem_os_mali_unmap(session, descriptor);
+mali_map_failed:
+ _mali_osk_mutex_signal(session->memory_lock);
+ mali_mem_os_free(descriptor);
+alloc_failed:
+ mali_mem_descriptor_destroy(descriptor);
+ MALI_DEBUG_PRINT(2, ("OS allocator: Failed to allocate memory (%d)\n", err));
+ return NULL;
+}
+
+void mali_mem_os_release(mali_mem_allocation *descriptor)
+{
+ struct mali_session_data *session = descriptor->session;
+
+ /* Unmap the memory from the mali virtual address space. */
+ mali_mem_os_mali_unmap(session, descriptor);
+
+ /* Free pages */
+ mali_mem_os_free(descriptor);
+}
+
+
+#define MALI_MEM_OS_PAGE_TABLE_PAGE_POOL_SIZE 128
+static struct {
+ struct {
+ u32 phys;
+ mali_io_address mapping;
+ } page[MALI_MEM_OS_PAGE_TABLE_PAGE_POOL_SIZE];
+ u32 count;
+ spinlock_t lock;
+} mali_mem_page_table_page_pool = {
+ .count = 0,
+ .lock = __SPIN_LOCK_UNLOCKED(pool_lock),
+};
+
+_mali_osk_errcode_t mali_mem_os_get_table_page(u32 *phys, mali_io_address *mapping)
+{
+ _mali_osk_errcode_t ret = _MALI_OSK_ERR_NOMEM;
+
+ spin_lock(&mali_mem_page_table_page_pool.lock);
+ if (0 < mali_mem_page_table_page_pool.count) {
+ u32 i = --mali_mem_page_table_page_pool.count;
+ *phys = mali_mem_page_table_page_pool.page[i].phys;
+ *mapping = mali_mem_page_table_page_pool.page[i].mapping;
+
+ ret = _MALI_OSK_ERR_OK;
+ }
+ spin_unlock(&mali_mem_page_table_page_pool.lock);
+
+ if (_MALI_OSK_ERR_OK != ret) {
+ *mapping = dma_alloc_writecombine(&mali_platform_device->dev, _MALI_OSK_MALI_PAGE_SIZE, phys, GFP_KERNEL);
+ if (NULL != *mapping) {
+ ret = _MALI_OSK_ERR_OK;
+ }
+ }
+
+ return ret;
+}
+
+void mali_mem_os_release_table_page(u32 phys, void *virt)
+{
+ spin_lock(&mali_mem_page_table_page_pool.lock);
+ if (MALI_MEM_OS_PAGE_TABLE_PAGE_POOL_SIZE > mali_mem_page_table_page_pool.count) {
+ u32 i = mali_mem_page_table_page_pool.count;
+ mali_mem_page_table_page_pool.page[i].phys = phys;
+ mali_mem_page_table_page_pool.page[i].mapping = virt;
+
+ ++mali_mem_page_table_page_pool.count;
+
+ spin_unlock(&mali_mem_page_table_page_pool.lock);
+ } else {
+ spin_unlock(&mali_mem_page_table_page_pool.lock);
+
+ dma_free_writecombine(&mali_platform_device->dev, _MALI_OSK_MALI_PAGE_SIZE, virt, phys);
+ }
+}
+
+static void mali_mem_os_free_page(struct page *page)
+{
+ BUG_ON(page_count(page) != 1);
+
+ dma_unmap_page(&mali_platform_device->dev, page_private(page),
+ _MALI_OSK_MALI_PAGE_SIZE, DMA_TO_DEVICE);
+
+ ClearPagePrivate(page);
+
+ __free_page(page);
+}
+
+/* The maximum number of page table pool pages to free in one go. */
+#define MALI_MEM_OS_CHUNK_TO_FREE 64UL
+
+/* Free a certain number of pages from the page table page pool.
+ * The pool lock must be held when calling the function, and the lock will be
+ * released before returning.
+ */
+static void mali_mem_os_page_table_pool_free(size_t nr_to_free)
+{
+ u32 phys_arr[MALI_MEM_OS_CHUNK_TO_FREE];
+ void *virt_arr[MALI_MEM_OS_CHUNK_TO_FREE];
+ u32 i;
+
+ MALI_DEBUG_ASSERT(nr_to_free <= MALI_MEM_OS_CHUNK_TO_FREE);
+
+ /* Remove nr_to_free pages from the pool and store them locally on stack. */
+ for (i = 0; i < nr_to_free; i++) {
+ u32 pool_index = mali_mem_page_table_page_pool.count - i - 1;
+
+ phys_arr[i] = mali_mem_page_table_page_pool.page[pool_index].phys;
+ virt_arr[i] = mali_mem_page_table_page_pool.page[pool_index].mapping;
+ }
+
+ mali_mem_page_table_page_pool.count -= nr_to_free;
+
+ spin_unlock(&mali_mem_page_table_page_pool.lock);
+
+ /* After releasing the spinlock: free the pages we removed from the pool. */
+ for (i = 0; i < nr_to_free; i++) {
+ dma_free_writecombine(&mali_platform_device->dev, _MALI_OSK_MALI_PAGE_SIZE, virt_arr[i], phys_arr[i]);
+ }
+}
+
+static void mali_mem_os_trim_page_table_page_pool(void)
+{
+ size_t nr_to_free = 0;
+ size_t nr_to_keep;
+
+ /* Keep 2 page table pages for each 1024 pages in the page cache. */
+ nr_to_keep = mali_mem_os_allocator.pool_count / 512;
+ /* And a minimum of eight pages, to accomodate new sessions. */
+ nr_to_keep += 8;
+
+ if (0 == spin_trylock(&mali_mem_page_table_page_pool.lock)) return;
+
+ if (nr_to_keep < mali_mem_page_table_page_pool.count) {
+ nr_to_free = mali_mem_page_table_page_pool.count - nr_to_keep;
+ nr_to_free = min((size_t)MALI_MEM_OS_CHUNK_TO_FREE, nr_to_free);
+ }
+
+ /* Pool lock will be released by the callee. */
+ mali_mem_os_page_table_pool_free(nr_to_free);
+}
+
+#if LINUX_VERSION_CODE < KERNEL_VERSION(3,0,0)
+#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,35)
+static int mali_mem_os_shrink(int nr_to_scan, gfp_t gfp_mask)
+#else
+static int mali_mem_os_shrink(struct shrinker *shrinker, int nr_to_scan, gfp_t gfp_mask)
+#endif
+#else
+static int mali_mem_os_shrink(struct shrinker *shrinker, struct shrink_control *sc)
+#endif
+{
+ struct page *page, *tmp;
+ unsigned long flags;
+ struct list_head *le, pages;
+#if LINUX_VERSION_CODE < KERNEL_VERSION(3,0,0)
+ int nr = nr_to_scan;
+#else
+ int nr = sc->nr_to_scan;
+#endif
+
+ if (0 == nr) {
+ return mali_mem_os_allocator.pool_count + mali_mem_page_table_page_pool.count;
+ }
+
+ if (0 == mali_mem_os_allocator.pool_count) {
+ /* No pages availble */
+ return 0;
+ }
+
+ if (0 == spin_trylock_irqsave(&mali_mem_os_allocator.pool_lock, flags)) {
+ /* Not able to lock. */
+ return -1;
+ }
+
+ /* Release from general page pool */
+ nr = min((size_t)nr, mali_mem_os_allocator.pool_count);
+ mali_mem_os_allocator.pool_count -= nr;
+ list_for_each(le, &mali_mem_os_allocator.pool_pages) {
+ --nr;
+ if (0 == nr) break;
+ }
+ list_cut_position(&pages, &mali_mem_os_allocator.pool_pages, le);
+ spin_unlock_irqrestore(&mali_mem_os_allocator.pool_lock, flags);
+
+ list_for_each_entry_safe(page, tmp, &pages, lru) {
+ mali_mem_os_free_page(page);
+ }
+
+ /* Release some pages from page table page pool */
+ mali_mem_os_trim_page_table_page_pool();
+
+ if (MALI_OS_MEMORY_KERNEL_BUFFER_SIZE_IN_PAGES > mali_mem_os_allocator.pool_count) {
+ /* Pools are empty, stop timer */
+ MALI_DEBUG_PRINT(5, ("Stopping timer, only %u pages on pool\n", mali_mem_os_allocator.pool_count));
+ cancel_delayed_work(&mali_mem_os_allocator.timed_shrinker);
+ }
+
+ return mali_mem_os_allocator.pool_count + mali_mem_page_table_page_pool.count;
+}
+
+static void mali_mem_os_trim_pool(struct work_struct *data)
+{
+ struct page *page, *tmp;
+ struct list_head *le;
+ LIST_HEAD(pages);
+ size_t nr_to_free;
+
+ MALI_IGNORE(data);
+
+ MALI_DEBUG_PRINT(3, ("OS Mem: Trimming pool %u\n", mali_mem_os_allocator.pool_count));
+
+ /* Release from general page pool */
+ spin_lock(&mali_mem_os_allocator.pool_lock);
+ if (MALI_OS_MEMORY_KERNEL_BUFFER_SIZE_IN_PAGES < mali_mem_os_allocator.pool_count) {
+ size_t count = mali_mem_os_allocator.pool_count - MALI_OS_MEMORY_KERNEL_BUFFER_SIZE_IN_PAGES;
+ /* Free half the pages on the pool above the static limit. Or 64 pages, 256KB. */
+ nr_to_free = max(count / 2, (size_t)64);
+
+ mali_mem_os_allocator.pool_count -= nr_to_free;
+ list_for_each(le, &mali_mem_os_allocator.pool_pages) {
+ --nr_to_free;
+ if (0 == nr_to_free) break;
+ }
+ list_cut_position(&pages, &mali_mem_os_allocator.pool_pages, le);
+ }
+ spin_unlock(&mali_mem_os_allocator.pool_lock);
+
+ list_for_each_entry_safe(page, tmp, &pages, lru) {
+ mali_mem_os_free_page(page);
+ }
+
+ /* Release some pages from page table page pool */
+ mali_mem_os_trim_page_table_page_pool();
+
+ if (MALI_OS_MEMORY_KERNEL_BUFFER_SIZE_IN_PAGES < mali_mem_os_allocator.pool_count) {
+ MALI_DEBUG_PRINT(4, ("OS Mem: Starting pool trim timer %u\n", mali_mem_os_allocator.pool_count));
+ queue_delayed_work(mali_mem_os_allocator.wq, &mali_mem_os_allocator.timed_shrinker, MALI_OS_MEMORY_POOL_TRIM_JIFFIES);
+ }
+}
+
+_mali_osk_errcode_t mali_mem_os_init(void)
+{
+ mali_mem_os_allocator.wq = alloc_workqueue("mali-mem", WQ_UNBOUND, 1);
+ if (NULL == mali_mem_os_allocator.wq) {
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ register_shrinker(&mali_mem_os_allocator.shrinker);
+
+ return _MALI_OSK_ERR_OK;
+}
+
+void mali_mem_os_term(void)
+{
+ struct page *page, *tmp;
+
+ unregister_shrinker(&mali_mem_os_allocator.shrinker);
+ cancel_delayed_work_sync(&mali_mem_os_allocator.timed_shrinker);
+ destroy_workqueue(mali_mem_os_allocator.wq);
+
+ spin_lock(&mali_mem_os_allocator.pool_lock);
+ list_for_each_entry_safe(page, tmp, &mali_mem_os_allocator.pool_pages, lru) {
+ mali_mem_os_free_page(page);
+
+ --mali_mem_os_allocator.pool_count;
+ }
+ BUG_ON(mali_mem_os_allocator.pool_count);
+ spin_unlock(&mali_mem_os_allocator.pool_lock);
+
+ /* Release from page table page pool */
+ do {
+ u32 nr_to_free;
+
+ spin_lock(&mali_mem_page_table_page_pool.lock);
+
+ nr_to_free = min((size_t)MALI_MEM_OS_CHUNK_TO_FREE, mali_mem_page_table_page_pool.count);
+
+ /* Pool lock will be released by the callee. */
+ mali_mem_os_page_table_pool_free(nr_to_free);
+ } while (0 != mali_mem_page_table_page_pool.count);
+}
+
+_mali_osk_errcode_t mali_memory_core_resource_os_memory(u32 size)
+{
+ mali_mem_os_allocator.allocation_limit = size;
+
+ MALI_SUCCESS;
+}
+
+u32 mali_mem_os_stat(void)
+{
+ return atomic_read(&mali_mem_os_allocator.allocated_pages) * _MALI_OSK_MALI_PAGE_SIZE;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_MEMORY_OS_ALLOC_H__
+#define __MALI_MEMORY_OS_ALLOC_H__
+
+#include "mali_osk.h"
+#include "mali_session.h"
+
+#include "mali_memory_types.h"
+
+/* OS memory allocator */
+/** @brief Allocate memory from OS
+ *
+ * This function will create a descriptor, allocate pages and map these on the CPU and Mali.
+ *
+ * @param mali_addr Mali virtual address to use for Mali mapping
+ * @param size Size to allocate
+ * @param vma Pointer to vma for CPU mapping
+ * @param session Pointer to session doing the allocation
+ */
+mali_mem_allocation *mali_mem_os_alloc(u32 mali_addr, u32 size, struct vm_area_struct *vma, struct mali_session_data *session);
+
+/** @brief Release Mali OS memory
+ *
+ * The session memory_lock must be held when calling this function.
+ *
+ * @param descriptor Pointer to the descriptor to release
+ */
+void mali_mem_os_release(mali_mem_allocation *descriptor);
+
+_mali_osk_errcode_t mali_mem_os_get_table_page(u32 *phys, mali_io_address *mapping);
+
+void mali_mem_os_release_table_page(u32 phys, void *virt);
+
+_mali_osk_errcode_t mali_mem_os_init(void);
+void mali_mem_os_term(void);
+u32 mali_mem_os_stat(void);
+
+#endif /* __MALI_MEMORY_OS_ALLOC_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_MEMORY_TYPES_H__
+#define __MALI_MEMORY_TYPES_H__
+
+#if defined(CONFIG_MALI400_UMP)
+#include "ump_kernel_interface.h"
+#endif
+
+typedef u32 mali_address_t;
+
+typedef enum mali_mem_type {
+ MALI_MEM_OS,
+ MALI_MEM_EXTERNAL,
+ MALI_MEM_DMA_BUF,
+ MALI_MEM_UMP,
+ MALI_MEM_BLOCK,
+} mali_mem_type;
+
+typedef struct mali_mem_os_mem {
+ struct list_head pages;
+ u32 count;
+} mali_mem_os_mem;
+
+typedef struct mali_mem_dma_buf {
+#if defined(CONFIG_DMA_SHARED_BUFFER)
+ struct mali_dma_buf_attachment *attachment;
+#endif
+} mali_mem_dma_buf;
+
+typedef struct mali_mem_external {
+ dma_addr_t phys;
+ u32 size;
+} mali_mem_external;
+
+typedef struct mali_mem_ump {
+#if defined(CONFIG_MALI400_UMP)
+ ump_dd_handle handle;
+#endif
+} mali_mem_ump;
+
+typedef struct block_allocator_allocation {
+ /* The list will be released in reverse order */
+ struct block_info *last_allocated;
+ u32 mapping_length;
+ struct block_allocator *info;
+} block_allocator_allocation;
+
+typedef struct mali_mem_block_mem {
+ block_allocator_allocation mem;
+} mali_mem_block_mem;
+
+typedef struct mali_mem_virt_mali_mapping {
+ mali_address_t addr; /* Virtual Mali address */
+ u32 properties; /* MMU Permissions + cache, must match MMU HW */
+} mali_mem_virt_mali_mapping;
+
+typedef struct mali_mem_virt_cpu_mapping {
+ void __user *addr;
+ u32 ref;
+} mali_mem_virt_cpu_mapping;
+
+#define MALI_MEM_ALLOCATION_VALID_MAGIC 0xdeda110c
+#define MALI_MEM_ALLOCATION_FREED_MAGIC 0x10101010
+
+typedef struct mali_mem_allocation {
+ MALI_DEBUG_CODE(u32 magic);
+ mali_mem_type type; /**< Type of memory */
+ int id; /**< ID in the descriptor map for this allocation */
+
+ u32 size; /**< Size of the allocation */
+ u32 flags; /**< Flags for this allocation */
+
+ struct mali_session_data *session; /**< Pointer to session that owns the allocation */
+
+ /* Union selected by type. */
+ union {
+ mali_mem_os_mem os_mem; /**< MALI_MEM_OS */
+ mali_mem_external ext_mem; /**< MALI_MEM_EXTERNAL */
+ mali_mem_dma_buf dma_buf; /**< MALI_MEM_DMA_BUF */
+ mali_mem_ump ump_mem; /**< MALI_MEM_UMP */
+ mali_mem_block_mem block_mem; /**< MALI_MEM_BLOCK */
+ };
+
+ mali_mem_virt_cpu_mapping cpu_mapping; /**< CPU mapping */
+ mali_mem_virt_mali_mapping mali_mapping; /**< Mali mapping */
+} mali_mem_allocation;
+
+#define MALI_MEM_FLAG_MALI_GUARD_PAGE (1 << 0)
+#define MALI_MEM_FLAG_DONT_CPU_MAP (1 << 1)
+
+#endif /* __MALI_MEMORY_TYPES__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_ukk.h"
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_session.h"
+#include "mali_kernel_linux.h"
+
+#include "mali_memory.h"
+
+#include "ump_kernel_interface.h"
+
+static int mali_ump_map(struct mali_session_data *session, mali_mem_allocation *descriptor)
+{
+ ump_dd_handle ump_mem;
+ u32 nr_blocks;
+ u32 i;
+ ump_dd_physical_block *ump_blocks;
+ struct mali_page_directory *pagedir;
+ u32 offset = 0;
+ u32 prop;
+ _mali_osk_errcode_t err;
+
+ MALI_DEBUG_ASSERT_POINTER(session);
+ MALI_DEBUG_ASSERT_POINTER(descriptor);
+ MALI_DEBUG_ASSERT(MALI_MEM_UMP == descriptor->type);
+
+ ump_mem = descriptor->ump_mem.handle;
+ MALI_DEBUG_ASSERT(UMP_DD_HANDLE_INVALID != ump_mem);
+
+ nr_blocks = ump_dd_phys_block_count_get(ump_mem);
+ if (nr_blocks == 0) {
+ MALI_DEBUG_PRINT(1, ("No block count\n"));
+ return -EINVAL;
+ }
+
+ ump_blocks = _mali_osk_malloc(sizeof(*ump_blocks)*nr_blocks);
+ if (NULL == ump_blocks) {
+ return -ENOMEM;
+ }
+
+ if (UMP_DD_INVALID == ump_dd_phys_blocks_get(ump_mem, ump_blocks, nr_blocks)) {
+ _mali_osk_free(ump_blocks);
+ return -EFAULT;
+ }
+
+ pagedir = session->page_directory;
+ prop = descriptor->mali_mapping.properties;
+
+ err = mali_mem_mali_map_prepare(descriptor);
+ if (_MALI_OSK_ERR_OK != err) {
+ MALI_DEBUG_PRINT(1, ("Mapping of UMP memory failed\n"));
+
+ _mali_osk_free(ump_blocks);
+ return -ENOMEM;
+ }
+
+ for(i = 0; i < nr_blocks; ++i) {
+ u32 virt = descriptor->mali_mapping.addr + offset;
+
+ MALI_DEBUG_PRINT(7, ("Mapping in 0x%08x size %d\n", ump_blocks[i].addr , ump_blocks[i].size));
+
+ mali_mmu_pagedir_update(pagedir, virt, ump_blocks[i].addr,
+ ump_blocks[i].size, prop);
+
+ offset += ump_blocks[i].size;
+ }
+
+ if (descriptor->flags & _MALI_MAP_EXTERNAL_MAP_GUARD_PAGE) {
+ u32 virt = descriptor->mali_mapping.addr + offset;
+
+ /* Map in an extra virtual guard page at the end of the VMA */
+ MALI_DEBUG_PRINT(6, ("Mapping in extra guard page\n"));
+
+ mali_mmu_pagedir_update(pagedir, virt, ump_blocks[0].addr, _MALI_OSK_MALI_PAGE_SIZE, prop);
+
+ offset += _MALI_OSK_MALI_PAGE_SIZE;
+ }
+
+ _mali_osk_free(ump_blocks);
+
+ return 0;
+}
+
+void mali_ump_unmap(struct mali_session_data *session, mali_mem_allocation *descriptor)
+{
+ ump_dd_handle ump_mem;
+ struct mali_page_directory *pagedir;
+
+ ump_mem = descriptor->ump_mem.handle;
+ pagedir = session->page_directory;
+
+ MALI_DEBUG_ASSERT(UMP_DD_HANDLE_INVALID != ump_mem);
+
+ mali_mem_mali_map_free(descriptor);
+
+ ump_dd_reference_release(ump_mem);
+ return;
+}
+
+_mali_osk_errcode_t _mali_ukk_attach_ump_mem(_mali_uk_attach_ump_mem_s *args)
+{
+ ump_dd_handle ump_mem;
+ struct mali_session_data *session;
+ mali_mem_allocation *descriptor;
+ int md, ret;
+
+ MALI_DEBUG_ASSERT_POINTER(args);
+ MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS);
+
+ session = (struct mali_session_data *)args->ctx;
+ MALI_CHECK_NON_NULL(session, _MALI_OSK_ERR_INVALID_ARGS);
+
+ /* check arguments */
+ /* NULL might be a valid Mali address */
+ if (!args->size) MALI_ERROR(_MALI_OSK_ERR_INVALID_ARGS);
+
+ /* size must be a multiple of the system page size */
+ if (args->size % _MALI_OSK_MALI_PAGE_SIZE) MALI_ERROR(_MALI_OSK_ERR_INVALID_ARGS);
+
+ MALI_DEBUG_PRINT(3,
+ ("Requested to map ump memory with secure id %d into virtual memory 0x%08X, size 0x%08X\n",
+ args->secure_id, args->mali_address, args->size));
+
+ ump_mem = ump_dd_handle_create_from_secure_id((int)args->secure_id);
+
+ if (UMP_DD_HANDLE_INVALID == ump_mem) MALI_ERROR(_MALI_OSK_ERR_FAULT);
+
+ descriptor = mali_mem_descriptor_create(session, MALI_MEM_UMP);
+ if (NULL == descriptor) {
+ ump_dd_reference_release(ump_mem);
+ MALI_ERROR(_MALI_OSK_ERR_NOMEM);
+ }
+
+ descriptor->ump_mem.handle = ump_mem;
+ descriptor->mali_mapping.addr = args->mali_address;
+ descriptor->size = args->size;
+ descriptor->mali_mapping.properties = MALI_MMU_FLAGS_DEFAULT;
+ descriptor->flags |= MALI_MEM_FLAG_DONT_CPU_MAP;
+
+ if (args->flags & _MALI_MAP_EXTERNAL_MAP_GUARD_PAGE) {
+ descriptor->flags = MALI_MEM_FLAG_MALI_GUARD_PAGE;
+ }
+
+ _mali_osk_mutex_wait(session->memory_lock);
+
+ ret = mali_ump_map(session, descriptor);
+ if (0 != ret) {
+ _mali_osk_mutex_signal(session->memory_lock);
+ ump_dd_reference_release(ump_mem);
+ mali_mem_descriptor_destroy(descriptor);
+ MALI_ERROR(_MALI_OSK_ERR_NOMEM);
+ }
+
+ _mali_osk_mutex_signal(session->memory_lock);
+
+
+ if (_MALI_OSK_ERR_OK != mali_descriptor_mapping_allocate_mapping(session->descriptor_mapping, descriptor, &md)) {
+ ump_dd_reference_release(ump_mem);
+ mali_mem_descriptor_destroy(descriptor);
+ MALI_ERROR(_MALI_OSK_ERR_FAULT);
+ }
+
+ args->cookie = md;
+
+ MALI_DEBUG_PRINT(5,("Returning from UMP attach\n"));
+
+ MALI_SUCCESS;
+}
+
+void mali_mem_ump_release(mali_mem_allocation *descriptor)
+{
+ struct mali_session_data *session = descriptor->session;
+
+ MALI_DEBUG_ASSERT(MALI_MEM_UMP == descriptor->type);
+
+ mali_ump_unmap(session, descriptor);
+}
+
+_mali_osk_errcode_t _mali_ukk_release_ump_mem(_mali_uk_release_ump_mem_s *args)
+{
+ mali_mem_allocation * descriptor;
+ struct mali_session_data *session;
+
+ MALI_DEBUG_ASSERT_POINTER(args);
+ MALI_CHECK_NON_NULL(args->ctx, _MALI_OSK_ERR_INVALID_ARGS);
+
+ session = (struct mali_session_data *)args->ctx;
+ MALI_CHECK_NON_NULL(session, _MALI_OSK_ERR_INVALID_ARGS);
+
+ if (_MALI_OSK_ERR_OK != mali_descriptor_mapping_get(session->descriptor_mapping, args->cookie, (void**)&descriptor)) {
+ MALI_DEBUG_PRINT(1, ("Invalid memory descriptor %d used to release ump memory\n", args->cookie));
+ MALI_ERROR(_MALI_OSK_ERR_FAULT);
+ }
+
+ descriptor = mali_descriptor_mapping_free(session->descriptor_mapping, args->cookie);
+
+ if (NULL != descriptor) {
+ _mali_osk_mutex_wait(session->memory_lock);
+ mali_mem_ump_release(descriptor);
+ _mali_osk_mutex_signal(session->memory_lock);
+
+ mali_mem_descriptor_destroy(descriptor);
+ }
+
+ MALI_SUCCESS;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2010, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_atomics.c
+ * Implementation of the OS abstraction layer for the kernel device driver
+ */
+
+#include "mali_osk.h"
+#include <asm/atomic.h>
+#include "mali_kernel_common.h"
+
+void _mali_osk_atomic_dec( _mali_osk_atomic_t *atom )
+{
+ atomic_dec((atomic_t *)&atom->u.val);
+}
+
+u32 _mali_osk_atomic_dec_return( _mali_osk_atomic_t *atom )
+{
+ return atomic_dec_return((atomic_t *)&atom->u.val);
+}
+
+void _mali_osk_atomic_inc( _mali_osk_atomic_t *atom )
+{
+ atomic_inc((atomic_t *)&atom->u.val);
+}
+
+u32 _mali_osk_atomic_inc_return( _mali_osk_atomic_t *atom )
+{
+ return atomic_inc_return((atomic_t *)&atom->u.val);
+}
+
+_mali_osk_errcode_t _mali_osk_atomic_init( _mali_osk_atomic_t *atom, u32 val )
+{
+ MALI_CHECK_NON_NULL(atom, _MALI_OSK_ERR_INVALID_ARGS);
+ atomic_set((atomic_t *)&atom->u.val, val);
+ return _MALI_OSK_ERR_OK;
+}
+
+u32 _mali_osk_atomic_read( _mali_osk_atomic_t *atom )
+{
+ return atomic_read((atomic_t *)&atom->u.val);
+}
+
+void _mali_osk_atomic_term( _mali_osk_atomic_t *atom )
+{
+ MALI_IGNORE(atom);
+}
+
+u32 _mali_osk_atomic_xchg( _mali_osk_atomic_t *atom, u32 val )
+{
+ return atomic_xchg((atomic_t*)&atom->u.val, val);
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_irq.c
+ * Implementation of the OS abstraction layer for the kernel device driver
+ */
+
+#include <linux/slab.h> /* For memory allocation */
+#include <linux/interrupt.h>
+#include <linux/wait.h>
+#include <linux/sched.h>
+
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+
+typedef struct _mali_osk_irq_t_struct {
+ u32 irqnum;
+ void *data;
+ _mali_osk_irq_uhandler_t uhandler;
+} mali_osk_irq_object_t;
+
+typedef irqreturn_t (*irq_handler_func_t)(int, void *, struct pt_regs *);
+static irqreturn_t irq_handler_upper_half (int port_name, void* dev_id ); /* , struct pt_regs *regs*/
+
+#if defined(DEBUG)
+#if 0
+
+struct test_interrupt_data {
+ _mali_osk_irq_ack_t ack_func;
+ void *probe_data;
+ mali_bool interrupt_received;
+ wait_queue_head_t wq;
+};
+
+static irqreturn_t test_interrupt_upper_half(int port_name, void *dev_id)
+{
+ irqreturn_t ret = IRQ_NONE;
+ struct test_interrupt_data *data = (struct test_interrupt_data *)dev_id;
+
+ if (_MALI_OSK_ERR_OK == data->ack_func(data->probe_data)) {
+ data->interrupt_received = MALI_TRUE;
+ wake_up(&data->wq);
+ ret = IRQ_HANDLED;
+ }
+
+ return ret;
+}
+
+static _mali_osk_errcode_t test_interrupt(u32 irqnum,
+ _mali_osk_irq_trigger_t trigger_func,
+ _mali_osk_irq_ack_t ack_func,
+ void *probe_data,
+ const char *description)
+{
+ unsigned long irq_flags = 0;
+ struct test_interrupt_data data = {
+ .ack_func = ack_func,
+ .probe_data = probe_data,
+ .interrupt_received = MALI_FALSE,
+ };
+
+#if defined(CONFIG_MALI_SHARED_INTERRUPTS)
+ irq_flags |= IRQF_SHARED;
+#endif /* defined(CONFIG_MALI_SHARED_INTERRUPTS) */
+
+ if (0 != request_irq(irqnum, test_interrupt_upper_half, irq_flags, description, &data)) {
+ MALI_DEBUG_PRINT(2, ("Unable to install test IRQ handler for core '%s'\n", description));
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ init_waitqueue_head(&data.wq);
+
+ trigger_func(probe_data);
+ wait_event_timeout(data.wq, data.interrupt_received, 100);
+
+ free_irq(irqnum, &data);
+
+ if (data.interrupt_received) {
+ MALI_DEBUG_PRINT(3, ("%s: Interrupt test OK\n", description));
+ return _MALI_OSK_ERR_OK;
+ } else {
+ MALI_PRINT_ERROR(("%s: Failed interrupt test on %u\n", description, irqnum));
+ return _MALI_OSK_ERR_FAULT;
+ }
+}
+#endif
+
+#endif /* defined(DEBUG) */
+
+_mali_osk_irq_t *_mali_osk_irq_init( u32 irqnum, _mali_osk_irq_uhandler_t uhandler, void *int_data, _mali_osk_irq_trigger_t trigger_func, _mali_osk_irq_ack_t ack_func, void *probe_data, const char *description )
+{
+ mali_osk_irq_object_t *irq_object;
+ unsigned long irq_flags = 0;
+
+#if defined(CONFIG_MALI_SHARED_INTERRUPTS)
+ irq_flags |= IRQF_SHARED;
+#endif /* defined(CONFIG_MALI_SHARED_INTERRUPTS) */
+
+ irq_object = kmalloc(sizeof(mali_osk_irq_object_t), GFP_KERNEL);
+ if (NULL == irq_object) {
+ return NULL;
+ }
+
+ if (-1 == irqnum) {
+ /* Probe for IRQ */
+ if ( (NULL != trigger_func) && (NULL != ack_func) ) {
+ unsigned long probe_count = 3;
+ _mali_osk_errcode_t err;
+ int irq;
+
+ MALI_DEBUG_PRINT(2, ("Probing for irq\n"));
+
+ do {
+ unsigned long mask;
+
+ mask = probe_irq_on();
+ trigger_func(probe_data);
+
+ _mali_osk_time_ubusydelay(5);
+
+ irq = probe_irq_off(mask);
+ err = ack_func(probe_data);
+ } while (irq < 0 && (err == _MALI_OSK_ERR_OK) && probe_count--);
+
+ if (irq < 0 || (_MALI_OSK_ERR_OK != err)) irqnum = -1;
+ else irqnum = irq;
+ } else irqnum = -1; /* no probe functions, fault */
+
+ if (-1 != irqnum) {
+ /* found an irq */
+ MALI_DEBUG_PRINT(2, ("Found irq %d\n", irqnum));
+ } else {
+ MALI_DEBUG_PRINT(2, ("Probe for irq failed\n"));
+ }
+ }
+
+ irq_object->irqnum = irqnum;
+ irq_object->uhandler = uhandler;
+ irq_object->data = int_data;
+
+ if (-1 == irqnum) {
+ MALI_DEBUG_PRINT(2, ("No IRQ for core '%s' found during probe\n", description));
+ kfree(irq_object);
+ return NULL;
+ }
+
+#if defined(DEBUG)
+#if 0
+ /* Verify that the configured interrupt settings are working */
+ if (_MALI_OSK_ERR_OK != test_interrupt(irqnum, trigger_func, ack_func, probe_data, description)) {
+ MALI_DEBUG_PRINT(2, ("Test of IRQ handler for core '%s' failed\n", description));
+ kfree(irq_object);
+ return NULL;
+ }
+#endif
+#endif
+
+ if (0 != request_irq(irqnum, irq_handler_upper_half, irq_flags, description, irq_object)) {
+ MALI_DEBUG_PRINT(2, ("Unable to install IRQ handler for core '%s'\n", description));
+ kfree(irq_object);
+ return NULL;
+ }
+
+ return irq_object;
+}
+
+void _mali_osk_irq_term( _mali_osk_irq_t *irq )
+{
+ mali_osk_irq_object_t *irq_object = (mali_osk_irq_object_t *)irq;
+ free_irq(irq_object->irqnum, irq_object);
+ kfree(irq_object);
+}
+
+
+/** This function is called directly in interrupt context from the OS just after
+ * the CPU get the hw-irq from mali, or other devices on the same IRQ-channel.
+ * It is registered one of these function for each mali core. When an interrupt
+ * arrives this function will be called equal times as registered mali cores.
+ * That means that we only check one mali core in one function call, and the
+ * core we check for each turn is given by the \a dev_id variable.
+ * If we detect an pending interrupt on the given core, we mask the interrupt
+ * out by settging the core's IRQ_MASK register to zero.
+ * Then we schedule the mali_core_irq_handler_bottom_half to run as high priority
+ * work queue job.
+ */
+static irqreturn_t irq_handler_upper_half (int port_name, void* dev_id ) /* , struct pt_regs *regs*/
+{
+ irqreturn_t ret = IRQ_NONE;
+ mali_osk_irq_object_t *irq_object = (mali_osk_irq_object_t *)dev_id;
+
+ if (_MALI_OSK_ERR_OK == irq_object->uhandler(irq_object->data)) {
+ ret = IRQ_HANDLED;
+ }
+
+ return ret;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_locks.c
+ * Implemenation of the OS abstraction layer for the kernel device driver
+ */
+
+#include "mali_osk_locks.h"
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+
+
+#ifdef DEBUG
+#ifdef LOCK_ORDER_CHECKING
+static DEFINE_SPINLOCK(lock_tracking_lock);
+static mali_bool add_lock_to_log_and_check(struct _mali_osk_lock_debug_s *lock, uint32_t tid);
+static void remove_lock_from_log(struct _mali_osk_lock_debug_s *lock, uint32_t tid);
+static const char * const lock_order_to_string(_mali_osk_lock_order_t order);
+#endif /* LOCK_ORDER_CHECKING */
+
+void _mali_osk_locks_debug_init(struct _mali_osk_lock_debug_s *checker, _mali_osk_lock_flags_t flags, _mali_osk_lock_order_t order)
+{
+ checker->orig_flags = flags;
+ checker->owner = 0;
+
+#ifdef LOCK_ORDER_CHECKING
+ checker->order = order;
+ checker->next = NULL;
+#endif
+}
+
+void _mali_osk_locks_debug_add(struct _mali_osk_lock_debug_s *checker)
+{
+ checker->owner = _mali_osk_get_tid();
+
+#ifdef LOCK_ORDER_CHECKING
+ if (!(checker->orig_flags & _MALI_OSK_LOCKFLAG_UNORDERED)) {
+ if (!add_lock_to_log_and_check(checker, _mali_osk_get_tid())) {
+ printk(KERN_ERR "%d: ERROR lock %p taken while holding a lock of a higher order.\n",
+ _mali_osk_get_tid(), checker);
+ dump_stack();
+ }
+ }
+#endif
+}
+
+void _mali_osk_locks_debug_remove(struct _mali_osk_lock_debug_s *checker)
+{
+
+#ifdef LOCK_ORDER_CHECKING
+ if (!(checker->orig_flags & _MALI_OSK_LOCKFLAG_UNORDERED)) {
+ remove_lock_from_log(checker, _mali_osk_get_tid());
+ }
+#endif
+ checker->owner = 0;
+}
+
+
+#ifdef LOCK_ORDER_CHECKING
+/* Lock order checking
+ * -------------------
+ *
+ * To assure that lock ordering scheme defined by _mali_osk_lock_order_t is strictly adhered to, the
+ * following function will, together with a linked list and some extra members in _mali_osk_lock_debug_s,
+ * make sure that a lock that is taken has a higher order than the current highest-order lock a
+ * thread holds.
+ *
+ * This is done in the following manner:
+ * - A linked list keeps track of locks held by a thread.
+ * - A `next' pointer is added to each lock. This is used to chain the locks together.
+ * - When taking a lock, the `add_lock_to_log_and_check' makes sure that taking
+ * the given lock is legal. It will follow the linked list to find the last
+ * lock taken by this thread. If the last lock's order was lower than the
+ * lock that is to be taken, it appends the new lock to the list and returns
+ * true, if not, it return false. This return value is assert()'ed on in
+ * _mali_osk_lock_wait().
+ */
+
+static struct _mali_osk_lock_debug_s *lock_lookup_list;
+
+static void dump_lock_tracking_list(void)
+{
+ struct _mali_osk_lock_debug_s *l;
+ u32 n = 1;
+
+ /* print list for debugging purposes */
+ l = lock_lookup_list;
+
+ while (NULL != l) {
+ printk(" [lock: %p, tid_owner: %d, order: %d] ->", l, l->owner, l->order);
+ l = l->next;
+ MALI_DEBUG_ASSERT(n++ < 100);
+ }
+ printk(" NULL\n");
+}
+
+static int tracking_list_length(void)
+{
+ struct _mali_osk_lock_debug_s *l;
+ u32 n = 0;
+ l = lock_lookup_list;
+
+ while (NULL != l) {
+ l = l->next;
+ n++;
+ MALI_DEBUG_ASSERT(n < 100);
+ }
+ return n;
+}
+
+static mali_bool add_lock_to_log_and_check(struct _mali_osk_lock_debug_s *lock, uint32_t tid)
+{
+ mali_bool ret = MALI_FALSE;
+ _mali_osk_lock_order_t highest_order_for_tid = _MALI_OSK_LOCK_ORDER_FIRST;
+ struct _mali_osk_lock_debug_s *highest_order_lock = (struct _mali_osk_lock_debug_s *)0xbeefbabe;
+ struct _mali_osk_lock_debug_s *l;
+ unsigned long local_lock_flag;
+ u32 len;
+
+ spin_lock_irqsave(&lock_tracking_lock, local_lock_flag);
+ len = tracking_list_length();
+
+ l = lock_lookup_list;
+ if (NULL == l) { /* This is the first lock taken by this thread -- record and return true */
+ lock_lookup_list = lock;
+ spin_unlock_irqrestore(&lock_tracking_lock, local_lock_flag);
+ return MALI_TRUE;
+ } else {
+ /* Traverse the locks taken and find the lock of the highest order.
+ * Since several threads may hold locks, each lock's owner must be
+ * checked so that locks not owned by this thread can be ignored. */
+ for(;;) {
+ MALI_DEBUG_ASSERT_POINTER( l );
+ if (tid == l->owner && l->order >= highest_order_for_tid) {
+ highest_order_for_tid = l->order;
+ highest_order_lock = l;
+ }
+
+ if (NULL != l->next) {
+ l = l->next;
+ } else {
+ break;
+ }
+ }
+
+ l->next = lock;
+ l->next = NULL;
+ }
+
+ /* We have now found the highest order lock currently held by this thread and can see if it is
+ * legal to take the requested lock. */
+ ret = highest_order_for_tid < lock->order;
+
+ if (!ret) {
+ printk(KERN_ERR "Took lock of order %d (%s) while holding lock of order %d (%s)\n",
+ lock->order, lock_order_to_string(lock->order),
+ highest_order_for_tid, lock_order_to_string(highest_order_for_tid));
+ dump_lock_tracking_list();
+ }
+
+ if (len+1 != tracking_list_length()) {
+ printk(KERN_ERR "************ lock: %p\n", lock);
+ printk(KERN_ERR "************ before: %d *** after: %d ****\n", len, tracking_list_length());
+ dump_lock_tracking_list();
+ MALI_DEBUG_ASSERT_POINTER(NULL);
+ }
+
+ spin_unlock_irqrestore(&lock_tracking_lock, local_lock_flag);
+ return ret;
+}
+
+static void remove_lock_from_log(struct _mali_osk_lock_debug_s *lock, uint32_t tid)
+{
+ struct _mali_osk_lock_debug_s *curr;
+ struct _mali_osk_lock_debug_s *prev = NULL;
+ unsigned long local_lock_flag;
+ u32 len;
+ u32 n = 0;
+
+ spin_lock_irqsave(&lock_tracking_lock, local_lock_flag);
+ len = tracking_list_length();
+ curr = lock_lookup_list;
+
+ if (NULL == curr) {
+ printk(KERN_ERR "Error: Lock tracking list was empty on call to remove_lock_from_log\n");
+ dump_lock_tracking_list();
+ }
+
+ MALI_DEBUG_ASSERT_POINTER(curr);
+
+
+ while (lock != curr) {
+ prev = curr;
+
+ MALI_DEBUG_ASSERT_POINTER(curr);
+ curr = curr->next;
+ MALI_DEBUG_ASSERT(n++ < 100);
+ }
+
+ if (NULL == prev) {
+ lock_lookup_list = curr->next;
+ } else {
+ MALI_DEBUG_ASSERT_POINTER(curr);
+ MALI_DEBUG_ASSERT_POINTER(prev);
+ prev->next = curr->next;
+ }
+
+ lock->next = NULL;
+
+ if (len-1 != tracking_list_length()) {
+ printk(KERN_ERR "************ lock: %p\n", lock);
+ printk(KERN_ERR "************ before: %d *** after: %d ****\n", len, tracking_list_length());
+ dump_lock_tracking_list();
+ MALI_DEBUG_ASSERT_POINTER(NULL);
+ }
+
+ spin_unlock_irqrestore(&lock_tracking_lock, local_lock_flag);
+}
+
+static const char * const lock_order_to_string(_mali_osk_lock_order_t order)
+{
+ switch (order) {
+ case _MALI_OSK_LOCK_ORDER_SESSIONS:
+ return "_MALI_OSK_LOCK_ORDER_SESSIONS";
+ break;
+ case _MALI_OSK_LOCK_ORDER_MEM_SESSION:
+ return "_MALI_OSK_LOCK_ORDER_MEM_SESSION";
+ break;
+ case _MALI_OSK_LOCK_ORDER_MEM_INFO:
+ return "_MALI_OSK_LOCK_ORDER_MEM_INFO";
+ break;
+ case _MALI_OSK_LOCK_ORDER_MEM_PT_CACHE:
+ return "_MALI_OSK_LOCK_ORDER_MEM_PT_CACHE";
+ break;
+ case _MALI_OSK_LOCK_ORDER_DESCRIPTOR_MAP:
+ return "_MALI_OSK_LOCK_ORDER_DESCRIPTOR_MAP";
+ break;
+ case _MALI_OSK_LOCK_ORDER_GROUP_VIRTUAL:
+ return "_MALI_OSK_LOCK_ORDER_GROUP_VIRTUAL";
+ break;
+ case _MALI_OSK_LOCK_ORDER_GROUP:
+ return "_MALI_OSK_LOCK_ORDER_GROUP";
+ break;
+ case _MALI_OSK_LOCK_ORDER_SCHEDULER:
+ return "_MALI_OSK_LOCK_ORDER_SCHEDULER";
+ break;
+ case _MALI_OSK_LOCK_ORDER_PM_CORE_STATE:
+ return "_MALI_OSK_LOCK_ORDER_PM_CORE_STATE";
+ break;
+ case _MALI_OSK_LOCK_ORDER_L2_COMMAND:
+ return "_MALI_OSK_LOCK_ORDER_L2_COMMAND";
+ break;
+ case _MALI_OSK_LOCK_ORDER_PROFILING:
+ return "_MALI_OSK_LOCK_ORDER_PROFILING";
+ break;
+ case _MALI_OSK_LOCK_ORDER_L2_COUNTER:
+ return "_MALI_OSK_LOCK_ORDER_L2_COUNTER";
+ break;
+ case _MALI_OSK_LOCK_ORDER_UTILIZATION:
+ return "_MALI_OSK_LOCK_ORDER_UTILIZATION";
+ break;
+ case _MALI_OSK_LOCK_ORDER_PM_EXECUTE:
+ return "_MALI_OSK_LOCK_ORDER_PM_EXECUTE";
+ break;
+ case _MALI_OSK_LOCK_ORDER_SESSION_PENDING_JOBS:
+ return "_MALI_OSK_LOCK_ORDER_SESSION_PENDING_JOBS";
+ break;
+ default:
+ return "";
+ }
+}
+#endif /* LOCK_ORDER_CHECKING */
+#endif /* DEBUG */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_locks.h
+ * Defines OS abstraction of lock and mutex
+ */
+#ifndef _MALI_OSK_LOCKS_H
+#define _MALI_OSK_LOCKS_H
+
+#include <linux/spinlock.h>
+#include <linux/rwsem.h>
+#include <linux/mutex.h>
+
+#include <linux/slab.h>
+
+#include "mali_osk_types.h"
+
+#ifdef _cplusplus
+extern "C" {
+#endif
+
+ /* When DEBUG is enabled, this struct will be used to track owner, mode and order checking */
+#ifdef DEBUG
+ struct _mali_osk_lock_debug_s {
+ u32 owner;
+ _mali_osk_lock_flags_t orig_flags;
+ _mali_osk_lock_order_t order;
+ struct _mali_osk_lock_debug_s *next;
+ };
+#endif
+
+ /* Anstraction of spinlock_t */
+ struct _mali_osk_spinlock_s {
+#ifdef DEBUG
+ struct _mali_osk_lock_debug_s checker;
+#endif
+ spinlock_t spinlock;
+ };
+
+ /* Abstration of spinlock_t and lock flag which is used to store register's state before locking */
+ struct _mali_osk_spinlock_irq_s {
+#ifdef DEBUG
+ struct _mali_osk_lock_debug_s checker;
+#endif
+
+ spinlock_t spinlock;
+ unsigned long flags;
+ };
+
+ /* Abstraction of rw_semaphore in OS */
+ struct _mali_osk_mutex_rw_s {
+#ifdef DEBUG
+ struct _mali_osk_lock_debug_s checker;
+ _mali_osk_lock_mode_t mode;
+#endif
+
+ struct rw_semaphore rw_sema;
+ };
+
+ /* Mutex and mutex_interruptible functions share the same osk mutex struct */
+ struct _mali_osk_mutex_s {
+#ifdef DEBUG
+ struct _mali_osk_lock_debug_s checker;
+#endif
+ struct mutex mutex;
+ };
+
+#ifdef DEBUG
+ /** @brief _mali_osk_locks_debug_init/add/remove() functions are declared when DEBUG is enabled and
+ * defined in file mali_osk_locks.c. When LOCK_ORDER_CHECKING is enabled, calling these functions when we
+ * init/lock/unlock a lock/mutex, we could track lock order of a given tid. */
+ void _mali_osk_locks_debug_init(struct _mali_osk_lock_debug_s *checker, _mali_osk_lock_flags_t flags, _mali_osk_lock_order_t order);
+ void _mali_osk_locks_debug_add(struct _mali_osk_lock_debug_s *checker);
+ void _mali_osk_locks_debug_remove(struct _mali_osk_lock_debug_s *checker);
+
+ /** @brief This function can return a given lock's owner when DEBUG is enabled. */
+ static inline u32 _mali_osk_lock_get_owner(struct _mali_osk_lock_debug_s *lock)
+ {
+ return lock->owner;
+ }
+#else
+#define _mali_osk_locks_debug_init(x, y, z) do {} while (0)
+#define _mali_osk_locks_debug_add(x) do {} while (0)
+#define _mali_osk_locks_debug_remove(x) do {} while (0)
+#endif
+
+ /** @brief Before use _mali_osk_spin_lock, init function should be used to allocate memory and initial spinlock*/
+ static inline _mali_osk_spinlock_t *_mali_osk_spinlock_init(_mali_osk_lock_flags_t flags, _mali_osk_lock_order_t order)
+ {
+ _mali_osk_spinlock_t *lock = NULL;
+
+ lock = kmalloc(sizeof(_mali_osk_spinlock_t), GFP_KERNEL);
+ if (NULL == lock) {
+ return NULL;
+ }
+ spin_lock_init(&lock->spinlock);
+ _mali_osk_locks_debug_init((struct _mali_osk_lock_debug_s *)lock, flags, order);
+ return lock;
+ }
+
+ /** @brief Lock a spinlock */
+ static inline void _mali_osk_spinlock_lock(_mali_osk_spinlock_t *lock)
+ {
+ BUG_ON(NULL == lock);
+ spin_lock(&lock->spinlock);
+ _mali_osk_locks_debug_add((struct _mali_osk_lock_debug_s *)lock);
+ }
+
+ /** @brief Unlock a spinlock */
+ static inline void _mali_osk_spinlock_unlock(_mali_osk_spinlock_t *lock)
+ {
+ BUG_ON(NULL == lock);
+ _mali_osk_locks_debug_remove((struct _mali_osk_lock_debug_s *)lock);
+ spin_unlock(&lock->spinlock);
+ }
+
+ /** @brief Free a memory block which the argument lock pointed to and its type must be
+ * _mali_osk_spinlock_t *. */
+ static inline void _mali_osk_spinlock_term(_mali_osk_spinlock_t *lock)
+ {
+ /* Parameter validation */
+ BUG_ON(NULL == lock);
+
+ /* Linux requires no explicit termination of spinlocks, semaphores, or rw_semaphores */
+ kfree(lock);
+ }
+
+ /** @brief Before _mali_osk_spinlock_irq_lock/unlock/term() is called, init function should be
+ * called to initial spinlock and flags in struct _mali_osk_spinlock_irq_t. */
+ static inline _mali_osk_spinlock_irq_t *_mali_osk_spinlock_irq_init(_mali_osk_lock_flags_t flags, _mali_osk_lock_order_t order)
+ {
+ _mali_osk_spinlock_irq_t *lock = NULL;
+ lock = kmalloc(sizeof(_mali_osk_spinlock_irq_t), GFP_KERNEL);
+
+ if (NULL == lock) {
+ return NULL;
+ }
+
+ lock->flags = 0;
+ spin_lock_init(&lock->spinlock);
+ _mali_osk_locks_debug_init((struct _mali_osk_lock_debug_s *)lock, flags, order);
+ return lock;
+ }
+
+ /** @brief Lock spinlock and save the register's state */
+ static inline void _mali_osk_spinlock_irq_lock(_mali_osk_spinlock_irq_t *lock)
+ {
+ unsigned long tmp_flags;
+
+ BUG_ON(NULL == lock);
+ spin_lock_irqsave(&lock->spinlock, tmp_flags);
+ lock->flags = tmp_flags;
+ _mali_osk_locks_debug_add((struct _mali_osk_lock_debug_s *)lock);
+ }
+
+ /** @brief Unlock spinlock with saved register's state */
+ static inline void _mali_osk_spinlock_irq_unlock(_mali_osk_spinlock_irq_t *lock)
+ {
+ BUG_ON(NULL == lock);
+ _mali_osk_locks_debug_remove((struct _mali_osk_lock_debug_s *)lock);
+ spin_unlock_irqrestore(&lock->spinlock, lock->flags);
+ }
+
+ /** @brief Destroy a given memory block which lock pointed to, and the lock type must be
+ * _mali_osk_spinlock_irq_t *. */
+ static inline void _mali_osk_spinlock_irq_term(_mali_osk_spinlock_irq_t *lock)
+ {
+ /* Parameter validation */
+ BUG_ON(NULL == lock);
+
+ /* Linux requires no explicit termination of spinlocks, semaphores, or rw_semaphores */
+ kfree(lock);
+ }
+
+ /** @brief Before _mali_osk_mutex_rw_wait/signal/term() is called, we should call
+ * _mali_osk_mutex_rw_init() to kmalloc a memory block and initial part of elements in it. */
+ static inline _mali_osk_mutex_rw_t *_mali_osk_mutex_rw_init(_mali_osk_lock_flags_t flags, _mali_osk_lock_order_t order)
+ {
+ _mali_osk_mutex_rw_t *lock = NULL;
+
+ lock = kmalloc(sizeof(_mali_osk_mutex_rw_t), GFP_KERNEL);
+
+ if (NULL == lock) {
+ return NULL;
+ }
+
+ init_rwsem(&lock->rw_sema);
+ _mali_osk_locks_debug_init((struct _mali_osk_lock_debug_s *)lock, flags, order);
+ return lock;
+ }
+
+ /** @brief When call _mali_osk_mutex_rw_wait/signal() functions, the second argument mode
+ * should be assigned with value _MALI_OSK_LOCKMODE_RO or _MALI_OSK_LOCKMODE_RW */
+ static inline void _mali_osk_mutex_rw_wait(_mali_osk_mutex_rw_t *lock, _mali_osk_lock_mode_t mode)
+ {
+ BUG_ON(NULL == lock);
+ BUG_ON(!(_MALI_OSK_LOCKMODE_RO == mode || _MALI_OSK_LOCKMODE_RW == mode));
+
+ if (mode == _MALI_OSK_LOCKMODE_RO) {
+ down_read(&lock->rw_sema);
+ } else {
+ down_write(&lock->rw_sema);
+ }
+
+#ifdef DEBUG
+ if (mode == _MALI_OSK_LOCKMODE_RW) {
+ lock->mode = mode;
+ } else { /* mode == _MALI_OSK_LOCKMODE_RO */
+ lock->mode = mode;
+ }
+ _mali_osk_locks_debug_add((struct _mali_osk_lock_debug_s *)lock);
+#endif
+ }
+
+ /** @brief Up lock->rw_sema with up_read/write() accordinf argument mode's value. */
+ static inline void _mali_osk_mutex_rw_signal(_mali_osk_mutex_rw_t *lock, _mali_osk_lock_mode_t mode)
+ {
+ BUG_ON(NULL == lock);
+ BUG_ON(!(_MALI_OSK_LOCKMODE_RO == mode || _MALI_OSK_LOCKMODE_RW == mode));
+#ifdef DEBUG
+ /* make sure the thread releasing the lock actually was the owner */
+ if (mode == _MALI_OSK_LOCKMODE_RW) {
+ _mali_osk_locks_debug_remove((struct _mali_osk_lock_debug_s *)lock);
+ /* This lock now has no owner */
+ lock->checker.owner = 0;
+ }
+#endif
+
+ if (mode == _MALI_OSK_LOCKMODE_RO) {
+ up_read(&lock->rw_sema);
+ } else {
+ up_write(&lock->rw_sema);
+ }
+ }
+
+ /** @brief Free a given memory block which lock pointed to and its type must be
+ * _mali_sok_mutex_rw_t *. */
+ static inline void _mali_osk_mutex_rw_term(_mali_osk_mutex_rw_t *lock)
+ {
+ /* Parameter validation */
+ BUG_ON(NULL == lock);
+
+ /* Linux requires no explicit termination of spinlocks, semaphores, or rw_semaphores */
+ kfree(lock);
+ }
+
+ /** @brief Mutex & mutex_interruptible share the same init and term function, because they have the
+ * same osk mutex struct, and the difference between them is which locking function they use */
+ static inline _mali_osk_mutex_t *_mali_osk_mutex_init(_mali_osk_lock_flags_t flags, _mali_osk_lock_order_t order)
+ {
+ _mali_osk_mutex_t *lock = NULL;
+
+ lock = kmalloc(sizeof(_mali_osk_mutex_t), GFP_KERNEL);
+
+ if (NULL == lock) {
+ return NULL;
+ }
+ mutex_init(&lock->mutex);
+
+ _mali_osk_locks_debug_init((struct _mali_osk_lock_debug_s *)lock, flags, order);
+ return lock;
+ }
+
+ /** @brief Lock the lock->mutex with mutex_lock_interruptible function */
+ static inline _mali_osk_errcode_t _mali_osk_mutex_wait_interruptible(_mali_osk_mutex_t *lock)
+ {
+ _mali_osk_errcode_t err = _MALI_OSK_ERR_OK;
+
+ BUG_ON(NULL == lock);
+
+ if (mutex_lock_interruptible(&lock->mutex)) {
+ printk(KERN_WARNING "Mali: Can not lock mutex\n");
+ err = _MALI_OSK_ERR_RESTARTSYSCALL;
+ }
+
+ _mali_osk_locks_debug_add((struct _mali_osk_lock_debug_s *)lock);
+ return err;
+ }
+
+ /** @brief Unlock the lock->mutex which is locked with mutex_lock_interruptible() function. */
+ static inline void _mali_osk_mutex_signal_interruptible(_mali_osk_mutex_t *lock)
+ {
+ BUG_ON(NULL == lock);
+ _mali_osk_locks_debug_remove((struct _mali_osk_lock_debug_s *)lock);
+ mutex_unlock(&lock->mutex);
+ }
+
+ /** @brief Lock the lock->mutex just with mutex_lock() function which could not be interruptted. */
+ static inline void _mali_osk_mutex_wait(_mali_osk_mutex_t *lock)
+ {
+ BUG_ON(NULL == lock);
+ mutex_lock(&lock->mutex);
+ _mali_osk_locks_debug_add((struct _mali_osk_lock_debug_s *)lock);
+ }
+
+ /** @brief Unlock the lock->mutex which is locked with mutex_lock() function. */
+ static inline void _mali_osk_mutex_signal(_mali_osk_mutex_t *lock)
+ {
+ BUG_ON(NULL == lock);
+ _mali_osk_locks_debug_remove((struct _mali_osk_lock_debug_s *)lock);
+ mutex_unlock(&lock->mutex);
+ }
+
+ /** @brief Free a given memory block which lock point. */
+ static inline void _mali_osk_mutex_term(_mali_osk_mutex_t *lock)
+ {
+ /* Parameter validation */
+ BUG_ON(NULL == lock);
+
+ /* Linux requires no explicit termination of spinlocks, semaphores, or rw_semaphores */
+ kfree(lock);
+ }
+
+#ifdef _cplusplus
+}
+#endif
+
+#endif
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_low_level_mem.c
+ * Implementation of the OS abstraction layer for the kernel device driver
+ */
+
+#include <asm/io.h>
+#include <linux/ioport.h>
+#include <linux/slab.h>
+
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+#include "mali_ukk.h"
+
+void _mali_osk_mem_barrier( void )
+{
+ mb();
+}
+
+void _mali_osk_write_mem_barrier( void )
+{
+ wmb();
+}
+
+mali_io_address _mali_osk_mem_mapioregion( u32 phys, u32 size, const char *description )
+{
+ return (mali_io_address)ioremap_nocache(phys, size);
+}
+
+void _mali_osk_mem_unmapioregion( u32 phys, u32 size, mali_io_address virt )
+{
+ iounmap((void*)virt);
+}
+
+_mali_osk_errcode_t inline _mali_osk_mem_reqregion( u32 phys, u32 size, const char *description )
+{
+#if MALI_LICENSE_IS_GPL
+ return _MALI_OSK_ERR_OK; /* GPL driver gets the mem region for the resources registered automatically */
+#else
+ return ((NULL == request_mem_region(phys, size, description)) ? _MALI_OSK_ERR_NOMEM : _MALI_OSK_ERR_OK);
+#endif
+}
+
+void inline _mali_osk_mem_unreqregion( u32 phys, u32 size )
+{
+#if !MALI_LICENSE_IS_GPL
+ release_mem_region(phys, size);
+#endif
+}
+
+void inline _mali_osk_mem_iowrite32_relaxed( volatile mali_io_address addr, u32 offset, u32 val )
+{
+ __raw_writel(cpu_to_le32(val),((u8*)addr) + offset);
+}
+
+u32 inline _mali_osk_mem_ioread32( volatile mali_io_address addr, u32 offset )
+{
+ return ioread32(((u8*)addr) + offset);
+}
+
+void inline _mali_osk_mem_iowrite32( volatile mali_io_address addr, u32 offset, u32 val )
+{
+ iowrite32(val, ((u8*)addr) + offset);
+}
+
+void _mali_osk_cache_flushall( void )
+{
+ /** @note Cached memory is not currently supported in this implementation */
+}
+
+void _mali_osk_cache_ensure_uncached_range_flushed( void *uncached_mapping, u32 offset, u32 size )
+{
+ _mali_osk_write_mem_barrier();
+}
+
+u32 _mali_osk_mem_write_safe(void *dest, const void *src, u32 size)
+{
+#define MALI_MEM_SAFE_COPY_BLOCK_SIZE 4096
+ u32 retval = 0;
+ void *temp_buf;
+
+ temp_buf = kmalloc(MALI_MEM_SAFE_COPY_BLOCK_SIZE, GFP_KERNEL);
+ if (NULL != temp_buf) {
+ u32 bytes_left_to_copy = size;
+ u32 i;
+ for (i = 0; i < size; i += MALI_MEM_SAFE_COPY_BLOCK_SIZE) {
+ u32 size_to_copy;
+ u32 size_copied;
+ u32 bytes_left;
+
+ if (bytes_left_to_copy > MALI_MEM_SAFE_COPY_BLOCK_SIZE) {
+ size_to_copy = MALI_MEM_SAFE_COPY_BLOCK_SIZE;
+ } else {
+ size_to_copy = bytes_left_to_copy;
+ }
+
+ bytes_left = copy_from_user(temp_buf, ((char*)src) + i, size_to_copy);
+ size_copied = size_to_copy - bytes_left;
+
+ bytes_left = copy_to_user(((char*)dest) + i, temp_buf, size_copied);
+ size_copied -= bytes_left;
+
+ bytes_left_to_copy -= size_copied;
+ retval += size_copied;
+
+ if (size_copied != size_to_copy) {
+ break; /* Early out, we was not able to copy this entire block */
+ }
+ }
+
+ kfree(temp_buf);
+ }
+
+ return retval;
+}
+
+_mali_osk_errcode_t _mali_ukk_mem_write_safe(_mali_uk_mem_write_safe_s *args)
+{
+ MALI_DEBUG_ASSERT_POINTER(args);
+
+ if (NULL == args->ctx) {
+ return _MALI_OSK_ERR_INVALID_ARGS;
+ }
+
+ /* Return number of bytes actually copied */
+ args->size = _mali_osk_mem_write_safe(args->dest, args->src, args->size);
+ return _MALI_OSK_ERR_OK;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_mali.c
+ * Implementation of the OS abstraction layer which is specific for the Mali kernel device driver
+ */
+#include <linux/kernel.h>
+#include <asm/uaccess.h>
+#include <linux/platform_device.h>
+#include <linux/mali/mali_utgard.h>
+
+#include "mali_osk_mali.h"
+#include "mali_kernel_common.h" /* MALI_xxx macros */
+#include "mali_osk.h" /* kernel side OS functions */
+#include "mali_kernel_linux.h"
+
+_mali_osk_errcode_t _mali_osk_resource_find(u32 addr, _mali_osk_resource_t *res)
+{
+ int i;
+
+ if (NULL == mali_platform_device) {
+ /* Not connected to a device */
+ return _MALI_OSK_ERR_ITEM_NOT_FOUND;
+ }
+
+ for (i = 0; i < mali_platform_device->num_resources; i++) {
+ if (IORESOURCE_MEM == resource_type(&(mali_platform_device->resource[i])) &&
+ mali_platform_device->resource[i].start == addr) {
+ if (NULL != res) {
+ res->base = addr;
+ res->description = mali_platform_device->resource[i].name;
+
+ /* Any (optional) IRQ resource belonging to this resource will follow */
+ if ((i + 1) < mali_platform_device->num_resources &&
+ IORESOURCE_IRQ == resource_type(&(mali_platform_device->resource[i+1]))) {
+ res->irq = mali_platform_device->resource[i+1].start;
+ } else {
+ res->irq = -1;
+ }
+ }
+ return _MALI_OSK_ERR_OK;
+ }
+ }
+
+ return _MALI_OSK_ERR_ITEM_NOT_FOUND;
+}
+
+u32 _mali_osk_resource_base_address(void)
+{
+ u32 lowest_addr = 0xFFFFFFFF;
+ u32 ret = 0;
+
+ if (NULL != mali_platform_device) {
+ int i;
+ for (i = 0; i < mali_platform_device->num_resources; i++) {
+ if (mali_platform_device->resource[i].flags & IORESOURCE_MEM &&
+ mali_platform_device->resource[i].start < lowest_addr) {
+ lowest_addr = mali_platform_device->resource[i].start;
+ ret = lowest_addr;
+ }
+ }
+ }
+
+ return ret;
+}
+
+_mali_osk_errcode_t _mali_osk_device_data_get(struct _mali_osk_device_data *data)
+{
+ MALI_DEBUG_ASSERT_POINTER(data);
+
+ if (NULL != mali_platform_device) {
+ struct mali_gpu_device_data* os_data = NULL;
+
+ os_data = (struct mali_gpu_device_data*)mali_platform_device->dev.platform_data;
+ if (NULL != os_data) {
+ /* Copy data from OS dependant struct to Mali neutral struct (identical!) */
+ data->dedicated_mem_start = os_data->dedicated_mem_start;
+ data->dedicated_mem_size = os_data->dedicated_mem_size;
+ data->shared_mem_size = os_data->shared_mem_size;
+ data->fb_start = os_data->fb_start;
+ data->fb_size = os_data->fb_size;
+ data->max_job_runtime = os_data->max_job_runtime;
+ data->utilization_interval = os_data->utilization_interval;
+ data->utilization_callback = os_data->utilization_callback;
+ data->pmu_switch_delay = os_data->pmu_switch_delay;
+ data->set_freq_callback = os_data->set_freq_callback;
+
+ memcpy(data->pmu_domain_config, os_data->pmu_domain_config, sizeof(os_data->pmu_domain_config));
+ return _MALI_OSK_ERR_OK;
+ }
+ }
+
+ return _MALI_OSK_ERR_ITEM_NOT_FOUND;
+}
+
+mali_bool _mali_osk_shared_interrupts(void)
+{
+ u32 irqs[128];
+ u32 i, j, irq, num_irqs_found = 0;
+
+ MALI_DEBUG_ASSERT_POINTER(mali_platform_device);
+ MALI_DEBUG_ASSERT(128 >= mali_platform_device->num_resources);
+
+ for (i = 0; i < mali_platform_device->num_resources; i++) {
+ if (IORESOURCE_IRQ & mali_platform_device->resource[i].flags) {
+ irq = mali_platform_device->resource[i].start;
+
+ for (j = 0; j < num_irqs_found; ++j) {
+ if (irq == irqs[j]) {
+ return MALI_TRUE;
+ }
+ }
+
+ irqs[num_irqs_found++] = irq;
+ }
+ }
+
+ return MALI_FALSE;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2010, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_math.c
+ * Implementation of the OS abstraction layer for the kernel device driver
+ */
+
+#include "mali_osk.h"
+#include <linux/bitops.h>
+
+u32 _mali_osk_clz( u32 input )
+{
+ return 32-fls(input);
+}
+
+u32 _mali_osk_fls( u32 input )
+{
+ return fls(input);
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2011, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_memory.c
+ * Implementation of the OS abstraction layer for the kernel device driver
+ */
+
+#include "mali_osk.h"
+#include <linux/slab.h>
+#include <linux/vmalloc.h>
+
+void inline *_mali_osk_calloc( u32 n, u32 size )
+{
+ return kcalloc(n, size, GFP_KERNEL);
+}
+
+void inline *_mali_osk_malloc( u32 size )
+{
+ return kmalloc(size, GFP_KERNEL);
+}
+
+void inline _mali_osk_free( void *ptr )
+{
+ kfree(ptr);
+}
+
+void inline *_mali_osk_valloc( u32 size )
+{
+ return vmalloc(size);
+}
+
+void inline _mali_osk_vfree( void *ptr )
+{
+ vfree(ptr);
+}
+
+void inline *_mali_osk_memcpy( void *dst, const void *src, u32 len )
+{
+ return memcpy(dst, src, len);
+}
+
+void inline *_mali_osk_memset( void *s, u32 c, u32 n )
+{
+ return memset(s, c, n);
+}
+
+mali_bool _mali_osk_mem_check_allocated( u32 max_allocated )
+{
+ /* No need to prevent an out-of-memory dialogue appearing on Linux,
+ * so we always return MALI_TRUE.
+ */
+ return MALI_TRUE;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_misc.c
+ * Implementation of the OS abstraction layer for the kernel device driver
+ */
+#include <linux/kernel.h>
+#include <asm/uaccess.h>
+#include <asm/cacheflush.h>
+#include <linux/sched.h>
+#include <linux/module.h>
+#include "mali_osk.h"
+
+void _mali_osk_dbgmsg( const char *fmt, ... )
+{
+ va_list args;
+ va_start(args, fmt);
+ vprintk(fmt, args);
+ va_end(args);
+}
+
+u32 _mali_osk_snprintf( char *buf, u32 size, const char *fmt, ... )
+{
+ int res;
+ va_list args;
+ va_start(args, fmt);
+
+ res = vscnprintf(buf, (size_t)size, fmt, args);
+
+ va_end(args);
+ return res;
+}
+
+void _mali_osk_abort(void)
+{
+ /* make a simple fault by dereferencing a NULL pointer */
+ dump_stack();
+ *(int *)0 = 0;
+}
+
+void _mali_osk_break(void)
+{
+ _mali_osk_abort();
+}
+
+u32 _mali_osk_get_pid(void)
+{
+ /* Thread group ID is the process ID on Linux */
+ return (u32)current->tgid;
+}
+
+u32 _mali_osk_get_tid(void)
+{
+ /* pid is actually identifying the thread on Linux */
+ u32 tid = current->pid;
+
+ /* If the pid is 0 the core was idle. Instead of returning 0 we return a special number
+ * identifying which core we are on. */
+ if (0 == tid) {
+ tid = -(1 + raw_smp_processor_id());
+ }
+
+ return tid;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_notification.c
+ * Implementation of the OS abstraction layer for the kernel device driver
+ */
+
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+
+#include <linux/sched.h>
+#include <linux/slab.h>
+#include <linux/spinlock.h>
+
+/**
+ * Declaration of the notification queue object type
+ * Contains a linked list of notification pending delivery to user space.
+ * It also contains a wait queue of exclusive waiters blocked in the ioctl
+ * When a new notification is posted a single thread is resumed.
+ */
+struct _mali_osk_notification_queue_t_struct {
+ spinlock_t mutex; /**< Mutex protecting the list */
+ wait_queue_head_t receive_queue; /**< Threads waiting for new entries to the queue */
+ struct list_head head; /**< List of notifications waiting to be picked up */
+};
+
+typedef struct _mali_osk_notification_wrapper_t_struct {
+ struct list_head list; /**< Internal linked list variable */
+ _mali_osk_notification_t data; /**< Notification data */
+} _mali_osk_notification_wrapper_t;
+
+_mali_osk_notification_queue_t *_mali_osk_notification_queue_init( void )
+{
+ _mali_osk_notification_queue_t * result;
+
+ result = (_mali_osk_notification_queue_t *)kmalloc(sizeof(_mali_osk_notification_queue_t), GFP_KERNEL);
+ if (NULL == result) return NULL;
+
+ spin_lock_init(&result->mutex);
+ init_waitqueue_head(&result->receive_queue);
+ INIT_LIST_HEAD(&result->head);
+
+ return result;
+}
+
+_mali_osk_notification_t *_mali_osk_notification_create( u32 type, u32 size )
+{
+ /* OPT Recycling of notification objects */
+ _mali_osk_notification_wrapper_t *notification;
+
+ notification = (_mali_osk_notification_wrapper_t *)kmalloc( sizeof(_mali_osk_notification_wrapper_t) + size,
+ GFP_KERNEL | __GFP_HIGH | __GFP_REPEAT);
+ if (NULL == notification) {
+ MALI_DEBUG_PRINT(1, ("Failed to create a notification object\n"));
+ return NULL;
+ }
+
+ /* Init the list */
+ INIT_LIST_HEAD(¬ification->list);
+
+ if (0 != size) {
+ notification->data.result_buffer = ((u8*)notification) + sizeof(_mali_osk_notification_wrapper_t);
+ } else {
+ notification->data.result_buffer = NULL;
+ }
+
+ /* set up the non-allocating fields */
+ notification->data.notification_type = type;
+ notification->data.result_buffer_size = size;
+
+ /* all ok */
+ return &(notification->data);
+}
+
+void _mali_osk_notification_delete( _mali_osk_notification_t *object )
+{
+ _mali_osk_notification_wrapper_t *notification;
+ MALI_DEBUG_ASSERT_POINTER( object );
+
+ notification = container_of( object, _mali_osk_notification_wrapper_t, data );
+
+ /* Free the container */
+ kfree(notification);
+}
+
+void _mali_osk_notification_queue_term( _mali_osk_notification_queue_t *queue )
+{
+ _mali_osk_notification_t *result;
+ MALI_DEBUG_ASSERT_POINTER( queue );
+
+ while (_MALI_OSK_ERR_OK == _mali_osk_notification_queue_dequeue(queue, &result)) {
+ _mali_osk_notification_delete( result );
+ }
+
+ /* not much to do, just free the memory */
+ kfree(queue);
+}
+void _mali_osk_notification_queue_send( _mali_osk_notification_queue_t *queue, _mali_osk_notification_t *object )
+{
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ unsigned long irq_flags;
+#endif
+
+ _mali_osk_notification_wrapper_t *notification;
+ MALI_DEBUG_ASSERT_POINTER( queue );
+ MALI_DEBUG_ASSERT_POINTER( object );
+
+ notification = container_of( object, _mali_osk_notification_wrapper_t, data );
+
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ spin_lock_irqsave(&queue->mutex, irq_flags);
+#else
+ spin_lock(&queue->mutex);
+#endif
+
+ list_add_tail(¬ification->list, &queue->head);
+
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ spin_unlock_irqrestore(&queue->mutex, irq_flags);
+#else
+ spin_unlock(&queue->mutex);
+#endif
+
+ /* and wake up one possible exclusive waiter */
+ wake_up(&queue->receive_queue);
+}
+
+_mali_osk_errcode_t _mali_osk_notification_queue_dequeue( _mali_osk_notification_queue_t *queue, _mali_osk_notification_t **result )
+{
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ unsigned long irq_flags;
+#endif
+
+ _mali_osk_errcode_t ret = _MALI_OSK_ERR_ITEM_NOT_FOUND;
+ _mali_osk_notification_wrapper_t *wrapper_object;
+
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ spin_lock_irqsave(&queue->mutex, irq_flags);
+#else
+ spin_lock(&queue->mutex);
+#endif
+
+ if (!list_empty(&queue->head)) {
+ wrapper_object = list_entry(queue->head.next, _mali_osk_notification_wrapper_t, list);
+ *result = &(wrapper_object->data);
+ list_del_init(&wrapper_object->list);
+ ret = _MALI_OSK_ERR_OK;
+ }
+
+#if defined(MALI_UPPER_HALF_SCHEDULING)
+ spin_unlock_irqrestore(&queue->mutex, irq_flags);
+#else
+ spin_unlock(&queue->mutex);
+#endif
+
+ return ret;
+}
+
+_mali_osk_errcode_t _mali_osk_notification_queue_receive( _mali_osk_notification_queue_t *queue, _mali_osk_notification_t **result )
+{
+ /* check input */
+ MALI_DEBUG_ASSERT_POINTER( queue );
+ MALI_DEBUG_ASSERT_POINTER( result );
+
+ /* default result */
+ *result = NULL;
+
+ if (wait_event_interruptible(queue->receive_queue,
+ _MALI_OSK_ERR_OK == _mali_osk_notification_queue_dequeue(queue, result))) {
+ return _MALI_OSK_ERR_RESTARTSYSCALL;
+ }
+
+ return _MALI_OSK_ERR_OK; /* all ok */
+}
--- /dev/null
+/**
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_pm.c
+ * Implementation of the callback functions from common power management
+ */
+
+#include <linux/sched.h>
+
+#ifdef CONFIG_PM_RUNTIME
+#include <linux/pm_runtime.h>
+#endif /* CONFIG_PM_RUNTIME */
+#include <linux/platform_device.h>
+#include <linux/version.h>
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_kernel_linux.h"
+
+static _mali_osk_atomic_t mali_pm_ref_count;
+
+void _mali_osk_pm_dev_enable(void)
+{
+ _mali_osk_atomic_init(&mali_pm_ref_count, 0);
+}
+
+void _mali_osk_pm_dev_disable(void)
+{
+ _mali_osk_atomic_term(&mali_pm_ref_count);
+}
+
+/* Can NOT run in atomic context */
+_mali_osk_errcode_t _mali_osk_pm_dev_ref_add(void)
+{
+#ifdef CONFIG_PM_RUNTIME
+ int err;
+ MALI_DEBUG_ASSERT_POINTER(mali_platform_device);
+ err = pm_runtime_get_sync(&(mali_platform_device->dev));
+#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
+ pm_runtime_mark_last_busy(&(mali_platform_device->dev));
+#endif
+ if (0 > err) {
+ MALI_PRINT_ERROR(("Mali OSK PM: pm_runtime_get_sync() returned error code %d\n", err));
+ return _MALI_OSK_ERR_FAULT;
+ }
+ _mali_osk_atomic_inc(&mali_pm_ref_count);
+ MALI_DEBUG_PRINT(4, ("Mali OSK PM: Power ref taken (%u)\n", _mali_osk_atomic_read(&mali_pm_ref_count)));
+#endif
+ return _MALI_OSK_ERR_OK;
+}
+
+/* Can run in atomic context */
+void _mali_osk_pm_dev_ref_dec(void)
+{
+#ifdef CONFIG_PM_RUNTIME
+ MALI_DEBUG_ASSERT_POINTER(mali_platform_device);
+ _mali_osk_atomic_dec(&mali_pm_ref_count);
+#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
+ pm_runtime_mark_last_busy(&(mali_platform_device->dev));
+ pm_runtime_put_autosuspend(&(mali_platform_device->dev));
+#else
+ pm_runtime_put(&(mali_platform_device->dev));
+#endif
+ MALI_DEBUG_PRINT(4, ("Mali OSK PM: Power ref released (%u)\n", _mali_osk_atomic_read(&mali_pm_ref_count)));
+#endif
+}
+
+/* Can run in atomic context */
+mali_bool _mali_osk_pm_dev_ref_add_no_power_on(void)
+{
+#ifdef CONFIG_PM_RUNTIME
+ u32 ref;
+ MALI_DEBUG_ASSERT_POINTER(mali_platform_device);
+ pm_runtime_get_noresume(&(mali_platform_device->dev));
+ ref = _mali_osk_atomic_read(&mali_pm_ref_count);
+ MALI_DEBUG_PRINT(4, ("Mali OSK PM: No-power ref taken (%u)\n", _mali_osk_atomic_read(&mali_pm_ref_count)));
+ return ref > 0 ? MALI_TRUE : MALI_FALSE;
+#else
+ return MALI_TRUE;
+#endif
+}
+
+/* Can run in atomic context */
+void _mali_osk_pm_dev_ref_dec_no_power_on(void)
+{
+#ifdef CONFIG_PM_RUNTIME
+ MALI_DEBUG_ASSERT_POINTER(mali_platform_device);
+#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
+ pm_runtime_put_autosuspend(&(mali_platform_device->dev));
+#else
+ pm_runtime_put(&(mali_platform_device->dev));
+#endif
+ MALI_DEBUG_PRINT(4, ("Mali OSK PM: No-power ref released (%u)\n", _mali_osk_atomic_read(&mali_pm_ref_count)));
+#endif
+}
+
+void _mali_osk_pm_dev_barrier(void)
+{
+#ifdef CONFIG_PM_RUNTIME
+ pm_runtime_barrier(&(mali_platform_device->dev));
+#endif
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include <linux/module.h>
+
+#include <mali_profiling_gator_api.h>
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+#include "mali_ukk.h"
+#include "mali_uk_types.h"
+#include "mali_osk_profiling.h"
+#include "mali_linux_trace.h"
+#include "mali_gp.h"
+#include "mali_pp.h"
+#include "mali_pp_scheduler.h"
+#include "mali_l2_cache.h"
+#include "mali_user_settings_db.h"
+
+_mali_osk_errcode_t _mali_osk_profiling_init(mali_bool auto_start)
+{
+ if (MALI_TRUE == auto_start) {
+ mali_set_user_setting(_MALI_UK_USER_SETTING_SW_EVENTS_ENABLE, MALI_TRUE);
+ }
+
+ return _MALI_OSK_ERR_OK;
+}
+
+void _mali_osk_profiling_term(void)
+{
+ /* Nothing to do */
+}
+
+_mali_osk_errcode_t _mali_osk_profiling_start(u32 * limit)
+{
+ /* Nothing to do */
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t _mali_osk_profiling_stop(u32 *count)
+{
+ /* Nothing to do */
+ return _MALI_OSK_ERR_OK;
+}
+
+u32 _mali_osk_profiling_get_count(void)
+{
+ return 0;
+}
+
+_mali_osk_errcode_t _mali_osk_profiling_get_event(u32 index, u64* timestamp, u32* event_id, u32 data[5])
+{
+ /* Nothing to do */
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t _mali_osk_profiling_clear(void)
+{
+ /* Nothing to do */
+ return _MALI_OSK_ERR_OK;
+}
+
+mali_bool _mali_osk_profiling_is_recording(void)
+{
+ return MALI_FALSE;
+}
+
+mali_bool _mali_osk_profiling_have_recording(void)
+{
+ return MALI_FALSE;
+}
+
+void _mali_osk_profiling_report_sw_counters(u32 *counters)
+{
+ trace_mali_sw_counters(_mali_osk_get_pid(), _mali_osk_get_tid(), NULL, counters);
+}
+
+
+_mali_osk_errcode_t _mali_ukk_profiling_start(_mali_uk_profiling_start_s *args)
+{
+ return _mali_osk_profiling_start(&args->limit);
+}
+
+_mali_osk_errcode_t _mali_ukk_profiling_add_event(_mali_uk_profiling_add_event_s *args)
+{
+ /* Always add process and thread identificator in the first two data elements for events from user space */
+ _mali_osk_profiling_add_event(args->event_id, _mali_osk_get_pid(), _mali_osk_get_tid(), args->data[2], args->data[3], args->data[4]);
+
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t _mali_ukk_profiling_stop(_mali_uk_profiling_stop_s *args)
+{
+ return _mali_osk_profiling_stop(&args->count);
+}
+
+_mali_osk_errcode_t _mali_ukk_profiling_get_event(_mali_uk_profiling_get_event_s *args)
+{
+ return _mali_osk_profiling_get_event(args->index, &args->timestamp, &args->event_id, args->data);
+}
+
+_mali_osk_errcode_t _mali_ukk_profiling_clear(_mali_uk_profiling_clear_s *args)
+{
+ return _mali_osk_profiling_clear();
+}
+
+_mali_osk_errcode_t _mali_ukk_sw_counters_report(_mali_uk_sw_counters_report_s *args)
+{
+ _mali_osk_profiling_report_sw_counters(args->counters);
+ return _MALI_OSK_ERR_OK;
+}
+
+/**
+ * Called by gator.ko to set HW counters
+ *
+ * @param counter_id The counter ID.
+ * @param event_id Event ID that the counter should count (HW counter value from TRM).
+ *
+ * @return 1 on success, 0 on failure.
+ */
+int _mali_profiling_set_event(u32 counter_id, s32 event_id)
+{
+ if (COUNTER_VP_0_C0 == counter_id) {
+ mali_gp_job_set_gp_counter_src0(event_id);
+ } else if (COUNTER_VP_0_C1 == counter_id) {
+ mali_gp_job_set_gp_counter_src1(event_id);
+ } else if (COUNTER_FP_0_C0 <= counter_id && COUNTER_FP_7_C1 >= counter_id) {
+ /*
+ * Two compatibility notes for this function:
+ *
+ * 1) Previously the DDK allowed per core counters.
+ *
+ * This did not make much sense on Mali-450 with the "virtual PP core" concept,
+ * so this option was removed, and only the same pair of HW counters was allowed on all cores,
+ * beginning with r3p2 release.
+ *
+ * Starting with r4p0, it is now possible to set different HW counters for the different sub jobs.
+ * This should be almost the same, since sub job 0 is designed to run on core 0,
+ * sub job 1 on core 1, and so on.
+ *
+ * The scheduling of PP sub jobs is not predictable, and this often led to situations where core 0 ran 2
+ * sub jobs, while for instance core 1 ran zero. Having the counters set per sub job would thus increase
+ * the predictability of the returned data (as you would be guaranteed data for all the selected HW counters).
+ *
+ * PS: Core scaling needs to be disabled in order to use this reliably (goes for both solutions).
+ *
+ * The framework/#defines with Gator still indicates that the counter is for a particular core,
+ * but this is internally used as a sub job ID instead (no translation needed).
+ *
+ * 2) Global/default vs per sub job counters
+ *
+ * Releases before r3p2 had only per PP core counters.
+ * r3p2 releases had only one set of default/global counters which applied to all PP cores
+ * Starting with r4p0, we have both a set of default/global counters,
+ * and individual counters per sub job (equal to per core).
+ *
+ * To keep compatibility with Gator/DS-5/streamline, the following scheme is used:
+ *
+ * r3p2 release; only counters set for core 0 is handled,
+ * this is applied as the default/global set of counters, and will thus affect all cores.
+ *
+ * r4p0 release; counters set for core 0 is applied as both the global/default set of counters,
+ * and counters for sub job 0.
+ * Counters set for core 1-7 is only applied for the corresponding sub job.
+ *
+ * This should allow the DS-5/Streamline GUI to have a simple mode where it only allows setting the
+ * values for core 0, and thus this will be applied to all PP sub jobs/cores.
+ * Advanced mode will also be supported, where individual pairs of HW counters can be selected.
+ *
+ * The GUI will (until it is updated) still refer to cores instead of sub jobs, but this is probably
+ * something we can live with!
+ *
+ * Mali-450 note: Each job is not divided into a deterministic number of sub jobs, as the HW DLBU
+ * automatically distributes the load between whatever number of cores is available at this particular time.
+ * A normal PP job on Mali-450 is thus considered a single (virtual) job, and it will thus only be possible
+ * to use a single pair of HW counters (even if the job ran on multiple PP cores).
+ * In other words, only the global/default pair of PP HW counters will be used for normal Mali-450 jobs.
+ */
+ u32 sub_job = (counter_id - COUNTER_FP_0_C0) >> 1;
+ u32 counter_src = (counter_id - COUNTER_FP_0_C0) & 1;
+ if (0 == counter_src) {
+ mali_pp_job_set_pp_counter_sub_job_src0(sub_job, event_id);
+ if (0 == sub_job) {
+ mali_pp_job_set_pp_counter_global_src0(event_id);
+ }
+ } else {
+ mali_pp_job_set_pp_counter_sub_job_src1(sub_job, event_id);
+ if (0 == sub_job) {
+ mali_pp_job_set_pp_counter_global_src1(event_id);
+ }
+ }
+ } else if (COUNTER_L2_0_C0 <= counter_id && COUNTER_L2_2_C1 >= counter_id) {
+ u32 core_id = (counter_id - COUNTER_L2_0_C0) >> 1;
+ struct mali_l2_cache_core* l2_cache_core = mali_l2_cache_core_get_glob_l2_core(core_id);
+
+ if (NULL != l2_cache_core) {
+ u32 counter_src = (counter_id - COUNTER_L2_0_C0) & 1;
+ if (0 == counter_src) {
+ mali_l2_cache_core_set_counter_src0(l2_cache_core, event_id);
+ } else {
+ mali_l2_cache_core_set_counter_src1(l2_cache_core, event_id);
+ }
+ }
+ } else {
+ return 0; /* Failure, unknown event */
+ }
+
+ return 1; /* success */
+}
+
+/**
+ * Called by gator.ko to retrieve the L2 cache counter values for all L2 cache cores.
+ * The L2 cache counters are unique in that they are polled by gator, rather than being
+ * transmitted via the tracepoint mechanism.
+ *
+ * @param values Pointer to a _mali_profiling_l2_counter_values structure where
+ * the counter sources and values will be output
+ * @return 0 if all went well; otherwise, return the mask with the bits set for the powered off cores
+ */
+u32 _mali_profiling_get_l2_counters(_mali_profiling_l2_counter_values *values)
+{
+ struct mali_l2_cache_core *l2_cache;
+ u32 l2_cores_num = mali_l2_cache_core_get_glob_num_l2_cores();
+ u32 i;
+ u32 ret = 0;
+
+ MALI_DEBUG_ASSERT(l2_cores_num <= 3);
+
+ for (i = 0; i < l2_cores_num; i++) {
+ l2_cache = mali_l2_cache_core_get_glob_l2_core(i);
+
+ if (NULL == l2_cache) {
+ continue;
+ }
+
+ if (MALI_TRUE == mali_l2_cache_lock_power_state(l2_cache)) {
+ /* It is now safe to access the L2 cache core in order to retrieve the counters */
+ mali_l2_cache_core_get_counter_values(l2_cache,
+ &values->cores[i].source0,
+ &values->cores[i].value0,
+ &values->cores[i].source1,
+ &values->cores[i].value1);
+ } else {
+ /* The core was not available, set the right bit in the mask. */
+ ret |= (1 << i);
+ }
+ mali_l2_cache_unlock_power_state(l2_cache);
+ }
+
+ return ret;
+}
+
+/**
+ * Called by gator to control the production of profiling information at runtime.
+ */
+void _mali_profiling_control(u32 action, u32 value)
+{
+ switch(action) {
+ case FBDUMP_CONTROL_ENABLE:
+ mali_set_user_setting(_MALI_UK_USER_SETTING_COLORBUFFER_CAPTURE_ENABLED, (value == 0 ? MALI_FALSE : MALI_TRUE));
+ break;
+ case FBDUMP_CONTROL_RATE:
+ mali_set_user_setting(_MALI_UK_USER_SETTING_BUFFER_CAPTURE_N_FRAMES, value);
+ break;
+ case SW_COUNTER_ENABLE:
+ mali_set_user_setting(_MALI_UK_USER_SETTING_SW_COUNTER_ENABLED, value);
+ break;
+ case FBDUMP_CONTROL_RESIZE_FACTOR:
+ mali_set_user_setting(_MALI_UK_USER_SETTING_BUFFER_CAPTURE_RESIZE_FACTOR, value);
+ break;
+ default:
+ break; /* Ignore unimplemented actions */
+ }
+}
+
+/**
+ * Called by gator to get mali api version.
+ */
+u32 _mali_profiling_get_api_version(void)
+{
+ return MALI_PROFILING_API_VERSION;
+}
+
+/**
+* Called by gator to get the data about Mali instance in use:
+* product id, version, number of cores
+*/
+void _mali_profiling_get_mali_version(struct _mali_profiling_mali_version *values)
+{
+ values->mali_product_id = (u32)mali_kernel_core_get_product_id();
+ values->mali_version_major = mali_kernel_core_get_gpu_major_version();
+ values->mali_version_minor = mali_kernel_core_get_gpu_minor_version();
+ values->num_of_l2_cores = mali_l2_cache_core_get_glob_num_l2_cores();
+ values->num_of_fp_cores = mali_pp_scheduler_get_num_cores_total();
+ values->num_of_vp_cores = 1;
+}
+
+EXPORT_SYMBOL(_mali_profiling_set_event);
+EXPORT_SYMBOL(_mali_profiling_get_l2_counters);
+EXPORT_SYMBOL(_mali_profiling_control);
+EXPORT_SYMBOL(_mali_profiling_get_api_version);
+EXPORT_SYMBOL(_mali_profiling_get_mali_version);
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2010, 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_specific.h
+ * Defines per-OS Kernel level specifics, such as unusual workarounds for
+ * certain OSs.
+ */
+
+#ifndef __MALI_OSK_SPECIFIC_H__
+#define __MALI_OSK_SPECIFIC_H__
+
+#include <asm/uaccess.h>
+#include <linux/platform_device.h>
+#include <linux/dmapool.h>
+#include <linux/gfp.h>
+#include <linux/hardirq.h>
+
+#include "mali_osk_types.h"
+#include "mali_kernel_linux.h"
+
+#define MALI_STATIC_INLINE static inline
+#define MALI_NON_STATIC_INLINE inline
+
+typedef struct dma_pool * mali_dma_pool;
+
+
+MALI_STATIC_INLINE mali_dma_pool mali_dma_pool_create(u32 size, u32 alignment, u32 boundary)
+{
+ return dma_pool_create("mali-dma", &mali_platform_device->dev, size, alignment, boundary);
+}
+
+MALI_STATIC_INLINE void mali_dma_pool_destroy(mali_dma_pool pool)
+{
+ dma_pool_destroy(pool);
+}
+
+MALI_STATIC_INLINE mali_io_address mali_dma_pool_alloc(mali_dma_pool pool, u32 *phys_addr)
+{
+ return dma_pool_alloc(pool, GFP_KERNEL, phys_addr);
+}
+
+MALI_STATIC_INLINE void mali_dma_pool_free(mali_dma_pool pool, void* virt_addr, u32 phys_addr)
+{
+ dma_pool_free(pool, virt_addr, phys_addr);
+}
+
+
+#if MALI_ENABLE_CPU_CYCLES
+/* Reads out the clock cycle performance counter of the current cpu.
+ It is useful for cost-free (2 cycle) measuring of the time spent
+ in a code path. Sample before and after, the diff number of cycles.
+ When the CPU is idle it will not increase this clock counter.
+ It means that the counter is accurate if only spin-locks are used,
+ but mutexes may lead to too low values since the cpu might "idle"
+ waiting for the mutex to become available.
+ The clock source is configured on the CPU during mali module load,
+ but will not give useful output after a CPU has been power cycled.
+ It is therefore important to configure the system to not turn of
+ the cpu cores when using this functionallity.*/
+static inline unsigned int mali_get_cpu_cyclecount(void)
+{
+ unsigned int value;
+ /* Reading the CCNT Register - CPU clock counter */
+ asm volatile ("MRC p15, 0, %0, c9, c13, 0\t\n": "=r"(value));
+ return value;
+}
+
+void mali_init_cpu_time_counters(int reset, int enable_divide_by_64);
+#endif
+
+
+MALI_STATIC_INLINE u32 _mali_osk_copy_from_user(void *to, void *from, u32 n)
+{
+ return (u32)copy_from_user(to, from, (unsigned long)n);
+}
+
+MALI_STATIC_INLINE mali_bool _mali_osk_in_atomic(void)
+{
+ return in_atomic();
+}
+
+#define _mali_osk_put_user(x, ptr) put_user(x, ptr)
+
+#endif /* __MALI_OSK_SPECIFIC_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2010, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_time.c
+ * Implementation of the OS abstraction layer for the kernel device driver
+ */
+
+#include "mali_osk.h"
+#include <linux/jiffies.h>
+#include <linux/time.h>
+#include <asm/delay.h>
+
+int _mali_osk_time_after( u32 ticka, u32 tickb )
+{
+ return time_after((unsigned long)ticka, (unsigned long)tickb);
+}
+
+u32 _mali_osk_time_mstoticks( u32 ms )
+{
+ return msecs_to_jiffies(ms);
+}
+
+u32 _mali_osk_time_tickstoms( u32 ticks )
+{
+ return jiffies_to_msecs(ticks);
+}
+
+u32 _mali_osk_time_tickcount( void )
+{
+ return jiffies;
+}
+
+void _mali_osk_time_ubusydelay( u32 usecs )
+{
+ udelay(usecs);
+}
+
+u64 _mali_osk_time_get_ns( void )
+{
+ struct timespec tsval;
+ getnstimeofday(&tsval);
+ return (u64)timespec_to_ns(&tsval);
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_timers.c
+ * Implementation of the OS abstraction layer for the kernel device driver
+ */
+
+#include <linux/timer.h>
+#include <linux/slab.h>
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+
+struct _mali_osk_timer_t_struct {
+ struct timer_list timer;
+};
+
+typedef void (*timer_timeout_function_t)(unsigned long);
+
+_mali_osk_timer_t *_mali_osk_timer_init(void)
+{
+ _mali_osk_timer_t *t = (_mali_osk_timer_t*)kmalloc(sizeof(_mali_osk_timer_t), GFP_KERNEL);
+ if (NULL != t) init_timer(&t->timer);
+ return t;
+}
+
+void _mali_osk_timer_add( _mali_osk_timer_t *tim, u32 ticks_to_expire )
+{
+ MALI_DEBUG_ASSERT_POINTER(tim);
+ tim->timer.expires = jiffies + ticks_to_expire;
+ add_timer(&(tim->timer));
+}
+
+void _mali_osk_timer_mod( _mali_osk_timer_t *tim, u32 ticks_to_expire)
+{
+ MALI_DEBUG_ASSERT_POINTER(tim);
+ mod_timer(&(tim->timer), jiffies + ticks_to_expire);
+}
+
+void _mali_osk_timer_del( _mali_osk_timer_t *tim )
+{
+ MALI_DEBUG_ASSERT_POINTER(tim);
+ del_timer_sync(&(tim->timer));
+}
+
+void _mali_osk_timer_del_async( _mali_osk_timer_t *tim )
+{
+ MALI_DEBUG_ASSERT_POINTER(tim);
+ del_timer(&(tim->timer));
+}
+
+mali_bool _mali_osk_timer_pending( _mali_osk_timer_t *tim )
+{
+ MALI_DEBUG_ASSERT_POINTER(tim);
+ return 1 == timer_pending(&(tim->timer));
+}
+
+void _mali_osk_timer_setcallback( _mali_osk_timer_t *tim, _mali_osk_timer_callback_t callback, void *data )
+{
+ MALI_DEBUG_ASSERT_POINTER(tim);
+ tim->timer.data = (unsigned long)data;
+ tim->timer.function = (timer_timeout_function_t)callback;
+}
+
+void _mali_osk_timer_term( _mali_osk_timer_t *tim )
+{
+ MALI_DEBUG_ASSERT_POINTER(tim);
+ kfree(tim);
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_wait_queue.c
+ * Implemenation of the OS abstraction layer for the kernel device driver
+ */
+
+#include <linux/wait.h>
+#include <linux/slab.h>
+#include <linux/sched.h>
+
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+
+struct _mali_osk_wait_queue_t_struct {
+ wait_queue_head_t wait_queue;
+};
+
+_mali_osk_wait_queue_t* _mali_osk_wait_queue_init( void )
+{
+ _mali_osk_wait_queue_t* ret = NULL;
+
+ ret = kmalloc(sizeof(_mali_osk_wait_queue_t), GFP_KERNEL);
+
+ if (NULL == ret) {
+ return ret;
+ }
+
+ init_waitqueue_head(&ret->wait_queue);
+ MALI_DEBUG_ASSERT(!waitqueue_active(&ret->wait_queue));
+
+ return ret;
+}
+
+void _mali_osk_wait_queue_wait_event( _mali_osk_wait_queue_t *queue, mali_bool (*condition)(void *), void *data )
+{
+ MALI_DEBUG_ASSERT_POINTER( queue );
+ MALI_DEBUG_PRINT(6, ("Adding to wait queue %p\n", queue));
+ wait_event(queue->wait_queue, condition(data));
+}
+
+void _mali_osk_wait_queue_wait_event_timeout( _mali_osk_wait_queue_t *queue, mali_bool (*condition)(void *), void *data, u32 timeout )
+{
+ MALI_DEBUG_ASSERT_POINTER( queue );
+ MALI_DEBUG_PRINT(6, ("Adding to wait queue %p\n", queue));
+ wait_event_timeout(queue->wait_queue, condition(data), _mali_osk_time_mstoticks(timeout));
+}
+
+void _mali_osk_wait_queue_wake_up( _mali_osk_wait_queue_t *queue )
+{
+ MALI_DEBUG_ASSERT_POINTER( queue );
+
+ /* if queue is empty, don't attempt to wake up its elements */
+ if (!waitqueue_active(&queue->wait_queue)) return;
+
+ MALI_DEBUG_PRINT(6, ("Waking up elements in wait queue %p ....\n", queue));
+
+ wake_up_all(&queue->wait_queue);
+
+ MALI_DEBUG_PRINT(6, ("... elements in wait queue %p woken up\n", queue));
+}
+
+void _mali_osk_wait_queue_term( _mali_osk_wait_queue_t *queue )
+{
+ /* Parameter validation */
+ MALI_DEBUG_ASSERT_POINTER( queue );
+
+ /* Linux requires no explicit termination of wait queues */
+ kfree(queue);
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_osk_wq.c
+ * Implementation of the OS abstraction layer for the kernel device driver
+ */
+
+#include <linux/slab.h> /* For memory allocation */
+#include <linux/workqueue.h>
+#include <linux/version.h>
+#include <linux/sched.h>
+
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_kernel_license.h"
+#include "mali_kernel_linux.h"
+
+typedef struct _mali_osk_wq_work_s {
+ _mali_osk_wq_work_handler_t handler;
+ void *data;
+ mali_bool high_pri;
+ struct work_struct work_handle;
+} mali_osk_wq_work_object_t;
+
+typedef struct _mali_osk_wq_delayed_work_s {
+ _mali_osk_wq_work_handler_t handler;
+ void *data;
+ struct delayed_work work;
+} mali_osk_wq_delayed_work_object_t;
+
+#if MALI_LICENSE_IS_GPL
+struct workqueue_struct *mali_wq_normal = NULL;
+struct workqueue_struct *mali_wq_high = NULL;
+#endif
+
+static void _mali_osk_wq_work_func(struct work_struct *work);
+
+_mali_osk_errcode_t _mali_osk_wq_init(void)
+{
+#if MALI_LICENSE_IS_GPL
+ MALI_DEBUG_ASSERT(NULL == mali_wq_normal);
+ MALI_DEBUG_ASSERT(NULL == mali_wq_high);
+
+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,36)
+ mali_wq_normal = alloc_workqueue("mali", WQ_UNBOUND, 0);
+ mali_wq_high = alloc_workqueue("mali_high_pri", WQ_HIGHPRI, 0);
+#else
+ mali_wq_normal = create_workqueue("mali");
+ mali_wq_high = create_workqueue("mali_high_pri");
+#endif
+ if (NULL == mali_wq_normal || NULL == mali_wq_high) {
+ MALI_PRINT_ERROR(("Unable to create Mali workqueues\n"));
+
+ if (mali_wq_normal) destroy_workqueue(mali_wq_normal);
+ if (mali_wq_high) destroy_workqueue(mali_wq_high);
+
+ mali_wq_normal = NULL;
+ mali_wq_high = NULL;
+
+ return _MALI_OSK_ERR_FAULT;
+ }
+#endif /* MALI_LICENSE_IS_GPL */
+
+ return _MALI_OSK_ERR_OK;
+}
+
+void _mali_osk_wq_flush(void)
+{
+#if MALI_LICENSE_IS_GPL
+ flush_workqueue(mali_wq_high);
+ flush_workqueue(mali_wq_normal);
+#else
+ flush_scheduled_work();
+#endif
+}
+
+void _mali_osk_wq_term(void)
+{
+#if MALI_LICENSE_IS_GPL
+ MALI_DEBUG_ASSERT(NULL != mali_wq_normal);
+ MALI_DEBUG_ASSERT(NULL != mali_wq_high);
+
+ flush_workqueue(mali_wq_normal);
+ destroy_workqueue(mali_wq_normal);
+
+ flush_workqueue(mali_wq_high);
+ destroy_workqueue(mali_wq_high);
+
+ mali_wq_normal = NULL;
+ mali_wq_high = NULL;
+#else
+ flush_scheduled_work();
+#endif
+}
+
+_mali_osk_wq_work_t *_mali_osk_wq_create_work( _mali_osk_wq_work_handler_t handler, void *data )
+{
+ mali_osk_wq_work_object_t *work = kmalloc(sizeof(mali_osk_wq_work_object_t), GFP_KERNEL);
+
+ if (NULL == work) return NULL;
+
+ work->handler = handler;
+ work->data = data;
+ work->high_pri = MALI_FALSE;
+
+ INIT_WORK( &work->work_handle, _mali_osk_wq_work_func);
+
+ return work;
+}
+
+_mali_osk_wq_work_t *_mali_osk_wq_create_work_high_pri( _mali_osk_wq_work_handler_t handler, void *data )
+{
+ mali_osk_wq_work_object_t *work = kmalloc(sizeof(mali_osk_wq_work_object_t), GFP_KERNEL);
+
+ if (NULL == work) return NULL;
+
+ work->handler = handler;
+ work->data = data;
+ work->high_pri = MALI_TRUE;
+
+ INIT_WORK( &work->work_handle, _mali_osk_wq_work_func );
+
+ return work;
+}
+
+void _mali_osk_wq_delete_work( _mali_osk_wq_work_t *work )
+{
+ mali_osk_wq_work_object_t *work_object = (mali_osk_wq_work_object_t *)work;
+ _mali_osk_wq_flush();
+ kfree(work_object);
+}
+
+void _mali_osk_wq_delete_work_nonflush( _mali_osk_wq_work_t *work )
+{
+ mali_osk_wq_work_object_t *work_object = (mali_osk_wq_work_object_t *)work;
+ kfree(work_object);
+}
+
+void _mali_osk_wq_schedule_work( _mali_osk_wq_work_t *work )
+{
+ mali_osk_wq_work_object_t *work_object = (mali_osk_wq_work_object_t *)work;
+#if MALI_LICENSE_IS_GPL
+ queue_work(mali_wq_normal, &work_object->work_handle);
+#else
+ schedule_work(&work_object->work_handle);
+#endif
+}
+
+void _mali_osk_wq_schedule_work_high_pri( _mali_osk_wq_work_t *work )
+{
+ mali_osk_wq_work_object_t *work_object = (mali_osk_wq_work_object_t *)work;
+#if MALI_LICENSE_IS_GPL
+ queue_work(mali_wq_high, &work_object->work_handle);
+#else
+ schedule_work(&work_object->work_handle);
+#endif
+}
+
+static void _mali_osk_wq_work_func( struct work_struct *work )
+{
+ mali_osk_wq_work_object_t *work_object;
+
+ work_object = _MALI_OSK_CONTAINER_OF(work, mali_osk_wq_work_object_t, work_handle);
+
+ /* We want higher priority than the Dynamic Priority, setting it to the lowest of the RT priorities */
+ if (MALI_TRUE == work_object->high_pri) {
+ set_user_nice(current, -19);
+ }
+
+ work_object->handler(work_object->data);
+}
+
+static void _mali_osk_wq_delayed_work_func( struct work_struct *work )
+{
+ mali_osk_wq_delayed_work_object_t *work_object;
+
+ work_object = _MALI_OSK_CONTAINER_OF(work, mali_osk_wq_delayed_work_object_t, work.work);
+ work_object->handler(work_object->data);
+}
+
+mali_osk_wq_delayed_work_object_t *_mali_osk_wq_delayed_create_work( _mali_osk_wq_work_handler_t handler, void *data)
+{
+ mali_osk_wq_delayed_work_object_t *work = kmalloc(sizeof(mali_osk_wq_delayed_work_object_t), GFP_KERNEL);
+
+ if (NULL == work) return NULL;
+
+ work->handler = handler;
+ work->data = data;
+
+ INIT_DELAYED_WORK(&work->work, _mali_osk_wq_delayed_work_func);
+
+ return work;
+}
+
+void _mali_osk_wq_delayed_delete_work_nonflush( _mali_osk_wq_delayed_work_t *work )
+{
+ mali_osk_wq_delayed_work_object_t *work_object = (mali_osk_wq_delayed_work_object_t *)work;
+ kfree(work_object);
+}
+
+void _mali_osk_wq_delayed_cancel_work_async( _mali_osk_wq_delayed_work_t *work )
+{
+ mali_osk_wq_delayed_work_object_t *work_object = (mali_osk_wq_delayed_work_object_t *)work;
+ cancel_delayed_work(&work_object->work);
+}
+
+void _mali_osk_wq_delayed_cancel_work_sync( _mali_osk_wq_delayed_work_t *work )
+{
+ mali_osk_wq_delayed_work_object_t *work_object = (mali_osk_wq_delayed_work_object_t *)work;
+ cancel_delayed_work_sync(&work_object->work);
+}
+
+void _mali_osk_wq_delayed_schedule_work( _mali_osk_wq_delayed_work_t *work, u32 delay )
+{
+ mali_osk_wq_delayed_work_object_t *work_object = (mali_osk_wq_delayed_work_object_t *)work;
+
+#if MALI_LICENSE_IS_GPL
+ queue_delayed_work(mali_wq_normal, &work_object->work, delay);
+#else
+ schedule_delayed_work(&work_object->work, delay);
+#endif
+
+}
--- /dev/null
+/**
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010, 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_pmu_power_up_down.c
+ */
+
+#include <linux/version.h>
+#include <linux/sched.h>
+#include <linux/module.h>
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_pmu.h"
+#include "mali_pp_scheduler.h"
+#include "linux/mali/mali_utgard.h"
+
+/* Mali PMU power up/down APIs */
+
+int mali_pmu_powerup(void)
+{
+ struct mali_pmu_core *pmu = mali_pmu_get_global_pmu_core();
+
+ MALI_DEBUG_PRINT(5, ("Mali PMU: Power up\n"));
+
+ MALI_DEBUG_ASSERT_POINTER(pmu);
+ if (NULL == pmu) {
+ return -ENXIO;
+ }
+
+ if (_MALI_OSK_ERR_OK != mali_pmu_power_up_all(pmu)) {
+ return -EFAULT;
+ }
+
+ return 0;
+}
+
+EXPORT_SYMBOL(mali_pmu_powerup);
+
+int mali_pmu_powerdown(void)
+{
+ struct mali_pmu_core *pmu = mali_pmu_get_global_pmu_core();
+
+ MALI_DEBUG_PRINT(5, ("Mali PMU: Power down\n"));
+
+ MALI_DEBUG_ASSERT_POINTER(pmu);
+ if (NULL == pmu) {
+ return -ENXIO;
+ }
+
+ if (_MALI_OSK_ERR_OK != mali_pmu_power_down_all(pmu)) {
+ return -EFAULT;
+ }
+
+ return 0;
+}
+
+EXPORT_SYMBOL(mali_pmu_powerdown);
+
+int mali_perf_set_num_pp_cores(unsigned int num_cores)
+{
+ return mali_pp_scheduler_set_perf_level(num_cores, MALI_FALSE);
+}
+
+EXPORT_SYMBOL(mali_perf_set_num_pp_cores);
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_PROFILING_EVENTS_H__
+#define __MALI_PROFILING_EVENTS_H__
+
+/* Simple wrapper in order to find the OS specific location of this file */
+#include <linux/mali/mali_utgard_profiling_events.h>
+
+#endif /* __MALI_PROFILING_EVENTS_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_PROFILING_GATOR_API_H__
+#define __MALI_PROFILING_GATOR_API_H__
+
+/* Simple wrapper in order to find the OS specific location of this file */
+#include <linux/mali/mali_utgard_profiling_gator_api.h>
+
+#endif /* __MALI_PROFILING_GATOR_API_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+#include "mali_osk_mali.h"
+#include "mali_ukk.h"
+#include "mali_timestamp.h"
+#include "mali_osk_profiling.h"
+#include "mali_user_settings_db.h"
+#include "mali_profiling_internal.h"
+
+typedef struct mali_profiling_entry {
+ u64 timestamp;
+ u32 event_id;
+ u32 data[5];
+} mali_profiling_entry;
+
+typedef enum mali_profiling_state {
+ MALI_PROFILING_STATE_UNINITIALIZED,
+ MALI_PROFILING_STATE_IDLE,
+ MALI_PROFILING_STATE_RUNNING,
+ MALI_PROFILING_STATE_RETURN,
+} mali_profiling_state;
+
+static _mali_osk_mutex_t *lock = NULL;
+static mali_profiling_state prof_state = MALI_PROFILING_STATE_UNINITIALIZED;
+static mali_profiling_entry* profile_entries = NULL;
+static _mali_osk_atomic_t profile_insert_index;
+static u32 profile_mask = 0;
+
+static inline void add_event(u32 event_id, u32 data0, u32 data1, u32 data2, u32 data3, u32 data4);
+
+void probe_mali_timeline_event(void *data, TP_PROTO(unsigned int event_id, unsigned int d0, unsigned int d1, unsigned
+ int d2, unsigned int d3, unsigned int d4))
+{
+ add_event(event_id, d0, d1, d2, d3, d4);
+}
+
+_mali_osk_errcode_t _mali_internal_profiling_init(mali_bool auto_start)
+{
+ profile_entries = NULL;
+ profile_mask = 0;
+ _mali_osk_atomic_init(&profile_insert_index, 0);
+
+ lock = _mali_osk_mutex_init(_MALI_OSK_LOCKFLAG_ORDERED, _MALI_OSK_LOCK_ORDER_PROFILING);
+ if (NULL == lock) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ prof_state = MALI_PROFILING_STATE_IDLE;
+
+ if (MALI_TRUE == auto_start) {
+ u32 limit = MALI_PROFILING_MAX_BUFFER_ENTRIES; /* Use maximum buffer size */
+
+ mali_set_user_setting(_MALI_UK_USER_SETTING_SW_EVENTS_ENABLE, MALI_TRUE);
+ if (_MALI_OSK_ERR_OK != _mali_internal_profiling_start(&limit)) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+ }
+
+ return _MALI_OSK_ERR_OK;
+}
+
+void _mali_internal_profiling_term(void)
+{
+ u32 count;
+
+ /* Ensure profiling is stopped */
+ _mali_internal_profiling_stop(&count);
+
+ prof_state = MALI_PROFILING_STATE_UNINITIALIZED;
+
+ if (NULL != profile_entries) {
+ _mali_osk_vfree(profile_entries);
+ profile_entries = NULL;
+ }
+
+ if (NULL != lock) {
+ _mali_osk_mutex_term(lock);
+ lock = NULL;
+ }
+}
+
+_mali_osk_errcode_t _mali_internal_profiling_start(u32 * limit)
+{
+ _mali_osk_errcode_t ret;
+ mali_profiling_entry *new_profile_entries;
+
+ _mali_osk_mutex_wait(lock);
+
+ if (MALI_PROFILING_STATE_RUNNING == prof_state) {
+ _mali_osk_mutex_signal(lock);
+ return _MALI_OSK_ERR_BUSY;
+ }
+
+ new_profile_entries = _mali_osk_valloc(*limit * sizeof(mali_profiling_entry));
+
+ if (NULL == new_profile_entries) {
+ _mali_osk_vfree(new_profile_entries);
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ if (MALI_PROFILING_MAX_BUFFER_ENTRIES < *limit) {
+ *limit = MALI_PROFILING_MAX_BUFFER_ENTRIES;
+ }
+
+ profile_mask = 1;
+ while (profile_mask <= *limit) {
+ profile_mask <<= 1;
+ }
+ profile_mask >>= 1;
+
+ *limit = profile_mask;
+
+ profile_mask--; /* turns the power of two into a mask of one less */
+
+ if (MALI_PROFILING_STATE_IDLE != prof_state) {
+ _mali_osk_mutex_signal(lock);
+ _mali_osk_vfree(new_profile_entries);
+ return _MALI_OSK_ERR_INVALID_ARGS; /* invalid to call this function in this state */
+ }
+
+ profile_entries = new_profile_entries;
+
+ ret = _mali_timestamp_reset();
+
+ if (_MALI_OSK_ERR_OK == ret) {
+ prof_state = MALI_PROFILING_STATE_RUNNING;
+ } else {
+ _mali_osk_vfree(profile_entries);
+ profile_entries = NULL;
+ }
+
+ register_trace_mali_timeline_event(probe_mali_timeline_event, NULL);
+
+ _mali_osk_mutex_signal(lock);
+ return ret;
+}
+
+static inline void add_event(u32 event_id, u32 data0, u32 data1, u32 data2, u32 data3, u32 data4)
+{
+ u32 cur_index = (_mali_osk_atomic_inc_return(&profile_insert_index) - 1) & profile_mask;
+
+ profile_entries[cur_index].timestamp = _mali_timestamp_get();
+ profile_entries[cur_index].event_id = event_id;
+ profile_entries[cur_index].data[0] = data0;
+ profile_entries[cur_index].data[1] = data1;
+ profile_entries[cur_index].data[2] = data2;
+ profile_entries[cur_index].data[3] = data3;
+ profile_entries[cur_index].data[4] = data4;
+
+ /* If event is "leave API function", add current memory usage to the event
+ * as data point 4. This is used in timeline profiling to indicate how
+ * much memory was used when leaving a function. */
+ if (event_id == (MALI_PROFILING_EVENT_TYPE_SINGLE|MALI_PROFILING_EVENT_CHANNEL_SOFTWARE|MALI_PROFILING_EVENT_REASON_SINGLE_SW_LEAVE_API_FUNC)) {
+ profile_entries[cur_index].data[4] = _mali_ukk_report_memory_usage();
+ }
+}
+
+_mali_osk_errcode_t _mali_internal_profiling_stop(u32 * count)
+{
+ _mali_osk_mutex_wait(lock);
+
+ if (MALI_PROFILING_STATE_RUNNING != prof_state) {
+ _mali_osk_mutex_signal(lock);
+ return _MALI_OSK_ERR_INVALID_ARGS; /* invalid to call this function in this state */
+ }
+
+ /* go into return state (user to retreive events), no more events will be added after this */
+ prof_state = MALI_PROFILING_STATE_RETURN;
+
+ unregister_trace_mali_timeline_event(probe_mali_timeline_event, NULL);
+
+ _mali_osk_mutex_signal(lock);
+
+ tracepoint_synchronize_unregister();
+
+ *count = _mali_osk_atomic_read(&profile_insert_index);
+ if (*count > profile_mask) *count = profile_mask;
+
+ return _MALI_OSK_ERR_OK;
+}
+
+u32 _mali_internal_profiling_get_count(void)
+{
+ u32 retval = 0;
+
+ _mali_osk_mutex_wait(lock);
+ if (MALI_PROFILING_STATE_RETURN == prof_state) {
+ retval = _mali_osk_atomic_read(&profile_insert_index);
+ if (retval > profile_mask) retval = profile_mask;
+ }
+ _mali_osk_mutex_signal(lock);
+
+ return retval;
+}
+
+_mali_osk_errcode_t _mali_internal_profiling_get_event(u32 index, u64* timestamp, u32* event_id, u32 data[5])
+{
+ u32 raw_index = _mali_osk_atomic_read(&profile_insert_index);
+
+ _mali_osk_mutex_wait(lock);
+
+ if (index < profile_mask) {
+ if ((raw_index & ~profile_mask) != 0) {
+ index += raw_index;
+ index &= profile_mask;
+ }
+
+ if (prof_state != MALI_PROFILING_STATE_RETURN) {
+ _mali_osk_mutex_signal(lock);
+ return _MALI_OSK_ERR_INVALID_ARGS; /* invalid to call this function in this state */
+ }
+
+ if(index >= raw_index) {
+ _mali_osk_mutex_signal(lock);
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ *timestamp = profile_entries[index].timestamp;
+ *event_id = profile_entries[index].event_id;
+ data[0] = profile_entries[index].data[0];
+ data[1] = profile_entries[index].data[1];
+ data[2] = profile_entries[index].data[2];
+ data[3] = profile_entries[index].data[3];
+ data[4] = profile_entries[index].data[4];
+ } else {
+ _mali_osk_mutex_signal(lock);
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ _mali_osk_mutex_signal(lock);
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t _mali_internal_profiling_clear(void)
+{
+ _mali_osk_mutex_wait(lock);
+
+ if (MALI_PROFILING_STATE_RETURN != prof_state) {
+ _mali_osk_mutex_signal(lock);
+ return _MALI_OSK_ERR_INVALID_ARGS; /* invalid to call this function in this state */
+ }
+
+ prof_state = MALI_PROFILING_STATE_IDLE;
+ profile_mask = 0;
+ _mali_osk_atomic_init(&profile_insert_index, 0);
+
+ if (NULL != profile_entries) {
+ _mali_osk_vfree(profile_entries);
+ profile_entries = NULL;
+ }
+
+ _mali_osk_mutex_signal(lock);
+ return _MALI_OSK_ERR_OK;
+}
+
+mali_bool _mali_internal_profiling_is_recording(void)
+{
+ return prof_state == MALI_PROFILING_STATE_RUNNING ? MALI_TRUE : MALI_FALSE;
+}
+
+mali_bool _mali_internal_profiling_have_recording(void)
+{
+ return prof_state == MALI_PROFILING_STATE_RETURN ? MALI_TRUE : MALI_FALSE;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_PROFILING_INTERNAL_H__
+#define __MALI_PROFILING_INTERNAL_H__
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include "mali_osk.h"
+
+int _mali_internal_profiling_init(mali_bool auto_start);
+void _mali_internal_profiling_term(void);
+
+mali_bool _mali_internal_profiling_is_recording(void);
+mali_bool _mali_internal_profiling_have_recording(void);
+_mali_osk_errcode_t _mali_internal_profiling_clear(void);
+_mali_osk_errcode_t _mali_internal_profiling_get_event(u32 index, u64* timestamp, u32* event_id, u32 data[5]);
+u32 _mali_internal_profiling_get_count(void);
+int _mali_internal_profiling_stop(u32 * count);
+int _mali_internal_profiling_start(u32 * limit);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __MALI_PROFILING_INTERNAL_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_sync.h"
+
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_timeline.h"
+
+#include <linux/file.h>
+#include <linux/seq_file.h>
+#include <linux/module.h>
+
+struct mali_sync_pt {
+ struct sync_pt sync_pt;
+ struct mali_sync_flag *flag;
+};
+
+/**
+ * The sync flag is used to connect sync fences to the Mali Timeline system. Sync fences can be
+ * created from a sync flag, and when the flag is signaled, the sync fences will also be signaled.
+ */
+struct mali_sync_flag {
+ struct sync_timeline *sync_tl; /**< Sync timeline this flag is connected to. */
+ u32 point; /**< Point on timeline. */
+ int status; /**< 0 if unsignaled, 1 if signaled without error or negative if signaled with error. */
+ struct kref refcount; /**< Reference count. */
+};
+
+MALI_STATIC_INLINE struct mali_sync_pt *to_mali_sync_pt(struct sync_pt *pt)
+{
+ return container_of(pt, struct mali_sync_pt, sync_pt);
+}
+
+static struct sync_pt *timeline_dup(struct sync_pt *pt)
+{
+ struct mali_sync_pt *mpt, *new_mpt;
+ struct sync_pt *new_pt;
+
+ MALI_DEBUG_ASSERT_POINTER(pt);
+ mpt = to_mali_sync_pt(pt);
+
+ new_pt = sync_pt_create(pt->parent, sizeof(struct mali_sync_pt));
+ if (NULL == new_pt) return NULL;
+
+ new_mpt = to_mali_sync_pt(new_pt);
+
+ mali_sync_flag_get(mpt->flag);
+ new_mpt->flag = mpt->flag;
+
+ return new_pt;
+}
+
+static int timeline_has_signaled(struct sync_pt *pt)
+{
+ struct mali_sync_pt *mpt;
+
+ MALI_DEBUG_ASSERT_POINTER(pt);
+ mpt = to_mali_sync_pt(pt);
+
+ MALI_DEBUG_ASSERT_POINTER(mpt->flag);
+
+ return mpt->flag->status;
+}
+
+static int timeline_compare(struct sync_pt *pta, struct sync_pt *ptb)
+{
+ struct mali_sync_pt *mpta;
+ struct mali_sync_pt *mptb;
+ u32 a, b;
+
+ MALI_DEBUG_ASSERT_POINTER(pta);
+ MALI_DEBUG_ASSERT_POINTER(ptb);
+ mpta = to_mali_sync_pt(pta);
+ mptb = to_mali_sync_pt(ptb);
+
+ MALI_DEBUG_ASSERT_POINTER(mpta->flag);
+ MALI_DEBUG_ASSERT_POINTER(mptb->flag);
+
+ a = mpta->flag->point;
+ b = mpta->flag->point;
+
+ if (a == b) return 0;
+
+ return ((b - a) < (a - b) ? -1 : 1);
+}
+
+static void timeline_free_pt(struct sync_pt *pt)
+{
+ struct mali_sync_pt *mpt;
+
+ MALI_DEBUG_ASSERT_POINTER(pt);
+ mpt = to_mali_sync_pt(pt);
+
+ mali_sync_flag_put(mpt->flag);
+}
+
+static void timeline_release(struct sync_timeline *sync_timeline)
+{
+ module_put(THIS_MODULE);
+}
+
+static void timeline_print_pt(struct seq_file *s, struct sync_pt *sync_pt)
+{
+ struct mali_sync_pt *mpt;
+
+ MALI_DEBUG_ASSERT_POINTER(s);
+ MALI_DEBUG_ASSERT_POINTER(sync_pt);
+
+ mpt = to_mali_sync_pt(sync_pt);
+ MALI_DEBUG_ASSERT_POINTER(mpt->flag);
+
+ seq_printf(s, "%u", mpt->flag->point);
+}
+
+static struct sync_timeline_ops mali_timeline_ops = {
+ .driver_name = "Mali",
+ .dup = timeline_dup,
+ .has_signaled = timeline_has_signaled,
+ .compare = timeline_compare,
+ .free_pt = timeline_free_pt,
+ .release_obj = timeline_release,
+ .print_pt = timeline_print_pt,
+};
+
+struct sync_timeline *mali_sync_timeline_create(const char *name)
+{
+ struct sync_timeline *sync_tl;
+
+ sync_tl = sync_timeline_create(&mali_timeline_ops, sizeof(struct sync_timeline), name);
+ if (NULL == sync_tl) return NULL;
+
+ /* Grab a reference on the module to ensure the callbacks are present
+ * as long some timeline exists. The reference is released when the
+ * timeline is freed.
+ * Since this function is called from a ioctl on an open file we know
+ * we already have a reference, so using __module_get is safe. */
+ __module_get(THIS_MODULE);
+
+ return sync_tl;
+}
+
+mali_bool mali_sync_timeline_is_ours(struct sync_timeline *sync_tl)
+{
+ MALI_DEBUG_ASSERT_POINTER(sync_tl);
+ return (sync_tl->ops == &mali_timeline_ops) ? MALI_TRUE : MALI_FALSE;
+}
+
+s32 mali_sync_fence_fd_alloc(struct sync_fence *sync_fence)
+{
+ s32 fd = -1;
+
+ fd = get_unused_fd();
+ if (fd < 0) {
+ sync_fence_put(sync_fence);
+ return -1;
+ }
+ sync_fence_install(sync_fence, fd);
+
+ return fd;
+}
+
+struct sync_fence *mali_sync_fence_merge(struct sync_fence *sync_fence1, struct sync_fence *sync_fence2)
+{
+ struct sync_fence *sync_fence;
+
+ MALI_DEBUG_ASSERT_POINTER(sync_fence1);
+ MALI_DEBUG_ASSERT_POINTER(sync_fence1);
+
+ sync_fence = sync_fence_merge("mali_merge_fence", sync_fence1, sync_fence2);
+ sync_fence_put(sync_fence1);
+ sync_fence_put(sync_fence2);
+
+ return sync_fence;
+}
+
+struct sync_fence *mali_sync_timeline_create_signaled_fence(struct sync_timeline *sync_tl)
+{
+ struct mali_sync_flag *flag;
+ struct sync_fence *sync_fence;
+
+ MALI_DEBUG_ASSERT_POINTER(sync_tl);
+
+ flag = mali_sync_flag_create(sync_tl, 0);
+ if (NULL == flag) return NULL;
+
+ sync_fence = mali_sync_flag_create_fence(flag);
+
+ mali_sync_flag_signal(flag, 0);
+ mali_sync_flag_put(flag);
+
+ return sync_fence;
+}
+
+struct mali_sync_flag *mali_sync_flag_create(struct sync_timeline *sync_tl, mali_timeline_point point)
+{
+ struct mali_sync_flag *flag;
+
+ if (NULL == sync_tl) return NULL;
+
+ flag = _mali_osk_calloc(1, sizeof(*flag));
+ if (NULL == flag) return NULL;
+
+ flag->sync_tl = sync_tl;
+ flag->point = point;
+
+ flag->status = 0;
+ kref_init(&flag->refcount);
+
+ return flag;
+}
+
+void mali_sync_flag_get(struct mali_sync_flag *flag)
+{
+ MALI_DEBUG_ASSERT_POINTER(flag);
+ kref_get(&flag->refcount);
+}
+
+/**
+ * Free sync flag.
+ *
+ * @param ref kref object embedded in sync flag that should be freed.
+ */
+static void mali_sync_flag_free(struct kref *ref)
+{
+ struct mali_sync_flag *flag;
+
+ MALI_DEBUG_ASSERT_POINTER(ref);
+ flag = container_of(ref, struct mali_sync_flag, refcount);
+
+ _mali_osk_free(flag);
+}
+
+void mali_sync_flag_put(struct mali_sync_flag *flag)
+{
+ MALI_DEBUG_ASSERT_POINTER(flag);
+ kref_put(&flag->refcount, mali_sync_flag_free);
+}
+
+void mali_sync_flag_signal(struct mali_sync_flag *flag, int error)
+{
+ MALI_DEBUG_ASSERT_POINTER(flag);
+
+ MALI_DEBUG_ASSERT(0 == flag->status);
+ flag->status = (0 > error) ? error : 1;
+
+ _mali_osk_write_mem_barrier();
+
+ sync_timeline_signal(flag->sync_tl);
+}
+
+/**
+ * Create a sync point attached to given sync flag.
+ *
+ * @note Sync points must be triggered in *exactly* the same order as they are created.
+ *
+ * @param flag Sync flag.
+ * @return New sync point if successful, NULL if not.
+ */
+static struct sync_pt *mali_sync_flag_create_pt(struct mali_sync_flag *flag)
+{
+ struct sync_pt *pt;
+ struct mali_sync_pt *mpt;
+
+ MALI_DEBUG_ASSERT_POINTER(flag);
+ MALI_DEBUG_ASSERT_POINTER(flag->sync_tl);
+
+ pt = sync_pt_create(flag->sync_tl, sizeof(struct mali_sync_pt));
+ if (NULL == pt) return NULL;
+
+ mali_sync_flag_get(flag);
+
+ mpt = to_mali_sync_pt(pt);
+ mpt->flag = flag;
+
+ return pt;
+}
+
+struct sync_fence *mali_sync_flag_create_fence(struct mali_sync_flag *flag)
+{
+ struct sync_pt *sync_pt;
+ struct sync_fence *sync_fence;
+
+ MALI_DEBUG_ASSERT_POINTER(flag);
+ MALI_DEBUG_ASSERT_POINTER(flag->sync_tl);
+
+ sync_pt = mali_sync_flag_create_pt(flag);
+ if (NULL == sync_pt) return NULL;
+
+ sync_fence = sync_fence_create("mali_flag_fence", sync_pt);
+ if (NULL == sync_fence) {
+ sync_pt_free(sync_pt);
+ return NULL;
+ }
+
+ return sync_fence;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_sync.h
+ *
+ * Mali interface for Linux sync objects.
+ */
+
+#ifndef _MALI_SYNC_H_
+#define _MALI_SYNC_H_
+
+#if defined(CONFIG_SYNC)
+
+#include <linux/seq_file.h>
+#include "sync.h"
+
+#include "mali_osk.h"
+
+struct mali_sync_flag;
+
+/**
+ * Create a sync timeline.
+ *
+ * @param name Name of the sync timeline.
+ * @return The new sync timeline if successful, NULL if not.
+ */
+struct sync_timeline *mali_sync_timeline_create(const char *name);
+
+/**
+ * Check if sync timeline belongs to Mali.
+ *
+ * @param sync_tl Sync timeline to check.
+ * @return MALI_TRUE if sync timeline belongs to Mali, MALI_FALSE if not.
+ */
+mali_bool mali_sync_timeline_is_ours(struct sync_timeline *sync_tl);
+
+/**
+ * Creates a file descriptor representing the sync fence. Will release sync fence if allocation of
+ * file descriptor fails.
+ *
+ * @param sync_fence Sync fence.
+ * @return File descriptor representing sync fence if successful, or -1 if not.
+ */
+s32 mali_sync_fence_fd_alloc(struct sync_fence *sync_fence);
+
+/**
+ * Merges two sync fences. Both input sync fences will be released.
+ *
+ * @param sync_fence1 First sync fence.
+ * @param sync_fence2 Second sync fence.
+ * @return New sync fence that is the result of the merger if successful, or NULL if not.
+ */
+struct sync_fence *mali_sync_fence_merge(struct sync_fence *sync_fence1, struct sync_fence *sync_fence2);
+
+/**
+ * Create a sync fence that is already signaled.
+ *
+ * @param tl Sync timeline.
+ * @return New signaled sync fence if successful, NULL if not.
+ */
+struct sync_fence *mali_sync_timeline_create_signaled_fence(struct sync_timeline *sync_tl);
+
+/**
+ * Create a sync flag.
+ *
+ * @param sync_tl Sync timeline.
+ * @param point Point on Mali timeline.
+ * @return New sync flag if successful, NULL if not.
+ */
+struct mali_sync_flag *mali_sync_flag_create(struct sync_timeline *sync_tl, u32 point);
+
+/**
+ * Grab sync flag reference.
+ *
+ * @param flag Sync flag.
+ */
+void mali_sync_flag_get(struct mali_sync_flag *flag);
+
+/**
+ * Release sync flag reference. If this was the last reference, the sync flag will be freed.
+ *
+ * @param flag Sync flag.
+ */
+void mali_sync_flag_put(struct mali_sync_flag *flag);
+
+/**
+ * Signal sync flag. All sync fences created from this flag will be signaled.
+ *
+ * @param flag Sync flag to signal.
+ * @param error Negative error code, or 0 if no error.
+ */
+void mali_sync_flag_signal(struct mali_sync_flag *flag, int error);
+
+/**
+ * Create a sync fence attached to given sync flag.
+ *
+ * @param flag Sync flag.
+ * @return New sync fence if successful, NULL if not.
+ */
+struct sync_fence *mali_sync_flag_create_fence(struct mali_sync_flag *flag);
+
+#endif /* defined(CONFIG_SYNC) */
+
+#endif /* _MALI_SYNC_H_ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2012 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_UK_TYPES_H__
+#define __MALI_UK_TYPES_H__
+
+/* Simple wrapper in order to find the OS specific location of this file */
+#include <linux/mali/mali_utgard_uk_types.h>
+
+#endif /* __MALI_UK_TYPES_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+#include <linux/fs.h> /* file system operations */
+#include <linux/slab.h> /* memort allocation functions */
+#include <asm/uaccess.h> /* user space access */
+
+#include "mali_ukk.h"
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_session.h"
+#include "mali_ukk_wrappers.h"
+
+int get_api_version_wrapper(struct mali_session_data *session_data, _mali_uk_get_api_version_s __user *uargs)
+{
+ _mali_uk_get_api_version_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+
+ if (0 != get_user(kargs.version, &uargs->version)) return -EFAULT;
+
+ kargs.ctx = session_data;
+ err = _mali_ukk_get_api_version(&kargs);
+ if (_MALI_OSK_ERR_OK != err) return map_errcode(err);
+
+ if (0 != put_user(kargs.version, &uargs->version)) return -EFAULT;
+ if (0 != put_user(kargs.compatible, &uargs->compatible)) return -EFAULT;
+
+ return 0;
+}
+#define mali400_in_rk30_version 0x01
+int get_mali_version_in_rk30_wrapper(struct mali_session_data *session_data, _mali_uk_get_mali_version_in_rk30_s __user *uargs)
+{
+ _mali_uk_get_mali_version_in_rk30_s kargs;
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+ kargs.ctx = session_data;
+ kargs.version = mali400_in_rk30_version;
+ if (0 != put_user(kargs.version, &uargs->version)) return -EFAULT;
+ return 0;
+}
+int wait_for_notification_wrapper(struct mali_session_data *session_data, _mali_uk_wait_for_notification_s __user *uargs)
+{
+ _mali_uk_wait_for_notification_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+
+ kargs.ctx = session_data;
+ err = _mali_ukk_wait_for_notification(&kargs);
+ if (_MALI_OSK_ERR_OK != err) return map_errcode(err);
+
+ if(_MALI_NOTIFICATION_CORE_SHUTDOWN_IN_PROGRESS != kargs.type) {
+ kargs.ctx = NULL; /* prevent kernel address to be returned to user space */
+ if (0 != copy_to_user(uargs, &kargs, sizeof(_mali_uk_wait_for_notification_s))) return -EFAULT;
+ } else {
+ if (0 != put_user(kargs.type, &uargs->type)) return -EFAULT;
+ }
+
+ return 0;
+}
+
+int post_notification_wrapper(struct mali_session_data *session_data, _mali_uk_post_notification_s __user *uargs)
+{
+ _mali_uk_post_notification_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+
+ kargs.ctx = session_data;
+
+ if (0 != get_user(kargs.type, &uargs->type)) {
+ return -EFAULT;
+ }
+
+ err = _mali_ukk_post_notification(&kargs);
+ if (_MALI_OSK_ERR_OK != err) {
+ return map_errcode(err);
+ }
+
+ return 0;
+}
+
+int get_user_settings_wrapper(struct mali_session_data *session_data, _mali_uk_get_user_settings_s __user *uargs)
+{
+ _mali_uk_get_user_settings_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+
+ kargs.ctx = session_data;
+ err = _mali_ukk_get_user_settings(&kargs);
+ if (_MALI_OSK_ERR_OK != err) {
+ return map_errcode(err);
+ }
+
+ kargs.ctx = NULL; /* prevent kernel address to be returned to user space */
+ if (0 != copy_to_user(uargs, &kargs, sizeof(_mali_uk_get_user_settings_s))) return -EFAULT;
+
+ return 0;
+}
+
+int request_high_priority_wrapper(struct mali_session_data *session_data, _mali_uk_request_high_priority_s __user *uargs)
+{
+ _mali_uk_request_high_priority_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+
+ kargs.ctx = session_data;
+ err = _mali_ukk_request_high_priority(&kargs);
+
+ kargs.ctx = NULL;
+
+ return map_errcode(err);
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2010, 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+#include <linux/fs.h> /* file system operations */
+#include <asm/uaccess.h> /* user space access */
+
+#include "mali_ukk.h"
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_session.h"
+#include "mali_ukk_wrappers.h"
+
+int gp_start_job_wrapper(struct mali_session_data *session_data, _mali_uk_gp_start_job_s __user *uargs)
+{
+ _mali_osk_errcode_t err;
+
+ /* If the job was started successfully, 0 is returned. If there was an error, but the job
+ * was started, we return -ENOENT. For anything else returned, the job was not started. */
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+ MALI_CHECK_NON_NULL(session_data, -EINVAL);
+
+ err = _mali_ukk_gp_start_job(session_data, uargs);
+ if (_MALI_OSK_ERR_OK != err) return map_errcode(err);
+
+ return 0;
+}
+
+int gp_get_core_version_wrapper(struct mali_session_data *session_data, _mali_uk_get_gp_core_version_s __user *uargs)
+{
+ _mali_uk_get_gp_core_version_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+ MALI_CHECK_NON_NULL(session_data, -EINVAL);
+
+ kargs.ctx = session_data;
+ err = _mali_ukk_get_gp_core_version(&kargs);
+ if (_MALI_OSK_ERR_OK != err) return map_errcode(err);
+
+ /* no known transactions to roll-back */
+
+ if (0 != put_user(kargs.version, &uargs->version)) return -EFAULT;
+
+ return 0;
+}
+
+int gp_suspend_response_wrapper(struct mali_session_data *session_data, _mali_uk_gp_suspend_response_s __user *uargs)
+{
+ _mali_uk_gp_suspend_response_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+ MALI_CHECK_NON_NULL(session_data, -EINVAL);
+
+ if (0 != copy_from_user(&kargs, uargs, sizeof(_mali_uk_gp_suspend_response_s))) return -EFAULT;
+
+ kargs.ctx = session_data;
+ err = _mali_ukk_gp_suspend_response(&kargs);
+ if (_MALI_OSK_ERR_OK != err) return map_errcode(err);
+
+ if (0 != put_user(kargs.cookie, &uargs->cookie)) return -EFAULT;
+
+ /* no known transactions to roll-back */
+ return 0;
+}
+
+int gp_get_number_of_cores_wrapper(struct mali_session_data *session_data, _mali_uk_get_gp_number_of_cores_s __user *uargs)
+{
+ _mali_uk_get_gp_number_of_cores_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+ MALI_CHECK_NON_NULL(session_data, -EINVAL);
+
+ kargs.ctx = session_data;
+ err = _mali_ukk_get_gp_number_of_cores(&kargs);
+ if (_MALI_OSK_ERR_OK != err) return map_errcode(err);
+
+ /* no known transactions to roll-back */
+
+ if (0 != put_user(kargs.number_of_cores, &uargs->number_of_cores)) return -EFAULT;
+
+ return 0;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+#include <linux/fs.h> /* file system operations */
+#include <asm/uaccess.h> /* user space access */
+
+#include "mali_ukk.h"
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_session.h"
+#include "mali_ukk_wrappers.h"
+
+int mem_write_safe_wrapper(struct mali_session_data *session_data, _mali_uk_mem_write_safe_s __user * uargs)
+{
+ _mali_uk_mem_write_safe_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+ MALI_CHECK_NON_NULL(session_data, -EINVAL);
+
+ if (0 != copy_from_user(&kargs, uargs, sizeof(_mali_uk_mem_write_safe_s))) {
+ return -EFAULT;
+ }
+
+ kargs.ctx = session_data;
+
+ /* Check if we can access the buffers */
+ if (!access_ok(VERIFY_WRITE, kargs.dest, kargs.size)
+ || !access_ok(VERIFY_READ, kargs.src, kargs.size)) {
+ return -EINVAL;
+ }
+
+ /* Check if size wraps */
+ if ((kargs.size + kargs.dest) <= kargs.dest
+ || (kargs.size + kargs.src) <= kargs.src) {
+ return -EINVAL;
+ }
+
+ err = _mali_ukk_mem_write_safe(&kargs);
+ if (_MALI_OSK_ERR_OK != err) {
+ return map_errcode(err);
+ }
+
+ if (0 != put_user(kargs.size, &uargs->size)) {
+ return -EFAULT;
+ }
+
+ return 0;
+}
+
+int mem_map_ext_wrapper(struct mali_session_data *session_data, _mali_uk_map_external_mem_s __user * argument)
+{
+ _mali_uk_map_external_mem_s uk_args;
+ _mali_osk_errcode_t err_code;
+
+ /* validate input */
+ /* the session_data pointer was validated by caller */
+ MALI_CHECK_NON_NULL( argument, -EINVAL);
+
+ /* get call arguments from user space. copy_from_user returns how many bytes which where NOT copied */
+ if ( 0 != copy_from_user(&uk_args, (void __user *)argument, sizeof(_mali_uk_map_external_mem_s)) ) {
+ return -EFAULT;
+ }
+
+ uk_args.ctx = session_data;
+ err_code = _mali_ukk_map_external_mem( &uk_args );
+
+ if (0 != put_user(uk_args.cookie, &argument->cookie)) {
+ if (_MALI_OSK_ERR_OK == err_code) {
+ /* Rollback */
+ _mali_uk_unmap_external_mem_s uk_args_unmap;
+
+ uk_args_unmap.ctx = session_data;
+ uk_args_unmap.cookie = uk_args.cookie;
+ err_code = _mali_ukk_unmap_external_mem( &uk_args_unmap );
+ if (_MALI_OSK_ERR_OK != err_code) {
+ MALI_DEBUG_PRINT(4, ("reverting _mali_ukk_unmap_external_mem, as a result of failing put_user(), failed\n"));
+ }
+ }
+ return -EFAULT;
+ }
+
+ /* Return the error that _mali_ukk_free_big_block produced */
+ return map_errcode(err_code);
+}
+
+int mem_unmap_ext_wrapper(struct mali_session_data *session_data, _mali_uk_unmap_external_mem_s __user * argument)
+{
+ _mali_uk_unmap_external_mem_s uk_args;
+ _mali_osk_errcode_t err_code;
+
+ /* validate input */
+ /* the session_data pointer was validated by caller */
+ MALI_CHECK_NON_NULL( argument, -EINVAL);
+
+ /* get call arguments from user space. copy_from_user returns how many bytes which where NOT copied */
+ if ( 0 != copy_from_user(&uk_args, (void __user *)argument, sizeof(_mali_uk_unmap_external_mem_s)) ) {
+ return -EFAULT;
+ }
+
+ uk_args.ctx = session_data;
+ err_code = _mali_ukk_unmap_external_mem( &uk_args );
+
+ /* Return the error that _mali_ukk_free_big_block produced */
+ return map_errcode(err_code);
+}
+
+#if defined(CONFIG_MALI400_UMP)
+int mem_release_ump_wrapper(struct mali_session_data *session_data, _mali_uk_release_ump_mem_s __user * argument)
+{
+ _mali_uk_release_ump_mem_s uk_args;
+ _mali_osk_errcode_t err_code;
+
+ /* validate input */
+ /* the session_data pointer was validated by caller */
+ MALI_CHECK_NON_NULL( argument, -EINVAL);
+
+ /* get call arguments from user space. copy_from_user returns how many bytes which where NOT copied */
+ if ( 0 != copy_from_user(&uk_args, (void __user *)argument, sizeof(_mali_uk_release_ump_mem_s)) ) {
+ return -EFAULT;
+ }
+
+ uk_args.ctx = session_data;
+ err_code = _mali_ukk_release_ump_mem( &uk_args );
+
+ /* Return the error that _mali_ukk_free_big_block produced */
+ return map_errcode(err_code);
+}
+
+int mem_attach_ump_wrapper(struct mali_session_data *session_data, _mali_uk_attach_ump_mem_s __user * argument)
+{
+ _mali_uk_attach_ump_mem_s uk_args;
+ _mali_osk_errcode_t err_code;
+
+ /* validate input */
+ /* the session_data pointer was validated by caller */
+ MALI_CHECK_NON_NULL( argument, -EINVAL);
+
+ /* get call arguments from user space. copy_from_user returns how many bytes which where NOT copied */
+ if ( 0 != copy_from_user(&uk_args, (void __user *)argument, sizeof(_mali_uk_attach_ump_mem_s)) ) {
+ return -EFAULT;
+ }
+
+ uk_args.ctx = session_data;
+ err_code = _mali_ukk_attach_ump_mem( &uk_args );
+
+ if (0 != put_user(uk_args.cookie, &argument->cookie)) {
+ if (_MALI_OSK_ERR_OK == err_code) {
+ /* Rollback */
+ _mali_uk_release_ump_mem_s uk_args_unmap;
+
+ uk_args_unmap.ctx = session_data;
+ uk_args_unmap.cookie = uk_args.cookie;
+ err_code = _mali_ukk_release_ump_mem( &uk_args_unmap );
+ if (_MALI_OSK_ERR_OK != err_code) {
+ MALI_DEBUG_PRINT(4, ("reverting _mali_ukk_attach_mem, as a result of failing put_user(), failed\n"));
+ }
+ }
+ return -EFAULT;
+ }
+
+ /* Return the error that _mali_ukk_map_external_ump_mem produced */
+ return map_errcode(err_code);
+}
+#endif /* CONFIG_MALI400_UMP */
+
+int mem_query_mmu_page_table_dump_size_wrapper(struct mali_session_data *session_data, _mali_uk_query_mmu_page_table_dump_size_s __user * uargs)
+{
+ _mali_uk_query_mmu_page_table_dump_size_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+ MALI_CHECK_NON_NULL(session_data, -EINVAL);
+
+ kargs.ctx = session_data;
+
+ err = _mali_ukk_query_mmu_page_table_dump_size(&kargs);
+ if (_MALI_OSK_ERR_OK != err) return map_errcode(err);
+
+ if (0 != put_user(kargs.size, &uargs->size)) return -EFAULT;
+
+ return 0;
+}
+
+int mem_dump_mmu_page_table_wrapper(struct mali_session_data *session_data, _mali_uk_dump_mmu_page_table_s __user * uargs)
+{
+ _mali_uk_dump_mmu_page_table_s kargs;
+ _mali_osk_errcode_t err;
+ void *buffer;
+ int rc = -EFAULT;
+
+ /* validate input */
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+ /* the session_data pointer was validated by caller */
+
+ kargs.buffer = NULL;
+
+ /* get location of user buffer */
+ if (0 != get_user(buffer, &uargs->buffer)) goto err_exit;
+ /* get size of mmu page table info buffer from user space */
+ if ( 0 != get_user(kargs.size, &uargs->size) ) goto err_exit;
+ /* verify we can access the whole of the user buffer */
+ if (!access_ok(VERIFY_WRITE, buffer, kargs.size)) goto err_exit;
+
+ /* allocate temporary buffer (kernel side) to store mmu page table info */
+ MALI_CHECK(kargs.size > 0, -ENOMEM);
+ kargs.buffer = _mali_osk_valloc(kargs.size);
+ if (NULL == kargs.buffer) {
+ rc = -ENOMEM;
+ goto err_exit;
+ }
+
+ kargs.ctx = session_data;
+ err = _mali_ukk_dump_mmu_page_table(&kargs);
+ if (_MALI_OSK_ERR_OK != err) {
+ rc = map_errcode(err);
+ goto err_exit;
+ }
+
+ /* copy mmu page table info back to user space and update pointers */
+ if (0 != copy_to_user(uargs->buffer, kargs.buffer, kargs.size) ) goto err_exit;
+ if (0 != put_user((kargs.register_writes - (u32 *)kargs.buffer) + (u32 *)uargs->buffer, &uargs->register_writes)) goto err_exit;
+ if (0 != put_user((kargs.page_table_dump - (u32 *)kargs.buffer) + (u32 *)uargs->buffer, &uargs->page_table_dump)) goto err_exit;
+ if (0 != put_user(kargs.register_writes_size, &uargs->register_writes_size)) goto err_exit;
+ if (0 != put_user(kargs.page_table_dump_size, &uargs->page_table_dump_size)) goto err_exit;
+ rc = 0;
+
+err_exit:
+ if (kargs.buffer) _mali_osk_vfree(kargs.buffer);
+ return rc;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2010, 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+#include <linux/fs.h> /* file system operations */
+#include <asm/uaccess.h> /* user space access */
+
+#include "mali_ukk.h"
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_session.h"
+#include "mali_ukk_wrappers.h"
+
+int pp_start_job_wrapper(struct mali_session_data *session_data, _mali_uk_pp_start_job_s __user *uargs)
+{
+ _mali_osk_errcode_t err;
+
+ /* If the job was started successfully, 0 is returned. If there was an error, but the job
+ * was started, we return -ENOENT. For anything else returned, the job was not started. */
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+ MALI_CHECK_NON_NULL(session_data, -EINVAL);
+
+ err = _mali_ukk_pp_start_job(session_data, uargs);
+ if (_MALI_OSK_ERR_OK != err) return map_errcode(err);
+
+ return 0;
+}
+
+int pp_and_gp_start_job_wrapper(struct mali_session_data *session_data, _mali_uk_pp_and_gp_start_job_s __user *uargs)
+{
+ _mali_osk_errcode_t err;
+
+ /* If the jobs were started successfully, 0 is returned. If there was an error, but the
+ * jobs were started, we return -ENOENT. For anything else returned, the jobs were not
+ * started. */
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+ MALI_CHECK_NON_NULL(session_data, -EINVAL);
+
+ err = _mali_ukk_pp_and_gp_start_job(session_data, uargs);
+ if (_MALI_OSK_ERR_OK != err) return map_errcode(err);
+
+ return 0;
+}
+
+int pp_get_number_of_cores_wrapper(struct mali_session_data *session_data, _mali_uk_get_pp_number_of_cores_s __user *uargs)
+{
+ _mali_uk_get_pp_number_of_cores_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+ MALI_CHECK_NON_NULL(session_data, -EINVAL);
+
+ kargs.ctx = session_data;
+
+ err = _mali_ukk_get_pp_number_of_cores(&kargs);
+ if (_MALI_OSK_ERR_OK != err) {
+ return map_errcode(err);
+ }
+
+ kargs.ctx = NULL; /* prevent kernel address to be returned to user space */
+ if (0 != copy_to_user(uargs, &kargs, sizeof(_mali_uk_get_pp_number_of_cores_s))) {
+ return -EFAULT;
+ }
+
+ return 0;
+}
+
+int pp_get_core_version_wrapper(struct mali_session_data *session_data, _mali_uk_get_pp_core_version_s __user *uargs)
+{
+ _mali_uk_get_pp_core_version_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+ MALI_CHECK_NON_NULL(session_data, -EINVAL);
+
+ kargs.ctx = session_data;
+ err = _mali_ukk_get_pp_core_version(&kargs);
+ if (_MALI_OSK_ERR_OK != err) return map_errcode(err);
+
+ if (0 != put_user(kargs.version, &uargs->version)) return -EFAULT;
+
+ return 0;
+}
+
+int pp_disable_wb_wrapper(struct mali_session_data *session_data, _mali_uk_pp_disable_wb_s __user *uargs)
+{
+ _mali_uk_pp_disable_wb_s kargs;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+ MALI_CHECK_NON_NULL(session_data, -EINVAL);
+
+ if (0 != copy_from_user(&kargs, uargs, sizeof(_mali_uk_pp_disable_wb_s))) return -EFAULT;
+
+ kargs.ctx = session_data;
+ _mali_ukk_pp_job_disable_wb(&kargs);
+
+ return 0;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+#include <linux/fs.h> /* file system operations */
+#include <asm/uaccess.h> /* user space access */
+#include <linux/slab.h>
+
+#include "mali_ukk.h"
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_session.h"
+#include "mali_ukk_wrappers.h"
+
+int profiling_start_wrapper(struct mali_session_data *session_data, _mali_uk_profiling_start_s __user *uargs)
+{
+ _mali_uk_profiling_start_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+
+ if (0 != copy_from_user(&kargs, uargs, sizeof(_mali_uk_profiling_start_s))) {
+ return -EFAULT;
+ }
+
+ kargs.ctx = session_data;
+ err = _mali_ukk_profiling_start(&kargs);
+ if (_MALI_OSK_ERR_OK != err) {
+ return map_errcode(err);
+ }
+
+ if (0 != put_user(kargs.limit, &uargs->limit)) {
+ return -EFAULT;
+ }
+
+ return 0;
+}
+
+int profiling_add_event_wrapper(struct mali_session_data *session_data, _mali_uk_profiling_add_event_s __user *uargs)
+{
+ _mali_uk_profiling_add_event_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+
+ if (0 != copy_from_user(&kargs, uargs, sizeof(_mali_uk_profiling_add_event_s))) {
+ return -EFAULT;
+ }
+
+ kargs.ctx = session_data;
+ err = _mali_ukk_profiling_add_event(&kargs);
+ if (_MALI_OSK_ERR_OK != err) {
+ return map_errcode(err);
+ }
+
+ return 0;
+}
+
+int profiling_stop_wrapper(struct mali_session_data *session_data, _mali_uk_profiling_stop_s __user *uargs)
+{
+ _mali_uk_profiling_stop_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+
+ kargs.ctx = session_data;
+ err = _mali_ukk_profiling_stop(&kargs);
+ if (_MALI_OSK_ERR_OK != err) {
+ return map_errcode(err);
+ }
+
+ if (0 != put_user(kargs.count, &uargs->count)) {
+ return -EFAULT;
+ }
+
+ return 0;
+}
+
+int profiling_get_event_wrapper(struct mali_session_data *session_data, _mali_uk_profiling_get_event_s __user *uargs)
+{
+ _mali_uk_profiling_get_event_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+
+ if (0 != get_user(kargs.index, &uargs->index)) {
+ return -EFAULT;
+ }
+
+ kargs.ctx = session_data;
+
+ err = _mali_ukk_profiling_get_event(&kargs);
+ if (_MALI_OSK_ERR_OK != err) {
+ return map_errcode(err);
+ }
+
+ kargs.ctx = NULL; /* prevent kernel address to be returned to user space */
+ if (0 != copy_to_user(uargs, &kargs, sizeof(_mali_uk_profiling_get_event_s))) {
+ return -EFAULT;
+ }
+
+ return 0;
+}
+
+int profiling_clear_wrapper(struct mali_session_data *session_data, _mali_uk_profiling_clear_s __user *uargs)
+{
+ _mali_uk_profiling_clear_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+
+ kargs.ctx = session_data;
+ err = _mali_ukk_profiling_clear(&kargs);
+ if (_MALI_OSK_ERR_OK != err) {
+ return map_errcode(err);
+ }
+
+ return 0;
+}
+
+int profiling_report_sw_counters_wrapper(struct mali_session_data *session_data, _mali_uk_sw_counters_report_s __user *uargs)
+{
+ _mali_uk_sw_counters_report_s kargs;
+ _mali_osk_errcode_t err;
+ u32 *counter_buffer;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+
+ if (0 != copy_from_user(&kargs, uargs, sizeof(_mali_uk_sw_counters_report_s))) {
+ return -EFAULT;
+ }
+
+ /* make sure that kargs.num_counters is [at least somewhat] sane */
+ if (kargs.num_counters > 10000) {
+ MALI_DEBUG_PRINT(1, ("User space attempted to allocate too many counters.\n"));
+ return -EINVAL;
+ }
+
+ counter_buffer = (u32*)kmalloc(sizeof(u32) * kargs.num_counters, GFP_KERNEL);
+ if (NULL == counter_buffer) {
+ return -ENOMEM;
+ }
+
+ if (0 != copy_from_user(counter_buffer, kargs.counters, sizeof(u32) * kargs.num_counters)) {
+ kfree(counter_buffer);
+ return -EFAULT;
+ }
+
+ kargs.ctx = session_data;
+ kargs.counters = counter_buffer;
+
+ err = _mali_ukk_sw_counters_report(&kargs);
+
+ kfree(counter_buffer);
+
+ if (_MALI_OSK_ERR_OK != err) {
+ return map_errcode(err);
+ }
+
+ return 0;
+}
+
+
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+#include <linux/fs.h> /* file system operations */
+#include <asm/uaccess.h> /* user space access */
+
+#include "mali_ukk.h"
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_session.h"
+#include "mali_ukk_wrappers.h"
+
+#include "mali_soft_job.h"
+#include "mali_timeline.h"
+
+int soft_job_start_wrapper(struct mali_session_data *session, _mali_uk_soft_job_start_s __user *uargs)
+{
+ u32 type, user_job, point;
+ _mali_uk_fence_t uk_fence;
+ struct mali_timeline_fence fence;
+ struct mali_soft_job *job = NULL;
+ u32 __user *job_id_ptr = NULL;
+
+ /* If the job was started successfully, 0 is returned. If there was an error, but the job
+ * was started, we return -ENOENT. For anything else returned, the job was not started. */
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+ MALI_CHECK_NON_NULL(session, -EINVAL);
+
+ MALI_DEBUG_ASSERT_POINTER(session->soft_job_system);
+
+ if (0 != get_user(type, &uargs->type)) return -EFAULT;
+ if (0 != get_user(user_job, &uargs->user_job)) return -EFAULT;
+ if (0 != get_user(job_id_ptr, &uargs->job_id_ptr)) return -EFAULT;
+
+ if (0 != copy_from_user(&uk_fence, &uargs->fence, sizeof(_mali_uk_fence_t))) return -EFAULT;
+ mali_timeline_fence_copy_uk_fence(&fence, &uk_fence);
+
+ if (MALI_SOFT_JOB_TYPE_USER_SIGNALED < type) {
+ MALI_DEBUG_PRINT_ERROR(("Invalid soft job type specified\n"));
+ return -EINVAL;
+ }
+
+ /* Create soft job. */
+ job = mali_soft_job_create(session->soft_job_system, (enum mali_soft_job_type)type, user_job);
+ if (unlikely(NULL == job)) {
+ return map_errcode(_MALI_OSK_ERR_NOMEM);
+ }
+
+ /* Write job id back to user space. */
+ if (0 != put_user(job->id, job_id_ptr)) {
+ MALI_PRINT_ERROR(("Mali Soft Job: failed to put job id"));
+ mali_soft_job_destroy(job);
+ return map_errcode(_MALI_OSK_ERR_NOMEM);
+ }
+
+ /* Start soft job. */
+ point = mali_soft_job_start(job, &fence);
+
+ if (0 != put_user(point, &uargs->point)) {
+ /* Let user space know that something failed after the job was started. */
+ return -ENOENT;
+ }
+
+ return 0;
+}
+
+int soft_job_signal_wrapper(struct mali_session_data *session, _mali_uk_soft_job_signal_s __user *uargs)
+{
+ u32 job_id;
+ _mali_osk_errcode_t err;
+
+ MALI_DEBUG_ASSERT_POINTER(session);
+
+ if (0 != get_user(job_id, &uargs->job_id)) return -EFAULT;
+
+ err = mali_soft_job_system_signal_job(session->soft_job_system, job_id);
+
+ return map_errcode(err);
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+#include <linux/fs.h> /* file system operations */
+#include <asm/uaccess.h> /* user space access */
+
+#include "mali_ukk.h"
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_session.h"
+#include "mali_ukk_wrappers.h"
+
+#include "mali_timeline.h"
+#include "mali_timeline_fence_wait.h"
+#include "mali_timeline_sync_fence.h"
+
+int timeline_get_latest_point_wrapper(struct mali_session_data *session, _mali_uk_timeline_get_latest_point_s __user *uargs)
+{
+ u32 val;
+ mali_timeline_id timeline;
+ mali_timeline_point point;
+
+ MALI_DEBUG_ASSERT_POINTER(session);
+
+ if (0 != get_user(val, &uargs->timeline)) return -EFAULT;
+
+ if (MALI_UK_TIMELINE_MAX <= val) {
+ return -EINVAL;
+ }
+
+ timeline = (mali_timeline_id)val;
+
+ point = mali_timeline_system_get_latest_point(session->timeline_system, timeline);
+
+ if (0 != put_user(point, &uargs->point)) return -EFAULT;
+
+ return 0;
+}
+
+int timeline_wait_wrapper(struct mali_session_data *session, _mali_uk_timeline_wait_s __user *uargs)
+{
+ u32 timeout, status;
+ mali_bool ret;
+ _mali_uk_fence_t uk_fence;
+ struct mali_timeline_fence fence;
+
+ MALI_DEBUG_ASSERT_POINTER(session);
+
+ if (0 != copy_from_user(&uk_fence, &uargs->fence, sizeof(_mali_uk_fence_t))) return -EFAULT;
+ if (0 != get_user(timeout, &uargs->timeout)) return -EFAULT;
+
+ mali_timeline_fence_copy_uk_fence(&fence, &uk_fence);
+
+ ret = mali_timeline_fence_wait(session->timeline_system, &fence, timeout);
+ status = (MALI_TRUE == ret ? 1 : 0);
+
+ if (0 != put_user(status, &uargs->status)) return -EFAULT;
+
+ return 0;
+}
+
+int timeline_create_sync_fence_wrapper(struct mali_session_data *session, _mali_uk_timeline_create_sync_fence_s __user *uargs)
+{
+ s32 sync_fd = -1;
+ _mali_uk_fence_t uk_fence;
+ struct mali_timeline_fence fence;
+
+ MALI_DEBUG_ASSERT_POINTER(session);
+
+ if (0 != copy_from_user(&uk_fence, &uargs->fence, sizeof(_mali_uk_fence_t))) return -EFAULT;
+ mali_timeline_fence_copy_uk_fence(&fence, &uk_fence);
+
+#if defined(CONFIG_SYNC)
+ sync_fd = mali_timeline_sync_fence_create(session->timeline_system, &fence);
+#else
+ sync_fd = -1;
+#endif /* defined(CONFIG_SYNC) */
+
+ if (0 != put_user(sync_fd, &uargs->sync_fd)) return -EFAULT;
+
+ return 0;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2011-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+#include <linux/fs.h> /* file system operations */
+#include <asm/uaccess.h> /* user space access */
+
+#include "mali_ukk.h"
+#include "mali_osk.h"
+#include "mali_kernel_common.h"
+#include "mali_session.h"
+#include "mali_ukk_wrappers.h"
+
+
+int vsync_event_report_wrapper(struct mali_session_data *session_data, _mali_uk_vsync_event_report_s __user *uargs)
+{
+ _mali_uk_vsync_event_report_s kargs;
+ _mali_osk_errcode_t err;
+
+ MALI_CHECK_NON_NULL(uargs, -EINVAL);
+
+ if (0 != copy_from_user(&kargs, uargs, sizeof(_mali_uk_vsync_event_report_s))) {
+ return -EFAULT;
+ }
+
+ kargs.ctx = session_data;
+ err = _mali_ukk_vsync_event_report(&kargs);
+ if (_MALI_OSK_ERR_OK != err) {
+ return map_errcode(err);
+ }
+
+ return 0;
+}
+
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_ukk_wrappers.h
+ * Defines the wrapper functions for each user-kernel function
+ */
+
+#ifndef __MALI_UKK_WRAPPERS_H__
+#define __MALI_UKK_WRAPPERS_H__
+
+#include "mali_uk_types.h"
+#include "mali_osk.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+int wait_for_notification_wrapper(struct mali_session_data *session_data, _mali_uk_wait_for_notification_s __user *uargs);
+int get_api_version_wrapper(struct mali_session_data *session_data, _mali_uk_get_api_version_s __user *uargs);
+int get_user_settings_wrapper(struct mali_session_data *session_data, _mali_uk_get_user_settings_s __user *uargs);
+int post_notification_wrapper(struct mali_session_data *session_data, _mali_uk_post_notification_s __user *uargs);
+int request_high_priority_wrapper(struct mali_session_data *session_data, _mali_uk_request_high_priority_s __user *uargs);
+
+int mem_write_safe_wrapper(struct mali_session_data *session_data, _mali_uk_mem_write_safe_s __user * uargs);
+int mem_map_ext_wrapper(struct mali_session_data *session_data, _mali_uk_map_external_mem_s __user * argument);
+int mem_unmap_ext_wrapper(struct mali_session_data *session_data, _mali_uk_unmap_external_mem_s __user * argument);
+int mem_query_mmu_page_table_dump_size_wrapper(struct mali_session_data *session_data, _mali_uk_query_mmu_page_table_dump_size_s __user * uargs);
+int mem_dump_mmu_page_table_wrapper(struct mali_session_data *session_data, _mali_uk_dump_mmu_page_table_s __user * uargs);
+int get_mali_version_in_rk30_wrapper(struct mali_session_data *session_data, _mali_uk_get_mali_version_in_rk30_s __user *uargs)
+;
+int timeline_get_latest_point_wrapper(struct mali_session_data *session, _mali_uk_timeline_get_latest_point_s __user *uargs);
+int timeline_wait_wrapper(struct mali_session_data *session, _mali_uk_timeline_wait_s __user *uargs);
+int timeline_create_sync_fence_wrapper(struct mali_session_data *session, _mali_uk_timeline_create_sync_fence_s __user *uargs);
+int soft_job_start_wrapper(struct mali_session_data *session, _mali_uk_soft_job_start_s __user *uargs);
+int soft_job_signal_wrapper(struct mali_session_data *session, _mali_uk_soft_job_signal_s __user *uargs);
+
+#if defined(CONFIG_MALI400_UMP)
+int mem_attach_ump_wrapper(struct mali_session_data *session_data, _mali_uk_attach_ump_mem_s __user * argument);
+int mem_release_ump_wrapper(struct mali_session_data *session_data, _mali_uk_release_ump_mem_s __user * argument);
+#endif
+
+int pp_start_job_wrapper(struct mali_session_data *session_data, _mali_uk_pp_start_job_s __user *uargs);
+int pp_and_gp_start_job_wrapper(struct mali_session_data *session_data, _mali_uk_pp_and_gp_start_job_s __user *uargs);
+int pp_get_number_of_cores_wrapper(struct mali_session_data *session_data, _mali_uk_get_pp_number_of_cores_s __user *uargs);
+int pp_get_core_version_wrapper(struct mali_session_data *session_data, _mali_uk_get_pp_core_version_s __user *uargs);
+int pp_disable_wb_wrapper(struct mali_session_data *session_data, _mali_uk_pp_disable_wb_s __user *uargs);
+int gp_start_job_wrapper(struct mali_session_data *session_data, _mali_uk_gp_start_job_s __user *uargs);
+int gp_get_number_of_cores_wrapper(struct mali_session_data *session_data, _mali_uk_get_gp_number_of_cores_s __user *uargs);
+int gp_get_core_version_wrapper(struct mali_session_data *session_data, _mali_uk_get_gp_core_version_s __user *uargs);
+int gp_suspend_response_wrapper(struct mali_session_data *session_data, _mali_uk_gp_suspend_response_s __user *uargs);
+
+int profiling_start_wrapper(struct mali_session_data *session_data, _mali_uk_profiling_start_s __user *uargs);
+int profiling_add_event_wrapper(struct mali_session_data *session_data, _mali_uk_profiling_add_event_s __user *uargs);
+int profiling_stop_wrapper(struct mali_session_data *session_data, _mali_uk_profiling_stop_s __user *uargs);
+int profiling_get_event_wrapper(struct mali_session_data *session_data, _mali_uk_profiling_get_event_s __user *uargs);
+int profiling_clear_wrapper(struct mali_session_data *session_data, _mali_uk_profiling_clear_s __user *uargs);
+int profiling_report_sw_counters_wrapper(struct mali_session_data *session_data, _mali_uk_sw_counters_report_s __user *uargs);
+
+int vsync_event_report_wrapper(struct mali_session_data *session_data, _mali_uk_vsync_event_report_s __user *uargs);
+
+
+int map_errcode( _mali_osk_errcode_t err );
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __MALI_UKK_WRAPPERS_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2010, 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_platform.c
+ * Platform specific Mali driver functions for:
+ * - Realview Versatile platforms with ARM11 Mpcore and virtex 5.
+ * - Versatile Express platforms with ARM Cortex-A9 and virtex 6.
+ */
+#include <linux/platform_device.h>
+#include <linux/version.h>
+#include <linux/pm.h>
+#ifdef CONFIG_PM_RUNTIME
+#include <linux/pm_runtime.h>
+#endif
+#include <asm/io.h>
+#include <linux/mali/mali_utgard.h>
+#include "mali_kernel_common.h"
+#include <linux/dma-mapping.h>
+#include <linux/moduleparam.h>
+
+#include "arm_core_scaling.h"
+#include "mali_pp_scheduler.h"
+
+static void mali_platform_device_release(struct device *device);
+static u32 mali_read_phys(u32 phys_addr);
+#if defined(CONFIG_ARCH_REALVIEW)
+static void mali_write_phys(u32 phys_addr, u32 value);
+#endif
+
+static int mali_core_scaling_enable = 1;
+
+void mali_gpu_utilization_callback(struct mali_gpu_utilization_data *data);
+
+#if defined(CONFIG_ARCH_VEXPRESS)
+
+static struct resource mali_gpu_resources_m450_mp8[] = {
+ MALI_GPU_RESOURCES_MALI450_MP8_PMU(0xFC040000, -1, 70, 70, 70, 70, 70, 70, 70, 70, 70, 70, 70, 70, 70, 70, 70, 70, 70, 68)
+};
+
+#elif defined(CONFIG_ARCH_REALVIEW)
+
+static struct resource mali_gpu_resources_m300[] = {
+ MALI_GPU_RESOURCES_MALI300_PMU(0xC0000000, -1, -1, -1, -1)
+};
+
+static struct resource mali_gpu_resources_m400_mp1[] = {
+ MALI_GPU_RESOURCES_MALI400_MP1_PMU(0xC0000000, -1, -1, -1, -1)
+};
+
+static struct resource mali_gpu_resources_m400_mp2[] = {
+ MALI_GPU_RESOURCES_MALI400_MP2_PMU(0xC0000000, -1, -1, -1, -1, -1, -1)
+};
+
+#endif
+
+static struct mali_gpu_device_data mali_gpu_data = {
+#if defined(CONFIG_ARCH_VEXPRESS)
+ .shared_mem_size =256 * 1024 * 1024, /* 256MB */
+#elif defined(CONFIG_ARCH_REALVIEW)
+ .dedicated_mem_start = 0x80000000, /* Physical start address (use 0xD0000000 for old indirect setup) */
+ .dedicated_mem_size = 0x10000000, /* 256MB */
+#endif
+ .fb_start = 0xe0000000,
+ .fb_size = 0x01000000,
+ .max_job_runtime = 60000, /* 60 seconds */
+ .utilization_interval = 1000, /* 1000ms */
+ .utilization_callback = mali_gpu_utilization_callback,
+ .pmu_switch_delay = 0xFF, /* do not have to be this high on FPGA, but it is good for testing to have a delay */
+ .pmu_domain_config = {0x1, 0x2, 0x4, 0x4, 0x4, 0x8, 0x8, 0x8, 0x8, 0x1, 0x2, 0x8},
+};
+
+static struct platform_device mali_gpu_device = {
+ .name = MALI_GPU_NAME_UTGARD,
+ .id = 0,
+ .dev.release = mali_platform_device_release,
+ .dev.coherent_dma_mask = DMA_BIT_MASK(32),
+
+ .dev.platform_data = &mali_gpu_data,
+};
+
+int mali_platform_device_register(void)
+{
+ int err = -1;
+ int num_pp_cores = 0;
+#if defined(CONFIG_ARCH_REALVIEW)
+ u32 m400_gp_version;
+#endif
+
+ MALI_DEBUG_PRINT(4, ("mali_platform_device_register() called\n"));
+
+ /* Detect present Mali GPU and connect the correct resources to the device */
+#if defined(CONFIG_ARCH_VEXPRESS)
+
+ if (mali_read_phys(0xFC020000) == 0x00010100) {
+ MALI_DEBUG_PRINT(4, ("Registering Mali-450 MP8 device\n"));
+ num_pp_cores = 8;
+ mali_gpu_device.num_resources = ARRAY_SIZE(mali_gpu_resources_m450_mp8);
+ mali_gpu_device.resource = mali_gpu_resources_m450_mp8;
+ }
+
+#elif defined(CONFIG_ARCH_REALVIEW)
+
+ m400_gp_version = mali_read_phys(0xC000006C);
+ if ((m400_gp_version & 0xFFFF0000) == 0x0C070000) {
+ MALI_DEBUG_PRINT(4, ("Registering Mali-300 device\n"));
+ num_pp_cores = 1;
+ mali_gpu_device.num_resources = ARRAY_SIZE(mali_gpu_resources_m300);
+ mali_gpu_device.resource = mali_gpu_resources_m300;
+ mali_write_phys(0xC0010020, 0xA); /* Enable direct memory mapping for FPGA */
+ } else if ((m400_gp_version & 0xFFFF0000) == 0x0B070000) {
+ u32 fpga_fw_version = mali_read_phys(0xC0010000);
+ if (fpga_fw_version == 0x130C008F || fpga_fw_version == 0x110C008F) {
+ /* Mali-400 MP1 r1p0 or r1p1 */
+ MALI_DEBUG_PRINT(4, ("Registering Mali-400 MP1 device\n"));
+ num_pp_cores = 1;
+ mali_gpu_device.num_resources = ARRAY_SIZE(mali_gpu_resources_m400_mp1);
+ mali_gpu_device.resource = mali_gpu_resources_m400_mp1;
+ mali_write_phys(0xC0010020, 0xA); /* Enable direct memory mapping for FPGA */
+ } else if (fpga_fw_version == 0x130C000F) {
+ /* Mali-400 MP2 r1p1 */
+ MALI_DEBUG_PRINT(4, ("Registering Mali-400 MP2 device\n"));
+ num_pp_cores = 2;
+ mali_gpu_device.num_resources = ARRAY_SIZE(mali_gpu_resources_m400_mp2);
+ mali_gpu_device.resource = mali_gpu_resources_m400_mp2;
+ mali_write_phys(0xC0010020, 0xA); /* Enable direct memory mapping for FPGA */
+ }
+ }
+
+#endif
+ /* Register the platform device */
+ err = platform_device_register(&mali_gpu_device);
+ if (0 == err) {
+#ifdef CONFIG_PM_RUNTIME
+#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
+ pm_runtime_set_autosuspend_delay(&(mali_gpu_device.dev), 1000);
+ pm_runtime_use_autosuspend(&(mali_gpu_device.dev));
+#endif
+ pm_runtime_enable(&(mali_gpu_device.dev));
+#endif
+ MALI_DEBUG_ASSERT(0 < num_pp_cores);
+ mali_core_scaling_init(num_pp_cores);
+
+ return 0;
+ }
+
+ return err;
+}
+
+void mali_platform_device_unregister(void)
+{
+ MALI_DEBUG_PRINT(4, ("mali_platform_device_unregister() called\n"));
+
+ mali_core_scaling_term();
+ platform_device_unregister(&mali_gpu_device);
+
+ platform_device_put(&mali_gpu_device);
+
+#if defined(CONFIG_ARCH_REALVIEW)
+ mali_write_phys(0xC0010020, 0x9); /* Restore default (legacy) memory mapping */
+#endif
+}
+
+static void mali_platform_device_release(struct device *device)
+{
+ MALI_DEBUG_PRINT(4, ("mali_platform_device_release() called\n"));
+}
+
+static u32 mali_read_phys(u32 phys_addr)
+{
+ u32 phys_addr_page = phys_addr & 0xFFFFE000;
+ u32 phys_offset = phys_addr & 0x00001FFF;
+ u32 map_size = phys_offset + sizeof(u32);
+ u32 ret = 0xDEADBEEF;
+ void *mem_mapped = ioremap_nocache(phys_addr_page, map_size);
+ if (NULL != mem_mapped) {
+ ret = (u32)ioread32(((u8*)mem_mapped) + phys_offset);
+ iounmap(mem_mapped);
+ }
+
+ return ret;
+}
+
+#if defined(CONFIG_ARCH_REALVIEW)
+static void mali_write_phys(u32 phys_addr, u32 value)
+{
+ u32 phys_addr_page = phys_addr & 0xFFFFE000;
+ u32 phys_offset = phys_addr & 0x00001FFF;
+ u32 map_size = phys_offset + sizeof(u32);
+ void *mem_mapped = ioremap_nocache(phys_addr_page, map_size);
+ if (NULL != mem_mapped) {
+ iowrite32(value, ((u8*)mem_mapped) + phys_offset);
+ iounmap(mem_mapped);
+ }
+}
+#endif
+
+static int param_set_core_scaling(const char *val, const struct kernel_param *kp)
+{
+ int ret = param_set_int(val, kp);
+
+ if (1 == mali_core_scaling_enable) {
+ mali_core_scaling_sync(mali_pp_scheduler_get_num_cores_enabled());
+ }
+ return ret;
+}
+
+static struct kernel_param_ops param_ops_core_scaling = {
+ .set = param_set_core_scaling,
+ .get = param_get_int,
+};
+
+module_param_cb(mali_core_scaling_enable, ¶m_ops_core_scaling, &mali_core_scaling_enable, 0644);
+MODULE_PARM_DESC(mali_core_scaling_enable, "1 means to enable core scaling policy, 0 means to disable core scaling policy");
+
+void mali_gpu_utilization_callback(struct mali_gpu_utilization_data *data)
+{
+ if (1 == mali_core_scaling_enable) {
+ mali_core_scaling_update(data);
+ }
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file arm_core_scaling.c
+ * Example core scaling policy.
+ */
+
+#include "arm_core_scaling.h"
+
+#include <linux/mali/mali_utgard.h>
+#include "mali_kernel_common.h"
+
+#include <linux/workqueue.h>
+
+static int num_cores_total;
+static int num_cores_enabled;
+
+static struct work_struct wq_work;
+
+static void set_num_cores(struct work_struct *work)
+{
+ int err = mali_perf_set_num_pp_cores(num_cores_enabled);
+ MALI_DEBUG_ASSERT(0 == err);
+ MALI_IGNORE(err);
+}
+
+static void enable_one_core(void)
+{
+ if (num_cores_enabled < num_cores_total) {
+ ++num_cores_enabled;
+ schedule_work(&wq_work);
+ MALI_DEBUG_PRINT(3, ("Core scaling: Enabling one more core\n"));
+ }
+
+ MALI_DEBUG_ASSERT( 1 <= num_cores_enabled);
+ MALI_DEBUG_ASSERT(num_cores_total >= num_cores_enabled);
+}
+
+static void disable_one_core(void)
+{
+ if (1 < num_cores_enabled) {
+ --num_cores_enabled;
+ schedule_work(&wq_work);
+ MALI_DEBUG_PRINT(3, ("Core scaling: Disabling one core\n"));
+ }
+
+ MALI_DEBUG_ASSERT( 1 <= num_cores_enabled);
+ MALI_DEBUG_ASSERT(num_cores_total >= num_cores_enabled);
+}
+
+static void enable_max_num_cores(void)
+{
+ if (num_cores_enabled < num_cores_total) {
+ num_cores_enabled = num_cores_total;
+ schedule_work(&wq_work);
+ MALI_DEBUG_PRINT(3, ("Core scaling: Enabling maximum number of cores\n"));
+ }
+
+ MALI_DEBUG_ASSERT(num_cores_total == num_cores_enabled);
+}
+
+void mali_core_scaling_init(int num_pp_cores)
+{
+ INIT_WORK(&wq_work, set_num_cores);
+
+ num_cores_total = num_pp_cores;
+ num_cores_enabled = num_pp_cores;
+
+ /* NOTE: Mali is not fully initialized at this point. */
+}
+
+void mali_core_scaling_sync(int num_cores)
+{
+ num_cores_enabled = num_cores;
+}
+
+void mali_core_scaling_term(void)
+{
+ flush_scheduled_work();
+}
+
+#define PERCENT_OF(percent, max) ((int) ((percent)*(max)/100.0 + 0.5))
+
+void mali_core_scaling_update(struct mali_gpu_utilization_data *data)
+{
+ /*
+ * This function implements a very trivial PP core scaling algorithm.
+ *
+ * It is _NOT_ of production quality.
+ * The only intention behind this algorithm is to exercise and test the
+ * core scaling functionality of the driver.
+ * It is _NOT_ tuned for neither power saving nor performance!
+ *
+ * Other metrics than PP utilization need to be considered as well
+ * in order to make a good core scaling algorithm.
+ */
+
+ MALI_DEBUG_PRINT(3, ("Utilization: (%3d, %3d, %3d), cores enabled: %d/%d\n", data->utilization_gpu, data->utilization_gp, data->utilization_pp, num_cores_enabled, num_cores_total));
+
+ /* NOTE: this function is normally called directly from the utilization callback which is in
+ * timer context. */
+
+ if ( PERCENT_OF(90, 256) < data->utilization_pp) {
+ enable_max_num_cores();
+ } else if (PERCENT_OF(50, 256) < data->utilization_pp) {
+ enable_one_core();
+ } else if (PERCENT_OF(40, 256) < data->utilization_pp) {
+ /* do nothing */
+ } else if (PERCENT_OF( 0, 256) < data->utilization_pp) {
+ disable_one_core();
+ } else {
+ /* do nothing */
+ }
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file arm_core_scaling.h
+ * Example core scaling policy.
+ */
+
+#ifndef __ARM_CORE_SCALING_H__
+#define __ARM_CORE_SCALING_H__
+
+struct mali_gpu_utilization_data;
+
+/**
+ * Initialize core scaling policy.
+ *
+ * @note The core scaling policy will assume that all PP cores are on initially.
+ *
+ * @param num_pp_cores Total number of PP cores.
+ */
+void mali_core_scaling_init(int num_pp_cores);
+
+/**
+ * Terminate core scaling policy.
+ */
+void mali_core_scaling_term(void);
+
+/**
+ * Update core scaling policy with new utilization data.
+ *
+ * @param data Utilization data.
+ */
+void mali_core_scaling_update(struct mali_gpu_utilization_data *data);
+
+void mali_core_scaling_sync(int num_cores);
+
+#endif /* __ARM_CORE_SCALING_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2012 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_platform.c
+ * Platform specific Mali driver functions for a default platform
+ */
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+#include "mali_platform.h"
+
+#include <linux/workqueue.h>
+#include <linux/kernel.h>
+#include <linux/slab.h>
+#include <linux/gfp.h>
+#include <linux/fs.h>
+#include <linux/clk.h>
+#include <linux/device.h>
+#ifdef CONFIG_HAS_EARLYSUSPEND
+#include <linux/earlysuspend.h>
+#endif /* CONFIG_HAS_EARLYSUSPEND */
+#include <linux/miscdevice.h>
+#include <asm/uaccess.h>
+#include <linux/module.h>
+#include <linux/cpufreq.h>
+
+#include <linux/rockchip/dvfs.h>
+
+/*author@xxm*/
+#define GPUCLK_NAME "gpu"
+#define GPUCLK_PD_NAME "pd_gpu"
+#define GPU_MHZ 1000000
+static struct dvfs_node *mali_clock = 0;
+static struct clk *mali_clock_pd = 0;
+
+
+#define MALI_DVFS_DEFAULT_STEP 0 // 50Mhz default
+
+u32 mali_dvfs[] = {50,100,133,160,200,266,400};
+int num_clock;
+
+u32 mali_init_clock = 50;
+static int minuend = 0;
+
+static struct cpufreq_frequency_table *freq_table = NULL;
+
+module_param_array(mali_dvfs, int, &num_clock,S_IRUGO | S_IWUSR);
+MODULE_PARM_DESC(mali_dvfs,"mali clock table");
+
+module_param(mali_init_clock, int,S_IRUGO | S_IWUSR);
+MODULE_PARM_DESC(mali_init_clock,"mali init clock value");
+
+u32 mali_group_error = 0;
+u32 scale_enable = 1;
+u32 gpu_power_state = 0;
+static u32 utilization_global = 0;
+
+u32 mali_utilization_timeout = 10;
+u32 sampling_enable = 1;
+#define mali_freq_workqueue_name "mali_freq_workqueue"
+#define mali_freq_work_name "mali_freq_work"
+struct mali_freq_data {
+ struct workqueue_struct *wq;
+ struct work_struct work;
+ u32 freq;
+}*mali_freq_data;
+
+typedef struct mali_dvfs_tableTag{
+ u32 clock;
+ u32 vol;
+}mali_dvfs_table;
+
+typedef struct mali_dvfs_statusTag{
+ int currentStep;
+ mali_dvfs_table * pCurrentDvfs;
+
+}mali_dvfs_status;
+
+mali_dvfs_status maliDvfsStatus;
+
+#define GPU_DVFS_UP_THRESHOLD ((int)((255*50)/100))
+#define GPU_DVFS_DOWN_THRESHOLD ((int)((255*35)/100))
+
+_mali_osk_mutex_t *clockSetlock;
+
+struct clk* mali_clk_get(unsigned char *name)
+{
+ struct clk *clk;
+ clk = clk_get(NULL,name);
+ return clk;
+}
+unsigned long mali_clk_get_rate(struct dvfs_node *clk)
+{
+ return dvfs_clk_get_rate(clk);
+}
+
+void mali_clk_set_rate(struct dvfs_node *clk,u32 value)
+{
+ unsigned long rate = (unsigned long)value * GPU_MHZ;
+ dvfs_clk_set_rate(clk, rate);
+ rate = mali_clk_get_rate(clk);
+}
+
+static struct kobject *mali400_utility_object;
+
+static u32 get_mali_dvfs_status(void)
+{
+ return maliDvfsStatus.currentStep;
+}
+static void set_mali_dvfs_step(u32 value)
+{
+ maliDvfsStatus.currentStep = value;
+}
+
+static void scale_enable_set(u32 value)
+{
+ scale_enable = value;
+}
+static u32 mali_dvfs_search(u32 value)
+{
+ u32 i;
+ u32 clock = value;
+ for(i=0;i<num_clock;i++)
+ {
+ if(clock == mali_dvfs[i])
+ {
+ _mali_osk_mutex_wait(clockSetlock);
+ mali_clk_set_rate(mali_clock,clock);
+ _mali_osk_mutex_signal(clockSetlock);
+ set_mali_dvfs_step(i);
+ scale_enable_set(0);
+ return 0;
+ }
+ if(i>=7)
+ MALI_DEBUG_PRINT(2,("USER set clock not in the mali_dvfs table\r\n"));
+ }
+ return 1;
+}
+
+static int mali400_utility_show(struct device *dev,struct device_attribute *attr, char *buf)
+{
+ return sprintf(buf, "%d\n", utilization_global);
+}
+static int mali400_clock_set(struct device *dev,struct device_attribute *attr, const char *buf,u32 count)
+{
+ u32 clock;
+ u32 currentStep;
+ u64 timeValue;
+ clock = simple_strtoul(buf, NULL, 10);
+ currentStep = get_mali_dvfs_status();
+ timeValue = _mali_osk_time_get_ns();
+ /*MALI_PRINT(("USER SET CLOCK,%d\r\n",clock));*/
+ if(!clock)
+ {
+ scale_enable_set(1);
+ }
+ else
+ {
+ mali_dvfs_search(clock);
+ }
+ return count;
+}
+static int clock_show(struct device *dev,struct device_attribute *attr, char *buf)
+{
+ u32 i;
+ char *pos = buf;
+ pos += snprintf(pos,PAGE_SIZE,"%d,",num_clock);
+ for(i=0;i<(num_clock-1);i++)
+ {
+ pos += snprintf(pos,PAGE_SIZE,"%d,",mali_dvfs[i]);
+ }
+ pos +=snprintf(pos,PAGE_SIZE,"%d\n",mali_dvfs[i]);
+ return pos - buf;
+}
+static int sampling_timeout_show(struct device *dev,struct device_attribute *attr, char *buf)
+{
+ return sprintf(buf, "mali_utilization_timeout = %d\n", mali_utilization_timeout);
+}
+static int sampling_timeout_set(struct device *dev,struct device_attribute *attr, const char *buf,u32 count)
+{
+ u32 sampling;
+ sampling = simple_strtoul(buf, NULL, 10);
+
+ if(sampling == 0 )
+ {
+ sampling_enable = 0;
+ MALI_PRINT(("disable mali clock frequency scalling\r\n"));
+ }
+ else
+ {
+ mali_utilization_timeout = sampling;
+ sampling_enable = 1;
+ MALI_PRINT(("enable mali clock frequency scalling ,mali_utilization_timeout : %dms\r\n",mali_utilization_timeout));
+ }
+ return count;
+}
+static int error_count_show(struct device *dev,struct device_attribute *attr, char *buf)
+{
+ return sprintf(buf, "%d\n", mali_group_error);
+}
+
+static DEVICE_ATTR(utility, 0644, mali400_utility_show, mali400_clock_set);
+static DEVICE_ATTR(param, 0644, clock_show, NULL);
+static DEVICE_ATTR(sampling_timeout, 0644, sampling_timeout_show,sampling_timeout_set);
+static DEVICE_ATTR(error_count, 0644, error_count_show, NULL);
+
+
+static mali_bool mali400_utility_sysfs_init(void)
+{
+ u32 ret ;
+
+ mali400_utility_object = kobject_create_and_add("mali400_utility", NULL);
+ if (mali400_utility_object == NULL) {
+ return -1;
+ }
+ ret = sysfs_create_file(mali400_utility_object, &dev_attr_utility.attr);
+ if (ret) {
+ return -1;
+ }
+ ret = sysfs_create_file(mali400_utility_object, &dev_attr_param.attr);
+ if (ret) {
+ return -1;
+ }
+ ret = sysfs_create_file(mali400_utility_object, &dev_attr_sampling_timeout.attr);
+ if(ret){
+ return -1;
+ }
+ ret = sysfs_create_file(mali400_utility_object, &dev_attr_error_count.attr);
+ if(ret){
+ return -1;
+ }
+ return 0 ;
+}
+static unsigned int decideNextStatus(unsigned int utilization)
+{
+ u32 level=0;
+#if 1
+ {
+ if(utilization>GPU_DVFS_UP_THRESHOLD && maliDvfsStatus.currentStep==0 && maliDvfsStatus.currentStep<(num_clock-minuend))
+ level=1;
+ else if(utilization>GPU_DVFS_UP_THRESHOLD && maliDvfsStatus.currentStep==1 && maliDvfsStatus.currentStep<(num_clock-minuend))
+ level=2;
+ else if(utilization>GPU_DVFS_UP_THRESHOLD && maliDvfsStatus.currentStep==2 && maliDvfsStatus.currentStep<(num_clock-minuend))
+ level=3;
+ else if(utilization>GPU_DVFS_UP_THRESHOLD && maliDvfsStatus.currentStep==3 && maliDvfsStatus.currentStep<(num_clock-minuend))
+ level=4;
+ else if(utilization>GPU_DVFS_UP_THRESHOLD && maliDvfsStatus.currentStep==4 && maliDvfsStatus.currentStep<(num_clock-minuend))
+ level=5;
+ else if(utilization>GPU_DVFS_UP_THRESHOLD && maliDvfsStatus.currentStep==5 && maliDvfsStatus.currentStep<(num_clock-minuend))
+ level=6;
+ /*
+ determined by minuend to up to level 6
+ */
+ else if(utilization<GPU_DVFS_DOWN_THRESHOLD && maliDvfsStatus.currentStep==6 /*&& maliDvfsStatus.currentStep<num_clock*/)
+ level=5;
+ else if(utilization<GPU_DVFS_DOWN_THRESHOLD && maliDvfsStatus.currentStep==5 /*&& maliDvfsStatus.currentStep<num_clock*/)
+ level=4;
+ else if(utilization<GPU_DVFS_DOWN_THRESHOLD && maliDvfsStatus.currentStep==4 /*&& maliDvfsStatus.currentStep<num_clock*/)
+ level=3;
+ else if(utilization<GPU_DVFS_DOWN_THRESHOLD && maliDvfsStatus.currentStep==3 /*&& maliDvfsStatus.currentStep<num_clock*/)
+ level=2;
+ else if(utilization<GPU_DVFS_DOWN_THRESHOLD && maliDvfsStatus.currentStep==2 /*&& maliDvfsStatus.currentStep<num_clock*/)
+ level=1;
+ else if(utilization<GPU_DVFS_DOWN_THRESHOLD && maliDvfsStatus.currentStep==1 /*&& maliDvfsStatus.currentStep<num_clock*/)
+ level=0;
+ else
+ level = maliDvfsStatus.currentStep;
+ }
+#endif
+ return level;
+}
+
+static mali_bool set_mali_dvfs_status(u32 step)
+{
+ u32 validatedStep=step;
+ if(1)
+ {
+ _mali_osk_mutex_wait(clockSetlock);
+ mali_clk_set_rate(mali_clock, mali_dvfs[validatedStep]);
+ _mali_osk_mutex_signal(clockSetlock);
+ set_mali_dvfs_step(validatedStep);
+ }
+ return MALI_TRUE;
+}
+
+static mali_bool change_mali_dvfs_status(u32 step)
+{
+ if(!set_mali_dvfs_status(step))
+ {
+ MALI_DEBUG_PRINT(2,("error on set_mali_dvfs_status: %d\n",step));
+ return MALI_FALSE;
+ }
+ return MALI_TRUE;
+}
+
+static void mali_freq_scale_work(struct work_struct *work)
+{
+
+ u32 nextStatus = 0;
+ u32 curStatus = 0;
+
+ curStatus = get_mali_dvfs_status();
+ nextStatus = decideNextStatus(utilization_global);
+
+ if(curStatus!=nextStatus)
+ {
+ if(!change_mali_dvfs_status(nextStatus))
+ {
+ MALI_DEBUG_PRINT(1, ("error on change_mali_dvfs_status \n"));
+ }
+ }
+}
+static mali_bool init_mali_clock(void)
+{
+ mali_bool ret = MALI_TRUE;
+ int i;
+ if (mali_clock != 0 || mali_clock_pd != 0)
+ return ret;
+
+ mali_clock_pd = clk_get(NULL,GPUCLK_PD_NAME);
+ if (IS_ERR(mali_clock_pd))
+ {
+ MALI_PRINT( ("MALI Error : failed to get source mali pd\n"));
+ ret = MALI_FALSE;
+ goto err_gpu_clk;
+ }
+ clk_prepare_enable(mali_clock_pd);
+
+ mali_clock = clk_get_dvfs_node(GPUCLK_NAME);
+ if (IS_ERR(mali_clock))
+ {
+ MALI_PRINT( ("MALI Error : failed to get source mali clock\n"));
+ ret = MALI_FALSE;
+ goto err_gpu_clk;
+ }
+ dvfs_clk_prepare_enable(mali_clock);
+ freq_table = dvfs_get_freq_volt_table(mali_clock);
+ if(!freq_table)
+ {
+ MALI_PRINT(("Stop,dvfs table should be set in dts\n"));
+ return MALI_FALSE;
+ }
+ for (i = 0; freq_table[i].frequency != CPUFREQ_TABLE_END; i++)
+ {
+ mali_dvfs[i] = freq_table[i].frequency/1000;
+ }
+ mali_init_clock = mali_dvfs[0];
+ num_clock = i;
+ minuend = 1;
+ MALI_PRINT(("Mali400 inside of rk3036\r\n"));
+
+ mali_clk_set_rate(mali_clock, mali_init_clock);
+ gpu_power_state = 1;
+
+ return MALI_TRUE;
+
+err_gpu_clk:
+ MALI_PRINT(("::clk_put:: %s mali_clock\n", __FUNCTION__));
+ gpu_power_state = 0;
+ clk_disable_unprepare(mali_clock_pd);
+ dvfs_clk_disable_unprepare(mali_clock);
+ mali_clock = 0;
+ mali_clock_pd = 0;
+
+ return ret;
+}
+
+static mali_bool deinit_mali_clock(void)
+{
+ if (mali_clock == 0 && mali_clock_pd == 0)
+ return MALI_TRUE;
+ dvfs_clk_disable_unprepare(mali_clock);
+ clk_disable_unprepare(mali_clock_pd);
+ mali_clock = 0;
+ mali_clock_pd = 0;
+ if(gpu_power_state)
+ gpu_power_state = 0;
+ return MALI_TRUE;
+}
+
+mali_bool init_mali_dvfs_status(int step)
+{
+ set_mali_dvfs_step(step);
+ return MALI_TRUE;
+}
+
+#ifdef CONFIG_HAS_EARLYSUSPEND
+static void mali_pm_early_suspend(struct early_suspend *mali_dev)
+{
+ /*do nothing*/
+}
+static void mali_pm_late_resume(struct early_suspend *mali_dev)
+{
+ /*do nothing*/
+}
+static struct early_suspend mali_dev_early_suspend = {
+ .suspend = mali_pm_early_suspend,
+ .resume = mali_pm_late_resume,
+ .level = EARLY_SUSPEND_LEVEL_DISABLE_FB,
+};
+#endif /* CONFIG_HAS_EARLYSUSPEND */
+
+_mali_osk_errcode_t mali_platform_init(void)
+{
+ MALI_CHECK(init_mali_clock(), _MALI_OSK_ERR_FAULT);
+
+ clockSetlock = _mali_osk_mutex_init(_MALI_OSK_LOCKFLAG_ORDERED,_MALI_OSK_LOCK_ORDER_UTILIZATION);
+
+ if(!init_mali_dvfs_status(MALI_DVFS_DEFAULT_STEP))
+ MALI_DEBUG_PRINT(1, ("init_mali_dvfs_status failed\n"));
+
+ if(mali400_utility_sysfs_init())
+ MALI_PRINT(("mali400_utility_sysfs_init error\r\n"));
+
+ mali_freq_data = kmalloc(sizeof(struct mali_freq_data), GFP_KERNEL);
+ if(!mali_freq_data)
+ {
+ MALI_PRINT(("kmalloc error\r\n"));
+ MALI_ERROR(-1);
+ }
+ mali_freq_data->wq = create_workqueue(mali_freq_workqueue_name);
+ if(!mali_freq_data->wq)
+ MALI_ERROR(-1);
+ INIT_WORK(&mali_freq_data->work,mali_freq_scale_work);
+
+#ifdef CONFIG_HAS_EARLYSUSPEND
+ register_early_suspend(&mali_dev_early_suspend);
+#endif
+
+ MALI_SUCCESS;
+}
+
+_mali_osk_errcode_t mali_platform_deinit(void)
+{
+ deinit_mali_clock();
+ _mali_osk_mutex_term(clockSetlock);
+
+ MALI_SUCCESS;
+}
+_mali_osk_errcode_t mali_power_domain_control(u32 bpower_off)
+{
+ if (!bpower_off)
+ {
+ if(!gpu_power_state)
+ {
+ clk_prepare_enable(mali_clock_pd);
+ dvfs_clk_prepare_enable(mali_clock);
+ gpu_power_state = 1 ;
+ }
+ }
+ else if (bpower_off == 2)
+ {
+ ;
+ }
+ else if (bpower_off == 1)
+ {
+ if(gpu_power_state)
+ {
+ dvfs_clk_disable_unprepare(mali_clock);
+ clk_disable_unprepare(mali_clock_pd);
+ gpu_power_state = 0;
+ }
+ }
+ MALI_SUCCESS;
+}
+
+_mali_osk_errcode_t mali_platform_power_mode_change(mali_power_mode power_mode)
+{
+#if 0
+ switch(power_mode)
+ {
+ case MALI_POWER_MODE_ON:
+ MALI_DEBUG_PRINT(2,("MALI_POWER_MODE_ON\r\n"));
+ mali_power_domain_control(MALI_POWER_MODE_ON);
+ break;
+ case MALI_POWER_MODE_LIGHT_SLEEP:
+ MALI_DEBUG_PRINT(2,("MALI_POWER_MODE_LIGHT_SLEEP\r\n"));
+ mali_power_domain_control(MALI_POWER_MODE_LIGHT_SLEEP);
+ break;
+ case MALI_POWER_MODE_DEEP_SLEEP:
+ MALI_DEBUG_PRINT(2,("MALI_POWER_MODE_DEEP_SLEEP\r\n"));
+ mali_power_domain_control(MALI_POWER_MODE_DEEP_SLEEP);
+ break;
+ default:
+ MALI_DEBUG_PRINT(2,("mali_platform_power_mode_change:power_mode(%d) not support \r\n",power_mode));
+ }
+#endif
+ MALI_SUCCESS;
+}
+
+void mali_gpu_utilization_handler(struct mali_gpu_utilization_data *data)
+{
+ if(data->utilization_pp > 256)
+ return;
+ utilization_global = data->utilization_pp;
+ /*
+ MALI_PRINT(("utilization_global = %d\r\n",utilization_global));
+ */
+ if(scale_enable && sampling_enable)
+ queue_work(mali_freq_data->wq,&mali_freq_data->work);
+
+ return ;
+}
+
+void set_mali_parent_power_domain(void* dev)
+{
+}
+
+
+
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2012 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_platform.h
+ * Platform specific Mali driver functions
+ */
+
+#ifndef __MALI_PLATFORM_H__
+#define __MALI_PLATFORM_H__
+
+#include "mali_osk.h"
+#include <linux/mali/mali_utgard.h>
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/** @brief description of power change reasons
+ */
+typedef enum mali_power_mode_tag
+{
+ MALI_POWER_MODE_ON, /**< Power Mali on */
+ MALI_POWER_MODE_LIGHT_SLEEP, /**< Mali has been idle for a short time, or runtime PM suspend */
+ MALI_POWER_MODE_DEEP_SLEEP, /**< Mali has been idle for a long time, or OS suspend */
+} mali_power_mode;
+
+/** @brief Platform specific setup and initialisation of MALI
+ *
+ * This is called from the entrypoint of the driver to initialize the platform
+ *
+ * @return _MALI_OSK_ERR_OK on success otherwise, a suitable _mali_osk_errcode_t error.
+ */
+_mali_osk_errcode_t mali_platform_init(void);
+
+/** @brief Platform specific deinitialisation of MALI
+ *
+ * This is called on the exit of the driver to terminate the platform
+ *
+ * @return _MALI_OSK_ERR_OK on success otherwise, a suitable _mali_osk_errcode_t error.
+ */
+_mali_osk_errcode_t mali_platform_deinit(void);
+
+/** @brief Platform specific powerdown sequence of MALI
+ *
+ * Notification from the Mali device driver stating the new desired power mode.
+ * MALI_POWER_MODE_ON must be obeyed, while the other modes are optional.
+ * @param power_mode defines the power modes
+ * @return _MALI_OSK_ERR_OK on success otherwise, a suitable _mali_osk_errcode_t error.
+ */
+_mali_osk_errcode_t mali_platform_power_mode_change(mali_power_mode power_mode);
+
+
+/** @brief Platform specific handling of GPU utilization data
+ *
+ * When GPU utilization data is enabled, this function will be
+ * periodically called.
+ *
+ * @param utilization The workload utilization of the Mali GPU. 0 = no utilization, 256 = full utilization.
+ */
+void mali_gpu_utilization_handler(struct mali_gpu_utilization_data *data);
+
+/** @brief Setting the power domain of MALI
+ *
+ * This function sets the power domain of MALI if Linux run time power management is enabled
+ *
+ * @param dev Reference to struct platform_device (defined in linux) used by MALI GPU
+ */
+void set_mali_parent_power_domain(void* dev);
+
+#ifdef __cplusplus
+}
+#endif
+#endif
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2010, 2012 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/*author by xxm 2012-12-1*/
+
+#include <linux/platform_device.h>
+#include <linux/version.h>
+#include <linux/pm.h>
+#ifdef CONFIG_PM_RUNTIME
+#include <linux/pm_runtime.h>
+#endif
+#include <linux/mali/mali_utgard.h>
+#include "mali_kernel_common.h"
+
+#include "mali_platform.h"
+
+#include <linux/workqueue.h>
+#include <linux/dma-mapping.h>
+static int num_cores_total;
+static int num_cores_enabled;
+static void mali_platform_device_release(struct device *device);
+static int mali_os_suspend(struct device *device);
+static int mali_os_resume(struct device *device);
+static int mali_os_freeze(struct device *device);
+static int mali_os_thaw(struct device *device);
+#ifdef CONFIG_PM_RUNTIME
+static int mali_runtime_suspend(struct device *device);
+static int mali_runtime_resume(struct device *device);
+static int mali_runtime_idle(struct device *device);
+#endif
+
+/*#include "arm_core_scaling.h"*/
+void mali_gpu_utilization_callback(struct mali_gpu_utilization_data *data);
+
+static struct work_struct wq_work;
+
+static struct dev_pm_ops mali_gpu_device_type_pm_ops =
+{
+ .suspend = mali_os_suspend,
+ .resume = mali_os_resume,
+ .freeze = mali_os_freeze,
+ .thaw = mali_os_thaw,
+#ifdef CONFIG_PM_RUNTIME
+ .runtime_suspend = mali_runtime_suspend,
+ .runtime_resume = mali_runtime_resume,
+ .runtime_idle = mali_runtime_idle,
+#endif
+};
+
+static struct device_type mali_gpu_device_device_type =
+{
+ .pm = &mali_gpu_device_type_pm_ops,
+};
+
+static u64 dma_dmamask = DMA_BIT_MASK(32);
+
+static struct mali_gpu_device_data mali_gpu_data =
+{
+ .shared_mem_size = 1024* 1024 * 1024, /* 1GB */
+ .fb_start = 0x40000000,
+ .fb_size = 0xb1000000,
+ .utilization_interval = 0, /* 0ms */
+ .utilization_callback = mali_gpu_utilization_handler,
+};
+static void mali_platform_device_add_config(struct platform_device *pdev)
+{
+ pdev->dev.id = 0;
+ pdev->dev.release = mali_platform_device_release;
+ pdev->dev.type = &mali_gpu_device_device_type;
+ pdev->dev.dma_mask = &dma_dmamask;
+ pdev->dev.coherent_dma_mask = DMA_BIT_MASK(32);
+}
+static void set_num_cores(struct work_struct *work)
+{
+ int err = mali_perf_set_num_pp_cores(num_cores_enabled);
+ MALI_DEBUG_ASSERT(0 == err);
+ MALI_IGNORE(err);
+}
+static void enable_one_core(void)
+{
+ if (num_cores_enabled < num_cores_total)
+ {
+ ++num_cores_enabled;
+ schedule_work(&wq_work);
+ MALI_DEBUG_PRINT(3, ("Core scaling: Enabling one more core\n"));
+ }
+
+ MALI_DEBUG_ASSERT( 1 <= num_cores_enabled);
+ MALI_DEBUG_ASSERT(num_cores_total >= num_cores_enabled);
+}
+static void disable_one_core(void)
+{
+ if (1 < num_cores_enabled)
+ {
+ --num_cores_enabled;
+ schedule_work(&wq_work);
+ MALI_DEBUG_PRINT(3, ("Core scaling: Disabling one core\n"));
+ }
+
+ MALI_DEBUG_ASSERT( 1 <= num_cores_enabled);
+ MALI_DEBUG_ASSERT(num_cores_total >= num_cores_enabled);
+}
+static void enable_max_num_cores(void)
+{
+ if (num_cores_enabled < num_cores_total)
+ {
+ num_cores_enabled = num_cores_total;
+ schedule_work(&wq_work);
+ MALI_DEBUG_PRINT(3, ("Core scaling: Enabling maximum number of cores\n"));
+ }
+
+ MALI_DEBUG_ASSERT(num_cores_total == num_cores_enabled);
+}
+void mali_core_scaling_init(int num_pp_cores)
+{
+ INIT_WORK(&wq_work, set_num_cores);
+
+ num_cores_total = num_pp_cores;
+ num_cores_enabled = num_pp_cores;
+
+ /* NOTE: Mali is not fully initialized at this point. */
+}
+void mali_core_scaling_term(void)
+{
+ flush_scheduled_work();
+}
+#define PERCENT_OF(percent, max) ((int) ((percent)*(max)/100.0 + 0.5))
+void mali_core_scaling_update(struct mali_gpu_utilization_data *data)
+{
+ /*
+ * This function implements a very trivial PP core scaling algorithm.
+ *
+ * It is _NOT_ of production quality.
+ * The only intention behind this algorithm is to exercise and test the
+ * core scaling functionality of the driver.
+ * It is _NOT_ tuned for neither power saving nor performance!
+ *
+ * Other metrics than PP utilization need to be considered as well
+ * in order to make a good core scaling algorithm.
+ */
+
+ MALI_DEBUG_PRINT(3, ("Utilization: (%3d, %3d, %3d), cores enabled: %d/%d\n", data->utilization_gpu, data->utilization_gp, data->utilization_pp, num_cores_enabled, num_cores_total));
+
+ /* NOTE: this function is normally called directly from the utilization callback which is in
+ * timer context. */
+
+ if ( PERCENT_OF(90, 256) < data->utilization_pp)
+ {
+ enable_max_num_cores();
+ }
+ else if (PERCENT_OF(50, 256) < data->utilization_pp)
+ {
+ enable_one_core();
+ }
+ else if (PERCENT_OF(40, 256) < data->utilization_pp)
+ {
+ /* do nothing */
+ }
+ else if (PERCENT_OF( 0, 256) < data->utilization_pp)
+ {
+ disable_one_core();
+ }
+ else
+ {
+ /* do nothing */
+ }
+}
+int mali_platform_device_register(struct platform_device *pdev)
+{
+ int err = 0;
+ int num_pp_cores = 0;
+ MALI_PRINT(("mali_platform_device_register() called\n"));
+
+ num_pp_cores = 1;
+
+ mali_platform_device_add_config(pdev);
+
+ err = platform_device_add_data(pdev, &mali_gpu_data, sizeof(mali_gpu_data));
+
+ if (0 == err)
+ {
+ err = mali_platform_init();
+ if(0 == err)
+ {
+#ifdef CONFIG_PM_RUNTIME
+#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
+ pm_runtime_set_autosuspend_delay(&(pdev->dev), 1000);
+ pm_runtime_use_autosuspend(&(pdev->dev));
+#endif
+ pm_runtime_enable(&(pdev->dev));
+#endif
+ mali_core_scaling_init(num_pp_cores);
+ return 0;
+ }
+ }
+ return err;
+}
+void mali_platform_device_unregister(struct platform_device *pdev)
+{
+ MALI_DEBUG_PRINT(4, ("mali_platform_device_unregister() called\n"));
+
+ mali_platform_deinit();
+ mali_core_scaling_term();
+}
+
+static void mali_platform_device_release(struct device *device)
+{
+ MALI_DEBUG_PRINT(4, ("mali_platform_device_release() called\n"));
+}
+static int mali_os_suspend(struct device *device)
+{
+ int ret = 0;
+
+ MALI_DEBUG_PRINT(2, ("mali_os_suspend() called\n"));
+
+ if (NULL != device->driver &&
+ NULL != device->driver->pm &&
+ NULL != device->driver->pm->suspend)
+ {
+ /* Need to notify Mali driver about this event */
+ ret = device->driver->pm->suspend(device);
+ }
+
+ mali_platform_power_mode_change(MALI_POWER_MODE_DEEP_SLEEP);
+
+ return ret;
+}
+
+static int mali_os_resume(struct device *device)
+{
+ int ret = 0;
+
+ MALI_DEBUG_PRINT(2, ("mali_os_resume() called\n"));
+
+ mali_platform_power_mode_change(MALI_POWER_MODE_ON);
+
+ if (NULL != device->driver &&
+ NULL != device->driver->pm &&
+ NULL != device->driver->pm->resume)
+ {
+ /* Need to notify Mali driver about this event */
+ ret = device->driver->pm->resume(device);
+ }
+
+ return ret;
+}
+
+static int mali_os_freeze(struct device *device)
+{
+ int ret = 0;
+
+ MALI_DEBUG_PRINT(4, ("mali_os_freeze() called\n"));
+
+ if (NULL != device->driver &&
+ NULL != device->driver->pm &&
+ NULL != device->driver->pm->freeze)
+ {
+ /* Need to notify Mali driver about this event */
+ ret = device->driver->pm->freeze(device);
+ }
+
+ return ret;
+}
+
+static int mali_os_thaw(struct device *device)
+{
+ int ret = 0;
+
+ MALI_DEBUG_PRINT(4, ("mali_os_thaw() called\n"));
+
+ if (NULL != device->driver &&
+ NULL != device->driver->pm &&
+ NULL != device->driver->pm->thaw)
+ {
+ /* Need to notify Mali driver about this event */
+ ret = device->driver->pm->thaw(device);
+ }
+
+ return ret;
+}
+
+#ifdef CONFIG_PM_RUNTIME
+static int mali_runtime_suspend(struct device *device)
+{
+ int ret = 0;
+ MALI_DEBUG_PRINT(4, ("mali_runtime_suspend() called\n"));
+
+ if (NULL != device->driver &&
+ NULL != device->driver->pm &&
+ NULL != device->driver->pm->runtime_suspend)
+ {
+ /* Need to notify Mali driver about this event */
+ ret = device->driver->pm->runtime_suspend(device);
+ }
+
+ mali_platform_power_mode_change(MALI_POWER_MODE_LIGHT_SLEEP);
+
+ return ret;
+}
+
+static int mali_runtime_resume(struct device *device)
+{
+ int ret = 0;
+ MALI_DEBUG_PRINT(4, ("mali_runtime_resume() called\n"));
+
+ mali_platform_power_mode_change(MALI_POWER_MODE_ON);
+
+ if (NULL != device->driver &&
+ NULL != device->driver->pm &&
+ NULL != device->driver->pm->runtime_resume)
+ {
+ /* Need to notify Mali driver about this event */
+ ret = device->driver->pm->runtime_resume(device);
+ }
+
+ return ret;
+}
+
+static int mali_runtime_idle(struct device *device)
+{
+ int ret = 0;
+ MALI_DEBUG_PRINT(4, ("mali_runtime_idle() called\n"));
+
+ if (NULL != device->driver &&
+ NULL != device->driver->pm &&
+ NULL != device->driver->pm->runtime_idle)
+ {
+ /* Need to notify Mali driver about this event */
+ ret = device->driver->pm->runtime_idle(device);
+ if (0 != ret)
+ {
+ return ret;
+ }
+ }
+
+ pm_runtime_suspend(device);
+
+ return 0;
+}
+#endif
+void mali_gpu_utilization_callback(struct mali_gpu_utilization_data *data)
+{
+ mali_core_scaling_update(data);
+}
+
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2010, 2012 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file mali_platform.c
+ * Platform specific Mali driver functions for the TCC8900 platform
+ */
+#include <linux/platform_device.h>
+#include <linux/version.h>
+#include <linux/pm.h>
+#ifdef CONFIG_PM_RUNTIME
+#include <linux/pm_runtime.h>
+#endif
+#include <linux/mali/mali_utgard.h>
+#include "mali_kernel_common.h"
+
+static void mali_platform_device_release(struct device *device);
+
+#define MALI_GP_IRQ 25
+#define MALI_PP_IRQ 24
+#define MALI_MMU_IRQ 26
+
+static struct resource mali_gpu_resources[] =
+{
+ MALI_GPU_RESOURCES_MALI200(0xF0000000, MALI_GP_IRQ, MALI_PP_IRQ, MALI_MMU_IRQ)
+};
+
+static struct platform_device mali_gpu_device =
+{
+ .name = MALI_GPU_NAME_UTGARD,
+ .id = 0,
+ .dev.release = mali_platform_device_release,
+};
+
+static struct mali_gpu_device_data mali_gpu_data =
+{
+#if 0
+ /* Dedicated memory setup (not sure if this is actually reserved on the platforms any more) */
+ .dedicated_mem_start = 0x48A00000, /* Physical start address */
+ .dedicated_mem_size = 0x07800000, /* 120MB */
+#endif
+ .shared_mem_size = 96 * 1024 * 1024, /* 96MB */
+ .fb_start = 0x48200000,
+ .fb_size = 0x00800000,
+};
+
+int mali_platform_device_register(void)
+{
+ int err;
+
+ MALI_DEBUG_PRINT(4, ("mali_platform_device_register() called\n"));
+
+ /* Connect resources to the device */
+ err = platform_device_add_resources(&mali_gpu_device, mali_gpu_resources, sizeof(mali_gpu_resources) / sizeof(mali_gpu_resources[0]));
+ if (0 == err)
+ {
+ err = platform_device_add_data(&mali_gpu_device, &mali_gpu_data, sizeof(mali_gpu_data));
+ if (0 == err)
+ {
+ /* Register the platform device */
+ err = platform_device_register(&mali_gpu_device);
+ if (0 == err)
+ {
+#ifdef CONFIG_PM_RUNTIME
+#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
+ pm_runtime_set_autosuspend_delay(&(mali_gpu_device.dev), 1000);
+ pm_runtime_use_autosuspend(&(mali_gpu_device.dev));
+#endif
+ pm_runtime_enable(&(mali_gpu_device.dev));
+#endif
+
+ return 0;
+ }
+ }
+
+ platform_device_unregister(&mali_gpu_device);
+ }
+
+ return err;
+}
+
+void mali_platform_device_unregister(void)
+{
+ MALI_DEBUG_PRINT(4, ("mali_platform_device_unregister() called\n"));
+
+ platform_device_unregister(&mali_gpu_device);
+}
+
+static void mali_platform_device_release(struct device *device)
+{
+ MALI_DEBUG_PRINT(4, ("mali_platform_device_release() called\n"));
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2007-2010, 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef _MALI200_REGS_H_
+#define _MALI200_REGS_H_
+
+/**
+ * Enum for management register addresses.
+ */
+enum mali200_mgmt_reg {
+ MALI200_REG_ADDR_MGMT_VERSION = 0x1000,
+ MALI200_REG_ADDR_MGMT_CURRENT_REND_LIST_ADDR = 0x1004,
+ MALI200_REG_ADDR_MGMT_STATUS = 0x1008,
+ MALI200_REG_ADDR_MGMT_CTRL_MGMT = 0x100c,
+
+ MALI200_REG_ADDR_MGMT_INT_RAWSTAT = 0x1020,
+ MALI200_REG_ADDR_MGMT_INT_CLEAR = 0x1024,
+ MALI200_REG_ADDR_MGMT_INT_MASK = 0x1028,
+ MALI200_REG_ADDR_MGMT_INT_STATUS = 0x102c,
+
+ MALI200_REG_ADDR_MGMT_WRITE_BOUNDARY_LOW = 0x1044,
+
+ MALI200_REG_ADDR_MGMT_BUS_ERROR_STATUS = 0x1050,
+
+ MALI200_REG_ADDR_MGMT_PERF_CNT_0_ENABLE = 0x1080,
+ MALI200_REG_ADDR_MGMT_PERF_CNT_0_SRC = 0x1084,
+ MALI200_REG_ADDR_MGMT_PERF_CNT_0_VALUE = 0x108c,
+
+ MALI200_REG_ADDR_MGMT_PERF_CNT_1_ENABLE = 0x10a0,
+ MALI200_REG_ADDR_MGMT_PERF_CNT_1_SRC = 0x10a4,
+ MALI200_REG_ADDR_MGMT_PERF_CNT_1_VALUE = 0x10ac,
+
+ MALI200_REG_ADDR_MGMT_PERFMON_CONTR = 0x10b0,
+ MALI200_REG_ADDR_MGMT_PERFMON_BASE = 0x10b4,
+
+ MALI200_REG_SIZEOF_REGISTER_BANK = 0x10f0
+
+};
+
+#define MALI200_REG_VAL_PERF_CNT_ENABLE 1
+
+enum mali200_mgmt_ctrl_mgmt {
+ MALI200_REG_VAL_CTRL_MGMT_STOP_BUS = (1<<0),
+ MALI200_REG_VAL_CTRL_MGMT_FLUSH_CACHES = (1<<3),
+ MALI200_REG_VAL_CTRL_MGMT_FORCE_RESET = (1<<5),
+ MALI200_REG_VAL_CTRL_MGMT_START_RENDERING = (1<<6),
+ MALI400PP_REG_VAL_CTRL_MGMT_SOFT_RESET = (1<<7), /* Only valid for Mali-300 and later */
+};
+
+enum mali200_mgmt_irq {
+ MALI200_REG_VAL_IRQ_END_OF_FRAME = (1<<0),
+ MALI200_REG_VAL_IRQ_END_OF_TILE = (1<<1),
+ MALI200_REG_VAL_IRQ_HANG = (1<<2),
+ MALI200_REG_VAL_IRQ_FORCE_HANG = (1<<3),
+ MALI200_REG_VAL_IRQ_BUS_ERROR = (1<<4),
+ MALI200_REG_VAL_IRQ_BUS_STOP = (1<<5),
+ MALI200_REG_VAL_IRQ_CNT_0_LIMIT = (1<<6),
+ MALI200_REG_VAL_IRQ_CNT_1_LIMIT = (1<<7),
+ MALI200_REG_VAL_IRQ_WRITE_BOUNDARY_ERROR = (1<<8),
+ MALI400PP_REG_VAL_IRQ_INVALID_PLIST_COMMAND = (1<<9),
+ MALI400PP_REG_VAL_IRQ_CALL_STACK_UNDERFLOW = (1<<10),
+ MALI400PP_REG_VAL_IRQ_CALL_STACK_OVERFLOW = (1<<11),
+ MALI400PP_REG_VAL_IRQ_RESET_COMPLETED = (1<<12),
+};
+
+#define MALI200_REG_VAL_IRQ_MASK_ALL ((enum mali200_mgmt_irq) (\
+ MALI200_REG_VAL_IRQ_END_OF_FRAME |\
+ MALI200_REG_VAL_IRQ_END_OF_TILE |\
+ MALI200_REG_VAL_IRQ_HANG |\
+ MALI200_REG_VAL_IRQ_FORCE_HANG |\
+ MALI200_REG_VAL_IRQ_BUS_ERROR |\
+ MALI200_REG_VAL_IRQ_BUS_STOP |\
+ MALI200_REG_VAL_IRQ_CNT_0_LIMIT |\
+ MALI200_REG_VAL_IRQ_CNT_1_LIMIT |\
+ MALI200_REG_VAL_IRQ_WRITE_BOUNDARY_ERROR |\
+ MALI400PP_REG_VAL_IRQ_INVALID_PLIST_COMMAND |\
+ MALI400PP_REG_VAL_IRQ_CALL_STACK_UNDERFLOW |\
+ MALI400PP_REG_VAL_IRQ_CALL_STACK_OVERFLOW |\
+ MALI400PP_REG_VAL_IRQ_RESET_COMPLETED))
+
+#define MALI200_REG_VAL_IRQ_MASK_USED ((enum mali200_mgmt_irq) (\
+ MALI200_REG_VAL_IRQ_END_OF_FRAME |\
+ MALI200_REG_VAL_IRQ_FORCE_HANG |\
+ MALI200_REG_VAL_IRQ_BUS_ERROR |\
+ MALI200_REG_VAL_IRQ_WRITE_BOUNDARY_ERROR |\
+ MALI400PP_REG_VAL_IRQ_INVALID_PLIST_COMMAND |\
+ MALI400PP_REG_VAL_IRQ_CALL_STACK_UNDERFLOW |\
+ MALI400PP_REG_VAL_IRQ_CALL_STACK_OVERFLOW))
+
+#define MALI200_REG_VAL_IRQ_MASK_NONE ((enum mali200_mgmt_irq)(0))
+
+enum mali200_mgmt_status {
+ MALI200_REG_VAL_STATUS_RENDERING_ACTIVE = (1<<0),
+ MALI200_REG_VAL_STATUS_BUS_STOPPED = (1<<4),
+};
+
+enum mali200_render_unit {
+ MALI200_REG_ADDR_FRAME = 0x0000,
+ MALI200_REG_ADDR_RSW = 0x0004,
+ MALI200_REG_ADDR_STACK = 0x0030,
+ MALI200_REG_ADDR_STACK_SIZE = 0x0034,
+ MALI200_REG_ADDR_ORIGIN_OFFSET_X = 0x0040
+};
+
+enum mali200_wb_unit {
+ MALI200_REG_ADDR_WB0 = 0x0100,
+ MALI200_REG_ADDR_WB1 = 0x0200,
+ MALI200_REG_ADDR_WB2 = 0x0300
+};
+
+enum mali200_wb_unit_regs {
+ MALI200_REG_ADDR_WB_SOURCE_SELECT = 0x0000,
+ MALI200_REG_ADDR_WB_SOURCE_ADDR = 0x0004,
+};
+
+/* This should be in the top 16 bit of the version register of Mali PP */
+#define MALI200_PP_PRODUCT_ID 0xC807
+#define MALI300_PP_PRODUCT_ID 0xCE07
+#define MALI400_PP_PRODUCT_ID 0xCD07
+#define MALI450_PP_PRODUCT_ID 0xCF07
+
+
+#endif /* _MALI200_REGS_H_ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2007-2010, 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef _MALIGP2_CONROL_REGS_H_
+#define _MALIGP2_CONROL_REGS_H_
+
+/**
+ * These are the different geometry processor control registers.
+ * Their usage is to control and monitor the operation of the
+ * Vertex Shader and the Polygon List Builder in the geometry processor.
+ * Addresses are in 32-bit word relative sizes.
+ * @see [P0081] "Geometry Processor Data Structures" for details
+ */
+
+typedef enum {
+ MALIGP2_REG_ADDR_MGMT_VSCL_START_ADDR = 0x00,
+ MALIGP2_REG_ADDR_MGMT_VSCL_END_ADDR = 0x04,
+ MALIGP2_REG_ADDR_MGMT_PLBUCL_START_ADDR = 0x08,
+ MALIGP2_REG_ADDR_MGMT_PLBUCL_END_ADDR = 0x0c,
+ MALIGP2_REG_ADDR_MGMT_PLBU_ALLOC_START_ADDR = 0x10,
+ MALIGP2_REG_ADDR_MGMT_PLBU_ALLOC_END_ADDR = 0x14,
+ MALIGP2_REG_ADDR_MGMT_CMD = 0x20,
+ MALIGP2_REG_ADDR_MGMT_INT_RAWSTAT = 0x24,
+ MALIGP2_REG_ADDR_MGMT_INT_CLEAR = 0x28,
+ MALIGP2_REG_ADDR_MGMT_INT_MASK = 0x2C,
+ MALIGP2_REG_ADDR_MGMT_INT_STAT = 0x30,
+ MALIGP2_REG_ADDR_MGMT_WRITE_BOUND_LOW = 0x34,
+ MALIGP2_REG_ADDR_MGMT_PERF_CNT_0_ENABLE = 0x3C,
+ MALIGP2_REG_ADDR_MGMT_PERF_CNT_1_ENABLE = 0x40,
+ MALIGP2_REG_ADDR_MGMT_PERF_CNT_0_SRC = 0x44,
+ MALIGP2_REG_ADDR_MGMT_PERF_CNT_1_SRC = 0x48,
+ MALIGP2_REG_ADDR_MGMT_PERF_CNT_0_VALUE = 0x4C,
+ MALIGP2_REG_ADDR_MGMT_PERF_CNT_1_VALUE = 0x50,
+ MALIGP2_REG_ADDR_MGMT_STATUS = 0x68,
+ MALIGP2_REG_ADDR_MGMT_VERSION = 0x6C,
+ MALIGP2_REG_ADDR_MGMT_VSCL_START_ADDR_READ = 0x80,
+ MALIGP2_REG_ADDR_MGMT_PLBCL_START_ADDR_READ = 0x84,
+ MALIGP2_CONTR_AXI_BUS_ERROR_STAT = 0x94,
+ MALIGP2_REGISTER_ADDRESS_SPACE_SIZE = 0x98,
+} maligp_reg_addr_mgmt_addr;
+
+#define MALIGP2_REG_VAL_PERF_CNT_ENABLE 1
+
+/**
+ * Commands to geometry processor.
+ * @see MALIGP2_CTRL_REG_CMD
+ */
+typedef enum {
+ MALIGP2_REG_VAL_CMD_START_VS = (1<< 0),
+ MALIGP2_REG_VAL_CMD_START_PLBU = (1<< 1),
+ MALIGP2_REG_VAL_CMD_UPDATE_PLBU_ALLOC = (1<< 4),
+ MALIGP2_REG_VAL_CMD_RESET = (1<< 5),
+ MALIGP2_REG_VAL_CMD_FORCE_HANG = (1<< 6),
+ MALIGP2_REG_VAL_CMD_STOP_BUS = (1<< 9),
+ MALI400GP_REG_VAL_CMD_SOFT_RESET = (1<<10), /* only valid for Mali-300 and later */
+} mgp_contr_reg_val_cmd;
+
+
+/** @defgroup MALIGP2_IRQ
+ * Interrupt status of geometry processor.
+ * @see MALIGP2_CTRL_REG_INT_RAWSTAT, MALIGP2_REG_ADDR_MGMT_INT_CLEAR,
+ * MALIGP2_REG_ADDR_MGMT_INT_MASK, MALIGP2_REG_ADDR_MGMT_INT_STAT
+ * @{
+ */
+#define MALIGP2_REG_VAL_IRQ_VS_END_CMD_LST (1 << 0)
+#define MALIGP2_REG_VAL_IRQ_PLBU_END_CMD_LST (1 << 1)
+#define MALIGP2_REG_VAL_IRQ_PLBU_OUT_OF_MEM (1 << 2)
+#define MALIGP2_REG_VAL_IRQ_VS_SEM_IRQ (1 << 3)
+#define MALIGP2_REG_VAL_IRQ_PLBU_SEM_IRQ (1 << 4)
+#define MALIGP2_REG_VAL_IRQ_HANG (1 << 5)
+#define MALIGP2_REG_VAL_IRQ_FORCE_HANG (1 << 6)
+#define MALIGP2_REG_VAL_IRQ_PERF_CNT_0_LIMIT (1 << 7)
+#define MALIGP2_REG_VAL_IRQ_PERF_CNT_1_LIMIT (1 << 8)
+#define MALIGP2_REG_VAL_IRQ_WRITE_BOUND_ERR (1 << 9)
+#define MALIGP2_REG_VAL_IRQ_SYNC_ERROR (1 << 10)
+#define MALIGP2_REG_VAL_IRQ_AXI_BUS_ERROR (1 << 11)
+#define MALI400GP_REG_VAL_IRQ_AXI_BUS_STOPPED (1 << 12)
+#define MALI400GP_REG_VAL_IRQ_VS_INVALID_CMD (1 << 13)
+#define MALI400GP_REG_VAL_IRQ_PLB_INVALID_CMD (1 << 14)
+#define MALI400GP_REG_VAL_IRQ_RESET_COMPLETED (1 << 19)
+#define MALI400GP_REG_VAL_IRQ_SEMAPHORE_UNDERFLOW (1 << 20)
+#define MALI400GP_REG_VAL_IRQ_SEMAPHORE_OVERFLOW (1 << 21)
+#define MALI400GP_REG_VAL_IRQ_PTR_ARRAY_OUT_OF_BOUNDS (1 << 22)
+
+/* Mask defining all IRQs in Mali GP */
+#define MALIGP2_REG_VAL_IRQ_MASK_ALL \
+ (\
+ MALIGP2_REG_VAL_IRQ_VS_END_CMD_LST | \
+ MALIGP2_REG_VAL_IRQ_PLBU_END_CMD_LST | \
+ MALIGP2_REG_VAL_IRQ_PLBU_OUT_OF_MEM | \
+ MALIGP2_REG_VAL_IRQ_VS_SEM_IRQ | \
+ MALIGP2_REG_VAL_IRQ_PLBU_SEM_IRQ | \
+ MALIGP2_REG_VAL_IRQ_HANG | \
+ MALIGP2_REG_VAL_IRQ_FORCE_HANG | \
+ MALIGP2_REG_VAL_IRQ_PERF_CNT_0_LIMIT | \
+ MALIGP2_REG_VAL_IRQ_PERF_CNT_1_LIMIT | \
+ MALIGP2_REG_VAL_IRQ_WRITE_BOUND_ERR | \
+ MALIGP2_REG_VAL_IRQ_SYNC_ERROR | \
+ MALIGP2_REG_VAL_IRQ_AXI_BUS_ERROR | \
+ MALI400GP_REG_VAL_IRQ_AXI_BUS_STOPPED | \
+ MALI400GP_REG_VAL_IRQ_VS_INVALID_CMD | \
+ MALI400GP_REG_VAL_IRQ_PLB_INVALID_CMD | \
+ MALI400GP_REG_VAL_IRQ_RESET_COMPLETED | \
+ MALI400GP_REG_VAL_IRQ_SEMAPHORE_UNDERFLOW | \
+ MALI400GP_REG_VAL_IRQ_SEMAPHORE_OVERFLOW | \
+ MALI400GP_REG_VAL_IRQ_PTR_ARRAY_OUT_OF_BOUNDS)
+
+/* Mask defining the IRQs in Mali GP which we use */
+#define MALIGP2_REG_VAL_IRQ_MASK_USED \
+ (\
+ MALIGP2_REG_VAL_IRQ_VS_END_CMD_LST | \
+ MALIGP2_REG_VAL_IRQ_PLBU_END_CMD_LST | \
+ MALIGP2_REG_VAL_IRQ_PLBU_OUT_OF_MEM | \
+ MALIGP2_REG_VAL_IRQ_FORCE_HANG | \
+ MALIGP2_REG_VAL_IRQ_WRITE_BOUND_ERR | \
+ MALIGP2_REG_VAL_IRQ_SYNC_ERROR | \
+ MALIGP2_REG_VAL_IRQ_AXI_BUS_ERROR | \
+ MALI400GP_REG_VAL_IRQ_VS_INVALID_CMD | \
+ MALI400GP_REG_VAL_IRQ_PLB_INVALID_CMD | \
+ MALI400GP_REG_VAL_IRQ_SEMAPHORE_UNDERFLOW | \
+ MALI400GP_REG_VAL_IRQ_SEMAPHORE_OVERFLOW | \
+ MALI400GP_REG_VAL_IRQ_PTR_ARRAY_OUT_OF_BOUNDS)
+
+/* Mask defining non IRQs on MaliGP2*/
+#define MALIGP2_REG_VAL_IRQ_MASK_NONE 0
+
+/** }@ defgroup MALIGP2_IRQ*/
+
+/** @defgroup MALIGP2_STATUS
+ * The different Status values to the geometry processor.
+ * @see MALIGP2_CTRL_REG_STATUS
+ * @{
+ */
+#define MALIGP2_REG_VAL_STATUS_VS_ACTIVE 0x0002
+#define MALIGP2_REG_VAL_STATUS_BUS_STOPPED 0x0004
+#define MALIGP2_REG_VAL_STATUS_PLBU_ACTIVE 0x0008
+#define MALIGP2_REG_VAL_STATUS_BUS_ERROR 0x0040
+#define MALIGP2_REG_VAL_STATUS_WRITE_BOUND_ERR 0x0100
+/** }@ defgroup MALIGP2_STATUS*/
+
+#define MALIGP2_REG_VAL_STATUS_MASK_ACTIVE (\
+ MALIGP2_REG_VAL_STATUS_VS_ACTIVE|\
+ MALIGP2_REG_VAL_STATUS_PLBU_ACTIVE)
+
+
+#define MALIGP2_REG_VAL_STATUS_MASK_ERROR (\
+ MALIGP2_REG_VAL_STATUS_BUS_ERROR |\
+ MALIGP2_REG_VAL_STATUS_WRITE_BOUND_ERR )
+
+/* This should be in the top 16 bit of the version register of gp.*/
+#define MALI200_GP_PRODUCT_ID 0xA07
+#define MALI300_GP_PRODUCT_ID 0xC07
+#define MALI400_GP_PRODUCT_ID 0xB07
+#define MALI450_GP_PRODUCT_ID 0xD07
+
+/**
+ * The different sources for instrumented on the geometry processor.
+ * @see MALIGP2_REG_ADDR_MGMT_PERF_CNT_0_SRC
+ */
+
+enum MALIGP2_cont_reg_perf_cnt_src {
+ MALIGP2_REG_VAL_PERF_CNT1_SRC_NUMBER_OF_VERTICES_PROCESSED = 0x0a,
+};
+
+#endif
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010-2011, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_timestamp.h"
+
+/* This file is intentionally left empty, as all functions are inlined in mali_profiling_sampler.h */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010-2011, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_TIMESTAMP_H__
+#define __MALI_TIMESTAMP_H__
+
+#include "mali_osk.h"
+
+MALI_STATIC_INLINE _mali_osk_errcode_t _mali_timestamp_reset(void)
+{
+ /*
+ * reset counters and overflow flags
+ */
+
+ u32 mask = (1 << 0) | /* enable all three counters */
+ (0 << 1) | /* reset both Count Registers to 0x0 */
+ (1 << 2) | /* reset the Cycle Counter Register to 0x0 */
+ (0 << 3) | /* 1 = Cycle Counter Register counts every 64th processor clock cycle */
+ (0 << 4) | /* Count Register 0 interrupt enable */
+ (0 << 5) | /* Count Register 1 interrupt enable */
+ (0 << 6) | /* Cycle Counter interrupt enable */
+ (0 << 8) | /* Count Register 0 overflow flag (clear or write, flag on read) */
+ (0 << 9) | /* Count Register 1 overflow flag (clear or write, flag on read) */
+ (1 << 10); /* Cycle Counter Register overflow flag (clear or write, flag on read) */
+
+ __asm__ __volatile__ ("MCR p15, 0, %0, c15, c12, 0" : : "r" (mask) );
+
+ return _MALI_OSK_ERR_OK;
+}
+
+MALI_STATIC_INLINE u64 _mali_timestamp_get(void)
+{
+ u32 result;
+
+ /* this is for the clock cycles */
+ __asm__ __volatile__ ("MRC p15, 0, %0, c15, c12, 1" : "=r" (result));
+
+ return (u64)result;
+}
+
+#endif /* __MALI_TIMESTAMP_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010-2011, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_timestamp.h"
+
+/* This file is intentionally left empty, as all functions are inlined in mali_profiling_sampler.h */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010-2011, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __MALI_TIMESTAMP_H__
+#define __MALI_TIMESTAMP_H__
+
+#include "mali_osk.h"
+
+MALI_STATIC_INLINE _mali_osk_errcode_t _mali_timestamp_reset(void)
+{
+ return _MALI_OSK_ERR_OK;
+}
+
+MALI_STATIC_INLINE u64 _mali_timestamp_get(void)
+{
+ return _mali_osk_time_get_ns();
+}
+
+#endif /* __MALI_TIMESTAMP_H__ */
--- /dev/null
+#
+# This confidential and proprietary software may be used only as
+# authorised by a licensing agreement from ARM Limited
+# (C) COPYRIGHT 2008-2012 ARM Limited
+# ALL RIGHTS RESERVED
+# The entire notice above must be reproduced on all authorised
+# copies and copies may only be made to the extent permitted
+# by a licensing agreement from ARM Limited.
+#
+
+# Set default configuration to use, if Makefile didn't provide one.
+# Change this to use a different config.h
+CONFIG ?= pb-virtex5-m400-4
+
+# Validate selected config
+ifneq ($(shell [ -d $(src)/arch-$(CONFIG) ] && [ -f $(src)/arch-$(CONFIG)/config.h ] && echo "OK"), OK)
+$(warning Current directory is $(src))
+$(error No configuration found for config $(CONFIG). Check that arch-$(CONFIG)/config.h exists)
+else
+# Link arch to the selected arch-config directory
+$(shell [ -L $(src)/arch ] && rm $(src)/arch)
+$(shell ln -sf arch-$(CONFIG) $(src)/arch)
+$(shell touch $(src)/arch/config.h)
+endif
+
+UDD_FILE_PREFIX = ../mali/
+
+# Get subversion revision number, fall back to 0000 if no svn info is available
+SVN_INFO = (cd $(src); svn info 2>/dev/null)
+
+ifneq ($(shell $(SVN_INFO) 2>/dev/null),)
+# SVN detected
+SVN_REV := $(shell $(SVN_INFO) | grep '^Revision: '| sed -e 's/^Revision: //' 2>/dev/null)
+DRIVER_REV := $(MALI_RELEASE_NAME)-r$(SVN_REV)
+CHANGE_DATE := $(shell $(SVN_INFO) | grep '^Last Changed Date: ' | cut -d: -f2- | cut -b2-)
+CHANGED_REVISION := $(shell $(SVN_INFO) | grep '^Last Changed Rev: ' | cut -d: -f2- | cut -b2-)
+REPO_URL := $(shell $(SVN_INFO) | grep '^URL: ' | cut -d: -f2- | cut -b2-)
+
+else # SVN
+GIT_REV := $(shell cd $(src); git describe --always 2>/dev/null)
+ifneq ($(GIT_REV),)
+# Git detected
+DRIVER_REV := $(MALI_RELEASE_NAME)-$(GIT_REV)
+CHANGE_DATE := $(shell cd $(src); git log -1 --format="%ci")
+CHANGED_REVISION := $(GIT_REV)
+REPO_URL := $(shell cd $(src); git describe --all --always 2>/dev/null)
+
+else # Git
+# No Git or SVN detected
+DRIVER_REV := $(MALI_RELEASE_NAME)
+CHANGE_DATE := $(MALI_RELEASE_NAME)
+CHANGED_REVISION := $(MALI_RELEASE_NAME)
+endif
+endif
+
+ccflags-y += -DSVN_REV=$(SVN_REV)
+ccflags-y += -DSVN_REV_STRING=\"$(DRIVER_REV)\"
+
+ccflags-y += -I$(src) -I$(src)/common -I$(src)/linux -I$(src)/../mali/common -I$(src)/../mali/linux -I$(src)/../include/ump
+ccflags-y += -DMALI_STATE_TRACKING=0
+ccflags-y += -DMALI_ENABLE_CPU_CYCLES=0
+ccflags-$(CONFIG_UMP_DEBUG) += -DDEBUG
+
+# For customer releases the Linux Device Drivers will be provided as ARM proprietary and GPL releases:
+# The ARM proprietary product will only include the license/proprietary directory
+# The GPL product will only include the license/gpl directory
+
+ifeq ($(wildcard $(src)/linux/license/gpl/*),)
+ccflags-y += -I$(src)/linux/license/proprietary -I$(src)/../mali/linux/license/proprietary
+else
+ccflags-y += -I$(src)/linux/license/gpl -I$(src)/../mali/linux/license/gpl
+endif
+
+ump-y = common/ump_kernel_common.o \
+ common/ump_kernel_descriptor_mapping.o \
+ common/ump_kernel_api.o \
+ common/ump_kernel_ref_drv.o \
+ linux/ump_kernel_linux.o \
+ linux/ump_kernel_memory_backend_os.o \
+ linux/ump_kernel_memory_backend_dedicated.o \
+ linux/ump_memory_backend.o \
+ linux/ump_ukk_wrappers.o \
+ linux/ump_ukk_ref_wrappers.o \
+ linux/ump_osk_atomics.o \
+ linux/ump_osk_low_level_mem.o \
+ linux/ump_osk_misc.o
+ifeq ($(CONFIG_UMP),m)
+ump-y += $(UDD_FILE_PREFIX)linux/mali_osk_atomics.o
+ump-y += $(UDD_FILE_PREFIX)linux/mali_osk_locks.o
+ump-y += $(UDD_FILE_PREFIX)linux/mali_osk_memory.o
+ump-y += $(UDD_FILE_PREFIX)linux/mali_osk_math.o
+ump-y += $(UDD_FILE_PREFIX)linux/mali_osk_misc.o
+endif
+obj-$(CONFIG_UMP) := ump.o
+
--- /dev/null
+config UMP
+ tristate "UMP support"
+ depends on ARM
+ ---help---
+ This enables support for the UMP memory allocation and sharing API.
+
+ To compile this driver as a module, choose M here: the module will be
+ called ump.
+
+config UMP_DEBUG
+ bool "Enable extra debug in UMP"
+ depends on UMP
+ default y
+ ---help---
+ This enabled extra debug checks and messages in UMP.
+
--- /dev/null
+#
+# This confidential and proprietary software may be used only as
+# authorised by a licensing agreement from ARM Limited
+# (C) COPYRIGHT 2008-2011, 2013 ARM Limited
+# ALL RIGHTS RESERVED
+# The entire notice above must be reproduced on all authorised
+# copies and copies may only be made to the extent permitted
+# by a licensing agreement from ARM Limited.
+#
+
+SRC = $(UMP_FILE_PREFIX)common/ump_kernel_common.c \
+ $(UMP_FILE_PREFIX)common/ump_kernel_descriptor_mapping.c \
+ $(UMP_FILE_PREFIX)common/ump_kernel_api.c \
+ $(UMP_FILE_PREFIX)common/ump_kernel_ref_drv.c
+
+# Get subversion revision number, fall back to 0000 if no svn info is available
+SVN_REV:=$(shell ((svnversion | grep -qv exported && echo -n 'Revision: ' && svnversion) || git svn info | sed -e 's/$$$$/M/' | grep '^Revision: ' || echo ${MALI_RELEASE_NAME}) 2>/dev/null | sed -e 's/^Revision: //')
+
+EXTRA_CFLAGS += -DSVN_REV=$(SVN_REV)
+EXTRA_CFLAGS += -DSVN_REV_STRING=\"$(SVN_REV)\"
--- /dev/null
+arch-pb-virtex5-m400-4
\ No newline at end of file
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2011 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __ARCH_CONFIG_H__
+#define __ARCH_CONFIG_H__
+
+#define ARCH_UMP_BACKEND_DEFAULT 1
+#define ARCH_UMP_MEMORY_ADDRESS_DEFAULT 0//0xC8000000
+#define ARCH_UMP_MEMORY_SIZE_DEFAULT 512UL * 1024UL * 1024UL
+#endif /* __ARCH_CONFIG_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_osk.h"
+#include "mali_osk_list.h"
+#include "ump_osk.h"
+#include "ump_uk_types.h"
+#include "ump_kernel_interface.h"
+#include "ump_kernel_common.h"
+
+
+
+/* ---------------- UMP kernel space API functions follows ---------------- */
+
+
+
+UMP_KERNEL_API_EXPORT ump_secure_id ump_dd_secure_id_get(ump_dd_handle memh)
+{
+ ump_dd_mem * mem = (ump_dd_mem *)memh;
+
+ DEBUG_ASSERT_POINTER(mem);
+
+ DBG_MSG(5, ("Returning secure ID. ID: %u\n", mem->secure_id));
+
+ return mem->secure_id;
+}
+
+
+
+UMP_KERNEL_API_EXPORT ump_dd_handle ump_dd_handle_create_from_secure_id(ump_secure_id secure_id)
+{
+ ump_dd_mem * mem;
+
+ _mali_osk_mutex_wait(device.secure_id_map_lock);
+
+ DBG_MSG(5, ("Getting handle from secure ID. ID: %u\n", secure_id));
+ if (0 != ump_descriptor_mapping_get(device.secure_id_map, (int)secure_id, (void**)&mem)) {
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ DBG_MSG(1, ("Secure ID not found. ID: %u\n", secure_id));
+ return UMP_DD_HANDLE_INVALID;
+ }
+
+ ump_dd_reference_add(mem);
+
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+
+ return (ump_dd_handle)mem;
+}
+
+
+
+UMP_KERNEL_API_EXPORT unsigned long ump_dd_phys_block_count_get(ump_dd_handle memh)
+{
+ ump_dd_mem * mem = (ump_dd_mem*) memh;
+
+ DEBUG_ASSERT_POINTER(mem);
+
+ return mem->nr_blocks;
+}
+
+
+
+UMP_KERNEL_API_EXPORT ump_dd_status_code ump_dd_phys_blocks_get(ump_dd_handle memh, ump_dd_physical_block * blocks, unsigned long num_blocks)
+{
+ ump_dd_mem * mem = (ump_dd_mem *)memh;
+
+ DEBUG_ASSERT_POINTER(mem);
+
+ if (blocks == NULL) {
+ DBG_MSG(1, ("NULL parameter in ump_dd_phys_blocks_get()\n"));
+ return UMP_DD_INVALID;
+ }
+
+ if (mem->nr_blocks != num_blocks) {
+ DBG_MSG(1, ("Specified number of blocks do not match actual number of blocks\n"));
+ return UMP_DD_INVALID;
+ }
+
+ DBG_MSG(5, ("Returning physical block information. ID: %u\n", mem->secure_id));
+
+ _mali_osk_memcpy(blocks, mem->block_array, sizeof(ump_dd_physical_block) * mem->nr_blocks);
+
+ return UMP_DD_SUCCESS;
+}
+
+
+
+UMP_KERNEL_API_EXPORT ump_dd_status_code ump_dd_phys_block_get(ump_dd_handle memh, unsigned long index, ump_dd_physical_block * block)
+{
+ ump_dd_mem * mem = (ump_dd_mem *)memh;
+
+ DEBUG_ASSERT_POINTER(mem);
+
+ if (block == NULL) {
+ DBG_MSG(1, ("NULL parameter in ump_dd_phys_block_get()\n"));
+ return UMP_DD_INVALID;
+ }
+
+ if (index >= mem->nr_blocks) {
+ DBG_MSG(5, ("Invalid index specified in ump_dd_phys_block_get()\n"));
+ return UMP_DD_INVALID;
+ }
+
+ DBG_MSG(5, ("Returning physical block information. ID: %u, index: %lu\n", mem->secure_id, index));
+
+ *block = mem->block_array[index];
+
+ return UMP_DD_SUCCESS;
+}
+
+
+
+UMP_KERNEL_API_EXPORT unsigned long ump_dd_size_get(ump_dd_handle memh)
+{
+ ump_dd_mem * mem = (ump_dd_mem*)memh;
+
+ DEBUG_ASSERT_POINTER(mem);
+
+ DBG_MSG(5, ("Returning size. ID: %u, size: %lu\n", mem->secure_id, mem->size_bytes));
+
+ return mem->size_bytes;
+}
+
+
+
+UMP_KERNEL_API_EXPORT void ump_dd_reference_add(ump_dd_handle memh)
+{
+ ump_dd_mem * mem = (ump_dd_mem*)memh;
+ int new_ref;
+
+ DEBUG_ASSERT_POINTER(mem);
+
+ new_ref = _ump_osk_atomic_inc_and_read(&mem->ref_count);
+
+ DBG_MSG(5, ("Memory reference incremented. ID: %u, new value: %d\n", mem->secure_id, new_ref));
+}
+
+
+
+UMP_KERNEL_API_EXPORT void ump_dd_reference_release(ump_dd_handle memh)
+{
+ int new_ref;
+ ump_dd_mem * mem = (ump_dd_mem*)memh;
+
+ DEBUG_ASSERT_POINTER(mem);
+
+ /* We must hold this mutex while doing the atomic_dec_and_read, to protect
+ that elements in the ump_descriptor_mapping table is always valid. If they
+ are not, userspace may accidently map in this secure_ids right before its freed
+ giving a mapped backdoor into unallocated memory.*/
+ _mali_osk_mutex_wait(device.secure_id_map_lock);
+
+ new_ref = _ump_osk_atomic_dec_and_read(&mem->ref_count);
+
+ DBG_MSG(5, ("Memory reference decremented. ID: %u, new value: %d\n", mem->secure_id, new_ref));
+
+ if (0 == new_ref) {
+ DBG_MSG(3, ("Final release of memory. ID: %u\n", mem->secure_id));
+
+ ump_descriptor_mapping_free(device.secure_id_map, (int)mem->secure_id);
+
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ mem->release_func(mem->ctx, mem);
+ _mali_osk_free(mem);
+ } else {
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ }
+}
+
+
+
+/* --------------- Handling of user space requests follows --------------- */
+
+
+_mali_osk_errcode_t _ump_uku_get_api_version( _ump_uk_api_version_s *args )
+{
+ ump_session_data * session_data;
+
+ DEBUG_ASSERT_POINTER( args );
+ DEBUG_ASSERT_POINTER( args->ctx );
+
+ session_data = (ump_session_data *)args->ctx;
+
+ /* check compatability */
+ if (args->version == UMP_IOCTL_API_VERSION) {
+ DBG_MSG(3, ("API version set to newest %d (compatible)\n", GET_VERSION(args->version)));
+ args->compatible = 1;
+ session_data->api_version = args->version;
+ } else if (args->version == MAKE_VERSION_ID(1)) {
+ DBG_MSG(2, ("API version set to depricated: %d (compatible)\n", GET_VERSION(args->version)));
+ args->compatible = 1;
+ session_data->api_version = args->version;
+ } else {
+ DBG_MSG(2, ("API version set to %d (incompatible with client version %d)\n", GET_VERSION(UMP_IOCTL_API_VERSION), GET_VERSION(args->version)));
+ args->compatible = 0;
+ args->version = UMP_IOCTL_API_VERSION; /* report our version */
+ }
+
+ return _MALI_OSK_ERR_OK;
+}
+
+
+_mali_osk_errcode_t _ump_ukk_release( _ump_uk_release_s *release_info )
+{
+ ump_session_memory_list_element * session_memory_element;
+ ump_session_memory_list_element * tmp;
+ ump_session_data * session_data;
+ _mali_osk_errcode_t ret = _MALI_OSK_ERR_INVALID_FUNC;
+ int secure_id;
+
+ DEBUG_ASSERT_POINTER( release_info );
+ DEBUG_ASSERT_POINTER( release_info->ctx );
+
+ /* Retreive the session data */
+ session_data = (ump_session_data*)release_info->ctx;
+
+ /* If there are many items in the memory session list we
+ * could be de-referencing this pointer a lot so keep a local copy
+ */
+ secure_id = release_info->secure_id;
+
+ DBG_MSG(4, ("Releasing memory with IOCTL, ID: %u\n", secure_id));
+
+ /* Iterate through the memory list looking for the requested secure ID */
+ _mali_osk_mutex_wait(session_data->lock);
+ _MALI_OSK_LIST_FOREACHENTRY(session_memory_element, tmp, &session_data->list_head_session_memory_list, ump_session_memory_list_element, list) {
+ if ( session_memory_element->mem->secure_id == secure_id) {
+ ump_dd_mem *release_mem;
+
+ release_mem = session_memory_element->mem;
+ _mali_osk_list_del(&session_memory_element->list);
+ ump_dd_reference_release(release_mem);
+ _mali_osk_free(session_memory_element);
+
+ ret = _MALI_OSK_ERR_OK;
+ break;
+ }
+ }
+
+ _mali_osk_mutex_signal(session_data->lock);
+ DBG_MSG_IF(1, _MALI_OSK_ERR_OK != ret, ("UMP memory with ID %u does not belong to this session.\n", secure_id));
+
+ DBG_MSG(4, ("_ump_ukk_release() returning 0x%x\n", ret));
+ return ret;
+}
+
+_mali_osk_errcode_t _ump_ukk_size_get( _ump_uk_size_get_s *user_interaction )
+{
+ ump_dd_mem * mem;
+ _mali_osk_errcode_t ret = _MALI_OSK_ERR_FAULT;
+
+ DEBUG_ASSERT_POINTER( user_interaction );
+
+ /* We lock the mappings so things don't get removed while we are looking for the memory */
+ _mali_osk_mutex_wait(device.secure_id_map_lock);
+ if (0 == ump_descriptor_mapping_get(device.secure_id_map, (int)user_interaction->secure_id, (void**)&mem)) {
+ user_interaction->size = mem->size_bytes;
+ DBG_MSG(4, ("Returning size. ID: %u, size: %lu ", (ump_secure_id)user_interaction->secure_id, (unsigned long)user_interaction->size));
+ ret = _MALI_OSK_ERR_OK;
+ } else {
+ user_interaction->size = 0;
+ DBG_MSG(1, ("Failed to look up mapping in ump_ioctl_size_get(). ID: %u\n", (ump_secure_id)user_interaction->secure_id));
+ }
+
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ return ret;
+}
+
+
+
+void _ump_ukk_msync( _ump_uk_msync_s *args )
+{
+ ump_dd_mem * mem = NULL;
+ void *virtual = NULL;
+ u32 size = 0;
+ u32 offset = 0;
+
+ _mali_osk_mutex_wait(device.secure_id_map_lock);
+ ump_descriptor_mapping_get(device.secure_id_map, (int)args->secure_id, (void**)&mem);
+
+ if (NULL == mem) {
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ DBG_MSG(1, ("Failed to look up mapping in _ump_ukk_msync(). ID: %u\n", (ump_secure_id)args->secure_id));
+ return;
+ }
+ /* Ensure the memory doesn't dissapear when we are flushing it. */
+ ump_dd_reference_add(mem);
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+
+ /* Returns the cache settings back to Userspace */
+ args->is_cached=mem->is_cached;
+
+ /* If this flag is the only one set, we should not do the actual flush, only the readout */
+ if ( _UMP_UK_MSYNC_READOUT_CACHE_ENABLED==args->op ) {
+ DBG_MSG(3, ("_ump_ukk_msync READOUT ID: %u Enabled: %d\n", (ump_secure_id)args->secure_id, mem->is_cached));
+ goto msync_release_and_return;
+ }
+
+ /* Nothing to do if the memory is not caches */
+ if ( 0==mem->is_cached ) {
+ DBG_MSG(3, ("_ump_ukk_msync IGNORING ID: %u Enabled: %d OP: %d\n", (ump_secure_id)args->secure_id, mem->is_cached, args->op));
+ goto msync_release_and_return;
+ }
+ DBG_MSG(3, ("UMP[%02u] _ump_ukk_msync Flush OP: %d Address: 0x%08x Mapping: 0x%08x\n",
+ (ump_secure_id)args->secure_id, args->op, args->address, args->mapping));
+
+ if ( args->address ) {
+ virtual = (void *)((u32)args->address);
+ offset = (u32)((args->address) - (args->mapping));
+ } else {
+ /* Flush entire mapping when no address is specified. */
+ virtual = args->mapping;
+ }
+ if ( args->size ) {
+ size = args->size;
+ } else {
+ /* Flush entire mapping when no size is specified. */
+ size = mem->size_bytes - offset;
+ }
+
+ if ( (offset + size) > mem->size_bytes ) {
+ DBG_MSG(1, ("Trying to flush more than the entire UMP allocation: offset: %u + size: %u > %u\n", offset, size, mem->size_bytes));
+ goto msync_release_and_return;
+ }
+
+ /* The actual cache flush - Implemented for each OS*/
+ _ump_osk_msync( mem, virtual, offset, size, args->op, NULL);
+
+msync_release_and_return:
+ ump_dd_reference_release(mem);
+ return;
+}
+
+void _ump_ukk_cache_operations_control(_ump_uk_cache_operations_control_s* args)
+{
+ ump_session_data * session_data;
+ ump_uk_cache_op_control op;
+
+ DEBUG_ASSERT_POINTER( args );
+ DEBUG_ASSERT_POINTER( args->ctx );
+
+ op = args->op;
+ session_data = (ump_session_data *)args->ctx;
+
+ _mali_osk_mutex_wait(session_data->lock);
+ if ( op== _UMP_UK_CACHE_OP_START ) {
+ session_data->cache_operations_ongoing++;
+ DBG_MSG(4, ("Cache ops start\n" ));
+ if ( session_data->cache_operations_ongoing != 1 ) {
+ DBG_MSG(2, ("UMP: Number of simultanious cache control ops: %d\n", session_data->cache_operations_ongoing) );
+ }
+ } else if ( op== _UMP_UK_CACHE_OP_FINISH ) {
+ DBG_MSG(4, ("Cache ops finish\n"));
+ session_data->cache_operations_ongoing--;
+#if 0
+ if ( session_data->has_pending_level1_cache_flush) {
+ /* This function will set has_pending_level1_cache_flush=0 */
+ _ump_osk_msync( NULL, NULL, 0, 0, _UMP_UK_MSYNC_FLUSH_L1, session_data);
+ }
+#endif
+
+ /* to be on the safe side: always flush l1 cache when cache operations are done */
+ _ump_osk_msync( NULL, NULL, 0, 0, _UMP_UK_MSYNC_FLUSH_L1, session_data);
+ DBG_MSG(4, ("Cache ops finish end\n" ));
+ } else {
+ DBG_MSG(1, ("Illegal call to %s at line %d\n", __FUNCTION__, __LINE__));
+ }
+ _mali_osk_mutex_signal(session_data->lock);
+
+}
+
+void _ump_ukk_switch_hw_usage(_ump_uk_switch_hw_usage_s *args )
+{
+ ump_dd_mem * mem = NULL;
+ ump_uk_user old_user;
+ ump_uk_msync_op cache_op = _UMP_UK_MSYNC_CLEAN_AND_INVALIDATE;
+ ump_session_data *session_data;
+
+ DEBUG_ASSERT_POINTER( args );
+ DEBUG_ASSERT_POINTER( args->ctx );
+
+ session_data = (ump_session_data *)args->ctx;
+
+ _mali_osk_mutex_wait(device.secure_id_map_lock);
+ ump_descriptor_mapping_get(device.secure_id_map, (int)args->secure_id, (void**)&mem);
+
+ if (NULL == mem) {
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ DBG_MSG(1, ("Failed to look up mapping in _ump_ukk_switch_hw_usage(). ID: %u\n", (ump_secure_id)args->secure_id));
+ return;
+ }
+
+ old_user = mem->hw_device;
+ mem->hw_device = args->new_user;
+
+ DBG_MSG(3, ("UMP[%02u] Switch usage Start New: %s Prev: %s.\n", (ump_secure_id)args->secure_id, args->new_user?"MALI":"CPU",old_user?"MALI":"CPU"));
+
+ if ( ! mem->is_cached ) {
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ DBG_MSG(3, ("UMP[%02u] Changing owner of uncached memory. Cache flushing not needed.\n", (ump_secure_id)args->secure_id));
+ return;
+ }
+
+ if ( old_user == args->new_user) {
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ DBG_MSG(4, ("UMP[%02u] Setting the new_user equal to previous for. Cache flushing not needed.\n", (ump_secure_id)args->secure_id));
+ return;
+ }
+ if (
+ /* Previous AND new is both different from CPU */
+ (old_user != _UMP_UK_USED_BY_CPU) && (args->new_user != _UMP_UK_USED_BY_CPU )
+ ) {
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ DBG_MSG(4, ("UMP[%02u] Previous and new user is not CPU. Cache flushing not needed.\n", (ump_secure_id)args->secure_id));
+ return;
+ }
+
+ if ( (old_user != _UMP_UK_USED_BY_CPU ) && (args->new_user==_UMP_UK_USED_BY_CPU) ) {
+ cache_op =_UMP_UK_MSYNC_INVALIDATE;
+ DBG_MSG(4, ("UMP[%02u] Cache invalidation needed\n", (ump_secure_id)args->secure_id));
+#ifdef UMP_SKIP_INVALIDATION
+#error
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ DBG_MSG(4, ("UMP[%02u] Performing Cache invalidation SKIPPED\n", (ump_secure_id)args->secure_id));
+ return;
+#endif
+ }
+ /* Ensure the memory doesn't dissapear when we are flushing it. */
+ ump_dd_reference_add(mem);
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+
+ /* Take lock to protect: session->cache_operations_ongoing and session->has_pending_level1_cache_flush */
+ _mali_osk_mutex_wait(session_data->lock);
+ /* Actual cache flush */
+ _ump_osk_msync( mem, NULL, 0, mem->size_bytes, cache_op, session_data);
+ _mali_osk_mutex_signal(session_data->lock);
+
+ ump_dd_reference_release(mem);
+ DBG_MSG(4, ("UMP[%02u] Switch usage Finish\n", (ump_secure_id)args->secure_id));
+ return;
+}
+
+void _ump_ukk_lock(_ump_uk_lock_s *args )
+{
+ ump_dd_mem * mem = NULL;
+
+ _mali_osk_mutex_wait(device.secure_id_map_lock);
+ ump_descriptor_mapping_get(device.secure_id_map, (int)args->secure_id, (void**)&mem);
+
+ if (NULL == mem) {
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ DBG_MSG(1, ("UMP[%02u] Failed to look up mapping in _ump_ukk_lock(). ID: %u\n", (ump_secure_id)args->secure_id));
+ return;
+ }
+ ump_dd_reference_add(mem);
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+
+ DBG_MSG(1, ("UMP[%02u] Lock. New lock flag: %d. Old Lock flag:\n", (u32)args->secure_id, (u32)args->lock_usage, (u32) mem->lock_usage ));
+
+ mem->lock_usage = (ump_lock_usage) args->lock_usage;
+
+ ump_dd_reference_release(mem);
+}
+
+void _ump_ukk_unlock(_ump_uk_unlock_s *args )
+{
+ ump_dd_mem * mem = NULL;
+
+ _mali_osk_mutex_wait(device.secure_id_map_lock);
+ ump_descriptor_mapping_get(device.secure_id_map, (int)args->secure_id, (void**)&mem);
+
+ if (NULL == mem) {
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ DBG_MSG(1, ("Failed to look up mapping in _ump_ukk_unlock(). ID: %u\n", (ump_secure_id)args->secure_id));
+ return;
+ }
+ ump_dd_reference_add(mem);
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+
+ DBG_MSG(1, ("UMP[%02u] Unlocking. Old Lock flag:\n", (u32)args->secure_id, (u32) mem->lock_usage ));
+
+ mem->lock_usage = (ump_lock_usage) UMP_NOT_LOCKED;
+
+ ump_dd_reference_release(mem);
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+#include "mali_osk_bitops.h"
+#include "mali_osk_list.h"
+#include "ump_osk.h"
+#include "ump_uk_types.h"
+#include "ump_ukk.h"
+#include "ump_kernel_common.h"
+#include "ump_kernel_descriptor_mapping.h"
+#include "ump_kernel_memory_backend.h"
+
+
+
+/**
+ * Define the initial and maximum size of number of secure_ids on the system
+ */
+#define UMP_SECURE_ID_TABLE_ENTRIES_INITIAL (128 )
+#define UMP_SECURE_ID_TABLE_ENTRIES_MAXIMUM (4096 )
+
+
+/**
+ * Define the initial and maximum size of the ump_session_data::cookies_map,
+ * which is a \ref ump_descriptor_mapping. This limits how many secure_ids
+ * may be mapped into a particular process using _ump_ukk_map_mem().
+ */
+
+#define UMP_COOKIES_PER_SESSION_INITIAL (UMP_SECURE_ID_TABLE_ENTRIES_INITIAL )
+#define UMP_COOKIES_PER_SESSION_MAXIMUM (UMP_SECURE_ID_TABLE_ENTRIES_MAXIMUM)
+
+struct ump_dev device;
+
+_mali_osk_errcode_t ump_kernel_constructor(void)
+{
+ _mali_osk_errcode_t err;
+
+ /* Perform OS Specific initialization */
+ err = _ump_osk_init();
+ if( _MALI_OSK_ERR_OK != err ) {
+ MSG_ERR(("Failed to initiaze the UMP Device Driver"));
+ return err;
+ }
+
+ /* Init the global device */
+ _mali_osk_memset(&device, 0, sizeof(device) );
+
+ /* Create the descriptor map, which will be used for mapping secure ID to ump_dd_mem structs */
+ device.secure_id_map_lock = _mali_osk_mutex_init(_MALI_OSK_LOCKFLAG_UNORDERED, 0);
+ if (NULL == device.secure_id_map_lock) {
+ MSG_ERR(("Failed to create OSK lock for secure id lookup table\n"));
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ device.secure_id_map = ump_descriptor_mapping_create(UMP_SECURE_ID_TABLE_ENTRIES_INITIAL, UMP_SECURE_ID_TABLE_ENTRIES_MAXIMUM);
+ if (NULL == device.secure_id_map) {
+ _mali_osk_mutex_term(device.secure_id_map_lock);
+ MSG_ERR(("Failed to create secure id lookup table\n"));
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ /* Init memory backend */
+ device.backend = ump_memory_backend_create();
+ if (NULL == device.backend) {
+ MSG_ERR(("Failed to create memory backend\n"));
+ _mali_osk_mutex_term(device.secure_id_map_lock);
+ ump_descriptor_mapping_destroy(device.secure_id_map);
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ return _MALI_OSK_ERR_OK;
+}
+
+void ump_kernel_destructor(void)
+{
+ DEBUG_ASSERT_POINTER(device.secure_id_map);
+ DEBUG_ASSERT_POINTER(device.secure_id_map_lock);
+
+ _mali_osk_mutex_term(device.secure_id_map_lock);
+ device.secure_id_map_lock = NULL;
+
+ ump_descriptor_mapping_destroy(device.secure_id_map);
+ device.secure_id_map = NULL;
+
+ device.backend->shutdown(device.backend);
+ device.backend = NULL;
+
+ ump_memory_backend_destroy();
+
+ _ump_osk_term();
+}
+
+/** Creates a new UMP session
+ */
+_mali_osk_errcode_t _ump_ukk_open( void** context )
+{
+ struct ump_session_data * session_data;
+
+ /* allocated struct to track this session */
+ session_data = (struct ump_session_data *)_mali_osk_malloc(sizeof(struct ump_session_data));
+ if (NULL == session_data) {
+ MSG_ERR(("Failed to allocate ump_session_data in ump_file_open()\n"));
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ session_data->lock = _mali_osk_mutex_init(_MALI_OSK_LOCKFLAG_UNORDERED, 0);
+ if( NULL == session_data->lock ) {
+ MSG_ERR(("Failed to initialize lock for ump_session_data in ump_file_open()\n"));
+ _mali_osk_free(session_data);
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ session_data->cookies_map = ump_descriptor_mapping_create( UMP_COOKIES_PER_SESSION_INITIAL, UMP_COOKIES_PER_SESSION_MAXIMUM );
+
+ if ( NULL == session_data->cookies_map ) {
+ MSG_ERR(("Failed to create descriptor mapping for _ump_ukk_map_mem cookies\n"));
+
+ _mali_osk_mutex_term(session_data->lock);
+ _mali_osk_free( session_data );
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ _MALI_OSK_INIT_LIST_HEAD(&session_data->list_head_session_memory_list);
+
+ _MALI_OSK_INIT_LIST_HEAD(&session_data->list_head_session_memory_mappings_list);
+
+ /* Since initial version of the UMP interface did not use the API_VERSION ioctl we have to assume
+ that it is this version, and not the "latest" one: UMP_IOCTL_API_VERSION
+ Current and later API versions would do an additional call to this IOCTL and update this variable
+ to the correct one.*/
+ session_data->api_version = MAKE_VERSION_ID(1);
+
+ *context = (void*)session_data;
+
+ session_data->cache_operations_ongoing = 0 ;
+ session_data->has_pending_level1_cache_flush = 0;
+
+ DBG_MSG(2, ("New session opened\n"));
+
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t _ump_ukk_close( void** context )
+{
+ struct ump_session_data * session_data;
+ ump_session_memory_list_element * item;
+ ump_session_memory_list_element * tmp;
+
+ session_data = (struct ump_session_data *)*context;
+ if (NULL == session_data) {
+ MSG_ERR(("Session data is NULL in _ump_ukk_close()\n"));
+ return _MALI_OSK_ERR_INVALID_ARGS;
+ }
+
+ /* Unmap any descriptors mapped in. */
+ if (0 == _mali_osk_list_empty(&session_data->list_head_session_memory_mappings_list)) {
+ ump_memory_allocation *descriptor;
+ ump_memory_allocation *temp;
+
+ DBG_MSG(1, ("Memory mappings found on session usage list during session termination\n"));
+
+ /* use the 'safe' list iterator, since freeing removes the active block from the list we're iterating */
+ _MALI_OSK_LIST_FOREACHENTRY(descriptor, temp, &session_data->list_head_session_memory_mappings_list, ump_memory_allocation, list) {
+ _ump_uk_unmap_mem_s unmap_args;
+ DBG_MSG(4, ("Freeing block with phys address 0x%x size 0x%x mapped in user space at 0x%x\n",
+ descriptor->phys_addr, descriptor->size, descriptor->mapping));
+ unmap_args.ctx = (void*)session_data;
+ unmap_args.mapping = descriptor->mapping;
+ unmap_args.size = descriptor->size;
+ unmap_args._ukk_private = NULL; /* NOTE: unused */
+ unmap_args.cookie = descriptor->cookie;
+
+ /* NOTE: This modifies the list_head_session_memory_mappings_list */
+ _ump_ukk_unmap_mem( &unmap_args );
+ }
+ }
+
+ /* ASSERT that we really did free everything, because _ump_ukk_unmap_mem()
+ * can fail silently. */
+ DEBUG_ASSERT( _mali_osk_list_empty(&session_data->list_head_session_memory_mappings_list) );
+
+ _MALI_OSK_LIST_FOREACHENTRY(item, tmp, &session_data->list_head_session_memory_list, ump_session_memory_list_element, list) {
+ _mali_osk_list_del(&item->list);
+ DBG_MSG(2, ("Releasing UMP memory %u as part of file close\n", item->mem->secure_id));
+ ump_dd_reference_release(item->mem);
+ _mali_osk_free(item);
+ }
+
+ ump_descriptor_mapping_destroy( session_data->cookies_map );
+
+ _mali_osk_mutex_term(session_data->lock);
+ _mali_osk_free(session_data);
+
+ DBG_MSG(2, ("Session closed\n"));
+
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t _ump_ukk_map_mem( _ump_uk_map_mem_s *args )
+{
+ struct ump_session_data * session_data;
+ ump_memory_allocation * descriptor; /* Describes current mapping of memory */
+ _mali_osk_errcode_t err;
+ unsigned long offset = 0;
+ unsigned long left;
+ ump_dd_handle handle; /* The real UMP handle for this memory. Its real datatype is ump_dd_mem* */
+ ump_dd_mem * mem; /* The real UMP memory. It is equal to the handle, but with exposed struct */
+ u32 block;
+ int map_id;
+
+ session_data = (ump_session_data *)args->ctx;
+ if( NULL == session_data ) {
+ MSG_ERR(("Session data is NULL in _ump_ukk_map_mem()\n"));
+ return _MALI_OSK_ERR_INVALID_ARGS;
+ }
+
+ descriptor = (ump_memory_allocation*) _mali_osk_calloc( 1, sizeof(ump_memory_allocation));
+ if (NULL == descriptor) {
+ MSG_ERR(("ump_ukk_map_mem: descriptor allocation failed\n"));
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ handle = ump_dd_handle_create_from_secure_id(args->secure_id);
+ if ( UMP_DD_HANDLE_INVALID == handle) {
+ _mali_osk_free(descriptor);
+ DBG_MSG(1, ("Trying to map unknown secure ID %u\n", args->secure_id));
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ mem = (ump_dd_mem*)handle;
+ DEBUG_ASSERT(mem);
+ if (mem->size_bytes != args->size) {
+ _mali_osk_free(descriptor);
+ ump_dd_reference_release(handle);
+ DBG_MSG(1, ("Trying to map too much or little. ID: %u, virtual size=%lu, UMP size: %lu\n", args->secure_id, args->size, mem->size_bytes));
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ map_id = ump_descriptor_mapping_allocate_mapping( session_data->cookies_map, (void*) descriptor );
+
+ if (map_id < 0) {
+ _mali_osk_free(descriptor);
+ ump_dd_reference_release(handle);
+ DBG_MSG(1, ("ump_ukk_map_mem: unable to allocate a descriptor_mapping for return cookie\n"));
+
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ descriptor->size = args->size;
+ descriptor->handle = handle;
+ descriptor->phys_addr = args->phys_addr;
+ descriptor->process_mapping_info = args->_ukk_private;
+ descriptor->ump_session = session_data;
+ descriptor->cookie = (u32)map_id;
+
+ if ( mem->is_cached ) {
+ descriptor->is_cached = 1;
+ args->is_cached = 1;
+ DBG_MSG(3, ("Mapping UMP secure_id: %d as cached.\n", args->secure_id));
+ } else {
+ descriptor->is_cached = 0;
+ args->is_cached = 0;
+ DBG_MSG(3, ("Mapping UMP secure_id: %d as Uncached.\n", args->secure_id));
+ }
+
+ _mali_osk_list_init( &descriptor->list );
+
+ err = _ump_osk_mem_mapregion_init( descriptor );
+ if( _MALI_OSK_ERR_OK != err ) {
+ DBG_MSG(1, ("Failed to initialize memory mapping in _ump_ukk_map_mem(). ID: %u\n", args->secure_id));
+ ump_descriptor_mapping_free( session_data->cookies_map, map_id );
+ _mali_osk_free(descriptor);
+ ump_dd_reference_release(mem);
+ return err;
+ }
+
+ DBG_MSG(4, ("Mapping virtual to physical memory: ID: %u, size:%lu, first physical addr: 0x%08lx, number of regions: %lu\n",
+ mem->secure_id,
+ mem->size_bytes,
+ ((NULL != mem->block_array) ? mem->block_array->addr : 0),
+ mem->nr_blocks));
+
+ left = descriptor->size;
+ /* loop over all blocks and map them in */
+ for (block = 0; block < mem->nr_blocks; block++) {
+ unsigned long size_to_map;
+
+ if (left > mem->block_array[block].size) {
+ size_to_map = mem->block_array[block].size;
+ } else {
+ size_to_map = left;
+ }
+
+ if (_MALI_OSK_ERR_OK != _ump_osk_mem_mapregion_map(descriptor, offset, (u32 *)&(mem->block_array[block].addr), size_to_map ) ) {
+ DBG_MSG(1, ("WARNING: _ump_ukk_map_mem failed to map memory into userspace\n"));
+ ump_descriptor_mapping_free( session_data->cookies_map, map_id );
+ ump_dd_reference_release(mem);
+ _ump_osk_mem_mapregion_term( descriptor );
+ _mali_osk_free(descriptor);
+ return _MALI_OSK_ERR_FAULT;
+ }
+ left -= size_to_map;
+ offset += size_to_map;
+ }
+
+ /* Add to the ump_memory_allocation tracking list */
+ _mali_osk_mutex_wait(session_data->lock);
+ _mali_osk_list_add( &descriptor->list, &session_data->list_head_session_memory_mappings_list );
+ _mali_osk_mutex_signal(session_data->lock);
+
+ args->mapping = descriptor->mapping;
+ args->cookie = descriptor->cookie;
+
+ return _MALI_OSK_ERR_OK;
+}
+
+void _ump_ukk_unmap_mem( _ump_uk_unmap_mem_s *args )
+{
+ struct ump_session_data * session_data;
+ ump_memory_allocation * descriptor;
+ ump_dd_handle handle;
+
+ session_data = (ump_session_data *)args->ctx;
+
+ if( NULL == session_data ) {
+ MSG_ERR(("Session data is NULL in _ump_ukk_map_mem()\n"));
+ return;
+ }
+
+ if (0 != ump_descriptor_mapping_get( session_data->cookies_map, (int)args->cookie, (void**)&descriptor) ) {
+ MSG_ERR(("_ump_ukk_map_mem: cookie 0x%X not found for this session\n", args->cookie ));
+ return;
+ }
+
+ DEBUG_ASSERT_POINTER(descriptor);
+
+ handle = descriptor->handle;
+ if ( UMP_DD_HANDLE_INVALID == handle) {
+ DBG_MSG(1, ("WARNING: Trying to unmap unknown handle: UNKNOWN\n"));
+ return;
+ }
+
+ /* Remove the ump_memory_allocation from the list of tracked mappings */
+ _mali_osk_mutex_wait(session_data->lock);
+ _mali_osk_list_del( &descriptor->list );
+ _mali_osk_mutex_signal(session_data->lock);
+
+ ump_descriptor_mapping_free( session_data->cookies_map, (int)args->cookie );
+
+ ump_dd_reference_release(handle);
+
+ _ump_osk_mem_mapregion_term( descriptor );
+ _mali_osk_free(descriptor);
+}
+
+u32 _ump_ukk_report_memory_usage( void )
+{
+ if(device.backend->stat)
+ return device.backend->stat(device.backend);
+ else
+ return 0;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __UMP_KERNEL_COMMON_H__
+#define __UMP_KERNEL_COMMON_H__
+
+#include "ump_kernel_types.h"
+#include "ump_kernel_interface.h"
+#include "ump_kernel_descriptor_mapping.h"
+#include "ump_kernel_memory_backend.h"
+
+
+#ifdef DEBUG
+extern int ump_debug_level;
+#define UMP_DEBUG_PRINT(args) _mali_osk_dbgmsg args
+#define UMP_DEBUG_CODE(args) args
+#define DBG_MSG(level,args) do { /* args should be in brackets */ \
+ ((level) <= ump_debug_level)?\
+ UMP_DEBUG_PRINT(("UMP<" #level ">: ")), \
+ UMP_DEBUG_PRINT(args):0; \
+ } while (0)
+
+#define DBG_MSG_IF(level,condition,args) /* args should be in brackets */ \
+ if((condition)&&((level) <= ump_debug_level)) {\
+ UMP_DEBUG_PRINT(("UMP<" #level ">: ")); \
+ UMP_DEBUG_PRINT(args); \
+ }
+
+#define DBG_MSG_ELSE(level,args) /* args should be in brackets */ \
+ else if((level) <= ump_debug_level) { \
+ UMP_DEBUG_PRINT(("UMP<" #level ">: ")); \
+ UMP_DEBUG_PRINT(args); \
+ }
+
+#define DEBUG_ASSERT_POINTER(pointer) do {if( (pointer)== NULL) MSG_ERR(("NULL pointer " #pointer)); } while(0)
+#define DEBUG_ASSERT(condition) do {if(!(condition)) MSG_ERR(("ASSERT failed: " #condition)); } while(0)
+#else /* DEBUG */
+#define UMP_DEBUG_PRINT(args) do {} while(0)
+#define UMP_DEBUG_CODE(args)
+#define DBG_MSG(level,args) do {} while(0)
+#define DBG_MSG_IF(level,condition,args) do {} while(0)
+#define DBG_MSG_ELSE(level,args) do {} while(0)
+#define DEBUG_ASSERT(condition) do {} while(0)
+#define DEBUG_ASSERT_POINTER(pointer) do {} while(0)
+#endif /* DEBUG */
+
+#define MSG_ERR(args) do{ /* args should be in brackets */ \
+ _mali_osk_dbgmsg("UMP: ERR: %s\n" ,__FILE__); \
+ _mali_osk_dbgmsg( " %s()%4d\n", __FUNCTION__, __LINE__) ; \
+ _mali_osk_dbgmsg args ; \
+ _mali_osk_dbgmsg("\n"); \
+ } while(0)
+
+#define MSG(args) do{ /* args should be in brackets */ \
+ _mali_osk_dbgmsg("UMP: "); \
+ _mali_osk_dbgmsg args; \
+ } while (0)
+
+
+
+/*
+ * This struct is used to store per session data.
+ * A session is created when someone open() the device, and
+ * closed when someone close() it or the user space application terminates.
+ */
+typedef struct ump_session_data {
+ _mali_osk_list_t list_head_session_memory_list; /**< List of ump allocations made by the process (elements are ump_session_memory_list_element) */
+ _mali_osk_list_t list_head_session_memory_mappings_list; /**< List of ump_memory_allocations mapped in */
+ int api_version;
+ _mali_osk_mutex_t *lock;
+ ump_descriptor_mapping * cookies_map; /**< Secure mapping of cookies from _ump_ukk_map_mem() */
+ int cache_operations_ongoing;
+ int has_pending_level1_cache_flush;
+} ump_session_data;
+
+
+
+/*
+ * This struct is used to track the UMP memory references a session has.
+ * We need to track this in order to be able to clean up after user space processes
+ * which don't do it themself (e.g. due to a crash or premature termination).
+ */
+typedef struct ump_session_memory_list_element {
+ struct ump_dd_mem * mem;
+ _mali_osk_list_t list;
+} ump_session_memory_list_element;
+
+
+
+/*
+ * Device specific data, created when device driver is loaded, and then kept as the global variable device.
+ */
+typedef struct ump_dev {
+ _mali_osk_mutex_t *secure_id_map_lock;
+ ump_descriptor_mapping * secure_id_map;
+ ump_memory_backend * backend;
+} ump_dev;
+
+
+
+extern int ump_debug_level;
+extern struct ump_dev device;
+
+_mali_osk_errcode_t ump_kernel_constructor(void);
+void ump_kernel_destructor(void);
+int map_errcode( _mali_osk_errcode_t err );
+
+/**
+ * variables from user space cannot be dereferenced from kernel space; tagging them
+ * with __user allows the GCC compiler to generate a warning. Other compilers may
+ * not support this so we define it here as an empty macro if the compiler doesn't
+ * define it.
+ */
+#ifndef __user
+#define __user
+#endif
+
+#endif /* __UMP_KERNEL_COMMON_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2011, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_kernel_common.h"
+#include "mali_osk.h"
+#include "mali_osk_bitops.h"
+#include "ump_kernel_common.h"
+#include "ump_kernel_descriptor_mapping.h"
+
+#define MALI_PAD_INT(x) (((x) + (BITS_PER_LONG - 1)) & ~(BITS_PER_LONG - 1))
+
+/**
+ * Allocate a descriptor table capable of holding 'count' mappings
+ * @param count Number of mappings in the table
+ * @return Pointer to a new table, NULL on error
+ */
+static ump_descriptor_table * descriptor_table_alloc(int count);
+
+/**
+ * Free a descriptor table
+ * @param table The table to free
+ */
+static void descriptor_table_free(ump_descriptor_table * table);
+
+ump_descriptor_mapping * ump_descriptor_mapping_create(int init_entries, int max_entries)
+{
+ ump_descriptor_mapping * map = _mali_osk_calloc(1, sizeof(ump_descriptor_mapping) );
+
+ init_entries = MALI_PAD_INT(init_entries);
+ max_entries = MALI_PAD_INT(max_entries);
+
+ if (NULL != map) {
+ map->table = descriptor_table_alloc(init_entries);
+ if (NULL != map->table) {
+ map->lock = _mali_osk_mutex_rw_init(_MALI_OSK_LOCKFLAG_UNORDERED, 0);
+ if ( NULL != map->lock ) {
+ _mali_osk_set_nonatomic_bit(0, map->table->usage); /* reserve bit 0 to prevent NULL/zero logic to kick in */
+ map->max_nr_mappings_allowed = max_entries;
+ map->current_nr_mappings = init_entries;
+ return map;
+ }
+ descriptor_table_free(map->table);
+ }
+ _mali_osk_free(map);
+ }
+ return NULL;
+}
+
+void ump_descriptor_mapping_destroy(ump_descriptor_mapping * map)
+{
+ descriptor_table_free(map->table);
+ _mali_osk_mutex_rw_term(map->lock);
+ _mali_osk_free(map);
+}
+
+int ump_descriptor_mapping_allocate_mapping(ump_descriptor_mapping * map, void * target)
+{
+ int descriptor = -1;/*-EFAULT;*/
+ _mali_osk_mutex_rw_wait(map->lock, _MALI_OSK_LOCKMODE_RW);
+ descriptor = _mali_osk_find_first_zero_bit(map->table->usage, map->current_nr_mappings);
+ if (descriptor == map->current_nr_mappings) {
+ int nr_mappings_new;
+ /* no free descriptor, try to expand the table */
+ ump_descriptor_table * new_table;
+ ump_descriptor_table * old_table = map->table;
+ nr_mappings_new= map->current_nr_mappings *2;
+
+ if (map->current_nr_mappings >= map->max_nr_mappings_allowed) {
+ descriptor = -1;
+ goto unlock_and_exit;
+ }
+
+ new_table = descriptor_table_alloc(nr_mappings_new);
+ if (NULL == new_table) {
+ descriptor = -1;
+ goto unlock_and_exit;
+ }
+
+ _mali_osk_memcpy(new_table->usage, old_table->usage, (sizeof(unsigned long)*map->current_nr_mappings) / BITS_PER_LONG);
+ _mali_osk_memcpy(new_table->mappings, old_table->mappings, map->current_nr_mappings * sizeof(void*));
+ map->table = new_table;
+ map->current_nr_mappings = nr_mappings_new;
+ descriptor_table_free(old_table);
+ }
+
+ /* we have found a valid descriptor, set the value and usage bit */
+ _mali_osk_set_nonatomic_bit(descriptor, map->table->usage);
+ map->table->mappings[descriptor] = target;
+
+unlock_and_exit:
+ _mali_osk_mutex_rw_signal(map->lock, _MALI_OSK_LOCKMODE_RW);
+ return descriptor;
+}
+
+int ump_descriptor_mapping_get(ump_descriptor_mapping * map, int descriptor, void** target)
+{
+ int result = -1;/*-EFAULT;*/
+ DEBUG_ASSERT(map);
+ _mali_osk_mutex_rw_wait(map->lock, _MALI_OSK_LOCKMODE_RO);
+ if ((descriptor > 0) && (descriptor < map->current_nr_mappings) && _mali_osk_test_bit(descriptor, map->table->usage)) {
+ *target = map->table->mappings[descriptor];
+ result = 0;
+ } else *target = NULL;
+ _mali_osk_mutex_rw_signal(map->lock, _MALI_OSK_LOCKMODE_RO);
+ return result;
+}
+
+int ump_descriptor_mapping_set(ump_descriptor_mapping * map, int descriptor, void * target)
+{
+ int result = -1;/*-EFAULT;*/
+ _mali_osk_mutex_rw_wait(map->lock, _MALI_OSK_LOCKMODE_RO);
+ if ((descriptor > 0) && (descriptor < map->current_nr_mappings) && _mali_osk_test_bit(descriptor, map->table->usage)) {
+ map->table->mappings[descriptor] = target;
+ result = 0;
+ }
+ _mali_osk_mutex_rw_signal(map->lock, _MALI_OSK_LOCKMODE_RO);
+ return result;
+}
+
+void ump_descriptor_mapping_free(ump_descriptor_mapping * map, int descriptor)
+{
+ _mali_osk_mutex_rw_wait(map->lock, _MALI_OSK_LOCKMODE_RW);
+ if ((descriptor > 0) && (descriptor < map->current_nr_mappings) && _mali_osk_test_bit(descriptor, map->table->usage)) {
+ map->table->mappings[descriptor] = NULL;
+ _mali_osk_clear_nonatomic_bit(descriptor, map->table->usage);
+ }
+ _mali_osk_mutex_rw_signal(map->lock, _MALI_OSK_LOCKMODE_RW);
+}
+
+static ump_descriptor_table * descriptor_table_alloc(int count)
+{
+ ump_descriptor_table * table;
+
+ table = _mali_osk_calloc(1, sizeof(ump_descriptor_table) + ((sizeof(unsigned long) * count)/BITS_PER_LONG) + (sizeof(void*) * count) );
+
+ if (NULL != table) {
+ table->usage = (u32*)((u8*)table + sizeof(ump_descriptor_table));
+ table->mappings = (void**)((u8*)table + sizeof(ump_descriptor_table) + ((sizeof(unsigned long) * count)/BITS_PER_LONG));
+ }
+
+ return table;
+}
+
+static void descriptor_table_free(ump_descriptor_table * table)
+{
+ _mali_osk_free(table);
+}
+
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2011, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_kernel_descriptor_mapping.h
+ */
+
+#ifndef __UMP_KERNEL_DESCRIPTOR_MAPPING_H__
+#define __UMP_KERNEL_DESCRIPTOR_MAPPING_H__
+
+#include "mali_osk.h"
+
+/**
+ * The actual descriptor mapping table, never directly accessed by clients
+ */
+typedef struct ump_descriptor_table {
+ u32 * usage; /**< Pointer to bitpattern indicating if a descriptor is valid/used or not */
+ void** mappings; /**< Array of the pointers the descriptors map to */
+} ump_descriptor_table;
+
+/**
+ * The descriptor mapping object
+ * Provides a separate namespace where we can map an integer to a pointer
+ */
+typedef struct ump_descriptor_mapping {
+ _mali_osk_mutex_rw_t *lock; /**< Lock protecting access to the mapping object */
+ int max_nr_mappings_allowed; /**< Max number of mappings to support in this namespace */
+ int current_nr_mappings; /**< Current number of possible mappings */
+ ump_descriptor_table * table; /**< Pointer to the current mapping table */
+} ump_descriptor_mapping;
+
+/**
+ * Create a descriptor mapping object
+ * Create a descriptor mapping capable of holding init_entries growable to max_entries
+ * @param init_entries Number of entries to preallocate memory for
+ * @param max_entries Number of entries to max support
+ * @return Pointer to a descriptor mapping object, NULL on failure
+ */
+ump_descriptor_mapping * ump_descriptor_mapping_create(int init_entries, int max_entries);
+
+/**
+ * Destroy a descriptor mapping object
+ * @param map The map to free
+ */
+void ump_descriptor_mapping_destroy(ump_descriptor_mapping * map);
+
+/**
+ * Allocate a new mapping entry (descriptor ID)
+ * Allocates a new entry in the map.
+ * @param map The map to allocate a new entry in
+ * @param target The value to map to
+ * @return The descriptor allocated, a negative value on error
+ */
+int ump_descriptor_mapping_allocate_mapping(ump_descriptor_mapping * map, void * target);
+
+/**
+ * Get the value mapped to by a descriptor ID
+ * @param map The map to lookup the descriptor id in
+ * @param descriptor The descriptor ID to lookup
+ * @param target Pointer to a pointer which will receive the stored value
+ * @return 0 on successful lookup, negative on error
+ */
+int ump_descriptor_mapping_get(ump_descriptor_mapping * map, int descriptor, void** target);
+
+/**
+ * Set the value mapped to by a descriptor ID
+ * @param map The map to lookup the descriptor id in
+ * @param descriptor The descriptor ID to lookup
+ * @param target Pointer to replace the current value with
+ * @return 0 on successful lookup, negative on error
+ */
+int ump_descriptor_mapping_set(ump_descriptor_mapping * map, int descriptor, void * target);
+
+/**
+ * Free the descriptor ID
+ * For the descriptor to be reused it has to be freed
+ * @param map The map to free the descriptor from
+ * @param descriptor The descriptor ID to free
+ */
+void ump_descriptor_mapping_free(ump_descriptor_mapping * map, int descriptor);
+
+#endif /* __UMP_KERNEL_DESCRIPTOR_MAPPING_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2011, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_kernel_memory_mapping.h
+ */
+
+#ifndef __UMP_KERNEL_MEMORY_BACKEND_H__
+#define __UMP_KERNEL_MEMORY_BACKEND_H__
+
+#include "ump_kernel_interface.h"
+#include "ump_kernel_types.h"
+
+
+typedef struct ump_memory_allocation {
+ void * phys_addr;
+ void * mapping;
+ unsigned long size;
+ ump_dd_handle handle;
+ void * process_mapping_info;
+ u32 cookie; /**< necessary on some U/K interface implementations */
+ struct ump_session_data * ump_session; /**< Session that this allocation belongs to */
+ _mali_osk_list_t list; /**< List for linking together memory allocations into the session's memory head */
+ u32 is_cached;
+} ump_memory_allocation;
+
+typedef struct ump_memory_backend {
+ int (*allocate)(void* ctx, ump_dd_mem * descriptor);
+ void (*release)(void* ctx, ump_dd_mem * descriptor);
+ void (*shutdown)(struct ump_memory_backend * backend);
+ u32 (*stat)(struct ump_memory_backend *backend);
+ int (*pre_allocate_physical_check)(void *ctx, u32 size);
+ u32 (*adjust_to_mali_phys)(void *ctx, u32 cpu_phys);
+ void * ctx;
+} ump_memory_backend;
+
+ump_memory_backend * ump_memory_backend_create ( void );
+void ump_memory_backend_destroy( void );
+
+#endif /*__UMP_KERNEL_MEMORY_BACKEND_H__ */
+
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include "mali_osk.h"
+#include "mali_osk_list.h"
+#include "ump_osk.h"
+#include "ump_uk_types.h"
+
+#include "ump_kernel_interface_ref_drv.h"
+#include "ump_kernel_common.h"
+#include "ump_kernel_descriptor_mapping.h"
+
+#define UMP_MINIMUM_SIZE 4096
+#define UMP_MINIMUM_SIZE_MASK (~(UMP_MINIMUM_SIZE-1))
+#define UMP_SIZE_ALIGN(x) (((x)+UMP_MINIMUM_SIZE-1)&UMP_MINIMUM_SIZE_MASK)
+#define UMP_ADDR_ALIGN_OFFSET(x) ((x)&(UMP_MINIMUM_SIZE-1))
+static void phys_blocks_release(void * ctx, struct ump_dd_mem * descriptor);
+
+UMP_KERNEL_API_EXPORT ump_dd_handle ump_dd_handle_create_from_phys_blocks(ump_dd_physical_block * blocks, unsigned long num_blocks)
+{
+ ump_dd_mem * mem;
+ unsigned long size_total = 0;
+ int map_id;
+ u32 i;
+
+ /* Go through the input blocks and verify that they are sane */
+ for (i=0; i < num_blocks; i++) {
+ unsigned long addr = blocks[i].addr;
+ unsigned long size = blocks[i].size;
+
+ DBG_MSG(5, ("Adding physical memory to new handle. Address: 0x%08lx, size: %lu\n", addr, size));
+ size_total += blocks[i].size;
+
+ if (0 != UMP_ADDR_ALIGN_OFFSET(addr)) {
+ MSG_ERR(("Trying to create UMP memory from unaligned physical address. Address: 0x%08lx\n", addr));
+ return UMP_DD_HANDLE_INVALID;
+ }
+
+ if (0 != UMP_ADDR_ALIGN_OFFSET(size)) {
+ MSG_ERR(("Trying to create UMP memory with unaligned size. Size: %lu\n", size));
+ return UMP_DD_HANDLE_INVALID;
+ }
+ }
+
+ /* Allocate the ump_dd_mem struct for this allocation */
+ mem = _mali_osk_malloc(sizeof(*mem));
+ if (NULL == mem) {
+ DBG_MSG(1, ("Could not allocate ump_dd_mem in ump_dd_handle_create_from_phys_blocks()\n"));
+ return UMP_DD_HANDLE_INVALID;
+ }
+
+ /* Find a secure ID for this allocation */
+ _mali_osk_mutex_wait(device.secure_id_map_lock);
+ map_id = ump_descriptor_mapping_allocate_mapping(device.secure_id_map, (void*) mem);
+
+ if (map_id < 0) {
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ _mali_osk_free(mem);
+ DBG_MSG(1, ("Failed to allocate secure ID in ump_dd_handle_create_from_phys_blocks()\n"));
+ return UMP_DD_HANDLE_INVALID;
+ }
+
+ /* Now, make a copy of the block information supplied by the user */
+ mem->block_array = _mali_osk_malloc(sizeof(ump_dd_physical_block)* num_blocks);
+ if (NULL == mem->block_array) {
+ ump_descriptor_mapping_free(device.secure_id_map, map_id);
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ _mali_osk_free(mem);
+ DBG_MSG(1, ("Could not allocate a mem handle for function ump_dd_handle_create_from_phys_blocks().\n"));
+ return UMP_DD_HANDLE_INVALID;
+ }
+
+ _mali_osk_memcpy(mem->block_array, blocks, sizeof(ump_dd_physical_block) * num_blocks);
+
+ /* And setup the rest of the ump_dd_mem struct */
+ _mali_osk_atomic_init(&mem->ref_count, 1);
+ mem->secure_id = (ump_secure_id)map_id;
+ mem->size_bytes = size_total;
+ mem->nr_blocks = num_blocks;
+ mem->backend_info = NULL;
+ mem->ctx = NULL;
+ mem->release_func = phys_blocks_release;
+ /* For now UMP handles created by ump_dd_handle_create_from_phys_blocks() is forced to be Uncached */
+ mem->is_cached = 0;
+ mem->hw_device = _UMP_UK_USED_BY_CPU;
+ mem->lock_usage = UMP_NOT_LOCKED;
+
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ DBG_MSG(3, ("UMP memory created. ID: %u, size: %lu\n", mem->secure_id, mem->size_bytes));
+
+ return (ump_dd_handle)mem;
+}
+
+static void phys_blocks_release(void * ctx, struct ump_dd_mem * descriptor)
+{
+ _mali_osk_free(descriptor->block_array);
+ descriptor->block_array = NULL;
+}
+
+_mali_osk_errcode_t _ump_ukk_allocate( _ump_uk_allocate_s *user_interaction )
+{
+ ump_session_data * session_data = NULL;
+ ump_dd_mem *new_allocation = NULL;
+ ump_session_memory_list_element * session_memory_element = NULL;
+ int map_id;
+
+ DEBUG_ASSERT_POINTER( user_interaction );
+ DEBUG_ASSERT_POINTER( user_interaction->ctx );
+
+ session_data = (ump_session_data *) user_interaction->ctx;
+
+ session_memory_element = _mali_osk_calloc( 1, sizeof(ump_session_memory_list_element));
+ if (NULL == session_memory_element) {
+ DBG_MSG(1, ("Failed to allocate ump_session_memory_list_element in ump_ioctl_allocate()\n"));
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+
+ new_allocation = _mali_osk_calloc( 1, sizeof(ump_dd_mem));
+ if (NULL==new_allocation) {
+ _mali_osk_free(session_memory_element);
+ DBG_MSG(1, ("Failed to allocate ump_dd_mem in _ump_ukk_allocate()\n"));
+ return _MALI_OSK_ERR_NOMEM;
+ }
+
+ /* Create a secure ID for this allocation */
+ _mali_osk_mutex_wait(device.secure_id_map_lock);
+ map_id = ump_descriptor_mapping_allocate_mapping(device.secure_id_map, (void*)new_allocation);
+
+ if (map_id < 0) {
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ _mali_osk_free(session_memory_element);
+ _mali_osk_free(new_allocation);
+ DBG_MSG(1, ("Failed to allocate secure ID in ump_ioctl_allocate()\n"));
+ return - _MALI_OSK_ERR_INVALID_FUNC;
+ }
+
+ /* Initialize the part of the new_allocation that we know so for */
+ new_allocation->secure_id = (ump_secure_id)map_id;
+ _mali_osk_atomic_init(&new_allocation->ref_count,1);
+ if ( 0==(UMP_REF_DRV_UK_CONSTRAINT_USE_CACHE & user_interaction->constraints) )
+ new_allocation->is_cached = 0;
+ else new_allocation->is_cached = 1;
+
+ /* special case a size of 0, we should try to emulate what malloc does in this case, which is to return a valid pointer that must be freed, but can't be dereferences */
+ if (0 == user_interaction->size) {
+ user_interaction->size = 1; /* emulate by actually allocating the minimum block size */
+ }
+
+ new_allocation->size_bytes = UMP_SIZE_ALIGN(user_interaction->size); /* Page align the size */
+ new_allocation->lock_usage = UMP_NOT_LOCKED;
+
+ /* Now, ask the active memory backend to do the actual memory allocation */
+ if (!device.backend->allocate( device.backend->ctx, new_allocation ) ) {
+ DBG_MSG(3, ("OOM: No more UMP memory left. Failed to allocate memory in ump_ioctl_allocate(). Size: %lu, requested size: %lu\n", new_allocation->size_bytes, (unsigned long)user_interaction->size));
+ ump_descriptor_mapping_free(device.secure_id_map, map_id);
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+ _mali_osk_free(new_allocation);
+ _mali_osk_free(session_memory_element);
+ return _MALI_OSK_ERR_INVALID_FUNC;
+ }
+ new_allocation->hw_device = _UMP_UK_USED_BY_CPU;
+ new_allocation->ctx = device.backend->ctx;
+ new_allocation->release_func = device.backend->release;
+
+ _mali_osk_mutex_signal(device.secure_id_map_lock);
+
+ /* Initialize the session_memory_element, and add it to the session object */
+ session_memory_element->mem = new_allocation;
+ _mali_osk_mutex_wait(session_data->lock);
+ _mali_osk_list_add(&(session_memory_element->list), &(session_data->list_head_session_memory_list));
+ _mali_osk_mutex_signal(session_data->lock);
+
+ user_interaction->secure_id = new_allocation->secure_id;
+ user_interaction->size = new_allocation->size_bytes;
+ DBG_MSG(3, ("UMP memory allocated. ID: %u, size: %lu\n", new_allocation->secure_id, new_allocation->size_bytes));
+
+ return _MALI_OSK_ERR_OK;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __UMP_KERNEL_TYPES_H__
+#define __UMP_KERNEL_TYPES_H__
+
+#include "ump_kernel_interface.h"
+#include "mali_osk.h"
+
+
+typedef enum {
+ UMP_USED_BY_CPU = 0,
+ UMP_USED_BY_MALI = 1,
+ UMP_USED_BY_UNKNOWN_DEVICE= 100,
+} ump_hw_usage;
+
+typedef enum {
+ UMP_NOT_LOCKED = 0,
+ UMP_READ = 1,
+ UMP_READ_WRITE = 3,
+} ump_lock_usage;
+
+
+/*
+ * This struct is what is "behind" a ump_dd_handle
+ */
+typedef struct ump_dd_mem {
+ ump_secure_id secure_id;
+ _mali_osk_atomic_t ref_count;
+ unsigned long size_bytes;
+ unsigned long nr_blocks;
+ ump_dd_physical_block * block_array;
+ void (*release_func)(void * ctx, struct ump_dd_mem * descriptor);
+ void * ctx;
+ void * backend_info;
+ int is_cached;
+ ump_hw_usage hw_device;
+ ump_lock_usage lock_usage;
+} ump_dd_mem;
+
+
+
+#endif /* __UMP_KERNEL_TYPES_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_osk.h
+ * Defines the OS abstraction layer for the UMP kernel device driver (OSK)
+ */
+
+#ifndef __UMP_OSK_H__
+#define __UMP_OSK_H__
+
+#include <mali_osk.h>
+#include <ump_kernel_memory_backend.h>
+#include "ump_uk_types.h"
+#include "ump_kernel_common.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+_mali_osk_errcode_t _ump_osk_init( void );
+
+_mali_osk_errcode_t _ump_osk_term( void );
+
+int _ump_osk_atomic_inc_and_read( _mali_osk_atomic_t *atom );
+
+int _ump_osk_atomic_dec_and_read( _mali_osk_atomic_t *atom );
+
+_mali_osk_errcode_t _ump_osk_mem_mapregion_init( ump_memory_allocation *descriptor );
+
+_mali_osk_errcode_t _ump_osk_mem_mapregion_map( ump_memory_allocation * descriptor, u32 offset, u32 * phys_addr, unsigned long size );
+
+void _ump_osk_mem_mapregion_term( ump_memory_allocation * descriptor );
+
+void _ump_osk_msync( ump_dd_mem * mem, void * virt, u32 offset, u32 size, ump_uk_msync_op op, ump_session_data * session_data );
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_ukk.h
+ * Defines the kernel-side interface of the user-kernel interface
+ */
+
+#ifndef __UMP_UKK_H__
+#define __UMP_UKK_H__
+
+#include "mali_osk.h"
+#include "ump_uk_types.h"
+
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+
+_mali_osk_errcode_t _ump_ukk_open( void** context );
+
+_mali_osk_errcode_t _ump_ukk_close( void** context );
+
+_mali_osk_errcode_t _ump_ukk_allocate( _ump_uk_allocate_s *user_interaction );
+
+_mali_osk_errcode_t _ump_ukk_release( _ump_uk_release_s *release_info );
+
+_mali_osk_errcode_t _ump_ukk_size_get( _ump_uk_size_get_s *user_interaction );
+
+_mali_osk_errcode_t _ump_ukk_map_mem( _ump_uk_map_mem_s *args );
+
+_mali_osk_errcode_t _ump_uku_get_api_version( _ump_uk_api_version_s *args );
+
+void _ump_ukk_unmap_mem( _ump_uk_unmap_mem_s *args );
+
+void _ump_ukk_msync( _ump_uk_msync_s *args );
+
+void _ump_ukk_cache_operations_control(_ump_uk_cache_operations_control_s* args);
+
+void _ump_ukk_switch_hw_usage(_ump_uk_switch_hw_usage_s *args );
+
+void _ump_ukk_lock(_ump_uk_lock_s *args );
+
+void _ump_ukk_unlock(_ump_uk_unlock_s *args );
+
+u32 _ump_ukk_report_memory_usage( void );
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __UMP_UKK_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010-2012 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_kernel_license.h
+ * Defines for the macro MODULE_LICENSE.
+ */
+
+#ifndef __UMP_KERNEL_LICENSE_H__
+#define __UMP_KERNEL_LICENSE_H__
+
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+#define UMP_KERNEL_LINUX_LICENSE "GPL"
+#define UMP_LICENSE_IS_GPL 1
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __UMP_KERNEL_LICENSE_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2010-2011, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_kernel_license.h
+ * Defines for the macro MODULE_LICENSE.
+ */
+
+#ifndef __UMP_KERNEL_LICENSE_H__
+#define __UMP_KERNEL_LICENSE_H__
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#define UMP_KERNEL_LINUX_LICENSE "Proprietary"
+#define UMP_LICENSE_IS_GPL 0
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __UMP_KERNEL_LICENSE_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __UMP_IOCTL_H__
+#define __UMP_IOCTL_H__
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <linux/types.h>
+#include <linux/ioctl.h>
+
+#include <ump_uk_types.h>
+
+#ifndef __user
+#define __user
+#endif
+
+
+/**
+ * @file UMP_ioctl.h
+ * This file describes the interface needed to use the Linux device driver.
+ * The interface is used by the userpace UMP driver.
+ */
+
+#define UMP_IOCTL_NR 0x90
+
+
+#define UMP_IOC_QUERY_API_VERSION _IOR(UMP_IOCTL_NR, _UMP_IOC_QUERY_API_VERSION, _ump_uk_api_version_s)
+#define UMP_IOC_ALLOCATE _IOWR(UMP_IOCTL_NR, _UMP_IOC_ALLOCATE, _ump_uk_allocate_s)
+#define UMP_IOC_RELEASE _IOR(UMP_IOCTL_NR, _UMP_IOC_RELEASE, _ump_uk_release_s)
+#define UMP_IOC_SIZE_GET _IOWR(UMP_IOCTL_NR, _UMP_IOC_SIZE_GET, _ump_uk_size_get_s)
+#define UMP_IOC_MSYNC _IOW(UMP_IOCTL_NR, _UMP_IOC_MSYNC, _ump_uk_msync_s)
+
+#define UMP_IOC_CACHE_OPERATIONS_CONTROL _IOW(UMP_IOCTL_NR, _UMP_IOC_CACHE_OPERATIONS_CONTROL, _ump_uk_cache_operations_control_s)
+#define UMP_IOC_SWITCH_HW_USAGE _IOW(UMP_IOCTL_NR, _UMP_IOC_SWITCH_HW_USAGE, _ump_uk_switch_hw_usage_s)
+#define UMP_IOC_LOCK _IOW(UMP_IOCTL_NR, _UMP_IOC_LOCK, _ump_uk_lock_s)
+#define UMP_IOC_UNLOCK _IOW(UMP_IOCTL_NR, _UMP_IOC_UNLOCK, _ump_uk_unlock_s)
+
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __UMP_IOCTL_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include <linux/module.h> /* kernel module definitions */
+#include <linux/fs.h> /* file system operations */
+#include <linux/cdev.h> /* character device definitions */
+#include <linux/ioport.h> /* request_mem_region */
+#include <linux/mm.h> /* memory management functions and types */
+#include <asm/uaccess.h> /* user space access */
+#include <asm/atomic.h>
+#include <linux/device.h>
+#include <linux/debugfs.h>
+
+#include "arch/config.h" /* Configuration for current platform. The symlinc for arch is set by Makefile */
+#include "ump_ioctl.h"
+#include "ump_kernel_common.h"
+#include "ump_kernel_interface.h"
+#include "ump_kernel_interface_ref_drv.h"
+#include "ump_kernel_descriptor_mapping.h"
+#include "ump_kernel_memory_backend.h"
+#include "ump_kernel_memory_backend_os.h"
+#include "ump_kernel_memory_backend_dedicated.h"
+#include "ump_kernel_license.h"
+
+#include "ump_osk.h"
+#include "ump_ukk.h"
+#include "ump_uk_types.h"
+#include "ump_ukk_wrappers.h"
+#include "ump_ukk_ref_wrappers.h"
+
+
+/* Module parameter to control log level */
+int ump_debug_level = 2;
+module_param(ump_debug_level, int, S_IRUSR | S_IWUSR | S_IWGRP | S_IRGRP | S_IROTH); /* rw-rw-r-- */
+MODULE_PARM_DESC(ump_debug_level, "Higher number, more dmesg output");
+
+/* By default the module uses any available major, but it's possible to set it at load time to a specific number */
+int ump_major = 0;
+module_param(ump_major, int, S_IRUGO); /* r--r--r-- */
+MODULE_PARM_DESC(ump_major, "Device major number");
+
+/* Name of the UMP device driver */
+static char ump_dev_name[] = "ump"; /* should be const, but the functions we call requires non-cost */
+
+
+#if UMP_LICENSE_IS_GPL
+static struct dentry *ump_debugfs_dir = NULL;
+#endif
+
+/*
+ * The data which we attached to each virtual memory mapping request we get.
+ * Each memory mapping has a reference to the UMP memory it maps.
+ * We release this reference when the last memory mapping is unmapped.
+ */
+typedef struct ump_vma_usage_tracker {
+ int references;
+ ump_dd_handle handle;
+} ump_vma_usage_tracker;
+
+struct ump_device {
+ struct cdev cdev;
+#if UMP_LICENSE_IS_GPL
+ struct class * ump_class;
+#endif
+};
+
+/* The global variable containing the global device data */
+static struct ump_device ump_device;
+
+
+/* Forward declare static functions */
+static int ump_file_open(struct inode *inode, struct file *filp);
+static int ump_file_release(struct inode *inode, struct file *filp);
+#ifdef HAVE_UNLOCKED_IOCTL
+static long ump_file_ioctl(struct file *filp, unsigned int cmd, unsigned long arg);
+#else
+static int ump_file_ioctl(struct inode *inode, struct file *filp, unsigned int cmd, unsigned long arg);
+#endif
+static int ump_file_mmap(struct file * filp, struct vm_area_struct * vma);
+
+
+/* This variable defines the file operations this UMP device driver offer */
+static struct file_operations ump_fops = {
+ .owner = THIS_MODULE,
+ .open = ump_file_open,
+ .release = ump_file_release,
+#ifdef HAVE_UNLOCKED_IOCTL
+ .unlocked_ioctl = ump_file_ioctl,
+#else
+ .ioctl = ump_file_ioctl,
+#endif
+ .mmap = ump_file_mmap
+};
+
+
+/* This function is called by Linux to initialize this module.
+ * All we do is initialize the UMP device driver.
+ */
+static int ump_initialize_module(void)
+{
+ _mali_osk_errcode_t err;
+
+ DBG_MSG(2, ("Inserting UMP device driver. Compiled: %s, time: %s\n", __DATE__, __TIME__));
+
+ err = ump_kernel_constructor();
+ if (_MALI_OSK_ERR_OK != err) {
+ MSG_ERR(("UMP device driver init failed\n"));
+ return map_errcode(err);
+ }
+
+ MSG(("UMP device driver %s loaded\n", SVN_REV_STRING));
+ return 0;
+}
+
+
+
+/*
+ * This function is called by Linux to unload/terminate/exit/cleanup this module.
+ * All we do is terminate the UMP device driver.
+ */
+static void ump_cleanup_module(void)
+{
+ DBG_MSG(2, ("Unloading UMP device driver\n"));
+ ump_kernel_destructor();
+ DBG_MSG(2, ("Module unloaded\n"));
+}
+
+
+
+static ssize_t ump_memory_used_read(struct file *filp, char __user *ubuf, size_t cnt, loff_t *ppos)
+{
+ char buf[64];
+ size_t r;
+ u32 mem = _ump_ukk_report_memory_usage();
+
+ r = snprintf(buf, 64, "%u\n", mem);
+ return simple_read_from_buffer(ubuf, cnt, ppos, buf, r);
+}
+
+static const struct file_operations ump_memory_usage_fops = {
+ .owner = THIS_MODULE,
+ .read = ump_memory_used_read,
+};
+
+/*
+ * Initialize the UMP device driver.
+ */
+int ump_kernel_device_initialize(void)
+{
+ int err;
+ dev_t dev = 0;
+#if UMP_LICENSE_IS_GPL
+ ump_debugfs_dir = debugfs_create_dir(ump_dev_name, NULL);
+ if (ERR_PTR(-ENODEV) == ump_debugfs_dir) {
+ ump_debugfs_dir = NULL;
+ } else {
+ debugfs_create_file("memory_usage", 0400, ump_debugfs_dir, NULL, &ump_memory_usage_fops);
+ }
+#endif
+
+ if (0 == ump_major) {
+ /* auto select a major */
+ err = alloc_chrdev_region(&dev, 0, 1, ump_dev_name);
+ ump_major = MAJOR(dev);
+ } else {
+ /* use load time defined major number */
+ dev = MKDEV(ump_major, 0);
+ err = register_chrdev_region(dev, 1, ump_dev_name);
+ }
+
+ if (0 == err) {
+ memset(&ump_device, 0, sizeof(ump_device));
+
+ /* initialize our char dev data */
+ cdev_init(&ump_device.cdev, &ump_fops);
+ ump_device.cdev.owner = THIS_MODULE;
+ ump_device.cdev.ops = &ump_fops;
+
+ /* register char dev with the kernel */
+ err = cdev_add(&ump_device.cdev, dev, 1/*count*/);
+ if (0 == err) {
+
+#if UMP_LICENSE_IS_GPL
+ ump_device.ump_class = class_create(THIS_MODULE, ump_dev_name);
+ if (IS_ERR(ump_device.ump_class)) {
+ err = PTR_ERR(ump_device.ump_class);
+ } else {
+ struct device * mdev;
+ mdev = device_create(ump_device.ump_class, NULL, dev, NULL, ump_dev_name);
+ if (!IS_ERR(mdev)) {
+ return 0;
+ }
+
+ err = PTR_ERR(mdev);
+ }
+ cdev_del(&ump_device.cdev);
+#else
+ return 0;
+#endif
+ }
+
+ unregister_chrdev_region(dev, 1);
+ }
+
+ return err;
+}
+
+
+
+/*
+ * Terminate the UMP device driver
+ */
+void ump_kernel_device_terminate(void)
+{
+ dev_t dev = MKDEV(ump_major, 0);
+
+#if UMP_LICENSE_IS_GPL
+ device_destroy(ump_device.ump_class, dev);
+ class_destroy(ump_device.ump_class);
+#endif
+
+ /* unregister char device */
+ cdev_del(&ump_device.cdev);
+
+ /* free major */
+ unregister_chrdev_region(dev, 1);
+
+#if UMP_LICENSE_IS_GPL
+ if(ump_debugfs_dir)
+ debugfs_remove_recursive(ump_debugfs_dir);
+#endif
+}
+
+/*
+ * Open a new session. User space has called open() on us.
+ */
+static int ump_file_open(struct inode *inode, struct file *filp)
+{
+ struct ump_session_data * session_data;
+ _mali_osk_errcode_t err;
+
+ /* input validation */
+ if (0 != MINOR(inode->i_rdev)) {
+ MSG_ERR(("Minor not zero in ump_file_open()\n"));
+ return -ENODEV;
+ }
+
+ /* Call the OS-Independent UMP Open function */
+ err = _ump_ukk_open((void**) &session_data );
+ if( _MALI_OSK_ERR_OK != err ) {
+ MSG_ERR(("Ump failed to open a new session\n"));
+ return map_errcode( err );
+ }
+
+ filp->private_data = (void*)session_data;
+ filp->f_pos = 0;
+
+ return 0; /* success */
+}
+
+
+
+/*
+ * Close a session. User space has called close() or crashed/terminated.
+ */
+static int ump_file_release(struct inode *inode, struct file *filp)
+{
+ _mali_osk_errcode_t err;
+
+ err = _ump_ukk_close((void**) &filp->private_data );
+ if( _MALI_OSK_ERR_OK != err ) {
+ return map_errcode( err );
+ }
+
+ return 0; /* success */
+}
+
+
+
+/*
+ * Handle IOCTL requests.
+ */
+#ifdef HAVE_UNLOCKED_IOCTL
+static long ump_file_ioctl(struct file *filp, unsigned int cmd, unsigned long arg)
+#else
+static int ump_file_ioctl(struct inode *inode, struct file *filp, unsigned int cmd, unsigned long arg)
+#endif
+{
+ int err = -ENOTTY;
+ void __user * argument;
+ struct ump_session_data * session_data;
+
+#ifndef HAVE_UNLOCKED_IOCTL
+ (void)inode; /* inode not used */
+#endif
+
+ session_data = (struct ump_session_data *)filp->private_data;
+ if (NULL == session_data) {
+ MSG_ERR(("No session data attached to file object\n"));
+ return -ENOTTY;
+ }
+
+ /* interpret the argument as a user pointer to something */
+ argument = (void __user *)arg;
+
+ switch (cmd) {
+ case UMP_IOC_QUERY_API_VERSION:
+ err = ump_get_api_version_wrapper((u32 __user *)argument, session_data);
+ break;
+
+ case UMP_IOC_ALLOCATE :
+ err = ump_allocate_wrapper((u32 __user *)argument, session_data);
+ break;
+
+ case UMP_IOC_RELEASE:
+ err = ump_release_wrapper((u32 __user *)argument, session_data);
+ break;
+
+ case UMP_IOC_SIZE_GET:
+ err = ump_size_get_wrapper((u32 __user *)argument, session_data);
+ break;
+
+ case UMP_IOC_MSYNC:
+ err = ump_msync_wrapper((u32 __user *)argument, session_data);
+ break;
+
+ case UMP_IOC_CACHE_OPERATIONS_CONTROL:
+ err = ump_cache_operations_control_wrapper((u32 __user *)argument, session_data);
+ break;
+
+ case UMP_IOC_SWITCH_HW_USAGE:
+ err = ump_switch_hw_usage_wrapper((u32 __user *)argument, session_data);
+ break;
+
+ case UMP_IOC_LOCK:
+ err = ump_lock_wrapper((u32 __user *)argument, session_data);
+ break;
+
+ case UMP_IOC_UNLOCK:
+ err = ump_unlock_wrapper((u32 __user *)argument, session_data);
+ break;
+
+ default:
+ DBG_MSG(1, ("No handler for IOCTL. cmd: 0x%08x, arg: 0x%08lx\n", cmd, arg));
+ err = -EFAULT;
+ break;
+ }
+
+ return err;
+}
+
+int map_errcode( _mali_osk_errcode_t err )
+{
+ switch(err) {
+ case _MALI_OSK_ERR_OK :
+ return 0;
+ case _MALI_OSK_ERR_FAULT:
+ return -EFAULT;
+ case _MALI_OSK_ERR_INVALID_FUNC:
+ return -ENOTTY;
+ case _MALI_OSK_ERR_INVALID_ARGS:
+ return -EINVAL;
+ case _MALI_OSK_ERR_NOMEM:
+ return -ENOMEM;
+ case _MALI_OSK_ERR_TIMEOUT:
+ return -ETIMEDOUT;
+ case _MALI_OSK_ERR_RESTARTSYSCALL:
+ return -ERESTARTSYS;
+ case _MALI_OSK_ERR_ITEM_NOT_FOUND:
+ return -ENOENT;
+ default:
+ return -EFAULT;
+ }
+}
+
+/*
+ * Handle from OS to map specified virtual memory to specified UMP memory.
+ */
+static int ump_file_mmap(struct file * filp, struct vm_area_struct * vma)
+{
+ _ump_uk_map_mem_s args;
+ _mali_osk_errcode_t err;
+ struct ump_session_data * session_data;
+
+ /* Validate the session data */
+ session_data = (struct ump_session_data *)filp->private_data;
+ if (NULL == session_data) {
+ MSG_ERR(("mmap() called without any session data available\n"));
+ return -EFAULT;
+ }
+
+ /* Re-pack the arguments that mmap() packed for us */
+ args.ctx = session_data;
+ args.phys_addr = 0;
+ args.size = vma->vm_end - vma->vm_start;
+ args._ukk_private = vma;
+ args.secure_id = vma->vm_pgoff;
+ args.is_cached = 0;
+
+ if (!(vma->vm_flags & VM_SHARED)) {
+ args.is_cached = 1;
+ vma->vm_flags = vma->vm_flags | VM_SHARED | VM_MAYSHARE ;
+ DBG_MSG(3, ("UMP Map function: Forcing the CPU to use cache\n"));
+ }
+ /* By setting this flag, during a process fork; the child process will not have the parent UMP mappings */
+ vma->vm_flags |= VM_DONTCOPY;
+
+ DBG_MSG(4, ("UMP vma->flags: %x\n", vma->vm_flags ));
+
+ /* Call the common mmap handler */
+ err = _ump_ukk_map_mem( &args );
+ if ( _MALI_OSK_ERR_OK != err) {
+ MSG_ERR(("_ump_ukk_map_mem() failed in function ump_file_mmap()"));
+ return map_errcode( err );
+ }
+
+ return 0; /* success */
+}
+
+/* Export UMP kernel space API functions */
+EXPORT_SYMBOL(ump_dd_secure_id_get);
+EXPORT_SYMBOL(ump_dd_handle_create_from_secure_id);
+EXPORT_SYMBOL(ump_dd_phys_block_count_get);
+EXPORT_SYMBOL(ump_dd_phys_block_get);
+EXPORT_SYMBOL(ump_dd_phys_blocks_get);
+EXPORT_SYMBOL(ump_dd_size_get);
+EXPORT_SYMBOL(ump_dd_reference_add);
+EXPORT_SYMBOL(ump_dd_reference_release);
+
+/* Export our own extended kernel space allocator */
+EXPORT_SYMBOL(ump_dd_handle_create_from_phys_blocks);
+
+/* Setup init and exit functions for this module */
+module_init(ump_initialize_module);
+module_exit(ump_cleanup_module);
+
+/* And some module informatio */
+MODULE_LICENSE(UMP_KERNEL_LINUX_LICENSE);
+MODULE_AUTHOR("ARM Ltd.");
+MODULE_VERSION(SVN_REV_STRING);
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2007-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#ifndef __UMP_KERNEL_LINUX_H__
+#define __UMP_KERNEL_LINUX_H__
+
+int ump_kernel_device_initialize(void);
+void ump_kernel_device_terminate(void);
+
+
+#endif /* __UMP_KERNEL_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2011, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/* needed to detect kernel version specific code */
+#include <linux/version.h>
+
+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,26)
+#include <linux/semaphore.h>
+#else /* pre 2.6.26 the file was in the arch specific location */
+#include <asm/semaphore.h>
+#endif
+
+#include <linux/mm.h>
+#include <linux/slab.h>
+#include <asm/atomic.h>
+#include <linux/vmalloc.h>
+#include "ump_kernel_common.h"
+#include "ump_kernel_memory_backend.h"
+
+
+
+#define UMP_BLOCK_SIZE (256UL * 1024UL) /* 256kB, remember to keep the ()s */
+
+
+
+typedef struct block_info {
+ struct block_info * next;
+} block_info;
+
+
+
+typedef struct block_allocator {
+ struct semaphore mutex;
+ block_info * all_blocks;
+ block_info * first_free;
+ u32 base;
+ u32 num_blocks;
+ u32 num_free;
+} block_allocator;
+
+
+static void block_allocator_shutdown(ump_memory_backend * backend);
+static int block_allocator_allocate(void* ctx, ump_dd_mem * mem);
+static void block_allocator_release(void * ctx, ump_dd_mem * handle);
+static inline u32 get_phys(block_allocator * allocator, block_info * block);
+static u32 block_allocator_stat(struct ump_memory_backend *backend);
+
+
+
+/*
+ * Create dedicated memory backend
+ */
+ump_memory_backend * ump_block_allocator_create(u32 base_address, u32 size)
+{
+ ump_memory_backend * backend;
+ block_allocator * allocator;
+ u32 usable_size;
+ u32 num_blocks;
+
+ usable_size = (size + UMP_BLOCK_SIZE - 1) & ~(UMP_BLOCK_SIZE - 1);
+ num_blocks = usable_size / UMP_BLOCK_SIZE;
+
+ if (0 == usable_size) {
+ DBG_MSG(1, ("Memory block of size %u is unusable\n", size));
+ return NULL;
+ }
+
+ DBG_MSG(5, ("Creating dedicated UMP memory backend. Base address: 0x%08x, size: 0x%08x\n", base_address, size));
+ DBG_MSG(6, ("%u usable bytes which becomes %u blocks\n", usable_size, num_blocks));
+
+ backend = kzalloc(sizeof(ump_memory_backend), GFP_KERNEL);
+ if (NULL != backend) {
+ allocator = kmalloc(sizeof(block_allocator), GFP_KERNEL);
+ if (NULL != allocator) {
+ allocator->all_blocks = kmalloc(sizeof(block_info) * num_blocks, GFP_KERNEL);
+ if (NULL != allocator->all_blocks) {
+ int i;
+
+ allocator->first_free = NULL;
+ allocator->num_blocks = num_blocks;
+ allocator->num_free = num_blocks;
+ allocator->base = base_address;
+ sema_init(&allocator->mutex, 1);
+
+ for (i = 0; i < num_blocks; i++) {
+ allocator->all_blocks[i].next = allocator->first_free;
+ allocator->first_free = &allocator->all_blocks[i];
+ }
+
+ backend->ctx = allocator;
+ backend->allocate = block_allocator_allocate;
+ backend->release = block_allocator_release;
+ backend->shutdown = block_allocator_shutdown;
+ backend->stat = block_allocator_stat;
+ backend->pre_allocate_physical_check = NULL;
+ backend->adjust_to_mali_phys = NULL;
+
+ return backend;
+ }
+ kfree(allocator);
+ }
+ kfree(backend);
+ }
+
+ return NULL;
+}
+
+
+
+/*
+ * Destroy specified dedicated memory backend
+ */
+static void block_allocator_shutdown(ump_memory_backend * backend)
+{
+ block_allocator * allocator;
+
+ BUG_ON(!backend);
+ BUG_ON(!backend->ctx);
+
+ allocator = (block_allocator*)backend->ctx;
+
+ DBG_MSG_IF(1, allocator->num_free != allocator->num_blocks, ("%u blocks still in use during shutdown\n", allocator->num_blocks - allocator->num_free));
+
+ kfree(allocator->all_blocks);
+ kfree(allocator);
+ kfree(backend);
+}
+
+
+
+static int block_allocator_allocate(void* ctx, ump_dd_mem * mem)
+{
+ block_allocator * allocator;
+ u32 left;
+ block_info * last_allocated = NULL;
+ int i = 0;
+
+ BUG_ON(!ctx);
+ BUG_ON(!mem);
+
+ allocator = (block_allocator*)ctx;
+ left = mem->size_bytes;
+
+ BUG_ON(!left);
+ BUG_ON(!&allocator->mutex);
+
+ mem->nr_blocks = ((left + UMP_BLOCK_SIZE - 1) & ~(UMP_BLOCK_SIZE - 1)) / UMP_BLOCK_SIZE;
+ mem->block_array = (ump_dd_physical_block*)vmalloc(sizeof(ump_dd_physical_block) * mem->nr_blocks);
+ if (NULL == mem->block_array) {
+ MSG_ERR(("Failed to allocate block array\n"));
+ return 0;
+ }
+
+ if (down_interruptible(&allocator->mutex)) {
+ MSG_ERR(("Could not get mutex to do block_allocate\n"));
+ return 0;
+ }
+
+ mem->size_bytes = 0;
+
+ while ((left > 0) && (allocator->first_free)) {
+ block_info * block;
+
+ block = allocator->first_free;
+ allocator->first_free = allocator->first_free->next;
+ block->next = last_allocated;
+ last_allocated = block;
+ allocator->num_free--;
+
+ mem->block_array[i].addr = get_phys(allocator, block);
+ mem->block_array[i].size = UMP_BLOCK_SIZE;
+ mem->size_bytes += UMP_BLOCK_SIZE;
+
+ i++;
+
+ if (left < UMP_BLOCK_SIZE) left = 0;
+ else left -= UMP_BLOCK_SIZE;
+ }
+
+ if (left) {
+ block_info * block;
+ /* release all memory back to the pool */
+ while (last_allocated) {
+ block = last_allocated->next;
+ last_allocated->next = allocator->first_free;
+ allocator->first_free = last_allocated;
+ last_allocated = block;
+ allocator->num_free++;
+ }
+
+ vfree(mem->block_array);
+ mem->backend_info = NULL;
+ mem->block_array = NULL;
+
+ DBG_MSG(4, ("Could not find a mem-block for the allocation.\n"));
+ up(&allocator->mutex);
+
+ return 0;
+ }
+
+ mem->backend_info = last_allocated;
+
+ up(&allocator->mutex);
+ mem->is_cached=0;
+
+ return 1;
+}
+
+
+
+static void block_allocator_release(void * ctx, ump_dd_mem * handle)
+{
+ block_allocator * allocator;
+ block_info * block, * next;
+
+ BUG_ON(!ctx);
+ BUG_ON(!handle);
+
+ allocator = (block_allocator*)ctx;
+ block = (block_info*)handle->backend_info;
+ BUG_ON(!block);
+
+ if (down_interruptible(&allocator->mutex)) {
+ MSG_ERR(("Allocator release: Failed to get mutex - memory leak\n"));
+ return;
+ }
+
+ while (block) {
+ next = block->next;
+
+ BUG_ON( (block < allocator->all_blocks) || (block > (allocator->all_blocks + allocator->num_blocks)));
+
+ block->next = allocator->first_free;
+ allocator->first_free = block;
+ allocator->num_free++;
+
+ block = next;
+ }
+ DBG_MSG(3, ("%d blocks free after release call\n", allocator->num_free));
+ up(&allocator->mutex);
+
+ vfree(handle->block_array);
+ handle->block_array = NULL;
+}
+
+
+
+/*
+ * Helper function for calculating the physical base adderss of a memory block
+ */
+static inline u32 get_phys(block_allocator * allocator, block_info * block)
+{
+ return allocator->base + ((block - allocator->all_blocks) * UMP_BLOCK_SIZE);
+}
+
+static u32 block_allocator_stat(struct ump_memory_backend *backend)
+{
+ block_allocator *allocator;
+ BUG_ON(!backend);
+ allocator = (block_allocator*)backend->ctx;
+ BUG_ON(!allocator);
+
+ return (allocator->num_blocks - allocator->num_free)* UMP_BLOCK_SIZE;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2010 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_kernel_memory_backend_dedicated.h
+ */
+
+#ifndef __UMP_KERNEL_MEMORY_BACKEND_DEDICATED_H__
+#define __UMP_KERNEL_MEMORY_BACKEND_DEDICATED_H__
+
+#include "ump_kernel_memory_backend.h"
+
+ump_memory_backend * ump_block_allocator_create(u32 base_address, u32 size);
+
+#endif /* __UMP_KERNEL_MEMORY_BACKEND_DEDICATED_H__ */
+
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2011, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/* needed to detect kernel version specific code */
+#include <linux/version.h>
+
+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,26)
+#include <linux/semaphore.h>
+#else /* pre 2.6.26 the file was in the arch specific location */
+#include <asm/semaphore.h>
+#endif
+
+#include <linux/dma-mapping.h>
+#include <linux/mm.h>
+#include <linux/slab.h>
+#include <asm/atomic.h>
+#include <linux/vmalloc.h>
+#include <asm/cacheflush.h>
+#include "ump_kernel_common.h"
+#include "ump_kernel_memory_backend.h"
+
+
+
+typedef struct os_allocator {
+ struct semaphore mutex;
+ u32 num_pages_max; /**< Maximum number of pages to allocate from the OS */
+ u32 num_pages_allocated; /**< Number of pages allocated from the OS */
+} os_allocator;
+
+
+
+static void os_free(void* ctx, ump_dd_mem * descriptor);
+static int os_allocate(void* ctx, ump_dd_mem * descriptor);
+static void os_memory_backend_destroy(ump_memory_backend * backend);
+static u32 os_stat(struct ump_memory_backend *backend);
+
+
+
+/*
+ * Create OS memory backend
+ */
+ump_memory_backend * ump_os_memory_backend_create(const int max_allocation)
+{
+ ump_memory_backend * backend;
+ os_allocator * info;
+
+ info = kmalloc(sizeof(os_allocator), GFP_KERNEL);
+ if (NULL == info) {
+ return NULL;
+ }
+
+ info->num_pages_max = max_allocation >> PAGE_SHIFT;
+ info->num_pages_allocated = 0;
+
+ sema_init(&info->mutex, 1);
+
+ backend = kmalloc(sizeof(ump_memory_backend), GFP_KERNEL);
+ if (NULL == backend) {
+ kfree(info);
+ return NULL;
+ }
+
+ backend->ctx = info;
+ backend->allocate = os_allocate;
+ backend->release = os_free;
+ backend->shutdown = os_memory_backend_destroy;
+ backend->stat = os_stat;
+ backend->pre_allocate_physical_check = NULL;
+ backend->adjust_to_mali_phys = NULL;
+
+ return backend;
+}
+
+
+
+/*
+ * Destroy specified OS memory backend
+ */
+static void os_memory_backend_destroy(ump_memory_backend * backend)
+{
+ os_allocator * info = (os_allocator*)backend->ctx;
+
+ DBG_MSG_IF(1, 0 != info->num_pages_allocated, ("%d pages still in use during shutdown\n", info->num_pages_allocated));
+
+ kfree(info);
+ kfree(backend);
+}
+
+
+
+/*
+ * Allocate UMP memory
+ */
+static int os_allocate(void* ctx, ump_dd_mem * descriptor)
+{
+ u32 left;
+ os_allocator * info;
+ int pages_allocated = 0;
+ int is_cached;
+
+ BUG_ON(!descriptor);
+ BUG_ON(!ctx);
+
+ info = (os_allocator*)ctx;
+ left = descriptor->size_bytes;
+ is_cached = descriptor->is_cached;
+
+ if (down_interruptible(&info->mutex)) {
+ DBG_MSG(1, ("Failed to get mutex in os_free\n"));
+ return 0; /* failure */
+ }
+
+ descriptor->backend_info = NULL;
+ descriptor->nr_blocks = ((left + PAGE_SIZE - 1) & ~(PAGE_SIZE - 1)) >> PAGE_SHIFT;
+
+ DBG_MSG(5, ("Allocating page array. Size: %lu\n", descriptor->nr_blocks * sizeof(ump_dd_physical_block)));
+
+ descriptor->block_array = (ump_dd_physical_block *)vmalloc(sizeof(ump_dd_physical_block) * descriptor->nr_blocks);
+ if (NULL == descriptor->block_array) {
+ up(&info->mutex);
+ DBG_MSG(1, ("Block array could not be allocated\n"));
+ return 0; /* failure */
+ }
+
+ while (left > 0 && ((info->num_pages_allocated + pages_allocated) < info->num_pages_max)) {
+ struct page * new_page;
+
+ if (is_cached) {
+ new_page = alloc_page(GFP_HIGHUSER | __GFP_ZERO | __GFP_REPEAT | __GFP_NOWARN);
+ } else {
+ new_page = alloc_page(GFP_HIGHUSER | __GFP_ZERO | __GFP_REPEAT | __GFP_NOWARN | __GFP_COLD);
+ }
+ if (NULL == new_page) {
+ break;
+ }
+
+ /* Ensure page caches are flushed. */
+ if ( is_cached ) {
+ descriptor->block_array[pages_allocated].addr = page_to_phys(new_page);
+ descriptor->block_array[pages_allocated].size = PAGE_SIZE;
+ } else {
+ descriptor->block_array[pages_allocated].addr = dma_map_page(NULL, new_page, 0, PAGE_SIZE, DMA_BIDIRECTIONAL );
+ descriptor->block_array[pages_allocated].size = PAGE_SIZE;
+ }
+
+ DBG_MSG(5, ("Allocated page 0x%08lx cached: %d\n", descriptor->block_array[pages_allocated].addr, is_cached));
+
+ if (left < PAGE_SIZE) {
+ left = 0;
+ } else {
+ left -= PAGE_SIZE;
+ }
+
+ pages_allocated++;
+ }
+
+ DBG_MSG(5, ("Alloce for ID:%2d got %d pages, cached: %d\n", descriptor->secure_id, pages_allocated));
+
+ if (left) {
+ DBG_MSG(1, ("Failed to allocate needed pages\n"));
+
+ while(pages_allocated) {
+ pages_allocated--;
+ if ( !is_cached ) {
+ dma_unmap_page(NULL, descriptor->block_array[pages_allocated].addr, PAGE_SIZE, DMA_BIDIRECTIONAL);
+ }
+ __free_page(pfn_to_page(descriptor->block_array[pages_allocated].addr >> PAGE_SHIFT) );
+ }
+
+ up(&info->mutex);
+
+ return 0; /* failure */
+ }
+
+ info->num_pages_allocated += pages_allocated;
+
+ DBG_MSG(6, ("%d out of %d pages now allocated\n", info->num_pages_allocated, info->num_pages_max));
+
+ up(&info->mutex);
+
+ return 1; /* success*/
+}
+
+
+/*
+ * Free specified UMP memory
+ */
+static void os_free(void* ctx, ump_dd_mem * descriptor)
+{
+ os_allocator * info;
+ int i;
+
+ BUG_ON(!ctx);
+ BUG_ON(!descriptor);
+
+ info = (os_allocator*)ctx;
+
+ BUG_ON(descriptor->nr_blocks > info->num_pages_allocated);
+
+ if (down_interruptible(&info->mutex)) {
+ DBG_MSG(1, ("Failed to get mutex in os_free\n"));
+ return;
+ }
+
+ DBG_MSG(5, ("Releasing %lu OS pages\n", descriptor->nr_blocks));
+
+ info->num_pages_allocated -= descriptor->nr_blocks;
+
+ up(&info->mutex);
+
+ for ( i = 0; i < descriptor->nr_blocks; i++) {
+ DBG_MSG(6, ("Freeing physical page. Address: 0x%08lx\n", descriptor->block_array[i].addr));
+ if ( ! descriptor->is_cached) {
+ dma_unmap_page(NULL, descriptor->block_array[i].addr, PAGE_SIZE, DMA_BIDIRECTIONAL);
+ }
+ __free_page(pfn_to_page(descriptor->block_array[i].addr>>PAGE_SHIFT) );
+ }
+
+ vfree(descriptor->block_array);
+}
+
+
+static u32 os_stat(struct ump_memory_backend *backend)
+{
+ os_allocator *info;
+ info = (os_allocator*)backend->ctx;
+ return info->num_pages_allocated * _MALI_OSK_MALI_PAGE_SIZE;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2010 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_kernel_memory_backend_os.h
+ */
+
+#ifndef __UMP_KERNEL_MEMORY_BACKEND_OS_H__
+#define __UMP_KERNEL_MEMORY_BACKEND_OS_H__
+
+#include "ump_kernel_memory_backend.h"
+
+ump_memory_backend * ump_os_memory_backend_create(const int max_allocation);
+
+#endif /* __UMP_KERNEL_MEMORY_BACKEND_OS_H__ */
+
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2010, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+#include <linux/module.h> /* kernel module definitions */
+#include <linux/ioport.h> /* request_mem_region */
+
+#include "arch/config.h" /* Configuration for current platform. The symlink for arch is set by Makefile */
+
+#include "ump_osk.h"
+#include "ump_kernel_common.h"
+#include "ump_kernel_memory_backend_os.h"
+#include "ump_kernel_memory_backend_dedicated.h"
+extern unsigned long totalram_pages;
+
+/* Configure which dynamic memory allocator to use */
+int ump_backend = ARCH_UMP_BACKEND_DEFAULT;
+module_param(ump_backend, int, S_IRUGO); /* r--r--r-- */
+MODULE_PARM_DESC(ump_backend, "0 = dedicated memory backend (default), 1 = OS memory backend");
+
+/* The base address of the memory block for the dedicated memory backend */
+unsigned int ump_memory_address = ARCH_UMP_MEMORY_ADDRESS_DEFAULT;
+module_param(ump_memory_address, uint, S_IRUGO); /* r--r--r-- */
+MODULE_PARM_DESC(ump_memory_address, "The physical address to map for the dedicated memory backend");
+
+/* The size of the memory block for the dedicated memory backend */
+unsigned int ump_memory_size = ARCH_UMP_MEMORY_SIZE_DEFAULT;
+module_param(ump_memory_size, uint, S_IRUGO); /* r--r--r-- */
+MODULE_PARM_DESC(ump_memory_size, "The size of fixed memory to map in the dedicated memory backend");
+
+ump_memory_backend* ump_memory_backend_create ( void )
+{
+ ump_memory_backend * backend = NULL;
+
+ /* Create the dynamic memory allocator backend */
+ if (0 == ump_backend) {
+ DBG_MSG(2, ("Using dedicated memory backend\n"));
+
+ DBG_MSG(2, ("Requesting dedicated memory: 0x%08x, size: %u\n", ump_memory_address, ump_memory_size));
+ /* Ask the OS if we can use the specified physical memory */
+ if (NULL == request_mem_region(ump_memory_address, ump_memory_size, "UMP Memory")) {
+ MSG_ERR(("Failed to request memory region (0x%08X - 0x%08X). Is Mali DD already loaded?\n", ump_memory_address, ump_memory_address + ump_memory_size - 1));
+ return NULL;
+ }
+ backend = ump_block_allocator_create(ump_memory_address, ump_memory_size);
+ } else if (1 == ump_backend) {
+ ump_memory_size = totalram_pages * 4 * 1024 / 2;
+ DBG_MSG(2, ("Using OS memory backend, allocation limit: %d\n", ump_memory_size));
+ backend = ump_os_memory_backend_create(ump_memory_size);
+ }
+
+ return backend;
+}
+
+void ump_memory_backend_destroy( void )
+{
+ if (0 == ump_backend) {
+ DBG_MSG(2, ("Releasing dedicated memory: 0x%08x\n", ump_memory_address));
+ release_mem_region(ump_memory_address, ump_memory_size);
+ }
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2010 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_osk_atomics.c
+ * Implementation of the OS abstraction layer for the UMP kernel device driver
+ */
+
+#include "ump_osk.h"
+#include <asm/atomic.h>
+
+int _ump_osk_atomic_dec_and_read( _mali_osk_atomic_t *atom )
+{
+ return atomic_dec_return((atomic_t *)&atom->u.val);
+}
+
+int _ump_osk_atomic_inc_and_read( _mali_osk_atomic_t *atom )
+{
+ return atomic_inc_return((atomic_t *)&atom->u.val);
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2008-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_osk_memory.c
+ * Implementation of the OS abstraction layer for the kernel device driver
+ */
+
+/* needed to detect kernel version specific code */
+#include <linux/version.h>
+
+#include "ump_osk.h"
+#include "ump_uk_types.h"
+#include "ump_ukk.h"
+#include "ump_kernel_common.h"
+#include <linux/module.h> /* kernel module definitions */
+#include <linux/kernel.h>
+#include <linux/mm.h>
+#include <linux/slab.h>
+
+#include <asm/memory.h>
+#include <asm/uaccess.h> /* to verify pointers from user space */
+#include <asm/cacheflush.h>
+#include <linux/dma-mapping.h>
+
+typedef struct ump_vma_usage_tracker {
+ atomic_t references;
+ ump_memory_allocation *descriptor;
+} ump_vma_usage_tracker;
+
+static void ump_vma_open(struct vm_area_struct * vma);
+static void ump_vma_close(struct vm_area_struct * vma);
+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,26)
+static int ump_cpu_page_fault_handler(struct vm_area_struct *vma, struct vm_fault *vmf);
+#else
+static unsigned long ump_cpu_page_fault_handler(struct vm_area_struct * vma, unsigned long address);
+#endif
+
+static struct vm_operations_struct ump_vm_ops = {
+ .open = ump_vma_open,
+ .close = ump_vma_close,
+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,26)
+ .fault = ump_cpu_page_fault_handler
+#else
+ .nopfn = ump_cpu_page_fault_handler
+#endif
+};
+
+/*
+ * Page fault for VMA region
+ * This should never happen since we always map in the entire virtual memory range.
+ */
+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,26)
+static int ump_cpu_page_fault_handler(struct vm_area_struct *vma, struct vm_fault *vmf)
+#else
+static unsigned long ump_cpu_page_fault_handler(struct vm_area_struct * vma, unsigned long address)
+#endif
+{
+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,26)
+ void __user * address;
+ address = vmf->virtual_address;
+#endif
+ MSG_ERR(("Page-fault in UMP memory region caused by the CPU\n"));
+ MSG_ERR(("VMA: 0x%08lx, virtual address: 0x%08lx\n", (unsigned long)vma, address));
+
+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,26)
+ return VM_FAULT_SIGBUS;
+#else
+ return NOPFN_SIGBUS;
+#endif
+}
+
+static void ump_vma_open(struct vm_area_struct * vma)
+{
+ ump_vma_usage_tracker * vma_usage_tracker;
+ int new_val;
+
+ vma_usage_tracker = (ump_vma_usage_tracker*)vma->vm_private_data;
+ BUG_ON(NULL == vma_usage_tracker);
+
+ new_val = atomic_inc_return(&vma_usage_tracker->references);
+
+ DBG_MSG(4, ("VMA open, VMA reference count incremented. VMA: 0x%08lx, reference count: %d\n", (unsigned long)vma, new_val));
+}
+
+static void ump_vma_close(struct vm_area_struct * vma)
+{
+ ump_vma_usage_tracker * vma_usage_tracker;
+ _ump_uk_unmap_mem_s args;
+ int new_val;
+
+ vma_usage_tracker = (ump_vma_usage_tracker*)vma->vm_private_data;
+ BUG_ON(NULL == vma_usage_tracker);
+
+ new_val = atomic_dec_return(&vma_usage_tracker->references);
+
+ DBG_MSG(4, ("VMA close, VMA reference count decremented. VMA: 0x%08lx, reference count: %d\n", (unsigned long)vma, new_val));
+
+ if (0 == new_val) {
+ ump_memory_allocation * descriptor;
+
+ descriptor = vma_usage_tracker->descriptor;
+
+ args.ctx = descriptor->ump_session;
+ args.cookie = descriptor->cookie;
+ args.mapping = descriptor->mapping;
+ args.size = descriptor->size;
+
+ args._ukk_private = NULL; /** @note unused */
+
+ DBG_MSG(4, ("No more VMA references left, releasing UMP memory\n"));
+ _ump_ukk_unmap_mem( & args );
+
+ /* vma_usage_tracker is free()d by _ump_osk_mem_mapregion_term() */
+ }
+}
+
+_mali_osk_errcode_t _ump_osk_mem_mapregion_init( ump_memory_allocation * descriptor )
+{
+ ump_vma_usage_tracker * vma_usage_tracker;
+ struct vm_area_struct *vma;
+
+ if (NULL == descriptor) return _MALI_OSK_ERR_FAULT;
+
+ vma_usage_tracker = kmalloc(sizeof(ump_vma_usage_tracker), GFP_KERNEL);
+ if (NULL == vma_usage_tracker) {
+ DBG_MSG(1, ("Failed to allocate memory for ump_vma_usage_tracker in _mali_osk_mem_mapregion_init\n"));
+ return -_MALI_OSK_ERR_FAULT;
+ }
+
+ vma = (struct vm_area_struct*)descriptor->process_mapping_info;
+ if (NULL == vma ) {
+ kfree(vma_usage_tracker);
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ vma->vm_private_data = vma_usage_tracker;
+ vma->vm_flags |= VM_IO;
+#if LINUX_VERSION_CODE < KERNEL_VERSION(3,7,0)
+ vma->vm_flags |= VM_RESERVED;
+#else
+ vma->vm_flags |= VM_DONTDUMP;
+ vma->vm_flags |= VM_DONTEXPAND;
+ vma->vm_flags |= VM_PFNMAP;
+#endif
+
+
+ if (0==descriptor->is_cached) {
+ vma->vm_page_prot = pgprot_writecombine(vma->vm_page_prot);
+ }
+ DBG_MSG(3, ("Mapping with page_prot: 0x%x\n", vma->vm_page_prot ));
+
+ /* Setup the functions which handle further VMA handling */
+ vma->vm_ops = &ump_vm_ops;
+
+ /* Do the va range allocation - in this case, it was done earlier, so we copy in that information */
+ descriptor->mapping = (void __user*)vma->vm_start;
+
+ atomic_set(&vma_usage_tracker->references, 1); /*this can later be increased if process is forked, see ump_vma_open() */
+ vma_usage_tracker->descriptor = descriptor;
+
+ return _MALI_OSK_ERR_OK;
+}
+
+void _ump_osk_mem_mapregion_term( ump_memory_allocation * descriptor )
+{
+ struct vm_area_struct* vma;
+ ump_vma_usage_tracker * vma_usage_tracker;
+
+ if (NULL == descriptor) return;
+
+ /* Linux does the right thing as part of munmap to remove the mapping
+ * All that remains is that we remove the vma_usage_tracker setup in init() */
+ vma = (struct vm_area_struct*)descriptor->process_mapping_info;
+
+ vma_usage_tracker = vma->vm_private_data;
+
+ /* We only get called if mem_mapregion_init succeeded */
+ kfree(vma_usage_tracker);
+ return;
+}
+
+_mali_osk_errcode_t _ump_osk_mem_mapregion_map( ump_memory_allocation * descriptor, u32 offset, u32 * phys_addr, unsigned long size )
+{
+ struct vm_area_struct *vma;
+ _mali_osk_errcode_t retval;
+
+ if (NULL == descriptor) return _MALI_OSK_ERR_FAULT;
+
+ vma = (struct vm_area_struct*)descriptor->process_mapping_info;
+
+ if (NULL == vma ) return _MALI_OSK_ERR_FAULT;
+
+ retval = remap_pfn_range( vma, ((u32)descriptor->mapping) + offset, (*phys_addr) >> PAGE_SHIFT, size, vma->vm_page_prot) ? _MALI_OSK_ERR_FAULT : _MALI_OSK_ERR_OK;;
+
+ DBG_MSG(4, ("Mapping virtual to physical memory. ID: %u, vma: 0x%08lx, virtual addr:0x%08lx, physical addr: 0x%08lx, size:%lu, prot:0x%x, vm_flags:0x%x RETVAL: 0x%x\n",
+ ump_dd_secure_id_get(descriptor->handle),
+ (unsigned long)vma,
+ (unsigned long)(vma->vm_start + offset),
+ (unsigned long)*phys_addr,
+ size,
+ (unsigned int)vma->vm_page_prot, vma->vm_flags, retval));
+
+ return retval;
+}
+
+static void level1_cache_flush_all(void)
+{
+ DBG_MSG(4, ("UMP[xx] Flushing complete L1 cache\n"));
+ __cpuc_flush_kern_all();
+}
+
+void _ump_osk_msync( ump_dd_mem * mem, void * virt, u32 offset, u32 size, ump_uk_msync_op op, ump_session_data * session_data )
+{
+ int i;
+
+ /* Flush L1 using virtual address, the entire range in one go.
+ * Only flush if user space process has a valid write mapping on given address. */
+ if( (mem) && (virt!=NULL) && (access_ok(VERIFY_WRITE, virt, size)) ) {
+ __cpuc_flush_dcache_area(virt, size);
+ DBG_MSG(3, ("UMP[%02u] Flushing CPU L1 Cache. CPU address: %x, size: %x\n", mem->secure_id, virt, size));
+ } else {
+ if (session_data) {
+ if (op == _UMP_UK_MSYNC_FLUSH_L1 ) {
+ DBG_MSG(4, ("UMP Pending L1 cache flushes: %d\n", session_data->has_pending_level1_cache_flush));
+ session_data->has_pending_level1_cache_flush = 0;
+ level1_cache_flush_all();
+ return;
+ } else {
+ if (session_data->cache_operations_ongoing) {
+ session_data->has_pending_level1_cache_flush++;
+ DBG_MSG(4, ("UMP[%02u] Defering the L1 flush. Nr pending:%d\n", mem->secure_id, session_data->has_pending_level1_cache_flush) );
+ } else {
+ /* Flushing the L1 cache for each switch_user() if ump_cache_operations_control(START) is not called */
+ level1_cache_flush_all();
+ }
+ }
+ } else {
+ DBG_MSG(4, ("Unkown state %s %d\n", __FUNCTION__, __LINE__));
+ level1_cache_flush_all();
+ }
+ }
+
+ if ( NULL == mem ) return;
+
+ if ( mem->size_bytes==size) {
+ DBG_MSG(3, ("UMP[%02u] Flushing CPU L2 Cache\n",mem->secure_id));
+ } else {
+ DBG_MSG(3, ("UMP[%02u] Flushing CPU L2 Cache. Blocks:%u, TotalSize:%u. FlushSize:%u Offset:0x%x FirstPaddr:0x%08x\n",
+ mem->secure_id, mem->nr_blocks, mem->size_bytes, size, offset, mem->block_array[0].addr));
+ }
+
+
+ /* Flush L2 using physical addresses, block for block. */
+ for (i=0 ; i < mem->nr_blocks; i++) {
+ u32 start_p, end_p;
+ ump_dd_physical_block *block;
+ block = &mem->block_array[i];
+
+ if(offset >= block->size) {
+ offset -= block->size;
+ continue;
+ }
+
+ if(offset) {
+ start_p = (u32)block->addr + offset;
+ /* We'll zero the offset later, after using it to calculate end_p. */
+ } else {
+ start_p = (u32)block->addr;
+ }
+
+ if(size < block->size - offset) {
+ end_p = start_p + size - 1;
+ size = 0;
+ } else {
+ if(offset) {
+ end_p = start_p + (block->size - offset - 1);
+ size -= block->size - offset;
+ offset = 0;
+ } else {
+ end_p = start_p + block->size - 1;
+ size -= block->size;
+ }
+ }
+
+ switch(op) {
+ case _UMP_UK_MSYNC_CLEAN:
+ outer_clean_range(start_p, end_p);
+ break;
+ case _UMP_UK_MSYNC_CLEAN_AND_INVALIDATE:
+ outer_flush_range(start_p, end_p);
+ break;
+ case _UMP_UK_MSYNC_INVALIDATE:
+ outer_inv_range(start_p, end_p);
+ break;
+ default:
+ break;
+ }
+
+ if(0 == size) {
+ /* Nothing left to flush. */
+ break;
+ }
+ }
+
+ return;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2010, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_osk_misc.c
+ * Implementation of the OS abstraction layer for the UMP kernel device driver
+ */
+
+
+#include "ump_osk.h"
+
+#include <linux/kernel.h>
+#include "ump_kernel_linux.h"
+
+/* is called from ump_kernel_constructor in common code */
+_mali_osk_errcode_t _ump_osk_init( void )
+{
+ if (0 != ump_kernel_device_initialize()) {
+ return _MALI_OSK_ERR_FAULT;
+ }
+
+ return _MALI_OSK_ERR_OK;
+}
+
+_mali_osk_errcode_t _ump_osk_term( void )
+{
+ ump_kernel_device_terminate();
+ return _MALI_OSK_ERR_OK;
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2010, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_ukk_wrappers.c
+ * Defines the wrapper functions which turn Linux IOCTL calls into _ukk_ calls for the reference implementation
+ */
+
+
+#include <asm/uaccess.h> /* user space access */
+
+#include "ump_osk.h"
+#include "ump_uk_types.h"
+#include "ump_ukk.h"
+#include "ump_kernel_common.h"
+
+/*
+ * IOCTL operation; Allocate UMP memory
+ */
+int ump_allocate_wrapper(u32 __user * argument, struct ump_session_data * session_data)
+{
+ _ump_uk_allocate_s user_interaction;
+ _mali_osk_errcode_t err;
+
+ /* Sanity check input parameters */
+ if (NULL == argument || NULL == session_data) {
+ MSG_ERR(("NULL parameter in ump_ioctl_allocate()\n"));
+ return -ENOTTY;
+ }
+
+ /* Copy the user space memory to kernel space (so we safely can read it) */
+ if (0 != copy_from_user(&user_interaction, argument, sizeof(user_interaction))) {
+ MSG_ERR(("copy_from_user() in ump_ioctl_allocate()\n"));
+ return -EFAULT;
+ }
+
+ user_interaction.ctx = (void *) session_data;
+
+ err = _ump_ukk_allocate( &user_interaction );
+ if( _MALI_OSK_ERR_OK != err ) {
+ DBG_MSG(1, ("_ump_ukk_allocate() failed in ump_ioctl_allocate()\n"));
+ return map_errcode(err);
+ }
+ user_interaction.ctx = NULL;
+
+ if (0 != copy_to_user(argument, &user_interaction, sizeof(user_interaction))) {
+ /* If the copy fails then we should release the memory. We can use the IOCTL release to accomplish this */
+ _ump_uk_release_s release_args;
+
+ MSG_ERR(("copy_to_user() failed in ump_ioctl_allocate()\n"));
+
+ release_args.ctx = (void *) session_data;
+ release_args.secure_id = user_interaction.secure_id;
+
+ err = _ump_ukk_release( &release_args );
+ if(_MALI_OSK_ERR_OK != err) {
+ MSG_ERR(("_ump_ukk_release() also failed when trying to release newly allocated memory in ump_ioctl_allocate()\n"));
+ }
+
+ return -EFAULT;
+ }
+
+ return 0; /* success */
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2010, 2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_ukk_wrappers.h
+ * Defines the wrapper functions which turn Linux IOCTL calls into _ukk_ calls for the reference implementation
+ */
+
+#ifndef __UMP_UKK_REF_WRAPPERS_H__
+#define __UMP_UKK_REF_WRAPPERS_H__
+
+#include <linux/kernel.h>
+#include "ump_kernel_common.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+
+int ump_allocate_wrapper(u32 __user * argument, struct ump_session_data * session_data);
+
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __UMP_UKK_REF_WRAPPERS_H__ */
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_ukk_wrappers.c
+ * Defines the wrapper functions which turn Linux IOCTL calls into _ukk_ calls
+ */
+
+#include <asm/uaccess.h> /* user space access */
+
+#include "ump_osk.h"
+#include "ump_uk_types.h"
+#include "ump_ukk.h"
+#include "ump_kernel_common.h"
+
+/*
+ * IOCTL operation; Negotiate version of IOCTL API
+ */
+int ump_get_api_version_wrapper(u32 __user * argument, struct ump_session_data * session_data)
+{
+ _ump_uk_api_version_s version_info;
+ _mali_osk_errcode_t err;
+
+ /* Sanity check input parameters */
+ if (NULL == argument || NULL == session_data) {
+ MSG_ERR(("NULL parameter in ump_ioctl_get_api_version()\n"));
+ return -ENOTTY;
+ }
+
+ /* Copy the user space memory to kernel space (so we safely can read it) */
+ if (0 != copy_from_user(&version_info, argument, sizeof(version_info))) {
+ MSG_ERR(("copy_from_user() in ump_ioctl_get_api_version()\n"));
+ return -EFAULT;
+ }
+
+ version_info.ctx = (void*) session_data;
+ err = _ump_uku_get_api_version( &version_info );
+ if( _MALI_OSK_ERR_OK != err ) {
+ MSG_ERR(("_ump_uku_get_api_version() failed in ump_ioctl_get_api_version()\n"));
+ return map_errcode(err);
+ }
+
+ version_info.ctx = NULL;
+
+ /* Copy ouput data back to user space */
+ if (0 != copy_to_user(argument, &version_info, sizeof(version_info))) {
+ MSG_ERR(("copy_to_user() failed in ump_ioctl_get_api_version()\n"));
+ return -EFAULT;
+ }
+
+ return 0; /* success */
+}
+
+
+/*
+ * IOCTL operation; Release reference to specified UMP memory.
+ */
+int ump_release_wrapper(u32 __user * argument, struct ump_session_data * session_data)
+{
+ _ump_uk_release_s release_args;
+ _mali_osk_errcode_t err;
+
+ /* Sanity check input parameters */
+ if (NULL == session_data) {
+ MSG_ERR(("NULL parameter in ump_ioctl_release()\n"));
+ return -ENOTTY;
+ }
+
+ /* Copy the user space memory to kernel space (so we safely can read it) */
+ if (0 != copy_from_user(&release_args, argument, sizeof(release_args))) {
+ MSG_ERR(("copy_from_user() in ump_ioctl_get_api_version()\n"));
+ return -EFAULT;
+ }
+
+ release_args.ctx = (void*) session_data;
+ err = _ump_ukk_release( &release_args );
+ if( _MALI_OSK_ERR_OK != err ) {
+ MSG_ERR(("_ump_ukk_release() failed in ump_ioctl_release()\n"));
+ return map_errcode(err);
+ }
+
+
+ return 0; /* success */
+}
+
+/*
+ * IOCTL operation; Return size for specified UMP memory.
+ */
+int ump_size_get_wrapper(u32 __user * argument, struct ump_session_data * session_data)
+{
+ _ump_uk_size_get_s user_interaction;
+ _mali_osk_errcode_t err;
+
+ /* Sanity check input parameters */
+ if (NULL == argument || NULL == session_data) {
+ MSG_ERR(("NULL parameter in ump_ioctl_size_get()\n"));
+ return -ENOTTY;
+ }
+
+ if (0 != copy_from_user(&user_interaction, argument, sizeof(user_interaction))) {
+ MSG_ERR(("copy_from_user() in ump_ioctl_size_get()\n"));
+ return -EFAULT;
+ }
+
+ user_interaction.ctx = (void *) session_data;
+ err = _ump_ukk_size_get( &user_interaction );
+ if( _MALI_OSK_ERR_OK != err ) {
+ MSG_ERR(("_ump_ukk_size_get() failed in ump_ioctl_size_get()\n"));
+ return map_errcode(err);
+ }
+
+ user_interaction.ctx = NULL;
+
+ if (0 != copy_to_user(argument, &user_interaction, sizeof(user_interaction))) {
+ MSG_ERR(("copy_to_user() failed in ump_ioctl_size_get()\n"));
+ return -EFAULT;
+ }
+
+ return 0; /* success */
+}
+
+/*
+ * IOCTL operation; Do cache maintenance on specified UMP memory.
+ */
+int ump_msync_wrapper(u32 __user * argument, struct ump_session_data * session_data)
+{
+ _ump_uk_msync_s user_interaction;
+
+ /* Sanity check input parameters */
+ if (NULL == argument || NULL == session_data) {
+ MSG_ERR(("NULL parameter in ump_ioctl_size_get()\n"));
+ return -ENOTTY;
+ }
+
+ if (0 != copy_from_user(&user_interaction, argument, sizeof(user_interaction))) {
+ MSG_ERR(("copy_from_user() in ump_ioctl_msync()\n"));
+ return -EFAULT;
+ }
+
+ user_interaction.ctx = (void *) session_data;
+
+ _ump_ukk_msync( &user_interaction );
+
+ user_interaction.ctx = NULL;
+
+ if (0 != copy_to_user(argument, &user_interaction, sizeof(user_interaction))) {
+ MSG_ERR(("copy_to_user() failed in ump_ioctl_msync()\n"));
+ return -EFAULT;
+ }
+
+ return 0; /* success */
+}
+int ump_cache_operations_control_wrapper(u32 __user * argument, struct ump_session_data * session_data)
+{
+ _ump_uk_cache_operations_control_s user_interaction;
+
+ /* Sanity check input parameters */
+ if (NULL == argument || NULL == session_data) {
+ MSG_ERR(("NULL parameter in ump_ioctl_size_get()\n"));
+ return -ENOTTY;
+ }
+
+ if (0 != copy_from_user(&user_interaction, argument, sizeof(user_interaction))) {
+ MSG_ERR(("copy_from_user() in ump_ioctl_cache_operations_control()\n"));
+ return -EFAULT;
+ }
+
+ user_interaction.ctx = (void *) session_data;
+
+ _ump_ukk_cache_operations_control((_ump_uk_cache_operations_control_s*) &user_interaction );
+
+ user_interaction.ctx = NULL;
+
+#if 0 /* No data to copy back */
+ if (0 != copy_to_user(argument, &user_interaction, sizeof(user_interaction))) {
+ MSG_ERR(("copy_to_user() failed in ump_ioctl_cache_operations_control()\n"));
+ return -EFAULT;
+ }
+#endif
+ return 0; /* success */
+}
+
+int ump_switch_hw_usage_wrapper(u32 __user * argument, struct ump_session_data * session_data)
+{
+ _ump_uk_switch_hw_usage_s user_interaction;
+
+ /* Sanity check input parameters */
+ if (NULL == argument || NULL == session_data) {
+ MSG_ERR(("NULL parameter in ump_ioctl_size_get()\n"));
+ return -ENOTTY;
+ }
+
+ if (0 != copy_from_user(&user_interaction, argument, sizeof(user_interaction))) {
+ MSG_ERR(("copy_from_user() in ump_ioctl_switch_hw_usage()\n"));
+ return -EFAULT;
+ }
+
+ user_interaction.ctx = (void *) session_data;
+
+ _ump_ukk_switch_hw_usage( &user_interaction );
+
+ user_interaction.ctx = NULL;
+
+#if 0 /* No data to copy back */
+ if (0 != copy_to_user(argument, &user_interaction, sizeof(user_interaction))) {
+ MSG_ERR(("copy_to_user() failed in ump_ioctl_switch_hw_usage()\n"));
+ return -EFAULT;
+ }
+#endif
+ return 0; /* success */
+}
+
+int ump_lock_wrapper(u32 __user * argument, struct ump_session_data * session_data)
+{
+ _ump_uk_lock_s user_interaction;
+
+ /* Sanity check input parameters */
+ if (NULL == argument || NULL == session_data) {
+ MSG_ERR(("NULL parameter in ump_ioctl_size_get()\n"));
+ return -ENOTTY;
+ }
+
+ if (0 != copy_from_user(&user_interaction, argument, sizeof(user_interaction))) {
+ MSG_ERR(("copy_from_user() in ump_ioctl_switch_hw_usage()\n"));
+ return -EFAULT;
+ }
+
+ user_interaction.ctx = (void *) session_data;
+
+ _ump_ukk_lock( &user_interaction );
+
+ user_interaction.ctx = NULL;
+
+#if 0 /* No data to copy back */
+ if (0 != copy_to_user(argument, &user_interaction, sizeof(user_interaction))) {
+ MSG_ERR(("copy_to_user() failed in ump_ioctl_switch_hw_usage()\n"));
+ return -EFAULT;
+ }
+#endif
+
+ return 0; /* success */
+}
+
+int ump_unlock_wrapper(u32 __user * argument, struct ump_session_data * session_data)
+{
+ _ump_uk_unlock_s user_interaction;
+
+ /* Sanity check input parameters */
+ if (NULL == argument || NULL == session_data) {
+ MSG_ERR(("NULL parameter in ump_ioctl_size_get()\n"));
+ return -ENOTTY;
+ }
+
+ if (0 != copy_from_user(&user_interaction, argument, sizeof(user_interaction))) {
+ MSG_ERR(("copy_from_user() in ump_ioctl_switch_hw_usage()\n"));
+ return -EFAULT;
+ }
+
+ user_interaction.ctx = (void *) session_data;
+
+ _ump_ukk_unlock( &user_interaction );
+
+ user_interaction.ctx = NULL;
+
+#if 0 /* No data to copy back */
+ if (0 != copy_to_user(argument, &user_interaction, sizeof(user_interaction))) {
+ MSG_ERR(("copy_to_user() failed in ump_ioctl_switch_hw_usage()\n"));
+ return -EFAULT;
+ }
+#endif
+
+ return 0; /* success */
+}
--- /dev/null
+/*
+ * This confidential and proprietary software may be used only as
+ * authorised by a licensing agreement from ARM Limited
+ * (C) COPYRIGHT 2009-2010, 2012-2013 ARM Limited
+ * ALL RIGHTS RESERVED
+ * The entire notice above must be reproduced on all authorised
+ * copies and copies may only be made to the extent permitted
+ * by a licensing agreement from ARM Limited.
+ */
+
+/**
+ * @file ump_ukk_wrappers.h
+ * Defines the wrapper functions which turn Linux IOCTL calls into _ukk_ calls
+ */
+
+#ifndef __UMP_UKK_WRAPPERS_H__
+#define __UMP_UKK_WRAPPERS_H__
+
+#include <linux/kernel.h>
+#include "ump_kernel_common.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+
+
+int ump_get_api_version_wrapper(u32 __user * argument, struct ump_session_data * session_data);
+int ump_release_wrapper(u32 __user * argument, struct ump_session_data * session_data);
+int ump_size_get_wrapper(u32 __user * argument, struct ump_session_data * session_data);
+int ump_msync_wrapper(u32 __user * argument, struct ump_session_data * session_data);
+int ump_cache_operations_control_wrapper(u32 __user * argument, struct ump_session_data * session_data);
+int ump_switch_hw_usage_wrapper(u32 __user * argument, struct ump_session_data * session_data);
+int ump_lock_wrapper(u32 __user * argument, struct ump_session_data * session_data);
+int ump_unlock_wrapper(u32 __user * argument, struct ump_session_data * session_data);
+
+
+
+
+#ifdef __cplusplus
+}
+#endif
+
+
+
+#endif /* __UMP_UKK_WRAPPERS_H__ */
projects / firefly-linux-kernel-4.4.55.git / commitdiff