swapcontext() fix for Mac OSX

[cdsspec-compiler.git] / snapshot.cc

#include <inttypes.h>
#include <sys/mman.h>
#include <unistd.h>
#include <signal.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <sys/wait.h>

#include "hashtable.h"
#include "snapshot.h"
#include "mymemory.h"
#include "common.h"
#include "context.h"

#define FAILURE(mesg) { model_print("failed in the API: %s with errno relative message: %s\n", mesg, strerror(errno)); exit(EXIT_FAILURE); }

/** PageAlignedAdressUpdate return a page aligned address for the
 * address being added as a side effect the numBytes are also changed.
 */
static void * PageAlignAddressUpward(void *addr)
{
        return (void *)((((uintptr_t)addr) + PAGESIZE - 1) & ~(PAGESIZE - 1));
}

#if USE_MPROTECT_SNAPSHOT

/* Each SnapShotRecord lists the firstbackingpage that must be written to
 * revert to that snapshot */
struct SnapShotRecord {
        unsigned int firstBackingPage;
};

/** @brief Backing store page */
typedef unsigned char snapshot_page_t[PAGESIZE];

/* List the base address of the corresponding page in the backing store so we
 * know where to copy it to */
struct BackingPageRecord {
        void *basePtrOfPage;
};

/* Struct for each memory region */
struct MemoryRegion {
        void *basePtr; // base of memory region
        int sizeInPages; // size of memory region in pages
};

/** ReturnPageAlignedAddress returns a page aligned address for the
 * address being added as a side effect the numBytes are also changed.
 */
static void * ReturnPageAlignedAddress(void *addr)
{
        return (void *)(((uintptr_t)addr) & ~(PAGESIZE - 1));
}

/* Primary struct for snapshotting system */
struct mprot_snapshotter {
        mprot_snapshotter(unsigned int numbackingpages, unsigned int numsnapshots, unsigned int nummemoryregions);
        ~mprot_snapshotter();

        struct MemoryRegion *regionsToSnapShot; //This pointer references an array of memory regions to snapshot
        snapshot_page_t *backingStore; //This pointer references an array of snapshotpage's that form the backing store
        void *backingStoreBasePtr; //This pointer references an array of snapshotpage's that form the backing store
        struct BackingPageRecord *backingRecords; //This pointer references an array of backingpagerecord's (same number of elements as backingstore
        struct SnapShotRecord *snapShots; //This pointer references the snapshot array

        unsigned int lastSnapShot; //Stores the next snapshot record we should use
        unsigned int lastBackingPage; //Stores the next backingpage we should use
        unsigned int lastRegion; //Stores the next memory region to be used

        unsigned int maxRegions; //Stores the max number of memory regions we support
        unsigned int maxBackingPages; //Stores the total number of backing pages
        unsigned int maxSnapShots; //Stores the total number of snapshots we allow

        MEMALLOC
};

static struct mprot_snapshotter *mprot_snap = NULL;

mprot_snapshotter::mprot_snapshotter(unsigned int backing_pages, unsigned int snapshots, unsigned int regions) :
        lastSnapShot(0),
        lastBackingPage(0),
        lastRegion(0),
        maxRegions(regions),
        maxBackingPages(backing_pages),
        maxSnapShots(snapshots)
{
        regionsToSnapShot = (struct MemoryRegion *)model_malloc(sizeof(struct MemoryRegion) * regions);
        backingStoreBasePtr = (void *)model_malloc(sizeof(snapshot_page_t) * (backing_pages + 1));
        //Page align the backingstorepages
        backingStore = (snapshot_page_t *)PageAlignAddressUpward(backingStoreBasePtr);
        backingRecords = (struct BackingPageRecord *)model_malloc(sizeof(struct BackingPageRecord) * backing_pages);
        snapShots = (struct SnapShotRecord *)model_malloc(sizeof(struct SnapShotRecord) * snapshots);
}

mprot_snapshotter::~mprot_snapshotter()
{
        model_free(regionsToSnapShot);
        model_free(backingStoreBasePtr);
        model_free(backingRecords);
        model_free(snapShots);
}

/** mprot_handle_pf is the page fault handler for mprotect based snapshotting
 * algorithm.
 */
static void mprot_handle_pf(int sig, siginfo_t *si, void *unused)
{
        if (si->si_code == SEGV_MAPERR) {
                model_print("Real Fault at %p\n", si->si_addr);
                print_trace();
                model_print("For debugging, place breakpoint at: %s:%d\n",
                                __FILE__, __LINE__);
                exit(EXIT_FAILURE);
        }
        void* addr = ReturnPageAlignedAddress(si->si_addr);

        unsigned int backingpage = mprot_snap->lastBackingPage++; //Could run out of pages...
        if (backingpage == mprot_snap->maxBackingPages) {
                model_print("Out of backing pages at %p\n", si->si_addr);
                exit(EXIT_FAILURE);
        }

        //copy page
        memcpy(&(mprot_snap->backingStore[backingpage]), addr, sizeof(snapshot_page_t));
        //remember where to copy page back to
        mprot_snap->backingRecords[backingpage].basePtrOfPage = addr;
        //set protection to read/write
        if (mprotect(addr, sizeof(snapshot_page_t), PROT_READ | PROT_WRITE)) {
                perror("mprotect");
                // Handle error by quitting?
        }
}

static void mprot_snapshot_init(unsigned int numbackingpages,
                unsigned int numsnapshots, unsigned int nummemoryregions,
                unsigned int numheappages, VoidFuncPtr entryPoint)
{
        /* Setup a stack for our signal handler....  */
        stack_t ss;
        ss.ss_sp = PageAlignAddressUpward(model_malloc(SIGSTACKSIZE + PAGESIZE - 1));
        ss.ss_size = SIGSTACKSIZE;
        ss.ss_flags = 0;
        sigaltstack(&ss, NULL);

        struct sigaction sa;
        sa.sa_flags = SA_SIGINFO | SA_NODEFER | SA_RESTART | SA_ONSTACK;
        sigemptyset(&sa.sa_mask);
        sa.sa_sigaction = mprot_handle_pf;
#ifdef MAC
        if (sigaction(SIGBUS, &sa, NULL) == -1) {
                model_print("SIGACTION CANNOT BE INSTALLED\n");
                exit(EXIT_FAILURE);
        }
#endif
        if (sigaction(SIGSEGV, &sa, NULL) == -1) {
                model_print("SIGACTION CANNOT BE INSTALLED\n");
                exit(EXIT_FAILURE);
        }

        mprot_snap = new mprot_snapshotter(numbackingpages, numsnapshots, nummemoryregions);

        // EVIL HACK: We need to make sure that calls into the mprot_handle_pf method don't cause dynamic links
        // The problem is that we end up protecting state in the dynamic linker...
        // Solution is to call our signal handler before we start protecting stuff...

        siginfo_t si;
        memset(&si, 0, sizeof(si));
        si.si_addr = ss.ss_sp;
        mprot_handle_pf(SIGSEGV, &si, NULL);
        mprot_snap->lastBackingPage--; //remove the fake page we copied

        void *basemySpace = model_malloc((numheappages + 1) * PAGESIZE);
        void *pagealignedbase = PageAlignAddressUpward(basemySpace);
        user_snapshot_space = create_mspace_with_base(pagealignedbase, numheappages * PAGESIZE, 1);
        snapshot_add_memory_region(pagealignedbase, numheappages);

        void *base_model_snapshot_space = model_malloc((numheappages + 1) * PAGESIZE);
        pagealignedbase = PageAlignAddressUpward(base_model_snapshot_space);
        model_snapshot_space = create_mspace_with_base(pagealignedbase, numheappages * PAGESIZE, 1);
        snapshot_add_memory_region(pagealignedbase, numheappages);

        entryPoint();
}

static void mprot_add_to_snapshot(void *addr, unsigned int numPages)
{
        unsigned int memoryregion = mprot_snap->lastRegion++;
        if (memoryregion == mprot_snap->maxRegions) {
                model_print("Exceeded supported number of memory regions!\n");
                exit(EXIT_FAILURE);
        }

        mprot_snap->regionsToSnapShot[memoryregion].basePtr = addr;
        mprot_snap->regionsToSnapShot[memoryregion].sizeInPages = numPages;
}

static snapshot_id mprot_take_snapshot()
{
        for (unsigned int region = 0; region < mprot_snap->lastRegion; region++) {
                if (mprotect(mprot_snap->regionsToSnapShot[region].basePtr, mprot_snap->regionsToSnapShot[region].sizeInPages * sizeof(snapshot_page_t), PROT_READ) == -1) {
                        perror("mprotect");
                        model_print("Failed to mprotect inside of takeSnapShot\n");
                        exit(EXIT_FAILURE);
                }
        }
        unsigned int snapshot = mprot_snap->lastSnapShot++;
        if (snapshot == mprot_snap->maxSnapShots) {
                model_print("Out of snapshots\n");
                exit(EXIT_FAILURE);
        }
        mprot_snap->snapShots[snapshot].firstBackingPage = mprot_snap->lastBackingPage;

        return snapshot;
}

static void mprot_roll_back(snapshot_id theID)
{
#if USE_MPROTECT_SNAPSHOT == 2
        if (mprot_snap->lastSnapShot == (theID + 1)) {
                for (unsigned int page = mprot_snap->snapShots[theID].firstBackingPage; page < mprot_snap->lastBackingPage; page++) {
                        memcpy(mprot_snap->backingRecords[page].basePtrOfPage, &mprot_snap->backingStore[page], sizeof(snapshot_page_t));
                }
                return;
        }
#endif

        HashTable< void *, bool, uintptr_t, 4, model_malloc, model_calloc, model_free> duplicateMap;
        for (unsigned int region = 0; region < mprot_snap->lastRegion; region++) {
                if (mprotect(mprot_snap->regionsToSnapShot[region].basePtr, mprot_snap->regionsToSnapShot[region].sizeInPages * sizeof(snapshot_page_t), PROT_READ | PROT_WRITE) == -1) {
                        perror("mprotect");
                        model_print("Failed to mprotect inside of takeSnapShot\n");
                        exit(EXIT_FAILURE);
                }
        }
        for (unsigned int page = mprot_snap->snapShots[theID].firstBackingPage; page < mprot_snap->lastBackingPage; page++) {
                if (!duplicateMap.contains(mprot_snap->backingRecords[page].basePtrOfPage)) {
                        duplicateMap.put(mprot_snap->backingRecords[page].basePtrOfPage, true);
                        memcpy(mprot_snap->backingRecords[page].basePtrOfPage, &mprot_snap->backingStore[page], sizeof(snapshot_page_t));
                }
        }
        mprot_snap->lastSnapShot = theID;
        mprot_snap->lastBackingPage = mprot_snap->snapShots[theID].firstBackingPage;
        mprot_take_snapshot(); //Make sure current snapshot is still good...All later ones are cleared
}

#else /* !USE_MPROTECT_SNAPSHOT */

#define SHARED_MEMORY_DEFAULT  (100 * ((size_t)1 << 20)) // 100mb for the shared memory
#define STACK_SIZE_DEFAULT      (((size_t)1 << 20) * 20)  // 20 mb out of the above 100 mb for my stack

struct fork_snapshotter {
        void *mSharedMemoryBase;
        void *mStackBase;
        size_t mStackSize;
        volatile snapshot_id mIDToRollback;
        ucontext_t mContextToRollback;
        snapshot_id currSnapShotID;
};

static struct fork_snapshotter *fork_snap = NULL;

/** @statics
*   These variables are necessary because the stack is shared region and
*   there exists a race between all processes executing the same function.
*   To avoid the problem above, we require variables allocated in 'safe' regions.
*   The bug was actually observed with the forkID, these variables below are
*   used to indicate the various contexts to which to switch to.
*
*   @savedSnapshotContext: contains the point to which takesnapshot() call should switch to.
*   @savedUserSnapshotContext: contains the point to which the process whose snapshotid is equal to the rollbackid should switch to
*   @snapshotid: it is a running counter for the various forked processes snapshotid. it is incremented and set in a persistently shared record
*/
static ucontext_t savedSnapshotContext;
static ucontext_t savedUserSnapshotContext;
static snapshot_id snapshotid = 0;

static void createSharedMemory()
{
        //step 1. create shared memory.
        void *memMapBase = mmap(0, SHARED_MEMORY_DEFAULT + STACK_SIZE_DEFAULT, PROT_READ | PROT_WRITE, MAP_SHARED | MAP_ANON, -1, 0);
        if (MAP_FAILED == memMapBase)
                FAILURE("mmap");

        //Setup snapshot record at top of free region
        fork_snap = (struct fork_snapshotter *)memMapBase;
        fork_snap->mSharedMemoryBase = (void *)((uintptr_t)memMapBase + sizeof(struct fork_snapshotter));
        fork_snap->mStackBase = (void *)((uintptr_t)memMapBase + SHARED_MEMORY_DEFAULT);
        fork_snap->mStackSize = STACK_SIZE_DEFAULT;
        fork_snap->mIDToRollback = -1;
        fork_snap->currSnapShotID = 0;
}

/**
 * Create a new mspace pointer for the non-snapshotting (i.e., inter-process
 * shared) memory region. Only for fork-based snapshotting.
 *
 * @return The shared memory mspace
 */
mspace create_shared_mspace()
{
        if (!fork_snap)
                createSharedMemory();
        return create_mspace_with_base((void *)(fork_snap->mSharedMemoryBase), SHARED_MEMORY_DEFAULT - sizeof(struct fork_snapshotter), 1);
}

static void fork_snapshot_init(unsigned int numbackingpages,
                unsigned int numsnapshots, unsigned int nummemoryregions,
                unsigned int numheappages, VoidFuncPtr entryPoint)
{
        if (!fork_snap)
                createSharedMemory();

        void *base_model_snapshot_space = malloc((numheappages + 1) * PAGESIZE);
        void *pagealignedbase = PageAlignAddressUpward(base_model_snapshot_space);
        model_snapshot_space = create_mspace_with_base(pagealignedbase, numheappages * PAGESIZE, 1);

        //step 2 setup the stack context.
        ucontext_t newContext;
        getcontext(&newContext);
        newContext.uc_stack.ss_sp = fork_snap->mStackBase;
        newContext.uc_stack.ss_size = STACK_SIZE_DEFAULT;
        makecontext(&newContext, entryPoint, 0);
        /* switch to a new entryPoint context, on a new stack */
        model_swapcontext(&savedSnapshotContext, &newContext);

        /* switch back here when takesnapshot is called */
        pid_t forkedID = 0;
        snapshotid = fork_snap->currSnapShotID;
        /* This bool indicates that the current process's snapshotid is same
                 as the id to which the rollback needs to occur */

        bool rollback = false;
        while (true) {
                fork_snap->currSnapShotID = snapshotid + 1;
                forkedID = fork();

                if (0 == forkedID) {
                        /* If the rollback bool is set, switch to the context we need to
                                 return to during a rollback. */
                        if (rollback) {
                                setcontext(&(fork_snap->mContextToRollback));
                        } else {
                                /*Child process which is forked as a result of takesnapshot
                                        call should switch back to the takesnapshot context*/
                                setcontext(&savedUserSnapshotContext);
                        }
                } else {
                        int status;
                        int retVal;

                        DEBUG("The process id of child is %d and the process id of this process is %d and snapshot id is %d\n",
                                forkedID, getpid(), snapshotid);

                        do {
                                retVal = waitpid(forkedID, &status, 0);
                        } while (-1 == retVal && errno == EINTR);

                        if (fork_snap->mIDToRollback != snapshotid) {
                                exit(EXIT_SUCCESS);
                        }
                        rollback = true;
                }
        }
}

static snapshot_id fork_take_snapshot()
{
        model_swapcontext(&savedUserSnapshotContext, &savedSnapshotContext);
        DEBUG("TAKESNAPSHOT RETURN\n");
        return snapshotid;
}

static void fork_roll_back(snapshot_id theID)
{
        fork_snap->mIDToRollback = theID;
        volatile int sTemp = 0;
        getcontext(&fork_snap->mContextToRollback);
        /*
         * This is used to quit the process on rollback, so that the process
         * which needs to rollback can quit allowing the process whose
         * snapshotid matches the rollbackid to switch to this context and
         * continue....
         */
        if (!sTemp) {
                sTemp = 1;
                DEBUG("Invoked rollback\n");
                exit(EXIT_SUCCESS);
        }
        /*
         * This fix obviates the need for a finalize call. hence less dependences for model-checker....
         */
        fork_snap->mIDToRollback = -1;
}

#endif /* !USE_MPROTECT_SNAPSHOT */

/**
 * @brief Initializes the snapshot system
 * @param entryPoint the function that should run the program.
 */
void snapshot_system_init(unsigned int numbackingpages,
                unsigned int numsnapshots, unsigned int nummemoryregions,
                unsigned int numheappages, VoidFuncPtr entryPoint)
{
#if USE_MPROTECT_SNAPSHOT
        mprot_snapshot_init(numbackingpages, numsnapshots, nummemoryregions, numheappages, entryPoint);
#else
        fork_snapshot_init(numbackingpages, numsnapshots, nummemoryregions, numheappages, entryPoint);
#endif
}

/** Assumes that addr is page aligned. */
void snapshot_add_memory_region(void *addr, unsigned int numPages)
{
#if USE_MPROTECT_SNAPSHOT
        mprot_add_to_snapshot(addr, numPages);
#else
        /* not needed for fork-based snapshotting */
#endif
}

/** Takes a snapshot of memory.
 * @return The snapshot identifier.
 */
snapshot_id take_snapshot()
{
#if USE_MPROTECT_SNAPSHOT
        return mprot_take_snapshot();
#else
        return fork_take_snapshot();
#endif
}

/** Rolls the memory state back to the given snapshot identifier.
 *  @param theID is the snapshot identifier to rollback to.
 */
void snapshot_roll_back(snapshot_id theID)
{
#if USE_MPROTECT_SNAPSHOT
        mprot_roll_back(theID);
#else
        fork_roll_back(theID);
#endif
}