X-Git-Url: http://plrg.eecs.uci.edu/git/?a=blobdiff_plain;f=model.h;h=030d7ddf67723aa1878364e4a7f84c8898136f81;hb=3262ae1f816dea735cab52d6940523f52ca80fe1;hp=41ec97b50bdb71744075d0216a4bb209813255a9;hpb=bdef0741b8a01e16946d261bc2a657af5a683b3e;p=c11tester.git

diff --git a/model.h b/model.h
index 41ec97b5..030d7ddf 100644
--- a/model.h
+++ b/model.h
@@ -17,52 +17,92 @@
 #include "action.h"
 #include "clockvector.h"
 #include "hashtable.h"
+#include "workqueue.h"
 
 /* Forward declaration */
 class NodeStack;
 class CycleGraph;
 class Promise;
 
+/**
+ * Model checker parameter structure. Holds run-time configuration options for
+ * the model checker.
+ */
+struct model_params {
+	int maxreads;
+	int maxfuturedelay;
+};
+
+struct PendingFutureValue {
+	uint64_t value;
+	modelclock_t expiration;
+	ModelAction * act;
+};
+
+/**
+ * Structure for holding small ModelChecker members that should be snapshotted
+ */
+struct model_snapshot_members {
+	ModelAction *current_action;
+	int next_thread_id;
+	modelclock_t used_sequence_numbers;
+	Thread *nextThread;
+	ModelAction *next_backtrack;
+
+	/** @see ModelChecker::lazy_sync_size */
+	unsigned int lazy_sync_size;
+};
+
 /** @brief The central structure for model-checking */
 class ModelChecker {
 public:
-	ModelChecker();
+	ModelChecker(struct model_params params);
 	~ModelChecker();
 
-	/** The scheduler to use: tracks the running/ready Threads */
-	Scheduler *scheduler;
-
-	/** Stores the context for the main model-checking system thread (call
-	 * once)
-	 * @param ctxt The system context structure
-	 */
-	void set_system_context(ucontext_t *ctxt) { system_context = ctxt; }
-
 	/** @returns the context for the main model-checking system thread */
-	ucontext_t * get_system_context(void) { return system_context; }
+	ucontext_t * get_system_context() { return &system_context; }
 
-	void check_current_action(void);
-	void print_summary(void);
-	Thread * schedule_next_thread();
+	/** Prints an execution summary with trace information. */
+	void print_summary();
 
-	int add_thread(Thread *t);
+	void add_thread(Thread *t);
 	void remove_thread(Thread *t);
 	Thread * get_thread(thread_id_t tid) { return thread_map->get(id_to_int(tid)); }
+	Thread * get_thread(ModelAction *act) { return get_thread(act->get_tid()); }
 
 	thread_id_t get_next_id();
 	int get_num_threads();
 	modelclock_t get_next_seq_num();
 
+	/** @return The currently executing Thread. */
+	Thread * get_current_thread() { return scheduler->get_current_thread(); }
+
 	int switch_to_master(ModelAction *act);
 	ClockVector * get_cv(thread_id_t tid);
+	ModelAction * get_parent_action(thread_id_t tid);
 	bool next_execution();
 	bool isfeasible();
+	bool isfeasibleotherthanRMW();
+	bool isfinalfeasible();
+	void check_promises(ClockVector *old_cv, ClockVector * merge_cv);
+	void get_release_seq_heads(ModelAction *act,
+	                std::vector< const ModelAction *, MyAlloc<const ModelAction *> > *release_heads);
+	void finish_execution();
+	bool isfeasibleprefix();
+	void set_assert() {asserted=true;}
 
 	MEMALLOC
 private:
-	int next_thread_id;
-	modelclock_t used_sequence_numbers;
+	/** The scheduler to use: tracks the running/ready Threads */
+	Scheduler *scheduler;
+
+	bool thin_air_constraint_may_allow(const ModelAction * writer, const ModelAction *reader);
+	bool has_asserted() {return asserted;}
+	void reset_asserted() {asserted=false;}
 	int num_executions;
+	int num_feasible_executions;
+	bool promises_expired();
+	const model_params params;
 
 	/**
 	 * Stores the ModelAction for the current thread action.  Call this
@@ -70,29 +110,38 @@ private:
 	 * data between them.
 	 * @param act The ModelAction created by the user-thread action
 	 */
-	void set_current_action(ModelAction *act) { current_action = act; }
+	void set_current_action(ModelAction *act) { priv->current_action = act; }
+	Thread * check_current_action(ModelAction *curr);
+	bool process_read(ModelAction *curr, bool second_part_of_rmw);
+	bool process_write(ModelAction *curr);
+
+	bool take_step();
 
+	void check_recency(ModelAction *curr);
 	ModelAction * get_last_conflict(ModelAction *act);
 	void set_backtracking(ModelAction *act);
-	thread_id_t get_next_replay_thread();
+	Thread * get_next_thread(ModelAction *curr);
 	ModelAction * get_next_backtrack();
 	void reset_to_initial_state();
+	bool resolve_promises(ModelAction *curr);
+	void compute_promises(ModelAction *curr);
 
+	void check_curr_backtracking(ModelAction * curr);
 	void add_action_to_lists(ModelAction *act);
 	ModelAction * get_last_action(thread_id_t tid);
-	ModelAction * get_parent_action(thread_id_t tid);
-	ModelAction * get_last_seq_cst(const void *location);
+	ModelAction * get_last_seq_cst(ModelAction *curr);
 	void build_reads_from_past(ModelAction *curr);
-	ModelAction * process_rmw(ModelAction * curr);
-	void r_modification_order(ModelAction * curr, const ModelAction *rf);
-	void w_modification_order(ModelAction * curr);
-
+	ModelAction * process_rmw(ModelAction *curr);
+	void post_r_modification_order(ModelAction *curr, const ModelAction *rf);
+	bool r_modification_order(ModelAction *curr, const ModelAction *rf);
+	bool w_modification_order(ModelAction *curr);
+	bool release_seq_head(const ModelAction *rf,
+	                std::vector< const ModelAction *, MyAlloc<const ModelAction *> > *release_heads) const;
+	bool resolve_release_sequences(void *location, work_queue_t *work_queue);
 
-	ModelAction *current_action;
 	ModelAction *diverge;
-	thread_id_t nextThread;
 
-	ucontext_t *system_context;
+	ucontext_t system_context;
 	action_list_t *action_trace;
 	HashTable<int, Thread *, int> *thread_map;
 
@@ -101,11 +150,51 @@ private:
 	HashTable<const void *, action_list_t, uintptr_t, 4> *obj_map;
 
 	HashTable<void *, std::vector<action_list_t>, uintptr_t, 4 > *obj_thrd_map;
-	std::vector<Promise *> * promises;
+	std::vector<Promise *> *promises;
+	std::vector<struct PendingFutureValue> *futurevalues;
+
+	/**
+	 * Collection of lists of objects that might synchronize with one or
+	 * more release sequence. Release sequences might be determined lazily
+	 * as promises are fulfilled and modification orders are established.
+	 * This structure maps its lists by object location. Each ModelAction
+	 * in the lists should be an acquire operation.
+	 */
+	HashTable<void *, std::list<ModelAction *>, uintptr_t, 4> *lazy_sync_with_release;
+
+	/**
+	 * Represents the total size of the
+	 * ModelChecker::lazy_sync_with_release lists. This count should be
+	 * snapshotted, so it is actually a pointer to a location within
+	 * ModelChecker::priv
+	 */
+	unsigned int *lazy_sync_size;
+
 	std::vector<ModelAction *> *thrd_last_action;
 	NodeStack *node_stack;
-	ModelAction *next_backtrack;
-	CycleGraph * cyclegraph;
+
+	/** Private data members that should be snapshotted. They are grouped
+	 * together for efficiency and maintainability. */
+	struct model_snapshot_members *priv;
+
+	/**
+	 * @brief The modification order graph
+	 *
+	 * A directed acyclic graph recording observations of the modification
+	 * order on all the atomic objects in the system. This graph should
+	 * never contain any cycles, as that represents a violation of the
+	 * memory model (total ordering). This graph really consists of many
+	 * disjoint (unconnected) subgraphs, each graph corresponding to a
+	 * separate ordering on a distinct object.
+	 *
+	 * The edges in this graph represent the "ordered before" relation,
+	 * such that <tt>a --> b</tt> means <tt>a</tt> was ordered before
+	 * <tt>b</tt>.
+	 */
+	CycleGraph *mo_graph;
+	bool failed_promise;
+	bool too_many_reads;
+	bool asserted;
 };
 
 extern ModelChecker *model;