2 * @brief Model-checker core
5 #ifndef __EXECUTION_H__
6 #define __EXECUTION_H__
12 #include "hashtable.h"
14 #include "modeltypes.h"
15 #include "stl-model.h"
17 #include "mypthread.h"
19 #include <condition_variable>
20 #include "classlist.h"
22 struct PendingFutureValue {
23 PendingFutureValue(ModelAction *writer, ModelAction *reader) :
24 writer(writer), reader(reader)
26 const ModelAction *writer;
31 void print_atomic_accesses();
34 /** @brief The central structure for model-checking */
35 class ModelExecution {
37 ModelExecution(ModelChecker *m, Scheduler *scheduler);
40 struct model_params * get_params() const { return params; }
41 void setParams(struct model_params * _params) {params = _params;}
43 Thread * take_step(ModelAction *curr);
47 #if SUPPORT_MOD_ORDER_DUMP
48 void dumpGraph(char *filename);
51 void add_thread(Thread *t);
52 Thread * get_thread(thread_id_t tid) const;
53 Thread * get_thread(const ModelAction *act) const;
55 uint32_t get_pthread_counter() { return pthread_counter; }
56 void incr_pthread_counter() { pthread_counter++; }
57 Thread * get_pthread(pthread_t pid);
59 bool is_enabled(Thread *t) const;
60 bool is_enabled(thread_id_t tid) const;
62 thread_id_t get_next_id();
63 unsigned int get_num_threads() const;
65 ClockVector * get_cv(thread_id_t tid) const;
66 ModelAction * get_parent_action(thread_id_t tid) const;
68 ModelAction * get_last_action(thread_id_t tid) const;
70 bool check_action_enabled(ModelAction *curr);
72 void assert_bug(const char *msg);
74 bool have_bug_reports() const;
76 SnapVector<bug_message *> * get_bugs() const;
78 bool has_asserted() const;
80 bool is_complete_execution() const;
82 bool is_deadlocked() const;
84 action_list_t * get_action_trace() { return &action_trace; }
86 CycleGraph * const get_mo_graph() { return mo_graph; }
87 HashTable<pthread_cond_t *, cdsc::snapcondition_variable *, uintptr_t, 4> * getCondMap() {return &cond_map;}
88 HashTable<pthread_mutex_t *, cdsc::snapmutex *, uintptr_t, 4> * getMutexMap() {return &mutex_map;}
89 ModelAction * check_current_action(ModelAction *curr);
91 bool isFinished() {return isfinished;}
92 void setFinished() {isfinished = true;}
93 void restore_last_seq_num();
94 void collectActions();
95 modelclock_t get_curr_seq_num();
97 pthread_key_t getPthreadKey() {return pthreadkey;}
101 int get_execution_number() const;
102 bool should_wake_up(const ModelAction * asleep) const;
103 void wake_up_sleeping_actions();
104 modelclock_t get_next_seq_num();
105 bool next_execution();
106 bool initialize_curr_action(ModelAction **curr);
107 bool process_read(ModelAction *curr, SnapVector<ModelAction *> * rf_set);
108 void process_write(ModelAction *curr);
109 void process_fence(ModelAction *curr);
110 bool process_mutex(ModelAction *curr);
111 void process_thread_action(ModelAction *curr);
112 void read_from(ModelAction *act, ModelAction *rf);
113 bool synchronize(const ModelAction *first, ModelAction *second);
114 void add_action_to_lists(ModelAction *act, bool canprune);
115 void add_normal_write_to_lists(ModelAction *act);
116 void add_write_to_lists(ModelAction *act);
117 ModelAction * get_last_fence_release(thread_id_t tid) const;
118 ModelAction * get_last_seq_cst_write(ModelAction *curr) const;
119 ModelAction * get_last_seq_cst_fence(thread_id_t tid, const ModelAction *before_fence) const;
120 ModelAction * get_last_unlock(ModelAction *curr) const;
121 SnapVector<ModelAction *> * build_may_read_from(ModelAction *curr);
122 ModelAction * process_rmw(ModelAction *curr);
123 bool r_modification_order(ModelAction *curr, const ModelAction *rf, SnapVector<ModelAction *> *priorset, bool *canprune);
124 void w_modification_order(ModelAction *curr);
125 ClockVector * get_hb_from_write(ModelAction *rf) const;
126 ModelAction * convertNonAtomicStore(void*);
127 ClockVector * computeMinimalCV();
128 void removeAction(ModelAction *act);
129 void fixupLastAct(ModelAction *act);
132 pthread_key_t pthreadkey;
135 struct model_params * params;
137 /** The scheduler to use: tracks the running/ready Threads */
138 Scheduler * const scheduler;
141 SnapVector<Thread *> thread_map;
142 SnapVector<Thread *> pthread_map;
143 uint32_t pthread_counter;
145 action_list_t action_trace;
148 /** Per-object list of actions. Maps an object (i.e., memory location)
149 * to a trace of all actions performed on the object.
150 * Used only for SC fences, unlocks, & wait.
152 HashTable<const void *, simple_action_list_t *, uintptr_t, 2> obj_map;
154 /** Per-object list of actions. Maps an object (i.e., memory location)
155 * to a trace of all actions performed on the object. */
156 HashTable<const void *, simple_action_list_t *, uintptr_t, 2> condvar_waiters_map;
158 /** Per-object list of actions that each thread performed. */
159 HashTable<const void *, SnapVector<action_list_t> *, uintptr_t, 2> obj_thrd_map;
161 /** Per-object list of writes that each thread performed. */
162 HashTable<const void *, SnapVector<simple_action_list_t> *, uintptr_t, 2> obj_wr_thrd_map;
164 HashTable<const void *, ModelAction *, uintptr_t, 4> obj_last_sc_map;
167 HashTable<pthread_mutex_t *, cdsc::snapmutex *, uintptr_t, 4> mutex_map;
168 HashTable<pthread_cond_t *, cdsc::snapcondition_variable *, uintptr_t, 4> cond_map;
171 * List of pending release sequences. Release sequences might be
172 * determined lazily as promises are fulfilled and modification orders
173 * are established. Each entry in the list may only be partially
174 * filled, depending on its pending status.
177 SnapVector<ModelAction *> thrd_last_action;
178 SnapVector<ModelAction *> thrd_last_fence_release;
180 /** A special model-checker Thread; used for associating with
181 * model-checker-related ModelAcitons */
182 Thread *model_thread;
184 /** Private data members that should be snapshotted. They are grouped
185 * together for efficiency and maintainability. */
186 struct model_snapshot_members * const priv;
189 * @brief The modification order graph
191 * A directed acyclic graph recording observations of the modification
192 * order on all the atomic objects in the system. This graph should
193 * never contain any cycles, as that represents a violation of the
194 * memory model (total ordering). This graph really consists of many
195 * disjoint (unconnected) subgraphs, each graph corresponding to a
196 * separate ordering on a distinct object.
198 * The edges in this graph represent the "ordered before" relation,
199 * such that <tt>a --> b</tt> means <tt>a</tt> was ordered before
202 CycleGraph * const mo_graph;
206 Thread * action_select_next_thread(const ModelAction *curr) const;
211 #endif /* __EXECUTION_H__ */