#define VOLATILELOAD(size) \
uint ## size ## _t cds_volatile_load ## size(void * obj, const char * position) { \
ensureModel(); \
- return (uint ## size ## _t)model->switch_to_master(new ModelAction(ATOMIC_READ, position, memory_order_relaxed, obj)); \
+ return (uint ## size ## _t)model->switch_to_master(new ModelAction(ATOMIC_READ, position, memory_order_volatile_load, obj)); \
}
VOLATILELOAD(8)
#define VOLATILESTORE(size) \
void cds_volatile_store ## size (void * obj, uint ## size ## _t val, const char * position) { \
ensureModel(); \
- model->switch_to_master(new ModelAction(ATOMIC_WRITE, position, memory_order_relaxed, obj, (uint64_t) val)); \
+ model->switch_to_master(new ModelAction(ATOMIC_WRITE, position, memory_order_volatile_store, obj, (uint64_t) val)); \
*((volatile uint ## size ## _t *)obj) = val; \
thread_id_t tid = thread_current()->get_id(); \
for(int i=0;i < size / 8;i++) { \
*/
void cds_func_entry(const char * funcName) {
+#ifdef NEWFUZZER
ensureModel();
Thread * th = thread_current();
uint32_t func_id;
}
history->enter_function(func_id, th->get_id());
+#endif
}
void cds_func_exit(const char * funcName) {
+#ifdef NEWFUZZER
ensureModel();
Thread * th = thread_current();
return;
history->exit_function(func_id, th->get_id());
+#endif
}