static char *pointer_to_string(void *pointer);
static char *buff_size_to_string(size_t size);
-// Those are MC_state_get_internal_request(state)
-int MC_request_depend(smx_simcall_t r1, smx_simcall_t r2)
+static inline
+smx_synchro_t MC_get_comm(smx_simcall_t r)
{
- if (mc_reduce_kind == e_mc_reduce_none)
- return TRUE;
-
- if (r1->issuer == r2->issuer)
- return FALSE;
+ switch (r->call ) {
+ case SIMCALL_COMM_WAIT:
+ return simcall_comm_wait__get__comm(r);
+ case SIMCALL_COMM_TEST:
+ return simcall_comm_test__get__comm(r);
+ default:
+ return nullptr;
+ }
+}
- /* Wait with timeout transitions are not considered by the independance theorem, thus we consider them as dependant with all other transitions */
- if ((r1->call == SIMCALL_COMM_WAIT && simcall_comm_wait__get__timeout(r1) > 0)
- || (r2->call == SIMCALL_COMM_WAIT
- && simcall_comm_wait__get__timeout(r2) > 0))
- return TRUE;
+static inline
+smx_rdv_t MC_get_rdv(smx_simcall_t r)
+{
+ switch(r->call) {
+ case SIMCALL_COMM_ISEND:
+ return simcall_comm_isend__get__rdv(r);
+ case SIMCALL_COMM_IRECV:
+ return simcall_comm_irecv__get__rdv(r);
+ default:
+ return nullptr;
+ }
+}
+// Does half the job
+static inline
+int MC_request_depend_asymmetric(smx_simcall_t r1, smx_simcall_t r2)
+{
if (r1->call == SIMCALL_COMM_ISEND && r2->call == SIMCALL_COMM_IRECV)
return FALSE;
// Those are internal requests, we do not need indirection
// because those objects are copies:
- smx_synchro_t synchro1 = NULL, synchro2 = NULL;
- if (r1->call == SIMCALL_COMM_WAIT) {
- synchro1 = simcall_comm_wait__get__comm(r1);
- }
- if (r2->call == SIMCALL_COMM_WAIT) {
- synchro2 = simcall_comm_wait__get__comm(r2);
- }
- if (r1->call == SIMCALL_COMM_TEST) {
- synchro1 = simcall_comm_test__get__comm(r1);
- }
- if (r2->call == SIMCALL_COMM_TEST) {
- synchro2 = simcall_comm_test__get__comm(r2);
- }
+ smx_synchro_t synchro1 = MC_get_comm(r1);
+ smx_synchro_t synchro2 = MC_get_comm(r2);
if ((r1->call == SIMCALL_COMM_ISEND || r1->call == SIMCALL_COMM_IRECV)
&& r2->call == SIMCALL_COMM_WAIT) {
- smx_rdv_t rdv =
- r1->call ==
- SIMCALL_COMM_ISEND ? simcall_comm_isend__get__rdv(r1) :
- simcall_comm_irecv__get__rdv(r1);
+ smx_rdv_t rdv = MC_get_rdv(r1);
if (rdv != synchro2->comm.rdv_cpy
&& simcall_comm_wait__get__timeout(r2) <= 0)
return FALSE;
}
- if ((r2->call == SIMCALL_COMM_ISEND || r2->call == SIMCALL_COMM_IRECV)
- && r1->call == SIMCALL_COMM_WAIT) {
-
- smx_rdv_t rdv =
- r2->call ==
- SIMCALL_COMM_ISEND ? simcall_comm_isend__get__rdv(r2) :
- simcall_comm_irecv__get__rdv(r2);
-
- if (rdv != synchro1->comm.rdv_cpy
- && simcall_comm_wait__get__timeout(r1) <= 0)
- return FALSE;
-
- if ((r2->issuer != synchro1->comm.src_proc)
- && (r2->issuer != synchro1->comm.dst_proc)
- && simcall_comm_wait__get__timeout(r1) <= 0)
- return FALSE;
-
- if ((r2->call == SIMCALL_COMM_ISEND)
- && (synchro1->comm.type == SIMIX_COMM_SEND)
- && (synchro1->comm.src_buff !=
- simcall_comm_isend__get__src_buff(r2))
- && simcall_comm_wait__get__timeout(r1) <= 0)
- return FALSE;
-
- if ((r2->call == SIMCALL_COMM_IRECV)
- && (synchro1->comm.type == SIMIX_COMM_RECEIVE)
- && (synchro1->comm.dst_buff !=
- simcall_comm_irecv__get__dst_buff(r2))
- && simcall_comm_wait__get__timeout(r1) <= 0)
- return FALSE;
- }
-
/* FIXME: the following rule assumes that the result of the
* isend/irecv call is not stored in a buffer used in the
* test call. */
&& r2->call == SIMCALL_COMM_TEST)
return FALSE; */
- /* FIXME: the following rule assumes that the result of the
- * isend/irecv call is not stored in a buffer used in the
- * test call.*/
- /*if( (r2->call == SIMCALL_COMM_ISEND || r2->call == SIMCALL_COMM_IRECV)
- && r1->call == SIMCALL_COMM_TEST)
- return FALSE; */
-
- if (r1->call == SIMCALL_COMM_ISEND && r2->call == SIMCALL_COMM_ISEND
- && simcall_comm_isend__get__rdv(r1) != simcall_comm_isend__get__rdv(r2))
- return FALSE;
-
- if (r1->call == SIMCALL_COMM_IRECV && r2->call == SIMCALL_COMM_IRECV
- && simcall_comm_irecv__get__rdv(r1) != simcall_comm_irecv__get__rdv(r2))
- return FALSE;
-
if (r1->call == SIMCALL_COMM_WAIT
&& (r2->call == SIMCALL_COMM_WAIT || r2->call == SIMCALL_COMM_TEST)
&& (synchro1->comm.src_proc == NULL || synchro1->comm.dst_proc == NULL))
return FALSE;
- if (r2->call == SIMCALL_COMM_WAIT
- && (r1->call == SIMCALL_COMM_WAIT || r1->call == SIMCALL_COMM_TEST)
- && (synchro2->comm.src_proc == NULL || synchro2->comm.dst_proc == NULL))
- return FALSE;
-
- if (r1->call == SIMCALL_COMM_WAIT && r2->call == SIMCALL_COMM_WAIT
- && synchro1->comm.src_buff == synchro2->comm.src_buff
- && synchro2->comm.dst_buff == synchro2->comm.dst_buff)
- return FALSE;
-
- if (r1->call == SIMCALL_COMM_WAIT && r2->call == SIMCALL_COMM_WAIT
- && synchro1->comm.src_buff != NULL
- && synchro1->comm.dst_buff != NULL
- && synchro2->comm.src_buff != NULL
- && synchro2->comm.dst_buff != NULL
- && synchro1->comm.dst_buff != synchro2->comm.src_buff
- && synchro1->comm.dst_buff != synchro2->comm.dst_buff
- && synchro2->comm.dst_buff != synchro1->comm.src_buff)
- return FALSE;
-
if (r1->call == SIMCALL_COMM_TEST &&
(simcall_comm_test__get__comm(r1) == NULL
|| synchro1->comm.src_buff == NULL
|| synchro1->comm.dst_buff == NULL))
return FALSE;
- if (r2->call == SIMCALL_COMM_TEST &&
- (simcall_comm_test__get__comm(r2) == NULL
- || synchro2->comm.src_buff == NULL
- || synchro2->comm.dst_buff == NULL))
- return FALSE;
-
if (r1->call == SIMCALL_COMM_TEST && r2->call == SIMCALL_COMM_WAIT
&& synchro1->comm.src_buff == synchro2->comm.src_buff
&& synchro1->comm.dst_buff == synchro2->comm.dst_buff)
return FALSE;
- if (r1->call == SIMCALL_COMM_WAIT && r2->call == SIMCALL_COMM_TEST
- && synchro1->comm.src_buff == synchro2->comm.src_buff
- && synchro1->comm.dst_buff == synchro2->comm.dst_buff)
- return FALSE;
-
if (r1->call == SIMCALL_COMM_WAIT && r2->call == SIMCALL_COMM_TEST
&& synchro1->comm.src_buff != NULL
&& synchro1->comm.dst_buff != NULL
&& synchro2->comm.dst_buff != synchro1->comm.src_buff)
return FALSE;
- if (r1->call == SIMCALL_COMM_TEST && r2->call == SIMCALL_COMM_WAIT
- && synchro1->comm.src_buff != NULL
- && synchro1->comm.dst_buff != NULL
- && synchro2->comm.src_buff != NULL
- && synchro2->comm.dst_buff != NULL
- && synchro1->comm.dst_buff != synchro2->comm.src_buff
- && synchro1->comm.dst_buff != synchro2->comm.dst_buff
- && synchro2->comm.dst_buff != synchro1->comm.src_buff)
+ return TRUE;
+}
+
+// Those are MC_state_get_internal_request(state)
+int MC_request_depend(smx_simcall_t r1, smx_simcall_t r2)
+{
+ if (mc_reduce_kind == e_mc_reduce_none)
+ return TRUE;
+
+ if (r1->issuer == r2->issuer)
return FALSE;
- return TRUE;
+ /* Wait with timeout transitions are not considered by the independance theorem, thus we consider them as dependant with all other transitions */
+ if ((r1->call == SIMCALL_COMM_WAIT && simcall_comm_wait__get__timeout(r1) > 0)
+ || (r2->call == SIMCALL_COMM_WAIT
+ && simcall_comm_wait__get__timeout(r2) > 0))
+ return TRUE;
+
+ if (r1->call != r2->call)
+ return MC_request_depend_asymmetric(r1, r2)
+ && MC_request_depend_asymmetric(r2, r1);
+
+ // Those are internal requests, we do not need indirection
+ // because those objects are copies:
+ smx_synchro_t synchro1 = MC_get_comm(r1);
+ smx_synchro_t synchro2 = MC_get_comm(r2);
+
+ switch(r1->call) {
+ case SIMCALL_COMM_ISEND:
+ return simcall_comm_isend__get__rdv(r1) == simcall_comm_isend__get__rdv(r2);
+ case SIMCALL_COMM_IRECV:
+ return simcall_comm_irecv__get__rdv(r1) == simcall_comm_irecv__get__rdv(r2);
+ case SIMCALL_COMM_WAIT:
+ if (synchro1->comm.src_buff == synchro2->comm.src_buff
+ && synchro1->comm.dst_buff == synchro2->comm.dst_buff)
+ return FALSE;
+ else if (synchro1->comm.src_buff != NULL
+ && synchro1->comm.dst_buff != NULL
+ && synchro2->comm.src_buff != NULL
+ && synchro2->comm.dst_buff != NULL
+ && synchro1->comm.dst_buff != synchro2->comm.src_buff
+ && synchro1->comm.dst_buff != synchro2->comm.dst_buff
+ && synchro2->comm.dst_buff != synchro1->comm.src_buff)
+ return FALSE;
+ else
+ return TRUE;
+ default:
+ return TRUE;
+ }
}
static char *pointer_to_string(void *pointer)
}
break;
+ case SIMCALL_MUTEX_TRYLOCK:
case SIMCALL_MUTEX_LOCK: {
- type = "Mutex LOCK";
+ if (req->call == SIMCALL_MUTEX_LOCK)
+ type = "Mutex LOCK";
+ else
+ type = "Mutex TRYLOCK";
s_smx_mutex_t mutex;
mc_model_checker->process().read_bytes(&mutex, sizeof(mutex),
- remote(simcall_mutex_lock__get__mutex(req)));
+ remote(
+ req->call == SIMCALL_MUTEX_LOCK
+ ? simcall_mutex_lock__get__mutex(req)
+ : simcall_mutex_trylock__get__mutex(req)
+ ));
s_xbt_swag_t mutex_sleeping;
mc_model_checker->process().read_bytes(&mutex_sleeping, sizeof(mutex_sleeping),
remote(mutex.sleeping));
}
break;
+ case SIMCALL_MUTEX_TRYLOCK:
+ label = bprintf("[(%lu)] Mutex TRYLOCK", issuer->pid);
+ break;
+
case SIMCALL_MUTEX_LOCK:
label = bprintf("[(%lu)] Mutex LOCK", issuer->pid);
break;
