#include "datarace.h"
#include "threads-model.h"
#include "bugmessage.h"
+#include "history.h"
#include "fuzzer.h"
+#include "newfuzzer.h"
#define INITIAL_THREAD_ID 0
thrd_last_action(1),
thrd_last_fence_release(),
priv(new struct model_snapshot_members ()),
- mo_graph(new CycleGraph()),
- fuzzer(new Fuzzer())
+ mo_graph(new CycleGraph()),
+ fuzzer(new NewFuzzer()),
+ thrd_func_list(),
+ thrd_func_act_lists(),
+ isfinished(false)
{
/* Initialize a model-checker thread, for special ModelActions */
model_thread = new Thread(get_next_id());
add_thread(model_thread);
scheduler->register_engine(this);
+ fuzzer->register_engine(m->get_history(), this);
}
/** @brief Destructor */
if (fence_release && *(get_last_action(thread->get_id())) < *fence_release)
return true;
}
+ if (asleep->is_sleep()) {
+ if (fuzzer->shouldWake(asleep))
+ return true;
+ }
+
return false;
}
return priv->bugs.size() != 0;
}
+/** @return True, if any fatal bugs have been reported for this execution.
+ * Any bug other than a data race is considered a fatal bug. Data races
+ * are not considered fatal unless the number of races is exceeds
+ * a threshold (temporarily set as 15).
+ */
+bool ModelExecution::have_fatal_bug_reports() const
+{
+ return priv->bugs.size() != 0;
+}
+
SnapVector<bug_message *> * ModelExecution::get_bugs() const
{
return &priv->bugs;
return true;
}
+ModelAction * ModelExecution::convertNonAtomicStore(void * location) {
+ uint64_t value = *((const uint64_t *) location);
+ modelclock_t storeclock;
+ thread_id_t storethread;
+ getStoreThreadAndClock(location, &storethread, &storeclock);
+ setAtomicStoreFlag(location);
+ ModelAction * act = new ModelAction(NONATOMIC_WRITE, memory_order_relaxed, location, value, get_thread(storethread));
+ act->set_seq_number(storeclock);
+ add_normal_write_to_lists(act);
+ add_write_to_lists(act);
+ w_modification_order(act);
+ model->get_history()->process_action(act, act->get_tid());
+ return act;
+}
/**
* Processes a read model action.
void ModelExecution::process_read(ModelAction *curr, SnapVector<ModelAction *> * rf_set)
{
SnapVector<const ModelAction *> * priorset = new SnapVector<const ModelAction *>();
- while(true) {
+ bool hasnonatomicstore = hasNonAtomicStore(curr->get_location());
+ if (hasnonatomicstore) {
+ ModelAction * nonatomicstore = convertNonAtomicStore(curr->get_location());
+ rf_set->push_back(nonatomicstore);
+ }
+ while(true) {
int index = fuzzer->selectWrite(curr, rf_set);
ModelAction *rf = (*rf_set)[index];
-
ASSERT(rf);
bool canprune = false;
if (r_modification_order(curr, rf, priorset, &canprune)) {
}
//otherwise fall into the lock case
case ATOMIC_LOCK: {
- if (curr->get_cv()->getClock(state->alloc_tid) <= state->alloc_clock)
- assert_bug("Lock access before initialization");
+ //TODO: FIND SOME BETTER WAY TO CHECK LOCK INITIALIZED OR NOT
+ //if (curr->get_cv()->getClock(state->alloc_tid) <= state->alloc_clock)
+ // assert_bug("Lock access before initialization");
state->locked = get_thread(curr);
ModelAction *unlock = get_last_unlock(curr);
//synchronize with the previous unlock statement
case ATOMIC_NOTIFY_ALL: {
action_list_t *waiters = get_safe_ptr_action(&condvar_waiters_map, curr->get_location());
//activate all the waiting threads
- for (action_list_t::iterator rit = waiters->begin();rit != waiters->end();rit++) {
- scheduler->wake(get_thread(*rit));
+ for (sllnode<ModelAction *> * rit = waiters->begin();rit != NULL;rit=rit->getNext()) {
+ scheduler->wake(get_thread(rit->getVal()));
}
waiters->clear();
break;
*/
void ModelExecution::process_write(ModelAction *curr)
{
-
w_modification_order(curr);
-
-
get_thread(curr)->set_return_value(VALUE_NONE);
}
bool updated = false;
if (curr->is_acquire()) {
action_list_t *list = &action_trace;
- action_list_t::reverse_iterator rit;
+ sllnode<ModelAction *> * rit;
/* Find X : is_read(X) && X --sb-> curr */
- for (rit = list->rbegin();rit != list->rend();rit++) {
- ModelAction *act = *rit;
+ for (rit = list->end();rit != NULL;rit=rit->getPrev()) {
+ ModelAction *act = rit->getVal();
if (act == curr)
continue;
if (act->get_tid() != curr->get_tid())
continue;
/* Establish hypothetical release sequences */
- ClockVector *cv = get_hb_from_write(act);
- if (curr->get_cv()->merge(cv))
+ ClockVector *cv = get_hb_from_write(act->get_reads_from());
+ if (cv != NULL && curr->get_cv()->merge(cv))
updated = true;
}
}
* @param curr The current action
* @return True if synchronization was updated or a thread completed
*/
-bool ModelExecution::process_thread_action(ModelAction *curr)
+void ModelExecution::process_thread_action(ModelAction *curr)
{
- bool updated = false;
-
switch (curr->get_type()) {
case THREAD_CREATE: {
thrd_t *thrd = (thrd_t *)curr->get_location();
Thread *blocking = curr->get_thread_operand();
ModelAction *act = get_last_action(blocking->get_id());
synchronize(act, curr);
- updated = true; /* trigger rel-seq checks */
break;
}
case PTHREAD_JOIN: {
Thread *blocking = curr->get_thread_operand();
ModelAction *act = get_last_action(blocking->get_id());
synchronize(act, curr);
- updated = true; /* trigger rel-seq checks */
break; // WL: to be add (modified)
}
+ case THREADONLY_FINISH:
case THREAD_FINISH: {
Thread *th = get_thread(curr);
+ if (curr->get_type() == THREAD_FINISH &&
+ th == model->getInitThread()) {
+ th->complete();
+ setFinished();
+ break;
+ }
+
/* Wake up any joining threads */
for (unsigned int i = 0;i < get_num_threads();i++) {
Thread *waiting = get_thread(int_to_id(i));
scheduler->wake(waiting);
}
th->complete();
- updated = true; /* trigger rel-seq checks */
break;
}
case THREAD_START: {
default:
break;
}
-
- return updated;
}
/**
if (!blocking->is_complete()) {
return false;
}
+ } else if (curr->is_sleep()) {
+ if (!fuzzer->shouldSleep(curr))
+ return false;
}
return true;
/* Iterate over actions in thread, starting from most recent */
action_list_t *list = &(*thrd_lists)[tid];
- action_list_t::reverse_iterator rit;
- for (rit = list->rbegin();rit != list->rend();rit++) {
- ModelAction *act = *rit;
+ sllnode<ModelAction *> * rit;
+ for (rit = list->end();rit != NULL;rit=rit->getPrev()) {
+ ModelAction *act = rit->getVal();
/* Skip curr */
if (act == curr)
if (act->happens_before(curr)) {
if (i==0) {
if (last_sc_fence_local == NULL ||
- (*last_sc_fence_local < *prev_same_thread)) {
+ (*last_sc_fence_local < *act)) {
prev_same_thread = act;
}
}
unsigned int i;
ASSERT(curr->is_write());
+ SnapList<ModelAction *> edgeset;
+
if (curr->is_seqcst()) {
/* We have to at least see the last sequentially consistent write,
so we are initialized. */
ModelAction *last_seq_cst = get_last_seq_cst_write(curr);
if (last_seq_cst != NULL) {
- mo_graph->addEdge(last_seq_cst, curr);
+ edgeset.push_back(last_seq_cst);
}
+ //update map for next query
+ obj_last_sc_map.put(curr->get_location(), curr);
}
/* Last SC fence in the current thread */
/* Iterate over actions in thread, starting from most recent */
action_list_t *list = &(*thrd_lists)[i];
- action_list_t::reverse_iterator rit;
- bool force_edge = false;
- for (rit = list->rbegin();rit != list->rend();rit++) {
- ModelAction *act = *rit;
+ sllnode<ModelAction*>* rit;
+ for (rit = list->end();rit != NULL;rit=rit->getPrev()) {
+ ModelAction *act = rit->getVal();
if (act == curr) {
/*
* 1) If RMW and it actually read from something, then we
* 3) If normal write, we need to look at earlier actions, so
* continue processing list.
*/
- force_edge = true;
if (curr->is_rmw()) {
if (curr->get_reads_from() != NULL)
break;
/* C++, Section 29.3 statement 7 */
if (last_sc_fence_thread_before && act->is_write() &&
*act < *last_sc_fence_thread_before) {
- mo_graph->addEdge(act, curr, force_edge);
+ edgeset.push_back(act);
break;
}
* readfrom(act) --mo--> act
*/
if (act->is_write())
- mo_graph->addEdge(act, curr, force_edge);
+ edgeset.push_back(act);
else if (act->is_read()) {
//if previous read accessed a null, just keep going
- mo_graph->addEdge(act->get_reads_from(), curr, force_edge);
+ edgeset.push_back(act->get_reads_from());
}
break;
}
}
}
+ mo_graph->addEdges(&edgeset, curr);
+
}
/**
/* Iterate over actions in thread, starting from most recent */
action_list_t *list = &(*thrd_lists)[i];
- action_list_t::reverse_iterator rit;
- for (rit = list->rbegin();rit != list->rend();rit++) {
- ModelAction *act = *rit;
+ sllnode<ModelAction *>* rit;
+ for (rit = list->end();rit != NULL;rit=rit->getPrev()) {
+ ModelAction *act = rit->getVal();
/* Don't disallow due to act == reader */
if (!reader->happens_before(act) || reader == act)
uninit_id = id_to_int(uninit->get_tid());
list->push_front(uninit);
SnapVector<action_list_t> *vec = get_safe_ptr_vect_action(&obj_wr_thrd_map, act->get_location());
- if (uninit_id >= (int)vec->size())
+ if (uninit_id >= (int)vec->size()) {
+ int oldsize = (int) vec->size();
vec->resize(uninit_id + 1);
+ for(int i=oldsize;i<uninit_id+1;i++) {
+ new(&(*vec)[i]) action_list_t();
+ }
+ }
(*vec)[uninit_id].push_front(uninit);
}
list->push_back(act);
// Update obj_thrd_map, a per location, per thread, order of actions
SnapVector<action_list_t> *vec = get_safe_ptr_vect_action(&obj_thrd_map, act->get_location());
- if (tid >= (int)vec->size())
+ if (tid >= (int)vec->size()) {
+ uint oldsize =vec->size();
vec->resize(priv->next_thread_id);
+ for(uint i=oldsize;i<priv->next_thread_id;i++)
+ new (&(*vec)[i]) action_list_t();
+ }
(*vec)[tid].push_back(act);
if (uninit)
(*vec)[uninit_id].push_front(uninit);
get_safe_ptr_action(&obj_map, mutex_loc)->push_back(act);
SnapVector<action_list_t> *vec = get_safe_ptr_vect_action(&obj_thrd_map, mutex_loc);
- if (tid >= (int)vec->size())
+ if (tid >= (int)vec->size()) {
+ uint oldsize = vec->size();
vec->resize(priv->next_thread_id);
+ for(uint i=oldsize;i<priv->next_thread_id;i++)
+ new (&(*vec)[i]) action_list_t();
+ }
(*vec)[tid].push_back(act);
}
}
-void ModelExecution::add_write_to_lists(ModelAction *write) {
- // Update seq_cst map
- if (write->is_seqcst())
- obj_last_sc_map.put(write->get_location(), write);
+void insertIntoActionList(action_list_t *list, ModelAction *act) {
+ sllnode<ModelAction*> * rit = list->end();
+ modelclock_t next_seq = act->get_seq_number();
+ if (rit == NULL || (rit->getVal()->get_seq_number() == next_seq))
+ list->push_back(act);
+ else {
+ for(;rit != NULL;rit=rit->getPrev()) {
+ if (rit->getVal()->get_seq_number() == next_seq) {
+ list->insertAfter(rit, act);
+ break;
+ }
+ }
+ }
+}
+void insertIntoActionListAndSetCV(action_list_t *list, ModelAction *act) {
+ sllnode<ModelAction*> * rit = list->end();
+ modelclock_t next_seq = act->get_seq_number();
+ if (rit == NULL) {
+ act->create_cv(NULL);
+ } else if (rit->getVal()->get_seq_number() == next_seq) {
+ act->create_cv(rit->getVal());
+ list->push_back(act);
+ } else {
+ for(;rit != NULL;rit=rit->getPrev()) {
+ if (rit->getVal()->get_seq_number() == next_seq) {
+ act->create_cv(rit->getVal());
+ list->insertAfter(rit, act);
+ break;
+ }
+ }
+ }
+}
+
+/**
+ * Performs various bookkeeping operations for a normal write. The
+ * complication is that we are typically inserting a normal write
+ * lazily, so we need to insert it into the middle of lists.
+ *
+ * @param act is the ModelAction to add.
+ */
+
+void ModelExecution::add_normal_write_to_lists(ModelAction *act)
+{
+ int tid = id_to_int(act->get_tid());
+ insertIntoActionListAndSetCV(&action_trace, act);
+
+ action_list_t *list = get_safe_ptr_action(&obj_map, act->get_location());
+ insertIntoActionList(list, act);
+
+ // Update obj_thrd_map, a per location, per thread, order of actions
+ SnapVector<action_list_t> *vec = get_safe_ptr_vect_action(&obj_thrd_map, act->get_location());
+ if (tid >= (int)vec->size()) {
+ uint oldsize =vec->size();
+ vec->resize(priv->next_thread_id);
+ for(uint i=oldsize;i<priv->next_thread_id;i++)
+ new (&(*vec)[i]) action_list_t();
+ }
+ insertIntoActionList(&(*vec)[tid],act);
+
+ // Update thrd_last_action, the last action taken by each thrad
+ if (thrd_last_action[tid]->get_seq_number() == act->get_seq_number())
+ thrd_last_action[tid] = act;
+}
+
+
+void ModelExecution::add_write_to_lists(ModelAction *write) {
SnapVector<action_list_t> *vec = get_safe_ptr_vect_action(&obj_wr_thrd_map, write->get_location());
int tid = id_to_int(write->get_tid());
- if (tid >= (int)vec->size())
+ if (tid >= (int)vec->size()) {
+ uint oldsize =vec->size();
vec->resize(priv->next_thread_id);
+ for(uint i=oldsize;i<priv->next_thread_id;i++)
+ new (&(*vec)[i]) action_list_t();
+ }
(*vec)[tid].push_back(write);
}
if (!list)
return NULL;
- action_list_t::reverse_iterator rit = list->rbegin();
+ sllnode<ModelAction*>* rit = list->end();
if (before_fence) {
- for (;rit != list->rend();rit++)
- if (*rit == before_fence)
+ for (;rit != NULL;rit=rit->getPrev())
+ if (rit->getVal() == before_fence)
break;
- ASSERT(*rit == before_fence);
- rit++;
+ ASSERT(rit->getVal() == before_fence);
+ rit=rit->getPrev();
}
- for (;rit != list->rend();rit++)
- if ((*rit)->is_fence() && (tid == (*rit)->get_tid()) && (*rit)->is_seqcst())
- return *rit;
+ for (;rit != NULL;rit=rit->getPrev()) {
+ ModelAction *act = rit->getVal();
+ if (act->is_fence() && (tid == act->get_tid()) && act->is_seqcst())
+ return act;
+ }
return NULL;
}
action_list_t *list = obj_map.get(location);
/* Find: max({i in dom(S) | isUnlock(t_i) && samevar(t_i, t)}) */
- action_list_t::reverse_iterator rit;
- for (rit = list->rbegin();rit != list->rend();rit++)
- if ((*rit)->is_unlock() || (*rit)->is_wait())
- return *rit;
+ sllnode<ModelAction*>* rit;
+ for (rit = list->end();rit != NULL;rit=rit->getPrev())
+ if (rit->getVal()->is_unlock() || rit->getVal()->is_wait())
+ return rit->getVal();
return NULL;
}
for (i = 0;i < thrd_lists->size();i++) {
/* Iterate over actions in thread, starting from most recent */
action_list_t *list = &(*thrd_lists)[i];
- action_list_t::reverse_iterator rit;
- for (rit = list->rbegin();rit != list->rend();rit++) {
- ModelAction *act = *rit;
+ sllnode<ModelAction *> * rit;
+ for (rit = list->end();rit != NULL;rit=rit->getPrev()) {
+ ModelAction *act = rit->getVal();
if (act == curr)
continue;
return act;
}
-static void print_list(const action_list_t *list)
+static void print_list(action_list_t *list)
{
- action_list_t::const_iterator it;
+ sllnode<ModelAction*> *it;
model_print("------------------------------------------------------------------------------------\n");
model_print("# t Action type MO Location Value Rf CV\n");
unsigned int hash = 0;
- for (it = list->begin();it != list->end();it++) {
- const ModelAction *act = *it;
+ for (it = list->begin();it != NULL;it=it->getNext()) {
+ const ModelAction *act = it->getVal();
if (act->get_seq_number() > 0)
act->print();
- hash = hash^(hash<<3)^((*it)->hash());
+ hash = hash^(hash<<3)^(it->getVal()->hash());
}
model_print("HASH %u\n", hash);
model_print("------------------------------------------------------------------------------------\n");
}
#if SUPPORT_MOD_ORDER_DUMP
-void ModelExecution::dumpGraph(char *filename) const
+void ModelExecution::dumpGraph(char *filename)
{
char buffer[200];
sprintf(buffer, "%s.dot", filename);
mo_graph->dumpNodes(file);
ModelAction **thread_array = (ModelAction **)model_calloc(1, sizeof(ModelAction *) * get_num_threads());
- for (action_list_t::const_iterator it = action_trace.begin();it != action_trace.end();it++) {
- ModelAction *act = *it;
+ for (sllnode<ModelAction*>* it = action_trace.begin();it != NULL;it=it->getNext()) {
+ ModelAction *act = it->getVal();
if (act->is_read()) {
mo_graph->dot_print_node(file, act);
mo_graph->dot_print_edge(file,
#endif
/** @brief Prints an execution trace summary. */
-void ModelExecution::print_summary() const
+void ModelExecution::print_summary()
{
#if SUPPORT_MOD_ORDER_DUMP
char buffername[100];
curr = check_current_action(curr);
ASSERT(curr);
+ /* Process this action in ModelHistory for records */
+ model->get_history()->process_action( curr, curr->get_tid() );
+
if (curr_thrd->is_blocked() || curr_thrd->is_complete())
scheduler->remove_thread(curr_thrd);