#include "action.h"
#include "execution.h"
#include "funcnode.h"
+#include "schedule.h"
NewFuzzer::NewFuzzer() :
thrd_last_read_act(),
thrd_curr_pred(),
- thrd_selected_child_branch()
+ thrd_selected_child_branch(),
+ thrd_pruned_writes(),
+ paused_thread_set()
{}
/**
int NewFuzzer::selectWrite(ModelAction *read, SnapVector<ModelAction *> * rf_set)
{
- int random_index = random() % rf_set->size();
+// return random() % rf_set->size();
thread_id_t tid = read->get_tid();
int thread_id = id_to_int(tid);
SnapVector<func_id_list_t> * thrd_func_list = execution->get_thrd_func_list();
uint32_t func_id = (*thrd_func_list)[thread_id].back();
-
FuncNode * func_node = history->get_func_node(func_id);
- FuncInst * read_inst = func_node->get_inst(read);
+ inst_act_map_t * inst_act_map = func_node->get_inst_act_map(tid);
Predicate * curr_pred = func_node->get_predicate_tree_position(tid);
- selectBranch(thread_id, curr_pred, read_inst);
- }
+ FuncInst * read_inst = func_node->get_inst(read);
- Predicate * selected_branch = thrd_selected_child_branch[thread_id];
- if (selected_branch == NULL)
- return random_index;
+ Predicate * selected_branch = selectBranch(tid, curr_pred, read_inst);
+ prune_writes(tid, selected_branch, rf_set, inst_act_map);
+ }
- FuncInst * read_inst = selected_branch->get_func_inst();
- PredExprSet * pred_expressions = selected_branch->get_pred_expressions();
+ // No write satisfies the selected predicate
+ if ( rf_set->size() == 0 ) {
+ Thread * read_thread = execution->get_thread(tid);
+ model_print("the %d read action of thread %d is unsuccessful\n", read->get_seq_number(), read_thread->get_id());
- model_print("thread %d ", tid);
- read_inst->print();
+ // reset thread pending action and revert sequence numbers
+ read_thread->set_pending(read);
+ read->reset_seq_number();
+ execution->restore_last_seq_num();
- // unset predicates
- if (pred_expressions->getSize() == 0)
- return random_index;
+ conditional_sleep(read_thread);
+ return -1;
/*
- PredExprSetIter * pred_expr_it = pred_expressions->iterator();
- while (pred_expr_it->hasNext()) {
- struct pred_expr * expression = pred_expr_it->next();
-
- switch(expression->token) {
- case NOPREDICATE:
- read_inst->print();
- read->print();
- model_print("no predicate\n");
- return random_index;
- case EQUALITY:
- model_print("equality predicate, under construction\n");
- break;
- case NULLITY:
- model_print("nullity predicate, under construction\n");
- break;
- default:
- model_print("unknown predicate token\n");
- break;
- }
- }
+ SnapVector<ModelAction *> * pruned_writes = thrd_pruned_writes[thread_id];
+ for (uint i = 0; i < pruned_writes->size(); i++)
+ rf_set->push_back( (*pruned_writes)[i] );
+ pruned_writes->clear();
*/
+ }
+
+ ASSERT(rf_set->size() != 0);
+ int random_index = random() % rf_set->size();
+
return random_index;
}
-void NewFuzzer::selectBranch(int thread_id, Predicate * curr_pred, FuncInst * read_inst)
+/* Select a random branch from the children of curr_pred
+ * @return The selected branch
+ */
+Predicate * NewFuzzer::selectBranch(thread_id_t tid, Predicate * curr_pred, FuncInst * read_inst)
{
+ int thread_id = id_to_int(tid);
if ( thrd_selected_child_branch.size() <= (uint) thread_id)
thrd_selected_child_branch.resize(thread_id + 1);
- if (read_inst == NULL) {
+ if (curr_pred == NULL || read_inst == NULL) {
thrd_selected_child_branch[thread_id] = NULL;
- return;
+ return NULL;
}
ModelVector<Predicate *> * children = curr_pred->get_children();
// predicate children have not been generated
if (branches.size() == 0) {
thrd_selected_child_branch[thread_id] = NULL;
- return;
+ return NULL;
}
// randomly select a branch
int random_index = random() % branches.size();
Predicate * random_branch = branches[ random_index ];
thrd_selected_child_branch[thread_id] = random_branch;
+
+ return random_branch;
+}
+
+Predicate * NewFuzzer::get_selected_child_branch(thread_id_t tid)
+{
+ int thread_id = id_to_int(tid);
+ if (thrd_selected_child_branch.size() <= (uint) thread_id)
+ return NULL;
+
+ return thrd_selected_child_branch[thread_id];
+}
+
+/* Remove writes from the rf_set that do not satisfie the selected predicate,
+ * and store them in thrd_pruned_writes
+ *
+ * @return true if rf_set is pruned
+ */
+bool NewFuzzer::prune_writes(thread_id_t tid, Predicate * pred,
+ SnapVector<ModelAction *> * rf_set, inst_act_map_t * inst_act_map)
+{
+ if (pred == NULL)
+ return false;
+
+ PredExprSet * pred_expressions = pred->get_pred_expressions();
+ if (pred_expressions->getSize() == 0) // unset predicates
+ return false;
+
+ int thread_id = id_to_int(tid);
+ uint old_size = thrd_pruned_writes.size();
+ if (thrd_pruned_writes.size() <= (uint) thread_id) {
+ uint new_size = thread_id + 1;
+ thrd_pruned_writes.resize(new_size);
+ for (uint i = old_size; i < new_size; i++)
+ thrd_pruned_writes[i] = new SnapVector<ModelAction *>();
+ }
+ SnapVector<ModelAction *> * pruned_writes = thrd_pruned_writes[thread_id];
+ pruned_writes->clear(); // clear the old pruned_writes set
+
+ bool pruned = false;
+ uint index = 0;
+ SnapVector<struct concrete_pred_expr> concrete_exprs = pred->evaluate(inst_act_map);
+
+ while ( index < rf_set->size() ) {
+ ModelAction * write_act = (*rf_set)[index];
+ uint64_t write_val = write_act->get_write_value();
+ bool satisfy_predicate = true;
+
+ for (uint i = 0; i < concrete_exprs.size(); i++) {
+ struct concrete_pred_expr concrete = concrete_exprs[i];
+ bool equality;
+
+ switch (concrete.token) {
+ case NOPREDICATE:
+ return false;
+ case EQUALITY:
+ equality = (write_val == concrete.value);
+ if (equality != concrete.equality)
+ satisfy_predicate = false;
+ break;
+ case NULLITY:
+ equality = ((void*)write_val == NULL);
+ if (equality != concrete.equality)
+ satisfy_predicate = false;
+ break;
+ default:
+ model_print("unknown predicate token\n");
+ break;
+ }
+
+ if (!satisfy_predicate)
+ break;
+ }
+
+ if (!satisfy_predicate) {
+ ASSERT(rf_set != NULL);
+ (*rf_set)[index] = rf_set->back();
+ rf_set->pop_back();
+ pruned_writes->push_back(write_act);
+ pruned = true;
+ } else
+ index++;
+ }
+
+ return pruned;
+}
+
+/* @brief Put a thread to sleep because no writes in rf_set satisfies the selected predicate.
+ *
+ * @param thread A thread whose last action is a read
+ */
+void NewFuzzer::conditional_sleep(Thread * thread)
+{
+ model->getScheduler()->add_sleep(thread);
+ paused_thread_set.push_back(thread);
+}
+
+bool NewFuzzer::has_paused_threads()
+{
+ return paused_thread_set.size() != 0;
+}
+
+Thread * NewFuzzer::selectThread(int * threadlist, int numthreads)
+{
+ if (numthreads == 0 && has_paused_threads()) {
+ wake_up_paused_threads(threadlist, &numthreads);
+ model_print("list size: %d\n", numthreads);
+ model_print("active t id: %d\n", threadlist[0]);
+ }
+
+ int random_index = random() % numthreads;
+ int thread = threadlist[random_index];
+ thread_id_t curr_tid = int_to_id(thread);
+ return model->get_thread(curr_tid);
+}
+
+/* Force waking up one of threads paused by Fuzzer */
+void NewFuzzer::wake_up_paused_threads(int * threadlist, int * numthreads)
+{
+ int random_index = random() % paused_thread_set.size();
+ Thread * thread = paused_thread_set[random_index];
+ model->getScheduler()->remove_sleep(thread);
+
+ paused_thread_set[random_index] = paused_thread_set.back();
+ paused_thread_set.pop_back();
+
+ model_print("thread %d is woken up\n", thread->get_id());
+ threadlist[*numthreads] = thread->get_id();
+ (*numthreads)++;
+}
+
+/* Notify one of conditional sleeping threads if the desired write is available */
+bool NewFuzzer::notify_conditional_sleep(Thread * thread)
+{
+
+}
+
+bool NewFuzzer::shouldWait(const ModelAction * act)
+{
+ return random() & 1;
}