#include "action.h"
#include "common.h"
#include "model.h"
+#include "threads-model.h"
/**
* @brief Node constructor
may_read_from(),
read_from_index(0),
future_values(),
- future_index(-1)
+ future_index(-1),
+ relseq_break_writes(),
+ relseq_break_index(0),
+ misc_index(0),
+ misc_max(0)
{
if (act) {
act->set_node(this);
if (prevfi) {
*fi=*prevfi;
}
- if (parent->enabled_array[i]) {
+ if (parent->is_enabled(int_to_id(i))) {
fi->enabled_count++;
}
if (i==currtid) {
}
//Do window processing
if (prevfairness != NULL) {
- if (prevfairness -> parent->enabled_array[i])
+ if (prevfairness -> parent->is_enabled(int_to_id(i)))
fi->enabled_count--;
if (i==prevtid) {
fi->turns--;
* Sets a promise to explore meeting with the given node.
* @param i is the promise index.
*/
-void Node::set_promise(unsigned int i) {
+void Node::set_promise(unsigned int i, bool is_rmw) {
if (i >= promises.size())
promises.resize(i + 1, PROMISE_IGNORE);
- if (promises[i] == PROMISE_IGNORE)
+ if (promises[i] == PROMISE_IGNORE) {
promises[i] = PROMISE_UNFULFILLED;
+ if (is_rmw)
+ promises[i] |= PROMISE_RMW;
+ }
}
/**
* @return true if the promise should be satisfied by the given model action.
*/
bool Node::get_promise(unsigned int i) {
- return (i < promises.size()) && (promises[i] == PROMISE_FULFILLED);
+ return (i < promises.size()) && ((promises[i] & PROMISE_MASK) == PROMISE_FULFILLED);
}
/**
*/
bool Node::increment_promise() {
DBG();
-
+ unsigned int rmw_count=0;
+ for (unsigned int i = 0; i < promises.size(); i++) {
+ if (promises[i]==(PROMISE_RMW|PROMISE_FULFILLED))
+ rmw_count++;
+ }
+
for (unsigned int i = 0; i < promises.size(); i++) {
- if (promises[i] == PROMISE_UNFULFILLED) {
- promises[i] = PROMISE_FULFILLED;
+ if ((promises[i] & PROMISE_MASK) == PROMISE_UNFULFILLED) {
+ if ((rmw_count > 0) && (promises[i] & PROMISE_RMW)) {
+ //sending our value to two rmws... not going to work..try next combination
+ continue;
+ }
+ promises[i] = (promises[i] & PROMISE_RMW) |PROMISE_FULFILLED;
while (i > 0) {
i--;
- if (promises[i] == PROMISE_FULFILLED)
- promises[i] = PROMISE_UNFULFILLED;
+ if ((promises[i] & PROMISE_MASK) == PROMISE_FULFILLED)
+ promises[i] = (promises[i] & PROMISE_RMW) | PROMISE_UNFULFILLED;
}
return true;
+ } else if (promises[i] == (PROMISE_RMW|PROMISE_FULFILLED)) {
+ rmw_count--;
}
}
return false;
* @return true if we have explored all promise combinations.
*/
bool Node::promise_empty() {
- for (unsigned int i = 0; i < promises.size();i++)
- if (promises[i] == PROMISE_UNFULFILLED)
+ bool fulfilledrmw=false;
+ for (int i = promises.size()-1 ; i>=0; i--) {
+ if (promises[i]==PROMISE_UNFULFILLED)
+ return false;
+ if (!fulfilledrmw && ((promises[i]&PROMISE_MASK)==PROMISE_UNFULFILLED))
return false;
+ if (promises[i]==(PROMISE_FULFILLED|PROMISE_RMW))
+ fulfilledrmw=true;
+ }
return true;
}
+
+void Node::set_misc_max(int i) {
+ misc_max=i;
+}
+
+int Node::get_misc() {
+ return misc_index;
+}
+
+bool Node::increment_misc() {
+ return (misc_index<misc_max)&&((++misc_index)<misc_max);
+}
+
+bool Node::misc_empty() {
+ return (misc_index+1)>=misc_max;
+}
+
+
/**
- * Adds a value from a weakly ordered future write to backtrack to.
+ * Adds a value from a weakly ordered future write to backtrack to. This
+ * operation may "fail" if the future value has already been run (within some
+ * sloppiness window of this expiration), or if the futurevalues set has
+ * reached its maximum.
+ * @see model_params.maxfuturevalues
+ *
* @param value is the value to backtrack to.
+ * @return True if the future value was successully added; false otherwise
*/
bool Node::add_future_value(uint64_t value, modelclock_t expiration) {
- int suitableindex=-1;
+ int idx = -1; /* Highest index where value is found */
for (unsigned int i = 0; i < future_values.size(); i++) {
if (future_values[i].value == value) {
- if (future_values[i].expiration>=expiration)
+ if (expiration <= future_values[i].expiration)
return false;
- if (future_index < ((int) i)) {
- suitableindex=i;
- }
+ idx = i;
}
}
-
- if (suitableindex!=-1) {
- future_values[suitableindex].expiration=expiration;
+ if (idx > future_index) {
+ /* Future value hasn't been explored; update expiration */
+ future_values[idx].expiration = expiration;
return true;
+ } else if (idx >= 0 && expiration <= future_values[idx].expiration + model->params.expireslop) {
+ /* Future value has been explored and is within the "sloppy" window */
+ return false;
}
- struct future_value newfv={value, expiration};
+
+ /* Limit the size of the future-values set */
+ if (model->params.maxfuturevalues > 0 &&
+ (int)future_values.size() >= model->params.maxfuturevalues)
+ return false;
+
+ struct future_value newfv = {value, expiration};
future_values.push_back(newfv);
return true;
}
* Mark the appropriate backtracking information for exploring a thread choice.
* @param act The ModelAction to explore
*/
-void Node::explore_child(ModelAction *act, bool * is_enabled)
+void Node::explore_child(ModelAction *act, enabled_type_t * is_enabled)
{
if ( ! enabled_array )
- enabled_array=(bool *)model_malloc(sizeof(bool)*num_threads);
+ enabled_array=(enabled_type_t *)model_malloc(sizeof(enabled_type_t)*num_threads);
if (is_enabled != NULL)
- memcpy(enabled_array, is_enabled, sizeof(bool)*num_threads);
+ memcpy(enabled_array, is_enabled, sizeof(enabled_type_t)*num_threads);
else {
for(int i=0;i<num_threads;i++)
- enabled_array[i]=false;
+ enabled_array[i]=THREAD_DISABLED;
}
explore(act->get_tid());
bool Node::set_backtrack(thread_id_t id)
{
int i = id_to_int(id);
+ ASSERT(i<((int)backtrack.size()));
if (backtrack[i])
return false;
backtrack[i] = true;
bool Node::is_enabled(Thread *t)
{
int thread_id=id_to_int(t->get_id());
- return thread_id < num_threads && enabled_array[thread_id];
+ return thread_id < num_threads && (enabled_array[thread_id] != THREAD_DISABLED);
+}
+
+enabled_type_t Node::enabled_status(thread_id_t tid) {
+ int thread_id=id_to_int(tid);
+ if (thread_id < num_threads)
+ return enabled_array[thread_id];
+ else
+ return THREAD_DISABLED;
}
bool Node::is_enabled(thread_id_t tid)
{
int thread_id=id_to_int(tid);
- return thread_id < num_threads && enabled_array[thread_id];
+ return thread_id < num_threads && (enabled_array[thread_id] != THREAD_DISABLED);
}
bool Node::has_priority(thread_id_t tid)
* @return The first element in future_values
*/
uint64_t Node::get_future_value() {
- ASSERT(future_index<((int)future_values.size()));
+ ASSERT(future_index >= 0 && future_index<((int)future_values.size()));
return future_values[future_index].value;
}
modelclock_t Node::get_future_value_expiration() {
- ASSERT(future_index<((int)future_values.size()));
+ ASSERT(future_index >= 0 && future_index<((int)future_values.size()));
return future_values[future_index].expiration;
}
return false;
}
+/**
+ * Add a write ModelAction to the set of writes that may break the release
+ * sequence. This is used during replay exploration of pending release
+ * sequences. This Node must correspond to a release sequence fixup action.
+ *
+ * @param write The write that may break the release sequence. NULL means we
+ * allow the release sequence to synchronize.
+ */
+void Node::add_relseq_break(const ModelAction *write)
+{
+ relseq_break_writes.push_back(write);
+}
+
+/**
+ * Get the write that may break the current pending release sequence,
+ * according to the replay / divergence pattern.
+ *
+ * @return A write that may break the release sequence. If NULL, that means
+ * the release sequence should not be broken.
+ */
+const ModelAction * Node::get_relseq_break()
+{
+ if (relseq_break_index < (int)relseq_break_writes.size())
+ return relseq_break_writes[relseq_break_index];
+ else
+ return NULL;
+}
+
+/**
+ * Increments the index into the relseq_break_writes set to explore the next
+ * item.
+ * @return Returns false if we have explored all values.
+ */
+bool Node::increment_relseq_break()
+{
+ DBG();
+ promises.clear();
+ if (relseq_break_index < ((int)relseq_break_writes.size())) {
+ relseq_break_index++;
+ return (relseq_break_index < ((int)relseq_break_writes.size()));
+ }
+ return false;
+}
+
+/**
+ * @return True if all writes that may break the release sequence have been
+ * explored
+ */
+bool Node::relseq_break_empty() {
+ return ((relseq_break_index + 1) >= ((int)relseq_break_writes.size()));
+}
+
void Node::explore(thread_id_t tid)
{
int i = id_to_int(tid);
+ ASSERT(i<((int)backtrack.size()));
if (backtrack[i]) {
backtrack[i] = false;
numBacktracks--;
explored_children[i] = true;
}
-NodeStack::NodeStack()
- : total_nodes(0)
+NodeStack::NodeStack() :
+ node_list(1, new Node()),
+ iter(0),
+ total_nodes(0)
{
- node_list.push_back(new Node());
total_nodes++;
- iter = 0;
}
NodeStack::~NodeStack()
{
+ for (unsigned int i = 0; i < node_list.size(); i++)
+ delete node_list[i];
}
void NodeStack::print()
/** Note: The is_enabled set contains what actions were enabled when
* act was chosen. */
-ModelAction * NodeStack::explore_action(ModelAction *act, bool * is_enabled)
+ModelAction * NodeStack::explore_action(ModelAction *act, enabled_type_t * is_enabled)
{
DBG();