// <----- send ACTORS_STATUS_REPLY
// <----- send `N` `s_mc_message_actors_status_one_t` structs
// <----- send `M` `s_mc_message_simcall_probe_one_t` structs
- s_mc_message_t msg;
- memset(&msg, 0, sizeof msg);
- msg.type = simgrid::mc::MessageType::ACTORS_STATUS;
- model_checker_->channel().send(msg);
+ model_checker_->channel().send(MessageType::ACTORS_STATUS);
s_mc_message_actors_status_answer_t answer;
ssize_t received = model_checker_->channel().receive(answer);
to_c_str(answer.type), (int)answer.type, (int)received, (int)MessageType::ACTORS_STATUS_REPLY,
(int)sizeof(answer));
+ // Message sanity checks
+ xbt_assert(answer.count >= 0, "Received an ACTOR_STATUS_REPLY message with an actor count of '%d' < 0", answer.count);
+ xbt_assert(answer.transition_count >= 0, "Received an ACTOR_STATUS_REPLY message with transition_count '%d' < 0",
+ answer.transition_count);
+ xbt_assert(answer.transition_count == 0 || answer.count >= 0,
+ "Received an ACTOR_STATUS_REPLY message with no actor data "
+ "but with transition data nonetheless");
+
std::vector<s_mc_message_actors_status_one_t> status(answer.count);
if (answer.count > 0) {
- size_t size = status.size() * sizeof(s_mc_message_actors_status_one_t);
- received = model_checker_->channel().receive(status.data(), size);
- xbt_assert(static_cast<size_t>(received) == size);
- }
-
- std::vector<s_mc_message_simcall_probe_one_t> action_pool(answer.transition_count);
- if (answer.transition_count > 0) {
- size_t size = action_pool.size() * sizeof(s_mc_message_simcall_probe_one_t);
- received = model_checker_->channel().receive(action_pool.data(), size);
+ size_t size = status.size() * sizeof(s_mc_message_actors_status_one_t);
+ ssize_t received = model_checker_->channel().receive(status.data(), size);
xbt_assert(static_cast<size_t>(received) == size);
}
- // Ensures that each actor sends precisely `actor.max_considered` transitions. While technically
+ // Ensures that each actor sends precisely `answer.transition_count` transitions. While technically
// this doesn't catch the edge case where actor A sends 3 instead of 2 and actor B sends 2 instead
// of 3 transitions, that is ignored here since that invariant needs to be enforced on the AppSide
const auto expected_transitions = std::accumulate(
status.begin(), status.end(), 0, [](int total, const auto& actor) { return total + actor.n_transitions; });
- xbt_assert(expected_transitions == action_pool.size(),
- "Expected to receive %d transition(s) but was only notified of %lu by the app side", expected_transitions,
- action_pool.size());
+ xbt_assert(expected_transitions == answer.transition_count,
+ "Expected to receive %d transition(s) but was only notified of %d by the app side", expected_transitions,
+ answer.transition_count);
+
+ std::vector<s_mc_message_simcall_probe_one_t> probes(answer.transition_count);
+ if (answer.transition_count > 0) {
+ for (auto& probe : probes) {
+ size_t size = sizeof(s_mc_message_simcall_probe_one_t);
+ ssize_t received = model_checker_->channel().receive(&probe, size);
+ xbt_assert(received >= 0, "Could not receive response to ACTORS_PROBE message (%s)", strerror(errno));
+ xbt_assert(static_cast<size_t>(received) == size,
+ "Could not receive response to ACTORS_PROBE message (%zd bytes received != %zu bytes expected",
+ received, size);
+ }
+ }
whereto.clear();
- auto action_pool_iter = std::move_iterator(action_pool.begin());
+ auto probes_iter = std::move_iterator(probes.begin());
for (const auto& actor : status) {
xbt_assert(actor.n_transitions == 0 || actor.n_transitions == actor.max_considered,
"(currently %d), but only %d transition(s) was/were said to be encoded",
actor.max_considered, actor.n_transitions);
- auto actor_transitions = std::vector<std::unique_ptr<Transition>>(actor.n_transitions);
- for (int times_considered = 0; times_considered < actor.n_transitions; times_considered++, action_pool_iter++) {
- std::stringstream stream((*action_pool_iter).buffer.data());
- auto transition = std::unique_ptr<Transition>(deserialize_transition(actor.aid, times_considered, stream));
+ auto actor_transitions = std::vector<std::shared_ptr<Transition>>(actor.n_transitions);
+ for (int times_considered = 0; times_considered < actor.n_transitions; times_considered++, probes_iter++) {
+ std::stringstream stream((*probes_iter).buffer.data());
+ auto transition = std::shared_ptr<Transition>(deserialize_transition(actor.aid, times_considered, stream));
actor_transitions[times_considered] = std::move(transition);
}