-/* Copyright (c) 2011-2020. The SimGrid Team. All rights reserved. */
+/* Copyright (c) 2011-2021. The SimGrid Team. All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
* under the terms of the license (GNU LGPL) which comes with this package. */
#include "src/mc/checker/LivenessChecker.hpp"
-#include "src/mc/Session.hpp"
#include "src/mc/mc_config.hpp"
#include "src/mc/mc_exit.hpp"
#include "src/mc/mc_private.hpp"
#include "src/mc/mc_request.hpp"
#include "src/mc/mc_smx.hpp"
-#include "src/mc/mc_api.hpp"
#include <boost/range/algorithm.hpp>
#include <cstring>
XBT_LOG_NEW_DEFAULT_SUBCATEGORY(mc_liveness, mc, "Logging specific to algorithms for liveness properties verification");
-using mcapi = simgrid::mc::mc_api;
+using api = simgrid::mc::Api;
/********* Static functions *********/
this->graph_state = std::move(graph_state);
if (this->graph_state->system_state_ == nullptr)
this->graph_state->system_state_ = std::make_shared<Snapshot>(pair_num);
- this->heap_bytes_used = mcapi::get().get_remote_heap_bytes();
- this->actors_count = mcapi::get().get_actors_size();
+ this->heap_bytes_used = api::get().get_remote_heap_bytes();
+ this->actors_count = api::get().get_actors_size();
this->other_num = -1;
this->atomic_propositions = std::move(atomic_propositions);
}
case xbt_automaton_exp_label::AUT_NOT:
return not evaluate_label(l->u.exp_not, values);
case xbt_automaton_exp_label::AUT_PREDICAT:{
- auto cursor = mcapi::get().compare_automaton_exp_lable(l, values);
+ auto cursor = api::get().compare_automaton_exp_label(l);
if(cursor >= 0)
return values[cursor] != 0;
xbt_die("Missing predicate");
std::shared_ptr<const std::vector<int>> LivenessChecker::get_proposition_values() const
{
- auto values = mcapi::get().automaton_propositional_symbol_evaluate();
+ auto values = api::get().automaton_propositional_symbol_evaluate();
return std::make_shared<const std::vector<int>>(std::move(values));
}
auto new_pair =
std::make_shared<VisitedPair>(pair->num, pair->automaton_state, pair->atomic_propositions, pair->graph_state);
- auto res = boost::range::equal_range(acceptance_pairs_, new_pair.get(), mcapi::get().compare_pair());
+ auto res = boost::range::equal_range(acceptance_pairs_, new_pair.get(), api::get().compare_pair());
if (pair->search_cycle) for (auto i = res.first; i != res.second; ++i) {
std::shared_ptr<simgrid::mc::VisitedPair> const& pair_test = *i;
- if (mcapi::get().automaton_state_compare(pair_test->automaton_state, new_pair->automaton_state) != 0 ||
+ if (api::get().automaton_state_compare(pair_test->automaton_state, new_pair->automaton_state) != 0 ||
*(pair_test->atomic_propositions) != *(new_pair->atomic_propositions) ||
- not mcapi::get().snapshot_equal(pair_test->graph_state->system_state_.get(), new_pair->graph_state->system_state_.get()))
+ not api::get().snapshot_equal(pair_test->graph_state->system_state_.get(), new_pair->graph_state->system_state_.get()))
continue;
XBT_INFO("Pair %d already reached (equal to pair %d) !", new_pair->num, pair_test->num);
exploration_stack_.pop_back();
if(_sg_mc_checkpoint > 0) {
const Pair* pair = exploration_stack_.back().get();
if (pair->graph_state->system_state_) {
- mcapi::get().restore_state(pair->graph_state->system_state_);
+ api::get().restore_state(pair->graph_state->system_state_);
return;
}
}
/* Restore the initial state */
- mc::session->restore_initial_state();
+ api::get().restore_initial_state();
/* Traverse the stack from the initial state and re-execute the transitions */
int depth = 1;
std::shared_ptr<State> state = pair->graph_state;
if (pair->exploration_started) {
- int req_num = state->transition_.argument_;
+ int req_num = state->transition_.times_considered_;
const s_smx_simcall* saved_req = &state->executed_req_;
smx_simcall_t req = nullptr;
/* because we got a copy of the executed request, we have to fetch the
real one, pointed by the request field of the issuer process */
- const smx_actor_t issuer = mcapi::get().simcall_get_issuer(saved_req);
+ const smx_actor_t issuer = api::get().simcall_get_issuer(saved_req);
req = &issuer->simcall_;
/* Debug information */
XBT_DEBUG("Replay (depth = %d) : %s (%p)", depth,
- mcapi::get().request_to_string(req, req_num, simgrid::mc::RequestType::simix).c_str(), state.get());
+ api::get().request_to_string(req, req_num, simgrid::mc::RequestType::simix).c_str(), state.get());
- this->get_session().execute(state->transition_);
+ api::get().execute(state->transition_, req);
}
/* Update statistics */
visited_pairs_count_++;
- mc_model_checker->executed_transitions++;
+ api::get().mc_inc_executed_trans();
depth++;
}
visited_pair =
std::make_shared<VisitedPair>(pair->num, pair->automaton_state, pair->atomic_propositions, pair->graph_state);
- auto range = boost::range::equal_range(visited_pairs_, visited_pair.get(), mcapi::get().compare_pair());
+ auto range = boost::range::equal_range(visited_pairs_, visited_pair.get(), api::get().compare_pair());
for (auto i = range.first; i != range.second; ++i) {
const VisitedPair* pair_test = i->get();
- if (mcapi::get().automaton_state_compare(pair_test->automaton_state, visited_pair->automaton_state) != 0 ||
+ if (api::get().automaton_state_compare(pair_test->automaton_state, visited_pair->automaton_state) != 0 ||
*(pair_test->atomic_propositions) != *(visited_pair->atomic_propositions) ||
- not mcapi::get().snapshot_equal(pair_test->graph_state->system_state_.get(), visited_pair->graph_state->system_state_.get()))
+ not api::get().snapshot_equal(pair_test->graph_state->system_state_.get(), visited_pair->graph_state->system_state_.get()))
continue;
if (pair_test->other_num == -1)
visited_pair->other_num = pair_test->num;
}
}
-LivenessChecker::LivenessChecker(Session& s) : Checker(s)
+LivenessChecker::LivenessChecker() : Checker()
{
}
{
XBT_INFO("Expanded pairs = %lu", expanded_pairs_count_);
XBT_INFO("Visited pairs = %lu", visited_pairs_count_);
- XBT_INFO("Executed transitions = %lu", mcapi::get().mc_get_executed_trans());
+ XBT_INFO("Executed transitions = %lu", api::get().mc_get_executed_trans());
}
void LivenessChecker::show_acceptance_cycle(std::size_t depth)
XBT_INFO("Counter-example that violates formula:");
for (auto const& s : this->get_textual_trace())
XBT_INFO(" %s", s.c_str());
- mcapi::get().dump_record_path();
- mcapi::get().log_state();
+ api::get().dump_record_path();
+ api::get().log_state();
XBT_INFO("Counter-example depth: %zu", depth);
}
{
std::vector<std::string> trace;
for (std::shared_ptr<Pair> const& pair : exploration_stack_) {
- int req_num = pair->graph_state->transition_.argument_;
+ int req_num = pair->graph_state->transition_.times_considered_;
smx_simcall_t req = &pair->graph_state->executed_req_;
if (req->call_ != simix::Simcall::NONE)
- trace.push_back(mcapi::get().request_to_string(req, req_num, RequestType::executed));
+ trace.push_back(api::get().request_to_string(req, req_num, RequestType::executed));
}
return trace;
}
else
next_pair->depth = 1;
/* Get enabled actors and insert them in the interleave set of the next graph_state */
- auto actors = mcapi::get().get_actors();
+ auto actors = api::get().get_actors();
for (auto& actor : actors)
- if (mcapi::get().actor_is_enabled(actor.copy.get_buffer()->get_pid()))
- next_pair->graph_state->add_interleaving_set(actor.copy.get_buffer());
- next_pair->requests = next_pair->graph_state->interleave_size();
+ if (api::get().actor_is_enabled(actor.copy.get_buffer()->get_pid()))
+ next_pair->graph_state->mark_todo(actor.copy.get_buffer());
+ next_pair->requests = next_pair->graph_state->count_todo();
/* FIXME : get search_cycle value for each accepting state */
if (next_pair->automaton_state->type == 1 || (current_pair && current_pair->search_cycle))
next_pair->search_cycle = true;
void LivenessChecker::run()
{
XBT_INFO("Check the liveness property %s", _sg_mc_property_file.get().c_str());
- mcapi::get().automaton_load(_sg_mc_property_file.get().c_str());
+ api::get().automaton_load(_sg_mc_property_file.get().c_str());
XBT_DEBUG("Starting the liveness algorithm");
- mcapi::get().session_initialize();
+ api::get().session_initialize();
/* Initialize */
this->previous_pair_ = 0;
// For each initial state of the property automaton, push a
// (application_state, automaton_state) pair to the exploration stack:
- auto automaton_stack = mcapi::get().get_automaton_state();
- std::for_each(automaton_stack.begin(), automaton_stack.end(), [&](xbt_automaton_state_t const& automaton_state) {
+ auto automaton_stack = api::get().get_automaton_state();
+ for (auto* automaton_state : automaton_stack) {
if (automaton_state->type == -1)
exploration_stack_.push_back(this->create_pair(nullptr, automaton_state, propos));
- });
+ }
/* Actually run the double DFS search for counter-examples */
while (not exploration_stack_.empty()) {
std::shared_ptr<Pair> current_pair = exploration_stack_.back();
/* Update current state in buchi automaton */
- mcapi::get().set_property_automaton(current_pair->automaton_state);
+ api::get().set_property_automaton(current_pair->automaton_state);
XBT_DEBUG(
"********************* ( Depth = %d, search_cycle = %d, interleave size = %zu, pair_num = %d, requests = %d)",
- current_pair->depth, current_pair->search_cycle, current_pair->graph_state->interleave_size(),
- current_pair->num, current_pair->requests);
+ current_pair->depth, current_pair->search_cycle, current_pair->graph_state->count_todo(), current_pair->num,
+ current_pair->requests);
if (current_pair->requests == 0) {
this->backtrack();
}
}
- smx_simcall_t req = mcapi::get().mc_state_choose_request(current_pair->graph_state.get());
- int req_num = current_pair->graph_state->transition_.argument_;
+ smx_simcall_t req = api::get().mc_state_choose_request(current_pair->graph_state.get());
+ int req_num = current_pair->graph_state->transition_.times_considered_;
if (dot_output != nullptr) {
if (this->previous_pair_ != 0 && this->previous_pair_ != current_pair->num) {
this->previous_request_.clear();
}
this->previous_pair_ = current_pair->num;
- this->previous_request_ = mcapi::get().request_get_dot_output(req, req_num);
+ this->previous_request_ = api::get().request_get_dot_output(req, req_num);
if (current_pair->search_cycle)
fprintf(dot_output, "%d [shape=doublecircle];\n", current_pair->num);
fflush(dot_output);
}
- XBT_DEBUG("Execute: %s", mcapi::get().request_to_string(req, req_num, RequestType::simix).c_str());
+ XBT_DEBUG("Execute: %s", api::get().request_to_string(req, req_num, RequestType::simix).c_str());
/* Update stats */
- mcapi::get().mc_inc_executed_trans();
+ api::get().mc_inc_executed_trans();
if (not current_pair->exploration_started)
visited_pairs_count_++;
/* Answer the request */
- mcapi::get().handle_simcall(current_pair->graph_state->transition_);
+ api::get().handle_simcall(current_pair->graph_state->transition_);
/* Wait for requests (schedules processes) */
- mcapi::get().mc_wait_for_requests();
+ api::get().mc_wait_for_requests();
current_pair->requests--;
current_pair->exploration_started = true;
// For each enabled transition in the property automaton, push a
// (application_state, automaton_state) pair to the exploration stack:
- for (int i = mcapi::get().get_dynar_length(current_pair->automaton_state->out) - 1; i >= 0; i--) {
- auto transition_succ_label = mcapi::get().get_automaton_transition_label(current_pair->automaton_state->out, i);
- auto transition_succ_dst = mcapi::get().get_automaton_transition_dst(current_pair->automaton_state->out, i);
+ for (int i = api::get().get_dynar_length(current_pair->automaton_state->out) - 1; i >= 0; i--) {
+ auto transition_succ_label = api::get().get_automaton_transition_label(current_pair->automaton_state->out, i);
+ auto transition_succ_dst = api::get().get_automaton_transition_dst(current_pair->automaton_state->out, i);
if (evaluate_label(transition_succ_label, *prop_values))
exploration_stack_.push_back(this->create_pair(current_pair.get(), transition_succ_dst, prop_values));
}
}
XBT_INFO("No property violation found.");
- mcapi::get().log_state();
+ api::get().log_state();
}
-Checker* createLivenessChecker(Session& s)
+Checker* createLivenessChecker()
{
- return new LivenessChecker(s);
+ return new LivenessChecker();
}
} // namespace mc