-/* Copyright (c) 2016-2022. The SimGrid Team. All rights reserved. */
+/* Copyright (c) 2016-2023. 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/explo/UdporChecker.hpp"
+#include "src/mc/api/State.hpp"
+#include "src/mc/explo/udpor/Comb.hpp"
+#include "src/mc/explo/udpor/ExtensionSetCalculator.hpp"
+#include "src/mc/explo/udpor/History.hpp"
+#include "src/mc/explo/udpor/maximal_subsets_iterator.hpp"
+
+#include <xbt/asserts.h>
#include <xbt/log.h>
+#include <xbt/string.hpp>
-XBT_LOG_NEW_DEFAULT_SUBCATEGORY(mc_udpor, mc, "Logging specific to MC safety verification ");
+XBT_LOG_NEW_DEFAULT_SUBCATEGORY(mc_udpor, mc, "Logging specific to verification using UDPOR");
-namespace simgrid::mc {
+namespace simgrid::mc::udpor {
+
+UdporChecker::UdporChecker(const std::vector<char*>& args) : Exploration(args, true) {}
+
+void UdporChecker::run()
+{
+ XBT_INFO("Starting a UDPOR exploration");
+ state_stack.clear();
+ state_stack.push_back(get_current_state());
+ explore(Configuration(), EventSet(), EventSet(), EventSet());
+ XBT_INFO("UDPOR exploration terminated -- model checking completed");
+}
+
+void UdporChecker::explore(const Configuration& C, EventSet D, EventSet A, EventSet prev_exC)
+{
+ auto& stateC = *state_stack.back();
+ auto exC = compute_exC(C, stateC, prev_exC);
+ const auto enC = compute_enC(C, exC);
+
+ // If enC is a subset of D, intuitively
+ // there aren't any enabled transitions
+ // which are "worth" exploring since their
+ // exploration would lead to a so-called
+ // "sleep-set blocked" trace.
+ if (enC.is_subset_of(D)) {
+ if (not C.get_events().empty()) {
+ // Report information...
+ }
+
+ // When `en(C)` is empty, intuitively this means that there
+ // are no enabled transitions that can be executed from the
+ // state reached by `C` (denoted `state(C)`), i.e. by some
+ // execution of the transitions in C obeying the causality
+ // relation. Here, then, we may be in a deadlock (the other
+ // possibility is that we've finished running everything, and
+ // we wouldn't be in deadlock then)
+ if (enC.empty()) {
+ get_remote_app().check_deadlock();
+ }
+
+ return;
+ }
+
+ // TODO: Add verbose logging about which event is being explored
+
+ const UnfoldingEvent* e = select_next_unfolding_event(A, enC);
+ xbt_assert(e != nullptr, "\n\n****** INVARIANT VIOLATION ******\n"
+ "UDPOR guarantees that an event will be chosen at each point in\n"
+ "the search, yet no events were actually chosen\n"
+ "*********************************\n\n");
+ // Ce := C + {e}
+ Configuration Ce = C;
+ Ce.add_event(e);
+
+ A.remove(e);
+ exC.remove(e);
+
+ // Explore(C + {e}, D, A \ {e})
+
+ // Move the application into stateCe (i.e. `state(C + {e})`) and make note of that state
+ move_to_stateCe(stateC, *e);
+ state_stack.push_back(record_current_state());
+
+ explore(Ce, D, std::move(A), std::move(exC));
+
+ // Prepare to move the application back one state.
+ // We need only remove the state from the stack here: if we perform
+ // another `Explore()` after computing an alternative, at that
+ // point we'll actually create a fresh RemoteProcess
+ state_stack.pop_back();
+
+ // D <-- D + {e}
+ D.insert(e);
+
+ constexpr unsigned K = 10;
+ if (auto J = C.compute_k_partial_alternative_to(D, this->unfolding, K); J.has_value()) {
+ // Before searching the "right half", we need to make
+ // sure the program actually reflects the fact
+ // that we are searching again from `state(C)`. While the
+ // stack of states is properly adjusted to represent
+ // `state(C)` all together, the RemoteApp is currently sitting
+ // at some *future* state with resepct to `state(C)` since the
+ // recursive calls have moved it there.
+ restore_program_state_with_current_stack();
+
+ // Explore(C, D + {e}, J \ C)
+ auto J_minus_C = J.value().get_events().subtracting(C.get_events());
+ explore(C, D, std::move(J_minus_C), std::move(prev_exC));
+ }
+
+ // D <-- D - {e}
+ D.remove(e);
+
+ // Remove(e, C, D)
+ clean_up_explore(e, C, D);
+}
+
+EventSet UdporChecker::compute_exC(const Configuration& C, const State& stateC, const EventSet& prev_exC)
+{
+ // See eqs. 5.7 of section 5.2 of [3]
+ // C = C' + {e_cur}, i.e. C' = C - {e_cur}
+ //
+ // Then
+ //
+ // ex(C) = ex(C' + {e_cur}) = ex(C') / {e_cur} +
+ // U{<a, K> : K is maximal, `a` depends on all of K, `a` enabled at config(K) }
+ const UnfoldingEvent* e_cur = C.get_latest_event();
+ EventSet exC = prev_exC;
+ exC.remove(e_cur);
+
+ for (const auto& [aid, actor_state] : stateC.get_actors_list()) {
+ for (const auto& transition : actor_state.get_enabled_transitions()) {
+ EventSet extension = ExtensionSetCalculator::partially_extend(C, &unfolding, transition);
+ exC.form_union(extension);
+ }
+ }
+ return exC;
+}
+
+EventSet UdporChecker::compute_enC(const Configuration& C, const EventSet& exC) const
+{
+ EventSet enC;
+ for (const auto e : exC) {
+ if (not e->conflicts_with(C)) {
+ enC.insert(e);
+ }
+ }
+ return enC;
+}
+
+void UdporChecker::move_to_stateCe(State& state, const UnfoldingEvent& e)
+{
+ const aid_t next_actor = e.get_transition()->aid_;
+
+ // TODO: Add the trace if possible for reporting a bug
+ xbt_assert(next_actor >= 0, "\n\n****** INVARIANT VIOLATION ******\n"
+ "In reaching this execution path, UDPOR ensures that at least one\n"
+ "one transition of the state of an visited event is enabled, yet no\n"
+ "state was actually enabled. Please report this as a bug.\n"
+ "*********************************\n\n");
+ state.execute_next(next_actor, get_remote_app());
+}
-UdporChecker::UdporChecker(Session* session) : Exploration(session) {}
+void UdporChecker::restore_program_state_with_current_stack()
+{
+ get_remote_app().restore_initial_state();
-void UdporChecker::run() {}
+ /* Traverse the stack from the state at position start and re-execute the transitions */
+ for (const std::unique_ptr<State>& state : state_stack) {
+ if (state == state_stack.back()) /* If we are arrived on the target state, don't replay the outgoing transition */
+ break;
+ state->get_transition()->replay(get_remote_app());
+ }
+}
+
+std::unique_ptr<State> UdporChecker::record_current_state()
+{
+ auto next_state = this->get_current_state();
+
+ // In UDPOR, we care about all enabled transitions in a given state
+ next_state->consider_all();
+
+ return next_state;
+}
+
+const UnfoldingEvent* UdporChecker::select_next_unfolding_event(const EventSet& A, const EventSet& enC)
+{
+ if (enC.empty()) {
+ throw std::invalid_argument("There are no unfolding events to select. "
+ "Are you sure that you checked that en(C) was not "
+ "empty before attempting to select an event from it?");
+ }
+
+ if (A.empty()) {
+ return *(enC.begin());
+ }
+
+ for (const auto& event : A) {
+ if (enC.contains(event)) {
+ return event;
+ }
+ }
+ return nullptr;
+}
+
+void UdporChecker::clean_up_explore(const UnfoldingEvent* e, const Configuration& C, const EventSet& D)
+{
+ const EventSet C_union_D = C.get_events().make_union(D);
+ const EventSet es_immediate_conflicts = this->unfolding.get_immediate_conflicts_of(e);
+ const EventSet Q_CDU = C_union_D.make_union(es_immediate_conflicts.get_local_config());
+
+ // Move {e} \ Q_CDU from U to G
+ if (Q_CDU.contains(e)) {
+ this->unfolding.remove(e);
+ }
+
+ // foreach ê in #ⁱ_U(e)
+ for (const auto* e_hat : es_immediate_conflicts) {
+ // Move [ê] \ Q_CDU from U to G
+ const EventSet to_remove = e_hat->get_history().subtracting(Q_CDU);
+ this->unfolding.remove(to_remove);
+ }
+}
RecordTrace UdporChecker::get_record_trace()
{
RecordTrace res;
+ for (auto const& state : state_stack)
+ res.push_back(state->get_transition());
return res;
}
std::vector<std::string> UdporChecker::get_textual_trace()
{
std::vector<std::string> trace;
+ for (auto const& state : state_stack) {
+ const auto* t = state->get_transition();
+ trace.push_back(xbt::string_printf("%ld: %s", t->aid_, t->to_string().c_str()));
+ }
return trace;
}
-void UdporChecker::log_state() {}
+} // namespace simgrid::mc::udpor
+
+namespace simgrid::mc {
-Exploration* create_udpor_checker(Session* session)
+Exploration* create_udpor_checker(const std::vector<char*>& args)
{
- return new UdporChecker(session);
+ return new simgrid::mc::udpor::UdporChecker(args);
}
} // namespace simgrid::mc