1 /* Copyright (c) 2007-2020. The SimGrid Team. All rights reserved. */
3 /* This program is free software; you can redistribute it and/or modify it
4 * under the terms of the license (GNU LGPL) which comes with this package. */
6 #include "src/kernel/activity/ExecImpl.hpp"
7 #include "simgrid/Exception.hpp"
8 #include "simgrid/modelchecker.h"
9 #include "src/mc/mc_replay.hpp"
10 #include "src/surf/HostImpl.hpp"
11 #include "src/surf/cpu_interface.hpp"
12 #include "src/surf/surf_interface.hpp"
14 #include "simgrid/s4u/Host.hpp"
16 #include <boost/range/algorithm.hpp>
18 XBT_LOG_EXTERNAL_DEFAULT_CATEGORY(simix_process);
20 void simcall_HANDLER_execution_waitany_for(smx_simcall_t simcall, simgrid::kernel::activity::ExecImpl* execs[],
21 size_t count, double timeout)
24 simcall->timeout_cb_ = nullptr;
26 simcall->timeout_cb_ = simgrid::simix::Timer::set(SIMIX_get_clock() + timeout, [simcall, execs, count]() {
27 simcall->timeout_cb_ = nullptr;
28 for (size_t i = 0; i < count; i++) {
29 // Remove the first occurrence of simcall:
30 auto* exec = execs[i];
31 auto j = boost::range::find(exec->simcalls_, simcall);
32 if (j != exec->simcalls_.end())
33 exec->simcalls_.erase(j);
35 simcall_execution_waitany_for__set__result(simcall, -1);
36 simcall->issuer_->simcall_answer();
40 for (size_t i = 0; i < count; i++) {
41 /* associate this simcall to the the synchro */
42 auto* exec = execs[i];
43 exec->simcalls_.push_back(simcall);
45 /* see if the synchro is already finished */
46 if (exec->state_ != simgrid::kernel::activity::State::WAITING &&
47 exec->state_ != simgrid::kernel::activity::State::RUNNING) {
60 actor::ActorImpl* self = actor::ActorImpl::self();
63 self->activities.push_back(this);
67 ExecImpl& ExecImpl::set_host(s4u::Host* host)
69 hosts_.assign(1, host);
73 ExecImpl& ExecImpl::set_hosts(const std::vector<s4u::Host*>& hosts)
79 ExecImpl& ExecImpl::set_timeout(double timeout)
81 if (timeout > 0 && not MC_is_active() && not MC_record_replay_is_active()) {
82 timeout_detector_.reset(hosts_.front()->pimpl_cpu->sleep(timeout));
83 timeout_detector_->set_activity(this);
88 ExecImpl& ExecImpl::set_flops_amount(double flops_amount)
90 flops_amounts_.assign(1, flops_amount);
94 ExecImpl& ExecImpl::set_flops_amounts(const std::vector<double>& flops_amounts)
96 flops_amounts_ = flops_amounts;
100 ExecImpl& ExecImpl::set_bytes_amounts(const std::vector<double>& bytes_amounts)
102 bytes_amounts_ = bytes_amounts;
107 ExecImpl* ExecImpl::start()
109 state_ = State::RUNNING;
110 if (not MC_is_active() && not MC_record_replay_is_active()) {
111 if (hosts_.size() == 1) {
112 surf_action_ = hosts_.front()->pimpl_cpu->execution_start(flops_amounts_.front());
113 surf_action_->set_sharing_penalty(sharing_penalty_);
114 surf_action_->set_category(get_tracing_category());
117 surf_action_->set_bound(bound_);
119 surf_action_ = surf_host_model->execute_parallel(hosts_, flops_amounts_.data(), bytes_amounts_.data(), -1);
121 surf_action_->set_activity(this);
124 XBT_DEBUG("Create execute synchro %p: %s", this, get_cname());
128 double ExecImpl::get_seq_remaining_ratio()
130 return (surf_action_ == nullptr) ? 0 : surf_action_->get_remains() / surf_action_->get_cost();
133 double ExecImpl::get_par_remaining_ratio()
135 // parallel task: their remain is already between 0 and 1
136 return (surf_action_ == nullptr) ? 0 : surf_action_->get_remains();
139 ExecImpl& ExecImpl::set_bound(double bound)
145 ExecImpl& ExecImpl::set_sharing_penalty(double sharing_penalty)
147 sharing_penalty_ = sharing_penalty;
151 void ExecImpl::post()
153 if (hosts_.size() == 1 && not hosts_.front()->is_on()) { /* FIXME: handle resource failure for parallel tasks too */
154 /* If the host running the synchro failed, notice it. This way, the asking
155 * process can be killed if it runs on that host itself */
156 state_ = State::FAILED;
157 } else if (surf_action_ && surf_action_->get_state() == resource::Action::State::FAILED) {
158 /* If the host running the synchro didn't fail, then the synchro was canceled */
159 state_ = State::CANCELED;
160 } else if (timeout_detector_ && timeout_detector_->get_state() == resource::Action::State::FINISHED) {
161 state_ = State::TIMEOUT;
163 state_ = State::DONE;
167 timeout_detector_.reset();
169 actor_->activities.remove(this);
172 /* Answer all simcalls associated with the synchro */
176 void ExecImpl::finish()
178 while (not simcalls_.empty()) {
179 smx_simcall_t simcall = simcalls_.front();
180 simcalls_.pop_front();
182 /* If a waitany simcall is waiting for this synchro to finish, then remove it from the other synchros in the waitany
183 * list. Afterwards, get the position of the actual synchro in the waitany list and return it as the result of the
186 if (simcall->call_ == SIMCALL_NONE) // FIXME: maybe a better way to handle this case
187 continue; // if process handling comm is killed
188 if (simcall->call_ == SIMCALL_EXECUTION_WAITANY_FOR) {
189 simgrid::kernel::activity::ExecImpl** execs = simcall_execution_waitany_for__get__execs(simcall);
190 size_t count = simcall_execution_waitany_for__get__count(simcall);
192 for (size_t i = 0; i < count; i++) {
193 // Remove the first occurrence of simcall:
194 auto* exec = execs[i];
195 auto j = boost::range::find(exec->simcalls_, simcall);
196 if (j != exec->simcalls_.end())
197 exec->simcalls_.erase(j);
199 if (simcall->timeout_cb_) {
200 simcall->timeout_cb_->remove();
201 simcall->timeout_cb_ = nullptr;
205 if (not MC_is_active() && not MC_record_replay_is_active()) {
206 ExecImpl** element = std::find(execs, execs + count, this);
207 int rank = (element != execs + count) ? element - execs : -1;
208 simcall_execution_waitany_for__set__result(simcall, rank);
214 /* do nothing, synchro done */
215 XBT_DEBUG("ExecImpl::finish(): execution successful");
219 XBT_DEBUG("ExecImpl::finish(): host '%s' failed", simcall->issuer_->get_host()->get_cname());
220 simcall->issuer_->context_->set_wannadie();
221 if (simcall->issuer_->get_host()->is_on())
222 simcall->issuer_->exception_ =
223 std::make_exception_ptr(simgrid::HostFailureException(XBT_THROW_POINT, "Host failed"));
224 /* else, the actor will be killed with no possibility to survive */
227 case State::CANCELED:
228 XBT_DEBUG("ExecImpl::finish(): execution canceled");
229 simcall->issuer_->exception_ =
230 std::make_exception_ptr(simgrid::CancelException(XBT_THROW_POINT, "Execution Canceled"));
234 XBT_DEBUG("ExecImpl::finish(): execution timeouted");
235 simcall->issuer_->exception_ = std::make_exception_ptr(simgrid::TimeoutException(XBT_THROW_POINT, "Timeouted"));
239 xbt_die("Internal error in ExecImpl::finish(): unexpected synchro state %d", static_cast<int>(state_));
242 simcall->issuer_->waiting_synchro = nullptr;
243 /* Fail the process if the host is down */
244 if (simcall->issuer_->get_host()->is_on())
245 simcall->issuer_->simcall_answer();
247 simcall->issuer_->context_->set_wannadie();
251 ActivityImpl* ExecImpl::migrate(s4u::Host* to)
253 if (not MC_is_active() && not MC_record_replay_is_active()) {
254 resource::Action* old_action = this->surf_action_;
255 resource::Action* new_action = to->pimpl_cpu->execution_start(old_action->get_cost());
256 new_action->set_remains(old_action->get_remains());
257 new_action->set_activity(this);
258 new_action->set_sharing_penalty(old_action->get_sharing_penalty());
260 // FIXME: the user-defined bound seem to not be kept by LMM, that seem to overwrite it for the multi-core modeling.
261 // I hope that the user did not provide any.
263 old_action->set_activity(nullptr);
264 old_action->cancel();
266 this->surf_action_ = new_action;
269 on_migration(*this, to);
276 xbt::signal<void(ExecImpl const&, s4u::Host*)> ExecImpl::on_migration;
278 } // namespace activity
279 } // namespace kernel
280 } // namespace simgrid