90ab7a89fc
* Fix sampling counter time scales - All perfetto trace events have "begin_ns" and "end_ns" debug fields - data for thread start and end timestamp in pthread_create_gotcha - discard samples outside of thread start and end timestamps - rename "CPU User CPU Time" perfetto counter to "CPU User Time" - rename "CPU Kernel CPU Time" perfetto counter to "CPU Kernel Time" - ensure CPU system samples in perfetto are set to zero at end - backtrace uses comp::wall_clock record() for timestamps (consistency) - "Peak Memory Usage [Thread X] (S)" renamed to "Thread Peak Memory Usage [X] (S)" - "Context Switches [Thread X] (S)" renamed to "Thread Context Switches Usage [X] (S)" - "Page Faults [Thread X] (S)" renamed to "Thread Page Faults Usage [X] (S)" - "<PAPI_DESC> [Thread X] (S)" renamed to "Thread <PAPI_DESC> [X] (S)" - samples * Fix includes
314 строки
10 KiB
C++
314 строки
10 KiB
C++
// MIT License
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//
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// Copyright (c) 2022 Advanced Micro Devices, Inc. All Rights Reserved.
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//
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// Permission is hereby granted, free of charge, to any person obtaining a copy
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// of this software and associated documentation files (the "Software"), to deal
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// in the Software without restriction, including without limitation the rights
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// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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// copies of the Software, and to permit persons to whom the Software is
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// furnished to do so, subject to the following conditions:
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//
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// The above copyright notice and this permission notice shall be included in all
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// copies or substantial portions of the Software.
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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// SOFTWARE.
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#include "library/components/pthread_create_gotcha.hpp"
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#include "library/components/omnitrace.hpp"
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#include "library/components/pthread_gotcha.hpp"
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#include "library/components/roctracer.hpp"
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#include "library/config.hpp"
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#include "library/debug.hpp"
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#include "library/runtime.hpp"
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#include "library/sampling.hpp"
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#include "library/thread_data.hpp"
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#include "timemory/components/timing/wall_clock.hpp"
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#include <bits/stdint-intn.h>
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#include <timemory/backends/threading.hpp>
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#include <timemory/sampling/allocator.hpp>
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#include <timemory/utility/types.hpp>
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#include <ostream>
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#include <pthread.h>
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namespace omnitrace
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{
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namespace sampling
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{
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std::set<int>
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setup();
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std::set<int>
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shutdown();
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} // namespace sampling
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namespace mpl = tim::mpl;
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using bundle_t = tim::lightweight_tuple<comp::wall_clock, comp::roctracer_data>;
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using wall_pw_t = mpl::piecewise_select<comp::wall_clock>; // only wall-clock
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using main_pw_t = mpl::piecewise_ignore<comp::wall_clock>; // exclude wall-clock
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namespace
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{
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auto* is_shutdown = new bool{ false }; // intentional data leak
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auto* bundles = new std::map<int64_t, std::shared_ptr<bundle_t>>{};
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auto* bundles_mutex = new std::mutex{};
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auto bundles_dtor = scope::destructor{ []() {
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omnitrace::pthread_create_gotcha::shutdown();
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delete bundles;
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delete bundles_mutex;
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bundles = nullptr;
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bundles_mutex = nullptr;
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} };
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inline void
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start_bundle(bundle_t& _bundle)
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{
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if(!get_use_timemory()) return;
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OMNITRACE_BASIC_VERBOSE_F(3, "starting bundle '%s'...\n", _bundle.key().c_str());
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_bundle.push();
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_bundle.start();
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}
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inline void
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stop_bundle(bundle_t& _bundle, int64_t _tid)
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{
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if(!get_use_timemory()) return;
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OMNITRACE_BASIC_VERBOSE_F(3, "stopping bundle '%s' in thread %li...\n",
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_bundle.key().c_str(), _tid);
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_bundle.stop(wall_pw_t{}); // stop wall-clock so we can get the value
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// update roctracer_data
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_bundle.store(std::plus<double>{},
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_bundle.get<comp::wall_clock>()->get() * units::sec);
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// stop all other components including roctracer_data after update
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_bundle.stop(main_pw_t{});
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// exclude popping wall-clock
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_bundle.pop(_tid);
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}
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} // namespace
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//--------------------------------------------------------------------------------------//
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pthread_create_gotcha::wrapper::wrapper(routine_t _routine, void* _arg,
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bool _enable_sampling, int64_t _parent,
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promise_t* _p)
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: m_enable_sampling{ _enable_sampling }
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, m_parent_tid{ _parent }
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, m_routine{ _routine }
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, m_arg{ _arg }
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, m_promise{ _p }
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{}
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void*
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pthread_create_gotcha::wrapper::operator()() const
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{
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if(is_shutdown && *is_shutdown)
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{
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if(m_promise) m_promise->set_value();
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// execute the original function
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return m_routine(m_arg);
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}
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set_thread_state(ThreadState::Internal);
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int64_t _tid = -1;
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auto _is_sampling = false;
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auto _bundle = std::shared_ptr<bundle_t>{};
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auto _signals = std::set<int>{};
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auto _coverage = (get_mode() == omnitrace::Mode::Coverage);
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auto _dtor = scope::destructor{ [&]() {
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set_thread_state(ThreadState::Internal);
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if(_is_sampling)
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{
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sampling::block_signals(_signals);
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sampling::shutdown();
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}
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if(_tid >= 0)
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{
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get_execution_time(_tid)->second = comp::wall_clock::record();
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pthread_create_gotcha::shutdown(_tid);
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}
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set_thread_state(ThreadState::Completed);
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} };
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auto _active = (get_state() == omnitrace::State::Active && bundles != nullptr &&
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bundles_mutex != nullptr);
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if(_active && !_coverage)
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{
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_tid = threading::get_id();
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threading::set_thread_name(TIMEMORY_JOIN(" ", "Thread", _tid).c_str());
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if(bundles && bundles_mutex)
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{
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std::unique_lock<std::mutex> _lk{ *bundles_mutex };
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_bundle = bundles->emplace(_tid, std::make_shared<bundle_t>("start_thread"))
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.first->second;
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}
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if(_bundle) start_bundle(*_bundle);
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get_execution_time(_tid)->first = comp::wall_clock::record();
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get_cpu_cid_stack(_tid, m_parent_tid);
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if(m_enable_sampling)
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{
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// initialize thread-local statics
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(void) tim::get_unw_backtrace<12, 1, false>();
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_is_sampling = true;
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pthread_gotcha::push_enable_sampling_on_child_threads(false);
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_signals = sampling::setup();
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pthread_gotcha::pop_enable_sampling_on_child_threads();
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sampling::unblock_signals();
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}
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}
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if(m_promise) m_promise->set_value();
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set_thread_state(ThreadState::Enabled);
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// execute the original function
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return m_routine(m_arg);
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}
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void*
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pthread_create_gotcha::wrapper::wrap(void* _arg)
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{
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if(_arg == nullptr) return nullptr;
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// convert the argument
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wrapper* _wrapper = static_cast<wrapper*>(_arg);
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// execute the original function
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return (*_wrapper)();
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}
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void
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pthread_create_gotcha::configure()
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{
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pthread_create_gotcha_t::get_initializer() = []() {
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pthread_create_gotcha_t::template configure<
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0, int, pthread_t*, const pthread_attr_t*, void* (*) (void*), void*>(
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"pthread_create");
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};
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}
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void
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pthread_create_gotcha::shutdown()
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{
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if(is_shutdown)
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{
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if(*is_shutdown) return;
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*is_shutdown = true;
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}
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if(!bundles_mutex || !bundles) return;
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std::unique_lock<std::mutex> _lk{ *bundles_mutex };
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unsigned long _ndangling = 0;
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for(auto itr : *bundles)
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{
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if(itr.second)
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{
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stop_bundle(*itr.second, itr.first);
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++_ndangling;
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}
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itr.second.reset();
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}
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bundles->clear();
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OMNITRACE_CONDITIONAL_BASIC_PRINT(
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(get_verbose_env() >= 2 || get_debug_env()) && _ndangling > 0,
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"[pthread_create_gotcha::shutdown] cleaned up %lu dangling bundles\n",
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_ndangling);
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}
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void
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pthread_create_gotcha::shutdown(int64_t _tid)
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{
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if(is_shutdown && *is_shutdown) return;
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if(!bundles_mutex || !bundles) return;
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std::unique_lock<std::mutex> _lk{ *bundles_mutex };
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auto itr = bundles->find(_tid);
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if(itr != bundles->end())
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{
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if(itr->second) stop_bundle(*itr->second, itr->first);
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itr->second.reset();
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bundles->erase(itr);
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}
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}
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// pthread_create
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int
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pthread_create_gotcha::operator()(pthread_t* thread, const pthread_attr_t* attr,
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void* (*start_routine)(void*), void* arg) const
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{
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OMNITRACE_SCOPED_THREAD_STATE(ThreadState::Internal);
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bundle_t _bundle{ "pthread_create" };
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auto _enable_sampling = pthread_gotcha::sampling_enabled_on_child_threads();
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auto _coverage = (get_mode() == omnitrace::Mode::Coverage);
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auto _active = (get_state() == omnitrace::State::Active);
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int64_t _tid = (_active) ? threading::get_id() : 0;
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if(_active)
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{
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OMNITRACE_VERBOSE(1, "Creating new thread on PID %i (rank: %i), TID %li\n",
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process::get_id(), dmp::rank(), _tid);
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}
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// ensure that cpu cid stack exists on the parent thread if active
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if(!_coverage && _active) get_cpu_cid_stack();
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if(!get_use_sampling() || !_enable_sampling)
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{
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auto* _obj = new wrapper(start_routine, arg, _enable_sampling, _tid, nullptr);
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// create the thread
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auto _ret =
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::pthread_create(thread, attr, &wrapper::wrap, static_cast<void*>(_obj));
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return _ret;
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}
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// block the signals in entire process
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OMNITRACE_DEBUG("blocking signals...\n");
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tim::sampling::block_signals({ SIGALRM, SIGPROF },
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tim::sampling::sigmask_scope::process);
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start_bundle(_bundle);
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// promise set by thread when signal handler is configured
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auto _promise = std::promise<void>{};
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auto _fut = _promise.get_future();
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auto* _wrap = new wrapper(start_routine, arg, _enable_sampling, _tid, &_promise);
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// create the thread
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auto _ret = ::pthread_create(thread, attr, &wrapper::wrap, static_cast<void*>(_wrap));
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// wait for thread to set promise
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OMNITRACE_DEBUG("waiting for child to signal it is setup...\n");
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_fut.wait();
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stop_bundle(_bundle, threading::get_id());
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// unblock the signals in the entire process
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OMNITRACE_DEBUG("unblocking signals...\n");
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tim::sampling::unblock_signals({ SIGALRM, SIGPROF },
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tim::sampling::sigmask_scope::process);
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OMNITRACE_DEBUG("returning success...\n");
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return _ret;
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}
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bool
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pthread_create_gotcha::is_valid_execution_time(int64_t _tid, uint64_t _ts)
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{
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return (_ts >= get_execution_time(_tid)->first &&
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_ts <= get_execution_time(_tid)->second);
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}
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} // namespace omnitrace
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