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bb591c82cb5df261a75ddddd5a48253d51793b37
rocm-systems/source/lib/omnitrace/library.cpp
T
Jonathan R. Madsen bb591c82cb HIP API and Activity Config Options + metadata JSON PID tagging (#225) 
* library metadata/functions JSON

- remove always tagging metadata.json and functions.json with PID

* roctracer options for HIP API vs. HIP activity

* opensuse docker update for ROCm

- remove adding perl repo (does not exist)
2023-01-13 07:48:42 -06:00

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// MIT License
//
// Copyright (c) 2022 Advanced Micro Devices, Inc. All Rights Reserved.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
// clang-format off
#include <timemory/log/color.hpp>
// clang-format on
#include "api.hpp"
#include "common/setup.hpp"
#include "library/components/exit_gotcha.hpp"
#include "library/components/fork_gotcha.hpp"
#include "library/components/fwd.hpp"
#include "library/components/mpi_gotcha.hpp"
#include "library/components/pthread_gotcha.hpp"
#include "library/components/rocprofiler.hpp"
#include "library/config.hpp"
#include "library/coverage.hpp"
#include "library/critical_trace.hpp"
#include "library/debug.hpp"
#include "library/defines.hpp"
#include "library/gpu.hpp"
#include "library/ompt.hpp"
#include "library/process_sampler.hpp"
#include "library/ptl.hpp"
#include "library/rcclp.hpp"
#include "library/rocprofiler.hpp"
#include "library/runtime.hpp"
#include "library/sampling.hpp"
#include "library/thread_data.hpp"
#include "library/thread_info.hpp"
#include "library/timemory.hpp"
#include "library/tracing.hpp"
#include "library/utility.hpp"
#include "omnitrace/categories.h" // in omnitrace-user
#include <timemory/signals/signal_handlers.hpp>
#include <timemory/signals/types.hpp>
#include <timemory/hash/types.hpp>
#include <timemory/manager/manager.hpp>
#include <timemory/operations/types/file_output_message.hpp>
#include <timemory/signals/signal_mask.hpp>
#include <timemory/settings/types.hpp>
#include <timemory/utility/backtrace.hpp>
#include <timemory/utility/procfs/maps.hpp>
#include <atomic>
#include <cstdio>
#include <mutex>
#include <string_view>
#include <utility>
using namespace omnitrace;
//======================================================================================//
namespace omnitrace
{
namespace perfetto
{
// declare this here bc it has a tendency to cause namespace ambiguities
void
setup();
void
start();
} // namespace perfetto
} // namespace omnitrace
//======================================================================================//
namespace
{
auto _timemory_manager = tim::manager::instance();
auto _timemory_settings = tim::settings::shared_instance();
auto
ensure_finalization(bool _static_init = false)
{
const auto& _info = thread_info::init();
const auto& _tid = _info->index_data;
if(_tid)
{
OMNITRACE_CI_THROW(_tid->sequent_value != threading::get_id(),
"Error! internal tid != %li :: %li", threading::get_id(),
_tid->sequent_value);
OMNITRACE_CI_THROW(_tid->system_value != threading::get_sys_tid(),
"Error! system tid != %li :: %li", threading::get_sys_tid(),
_tid->system_value);
}
if(!get_env("OMNITRACE_COLORIZED_LOG", true)) tim::log::colorized() = false;
(void) tim::manager::instance();
(void) tim::settings::shared_instance();
if(!tim::get_shared_ptr_pair_callback())
{
tim::get_shared_ptr_pair_callback() =
new tim::shared_ptr_pair_callback_t{ [](int64_t _n) {
if(_n == 0) omnitrace_finalize_hidden();
} };
}
if(_static_init)
{
OMNITRACE_BASIC_DEBUG_F("\n");
auto _verbose =
get_verbose_env() + ((get_debug_env() || get_debug_init()) ? 16 : 0);
auto _search_paths = JOIN(':', tim::get_env<std::string>("OMNITRACE_PATH", ""),
tim::get_env<std::string>("PWD"), ".",
tim::get_env<std::string>("LD_LIBRARY_PATH", ""),
tim::get_env<std::string>("LIBRARY_PATH", ""),
tim::get_env<std::string>("PATH", ""));
common::setup_environ(_verbose, _search_paths);
}
else
{
OMNITRACE_DEBUG_F("\n");
}
return scope::destructor{ []() { omnitrace_finalize_hidden(); } };
}
auto
is_system_backend()
{
// if get_backend() returns 'system' or 'all', this is true
return (get_backend() != "inprocess");
}
using Device = critical_trace::Device;
using Phase = critical_trace::Phase;
} // namespace
//======================================================================================//
///
///
///
//======================================================================================//
namespace
{
struct set_env_s // NOLINT
{};
} // namespace
extern "C" void
omnitrace_set_env_hidden(const char* env_name, const char* env_val)
{
tim::auto_lock_t _lk{ tim::type_mutex<set_env_s>() };
static auto _set_envs = std::set<std::string_view>{};
bool _success = _set_envs.emplace(env_name).second;
// just search env to avoid initializing the settings
OMNITRACE_CONDITIONAL_PRINT_F(get_debug_init() || get_verbose_env() > 2,
"Setting env: %s=%s\n", env_name, env_val);
tim::set_env(env_name, env_val, 0);
if(_success && get_state() >= State::Init)
{
OMNITRACE_WARNING_F(
0,
"omnitrace_set_env(\"%s\", \"%s\") called after omnitrace was initialized. "
"state = %s. This environment variable will have no effect\n",
env_name, env_val, std::to_string(get_state()).c_str());
}
}
//======================================================================================//
///
///
///
//======================================================================================//
namespace
{
bool _set_mpi_called = false;
std::function<void()> _preinit_callback = []() { get_preinit_bundle()->start(); };
void
omnitrace_preinit_hidden()
{
// run once and discard
_preinit_callback();
_preinit_callback = []() {};
}
} // namespace
extern "C" void
omnitrace_set_mpi_hidden(bool use, bool attached)
{
static bool _once = false;
static auto _args = std::make_pair(use, attached);
// this function may be called multiple times if multiple libraries are instrumented
// we want to guard against multiple calls which with different arguments
if(_once && std::tie(_args.first, _args.second) == std::tie(use, attached)) return;
_once = true;
// just search env to avoid initializing the settings
OMNITRACE_CONDITIONAL_PRINT_F(get_debug_init() || get_verbose_env() > 2,
"use: %s, attached: %s\n", (use) ? "y" : "n",
(attached) ? "y" : "n");
_set_mpi_called = true;
config::is_attached() = attached;
if(use && !attached && get_state() == State::PreInit)
{
tim::set_env("OMNITRACE_USE_PID", "ON", 1);
}
else if(!use)
{
trait::runtime_enabled<mpi_gotcha_t>::set(false);
}
if(get_state() >= State::Init)
{
OMNITRACE_WARNING_F(
0,
"omnitrace_set_mpi(use=%s, attached=%s) called after omnitrace was "
"initialized. state = %s. MPI support may not be properly initialized. Use "
"OMNITRACE_USE_MPIP=ON and OMNITRACE_USE_PID=ON to ensure full support\n",
std::to_string(use).c_str(), std::to_string(attached).c_str(),
std::to_string(get_state()).c_str());
}
omnitrace_preinit_hidden();
}
//======================================================================================//
extern "C" void
omnitrace_init_library_hidden()
{
auto _tid = threading::get_id();
(void) _tid;
static bool _once = false;
auto _debug_init = get_debug_init();
OMNITRACE_CONDITIONAL_BASIC_PRINT_F(_debug_init, "State is %s...\n",
std::to_string(get_state()).c_str());
OMNITRACE_CI_THROW(get_state() != State::PreInit, "State is not PreInit :: %s",
std::to_string(get_state()).c_str());
if(get_state() != State::PreInit || get_state() == State::Init || _once) return;
_once = true;
OMNITRACE_SCOPED_THREAD_STATE(ThreadState::Internal);
OMNITRACE_CONDITIONAL_BASIC_PRINT_F(_debug_init, "State is %s. Setting to %s...\n",
std::to_string(get_state()).c_str(),
std::to_string(State::Init).c_str());
OMNITRACE_CONDITIONAL_BASIC_PRINT_F(
_debug_init, "Calling backtrace once so that the one-time call of malloc in "
"glibc's backtrace() occurs...\n");
{
std::stringstream _ss{};
timemory_print_backtrace<16>(_ss);
(void) _ss;
}
set_state(State::Init);
OMNITRACE_CI_THROW(get_state() != State::Init,
"set_state(State::Init) failed. state is %s",
std::to_string(get_state()).c_str());
OMNITRACE_CONDITIONAL_BASIC_PRINT_F(_debug_init, "Configuring settings...\n");
// configure the settings
configure_settings();
auto _debug_value = get_debug();
if(_debug_init) config::set_setting_value("OMNITRACE_DEBUG", true);
scope::destructor _debug_dtor{ [_debug_value, _debug_init]() {
if(_debug_init) config::set_setting_value("OMNITRACE_DEBUG", _debug_value);
} };
// below will effectively do:
// get_cpu_cid_stack(0)->emplace_back(-1);
// plus query some env variables
add_critical_trace<Device::CPU, Phase::NONE>(0, -1, 0, 0, 0, 0, 0, 0, 0, -1, 0);
tim::trait::runtime_enabled<comp::roctracer>::set(get_use_roctracer());
tim::trait::runtime_enabled<comp::roctracer_data>::set(get_use_roctracer() &&
get_use_timemory());
OMNITRACE_CONDITIONAL_BASIC_PRINT_F(_debug_init, "\n");
}
//======================================================================================//
extern "C" bool
omnitrace_init_tooling_hidden()
{
if(!get_env("OMNITRACE_COLORIZED_LOG", true, false)) tim::log::colorized() = false;
if(!tim::get_env("OMNITRACE_INIT_TOOLING", true))
{
omnitrace_init_library_hidden();
return false;
}
static bool _once = false;
static auto _debug_init = get_debug_init();
OMNITRACE_CONDITIONAL_BASIC_PRINT_F(_debug_init, "State is %s...\n",
std::to_string(get_state()).c_str());
if(get_state() != State::PreInit || get_state() == State::Init || _once) return false;
_once = true;
OMNITRACE_SCOPED_THREAD_STATE(ThreadState::Internal);
OMNITRACE_CONDITIONAL_THROW(
get_state() == State::Init,
"%s called after omnitrace_init_library() was explicitly called",
OMNITRACE_FUNCTION);
OMNITRACE_CONDITIONAL_BASIC_PRINT_F(get_verbose_env() >= 0,
"Instrumentation mode: %s\n",
std::to_string(config::get_mode()).c_str());
OMNITRACE_CONDITIONAL_BASIC_PRINT_F(_debug_init, "Printing banner...\n");
if(get_verbose_env() >= 0) print_banner();
OMNITRACE_CONDITIONAL_BASIC_PRINT_F(_debug_init,
"Calling omnitrace_init_library()...\n");
omnitrace_init_library_hidden();
OMNITRACE_DEBUG_F("\n");
auto _dtor = scope::destructor{ []() {
// if set to finalized, don't continue
if(get_state() > State::Active) return;
if(get_use_process_sampling())
{
OMNITRACE_SCOPED_SAMPLING_ON_CHILD_THREADS(false);
process_sampler::setup();
}
if(get_use_sampling())
{
OMNITRACE_SCOPED_SAMPLING_ON_CHILD_THREADS(false);
sampling::setup();
}
if(get_use_sampling())
{
push_enable_sampling_on_child_threads(get_use_sampling());
sampling::unblock_signals();
}
get_main_bundle()->start();
OMNITRACE_DEBUG_F("State: %s -> State::Active\n",
std::to_string(get_state()).c_str());
set_state(State::Active); // set to active as very last operation
} };
OMNITRACE_SCOPED_SAMPLING_ON_CHILD_THREADS(false);
// perfetto initialization
if(get_use_perfetto())
{
OMNITRACE_VERBOSE_F(1, "Setting up Perfetto...\n");
omnitrace::perfetto::setup();
}
// ideally these have already been started
omnitrace_preinit_hidden();
// start these gotchas once settings have been initialized
if(get_init_bundle()) get_init_bundle()->start();
if(get_use_sampling()) sampling::block_signals();
tasking::setup();
if(get_use_timemory())
{
comp::user_global_bundle::global_init();
std::set<int> _comps{};
// convert string into set of enumerations
for(auto&& itr : tim::delimit(tim::settings::global_components()))
_comps.emplace(tim::runtime::enumerate(itr));
if(_comps.size() == 1 && _comps.find(TIMEMORY_WALL_CLOCK) != _comps.end())
{
// using wall_clock directly is lower overhead than using it via user_bundle
instrumentation_bundle_t::get_initializer() =
[](instrumentation_bundle_t& _bundle) {
_bundle.initialize<comp::wall_clock>();
};
}
else if(!_comps.empty())
{
// use user_bundle for other than wall-clock
instrumentation_bundle_t::get_initializer() =
[](instrumentation_bundle_t& _bundle) {
_bundle.initialize<comp::user_global_bundle>();
};
}
else
{
tim::trait::runtime_enabled<project::omnitrace>::set(false);
}
}
if(get_use_ompt())
{
OMNITRACE_VERBOSE_F(1, "Setting up OMPT...\n");
ompt::setup();
}
if(get_use_rcclp())
{
OMNITRACE_VERBOSE_F(1, "Setting up RCCLP...\n");
rcclp::setup();
}
if(get_use_perfetto() && !is_system_backend())
{
omnitrace::perfetto::start();
}
// if static objects are destroyed in the inverse order of when they are
// created this should ensure that finalization is called before perfetto
// ends the tracing session
static auto _ensure_finalization = ensure_finalization();
return true;
}
//======================================================================================//
extern "C" void
omnitrace_init_hidden(const char* _mode, bool _is_binary_rewrite, const char* _argv0)
{
static int _total_count = 0;
static auto _args = std::make_pair(std::string_view{ _mode }, _is_binary_rewrite);
auto _count = _total_count++;
auto _mode_sv = std::string_view{ _mode };
// this function may be called multiple times if multiple libraries are instrumented
// we want to guard against multiple calls which with different arguments
if(_count > 0 &&
std::tie(_args.first, _args.second) == std::tie(_mode_sv, _is_binary_rewrite))
return;
OMNITRACE_CONDITIONAL_THROW(
_count > 0 &&
std::tie(_args.first, _args.second) != std::tie(_mode_sv, _is_binary_rewrite),
"\nomnitrace_init(...) called multiple times with different arguments for mode "
"and/or is_binary_rewrite:"
"\n Invocation #1: omnitrace_init(mode=%-8s, is_binary_rewrite=%-5s, ...)"
"\n Invocation #%i: omnitrace_init(mode=%-8s, is_binary_rewrite=%-5s, ...)",
_args.first.data(), std::to_string(_args.second).c_str(), _count + 1, _mode,
std::to_string(_is_binary_rewrite).c_str());
// always the first
(void) get_state();
(void) tracing::push_count();
(void) tracing::pop_count();
if(get_state() >= State::Init)
{
if(std::string_view{ _mode } != "trace" && std::string_view{ _mode } != "Trace")
{
OMNITRACE_WARNING_F(
0,
"omnitrace_init(mode=%s, is_binary_rewrite=%s, argv0=%s) "
"called after omnitrace was initialized. state = %s. Mode-based settings "
"(via -M <MODE> passed to omnitrace exe) may not be properly "
"configured.\n",
_mode, std::to_string(_is_binary_rewrite).c_str(), _argv0,
std::to_string(get_state()).c_str());
}
}
tracing::get_finalization_functions().emplace_back([_argv0]() {
OMNITRACE_CI_THROW(get_state() != State::Active,
"Finalizer function for popping main invoked in non-active "
"state :: state = %s\n",
std::to_string(get_state()).c_str());
if(get_state() == State::Active)
{
// if main hasn't been popped yet, pop it
OMNITRACE_BASIC_VERBOSE(2, "Running omnitrace_pop_trace(%s)...\n", _argv0);
omnitrace_pop_trace_hidden(_argv0);
}
});
std::atexit([]() {
// if active (not already finalized) then we should finalize
if(get_state() == State::Active) omnitrace_finalize_hidden();
});
OMNITRACE_CONDITIONAL_BASIC_PRINT_F(
get_debug_env() || get_verbose_env() > 2,
"mode: %s | is binary rewrite: %s | command: %s\n", _mode,
(_is_binary_rewrite) ? "y" : "n", _argv0);
tim::set_env("OMNITRACE_MODE", _mode, 0);
config::is_binary_rewrite() = _is_binary_rewrite;
if(_set_mpi_called)
{
omnitrace_preinit_hidden();
}
}
//======================================================================================//
extern "C" void
omnitrace_reset_preload_hidden(void)
{
tim::set_env("OMNITRACE_PRELOAD", "0", 1);
auto&& _preload_libs = get_env("LD_PRELOAD", std::string{});
if(_preload_libs.find("libomnitrace") != std::string::npos)
{
auto _modified_preload = std::string{};
for(const auto& itr : delimit(_preload_libs, ":"))
{
if(itr.find("libomnitrace") != std::string::npos) continue;
_modified_preload += common::join("", ":", itr);
}
if(!_modified_preload.empty() && _modified_preload.find(':') == 0)
_modified_preload = _modified_preload.substr(1);
tim::set_env("LD_PRELOAD", _modified_preload, 1);
}
}
//======================================================================================//
extern "C" void
omnitrace_finalize_hidden(void)
{
// disable thread id recycling during finalization
threading::recycle_ids() = false;
set_thread_state(ThreadState::Completed);
// return if not active
if(get_state() != State::Active)
{
OMNITRACE_BASIC_DEBUG_F("State = %s. Finalization skipped\n",
std::to_string(get_state()).c_str());
return;
}
if(get_verbose() >= 0 || get_debug()) fprintf(stderr, "\n");
OMNITRACE_VERBOSE_F(0, "finalizing...\n");
sampling::block_samples();
thread_info::set_stop(comp::wall_clock::record());
tim::signals::block_signals(get_sampling_signals(),
tim::signals::sigmask_scope::process);
omnitrace_reset_preload_hidden();
// some functions called during finalization may alter the push/pop count so we need
// to save them here
auto _push_count = tracing::push_count().load();
auto _pop_count = tracing::pop_count().load();
// e.g. omnitrace_pop_trace("main");
if(_push_count > _pop_count)
{
for(auto& itr : tracing::get_finalization_functions())
{
itr();
++_pop_count;
}
}
set_state(State::Finalized);
push_enable_sampling_on_child_threads(false);
set_sampling_on_all_future_threads(false);
auto _debug_init = get_debug_finalize();
auto _debug_value = get_debug();
if(_debug_init) config::set_setting_value("OMNITRACE_DEBUG", true);
scope::destructor _debug_dtor{ [_debug_value, _debug_init]() {
if(_debug_init) config::set_setting_value("OMNITRACE_DEBUG", _debug_value);
} };
auto& _thread_bundle = thread_data<thread_bundle_t>::instance();
if(_thread_bundle) _thread_bundle->stop();
if(get_verbose() >= 1 || get_debug())
{
if(dmp::rank() == 0)
{
OMNITRACE_PRINT_F("\n");
config::print_settings(get_env<bool>("OMNITRACE_PRINT_ENV", get_debug()));
}
}
OMNITRACE_VERBOSE_F(1, "omnitrace_push_trace :: called %zux\n", _push_count);
OMNITRACE_VERBOSE_F(1, "omnitrace_pop_trace :: called %zux\n", _pop_count);
tim::signals::enable_signal_detection({ tim::signals::sys_signal::Interrupt },
[](int) {});
std::string _bundle_name = OMNITRACE_FUNCTION;
comp::user_global_bundle _bundle{ _bundle_name.c_str() };
_bundle.clear();
_bundle.insert<comp::wall_clock, comp::cpu_clock, comp::peak_rss, comp::page_rss,
comp::cpu_util>();
_bundle.start();
OMNITRACE_DEBUG_F("Copying over all timemory hash information to main thread...\n");
// copy these over so that all hashes are known
auto& _hzero = tracing::get_timemory_hash_ids(0);
auto& _azero = tracing::get_timemory_hash_aliases(0);
for(size_t i = 1; i < max_supported_threads; ++i)
{
auto& _hitr = tracing::get_timemory_hash_ids(i);
auto& _aitr = tracing::get_timemory_hash_aliases(i);
if(_hzero && _hitr)
{
for(const auto& itr : *_hitr)
_hzero->emplace(itr.first, itr.second);
}
if(_azero && _aitr)
{
for(auto itr : *_aitr)
_azero->emplace(itr.first, itr.second);
}
}
// stop the main bundle which has stats for run
if(get_main_bundle())
{
OMNITRACE_DEBUG_F("Stopping main bundle...\n");
get_main_bundle()->stop();
}
if(get_use_rcclp())
{
OMNITRACE_VERBOSE_F(1, "Shutting down RCCLP...\n");
rcclp::shutdown();
}
if(get_use_ompt())
{
OMNITRACE_VERBOSE_F(1, "Shutting down OMPT...\n");
ompt::shutdown();
}
OMNITRACE_DEBUG_F("Stopping and destroying instrumentation bundles...\n");
for(size_t i = 0; i < max_supported_threads; ++i)
{
auto& itr = instrumentation_bundles::instances().at(i);
const auto& _info = thread_info::get(i, SequentTID);
while(!itr.bundles.empty())
{
int _lvl = 1;
if(_info->is_offset)
{
++_pop_count;
_lvl = 4;
}
OMNITRACE_VERBOSE_F(_lvl,
"Warning! instrumentation bundle on thread %zu (TID=%li) "
"with label '%s' was not stopped.\n",
i, itr.bundles.back()->tid(),
itr.bundles.back()->key().c_str());
itr.bundles.back()->stop();
itr.bundles.back()->pop();
itr.allocator.destroy(itr.bundles.back());
itr.allocator.deallocate(itr.bundles.back(), 1);
itr.bundles.pop_back();
}
}
// stop the main gotcha which shuts down the pthread gotchas
if(get_init_bundle())
{
OMNITRACE_DEBUG_F("Stopping main gotcha...\n");
get_init_bundle()->stop();
}
// stop the gotcha bundle
if(get_preinit_bundle())
{
OMNITRACE_VERBOSE_F(1, "Shutting down miscellaneous gotchas...\n");
get_preinit_bundle()->stop();
component::mpi_gotcha::shutdown();
}
if(get_use_process_sampling())
{
OMNITRACE_VERBOSE_F(1, "Shutting down background sampler...\n");
process_sampler::shutdown();
}
if(get_use_roctracer())
{
OMNITRACE_VERBOSE_F(1, "Shutting down roctracer...\n");
// ensure that threads running roctracer callbacks shutdown
comp::roctracer::shutdown();
// join extra thread(s) used by roctracer
OMNITRACE_VERBOSE_F(2, "Waiting on roctracer tasks...\n");
tasking::join();
}
if(get_use_rocprofiler())
{
OMNITRACE_VERBOSE_F(1, "Shutting down rocprofiler...\n");
rocprofiler::post_process();
rocprofiler::rocm_cleanup();
}
if(get_use_sampling())
{
OMNITRACE_VERBOSE_F(1, "Shutting down sampling...\n");
sampling::shutdown();
}
OMNITRACE_VERBOSE_F(3, "Reporting the process- and thread-level metrics...\n");
// report the high-level metrics for the process
if(get_main_bundle())
{
OMNITRACE_VERBOSE_F(0, "\n");
std::string _msg = JOIN("", *get_main_bundle());
auto _pos = _msg.find(">>> ");
if(_pos != std::string::npos) _msg = _msg.substr(_pos + 5);
OMNITRACE_VERBOSE_F(0, "%s\n", _msg.c_str());
OMNITRACE_DEBUG_F("Resetting main bundle...\n");
get_main_bundle()->reset();
}
// print out thread-data if they are not still running
// if they are still running (e.g. thread-pool still alive), the
// thread-specific data will be wrong if try to stop them from
// the main thread.
for(auto& itr : thread_data<thread_bundle_t>::instances())
{
if(itr && itr->get<comp::wall_clock>() &&
!itr->get<comp::wall_clock>()->get_is_running())
{
std::string _msg = JOIN("", *itr);
auto _pos = _msg.find(">>> ");
if(_pos != std::string::npos) _msg = _msg.substr(_pos + 5);
OMNITRACE_VERBOSE_F(0, "%s\n", _msg.c_str());
}
}
OMNITRACE_VERBOSE_F(0, "\n");
// ensure that all the MT instances are flushed
if(get_use_sampling())
{
OMNITRACE_VERBOSE_F(1, "Post-processing the sampling backtraces...\n");
sampling::post_process();
}
if(get_use_critical_trace() || (get_use_rocm_smi() && get_use_roctracer()))
{
OMNITRACE_VERBOSE_F(1, "Generating the critical trace...\n");
for(size_t i = 0; i < max_supported_threads; ++i)
{
using critical_trace_hash_data =
thread_data<critical_trace::hash_ids, critical_trace::id>;
if(critical_trace_hash_data::instances().at(i))
{
OMNITRACE_DEBUG_F("Copying the hash id data for thread %zu...\n", i);
critical_trace::add_hash_id(*critical_trace_hash_data::instances().at(i));
}
}
for(size_t i = 0; i < max_supported_threads; ++i)
{
using critical_trace_chain_data = thread_data<critical_trace::call_chain>;
if(critical_trace_chain_data::instances().at(i))
{
OMNITRACE_DEBUG_F(
"Updating the critical trace call-chains for thread %zu...\n", i);
critical_trace::update(i); // launch update task
}
}
OMNITRACE_VERBOSE_F(1, "Waiting on critical trace updates...\n");
tasking::join();
}
if(get_use_process_sampling())
{
OMNITRACE_VERBOSE_F(1, "Post-processing the system-level samples...\n");
process_sampler::post_process();
}
if(get_use_critical_trace())
{
// launch compute task
OMNITRACE_VERBOSE_F(1, "Launching critical trace compute task...\n");
critical_trace::compute();
OMNITRACE_VERBOSE_F(1, "Waiting on critical trace computation...\n");
tasking::join();
}
// shutdown tasking before timemory is finalized, especially the roctracer thread-pool
OMNITRACE_VERBOSE_F(1, "Shutting down thread-pools...\n");
tasking::shutdown();
if(get_use_code_coverage())
{
OMNITRACE_VERBOSE_F(1, "Post-processing the code coverage...\n");
coverage::post_process();
}
bool _perfetto_output_error = false;
if(get_use_perfetto() && !is_system_backend())
{
auto& tracing_session = tracing::get_perfetto_session();
OMNITRACE_CI_THROW(tracing_session == nullptr,
"Null pointer to the tracing session");
OMNITRACE_VERBOSE_F(0, "Finalizing perfetto...\n");
// Make sure the last event is closed for this example.
::perfetto::TrackEvent::Flush();
tracing_session->FlushBlocking();
OMNITRACE_VERBOSE_F(3, "Stopping the blocking perfetto trace session...\n");
tracing_session->StopBlocking();
using char_vec_t = std::vector<char>;
OMNITRACE_VERBOSE_F(3, "Getting the trace data...\n");
auto trace_data = char_vec_t{};
#if defined(TIMEMORY_USE_MPI) && TIMEMORY_USE_MPI > 0
if(get_perfetto_combined_traces())
{
using perfetto_mpi_get_t =
tim::operation::finalize::mpi_get<char_vec_t, true>;
char_vec_t _trace_data{ tracing_session->ReadTraceBlocking() };
std::vector<char_vec_t> _rank_data = {};
auto _combine = [](char_vec_t& _dst, const char_vec_t& _src) -> char_vec_t& {
_dst.reserve(_dst.size() + _src.size());
for(auto&& itr : _src)
_dst.emplace_back(itr);
return _dst;
};
perfetto_mpi_get_t{ get_perfetto_combined_traces(), settings::node_count() }(
_rank_data, _trace_data, _combine);
for(auto& itr : _rank_data)
trace_data =
(trace_data.empty()) ? std::move(itr) : _combine(trace_data, itr);
}
else
{
trace_data = tracing_session->ReadTraceBlocking();
}
#else
trace_data = tracing_session->ReadTraceBlocking();
#endif
if(!trace_data.empty())
{
operation::file_output_message<tim::project::omnitrace> _fom{};
// Write the trace into a file.
if(get_verbose() >= 0)
_fom(get_perfetto_output_filename(), std::string{ "perfetto" },
" (%.2f KB / %.2f MB / %.2f GB)... ",
static_cast<double>(trace_data.size()) / units::KB,
static_cast<double>(trace_data.size()) / units::MB,
static_cast<double>(trace_data.size()) / units::GB);
std::ofstream ofs{};
if(!tim::filepath::open(ofs, get_perfetto_output_filename(),
std::ios::out | std::ios::binary))
{
_fom.append("Error opening '%s'...",
get_perfetto_output_filename().c_str());
_perfetto_output_error = true;
}
else
{
// Write the trace into a file.
ofs.write(&trace_data[0], trace_data.size());
if(get_verbose() >= 0) _fom.append("%s", "Done"); // NOLINT
if(_timemory_manager)
_timemory_manager->add_file_output("protobuf", "perfetto",
get_perfetto_output_filename());
}
ofs.close();
}
else if(dmp::rank() == 0)
{
OMNITRACE_VERBOSE_F(0,
"trace data is empty. File '%s' will not be written...\n",
get_perfetto_output_filename().c_str());
}
}
_bundle.stop();
auto _get_metric = [](auto* _v, std::string_view _tail) -> std::string {
return (_v) ? JOIN("", *_v, _tail) : std::string{};
};
OMNITRACE_VERBOSE_F(0, "Finalization metrics: %s%s%s%s%s\n",
_get_metric(_bundle.get<comp::wall_clock>(), ", ").c_str(),
_get_metric(_bundle.get<comp::peak_rss>(), ", ").c_str(),
_get_metric(_bundle.get<comp::page_rss>(), ", ").c_str(),
_get_metric(_bundle.get<comp::cpu_clock>(), ", ").c_str(),
_get_metric(_bundle.get<comp::cpu_util>(), "").c_str());
if(_timemory_manager && _timemory_manager != nullptr)
{
_timemory_manager->add_metadata([](auto& ar) {
auto _maps = tim::procfs::read_maps(process::get_id());
auto _libs = std::set<std::string>{};
for(auto& itr : _maps)
{
auto&& _path = itr.pathname;
if(!_path.empty() && _path.at(0) != '[' && filepath::exists(_path))
_libs.emplace(_path);
}
ar(tim::cereal::make_nvp("memory_maps_files", _libs),
tim::cereal::make_nvp("memory_maps", _maps));
});
_timemory_manager->set_write_metadata(-1);
OMNITRACE_VERBOSE_F(1, "Finalizing timemory...\n");
tim::timemory_finalize(_timemory_manager.get());
auto _cfg = settings::compose_filename_config{};
_cfg.use_suffix = config::get_use_pid();
_timemory_manager->write_metadata(settings::get_global_output_prefix(),
"omnitrace", _cfg);
}
if(_perfetto_output_error)
{
OMNITRACE_THROW("Error opening perfetto output file: %s",
get_perfetto_output_filename().c_str());
}
OMNITRACE_CI_THROW(
_push_count > _pop_count, "%s",
TIMEMORY_JOIN(" ",
"omnitrace_push_trace was called more times than "
"omnitrace_pop_trace. The inverse is fine but the current state "
"means not every measurement was ended :: pushed:",
_push_count, "vs. popped:", _pop_count)
.c_str());
config::finalize();
OMNITRACE_VERBOSE_F(0, "Finalized\n");
}
//======================================================================================//
namespace
{
// if static objects are destroyed randomly (relatively uncommon behavior)
// this might call finalization before perfetto ends the tracing session
// but static variable in omnitrace_init_tooling_hidden is more likely
auto _ensure_finalization = ensure_finalization(true);
auto _manager = tim::manager::instance();
auto _settings = tim::settings::shared_instance();
} // namespace
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