Jonathan R. Madsen
49851b05ae
* Address and thread sanitizer fixes
- Fix compilation with clang
- Tweak perfetto copy to build tree
- Added suppression files to scripts
- fix LD_PRELOAD support in omnitrace-causal and omnitrace-sample
- use spin_mutex and spin_lock from timemory instead of atomic_mutex and atomic_lock
- state uses atomic
- fix some memory leaks
- tweak testing
- mpi tests do not use preload
- increase timeout when using sanitizers
- add env LD_PRELOAD when using sanitizers
* Tweak perfetto build
* Update timemory submodule
* Update version to 1.8.1
* Update omnitrace-leak.supp
* Update timemory submodule
- fixed spin_mutex implementation
* Remove previously added addr_space->allowTraps(instr_traps)
- this appears to cause errors during binary rewrite
* causal testing updates
- relaxed causal validation on CI systems (to account for hyperthreading decreasing prediction)
- improved impact calculation
- other general improvements to validate-causal-json.py
* Improve fork handling for perfetto
- numerous updates changing perfetto:: to ::perfetto::
- added perfetto_fwd.hpp
* Updated fork example
- user API for validation that stopping/starting perfetto is valid
* Misc fixes to perfetto + fork support
- tweak regions in fork example
- handle disabling tmp files
- get rid of stop/start with perfetto before/after fork
- fixed sampling support during fork
- tweak env of fork test
* Fix find_package in build-tree
* Fix buildtree export
* Fix buildtree export
* Restructured ConfigInstall before adding examples
* Guard against creating tmp file in sampling when disabled
* Fix buildtree package
* formatting
* exit handlers on child processes
- quick exit to avoid perfetto cleanup
* Further tweaking of causal tests for reliability
- enable PROCESSOR_AFFINITY
- decrease to 5 iterations
* Further tweaking of causal tests for reliability
- disable PROCESSOR_AFFINITY for fast func e2e tests
- enabling affinity results in (valid) speedup predictions greater than zero
* Fixes to fork handling
- use pthread_atfork for redundancy if fork_gotcha fails
* cmake formatting
* Fix fork init settings + install components
- remove dl from PROJECT_BUILD_TARGETS
* Testing tweaks
- fix mpi-binary-rewrite-run regex when OMNITRACE_VERBOSE set > 1 in env
- increase causal e2e iterations to 8
* Fix "Test User API"
- test-find-package.sh included dl component
* Further tweaks to causal validation
- further considerations of variance
[ROCm/rocprofiler-systems commit: 846301bcaf]
255 line
9.0 KiB
C++
255 line
9.0 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/cpu_freq.hpp"
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#include "core/common.hpp"
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#include "core/components/fwd.hpp"
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#include "core/config.hpp"
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#include "core/debug.hpp"
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#include "core/defines.hpp"
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#include "core/perfetto.hpp"
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#include "core/timemory.hpp"
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#include "library/components/cpu_freq.hpp"
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#include "library/thread_data.hpp"
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#include "library/thread_info.hpp"
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#include <timemory/components/rusage/backends.hpp>
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#include <timemory/mpl/types.hpp>
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#include <timemory/units.hpp>
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#include <timemory/utility/procfs/cpuinfo.hpp>
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#include <timemory/utility/type_list.hpp>
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#include <cstddef>
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#include <cstdlib>
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#include <string>
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#include <sys/resource.h>
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#include <tuple>
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#include <utility>
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#include <vector>
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namespace omnitrace
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{
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namespace cpu_freq
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{
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template <typename... Tp>
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using type_list = tim::type_list<Tp...>;
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namespace
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{
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using cpu_data_tuple_t = std::tuple<size_t, int64_t, int64_t, int64_t, int64_t, int64_t,
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int64_t, int64_t, component::cpu_freq>;
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std::deque<cpu_data_tuple_t> data = {};
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template <typename... Types>
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void init_perfetto_counter_tracks(type_list<Types...>)
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{
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(perfetto_counter_track<Types>::init(), ...);
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}
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} // namespace
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} // namespace cpu_freq
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} // namespace omnitrace
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namespace omnitrace
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{
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namespace cpu_freq
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{
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void
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setup()
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{
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init_perfetto_counter_tracks(
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type_list<category::cpu_freq, category::process_page, category::process_virt,
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category::process_peak, category::process_context_switch,
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category::process_page_fault, category::process_user_mode_time,
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category::process_kernel_mode_time>{});
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}
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void
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config()
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{
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component::cpu_freq::configure();
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}
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void
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sample()
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{
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auto _ts = tim::get_clock_real_now<size_t, std::nano>();
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auto _rcache = tim::rusage_cache{ RUSAGE_SELF };
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auto _freqs = component::cpu_freq{}.sample();
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// user and kernel mode times are in microseconds
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data.emplace_back(
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_ts, tim::get_page_rss(), tim::get_virt_mem(), _rcache.get_peak_rss(),
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_rcache.get_num_priority_context_switch() +
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_rcache.get_num_voluntary_context_switch(),
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_rcache.get_num_major_page_faults() + _rcache.get_num_minor_page_faults(),
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_rcache.get_user_mode_time() * 1000, _rcache.get_kernel_mode_time() * 1000,
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std::move(_freqs));
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}
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void
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shutdown()
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{}
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namespace
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{
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template <typename... Types, size_t N = sizeof...(Types)>
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void
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config_perfetto_counter_tracks(type_list<Types...>, std::array<const char*, N> _labels,
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std::array<const char*, N> _units)
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{
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static_assert(sizeof...(Types) == N,
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"Error! Number of types != number of labels/units");
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auto _config = [&](auto _t) {
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using type = std::decay_t<decltype(_t)>;
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using track = perfetto_counter_track<type>;
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constexpr auto _idx = tim::index_of<type, type_list<Types...>>::value;
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if(!track::exists(0))
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{
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auto addendum = [&](const char* _v) { return JOIN(" ", "CPU", _v, "(S)"); };
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track::emplace(0, addendum(_labels.at(_idx)), _units.at(_idx));
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}
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};
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(_config(Types{}), ...);
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}
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struct index
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{
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size_t value = 0;
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};
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template <typename Tp, typename... Args>
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void
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write_perfetto_counter_track(Args... _args)
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{
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using track = perfetto_counter_track<Tp>;
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TRACE_COUNTER(trait::name<Tp>::value, track::at(0, 0), _args...);
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}
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template <typename Tp, typename... Args>
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void
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write_perfetto_counter_track(index&& _idx, Args... _args)
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{
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using track = perfetto_counter_track<Tp>;
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TRACE_COUNTER(trait::name<Tp>::value, track::at(_idx.value, 0), _args...);
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}
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} // namespace
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void
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post_process()
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{
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OMNITRACE_VERBOSE(1,
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"Post-processing %zu cpu frequency and memory usage entries...\n",
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data.size());
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auto _process_frequencies = [](size_t _idx, size_t _offset) {
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using freq_track = perfetto_counter_track<category::cpu_freq>;
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const auto& _thread_info = thread_info::get(0, InternalTID);
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OMNITRACE_CI_THROW(!_thread_info, "Missing thread info for thread 0");
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if(!_thread_info) return;
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if(!freq_track::exists(_idx))
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{
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auto addendum = [&](const char* _v) {
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return JOIN(" ", "CPU", _v, JOIN("", '[', _idx, ']'), "(S)");
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};
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freq_track::emplace(_idx, addendum("Frequency"), "MHz");
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}
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for(auto& itr : data)
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{
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uint64_t _ts = std::get<0>(itr);
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double _freq = static_cast<double>(std::get<8>(itr).at(_offset));
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if(!_thread_info->is_valid_time(_ts)) continue;
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write_perfetto_counter_track<category::cpu_freq>(index{ _idx }, _ts, _freq);
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}
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auto _end_ts = _thread_info->get_stop();
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write_perfetto_counter_track<category::cpu_freq>(index{ _idx }, _end_ts, 0);
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};
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auto _process_cpu_rusage = []() {
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config_perfetto_counter_tracks(
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type_list<category::process_page, category::process_virt,
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category::process_peak, category::process_context_switch,
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category::process_page_fault, category::process_user_mode_time,
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category::process_kernel_mode_time>{},
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{ "Memory Usage", "Virtual Memory Usage", "Peak Memory", "Context Switches",
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"Page Faults", "User Time", "Kernel Time" },
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{ "MB", "MB", "MB", "", "", "sec", "sec" });
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const auto& _thread_info = thread_info::get(0, InternalTID);
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OMNITRACE_CI_THROW(!_thread_info, "Missing thread info for thread 0");
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if(!_thread_info) return;
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for(auto& itr : data)
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{
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uint64_t _ts = std::get<0>(itr);
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if(!_thread_info->is_valid_time(_ts)) continue;
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double _page = std::get<1>(itr);
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double _virt = std::get<2>(itr);
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double _peak = std::get<3>(itr);
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uint64_t _cntx = std::get<4>(itr);
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uint64_t _flts = std::get<5>(itr);
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double _user = std::get<6>(itr);
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double _kern = std::get<7>(itr);
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write_perfetto_counter_track<category::process_page>(_ts,
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_page / units::megabyte);
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write_perfetto_counter_track<category::process_virt>(_ts,
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_virt / units::megabyte);
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write_perfetto_counter_track<category::process_peak>(_ts,
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_peak / units::megabyte);
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write_perfetto_counter_track<category::process_context_switch>(_ts, _cntx);
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write_perfetto_counter_track<category::process_page_fault>(_ts, _flts);
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write_perfetto_counter_track<category::process_user_mode_time>(
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_ts, _user / units::sec);
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write_perfetto_counter_track<category::process_kernel_mode_time>(
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_ts, _kern / units::sec);
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}
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auto _end_ts = _thread_info->get_stop();
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write_perfetto_counter_track<category::process_page>(_end_ts, 0.0);
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write_perfetto_counter_track<category::process_virt>(_end_ts, 0.0);
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write_perfetto_counter_track<category::process_peak>(_end_ts, 0.0);
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write_perfetto_counter_track<category::process_context_switch>(_end_ts, 0);
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write_perfetto_counter_track<category::process_page_fault>(_end_ts, 0);
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write_perfetto_counter_track<category::process_user_mode_time>(_end_ts, 0.0);
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write_perfetto_counter_track<category::process_kernel_mode_time>(_end_ts, 0.0);
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};
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_process_cpu_rusage();
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auto& enabled_cpu_freqs = component::cpu_freq::get_enabled_cpus();
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for(auto itr = enabled_cpu_freqs.begin(); itr != enabled_cpu_freqs.end(); ++itr)
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{
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auto _idx = *itr;
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auto _offset = std::distance(enabled_cpu_freqs.begin(), itr);
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_process_frequencies(_idx, _offset);
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}
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enabled_cpu_freqs.clear();
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}
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} // namespace cpu_freq
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} // namespace omnitrace
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