Files
rocm-systems/source/lib/omnitrace/library/components/rocprofiler.cpp
T
Jonathan R. Madsen 518c83e0f9 Dynamic expansion of thread data (#294)
* Tests for exceeding OMNITRACE_MAX_THREADS

- tests which exceeds OMNITRACE_MAX_THREADS value for thread creation

* CMake Formatting.cmake update

- include source files in /tests/source directory

* Add unknown-hash= to OMNITRACE_ABORT_FAIL_REGEX

- fail if a timemory hash is not resolved to a name

* Tests for exceeding OMNITRACE_MAX_THREADS

- update

* omnitrace-sample update

- remove env disabling of critical-trace and process-sampling

* core library update

- make_unique in concepts.hpp
- add OMNITRACE_USE_ROCM_SMI to "process_sampling" category
- remove forced disabling of critical-trace in sampling mode
- parentheses for OMNITRACE_PREFER
- use tim::get_hash_id instead of tim::get_combined_hash_id

* core library update (containers)

- added aligned_static_vector.hpp
  - similar to static_vector.hpp but attempts to align to cache line size
- alignment template parameter for stable_vector
- added missing aliases in static_vector
  - consistent with aligned_static_vector aliases

* thread_info update

- track the peak number of threads created
- thread_info::get_peak_num_threads() returns the peak number of threads

* thread_data update

- generic thread_data inherits from base_thread_data
- thread_data reworked to support dynamic expansion
- base_thread_data updated to invoke private_instance() function
- thread_data<optional<T>> uses stable_vector aligned to cache line width
- thread_data<identity<T>> uses stable_vector aligned to cache line width
- thread_data for optional and identity provide private private_instance function + friend to base_thread_data
- component_bundle_cache<T> is now thread_data<component_bundle_cache_impl<T>>

* causal update

- thread_data<T>::instances -> thread_data<T>::instance(construct_on_thread{ ... })
- loop over max_supported_threads (constexpr) -> loop over thread_info::get_peak_num_threads()
- tim::get_combined_hash_id -> tim::get_hash_id
- update progress_bundle usage to new thread_data API

* backtrace/backtrace_metrics component update

- backtrace_metrics update
  - update to new thead_data API
  - add thread CPU time row in perfetto
  - fix potential bug when rusage categories are disabled
  - fix bug in operator-= not subtracting cpu time of rhs
- backtrace update
  - skip all child call-stack below 'tim::openmp::' if sampling_keep_internal = false

* pthread_gotcha component update

- pthread_gotcha::shutdown() invokes pthread_create_gotcha::shutdown()

* pthread_create_gotcha component update

- minor tweak to {start,stop}_bundle functions: pass in thread id
- update to new thread_data API
- track native handles of internal threads
- implement system with pthread_kill to stop dangling bundles

* rocprofiler/roctracer component update

- update to new thread_data API
- loop over max_supported_threads (constexpr) -> loop over thread_info::get_peak_num_threads()

* critical trace (library) update

- update to new thread_data API
- tim::get_combined_hash_id -> tim::get_hash_id

* coverage update

- update to new thread_data API

* tasking update

- update to new thread_data API
- loop over max_supported_threads (constexpr) -> loop over thread_info::get_peak_num_threads()

* roctracer update

- update to new thread_data API
- loop over max_supported_threads (constexpr) -> loop over thread_info::get_peak_num_threads()

* rocm_smi update

- update to new thread_data API

* runtime.cpp update

- update to new thread_data API

* sampling.cpp update

- update to new thread_data API
- loop over max_supported_threads (constexpr) -> loop over thread_info::get_peak_num_threads()

* ompt.cpp update

- invoke pthread_gotcha::shutdown before invoking OMPT finalize function
  - this prevents signals from being delivered to OpenMP threads

* tracing.hpp and tracing.cpp update

- replace get_timemory_hash_{ids,aliases} functions with copy_timemory_hash_ids function
- update to new thread_data API
- loop over max_supported_threads (constexpr) -> loop over thread_info::get_peak_num_threads()
- tim::get_combined_hash_id -> tim::get_hash_id
- improvements to + error checking in thread_init function

* library.cpp update

- move copying timemory hash id/aliases to tracing.cpp
- update to new thread_data API
- loop over max_supported_threads (constexpr) -> loop over thread_info::get_peak_num_threads()

* Update BuildSettings.cmake

- add -Wno-interference-size to suppress warning about use of std::hardware_destructive_interference

* Update fork example

- improve scheme for waiting on child processes via waitpid instead of wait
- support running main routine multiple times
- push/pop regions in child process

* Update lib/common/defines.h.in

- allow use to specify misc values via -D <name>=<value>
  - OMNITRACE_CACHELINE_SIZE
  - OMNITRACE_CACHELINE_SIZE_MIN
  - OMNITRACE_ROCM_MAX_COUNTERS
- remove unused defines
  - OMNITRACE_ROCM_LOOK_AHEAD
  - OMNITRACE_MAX_ROCM_QUEUES

* Update rocprofiler.hpp

- OMNITRACE_MAX_ROCM_COUNTERS -> OMNITRACE_ROCM_MAX_COUNTERS

* Update aligned_static_vector

- set cacheline_align_v from max of OMNITRACE_CACHELINE_SIZE and OMNITRACE_CACHELINE_SIZE_MIN

* Update tracing.cpp

- acquire locks for updating main hash ids/aliases
- only propagate ids/aliases when finalizing

* Update pthread_create_gotcha.cpp

- make sure hash for "start_thread" exists on main thread

* Update causal end to end tests

- if OMNITRACE_BUILD_NUMBER is 1, set OMNITRACE_VERBOSE=0
2023-10-16 18:04:47 -05:00

194 строки
5.7 KiB
C++

// 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.
#include "library/components/rocprofiler.hpp"
#include "core/common.hpp"
#include "core/config.hpp"
#include "core/debug.hpp"
#include "core/defines.hpp"
#include "core/dynamic_library.hpp"
#include "core/perfetto.hpp"
#include "core/redirect.hpp"
#include "library/rocprofiler.hpp"
#include "library/sampling.hpp"
#include "library/thread_data.hpp"
#include <timemory/storage/types.hpp>
#include <timemory/utility/types.hpp>
#include <timemory/variadic/functional.hpp>
#include <timemory/variadic/lightweight_tuple.hpp>
#include <rocprofiler.h>
#include <cstdint>
#include <string_view>
#include <type_traits>
namespace omnitrace
{
namespace component
{
namespace
{
auto&
rocprofiler_activity_count()
{
static std::atomic<int64_t> _v{ 0 };
return _v;
}
} // namespace
unique_ptr_t<rocm_data_t>&
rocm_data(int64_t _tid)
{
using thread_data_t = thread_data<rocm_data_t, rocm_event>;
return thread_data_t::instance(construct_on_thread{ _tid });
}
rocm_event::rocm_event(uint32_t _dev, uint32_t _thr, uint32_t _queue,
std::string _event_name, rocm_metric_type _begin,
rocm_metric_type _end, uint32_t _feature_count, void* _features_v)
: device_id{ _dev }
, thread_id{ _thr }
, queue_id{ _queue }
, entry{ _begin }
, exit{ _end }
, name(std::move(_event_name))
{
feature_values.reserve(_feature_count);
feature_names.reserve(_feature_count);
auto* _features = static_cast<rocprofiler_feature_t*>(_features_v);
for(uint32_t i = 0; i < _feature_count; ++i)
{
const rocprofiler_feature_t* p = &_features[i];
feature_names.emplace_back(i);
switch(p->data.kind)
{
// Output metrics results
case ROCPROFILER_DATA_KIND_UNINIT: break;
case ROCPROFILER_DATA_KIND_BYTES:
feature_values.emplace_back(
rocm_feature_value{ p->data.result_bytes.size });
break;
case ROCPROFILER_DATA_KIND_INT32:
feature_values.emplace_back(rocm_feature_value{ p->data.result_int32 });
break;
case ROCPROFILER_DATA_KIND_FLOAT:
feature_values.emplace_back(rocm_feature_value{ p->data.result_float });
break;
case ROCPROFILER_DATA_KIND_DOUBLE:
feature_values.emplace_back(rocm_feature_value{ p->data.result_double });
break;
case ROCPROFILER_DATA_KIND_INT64:
feature_values.emplace_back(rocm_feature_value{ p->data.result_int64 });
break;
}
}
}
std::string
rocm_event::as_string() const
{
std::stringstream _ss{};
_ss << name << ", device: " << device_id << ", queue: " << queue_id
<< ", thread: " << thread_id << ", entry: " << entry << ", exit = " << exit;
_ss.precision(3);
_ss << std::fixed;
for(size_t i = 0; i < feature_names.size(); ++i)
{
auto _name = omnitrace::rocprofiler::get_data_labels().at(device_id).at(
feature_names.at(i));
_ss << ", " << _name << " = ";
auto _as_string = [&_ss](auto&& itr) { _ss << std::setw(4) << itr; };
std::visit(_as_string, feature_values.at(i));
}
return _ss.str();
}
void
rocprofiler::preinit()
{
rocprofiler_data::label() = "rocprofiler";
rocprofiler_data::description() = "ROCm hardware counters";
}
void
rocprofiler::start()
{
if(tracker_type::start() == 0) setup();
}
void
rocprofiler::stop()
{
if(tracker_type::stop() == 0) shutdown();
}
bool
rocprofiler::is_setup()
{
return omnitrace::rocprofiler::is_setup();
}
void
rocprofiler::add_setup(const std::string&, std::function<void()>&&)
{}
void
rocprofiler::add_shutdown(const std::string&, std::function<void()>&&)
{}
void
rocprofiler::remove_setup(const std::string&)
{}
void
rocprofiler::remove_shutdown(const std::string&)
{}
void
rocprofiler::setup()
{
OMNITRACE_VERBOSE_F(1, "rocprofiler is setup\n");
}
void
rocprofiler::shutdown()
{
omnitrace::rocprofiler::post_process();
omnitrace::rocprofiler::rocm_cleanup();
OMNITRACE_VERBOSE_F(1, "rocprofiler is shutdown\n");
}
scope::transient_destructor
rocprofiler::protect_flush_activity()
{
return scope::transient_destructor([]() { --rocprofiler_activity_count(); },
[]() { ++rocprofiler_activity_count(); });
}
} // namespace component
} // namespace omnitrace
OMNITRACE_INSTANTIATE_EXTERN_COMPONENT(rocprofiler, false, void)
OMNITRACE_INSTANTIATE_EXTERN_COMPONENT(rocprofiler_data, true,
tim::component::rocprofiler_value)