Files
rocm-systems/source/lib/omnitrace/library/runtime.cpp
T
Jonathan R. Madsen 808ea7dfa7 Rework sampling and colorized logs (#140)
## Overview

This is a significant PR which has 3 very notable characteristics:

1. Omnitrace colorizes most of it's logging
2. Completely reworked the sampling 
  - Samples now record the current instruction pointers instead of strings
    - This _dramatically_ decreases the overhead of taking a sample
  - The collection of metrics during a sample are split out into another component, enabling that data collection to be disabled -- which decreases the sampling overhead even further
  - When both `OMNITRACE_SAMPLING_CPUTIME` and `OMNITRACE_SAMPLING_REALTIME` are ON:
    - `OMNITRACE_SAMPLING_CPUTIME_FREQ` and `OMNITRACE_SAMPLING_REALTIME_FREQ` can be used to individually control the sampling frequency 
  - `OMNITRACE_SAMPLING_CPUTIME_DELAY` and `OMNITRACE_SAMPLING_REALTIME_DELAY` can be used to individually control the delay time before starting
  - Now, omnitrace does not start a real-time sampler on the main thread unless `OMNITRACE_SAMPLING_REALTIME` is ON
    - In the future, an `OMNITRACE_SAMPLING_TIDS` (and real-time, cpu-time variants) configuration variable(s) will allow you to select which threads will be sampled
3. Files produced by `omnitrace` exe -- `available-instr.txt`, `instrumented-instr.txt`, etc. -- now no longer has `-instr` suffix and are placed in `instrumentation/` subfolder, i.e. `available-instr.txt` -> instrumentation/available.txt`
  - This helped de-clutter the output folder

Most of the other edits were reorganization (e.g. internal namespace changes), cleanup, and splitting up functionality.

## Bug Fixes

There is a bug fix with respect to the HSA callbacks which disabled sampling on child threads when an HSA API call was made

## Details

- created thread_info struct for mapping different thread IDs
- reorganized file structure significantly
- added categories.hpp, concepts.hpp
- moved around name trait definitions
- moved all omnitrace components into `omnitrace::component` namespace
  - there was a lot of inconsistency b/t using `tim::component` in some places and `omnitrace::component`
  - added macros like OMNITRACE_DECLARE_COMPONENT in lieu of TIMEMORY_DECLARE_COMPONENT
- OMNITRACE_CRITICAL_TRACE_NUM_THREADS -> OMNITRACE_THREAD_POOL_SIZE
- roctracer and critical_trace use same thread pool
- critical_trace functions do not lock anymore bc of thread-local TaskGroup
- added `component::local_category_region` to support using `component::category_region` without explicitly passing in name
- removed `component::omnitrace` (unused)
- migrated KokkosP and OMPT to use `component::local_category_region`
  - removed `component::user_region` as a result
- migrated omnitrace_{push,pop}_{trace,region}_hidden to use component::category_region
  - removed `component::functors` as a result
- migrated some ppdefs
- `api::omnitrace` -> `project::omnitrace`
- `api::(...)` -> `category::(...)`
- improved recording the execution time of threads
  - migrated this functionality out of pthread_create_gotcha and into thread_info
- moved mpi_gotcha, fork_gotcha, exit_gotcha, rcclp into omnitrace::component namespace
- split backtrace up into backtrace, backtrace_metrics, backtrace_timestamp components
- sampling.cpp handles setup and post-processing that was formerly in backtrace
- updated logging to use colors
- `OMNITRACE_COLORIZED_LOG` config variable
- updated docs on JSON output from timemory
- instrumentation info in instrumentation subfolder
- added testing for KokkosP entries
- added testing for ompt entries
- add_critical_trace function defined in critical_trace.hpp
- disable push_thread_state and pop_thread_state when thread state is Disabled or Completed
- add comp::page_rss to main bundle
- thread_data supports std::optional instead of std::unique_ptr
- thread_data supports tim::identity<T> to avoid unique_ptr or optional
- tracing::record_thread_start_time()
- tracing::push_timemory and tracing::pop_timemory are templated on CategoryT
- removed anonymous namespace from omnitrace::utility
- sampling backtrace stores instruction pointers instead of strings
- component::category_region updates
  - handle disabled thread state
  - handle finalized state
  - fewer debug messages
  - invoke thread_init()
  - invoke thread_init_sampling()
  - handle push/pop count based on category
  - push/pop count only modified when used
- component::cpu_freq
- components/ensure_storage.hpp
- reworked the pthread_create replacement function
- updated parallel-overhead example to report # of times locked
- OMNITRACE_MAX_UNWIND_DEPTH build option
- update timemory submodule
2022-08-31 01:24:31 -05:00

258 строки
7.3 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/runtime.hpp"
#include "api.hpp"
#include "library/config.hpp"
#include "library/debug.hpp"
#include "library/defines.hpp"
#include "library/thread_data.hpp"
#include "library/utility.hpp"
#include <timemory/backends/dmp.hpp>
#include <timemory/backends/mpi.hpp>
#include <timemory/backends/process.hpp>
#include <timemory/backends/threading.hpp>
#include <timemory/components/rusage/backends.hpp>
#include <timemory/environment.hpp>
#include <timemory/sampling/allocator.hpp>
#include <timemory/settings.hpp>
#include <timemory/settings/types.hpp>
#include <timemory/utility/argparse.hpp>
#include <timemory/utility/declaration.hpp>
#include <timemory/utility/signals.hpp>
#include <array>
#include <csignal>
#include <cstdint>
#include <cstdlib>
#include <numeric>
#include <ostream>
#include <string>
#include <unistd.h>
namespace omnitrace
{
int
get_realtime_signal()
{
return SIGRTMIN + config::get_sampling_rtoffset();
}
int
get_cputime_signal()
{
return SIGPROF;
}
std::set<int> get_sampling_signals(int64_t)
{
auto _sigreal = get_realtime_signal();
auto _sigprof = get_cputime_signal();
if(config::get_use_sampling_realtime() && config::get_use_sampling_cputime())
return std::set<int>{ _sigreal, _sigprof };
else if(config::get_use_sampling_realtime())
return std::set<int>{ _sigreal };
else if(config::get_use_sampling_cputime())
return std::set<int>{ _sigprof };
return std::set<int>{};
}
std::atomic<uint64_t>&
get_cpu_cid()
{
static std::atomic<uint64_t> _v{ 0 };
return _v;
}
unique_ptr_t<std::vector<uint64_t>>&
get_cpu_cid_stack(int64_t _tid, int64_t _parent)
{
struct omnitrace_cpu_cid_stack
{};
using init_data_t = thread_data<bool, omnitrace_cpu_cid_stack>;
using thread_data_t = thread_data<std::vector<uint64_t>, omnitrace_cpu_cid_stack>;
static auto& _v = thread_data_t::instances(thread_data_t::construct_on_init{});
static auto& _b = init_data_t::instances(init_data_t::construct_on_init{}, false);
auto& _v_tid = _v.at(_tid);
if(_b.at(_tid) && !(*_b.at(_tid)))
{
*_b.at(_tid) = true;
auto _parent_tid = _parent;
// if tid != parent and there is not a valid pointer for the provided parent
// thread id set it to zero since that will always be valid
if(_tid != _parent_tid && !_v.at(_parent_tid)) _parent_tid = 0;
// copy over the thread ids from the parent if tid != parent
if(_tid != _parent_tid) *_v_tid = *_v.at(_parent_tid);
}
return _v_tid;
}
unique_ptr_t<cpu_cid_parent_map_t>&
get_cpu_cid_parents(int64_t _tid)
{
struct omnitrace_cpu_cid_stack
{};
using thread_data_t = thread_data<cpu_cid_parent_map_t, omnitrace_cpu_cid_stack>;
static auto& _v = thread_data_t::instances(thread_data_t::construct_on_init{},
cpu_cid_parent_map_t{});
return _v.at(_tid);
}
std::tuple<uint64_t, uint64_t, uint32_t>
create_cpu_cid_entry(int64_t _tid)
{
using tim::auto_lock_t;
OMNITRACE_SCOPED_THREAD_STATE(ThreadState::Internal);
// unique lock for _tid
auto& _mtx = get_cpu_cid_stack_lock(_tid);
auto_lock_t _lk{ _mtx, std::defer_lock };
if(!_lk.owns_lock()) _lk.lock();
int64_t _p_idx = (get_cpu_cid_stack(_tid)->empty()) ? 0 : _tid;
auto& _p_mtx = get_cpu_cid_stack_lock(_p_idx);
auto_lock_t _p_lk{ _p_mtx, std::defer_lock };
if(!_p_lk.owns_lock()) _p_lk.lock();
auto&& _cid = get_cpu_cid()++;
auto&& _parent_cid = get_cpu_cid_stack(_p_idx)->back();
uint32_t&& _depth = get_cpu_cid_stack(_p_idx)->size() - ((_p_idx == _tid) ? 1 : 0);
get_cpu_cid_parents(_tid)->emplace(_cid, std::make_tuple(_parent_cid, _depth));
return std::make_tuple(_cid, _parent_cid, _depth);
}
cpu_cid_pair_t
get_cpu_cid_entry(uint64_t _cid, int64_t _tid)
{
return get_cpu_cid_parents(_tid)->at(_cid);
}
tim::mutex_t&
get_cpu_cid_stack_lock(int64_t _tid)
{
struct cpu_cid_stack_s
{};
return tim::type_mutex<cpu_cid_stack_s, project::omnitrace, max_supported_threads>(
_tid);
}
namespace
{
void
setup_gotchas()
{
static bool _initialized = false;
if(_initialized) return;
_initialized = true;
OMNITRACE_BASIC_DEBUG(
"Configuring gotcha wrapper around fork, MPI_Init, and MPI_Init_thread\n");
component::mpi_gotcha::configure();
component::exit_gotcha::configure();
component::fork_gotcha::configure();
}
} // namespace
std::unique_ptr<main_bundle_t>&
get_main_bundle()
{
static auto _v = []() {
auto _self = RUSAGE_SELF;
std::swap(_self, tim::get_rusage_type());
auto _tmp = std::make_unique<main_bundle_t>(
JOIN('/', "omnitrace/process", process::get_id()),
quirk::config<quirk::auto_start>{});
std::swap(_self, tim::get_rusage_type());
return _tmp;
}();
return _v;
}
std::unique_ptr<gotcha_bundle_t>&
get_gotcha_bundle()
{
static auto _v =
(setup_gotchas(), std::make_unique<gotcha_bundle_t>(
JOIN('/', "omnitrace/process", process::get_id()),
quirk::config<quirk::auto_start>{}));
return _v;
}
namespace
{
auto&
get_thread_state_history(int64_t _idx = utility::get_thread_index())
{
static auto _v = utility::get_filled_array<OMNITRACE_MAX_THREADS>(
[]() { return utility::get_reserved_vector<ThreadState>(32); });
return _v.at(_idx);
}
} // namespace
ThreadState&
get_thread_state()
{
static thread_local ThreadState _v{ ThreadState::Enabled };
return _v;
}
ThreadState
set_thread_state(ThreadState _n)
{
auto _o = get_thread_state();
get_thread_state() = _n;
return _o;
}
ThreadState
push_thread_state(ThreadState _v)
{
if(get_thread_state() >= ThreadState::Completed) return get_thread_state();
return get_thread_state_history().emplace_back(set_thread_state(_v));
}
ThreadState
pop_thread_state()
{
if(get_thread_state() >= ThreadState::Completed) return get_thread_state();
auto& _hist = get_thread_state_history();
if(!_hist.empty())
{
set_thread_state(_hist.back());
_hist.pop_back();
}
return get_thread_state();
}
} // namespace omnitrace