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rocm-systems/projects/rocprofiler-systems/source/lib/rocprof-sys/library/thread_info.cpp
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// MIT License
//
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// Copyright (c) 2022-2025 Advanced Micro Devices, Inc. All Rights Reserved.
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//
// 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/thread_info.hpp"
#include "core/common.hpp"
#include "core/concepts.hpp"
#include "core/config.hpp"
#include "core/state.hpp"
#include "core/utility.hpp"
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#include "library/causal/delay.hpp"
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#include "library/runtime.hpp"
#include "library/thread_data.hpp"
#include "library/thread_data_growth.hpp"
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#include <timemory/backends/threading.hpp>
#include <timemory/components/timing/backends.hpp>
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#include <timemory/process/threading.hpp>
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#include "logger/debug.hpp"
#include <cstdint>
namespace rocprofsys
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{
namespace
{
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auto&
get_info_data()
{
using thread_data_t = thread_data<std::optional<thread_info>, project::rocprofsys>;
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static auto& _v = thread_data_t::instance(construct_on_init{});
return _v;
}
auto&
get_index_data()
{
using thread_data_t =
thread_data<std::optional<thread_index_data>, project::rocprofsys>;
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static auto& _v = thread_data_t::instance(construct_on_init{});
return _v;
}
auto&
get_info_data(int64_t _tid)
{
return get_info_data()->at(_tid);
}
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auto&
get_index_data(int64_t _tid)
{
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return get_index_data()->at(_tid);
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}
auto
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init_index_data(int64_t _tid, bool _offset = false)
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{
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auto& itr = get_index_data(_tid);
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if(!itr)
{
threading::offset_this_id(_offset);
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itr = thread_index_data{};
if(itr->internal_value != _tid)
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{
throw std::runtime_error(
fmt::format("Error! thread_info::init_index_data was called for "
"thread {} on thread {}\n",
_tid, itr->internal_value));
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}
LOG_TRACE("Thread {} on PID {} (rank: {}) assigned rocprof-sys TID {} "
"(internal: {})",
itr->system_value, process::get_id(), dmp::rank(), itr->sequent_value,
itr->internal_value);
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}
return itr;
}
thread_local int64_t offset_causal_count = 0;
const auto unknown_thread = std::optional<thread_info>{};
int64_t peak_num_threads = max_supported_threads;
// Register callback to allow thread_data containers to query peak_num_threads
// when they are instantiated, ensuring late-instantiated containers are properly sized.
const auto peak_num_threads_callback_registered = []() {
set_peak_num_threads_callback([]() -> int64_t { return peak_num_threads; });
return true;
}();
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} // namespace
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std::string
thread_index_data::as_string() const
{
auto _ss = std::stringstream{};
_ss << sequent_value << " [" << fmt::format("{:x}", system_value) << "] (#"
<< internal_value << ")";
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return _ss.str();
}
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int64_t
grow_data(int64_t _tid)
{
struct data_growth
{};
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if(_tid >= peak_num_threads)
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{
ROCPROFSYS_SCOPED_THREAD_STATE(ThreadState::Internal);
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auto_lock_t _lk{ type_mutex<data_growth>() };
// check again after locking
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if(_tid >= peak_num_threads)
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{
LOG_WARNING("[{}] Growing thread data from {} to {}...", _tid,
peak_num_threads, peak_num_threads + max_supported_threads);
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for(auto itr : grow_functors())
{
if(itr)
{
int64_t _new_capacity = (*itr)(_tid + 1);
LOG_WARNING("[{}] Grew thread data from {} to {}...", _tid,
peak_num_threads, _new_capacity);
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}
}
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peak_num_threads += max_supported_threads;
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}
}
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return peak_num_threads;
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}
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bool
thread_info::exists()
{
return (get_info_data() != nullptr);
}
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size_t
thread_info::get_peak_num_threads()
{
return peak_num_threads;
}
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const std::optional<thread_info>&
thread_info::init(bool _offset)
{
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static thread_local bool _once = false;
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auto& _info_data = get_info_data();
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auto _tid = utility::get_thread_index();
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if(!_info_data)
{
static auto _dummy = std::optional<thread_info>{};
return (_dummy.reset(), _dummy); // always reset for safety
}
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if(!_once && (_once = true))
{
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grow_data(_tid);
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threading::offset_this_id(_offset);
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auto& _info = _info_data->at(_tid);
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_info = thread_info{};
_info->is_offset = threading::offset_this_id();
_info->index_data = init_index_data(_tid, _info->is_offset);
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_info->lifetime.first = tim::get_clock_real_now<uint64_t, std::nano>();
const auto _sequent_tid = _info->index_data->sequent_value;
_info->causal_count = (!_info->is_offset && _sequent_tid < peak_num_threads)
? &causal::delay::get_local(_sequent_tid)
: &offset_causal_count;
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if(_info->is_offset) set_thread_state(ThreadState::Disabled);
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}
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return _info_data->at(_tid);
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}
const std::optional<thread_info>&
thread_info::get()
{
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if(!exists())
{
static thread_local auto _v = std::optional<thread_info>{};
return _v;
}
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return get_info_data(utility::get_thread_index());
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}
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const std::optional<thread_info>&
thread_info::get(native_handle_t& _tid)
{
return get(native_handle_t{ _tid });
}
const std::optional<thread_info>&
thread_info::get(native_handle_t&& _tid)
{
const auto& _v = get_info_data();
if(_v)
{
for(const auto& itr : *_v)
{
if(itr && itr->index_data &&
pthread_equal(itr->index_data->pthread_value, _tid) == 0)
return itr;
}
}
if(get_is_continuous_integration() && unknown_thread)
{
throw std::runtime_error("Unknown thread has been assigned a value");
}
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return unknown_thread;
}
const std::optional<thread_info>&
thread_info::get(std::thread::id _tid)
{
const auto& _v = get_info_data();
if(_v)
{
for(const auto& itr : *_v)
{
if(itr && itr->index_data && itr->index_data->stl_value == _tid) return itr;
}
}
if(get_is_continuous_integration() && unknown_thread)
{
throw std::runtime_error("Unknown thread has been assigned a value");
}
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return unknown_thread;
}
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const std::optional<thread_info>&
thread_info::get(int64_t _tid, ThreadIdType _type)
{
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if(_type == ThreadIdType::InternalTID)
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return get_info_data(_tid);
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else if(_type == ThreadIdType::SystemTID)
{
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const auto& _v = get_info_data();
if(_v)
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{
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for(const auto& itr : *_v)
{
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if(itr && itr->index_data && itr->index_data->system_value == _tid)
return itr;
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}
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}
}
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else if(_type == ThreadIdType::SequentTID)
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{
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const auto& _v = get_info_data();
if(_v)
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{
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for(const auto& itr : *_v)
{
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if(itr && itr->index_data && itr->index_data->sequent_value == _tid)
return itr;
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}
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}
}
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else if(_type == ThreadIdType::PthreadID)
{
throw std::runtime_error("rocprof-sys does not support thread_info::get(int64_t, "
"ThreadIdType) with ThreadIdType::PthreadID");
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}
else if(_type == ThreadIdType::StlThreadID)
{
throw std::runtime_error("rocprof-sys does not support thread_info::get(int64_t, "
"ThreadIdType) with ThreadIdType::StlThreadID");
}
if(get_is_continuous_integration() && unknown_thread)
{
throw std::runtime_error("Unknown thread has been assigned a value");
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}
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return unknown_thread;
}
void
thread_info::set_start(uint64_t _ts, bool _force)
{
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auto& _v = get_info_data(utility::get_thread_index());
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if(!_v) init();
if(_force || (_ts > 0 && (_v->lifetime.first == 0 || _ts < _v->lifetime.first)))
_v->lifetime.first = _ts;
}
void
thread_info::set_stop(uint64_t _ts)
{
auto _tid = utility::get_thread_index();
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auto& _v = get_info_data(_tid);
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if(_v)
{
_v->lifetime.second = _ts;
// if the main thread, make sure all child threads have a end lifetime
// less than or equal to the main thread end lifetime
if(_tid == 0)
{
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for(auto& itr : *get_info_data())
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{
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if(itr && itr->index_data && itr->index_data->internal_value != _tid)
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{
if(itr->lifetime.second > _v->lifetime.second)
itr->lifetime.second = _v->lifetime.second;
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else if(itr->lifetime.second == 0)
itr->lifetime.second = _v->lifetime.second;
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}
}
}
}
}
uint64_t
thread_info::get_start() const
{
return lifetime.first;
}
uint64_t
thread_info::get_stop() const
{
return lifetime.second;
}
bool
thread_info::is_valid_time(uint64_t _ts) const
{
return (_ts >= lifetime.first && _ts <= lifetime.second);
}
bool
thread_info::is_valid_lifetime(uint64_t _beg, uint64_t _end) const
{
return (is_valid_time(_beg) && is_valid_time(_end));
}
bool
thread_info::is_valid_lifetime(lifetime_data_t _v) const
{
return (is_valid_time(_v.first) && is_valid_time(_v.second));
}
thread_info::lifetime_data_t
thread_info::get_valid_lifetime(lifetime_data_t _v) const
{
if(!is_valid_time(_v.first)) _v.first = lifetime.first;
if(!is_valid_time(_v.second)) _v.second = lifetime.second;
return _v;
}
std::string
thread_info::as_string() const
{
std::stringstream _ss{};
_ss << std::boolalpha << "is_offset=" << is_offset;
if(index_data)
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{
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_ss << ", index_data=(" << index_data->internal_value << ", "
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<< index_data->system_value << ", " << index_data->sequent_value << ", "
<< index_data->pthread_value << ", " << index_data->stl_value << ")";
}
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if(causal_count) _ss << ", causal count=" << *causal_count;
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_ss << ", lifetime=(" << lifetime.first << ":" << lifetime.second << ")";
return _ss.str();
}
} // namespace rocprofsys