97b7a6315d
* Update LICENSE * Update conf.py * Update copyright year * [fix] Update copyright year * Update copyright year "ROCm Developer Tools" * Add license headers to c++ files * Add license to *.py * Update licenses in rocdecode sources --------- Co-authored-by: srawat <120587655+SwRaw@users.noreply.github.com> Co-authored-by: Mythreya <mythreya.kuricheti@amd.com> Co-authored-by: Jonathan R. Madsen <jonathanrmadsen@gmail.com>
285 строки
10 KiB
C++
285 строки
10 KiB
C++
// MIT License
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//
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// Copyright (c) 2023-2025 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 <rocprofiler-sdk/external_correlation.h>
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#include <rocprofiler-sdk/fwd.h>
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#include "lib/common/synchronized.hpp"
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#include "lib/common/utility.hpp"
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#include "lib/rocprofiler-sdk/context/context.hpp"
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#include "lib/rocprofiler-sdk/external_correlation.hpp"
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#include <unistd.h>
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namespace rocprofiler
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{
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namespace external_correlation
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{
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namespace
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{
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auto
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get_default_tid()
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{
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static auto _v = common::get_tid();
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return _v;
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}
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constexpr auto empty_user_data = rocprofiler_user_data_t{.value = 0};
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auto&
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get_default_data_impl()
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{
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static auto _v = std::atomic<uint64_t>{0};
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return _v;
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}
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auto
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get_default_data()
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{
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return rocprofiler_user_data_t{.value =
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get_default_data_impl().load(std::memory_order_relaxed)};
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}
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auto f_default_tid = get_default_tid(); // make sure it is initialized
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} // namespace
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rocprofiler_user_data_t
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external_correlation::get(rocprofiler_thread_id_t tid) const
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{
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return data.rlock(
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[](const external_correlation_map_t& _data, rocprofiler_thread_id_t tid_v) {
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if(_data.count(tid_v) == 0) return get_default_data();
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const auto& itr = _data.at(tid_v);
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return itr.rlock([](const external_correlation_stack_t& data_stack) {
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if(data_stack.empty()) return get_default_data();
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return data_stack.back();
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});
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},
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tid);
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}
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rocprofiler_user_data_t
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external_correlation::get(rocprofiler_thread_id_t tid,
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const context::context* ctx,
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request_kind_t kind,
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uint32_t op,
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uint64_t internal_corr_id) const
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{
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if(requires_request(kind))
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{
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auto opt_data = invoke_callback(tid, ctx, kind, op, internal_corr_id);
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if(opt_data) return *opt_data;
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}
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return get(tid);
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}
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rocprofiler_user_data_t&
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external_correlation::update(rocprofiler_user_data_t& value,
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rocprofiler_thread_id_t thr_id,
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request_kind_t kind) const
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{
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// if requires request is true, do not update, otherwise, get the latest pushed external
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// correlation id
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return (requires_request(kind)) ? value : (value = get(thr_id));
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}
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void
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external_correlation::push(rocprofiler_thread_id_t tid, rocprofiler_user_data_t user_data)
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{
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static auto default_tid = get_default_tid();
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// ensure that data contains key for provided thread id
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while(!data.ulock(
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[](const external_correlation_map_t& _data, rocprofiler_thread_id_t tid_v) {
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return (_data.find(tid_v) != _data.end());
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},
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[](external_correlation_map_t& _data, rocprofiler_thread_id_t tid_v) {
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_data.emplace(tid_v, external_correlation_stack_t{});
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return true;
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},
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tid))
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{}
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// since we know from above that there will be a key for the tid, we start with a read
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// lock and then once we have have the mapped data for the key, we leverage the enabling
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// of the wlock const overload to remove the constness and use a write lock. If we were to use a
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// write lock at the top lovel, then we would unnecessarily block other threads from writing to
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// the stack of another thread
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data.rlock(
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[](const external_correlation_map_t& _data,
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rocprofiler_thread_id_t tid_v,
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rocprofiler_user_data_t user_data_v) {
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const auto& itr = _data.at(tid_v);
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itr.wlock([](external_correlation_stack_t& data_stack,
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rocprofiler_user_data_t value) { data_stack.emplace_back(value); },
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user_data_v);
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// child threads inherit the current value on default thread
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if(tid_v == default_tid)
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get_default_data_impl().store(user_data_v.value, std::memory_order_relaxed);
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},
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tid,
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user_data);
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}
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rocprofiler_user_data_t
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external_correlation::pop(rocprofiler_thread_id_t tid)
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{
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static auto default_tid = get_default_tid();
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return data.rlock(
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[](const external_correlation_map_t& _data, rocprofiler_thread_id_t tid_v) {
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if(_data.count(tid_v) == 0) return empty_user_data;
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const auto& itr = _data.at(tid_v);
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return itr.wlock([tid_v](external_correlation_stack_t& data_stack) {
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if(data_stack.empty()) return empty_user_data;
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auto ret = data_stack.back();
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data_stack.pop_back();
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// child threads inherit the current value on default thread
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if(tid_v == default_tid)
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{
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uint64_t value = (!data_stack.empty()) ? data_stack.back().value : 0;
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get_default_data_impl().store(value, std::memory_order_relaxed);
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}
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return ret;
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});
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},
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tid);
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}
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rocprofiler_status_t
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external_correlation::configure_request(request_cb_t callback_v,
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void* callback_data_v,
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const std::vector<request_kind_t>& kinds_v)
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{
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if(!callback_v)
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return ROCPROFILER_STATUS_ERROR_INVALID_ARGUMENT;
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else if(callback || callback_data || request.any())
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return ROCPROFILER_STATUS_ERROR_SERVICE_ALREADY_CONFIGURED;
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callback = callback_v;
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callback_data = callback_data_v;
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if(kinds_v.empty())
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{
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request.flip();
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}
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else
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{
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for(auto itr : kinds_v)
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{
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if(itr <= ROCPROFILER_EXTERNAL_CORRELATION_REQUEST_NONE ||
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itr >= ROCPROFILER_EXTERNAL_CORRELATION_REQUEST_LAST)
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return ROCPROFILER_STATUS_ERROR_KIND_NOT_FOUND;
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request.set(itr - 1, true);
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}
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}
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return ROCPROFILER_STATUS_SUCCESS;
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}
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bool
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external_correlation::requires_request(request_kind_t kind) const
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{
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return request.test(kind - 1);
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}
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std::optional<rocprofiler_user_data_t>
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external_correlation::invoke_callback(rocprofiler_thread_id_t thr_id,
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const context::context* ctx,
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request_kind_t kind,
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uint32_t op,
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uint64_t internal_corr_id) const
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{
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auto value = rocprofiler_user_data_t{.value = 0};
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auto ctx_id = rocprofiler_context_id_t{ctx->context_idx};
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if(callback(thr_id, ctx_id, kind, op, internal_corr_id, &value, callback_data) == 0)
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return value;
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return std::nullopt;
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}
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} // namespace external_correlation
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} // namespace rocprofiler
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extern "C" {
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rocprofiler_status_t
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rocprofiler_configure_external_correlation_id_request_service(
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rocprofiler_context_id_t context_id,
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const rocprofiler_external_correlation_id_request_kind_t* kinds,
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size_t kinds_count,
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rocprofiler_external_correlation_id_request_cb_t callback,
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void* callback_args)
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{
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auto* ctx = rocprofiler::context::get_mutable_registered_context(context_id);
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if(!ctx) return ROCPROFILER_STATUS_ERROR_CONTEXT_NOT_FOUND;
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auto kinds_v = std::vector<rocprofiler_external_correlation_id_request_kind_t>{};
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if(kinds)
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{
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kinds_v.reserve(kinds_count);
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if(kinds_count < 1) return ROCPROFILER_STATUS_ERROR_INVALID_ARGUMENT;
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for(size_t i = 0; i < kinds_count; ++i)
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kinds_v.emplace_back(kinds[i]);
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}
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return ctx->correlation_tracer.external_correlator.configure_request(
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callback, callback_args, kinds_v);
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}
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rocprofiler_status_t
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rocprofiler_push_external_correlation_id(rocprofiler_context_id_t context,
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rocprofiler_thread_id_t tid,
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rocprofiler_user_data_t external_correlation_id)
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{
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// assumption is that thread ids are monotonically increasing from the pid
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static uint64_t pid_v = getpid();
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if(tid < pid_v) return ROCPROFILER_STATUS_ERROR_INVALID_ARGUMENT;
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auto* ctx = rocprofiler::context::get_mutable_registered_context(context);
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if(!ctx) return ROCPROFILER_STATUS_ERROR_CONTEXT_NOT_FOUND;
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ctx->correlation_tracer.external_correlator.push(tid, external_correlation_id);
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return ROCPROFILER_STATUS_SUCCESS;
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}
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rocprofiler_status_t
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rocprofiler_pop_external_correlation_id(rocprofiler_context_id_t context,
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rocprofiler_thread_id_t tid,
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rocprofiler_user_data_t* external_correlation_id)
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{
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// assumption is that thread ids are monotonically increasing from the pid
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static uint64_t pid_v = getpid();
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if(tid < pid_v) return ROCPROFILER_STATUS_ERROR_INVALID_ARGUMENT;
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auto* ctx = rocprofiler::context::get_mutable_registered_context(context);
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if(!ctx) return ROCPROFILER_STATUS_ERROR_CONTEXT_NOT_FOUND;
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auto former = ctx->correlation_tracer.external_correlator.pop(tid);
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if(external_correlation_id) *external_correlation_id = former;
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return ROCPROFILER_STATUS_SUCCESS;
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}
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}
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