Files
rocm-systems/projects/rocprofiler-sdk/tests/tools/json-tool.cpp
T
Jonathan R. Madsen cefb7bc8d6 HIP API Tracing (#357)
* Update include/rocprofiler-sdk/hip*

- updates for intercept table

* Update lib/common/units.hpp

- clang-tidy fixes

* Add lib/rocprofiler-sdk/hip

- tracing implementation for the HIP intercept table

* Update source/lib/rocprofiler-sdk/CMakeLists.txt

- add_subdirectory(hip)

* Update source/lib/rocprofiler-sdk/hsa

- offset function in hsa_api_info<Idx>
- remove report_activity, set_callback
- Tweak HSA_API_TABLE_LOOKUP_DEFINITION

* Update lib/rocprofiler-sdk/hip

- rocprofiler::hip::copy_table
- stringize_impl print dereferenced pointers when possible

* Update lib/rocprofiler-sdk/hsa/utils.hpp

- stringize_impl print dereferenced pointers when possible

* Update lib/rocprofiler-sdk/tests/intercept_table.cpp

- remove failures for intercepting HIP API tables

* Update include/rocprofiler-sdk/fwd.h

- add ROCPROFILER_HIP_RUNTIME_LIBRARY (== ROCPROFILER_HIP_LIBRARY)
- add ROCPROFILER_HIP_COMPILER_LIBRARY

* Update lib/rocprofiler-sdk/buffer_tracing.cpp

- Support ROCPROFILER_BUFFER_TRACING_HIP_API in rocprofiler_query_buffer_tracing_kind_operation_name
- Support ROCPROFILER_BUFFER_TRACING_HIP_API in rocprofiler_iterate_buffer_tracing_kind_operations

* Update lib/rocprofiler-sdk/callback_tracing.cpp

- Support ROCPROFILER_CALLBACK_TRACING_HIP_API in rocprofiler_query_callback_tracing_kind_operation_name
- Support ROCPROFILER_CALLBACK_TRACING_HIP_API in rocprofiler_iterate_callback_tracing_kind_operations
- Support ROCPROFILER_CALLBACK_TRACING_HIP_API in rocprofiler_iterate_callback_tracing_kind_operation_args

* Update lib/rocprofiler-sdk/intercept_table.cpp

- support HipDispatchTable and HipCompilerDispatchTable

* Update lib/rocprofiler-sdk/internal_threading.cpp

- Support ROCPROFILER_HIP_COMPILER_LIBRARY

* Update lib/rocprofiler-sdk/registration.cpp

- Support "hip" and "hip_compiler" in rocprofiler_set_api_table
- Added some extra logging

* Update samples/api_{buffered,callback}_tracing

- Modifications to demonstrate HIP API tracing

* Update tests/kernel-tracing

- Modifications to handle/test HIP API tracing

* Separate HIP tracing from HIP compiler tracing

* Fix installation of include/rocprofiler-sdk/hip/*

- add compiler and table headers to install

* Fixes to HIP interception

- hip_api_trace.hpp was updated a bit
  - removed hipGetDeviceProperties (generic)
  - added hipGetDevicePropertiesR0600
  - added hipGetDevicePropertiesR0000
  - removed hipRegisterTracerCallback
  - reordered hipCreateChannelDesc, hipExtModuleLaunchKernel, hipHccModuleLaunchKernel
  - added hipDrvGraphAddMemsetNode
- static asserts in hsa_api_info ensuring ordering of pointers

* Update lib/rocprofiler-sdk/hip/hip.*

- use size_t instead of rocprofiler_hip_table_api_id_t as non-type template parameter (smaller binary)
- separated out population of callback_context_data and buffered_context_data into non-template function (significantly smaller binary)

* Update lib/rocprofiler-sdk/hsa/hsa.*

- separated out population of callback_context_data and buffered_context_data into non-template function (significantly smaller binary)

* Update test/kernel-tracing/validate.py

- does not expect any hip_api_traces until libamdhip.so actually starts using rocprofiler-register

* Update tests/tools/json-tool.cpp

- fix context associated with "HIP_API_CALLBACK"

* Update external/CMakeLists.txt

- move misc variables to top of CMakeLists.txt so they apply to all external subprojects
  - BUILD_TESTING (OFF)
  - BUILD_SHARED_LIBS (OFF)
  - BUILD_OBJECT_LIBS (OFF)
  - BUILD_STATIC_LIBS (ON)
  - CMAKE_POSITION_INDEPENDENT_CODE (ON)
  - CMAKE_VISIBILITY_INLINES_HIDDEN (ON)
  - CMAKE_CXX_VISIBILITY_PRESET (hidden)
- disable using libunwind in glog

* Update lib/rocprofiler-{sdk,sdk-tool}/CMakeLists.txt

- remove explicit setting of SKIP_BUILD_RPATH

* Update CMakeLists.txt

- set high-level CMAKE_BUILD_RPATH and CMAKE_INSTALL_RPATH_USE_LINK_PATH

* Update tests/CMakeLists.txt

- include(GNUInstallDirs)

* Update samples/CMakeLists.txt

- include(GNUInstallDirs)

* Update include/rocprofiler-sdk/hip/{compiler_api,api}_args.h

- remove extern "C" due to incompatibility b/t empty struct in C (size 0) vs. empty struct in C++ (size 1)

* Update lib/rocprofiler-sdk/hip/details/ostream.hpp

- clang-tidy fixes

* Update cmake/rocprofiler_linting.cmake

- add a feature for clang tidy exe

* Update lib/rocprofiler-sdk/hip/hip.cpp

- use recursion instead of fold expression due to clang-tidy errors (maximum nesting level exceeded)

* Update lib/rocprofiler-sdk/buffer_tracing.cpp

- fix merge

* Update lib/rocprofiler-sdk/callback_tracing.cpp

- fix merge

* Update bin/rocprofv3

- args for marker, HIP runtime, and HIP compiler tracing

* Update tests/apps/simple-transpose

- use roctx

* Update tests/rocprofv3/tracing

- validate marker API data

* Update lib/rocprofiler-sdk-tool

- support for HIP runtime, HIP compiler, marker API

* Update queue/queue_controller/registration/utility

- call hsa::queue_controller_fini() during finalization
- add a yield function to common/utility.hpp
  - implements a thread yield + sleep
- add a sync function to Queue class
- add a iterate_queues member function to QueueController
  - this is used to sync each queue during queue_controller_fini()

* Fix data races: queue/context/stable_vector

- stable_vector::emplace_back returns reference
- correlation id map uses stable_vector
- queue_info_session has explicit fields for queue id, hsa agent, rocp agent
- use hsa::get_table() in AsyncSignalHandler
- WriteInterceptor does not use TLS for context array

* Update lib/rocprofiler-sdk/hsa/hsa.*

- static object for API subtables
- accessors for API subtables
- google tests for HSA API subtables

* Update lib/rocprofiler-sdk/hsa/{queue,async_copy}.cpp

- use HSA subtable accessors

* Update rocprofiler_memcheck and CI workflow

- use GCC 13 instead of GCC 11 due to suspected false positives in thread sanitizer
  - GCC 13 uses libtsan.so.2

* Update CI workflow

* Update lib/rocprofiler-sdk/counters/{metrics,counters}

- fix possibly dangling reference to a temporary from gcc-13

* Update thread-sanitizer-suppr.txt

- Ignore data races originating in hsa-runtime library

* Update cmake/rocprofiler_memcheck.cmake

- Deduce the sanitizer library to preload by compiling an application and extracting the linked sanitizer library

* Update tests/rocprofv3/tracing/CMakeLists.txt

- add csv files to REQUIRED_FILES and ATTACH_ON_FAIL in validate test

* Update lib/common/container/record_header_buffer.hpp

- fix data race identified by gcc v13 and libtsan.so.2

* Update hip API id, args, and def

- remove hipDrvGraphAddMemsetNode (not part of ROCm 6.0

* Update lib/common/container/record_header_buffer.hpp

- fix deadlock in save/read/reset

* Update source/docs/CMakeLists.txt

- remove COMMAND_ERROR_IS_FATAL ANY to allow for printing of stdout/stderr

* Update lib/rocprofiler-sdk/hip/details/ostream.hpp

- remove overloads for HIP_MEMSET_NODE_PARAMS

* Update docs/CMakeLists.txt

- use find_program for shell instead of hardcoded /bin/bash

[ROCm/rocprofiler-sdk commit: c641749fe6]
2024-01-24 16:32:54 -06:00

1041 строка
40 KiB
C++

// MIT License
//
// Copyright (c) 2023 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.
//
// undefine NDEBUG so asserts are implemented
#ifdef NDEBUG
# undef NDEBUG
#endif
/**
* @file tests/tools/json-tool.cpp
*
* @brief Test rocprofiler tool
*/
#include "common/defines.hpp"
#include "common/filesystem.hpp"
#include "common/serialization.hpp"
#include <rocprofiler-sdk/buffer.h>
#include <rocprofiler-sdk/callback_tracing.h>
#include <rocprofiler-sdk/external_correlation.h>
#include <rocprofiler-sdk/fwd.h>
#include <rocprofiler-sdk/internal_threading.h>
#include <rocprofiler-sdk/registration.h>
#include <rocprofiler-sdk/rocprofiler.h>
#include <unistd.h>
#include <atomic>
#include <cassert>
#include <chrono>
#include <cstddef>
#include <cstdint>
#include <cstdio>
#include <cstdlib>
#include <exception>
#include <fstream>
#include <functional>
#include <iostream>
#include <map>
#include <mutex>
#include <string>
#include <string_view>
#include <thread>
#include <variant>
#include <vector>
namespace client
{
namespace
{
struct source_location
{
std::string function = {};
std::string file = {};
uint32_t line = 0;
std::string context = {};
template <typename ArchiveT>
void save(ArchiveT& ar) const
{
ar(cereal::make_nvp("function", function));
ar(cereal::make_nvp("file", file));
ar(cereal::make_nvp("line", line));
ar(cereal::make_nvp("context", context));
}
};
using call_stack_t = std::vector<source_location>;
using buffer_kind_names_t = std::map<rocprofiler_buffer_tracing_kind_t, std::string>;
using buffer_kind_operation_names_t =
std::map<rocprofiler_buffer_tracing_kind_t, std::map<uint32_t, std::string>>;
using callback_kind_names_t = std::map<rocprofiler_callback_tracing_kind_t, std::string>;
using callback_kind_operation_names_t =
std::map<rocprofiler_callback_tracing_kind_t, std::map<uint32_t, std::string>>;
using kernel_symbol_data_t = rocprofiler_callback_tracing_code_object_kernel_symbol_register_data_t;
using kernel_symbol_map_t = std::unordered_map<rocprofiler_kernel_id_t, kernel_symbol_data_t>;
struct callback_name_info
{
callback_kind_names_t kind_names = {};
callback_kind_operation_names_t operation_names = {};
template <typename ArchiveT>
void save(ArchiveT& ar) const
{
ar(cereal::make_nvp("kind_names", kind_names));
ar(cereal::make_nvp("operation_names", operation_names));
}
};
struct buffer_name_info
{
buffer_kind_names_t kind_names = {};
buffer_kind_operation_names_t operation_names = {};
template <typename ArchiveT>
void save(ArchiveT& ar) const
{
ar(cereal::make_nvp("kind_names", kind_names));
ar(cereal::make_nvp("operation_names", operation_names));
}
};
rocprofiler_client_id_t* client_id = nullptr;
rocprofiler_client_finalize_t client_fini_func = nullptr;
callback_name_info
get_callback_tracing_names()
{
static const auto supported = std::unordered_set<rocprofiler_callback_tracing_kind_t>{
ROCPROFILER_CALLBACK_TRACING_HSA_API,
ROCPROFILER_CALLBACK_TRACING_MARKER_API,
ROCPROFILER_CALLBACK_TRACING_HIP_API};
auto cb_name_info = callback_name_info{};
//
// callback for each kind operation
//
static auto tracing_kind_operation_cb =
[](rocprofiler_callback_tracing_kind_t kindv, uint32_t operation, void* data_v) {
auto* name_info_v = static_cast<callback_name_info*>(data_v);
if(supported.count(kindv) > 0)
{
const char* name = nullptr;
ROCPROFILER_CALL(rocprofiler_query_callback_tracing_kind_operation_name(
kindv, operation, &name, nullptr),
"query buffer tracing kind operation name");
if(name) name_info_v->operation_names[kindv][operation] = name;
}
return 0;
};
//
// callback for each buffer kind (i.e. domain)
//
static auto tracing_kind_cb = [](rocprofiler_callback_tracing_kind_t kind, void* data) {
// store the buffer kind name
auto* name_info_v = static_cast<callback_name_info*>(data);
const char* name = nullptr;
ROCPROFILER_CALL(rocprofiler_query_callback_tracing_kind_name(kind, &name, nullptr),
"query buffer tracing kind operation name");
if(name) name_info_v->kind_names[kind] = name;
if(supported.count(kind) > 0)
{
ROCPROFILER_CALL(rocprofiler_iterate_callback_tracing_kind_operations(
kind, tracing_kind_operation_cb, static_cast<void*>(data)),
"iterating buffer tracing kind operations");
}
return 0;
};
ROCPROFILER_CALL(rocprofiler_iterate_callback_tracing_kinds(tracing_kind_cb,
static_cast<void*>(&cb_name_info)),
"iterating buffer tracing kinds");
return cb_name_info;
}
buffer_name_info
get_buffer_tracing_names()
{
static const auto supported = std::unordered_set<rocprofiler_buffer_tracing_kind_t>{
ROCPROFILER_BUFFER_TRACING_HSA_API,
ROCPROFILER_BUFFER_TRACING_MARKER_API,
ROCPROFILER_BUFFER_TRACING_MEMORY_COPY};
auto cb_name_info = buffer_name_info{};
//
// callback for each kind operation
//
static auto tracing_kind_operation_cb =
[](rocprofiler_buffer_tracing_kind_t kindv, uint32_t operation, void* data_v) {
auto* name_info_v = static_cast<buffer_name_info*>(data_v);
if(supported.count(kindv) > 0)
{
const char* name = nullptr;
ROCPROFILER_CALL(rocprofiler_query_buffer_tracing_kind_operation_name(
kindv, operation, &name, nullptr),
"query buffer tracing kind operation name");
if(name) name_info_v->operation_names[kindv][operation] = name;
}
return 0;
};
//
// callback for each buffer kind (i.e. domain)
//
static auto tracing_kind_cb = [](rocprofiler_buffer_tracing_kind_t kind, void* data) {
// store the buffer kind name
auto* name_info_v = static_cast<buffer_name_info*>(data);
const char* name = nullptr;
ROCPROFILER_CALL(rocprofiler_query_buffer_tracing_kind_name(kind, &name, nullptr),
"query buffer tracing kind operation name");
if(name) name_info_v->kind_names[kind] = name;
if(supported.count(kind) > 0)
{
ROCPROFILER_CALL(rocprofiler_iterate_buffer_tracing_kind_operations(
kind, tracing_kind_operation_cb, static_cast<void*>(data)),
"iterating buffer tracing kind operations");
}
return 0;
};
ROCPROFILER_CALL(rocprofiler_iterate_buffer_tracing_kinds(tracing_kind_cb,
static_cast<void*>(&cb_name_info)),
"iterating buffer tracing kinds");
return cb_name_info;
}
using callback_payload_t =
std::variant<rocprofiler_callback_tracing_code_object_load_data_t,
rocprofiler_callback_tracing_code_object_kernel_symbol_register_data_t,
rocprofiler_callback_tracing_hsa_api_data_t,
rocprofiler_callback_tracing_marker_api_data_t>;
using callback_arg_array_t = std::vector<std::pair<std::string, std::string>>;
template <typename ArchiveT>
void
serialize_args(ArchiveT& ar, const callback_arg_array_t& data)
{
ar.setNextName("args");
ar.startNode();
for(const auto& itr : data)
ar(cereal::make_nvp(itr.first, itr.second));
ar.finishNode();
}
int
save_args(rocprofiler_callback_tracing_kind_t,
uint32_t,
uint32_t,
const char* arg_name,
const char* arg_value_str,
const void* const,
void* data)
{
auto* argvec = static_cast<callback_arg_array_t*>(data);
argvec->emplace_back(arg_name, arg_value_str);
return 0;
}
struct code_object_callback_record_t
{
uint64_t timestamp = 0;
rocprofiler_callback_tracing_record_t record = {};
rocprofiler_callback_tracing_code_object_load_data_t payload = {};
template <typename ArchiveT>
void save(ArchiveT& ar) const
{
ar(cereal::make_nvp("timestamp", timestamp));
ar(cereal::make_nvp("record", record));
ar(cereal::make_nvp("payload", payload));
}
};
struct kernel_symbol_callback_record_t
{
uint64_t timestamp = 0;
rocprofiler_callback_tracing_record_t record = {};
rocprofiler_callback_tracing_code_object_kernel_symbol_register_data_t payload = {};
template <typename ArchiveT>
void save(ArchiveT& ar) const
{
ar(cereal::make_nvp("timestamp", timestamp));
ar(cereal::make_nvp("record", record));
ar(cereal::make_nvp("payload", payload));
}
};
struct hsa_api_callback_record_t
{
uint64_t timestamp = 0;
rocprofiler_callback_tracing_record_t record = {};
rocprofiler_callback_tracing_hsa_api_data_t payload = {};
callback_arg_array_t args = {};
template <typename ArchiveT>
void save(ArchiveT& ar) const
{
ar(cereal::make_nvp("timestamp", timestamp));
ar(cereal::make_nvp("record", record));
ar(cereal::make_nvp("payload", payload));
serialize_args(ar, args);
}
};
struct hip_api_callback_record_t
{
uint64_t timestamp = 0;
rocprofiler_callback_tracing_record_t record = {};
rocprofiler_callback_tracing_hip_api_data_t payload = {};
callback_arg_array_t args = {};
template <typename ArchiveT>
void save(ArchiveT& ar) const
{
ar(cereal::make_nvp("timestamp", timestamp));
ar(cereal::make_nvp("record", record));
ar(cereal::make_nvp("payload", payload));
serialize_args(ar, args);
}
};
struct marker_api_callback_record_t
{
uint64_t timestamp = 0;
rocprofiler_callback_tracing_record_t record = {};
rocprofiler_callback_tracing_marker_api_data_t payload = {};
template <typename ArchiveT>
void save(ArchiveT& ar) const
{
ar(cereal::make_nvp("timestamp", timestamp));
ar(cereal::make_nvp("record", record));
ar(cereal::make_nvp("payload", payload));
}
};
auto code_object_records = std::deque<code_object_callback_record_t>{};
auto kernel_symbol_records = std::deque<kernel_symbol_callback_record_t>{};
auto hsa_api_cb_records = std::deque<hsa_api_callback_record_t>{};
auto marker_api_cb_records = std::deque<marker_api_callback_record_t>{};
auto hip_api_cb_records = std::deque<hip_api_callback_record_t>{};
rocprofiler_thread_id_t
push_external_correlation();
void
tool_tracing_callback(rocprofiler_callback_tracing_record_t record,
rocprofiler_user_data_t* /*user_data*/,
void* /*callback_data*/)
{
static auto _mutex = std::mutex{};
auto _lk = std::unique_lock<std::mutex>{_mutex};
auto ts = rocprofiler_timestamp_t{};
ROCPROFILER_CALL(rocprofiler_get_timestamp(&ts), "get timestamp");
static thread_local auto _once = std::once_flag{};
std::call_once(_once, [&record]() {
// account for the fact that we are not wrapping pthread_create so the
// first external correlation id on a thread wont have updated value
record.correlation_id.external.value = push_external_correlation();
});
if(record.kind == ROCPROFILER_CALLBACK_TRACING_CODE_OBJECT)
{
if(record.operation == ROCPROFILER_CALLBACK_TRACING_CODE_OBJECT_LOAD)
{
auto data_v =
*static_cast<rocprofiler_callback_tracing_code_object_load_data_t*>(record.payload);
code_object_records.emplace_back(code_object_callback_record_t{ts, record, data_v});
}
else if(record.operation ==
ROCPROFILER_CALLBACK_TRACING_CODE_OBJECT_DEVICE_KERNEL_SYMBOL_REGISTER)
{
auto data_v = *static_cast<kernel_symbol_data_t*>(record.payload);
kernel_symbol_records.emplace_back(kernel_symbol_callback_record_t{ts, record, data_v});
}
}
else if(record.kind == ROCPROFILER_CALLBACK_TRACING_HSA_API)
{
auto* data = static_cast<rocprofiler_callback_tracing_hsa_api_data_t*>(record.payload);
auto args = callback_arg_array_t{};
rocprofiler_iterate_callback_tracing_kind_operation_args(record, save_args, &args);
hsa_api_cb_records.emplace_back(
hsa_api_callback_record_t{ts, record, *data, std::move(args)});
}
else if(record.kind == ROCPROFILER_CALLBACK_TRACING_HIP_API)
{
auto* data = static_cast<rocprofiler_callback_tracing_hip_api_data_t*>(record.payload);
auto args = callback_arg_array_t{};
rocprofiler_iterate_callback_tracing_kind_operation_args(record, save_args, &args);
hip_api_cb_records.emplace_back(
hip_api_callback_record_t{ts, record, *data, std::move(args)});
}
else if(record.kind == ROCPROFILER_CALLBACK_TRACING_MARKER_API)
{
auto* data = static_cast<rocprofiler_callback_tracing_marker_api_data_t*>(record.payload);
marker_api_cb_records.emplace_back(marker_api_callback_record_t{ts, record, *data});
}
else
{
throw std::runtime_error{"unsupported callback kind"};
}
}
auto hsa_api_bf_records = std::deque<rocprofiler_buffer_tracing_hsa_api_record_t>{};
auto marker_api_bf_records = std::deque<rocprofiler_buffer_tracing_marker_api_record_t>{};
auto hip_api_bf_records = std::deque<rocprofiler_buffer_tracing_hip_api_record_t>{};
auto kernel_dispatch_records = std::deque<rocprofiler_buffer_tracing_kernel_dispatch_record_t>{};
auto memory_copy_records = std::deque<rocprofiler_buffer_tracing_memory_copy_record_t>{};
void
tool_tracing_buffered(rocprofiler_context_id_t /*context*/,
rocprofiler_buffer_id_t /*buffer_id*/,
rocprofiler_record_header_t** headers,
size_t num_headers,
void* user_data,
uint64_t drop_count)
{
// std::cerr << "[" << getpid() << "][" << __FUNCTION__ << "] buffer flush callback for "
// << num_headers << " records...\n"
// << std::flush;
static auto _mutex = std::mutex{};
auto _lk = std::unique_lock<std::mutex>{_mutex};
assert(user_data != nullptr);
assert(drop_count == 0 && "drop count should be zero for lossless policy");
if(num_headers == 0)
throw std::runtime_error{
"rocprofiler invoked a buffer callback with no headers. this should never happen"};
else if(headers == nullptr)
throw std::runtime_error{"rocprofiler invoked a buffer callback with a null pointer to the "
"array of headers. this should never happen"};
for(size_t i = 0; i < num_headers; ++i)
{
auto* header = headers[i];
if(header == nullptr)
{
throw std::runtime_error{
"rocprofiler provided a null pointer to header. this should never happen"};
}
else if(header->hash !=
rocprofiler_record_header_compute_hash(header->category, header->kind))
{
throw std::runtime_error{"rocprofiler_record_header_t (category | kind) != hash"};
}
else if(header->category == ROCPROFILER_BUFFER_CATEGORY_TRACING)
{
if(header->kind == ROCPROFILER_BUFFER_TRACING_HSA_API)
{
auto* record =
static_cast<rocprofiler_buffer_tracing_hsa_api_record_t*>(header->payload);
hsa_api_bf_records.emplace_back(*record);
}
else if(header->kind == ROCPROFILER_BUFFER_TRACING_MARKER_API)
{
auto* record =
static_cast<rocprofiler_buffer_tracing_marker_api_record_t*>(header->payload);
marker_api_bf_records.emplace_back(*record);
}
else if(header->kind == ROCPROFILER_BUFFER_TRACING_HIP_API)
{
auto* record =
static_cast<rocprofiler_buffer_tracing_hip_api_record_t*>(header->payload);
hip_api_bf_records.emplace_back(*record);
}
else if(header->kind == ROCPROFILER_BUFFER_TRACING_KERNEL_DISPATCH)
{
auto* record = static_cast<rocprofiler_buffer_tracing_kernel_dispatch_record_t*>(
header->payload);
kernel_dispatch_records.emplace_back(*record);
}
else if(header->kind == ROCPROFILER_BUFFER_TRACING_MEMORY_COPY)
{
auto* record =
static_cast<rocprofiler_buffer_tracing_memory_copy_record_t*>(header->payload);
memory_copy_records.emplace_back(*record);
}
else
{
throw std::runtime_error{
"unexpected rocprofiler_record_header_t tracing category kind"};
}
}
else
{
throw std::runtime_error{"unexpected rocprofiler_record_header_t category + kind"};
}
}
}
void
thread_precreate(rocprofiler_runtime_library_t lib, void* tool_data)
{
static_cast<call_stack_t*>(tool_data)->emplace_back(
source_location{__FUNCTION__,
__FILE__,
__LINE__,
std::string{"internal thread about to be created by rocprofiler (lib="} +
std::to_string(lib) + ")"});
}
void
thread_postcreate(rocprofiler_runtime_library_t lib, void* tool_data)
{
static_cast<call_stack_t*>(tool_data)->emplace_back(
source_location{__FUNCTION__,
__FILE__,
__LINE__,
std::string{"internal thread was created by rocprofiler (lib="} +
std::to_string(lib) + ")"});
}
bool
is_active(rocprofiler_context_id_t ctx)
{
int status = 0;
auto errc = rocprofiler_context_is_active(ctx, &status);
return (errc == ROCPROFILER_STATUS_SUCCESS && status > 0);
}
void
start();
void
stop();
void
flush();
// contexts
rocprofiler_context_id_t hsa_api_callback_ctx = {};
rocprofiler_context_id_t hip_api_callback_ctx = {};
rocprofiler_context_id_t marker_api_callback_ctx = {};
rocprofiler_context_id_t code_object_ctx = {};
rocprofiler_context_id_t hsa_api_buffered_ctx = {};
rocprofiler_context_id_t hip_api_buffered_ctx = {};
rocprofiler_context_id_t marker_api_buffered_ctx = {};
rocprofiler_context_id_t kernel_dispatch_ctx = {};
rocprofiler_context_id_t memory_copy_ctx = {};
// buffers
rocprofiler_buffer_id_t hsa_api_buffered_buffer = {};
rocprofiler_buffer_id_t hip_api_buffered_buffer = {};
rocprofiler_buffer_id_t marker_api_buffered_buffer = {};
rocprofiler_buffer_id_t kernel_dispatch_buffer = {};
rocprofiler_buffer_id_t memory_copy_buffer = {};
auto contexts = std::unordered_map<std::string_view, rocprofiler_context_id_t*>{
{"HSA_API_CALLBACK", &hsa_api_callback_ctx},
{"HIP_API_CALLBACK", &hip_api_callback_ctx},
{"MARKER_API_CALLBACK", &marker_api_callback_ctx},
{"CODE_OBJECT", &code_object_ctx},
{"HSA_API_BUFFERED", &hsa_api_buffered_ctx},
{"HIP_API_BUFFERED", &hip_api_buffered_ctx},
{"MARKER_API_BUFFERED", &marker_api_buffered_ctx},
{"KERNEL_DISPATCH", &kernel_dispatch_ctx},
{"MEMORY_COPY", &memory_copy_ctx}};
auto buffers = std::array<rocprofiler_buffer_id_t*, 5>{&hsa_api_buffered_buffer,
&hip_api_buffered_buffer,
&marker_api_buffered_buffer,
&kernel_dispatch_buffer,
&memory_copy_buffer};
auto agents = std::vector<rocprofiler_agent_t>{};
int
tool_init(rocprofiler_client_finalize_t fini_func, void* tool_data)
{
assert(tool_data != nullptr);
rocprofiler_available_agents_cb_t iterate_cb =
[](const rocprofiler_agent_t** agents_arr, size_t num_agents, void* user_data) {
auto* agents_v = static_cast<std::vector<rocprofiler_agent_t>*>(user_data);
for(size_t i = 0; i < num_agents; ++i)
agents_v->emplace_back(*agents_arr[i]);
return ROCPROFILER_STATUS_SUCCESS;
};
ROCPROFILER_CALL(
rocprofiler_query_available_agents(iterate_cb,
sizeof(rocprofiler_agent_t),
const_cast<void*>(static_cast<const void*>(&agents))),
"query available agents");
auto* call_stack_v = static_cast<call_stack_t*>(tool_data);
call_stack_v->emplace_back(source_location{__FUNCTION__, __FILE__, __LINE__, ""});
client_fini_func = fini_func;
for(auto itr : contexts)
{
ROCPROFILER_CALL(rocprofiler_create_context(itr.second), "context creation");
}
ROCPROFILER_CALL(
rocprofiler_configure_callback_tracing_service(hsa_api_callback_ctx,
ROCPROFILER_CALLBACK_TRACING_HSA_API,
nullptr,
0,
tool_tracing_callback,
nullptr),
"hsa api callback tracing service configure");
ROCPROFILER_CALL(
rocprofiler_configure_callback_tracing_service(hip_api_callback_ctx,
ROCPROFILER_CALLBACK_TRACING_HIP_API,
nullptr,
0,
tool_tracing_callback,
nullptr),
"hip api callback tracing service configure");
ROCPROFILER_CALL(
rocprofiler_configure_callback_tracing_service(code_object_ctx,
ROCPROFILER_CALLBACK_TRACING_CODE_OBJECT,
nullptr,
0,
tool_tracing_callback,
nullptr),
"code object tracing service configure");
ROCPROFILER_CALL(
rocprofiler_configure_callback_tracing_service(marker_api_callback_ctx,
ROCPROFILER_CALLBACK_TRACING_MARKER_API,
nullptr,
0,
tool_tracing_callback,
nullptr),
"hsa api tracing service configure");
constexpr auto buffer_size = 8192;
constexpr auto watermark = 7936;
ROCPROFILER_CALL(rocprofiler_create_buffer(hsa_api_buffered_ctx,
buffer_size,
watermark,
ROCPROFILER_BUFFER_POLICY_LOSSLESS,
tool_tracing_buffered,
tool_data,
&hsa_api_buffered_buffer),
"buffer creation");
ROCPROFILER_CALL(rocprofiler_create_buffer(hip_api_buffered_ctx,
buffer_size,
watermark,
ROCPROFILER_BUFFER_POLICY_LOSSLESS,
tool_tracing_buffered,
tool_data,
&hip_api_buffered_buffer),
"buffer creation");
ROCPROFILER_CALL(rocprofiler_create_buffer(marker_api_buffered_ctx,
buffer_size,
watermark,
ROCPROFILER_BUFFER_POLICY_LOSSLESS,
tool_tracing_buffered,
tool_data,
&marker_api_buffered_buffer),
"buffer creation");
ROCPROFILER_CALL(rocprofiler_create_buffer(kernel_dispatch_ctx,
buffer_size,
watermark,
ROCPROFILER_BUFFER_POLICY_LOSSLESS,
tool_tracing_buffered,
tool_data,
&kernel_dispatch_buffer),
"buffer creation");
ROCPROFILER_CALL(rocprofiler_create_buffer(memory_copy_ctx,
buffer_size,
watermark,
ROCPROFILER_BUFFER_POLICY_LOSSLESS,
tool_tracing_buffered,
tool_data,
&memory_copy_buffer),
"buffer creation");
ROCPROFILER_CALL(
rocprofiler_configure_buffer_tracing_service(hsa_api_buffered_ctx,
ROCPROFILER_BUFFER_TRACING_HSA_API,
nullptr,
0,
hsa_api_buffered_buffer),
"buffer tracing service configure");
ROCPROFILER_CALL(
rocprofiler_configure_buffer_tracing_service(hip_api_buffered_ctx,
ROCPROFILER_BUFFER_TRACING_HIP_API,
nullptr,
0,
hip_api_buffered_buffer),
"buffer tracing service configure");
ROCPROFILER_CALL(
rocprofiler_configure_buffer_tracing_service(marker_api_buffered_ctx,
ROCPROFILER_BUFFER_TRACING_MARKER_API,
nullptr,
0,
marker_api_buffered_buffer),
"buffer tracing service configure");
ROCPROFILER_CALL(
rocprofiler_configure_buffer_tracing_service(kernel_dispatch_ctx,
ROCPROFILER_BUFFER_TRACING_KERNEL_DISPATCH,
nullptr,
0,
kernel_dispatch_buffer),
"buffer tracing service for kernel dispatch configure");
ROCPROFILER_CALL(
rocprofiler_configure_buffer_tracing_service(memory_copy_ctx,
ROCPROFILER_BUFFER_TRACING_MEMORY_COPY,
nullptr,
0,
memory_copy_buffer),
"buffer tracing service for memory copy configure");
auto client_thread = rocprofiler_callback_thread_t{};
ROCPROFILER_CALL(rocprofiler_create_callback_thread(&client_thread),
"creating callback thread");
for(auto* itr : buffers)
{
ROCPROFILER_CALL(rocprofiler_assign_callback_thread(*itr, client_thread),
"assignment of thread for buffer");
}
for(auto itr : contexts)
{
int valid_ctx = 0;
ROCPROFILER_CALL(rocprofiler_context_is_valid(*itr.second, &valid_ctx),
"context validity check");
if(valid_ctx == 0)
{
// notify rocprofiler that initialization failed
// and all the contexts, buffers, etc. created
// should be ignored
return -1;
}
}
// environment variable to select which contexts to collect
auto* context_settings_env = getenv("ROCPROFILER_TOOL_CONTEXTS");
if(context_settings_env != nullptr && !std::string_view{context_settings_env}.empty())
{
auto context_settings = std::string{context_settings_env};
// ignore case
for(auto& itr : context_settings)
itr = toupper(itr);
// if context is not in string, set the pointer to null in the contexts array
auto options = std::stringstream{};
for(auto& itr : contexts)
{
options << "\n\t- " << itr.first;
auto pos = context_settings.find(itr.first);
if(pos == std::string::npos)
itr.second = nullptr;
else
context_settings.erase(pos, itr.first.length());
}
// detect if there are any invalid entries
if(context_settings.find_first_not_of(" ,;:\t\n\r") != std::string::npos)
{
auto filename = std::string_view{__FILE__};
auto msg = std::stringstream{};
msg << "[rocprofiler-sdk-json-tool][" << filename.substr(filename.find_last_of('/') + 1)
<< ":" << __LINE__ << "] invalid specification of ROCPROFILER_TOOL_CONTEXTS ('"
<< context_settings_env << "'). Valid choices are: " << options.str();
throw std::runtime_error{msg.str()};
}
}
start();
// no errors
return 0;
}
void
tool_fini(void* tool_data)
{
static std::atomic_flag _once = ATOMIC_FLAG_INIT;
if(_once.test_and_set()) return;
stop();
flush();
std::cerr << "[" << getpid() << "][" << __FUNCTION__
<< "] Finalizing... agents=" << agents.size()
<< ", code_object_callback_records=" << code_object_records.size()
<< ", kernel_symbol_callback_records=" << kernel_symbol_records.size()
<< ", hsa_api_callback_records=" << hsa_api_cb_records.size()
<< ", hip_api_callback_records=" << hip_api_cb_records.size()
<< ", marker_api_callback_records=" << marker_api_cb_records.size()
<< ", kernel_dispatch_records=" << kernel_dispatch_records.size()
<< ", memory_copy_records=" << memory_copy_records.size()
<< ", hsa_api_bf_records=" << hsa_api_bf_records.size()
<< ", hip_api_bf_records=" << hip_api_bf_records.size()
<< ", marker_api_bf_records=" << marker_api_bf_records.size() << " ...\n"
<< std::flush;
auto* _call_stack = static_cast<call_stack_t*>(tool_data);
if(_call_stack)
{
_call_stack->emplace_back(source_location{__FUNCTION__, __FILE__, __LINE__, ""});
}
auto ofname = std::string{"rocprofiler-tool-results.json"};
if(auto* eofname = getenv("ROCPROFILER_TOOL_OUTPUT_FILE")) ofname = eofname;
std::ostream* ofs = nullptr;
auto cleanup = std::function<void(std::ostream*&)>{};
if(ofname == "stdout")
ofs = &std::cout;
else if(ofname == "stderr")
ofs = &std::cerr;
else
{
ofs = new std::ofstream{ofname};
if(ofs && *ofs)
{
std::cerr << "[" << getpid() << "][" << __FUNCTION__
<< "] Outputting collected data to " << ofname << "...\n"
<< std::flush;
cleanup = [](std::ostream*& _os) { delete _os; };
}
else
{
std::cerr << "Error outputting to " << ofname << ". Redirecting to stderr...\n"
<< std::flush;
ofname = "stderr";
ofs = &std::cerr;
}
}
{
using JSONOutputArchive = cereal::MinimalJSONOutputArchive;
constexpr auto json_prec = 32;
constexpr auto json_indent = JSONOutputArchive::Options::IndentChar::space;
auto json_opts = JSONOutputArchive::Options{json_prec, json_indent, 1};
auto json_ar = JSONOutputArchive{*ofs, json_opts};
auto buffer_name_info = get_buffer_tracing_names();
auto callback_name_info = get_callback_tracing_names();
json_ar.setNextName("rocprofiler-sdk-json-tool");
json_ar.startNode();
json_ar(cereal::make_nvp("agents", agents));
if(_call_stack) json_ar(cereal::make_nvp("call_stack", *_call_stack));
json_ar.setNextName("callback_records");
json_ar.startNode();
try
{
json_ar(cereal::make_nvp("names", callback_name_info));
json_ar(cereal::make_nvp("code_objects", code_object_records));
json_ar(cereal::make_nvp("kernel_symbols", kernel_symbol_records));
json_ar(cereal::make_nvp("hsa_api_traces", hsa_api_cb_records));
json_ar(cereal::make_nvp("hip_api_traces", hip_api_cb_records));
json_ar(cereal::make_nvp("marker_api_traces", marker_api_cb_records));
} catch(std::exception& e)
{
std::cerr << "[" << getpid() << "][" << __FUNCTION__
<< "] threw an exception: " << e.what() << "\n"
<< std::flush;
}
json_ar.finishNode();
json_ar.setNextName("buffer_records");
json_ar.startNode();
try
{
json_ar(cereal::make_nvp("names", buffer_name_info));
json_ar(cereal::make_nvp("kernel_dispatches", kernel_dispatch_records));
json_ar(cereal::make_nvp("memory_copies", memory_copy_records));
json_ar(cereal::make_nvp("hsa_api_traces", hsa_api_bf_records));
json_ar(cereal::make_nvp("hip_api_traces", hip_api_bf_records));
json_ar(cereal::make_nvp("marker_api_traces", marker_api_bf_records));
} catch(std::exception& e)
{
std::cerr << "[" << getpid() << "][" << __FUNCTION__
<< "] threw an exception: " << e.what() << "\n"
<< std::flush;
}
json_ar.finishNode();
json_ar.finishNode();
}
*ofs << std::flush;
if(cleanup) cleanup(ofs);
std::cerr << "[" << getpid() << "][" << __FUNCTION__ << "] Finalization complete.\n"
<< std::flush;
delete _call_stack;
}
void
start()
{
for(auto itr : contexts)
{
if(itr.second && !is_active(*itr.second))
{
ROCPROFILER_CALL(rocprofiler_start_context(*itr.second), "context start");
}
}
}
void
stop()
{
for(auto itr : contexts)
{
if(itr.second && is_active(*itr.second))
{
ROCPROFILER_CALL(rocprofiler_stop_context(*itr.second), "context stop");
}
}
}
void
flush()
{
for(auto* itr : buffers)
{
if(!itr) continue;
auto status = rocprofiler_flush_buffer(*itr);
if(status != ROCPROFILER_STATUS_ERROR_BUFFER_BUSY)
{
ROCPROFILER_CALL(status, "buffer flush");
}
}
}
rocprofiler_thread_id_t
push_external_correlation()
{
auto tid = rocprofiler_thread_id_t{};
ROCPROFILER_CALL(rocprofiler_get_thread_id(&tid), "get thread id");
for(auto itr : contexts)
{
if(itr.second)
{
ROCPROFILER_CALL(rocprofiler_push_external_correlation_id(
*itr.second, tid, rocprofiler_user_data_t{.value = tid}),
"push external correlation");
}
}
return tid;
}
} // namespace
} // namespace client
extern "C" rocprofiler_tool_configure_result_t*
rocprofiler_configure(uint32_t version,
const char* runtime_version,
uint32_t priority,
rocprofiler_client_id_t* id)
{
// only activate if main tool
if(priority > 0) return nullptr;
// set the client name
id->name = "rocprofiler-sdk-json-tool";
// store client info
client::client_id = id;
// compute major/minor/patch version info
uint32_t major = version / 10000;
uint32_t minor = (version % 10000) / 100;
uint32_t patch = version % 100;
// generate info string
auto info = std::stringstream{};
info << id->name << " is using rocprofiler-sdk v" << major << "." << minor << "." << patch
<< " (" << runtime_version << ")";
std::clog << info.str() << std::endl;
auto* client_tool_data = new std::vector<client::source_location>{};
client_tool_data->emplace_back(
client::source_location{__FUNCTION__, __FILE__, __LINE__, info.str()});
ROCPROFILER_CALL(rocprofiler_at_internal_thread_create(
client::thread_precreate,
client::thread_postcreate,
ROCPROFILER_LIBRARY | ROCPROFILER_HSA_LIBRARY | ROCPROFILER_HIP_LIBRARY |
ROCPROFILER_MARKER_LIBRARY,
static_cast<void*>(client_tool_data)),
"registration for thread creation notifications");
std::atexit([]() {
if(client::client_fini_func) client::client_fini_func(*client::client_id);
});
std::at_quick_exit([]() {
if(client::client_fini_func) client::client_fini_func(*client::client_id);
});
// create configure data
static auto cfg =
rocprofiler_tool_configure_result_t{sizeof(rocprofiler_tool_configure_result_t),
&client::tool_init,
&client::tool_fini,
static_cast<void*>(client_tool_data)};
// return pointer to configure data
return &cfg;
}