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rocm-systems/projects/rocprofiler-sdk/samples/api_buffered_tracing/client.cpp
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Kuricheti, Mythreya bde07e7baa [SDK] KFD new events API (#321) 
* Remove page-migration

* Add KFD events API

* Address review comments

* Move assert checks

* Update enum-string utils

* Update codeowners

* Update KFD header

* Add perfetto category

[ROCm/rocprofiler-sdk commit: 8a461afe20]
2025-06-26 13:28:45 -05:00

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C++
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// MIT License
//
// Copyright (c) 2023-2025 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 samples/api_buffered_tracing/client.cpp
*
* @brief Example rocprofiler client (tool)
*/
#include "client.hpp"
#include <rocprofiler-sdk/registration.h>
#include <rocprofiler-sdk/rocprofiler.h>
#include "common/call_stack.hpp"
#include "common/defines.hpp"
#include "common/filesystem.hpp"
#include "common/name_info.hpp"
#include <atomic>
#include <cassert>
#include <chrono>
#include <cmath>
#include <cstddef>
#include <cstdint>
#include <cstdio>
#include <cstdlib>
#include <fstream>
#include <functional>
#include <iomanip>
#include <iostream>
#include <map>
#include <mutex>
#include <sstream>
#include <stdexcept>
#include <string>
#include <string_view>
#include <thread>
#include <unordered_set>
#include <vector>
namespace client
{
namespace
{
using common::buffer_name_info;
using common::call_stack_t;
using common::source_location;
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>;
rocprofiler_client_id_t* client_id = nullptr;
rocprofiler_client_finalize_t client_fini_func = nullptr;
rocprofiler_context_id_t client_ctx = {0};
rocprofiler_buffer_id_t client_buffer = {};
buffer_name_info client_name_info = {};
kernel_symbol_map_t client_kernels = {};
template <typename Tp>
std::string
as_hex(Tp _v, size_t _width = 16)
{
uintptr_t _vp = 0;
if constexpr(std::is_pointer<Tp>::value)
_vp = reinterpret_cast<uintptr_t>(_v);
else
_vp = _v;
auto _ss = std::stringstream{};
_ss.fill('0');
_ss << "0x" << std::hex << std::setw(_width) << _vp;
return _ss.str();
}
void
print_call_stack(const call_stack_t& _call_stack)
{
common::print_call_stack("api_buffered_trace.log", _call_stack);
}
void
tool_code_object_callback(rocprofiler_callback_tracing_record_t record,
rocprofiler_user_data_t* user_data,
void* callback_data)
{
if(record.kind == ROCPROFILER_CALLBACK_TRACING_CODE_OBJECT &&
record.operation == ROCPROFILER_CODE_OBJECT_LOAD)
{
if(record.phase == ROCPROFILER_CALLBACK_PHASE_UNLOAD)
{
// flush the buffer to ensure that any lookups for the client kernel names for the code
// object are completed
auto flush_status = rocprofiler_flush_buffer(client_buffer);
if(flush_status != ROCPROFILER_STATUS_ERROR_BUFFER_BUSY)
ROCPROFILER_CALL(flush_status, "buffer flush");
}
}
else if(record.kind == ROCPROFILER_CALLBACK_TRACING_CODE_OBJECT &&
record.operation == ROCPROFILER_CODE_OBJECT_DEVICE_KERNEL_SYMBOL_REGISTER)
{
auto* data = static_cast<kernel_symbol_data_t*>(record.payload);
if(record.phase == ROCPROFILER_CALLBACK_PHASE_LOAD)
{
client_kernels.emplace(data->kernel_id, *data);
}
else if(record.phase == ROCPROFILER_CALLBACK_PHASE_UNLOAD)
{
// do not erase just in case a buffer callback needs this
// client_kernels.erase(data->kernel_id);
}
}
(void) user_data;
(void) callback_data;
}
void
tool_tracing_callback(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)
{
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];
auto kind_name = std::string{};
if(header->category == ROCPROFILER_BUFFER_CATEGORY_TRACING)
{
const char* _name = nullptr;
auto _kind = static_cast<rocprofiler_buffer_tracing_kind_t>(header->kind);
ROCPROFILER_CALL(rocprofiler_query_buffer_tracing_kind_name(_kind, &_name, nullptr),
"query buffer tracing kind name");
if(_name)
{
static size_t len = 15;
kind_name = std::string{_name};
len = std::max(len, kind_name.length());
kind_name.resize(len, ' ');
kind_name += " :: ";
}
}
auto get_name = [](const auto* _record) -> std::string_view {
try
{
return client_name_info.at(_record->kind, _record->operation);
} catch(std::exception& e)
{
std::cerr << __FUNCTION__
<< " threw an exception for buffer tracing kind=" << _record->kind
<< ", operation=" << _record->operation << "\nException: " << e.what()
<< std::flush;
abort();
}
return std::string_view{"??"};
};
if(header->category == ROCPROFILER_BUFFER_CATEGORY_TRACING &&
(header->kind == ROCPROFILER_BUFFER_TRACING_HSA_CORE_API ||
header->kind == ROCPROFILER_BUFFER_TRACING_HSA_AMD_EXT_API ||
header->kind == ROCPROFILER_BUFFER_TRACING_HSA_IMAGE_EXT_API ||
header->kind == ROCPROFILER_BUFFER_TRACING_HSA_FINALIZE_EXT_API))
{
auto* record =
static_cast<rocprofiler_buffer_tracing_hsa_api_record_t*>(header->payload);
auto info = std::stringstream{};
info << "tid=" << record->thread_id << ", context=" << context.handle
<< ", buffer_id=" << buffer_id.handle
<< ", cid=" << record->correlation_id.internal
<< ", extern_cid=" << record->correlation_id.external.value
<< ", kind=" << record->kind << ", operation=" << record->operation
<< ", start=" << record->start_timestamp << ", stop=" << record->end_timestamp
<< ", name=" << get_name(record);
if(record->start_timestamp > record->end_timestamp)
{
auto msg = std::stringstream{};
msg << "hsa api: start > end (" << record->start_timestamp << " > "
<< record->end_timestamp
<< "). diff = " << (record->start_timestamp - record->end_timestamp);
std::cerr << "threw an exception " << msg.str() << "\n" << std::flush;
// throw std::runtime_error{msg.str()};
}
static_cast<call_stack_t*>(user_data)->emplace_back(
source_location{__FUNCTION__, __FILE__, __LINE__, kind_name + info.str()});
}
else if(header->category == ROCPROFILER_BUFFER_CATEGORY_TRACING &&
header->kind == ROCPROFILER_BUFFER_TRACING_HIP_RUNTIME_API)
{
auto* record =
static_cast<rocprofiler_buffer_tracing_hip_api_record_t*>(header->payload);
auto info = std::stringstream{};
info << "tid=" << record->thread_id << ", context=" << context.handle
<< ", buffer_id=" << buffer_id.handle
<< ", cid=" << record->correlation_id.internal
<< ", extern_cid=" << record->correlation_id.external.value
<< ", kind=" << record->kind << ", operation=" << record->operation
<< ", start=" << record->start_timestamp << ", stop=" << record->end_timestamp
<< ", name=" << client_name_info[record->kind][record->operation];
if(record->start_timestamp > record->end_timestamp)
{
auto msg = std::stringstream{};
msg << "hip api: start > end (" << record->start_timestamp << " > "
<< record->end_timestamp
<< "). diff = " << (record->start_timestamp - record->end_timestamp);
std::cerr << "threw an exception " << msg.str() << "\n" << std::flush;
// throw std::runtime_error{msg.str()};
}
static_cast<call_stack_t*>(user_data)->emplace_back(
source_location{__FUNCTION__, __FILE__, __LINE__, kind_name + info.str()});
}
else if(header->category == ROCPROFILER_BUFFER_CATEGORY_TRACING &&
header->kind == ROCPROFILER_BUFFER_TRACING_KERNEL_DISPATCH)
{
auto* record =
static_cast<rocprofiler_buffer_tracing_kernel_dispatch_record_t*>(header->payload);
auto info = std::stringstream{};
auto kernel_id = record->dispatch_info.kernel_id;
auto kernel_name = (client_kernels.count(kernel_id) > 0)
? std::string_view{client_kernels.at(kernel_id).kernel_name}
: std::string_view{"??"};
info << "tid=" << record->thread_id << ", context=" << context.handle
<< ", buffer_id=" << buffer_id.handle
<< ", cid=" << record->correlation_id.internal
<< ", extern_cid=" << record->correlation_id.external.value
<< ", kind=" << record->kind << ", operation=" << record->operation
<< ", agent_id=" << record->dispatch_info.agent_id.handle
<< ", queue_id=" << record->dispatch_info.queue_id.handle
<< ", kernel_id=" << record->dispatch_info.kernel_id << ", kernel=" << kernel_name
<< ", start=" << record->start_timestamp << ", stop=" << record->end_timestamp
<< ", private_segment_size=" << record->dispatch_info.private_segment_size
<< ", group_segment_size=" << record->dispatch_info.group_segment_size
<< ", workgroup_size=(" << record->dispatch_info.workgroup_size.x << ","
<< record->dispatch_info.workgroup_size.y << ","
<< record->dispatch_info.workgroup_size.z << "), grid_size=("
<< record->dispatch_info.grid_size.x << "," << record->dispatch_info.grid_size.y
<< "," << record->dispatch_info.grid_size.z << ")";
if(record->start_timestamp > record->end_timestamp)
throw std::runtime_error("kernel dispatch: start > end");
static_cast<call_stack_t*>(user_data)->emplace_back(
source_location{__FUNCTION__, __FILE__, __LINE__, kind_name + info.str()});
}
else if(header->category == ROCPROFILER_BUFFER_CATEGORY_TRACING &&
header->kind == ROCPROFILER_BUFFER_TRACING_MEMORY_COPY)
{
auto* record =
static_cast<rocprofiler_buffer_tracing_memory_copy_record_t*>(header->payload);
auto info = std::stringstream{};
info << "tid=" << record->thread_id << ", context=" << context.handle
<< ", buffer_id=" << buffer_id.handle
<< ", cid=" << record->correlation_id.internal
<< ", extern_cid=" << record->correlation_id.external.value
<< ", kind=" << record->kind << ", operation=" << record->operation
<< ", src_agent_id=" << record->src_agent_id.handle
<< ", dst_agent_id=" << record->dst_agent_id.handle
<< ", direction=" << record->operation << ", start=" << record->start_timestamp
<< ", stop=" << record->end_timestamp << ", name=" << get_name(record);
if(record->start_timestamp > record->end_timestamp)
throw std::runtime_error("memory copy: start > end");
static_cast<call_stack_t*>(user_data)->emplace_back(
source_location{__FUNCTION__, __FILE__, __LINE__, kind_name + info.str()});
}
else if(header->category == ROCPROFILER_BUFFER_CATEGORY_TRACING &&
header->kind == ROCPROFILER_BUFFER_TRACING_SCRATCH_MEMORY)
{
auto* record =
static_cast<rocprofiler_buffer_tracing_scratch_memory_record_t*>(header->payload);
auto info = std::stringstream{};
auto _elapsed =
std::chrono::duration_cast<std::chrono::duration<double, std::micro>>(
std::chrono::nanoseconds{record->end_timestamp - record->start_timestamp})
.count();
info << "tid=" << record->thread_id << ", context=" << context.handle
<< ", buffer_id=" << buffer_id.handle
<< ", cid=" << record->correlation_id.internal
<< ", extern_cid=" << record->correlation_id.external.value
<< ", kind=" << record->kind << ", operation=" << record->operation
<< ", agent_id=" << record->agent_id.handle
<< ", queue_id=" << record->queue_id.handle << ", thread_id=" << record->thread_id
<< ", elapsed=" << std::setprecision(3) << std::fixed << _elapsed
<< " usec, flags=" << record->flags << ", name=" << get_name(record);
static_cast<call_stack_t*>(user_data)->emplace_back(
source_location{__FUNCTION__, __FILE__, __LINE__, kind_name + info.str()});
}
else
{
auto _msg = std::stringstream{};
_msg << "unexpected rocprofiler_record_header_t category + kind: (" << header->category
<< " + " << header->kind << ")";
throw std::runtime_error{_msg.str()};
}
}
}
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) + ")"});
}
int
tool_init(rocprofiler_client_finalize_t fini_func, void* tool_data)
{
assert(tool_data != nullptr);
auto* call_stack_v = static_cast<call_stack_t*>(tool_data);
call_stack_v->emplace_back(source_location{__FUNCTION__, __FILE__, __LINE__, ""});
client_name_info = common::get_buffer_tracing_names();
for(const auto& itr : client_name_info)
{
auto name_idx = std::stringstream{};
name_idx << " [" << std::setw(3) << itr.value << "]";
call_stack_v->emplace_back(
source_location{"rocprofiler_buffer_tracing_kind_names " + name_idx.str(),
__FILE__,
__LINE__,
std::string{itr.name}});
for(auto [didx, ditr] : itr.items())
{
auto operation_idx = std::stringstream{};
operation_idx << " [" << std::setw(3) << didx << "]";
call_stack_v->emplace_back(source_location{
"rocprofiler_buffer_tracing_kind_operation_names" + operation_idx.str(),
__FILE__,
__LINE__,
std::string{"- "} + std::string{*ditr}});
}
}
client_fini_func = fini_func;
ROCPROFILER_CALL(rocprofiler_create_context(&client_ctx), "context creation");
auto code_object_ops = std::vector<rocprofiler_tracing_operation_t>{
ROCPROFILER_CODE_OBJECT_DEVICE_KERNEL_SYMBOL_REGISTER};
ROCPROFILER_CALL(
rocprofiler_configure_callback_tracing_service(client_ctx,
ROCPROFILER_CALLBACK_TRACING_CODE_OBJECT,
code_object_ops.data(),
code_object_ops.size(),
tool_code_object_callback,
nullptr),
"code object tracing service configure");
constexpr auto buffer_size_bytes = 4096;
constexpr auto buffer_watermark_bytes = buffer_size_bytes - (buffer_size_bytes / 8);
ROCPROFILER_CALL(rocprofiler_create_buffer(client_ctx,
buffer_size_bytes,
buffer_watermark_bytes,
ROCPROFILER_BUFFER_POLICY_LOSSLESS,
tool_tracing_callback,
tool_data,
&client_buffer),
"buffer creation");
for(auto itr :
{ROCPROFILER_BUFFER_TRACING_HSA_CORE_API, ROCPROFILER_BUFFER_TRACING_HSA_AMD_EXT_API})
{
ROCPROFILER_CALL(rocprofiler_configure_buffer_tracing_service(
client_ctx, itr, nullptr, 0, client_buffer),
"buffer tracing service configure");
}
ROCPROFILER_CALL(
rocprofiler_configure_buffer_tracing_service(
client_ctx, ROCPROFILER_BUFFER_TRACING_HIP_RUNTIME_API, nullptr, 0, client_buffer),
"buffer tracing service configure");
ROCPROFILER_CALL(
rocprofiler_configure_buffer_tracing_service(
client_ctx, ROCPROFILER_BUFFER_TRACING_KERNEL_DISPATCH, nullptr, 0, client_buffer),
"buffer tracing service for kernel dispatch configure");
ROCPROFILER_CALL(
rocprofiler_configure_buffer_tracing_service(
client_ctx, ROCPROFILER_BUFFER_TRACING_MEMORY_COPY, nullptr, 0, client_buffer),
"buffer tracing service for memory copy configure");
ROCPROFILER_CALL(
rocprofiler_configure_buffer_tracing_service(
client_ctx, ROCPROFILER_BUFFER_TRACING_SCRATCH_MEMORY, nullptr, 0, client_buffer),
"buffer tracing service for scratch memory configure");
auto client_thread = rocprofiler_callback_thread_t{};
ROCPROFILER_CALL(rocprofiler_create_callback_thread(&client_thread),
"creating callback thread");
ROCPROFILER_CALL(rocprofiler_assign_callback_thread(client_buffer, client_thread),
"assignment of thread for buffer");
int valid_ctx = 0;
ROCPROFILER_CALL(rocprofiler_context_is_valid(client_ctx, &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;
}
ROCPROFILER_CALL(rocprofiler_start_context(client_ctx), "rocprofiler context start");
// no errors
return 0;
}
void
tool_fini(void* tool_data)
{
assert(tool_data != nullptr);
auto* _call_stack = static_cast<call_stack_t*>(tool_data);
_call_stack->emplace_back(source_location{__FUNCTION__, __FILE__, __LINE__, ""});
print_call_stack(*_call_stack);
delete _call_stack;
}
} // namespace
void
setup()
{
if(int status = 0;
rocprofiler_is_initialized(&status) == ROCPROFILER_STATUS_SUCCESS && status == 0)
{
ROCPROFILER_CALL(rocprofiler_force_configure(&rocprofiler_configure),
"force configuration");
}
}
void
shutdown()
{
if(client_id)
{
ROCPROFILER_CALL(rocprofiler_flush_buffer(client_buffer), "buffer flush");
client_fini_func(*client_id);
}
}
void
start()
{
ROCPROFILER_CALL(rocprofiler_start_context(client_ctx), "context start");
}
void
identify(uint64_t val)
{
auto _tid = rocprofiler_thread_id_t{};
rocprofiler_get_thread_id(&_tid);
rocprofiler_user_data_t user_data = {};
user_data.value = val;
rocprofiler_push_external_correlation_id(client_ctx, _tid, user_data);
}
void
stop()
{
ROCPROFILER_CALL(rocprofiler_stop_context(client_ctx), "context stop");
}
} // 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)
{
// set the client name
id->name = "ExampleTool";
// 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 << " (priority=" << priority << ") 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");
// 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;
}
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