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rocm-systems/source/lib/rocprofiler-sdk/tests/intercept_table.cpp
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Rawat, Swati 97b7a6315d update copyright date to 2025 (#102)
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---------

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>
2025-01-22 19:11:20 -06:00

483 wiersze
19 KiB
C++

// 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.
#include <rocprofiler-sdk/context.h>
#include <rocprofiler-sdk/fwd.h>
#include <rocprofiler-sdk/registration.h>
#include <rocprofiler-sdk/rocprofiler.h>
#include "lib/common/defines.hpp"
#include "lib/common/environment.hpp"
#include "lib/common/filesystem.hpp"
#include "lib/common/units.hpp"
#include "lib/common/utility.hpp"
#include "lib/rocprofiler-sdk/tests/common.hpp"
#include <gtest/gtest.h>
#include <hip/hip_runtime_api.h>
#include <hsa/hsa.h>
#include <hsa/hsa_api_trace.h>
#include <dlfcn.h>
#include <pthread.h>
#include <chrono>
#include <cstdint>
#include <cstdlib>
#include <initializer_list>
#include <iostream>
#include <random>
#include <sstream>
#include <string_view>
#include <typeinfo>
#include <unordered_map>
#include <vector>
namespace
{
auto&
get_preincrement()
{
static size_t _v = 0;
return _v;
}
auto&
get_postincrement()
{
static size_t _v = 0;
return _v;
}
auto&
get_client_callback_data()
{
static auto _v = callback_data_ext{};
return _v;
}
void
tool_tracing_callback(rocprofiler_callback_tracing_record_t record,
rocprofiler_user_data_t* /*user_data*/,
void* client_data)
{
auto* cb_data = static_cast<callback_data_ext*>(client_data);
static auto name_map = get_callback_tracing_names();
if(record.phase == ROCPROFILER_CALLBACK_PHASE_ENTER)
{
cb_data->client_callback_count[name_map.operation_names[record.kind][record.operation]]
.second += get_preincrement();
}
else if(record.phase == ROCPROFILER_CALLBACK_PHASE_EXIT)
{
cb_data->client_callback_count[name_map.operation_names[record.kind][record.operation]]
.second += get_postincrement();
}
}
template <size_t Idx, typename RetT, typename... Args>
auto
generate_wrapper(const char* name, RetT (*func)(Args...))
{
using functor_type = RetT (*)(Args...);
static functor_type underlying_func = func;
static auto func_name = std::string_view{name};
get_client_callback_data().client_callback_count.emplace(
std::string_view{name}, callback_data_ext::callback_count_data_t{0, 0});
static functor_type wrapped_func = [](Args... args) -> RetT {
get_client_callback_data().client_callback_count.at(func_name).first +=
get_preincrement() + get_postincrement();
if(underlying_func) return underlying_func(args...);
if constexpr(!std::is_void<RetT>::value) return RetT{};
};
return wrapped_func;
}
#define GENERATE_WRAPPER(TABLE, FUNC) \
TABLE->FUNC##_fn = generate_wrapper<__COUNTER__>(#FUNC, TABLE->FUNC##_fn)
void
api_registration_callback(rocprofiler_intercept_table_t type,
uint64_t lib_version,
uint64_t lib_instance,
void** tables,
uint64_t num_tables,
void* client_data)
{
auto* cb_data = static_cast<callback_data_ext*>(client_data);
cb_data->client_workflow_count++;
EXPECT_EQ(type, ROCPROFILER_HSA_TABLE) << "unexpected library type: " << type;
EXPECT_EQ(lib_instance, 0) << "multiple instances of HSA runtime library";
EXPECT_EQ(num_tables, 1) << "expected only one table of type HsaApiTable";
EXPECT_GT(lib_version, 0) << "expected library version > 0";
auto* hsa_api_table = static_cast<HsaApiTable*>(tables[0]);
GENERATE_WRAPPER(hsa_api_table->core_, hsa_init);
GENERATE_WRAPPER(hsa_api_table->core_, hsa_agent_get_info);
GENERATE_WRAPPER(hsa_api_table->core_, hsa_iterate_agents);
GENERATE_WRAPPER(hsa_api_table->core_, hsa_shut_down);
}
using init_list_t = std::initializer_list<int>;
auto valid_intercept_combos = init_list_t{
(ROCPROFILER_HSA_TABLE | ROCPROFILER_HIP_RUNTIME_TABLE | ROCPROFILER_HIP_COMPILER_TABLE |
ROCPROFILER_MARKER_CORE_TABLE | ROCPROFILER_MARKER_CONTROL_TABLE |
ROCPROFILER_MARKER_NAME_TABLE),
(ROCPROFILER_HSA_TABLE | ROCPROFILER_HIP_RUNTIME_TABLE | ROCPROFILER_HIP_COMPILER_TABLE |
ROCPROFILER_MARKER_CORE_TABLE | ROCPROFILER_MARKER_CONTROL_TABLE),
(ROCPROFILER_HSA_TABLE | ROCPROFILER_HIP_RUNTIME_TABLE | ROCPROFILER_HIP_COMPILER_TABLE |
ROCPROFILER_MARKER_CORE_TABLE),
(ROCPROFILER_HSA_TABLE | ROCPROFILER_HIP_RUNTIME_TABLE | ROCPROFILER_HIP_COMPILER_TABLE),
(ROCPROFILER_HSA_TABLE | ROCPROFILER_HIP_RUNTIME_TABLE),
(ROCPROFILER_HSA_TABLE),
(ROCPROFILER_HIP_RUNTIME_TABLE | ROCPROFILER_HIP_COMPILER_TABLE |
ROCPROFILER_MARKER_CORE_TABLE | ROCPROFILER_MARKER_CONTROL_TABLE |
ROCPROFILER_MARKER_NAME_TABLE),
(ROCPROFILER_HIP_COMPILER_TABLE | ROCPROFILER_MARKER_CORE_TABLE |
ROCPROFILER_MARKER_CONTROL_TABLE | ROCPROFILER_MARKER_NAME_TABLE),
(ROCPROFILER_MARKER_CORE_TABLE | ROCPROFILER_MARKER_CONTROL_TABLE |
ROCPROFILER_MARKER_NAME_TABLE)};
} // namespace
TEST(rocprofiler_lib, intercept_table_and_callback_tracing)
{
// test layering of tool interception of API table on top of rocprofiler API tracing.
// This test enables both rocprofiler API tracing and a tool installing it's own
// wrappers via the HsaApiTable. With both active, one should see the same
// number of calls to "hsa_init", "hsa_iterate_agents", "hsa_agent_get_info", and
// "hsa_shut_down"
using init_func_t = int (*)(rocprofiler_client_finalize_t, void*);
using fini_func_t = void (*)(void*);
using hsa_iterate_agents_cb_t = hsa_status_t (*)(hsa_agent_t, void*);
get_preincrement() = 1;
get_postincrement() = 0;
static init_func_t tool_init = [](rocprofiler_client_finalize_t fini_func,
void* client_data) -> int {
auto* cb_data = static_cast<callback_data_ext*>(client_data);
cb_data->client_workflow_count++;
cb_data->client_fini_func = fini_func;
ROCPROFILER_CALL(rocprofiler_create_context(&cb_data->client_hsa_ctx),
"failed to create context");
auto operations = std::vector<rocprofiler_tracing_operation_t>{
ROCPROFILER_HSA_CORE_API_ID_hsa_init,
ROCPROFILER_HSA_CORE_API_ID_hsa_iterate_agents,
ROCPROFILER_HSA_CORE_API_ID_hsa_agent_get_info,
ROCPROFILER_HSA_CORE_API_ID_hsa_shut_down};
ROCPROFILER_CALL(rocprofiler_configure_callback_tracing_service(
cb_data->client_hsa_ctx,
ROCPROFILER_CALLBACK_TRACING_HSA_CORE_API,
operations.data(),
operations.size(),
tool_tracing_callback,
client_data),
"callback tracing service failed to configure");
int valid_ctx = 0;
ROCPROFILER_CALL(rocprofiler_context_is_valid(cb_data->client_hsa_ctx, &valid_ctx),
"failure checking context validity");
EXPECT_EQ(valid_ctx, 1);
ROCPROFILER_CALL(rocprofiler_start_context(cb_data->client_hsa_ctx),
"rocprofiler context start failed");
// no errors
return 0;
};
static fini_func_t tool_fini = [](void* client_data) -> void {
auto* cb_data = static_cast<callback_data_ext*>(client_data);
int status = 0;
ROCPROFILER_CALL(rocprofiler_context_is_active(cb_data->client_hsa_ctx, &status),
"rocprofiler_context_is_active failed");
EXPECT_EQ(status, 0);
static_cast<callback_data_ext*>(client_data)->client_workflow_count++;
};
static auto& cb_data = get_client_callback_data();
static auto cfg_result = rocprofiler_tool_configure_result_t{
sizeof(rocprofiler_tool_configure_result_t), tool_init, tool_fini, &cb_data};
static rocprofiler_configure_func_t rocp_init =
[](uint32_t version,
const char* runtime_version,
uint32_t prio,
rocprofiler_client_id_t* client_id) -> rocprofiler_tool_configure_result_t* {
auto expected_version = ROCPROFILER_VERSION;
EXPECT_EQ(expected_version, version);
EXPECT_EQ(std::string_view{runtime_version}, std::string_view{ROCPROFILER_VERSION_STRING});
EXPECT_EQ(prio, 0);
EXPECT_EQ(client_id->name, nullptr);
cb_data.client_id = client_id;
cb_data.client_id->name = ::testing::UnitTest::GetInstance()->current_test_info()->name();
for(auto itr : valid_intercept_combos)
{
ROCPROFILER_CALL_EXPECT(
rocprofiler_at_intercept_table_registration(
api_registration_callback, itr, &cb_data),
"test should be updated if new (non-HSA, non-HIP) intercept table is supported",
ROCPROFILER_STATUS_SUCCESS);
}
return &cfg_result;
};
EXPECT_EQ(rocprofiler_force_configure(rocp_init), ROCPROFILER_STATUS_SUCCESS);
hsa_iterate_agents_cb_t agent_cb = [](hsa_agent_t agent, void* data) {
static_cast<agent_data*>(data)->agent_count++;
auto status = HSA_STATUS_SUCCESS;
auto agent_type = hsa_device_type_t{};
if((status = hsa_agent_get_info(agent, HSA_AGENT_INFO_DEVICE, &agent_type)) ==
HSA_STATUS_SUCCESS)
static_cast<agent_data*>(data)->agents.emplace_back(agent_type);
return status;
};
hsa_init();
hsa_init();
auto _agent_data = agent_data{};
hsa_status_t itr_status = hsa_iterate_agents(agent_cb, &_agent_data);
hsa_shut_down();
hsa_shut_down();
EXPECT_EQ(itr_status, HSA_STATUS_SUCCESS);
EXPECT_GT(_agent_data.agent_count, 0);
EXPECT_EQ(_agent_data.agent_count, _agent_data.agents.size());
ASSERT_NE(cb_data.client_id, nullptr);
ASSERT_NE(cb_data.client_fini_func, nullptr);
cb_data.client_fini_func(*cb_data.client_id);
size_t num_hsa_intercepts = 0;
for(auto itr : valid_intercept_combos)
{
if((itr & ROCPROFILER_HSA_TABLE) == ROCPROFILER_HSA_TABLE) ++num_hsa_intercepts;
}
EXPECT_EQ(cb_data.client_workflow_count, num_hsa_intercepts + 2);
for(auto itr : cb_data.client_callback_count)
{
EXPECT_EQ(itr.second.first, itr.second.second)
<< "mismatched wrap counts for " << itr.first
<< " (lhs=tool_wrapper, rhs=rocprofiler_wrapper)";
EXPECT_GT(itr.second.first, 0) << itr.first << " not wrapped";
}
auto get_count = [](std::string_view func_name) {
// we already checked that first == second so we can just check first here
return cb_data.client_callback_count.at(func_name).first;
};
EXPECT_EQ(get_count("hsa_init"), 1);
EXPECT_EQ(get_count("hsa_iterate_agents"), 1);
EXPECT_EQ(get_count("hsa_agent_get_info"), _agent_data.agent_count);
EXPECT_EQ(get_count("hsa_shut_down"), 2);
}
TEST(rocprofiler_lib, intercept_table_and_callback_tracing_disable_context)
{
// test layering of tool interception of API table on top of rocprofiler API tracing.
// Similar to intercept_table_and_callback_tracing test except on the
// first call to hsa_iterate_agents the context is disabled. As a result,
// one should only see the rocprofiler API tracing for hsa_iterate_agents
// and not for hsa_agent_get_info or hsa_shut_down.
using init_func_t = int (*)(rocprofiler_client_finalize_t, void*);
using fini_func_t = void (*)(void*);
using hsa_iterate_agents_cb_t = hsa_status_t (*)(hsa_agent_t, void*);
get_preincrement() = 1;
get_postincrement() = 1;
static init_func_t tool_init = [](rocprofiler_client_finalize_t fini_func,
void* client_data) -> int {
auto* cb_data = static_cast<callback_data_ext*>(client_data);
cb_data->client_workflow_count++;
cb_data->client_fini_func = fini_func;
ROCPROFILER_CALL(rocprofiler_create_context(&cb_data->client_hsa_ctx),
"failed to create context");
auto operations = std::vector<rocprofiler_tracing_operation_t>{
ROCPROFILER_HSA_CORE_API_ID_hsa_init,
ROCPROFILER_HSA_CORE_API_ID_hsa_iterate_agents,
ROCPROFILER_HSA_CORE_API_ID_hsa_agent_get_info,
ROCPROFILER_HSA_CORE_API_ID_hsa_shut_down};
ROCPROFILER_CALL(rocprofiler_configure_callback_tracing_service(
cb_data->client_hsa_ctx,
ROCPROFILER_CALLBACK_TRACING_HSA_CORE_API,
operations.data(),
operations.size(),
tool_tracing_callback,
client_data),
"callback tracing service failed to configure");
int valid_ctx = 0;
ROCPROFILER_CALL(rocprofiler_context_is_valid(cb_data->client_hsa_ctx, &valid_ctx),
"failure checking context validity");
EXPECT_EQ(valid_ctx, 1);
ROCPROFILER_CALL(rocprofiler_start_context(cb_data->client_hsa_ctx),
"rocprofiler context start failed");
// no errors
return 0;
};
static fini_func_t tool_fini = [](void* client_data) -> void {
auto* cb_data = static_cast<callback_data_ext*>(client_data);
int status = 0;
ROCPROFILER_CALL(rocprofiler_context_is_active(cb_data->client_hsa_ctx, &status),
"rocprofiler_context_is_active failed");
EXPECT_EQ(status, 0);
ROCPROFILER_CALL_EXPECT(rocprofiler_start_context(cb_data->client_hsa_ctx),
"rocprofiler context start",
ROCPROFILER_STATUS_ERROR_CONFIGURATION_LOCKED);
static_cast<callback_data_ext*>(client_data)->client_workflow_count++;
};
static auto& cb_data = get_client_callback_data();
cb_data = callback_data_ext{};
static auto cfg_result = rocprofiler_tool_configure_result_t{
sizeof(rocprofiler_tool_configure_result_t), tool_init, tool_fini, &cb_data};
static rocprofiler_configure_func_t rocp_init =
[](uint32_t version,
const char* runtime_version,
uint32_t prio,
rocprofiler_client_id_t* client_id) -> rocprofiler_tool_configure_result_t* {
auto expected_version = ROCPROFILER_VERSION;
EXPECT_EQ(expected_version, version);
EXPECT_EQ(std::string_view{runtime_version}, std::string_view{ROCPROFILER_VERSION_STRING});
EXPECT_EQ(prio, 0);
EXPECT_EQ(client_id->name, nullptr);
cb_data.client_id = client_id;
cb_data.client_id->name = ::testing::UnitTest::GetInstance()->current_test_info()->name();
for(auto itr : valid_intercept_combos)
{
ROCPROFILER_CALL_EXPECT(
rocprofiler_at_intercept_table_registration(
api_registration_callback, itr, &cb_data),
"test should be updated if new (non-HSA, non-HIP) intercept table is supported",
ROCPROFILER_STATUS_SUCCESS);
}
return &cfg_result;
};
EXPECT_EQ(rocprofiler_force_configure(rocp_init), ROCPROFILER_STATUS_SUCCESS);
hsa_iterate_agents_cb_t agent_cb = [](hsa_agent_t agent, void* data) {
auto* _data = static_cast<std::pair<agent_data*, callback_data_ext*>*>(data);
_data->first->agent_count++;
if(int _is_active = 0;
rocprofiler_context_is_active(_data->second->client_hsa_ctx, &_is_active) ==
ROCPROFILER_STATUS_SUCCESS &&
_is_active != 0)
{
ROCPROFILER_CALL(rocprofiler_stop_context(_data->second->client_hsa_ctx),
"rocprofiler context stop failed");
}
auto status = HSA_STATUS_SUCCESS;
auto agent_type = hsa_device_type_t{};
if((status = hsa_agent_get_info(agent, HSA_AGENT_INFO_DEVICE, &agent_type)) ==
HSA_STATUS_SUCCESS)
_data->first->agents.emplace_back(agent_type);
return status;
};
hsa_init();
auto _agent_data = agent_data{};
auto _pair_data = std::make_pair(&_agent_data, &cb_data);
hsa_status_t itr_status = hsa_iterate_agents(agent_cb, static_cast<void*>(&_pair_data));
hsa_shut_down();
EXPECT_EQ(itr_status, HSA_STATUS_SUCCESS);
EXPECT_GT(_agent_data.agent_count, 0);
EXPECT_EQ(_agent_data.agent_count, _agent_data.agents.size());
ASSERT_NE(cb_data.client_id, nullptr);
ASSERT_NE(cb_data.client_fini_func, nullptr);
cb_data.client_fini_func(*cb_data.client_id);
size_t num_hsa_intercepts = 0;
for(auto itr : valid_intercept_combos)
{
if((itr & ROCPROFILER_HSA_TABLE) == ROCPROFILER_HSA_TABLE) ++num_hsa_intercepts;
}
EXPECT_EQ(cb_data.client_workflow_count, num_hsa_intercepts + 2);
auto get_tool_count = [](std::string_view func_name) {
// we already checked that first == second so we can just check first here
return cb_data.client_callback_count.at(func_name).first;
};
auto get_rocp_count = [](std::string_view func_name) {
// we already checked that first == second so we can just check first here
return cb_data.client_callback_count.at(func_name).second;
};
EXPECT_EQ(get_tool_count("hsa_init"), 0);
EXPECT_EQ(get_tool_count("hsa_iterate_agents"), 2);
EXPECT_EQ(get_tool_count("hsa_agent_get_info"), 2 * _agent_data.agent_count);
EXPECT_EQ(get_tool_count("hsa_shut_down"), 2);
EXPECT_EQ(get_rocp_count("hsa_init"), 0);
EXPECT_EQ(get_rocp_count("hsa_iterate_agents"), 2)
<< "if equal to 1, then ENTER phase was invoked but EXIT phase was not (incorrect)";
EXPECT_EQ(get_rocp_count("hsa_agent_get_info"), 0);
EXPECT_EQ(get_rocp_count("hsa_shut_down"), 0);
}