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rocm-systems/source/lib/rocprofiler-sdk/aql/tests/helpers.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

333 Zeilen
13 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 "lib/rocprofiler-sdk/aql/helpers.hpp"
#include "lib/rocprofiler-sdk/agent.hpp"
#include "lib/rocprofiler-sdk/counters/metrics.hpp"
#include "lib/rocprofiler-sdk/counters/tests/hsa_tables.hpp"
#include "lib/rocprofiler-sdk/hsa/agent_cache.hpp"
#include "lib/rocprofiler-sdk/hsa/queue_controller.hpp"
#include <gtest/gtest.h>
#include <map>
#include <unordered_set>
#include <hsa/hsa.h>
#include <hsa/hsa_api_trace.h>
#include <hsa/hsa_ven_amd_aqlprofile.h>
using namespace rocprofiler;
using namespace rocprofiler::counters::test_constants;
namespace
{
auto
findDeviceMetrics(const rocprofiler_agent_t& agent, const std::unordered_set<std::string>& metrics)
{
std::vector<counters::Metric> ret;
auto all_counters = counters::getBaseHardwareMetrics();
ROCP_INFO << "Looking up counters for " << std::string(agent.name);
auto gfx_metrics = common::get_val(all_counters, std::string(agent.name));
if(!gfx_metrics)
{
ROCP_ERROR << "No counters found for " << std::string(agent.name);
return ret;
}
for(auto& counter : *gfx_metrics)
{
if((metrics.count(counter.name()) > 0 || metrics.empty()) && !counter.block().empty())
{
ret.push_back(counter);
}
}
return ret;
}
hsa_ven_amd_aqlprofile_id_query_t
v1_get_query_info(hsa_agent_t agent, const counters::Metric& metric)
{
hsa_ven_amd_aqlprofile_profile_t profile = {.agent = agent,
.type = HSA_VEN_AMD_AQLPROFILE_EVENT_TYPE_PMC,
.events = nullptr,
.event_count = 0,
.parameters = nullptr,
.parameter_count = 0,
.output_buffer = {nullptr, 0},
.command_buffer = {nullptr, 0}};
hsa_ven_amd_aqlprofile_id_query_t query = {metric.block().c_str(), 0, 0};
if(hsa_ven_amd_aqlprofile_get_info(&profile, HSA_VEN_AMD_AQLPROFILE_INFO_BLOCK_ID, &query) !=
HSA_STATUS_SUCCESS)
{
DLOG(FATAL) << fmt::format("AQL failed to query info for counter {}", metric);
throw std::runtime_error(fmt::format("AQL failed to query info for counter {}", metric));
}
return query;
}
uint32_t
v1_get_block_counters(hsa_agent_t agent, const hsa_ven_amd_aqlprofile_event_t& event)
{
hsa_ven_amd_aqlprofile_profile_t query = {.agent = agent,
.type = HSA_VEN_AMD_AQLPROFILE_EVENT_TYPE_PMC,
.events = &event,
.event_count = 1,
.parameters = nullptr,
.parameter_count = 0,
.output_buffer = {nullptr, 0},
.command_buffer = {nullptr, 0}};
uint32_t max_block_counters = 0;
if(hsa_ven_amd_aqlprofile_get_info(&query,
HSA_VEN_AMD_AQLPROFILE_INFO_BLOCK_COUNTERS,
&max_block_counters) != HSA_STATUS_SUCCESS)
{
throw std::runtime_error(fmt::format("AQL failed to max block info for counter {}",
static_cast<int64_t>(event.block_name)));
}
return max_block_counters;
}
rocprofiler_status_t
v1_get_dim_info(hsa_agent_t agent,
hsa_ven_amd_aqlprofile_event_t event,
uint32_t sample_id,
std::map<int, uint64_t>& dims)
{
auto callback = [](int, int id, int extent, int, const char*, void* userdata) -> hsa_status_t {
auto& map = *static_cast<std::map<int, uint64_t>*>(userdata);
map.emplace(id, extent);
return HSA_STATUS_SUCCESS;
};
if(hsa_ven_amd_aqlprofile_iterate_event_coord(
agent, event, sample_id, callback, static_cast<void*>(&dims)) != HSA_STATUS_SUCCESS)
{
return ROCPROFILER_STATUS_ERROR_AQL_NO_EVENT_COORD;
}
return ROCPROFILER_STATUS_SUCCESS;
}
void
test_init()
{
HsaApiTable table;
table.amd_ext_ = &get_ext_table();
table.core_ = &get_api_table();
agent::construct_agent_cache(&table);
ASSERT_TRUE(hsa::get_queue_controller() != nullptr);
hsa::get_queue_controller()->init(get_api_table(), get_ext_table());
}
} // namespace
TEST(aql_helpers, get_query_info)
{
auto agents = agent::get_agents();
ASSERT_FALSE(agents.empty());
for(auto agent : agents)
{
// auto aql_agent = *CHECK_NOTNULL(agent::get_aql_agent(agent->id));
if(agent->type == ROCPROFILER_AGENT_TYPE_CPU) continue;
auto metrics = findDeviceMetrics(*agent, {});
ASSERT_FALSE(metrics.empty());
for(auto& metric : metrics)
{
auto query = aql::get_query_info(agent->id, metric);
ROCP_INFO << fmt::format("{},{},{}", query.id, query.name, query.instance_count);
EXPECT_TRUE(query.name != nullptr);
EXPECT_TRUE(query.instance_count != 0);
EXPECT_TRUE(query.id < std::numeric_limits<uint32_t>().max());
}
}
}
TEST(aql_helpers, get_query_info_compare_v1)
{
ASSERT_EQ(hsa_init(), HSA_STATUS_SUCCESS);
test_init();
auto agents = agent::get_agents();
ASSERT_FALSE(agents.empty());
for(auto agent : agents)
{
if(agent->type == ROCPROFILER_AGENT_TYPE_CPU) continue;
auto metrics = findDeviceMetrics(*agent, {});
ASSERT_FALSE(metrics.empty());
for(auto& metric : metrics)
{
auto query = aql::get_query_info(agent->id, metric);
auto query_v1 =
v1_get_query_info(agent::get_agent_cache(agent)->get_hsa_agent(), metric);
// v1 query with hsa_agent
EXPECT_EQ(query.id, query_v1.id);
EXPECT_EQ(std::string(query.name), std::string(query_v1.name));
}
}
hsa_shut_down();
}
TEST(aql_helpers, get_block_counters)
{
auto agents = agent::get_agents();
ASSERT_FALSE(agents.empty());
for(auto agent : agents)
{
if(agent->type == ROCPROFILER_AGENT_TYPE_CPU) continue;
auto metrics = findDeviceMetrics(*agent, {});
ASSERT_FALSE(metrics.empty());
for(auto& metric : metrics)
{
auto query = aql::get_query_info(agent->id, metric);
for(unsigned block_index = 0; block_index < query.instance_count; ++block_index)
{
aqlprofile_pmc_event_t event = {
.block_index = block_index,
.event_id = static_cast<uint32_t>(std::atoi(metric.event().c_str())),
.flags = aqlprofile_pmc_event_flags_t{0},
.block_name = static_cast<hsa_ven_amd_aqlprofile_block_name_t>(query.id)};
auto max_block_counters = aql::get_block_counters(agent->id, event);
EXPECT_GT(max_block_counters, 0);
}
}
}
}
TEST(aql_helpers, get_block_counters_compare_v1)
{
ASSERT_EQ(hsa_init(), HSA_STATUS_SUCCESS);
test_init();
auto agents = agent::get_agents();
ASSERT_FALSE(agents.empty());
for(auto agent : agents)
{
if(agent->type == ROCPROFILER_AGENT_TYPE_CPU) continue;
auto metrics = findDeviceMetrics(*agent, {});
ASSERT_FALSE(metrics.empty());
for(auto& metric : metrics)
{
auto query = aql::get_query_info(agent->id, metric);
for(unsigned block_index = 0; block_index < query.instance_count; ++block_index)
{
aqlprofile_pmc_event_t event = {
.block_index = block_index,
.event_id = static_cast<uint32_t>(std::atoi(metric.event().c_str())),
.flags = aqlprofile_pmc_event_flags_t{0},
.block_name = static_cast<hsa_ven_amd_aqlprofile_block_name_t>(query.id)};
hsa_ven_amd_aqlprofile_event_t event_v1 = {
.block_name = static_cast<hsa_ven_amd_aqlprofile_block_name_t>(query.id),
.block_index = block_index,
.counter_id = static_cast<uint32_t>(std::atoi(metric.event().c_str()))};
EXPECT_EQ(aql::get_block_counters(agent->id, event),
v1_get_block_counters(agent::get_agent_cache(agent)->get_hsa_agent(),
event_v1));
}
}
}
hsa_shut_down();
}
TEST(aql_helpers, get_dim_info)
{
auto agents = agent::get_agents();
ASSERT_FALSE(agents.empty());
for(auto agent : agents)
{
if(agent->type == ROCPROFILER_AGENT_TYPE_CPU) continue;
auto metrics = findDeviceMetrics(*agent, {});
ASSERT_FALSE(metrics.empty());
for(auto& metric : metrics)
{
auto query = aql::get_query_info(agent->id, metric);
for(unsigned block_index = 0; block_index < query.instance_count; ++block_index)
{
aqlprofile_pmc_event_t event = {
.block_index = block_index,
.event_id = static_cast<uint32_t>(std::atoi(metric.event().c_str())),
.flags = aqlprofile_pmc_event_flags_t{0},
.block_name = static_cast<hsa_ven_amd_aqlprofile_block_name_t>(query.id)};
std::map<int, uint64_t> dims;
EXPECT_EQ(ROCPROFILER_STATUS_SUCCESS, aql::get_dim_info(agent->id, event, 0, dims));
EXPECT_GT(dims.size(), 0);
}
}
}
}
TEST(aql_helpers, get_dim_info_compare_v1)
{
ASSERT_EQ(hsa_init(), HSA_STATUS_SUCCESS);
test_init();
auto agents = agent::get_agents();
ASSERT_FALSE(agents.empty());
for(auto agent : agents)
{
if(agent->type == ROCPROFILER_AGENT_TYPE_CPU) continue;
auto metrics = findDeviceMetrics(*agent, {});
ASSERT_FALSE(metrics.empty());
for(auto& metric : metrics)
{
std::map<int, uint64_t> dims;
std::map<int, uint64_t> dims_v1;
auto query = aql::get_query_info(agent->id, metric);
for(unsigned block_index = 0; block_index < query.instance_count; ++block_index)
{
aqlprofile_pmc_event_t event = {
.block_index = block_index,
.event_id = static_cast<uint32_t>(std::atoi(metric.event().c_str())),
.flags = aqlprofile_pmc_event_flags_t{0},
.block_name = static_cast<hsa_ven_amd_aqlprofile_block_name_t>(query.id)};
hsa_ven_amd_aqlprofile_event_t event_v1 = {
.block_name = static_cast<hsa_ven_amd_aqlprofile_block_name_t>(query.id),
.block_index = block_index,
.counter_id = static_cast<uint32_t>(std::atoi(metric.event().c_str()))};
EXPECT_EQ(ROCPROFILER_STATUS_SUCCESS, aql::get_dim_info(agent->id, event, 0, dims));
EXPECT_EQ(
ROCPROFILER_STATUS_SUCCESS,
v1_get_dim_info(
agent::get_agent_cache(agent)->get_hsa_agent(), event_v1, 0, dims_v1));
EXPECT_EQ(dims.size(), dims_v1.size());
EXPECT_EQ(dims, dims_v1);
}
}
}
hsa_shut_down();
}