/* Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved. licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ #include "paddle/fluid/platform/profiler/chrometracing_logger.h" #include #include #include #include #include "glog/logging.h" #include "paddle/fluid/platform/device/gpu/gpu_info.h" #include "paddle/fluid/platform/enforce.h" #include "paddle/fluid/platform/profiler/event_node.h" #include "paddle/fluid/platform/profiler/utils.h" namespace paddle { namespace platform { static const char* kSchemaVersion = "1.0.1"; static const char* kDefaultFilename = "pid_%s_time_%s.paddle_trace.json"; static uint32_t span_indx = 0; static std::string DefaultFileName() { auto pid = GetProcessId(); return string_format( std::string(kDefaultFilename), pid, GetStringFormatLocalTime().c_str()); } void ChromeTracingLogger::OpenFile() { output_file_stream_.open(filename_, std::ofstream::out | std::ofstream::trunc); if (!output_file_stream_) { LOG(WARNING) << "Unable to open file for writing profiling data." << std::endl; } else { LOG(INFO) << "writing profiling data to " << filename_ << std::endl; } } ChromeTracingLogger::ChromeTracingLogger(const std::string& filename) { filename_ = filename.empty() ? DefaultFileName() : filename; OpenFile(); StartLog(); } ChromeTracingLogger::ChromeTracingLogger(const char* filename_cstr) { std::string filename(filename_cstr); filename_ = filename.empty() ? DefaultFileName() : filename; OpenFile(); StartLog(); } ChromeTracingLogger::~ChromeTracingLogger() { EndLog(); output_file_stream_.close(); } void ChromeTracingLogger::LogNodeTrees(const NodeTrees& node_trees) { // log all nodes except root node, root node is a helper node. const std::map> thread2host_event_nodes = node_trees.Traverse(true); // find the earliest time in current timeline start_time_ = std::numeric_limits::max(); for (auto it = thread2host_event_nodes.begin(); it != thread2host_event_nodes.end(); ++it) { if (it->second.begin() + 1 != it->second.end()) { if ((*(it->second.begin() + 1))->StartNs() < start_time_) { start_time_ = (*(it->second.begin() + 1))->StartNs(); } } else { auto runtimenode = (*(it->second.begin()))->GetRuntimeTraceEventNodes().begin(); if (runtimenode != (*(it->second.begin()))->GetRuntimeTraceEventNodes().end()) { if ((*runtimenode)->StartNs() < start_time_) { start_time_ = (*runtimenode)->StartNs(); } } } } for (auto it = thread2host_event_nodes.begin(); it != thread2host_event_nodes.end(); ++it) { for (auto hostnode = it->second.begin(); hostnode != it->second.end(); ++hostnode) { if (hostnode != it->second.begin()) { // skip root node (*hostnode)->LogMe(this); } for (auto runtimenode = (*hostnode)->GetRuntimeTraceEventNodes().begin(); runtimenode != (*hostnode)->GetRuntimeTraceEventNodes().end(); ++runtimenode) { (*runtimenode)->LogMe(this); for (auto devicenode = (*runtimenode)->GetDeviceTraceEventNodes().begin(); devicenode != (*runtimenode)->GetDeviceTraceEventNodes().end(); ++devicenode) { (*devicenode)->LogMe(this); } } for (auto memnode = (*hostnode)->GetMemTraceEventNodes().begin(); memnode != (*hostnode)->GetMemTraceEventNodes().end(); ++memnode) { (*memnode)->LogMe(this); } } } } void ChromeTracingLogger::LogMemTraceEventNode( const MemTraceEventNode& mem_node) { if (!output_file_stream_) { return; } output_file_stream_ << string_format( std::string( R"JSON( { "name": "[memory]", "pid": %lld, "tid": "%lld(C++)", "ts": %lld, "ph": "i", "cat": "%s", "args": { "place": "%s", "addr": "%llu", "increase_bytes": %lld, "current_allocated": %llu, "current_reserved": %llu, "peak_allocated": %llu, "peak_reserved": %llu } }, )JSON"), mem_node.ProcessId(), mem_node.ThreadId(), nsToUs(mem_node.TimeStampNs()), StringTracerMemEventType(mem_node.Type()), mem_node.Place().c_str(), mem_node.Addr(), mem_node.IncreaseBytes(), mem_node.CurrentAllocated(), mem_node.CurrentReserved(), mem_node.PeakAllocated(), mem_node.PeakReserved()); pid_tid_set_.insert({mem_node.ProcessId(), mem_node.ThreadId()}); } void ChromeTracingLogger::LogHostTraceEventNode( const HostTraceEventNode& host_node) { if (!output_file_stream_) { return; } std::string dur_display; float dur = nsToMsFloat(host_node.Duration()); if (dur > 1.0) { dur_display = string_format(std::string("%.3f ms"), dur); } else { dur_display = string_format(std::string("%.3f us"), dur * 1000); } std::map>> input_shapes; std::map> input_dtypes; std::string callstack; OperatorSupplementEventNode* op_supplement_node = host_node.GetOperatorSupplementEventNode(); if (op_supplement_node != nullptr) { input_shapes = op_supplement_node->InputShapes(); input_dtypes = op_supplement_node->Dtypes(); callstack = op_supplement_node->CallStack(); callstack = std::regex_replace(callstack, std::regex("\""), "\'"); callstack = std::regex_replace(callstack, std::regex("\n"), "\\n"); } switch (host_node.Type()) { case TracerEventType::ProfileStep: case TracerEventType::Forward: case TracerEventType::Backward: case TracerEventType::Dataloader: case TracerEventType::Optimization: case TracerEventType::PythonOp: case TracerEventType::PythonUserDefined: // cname value comes from tracing.js reservedColorsByName variable output_file_stream_ << string_format( std::string( R"JSON( { "name": "%s[%s]", "pid": %lld, "tid": "%lld(Python)", "ts": %lld, "dur": %.3f, "ph": "X", "cat": "%s", "cname": "thread_state_runnable", "args": { "start_time": "%.3f us", "end_time": "%.3f us" } }, )JSON"), host_node.Name().c_str(), dur_display.c_str(), host_node.ProcessId(), host_node.ThreadId(), nsToUs(host_node.StartNs()), nsToUsFloat(host_node.Duration()), StringTracerEventType(host_node.Type()), nsToUsFloat(host_node.StartNs(), start_time_), nsToUsFloat(host_node.EndNs(), start_time_)); break; case TracerEventType::Operator: output_file_stream_ << string_format( std::string( R"JSON( { "name": "%s[%s]", "pid": %lld, "tid": "%lld(C++)", "ts": %lld, "dur": %.3f, "ph": "X", "cat": "%s", "cname": "thread_state_runnable", "args": { "start_time": "%.3f us", "end_time": "%.3f us", "input_shapes": %s, "input_dtypes": %s, "callstack": "%s" } }, )JSON"), host_node.Name().c_str(), dur_display.c_str(), host_node.ProcessId(), host_node.ThreadId(), nsToUs(host_node.StartNs()), nsToUsFloat(host_node.Duration()), StringTracerEventType(host_node.Type()), nsToUsFloat(host_node.StartNs(), start_time_), nsToUsFloat(host_node.EndNs(), start_time_), json_dict(input_shapes).c_str(), json_dict(input_dtypes).c_str(), callstack.c_str()); break; case TracerEventType::CudaRuntime: case TracerEventType::Kernel: case TracerEventType::Memcpy: case TracerEventType::Memset: case TracerEventType::UserDefined: case TracerEventType::OperatorInner: case TracerEventType::Communication: case TracerEventType::MluRuntime: case TracerEventType::NumTypes: default: output_file_stream_ << string_format( std::string( R"JSON( { "name": "%s[%s]", "pid": %lld, "tid": "%lld(C++)", "ts": %lld, "dur": %.3f, "ph": "X", "cat": "%s", "cname": "thread_state_runnable", "args": { "start_time": "%.3f us", "end_time": "%.3f us" } }, )JSON"), host_node.Name().c_str(), dur_display.c_str(), host_node.ProcessId(), host_node.ThreadId(), nsToUs(host_node.StartNs()), nsToUsFloat(host_node.Duration()), StringTracerEventType(host_node.Type()), nsToUsFloat(host_node.StartNs(), start_time_), nsToUsFloat(host_node.EndNs(), start_time_)); break; } pid_tid_set_.insert({host_node.ProcessId(), host_node.ThreadId()}); } void ChromeTracingLogger::LogRuntimeTraceEventNode( const CudaRuntimeTraceEventNode& runtime_node) { if (!output_file_stream_) { return; } float dur = nsToMsFloat(runtime_node.Duration()); std::string dur_display; if (dur > 1.0) { dur_display = string_format(std::string("%.3f ms"), dur); } else { dur_display = string_format(std::string("%.3f us"), dur * 1000); } output_file_stream_ << string_format( std::string( R"JSON( { "name": "%s[%s]", "pid": %lld, "tid": "%lld(C++)", "ts": %lld, "dur": %.3f, "ph": "X", "cat": "%s", "cname": "thread_state_running", "args": { "correlation id": %d, "start_time": "%.3f us", "end_time": "%.3f us" } }, )JSON"), runtime_node.Name().c_str(), dur_display.c_str(), runtime_node.ProcessId(), runtime_node.ThreadId(), nsToUs(runtime_node.StartNs()), nsToUsFloat(runtime_node.Duration()), StringTracerEventType(runtime_node.Type()), runtime_node.CorrelationId(), nsToUsFloat(runtime_node.StartNs(), start_time_), nsToUsFloat(runtime_node.EndNs(), start_time_)); pid_tid_set_.insert({runtime_node.ProcessId(), runtime_node.ThreadId()}); output_file_stream_ << string_format( std::string( R"JSON( { "name": "launch", "id": %d, "pid": %lld, "tid": "%lld(C++)", "ts": %lld, "ph": "s", "cat": "async" }, )JSON"), runtime_node.CorrelationId(), runtime_node.ProcessId(), runtime_node.ThreadId(), nsToUs((runtime_node.StartNs() + runtime_node.EndNs()) >> 1)); pid_tid_set_.insert({runtime_node.ProcessId(), runtime_node.ThreadId()}); } void ChromeTracingLogger::LogDeviceTraceEventNode( const DeviceTraceEventNode& device_node) { if (!output_file_stream_) { return; } switch (device_node.Type()) { case TracerEventType::Kernel: HandleTypeKernel(device_node); break; case TracerEventType::Memcpy: HandleTypeMemcpy(device_node); break; case TracerEventType::Memset: HandleTypeMemset(device_node); default: break; } if (nsToUs(device_node.Duration()) == 0) { output_file_stream_ << string_format(std::string( R"JSON( { "name": "launch", "id": %d, "pid": %lld, "tid": %lld, "ts": %lld, "ph": "f", "cat": "async" }, )JSON"), device_node.CorrelationId(), device_node.DeviceId(), device_node.StreamId(), nsToUs(device_node.StartNs())); deviceid_streamid_set_.insert( {device_node.DeviceId(), device_node.StreamId()}); } else { output_file_stream_ << string_format( std::string( R"JSON( { "name": "launch", "id": %d, "pid": %lld, "tid": %lld, "ts": %lld, "ph": "f", "cat": "async", "bp": "e" }, )JSON"), device_node.CorrelationId(), device_node.DeviceId(), device_node.StreamId(), nsToUs((device_node.StartNs() + device_node.EndNs()) >> 1)); deviceid_streamid_set_.insert( {device_node.DeviceId(), device_node.StreamId()}); } } void ChromeTracingLogger::HandleTypeKernel( const DeviceTraceEventNode& device_node) { KernelEventInfo kernel_info = device_node.KernelInfo(); float dur = nsToMsFloat(device_node.Duration()); std::string dur_display; if (dur > 1.0) { dur_display = string_format(std::string("%.3f ms"), dur); } else { dur_display = string_format(std::string("%.3f us"), dur * 1000); } output_file_stream_ << string_format( std::string( R"JSON( { "name": "%s[%s]", "pid": %lld, "tid": %lld, "ts": %lld, "dur": %.3f, "ph": "X", "cat": "%s", "cname": "cq_build_failed", "args": { "start_time": "%.3f us", "end_time": "%.3f us", "device": %d, "context": %d, "stream": %d, "correlation id": %d, "registers per thread": %d, "shared memory": %d, "blocks per SM": %f, "warps per SM": %f, "grid": [%d, %d, %d], "block": [%d, %d, %d], "theoretical achieved occupancy %%": %.3f } }, )JSON"), device_node.Name().c_str(), dur_display.c_str(), device_node.DeviceId(), device_node.StreamId(), nsToUs(device_node.StartNs()), nsToUsFloat(device_node.Duration()), StringTracerEventType(device_node.Type()), nsToUsFloat(device_node.StartNs(), start_time_), nsToUsFloat(device_node.EndNs(), start_time_), device_node.DeviceId(), device_node.ContextId(), device_node.StreamId(), device_node.CorrelationId(), kernel_info.registers_per_thread, kernel_info.static_shared_memory + kernel_info.dynamic_shared_memory, kernel_info.blocks_per_sm, kernel_info.warps_per_sm, kernel_info.grid_x, kernel_info.grid_y, kernel_info.grid_z, kernel_info.block_x, kernel_info.block_y, kernel_info.block_z, kernel_info.occupancy * 100); } void ChromeTracingLogger::HandleTypeMemcpy( const DeviceTraceEventNode& device_node) { MemcpyEventInfo memcpy_info = device_node.MemcpyInfo(); float memory_bandwidth = 0; if (device_node.Duration() > 0) { memory_bandwidth = memcpy_info.num_bytes * 1.0 / device_node.Duration(); } float dur = nsToMsFloat(device_node.Duration()); std::string dur_display; if (dur > 1.0) { dur_display = string_format(std::string("%.3f ms"), dur); } else { dur_display = string_format(std::string("%.3f us"), dur * 1000); } output_file_stream_ << string_format( std::string( R"JSON( { "name": "%s[%s]", "pid": %lld, "tid": %lld, "ts": %lld, "dur": %.3f, "ph": "X", "cat": "%s", "cname": "cq_build_failed", "args": { "start_time": "%.3f us", "end_time": "%.3f us", "stream": %d, "correlation id": %d, "bytes": %d, "memory bandwidth (GB/s)": %.3f } }, )JSON"), device_node.Name().c_str(), dur_display.c_str(), device_node.DeviceId(), device_node.StreamId(), nsToUs(device_node.StartNs()), nsToUsFloat(device_node.Duration()), StringTracerEventType(device_node.Type()), nsToUsFloat(device_node.StartNs(), start_time_), nsToUsFloat(device_node.EndNs(), start_time_), device_node.StreamId(), device_node.CorrelationId(), memcpy_info.num_bytes, memory_bandwidth); } void ChromeTracingLogger::HandleTypeMemset( const DeviceTraceEventNode& device_node) { MemsetEventInfo memset_info = device_node.MemsetInfo(); float dur = nsToMsFloat(device_node.Duration()); std::string dur_display; if (dur > 1.0) { dur_display = string_format(std::string("%.3f ms"), dur); } else { dur_display = string_format(std::string("%.3f us"), dur * 1000); } output_file_stream_ << string_format( std::string( R"JSON( { "name": "%s[%s]", "pid": %lld, "tid": %lld, "ts": %lld, "dur": %.3f, "ph": "X", "cat": "%s", "cname": "cq_build_failed", "args": { "start_time": "%.3f us", "end_time": "%.3f us", "device": %d, "context": %d, "stream": %d, "correlation id": %d, "bytes": %d, "value": %d } }, )JSON"), device_node.Name().c_str(), dur_display.c_str(), device_node.DeviceId(), device_node.StreamId(), nsToUs(device_node.StartNs()), nsToUsFloat(device_node.Duration()), StringTracerEventType(device_node.Type()), nsToUsFloat(device_node.StartNs(), start_time_), nsToUsFloat(device_node.EndNs(), start_time_), device_node.DeviceId(), device_node.ContextId(), device_node.StreamId(), device_node.CorrelationId(), memset_info.num_bytes, memset_info.value); } void ChromeTracingLogger::StartLog() { output_file_stream_ << string_format(std::string( R"JSON( { "schemaVersion": "%s", "displayTimeUnit": "ms", "span_indx": "%d", )JSON"), kSchemaVersion, span_indx++); // add device property information #if defined(PADDLE_WITH_CUDA) output_file_stream_ << std::string(R"JSON( "deviceProperties": [ )JSON"); std::vector device_ids = GetSelectedDevices(); for (auto index = 0u; index < device_ids.size() - 1; index++) { const gpuDeviceProp& device_property = GetDeviceProperties(device_ids[index]); output_file_stream_ << string_format( std::string( R"JSON( { "id": %d, "name": "%s", "totalGlobalMem": %llu, "computeMajor": %d, "computeMinor": %d, "maxThreadsPerBlock": %d, "maxThreadsPerMultiprocessor": %d, "regsPerBlock": %d, "regsPerMultiprocessor": %d, "warpSize": %d, "sharedMemPerBlock": %d, "sharedMemPerMultiprocessor": %d, "smCount": %d, "sharedMemPerBlockOptin": %d }, )JSON"), device_ids[index], device_property.name, device_property.totalGlobalMem, device_property.major, device_property.minor, device_property.maxThreadsPerBlock, device_property.maxThreadsPerMultiProcessor, device_property.regsPerBlock, device_property.regsPerMultiprocessor, device_property.warpSize, device_property.sharedMemPerBlock, device_property.sharedMemPerMultiprocessor, device_property.multiProcessorCount, device_property.sharedMemPerBlockOptin); } if (device_ids.size() > 0) { const gpuDeviceProp& device_property = GetDeviceProperties(device_ids[device_ids.size() - 1]); output_file_stream_ << string_format( std::string( R"JSON( { "id": %d, "name": "%s", "totalGlobalMem": %llu, "computeMajor": %d, "computeMinor": %d, "maxThreadsPerBlock": %d, "maxThreadsPerMultiprocessor": %d, "regsPerBlock": %d, "regsPerMultiprocessor": %d, "warpSize": %d, "sharedMemPerBlock": %d, "sharedMemPerMultiprocessor": %d, "smCount": %d, "sharedMemPerBlockOptin": %d }], )JSON"), device_ids[device_ids.size() - 1], device_property.name, device_property.totalGlobalMem, device_property.major, device_property.minor, device_property.maxThreadsPerBlock, device_property.maxThreadsPerMultiProcessor, device_property.regsPerBlock, device_property.regsPerMultiprocessor, device_property.warpSize, device_property.sharedMemPerBlock, device_property.sharedMemPerMultiprocessor, device_property.multiProcessorCount, device_property.sharedMemPerBlockOptin); } #endif output_file_stream_ << std::string( R"JSON( "traceEvents": [ )JSON"); } void ChromeTracingLogger::LogMetaInfo( const std::unordered_map extra_info) { RefineDisplayName(extra_info); output_file_stream_ << std::string( R"JSON( {} ], )JSON"); output_file_stream_ << std::string(R"JSON( "ExtraInfo": {)JSON"); size_t count = extra_info.size(); for (const auto& kv : extra_info) { if (count > 1) { output_file_stream_ << string_format(std::string(R"JSON( "%s": "%s", )JSON"), kv.first.c_str(), kv.second.c_str()); } else { output_file_stream_ << string_format(std::string(R"JSON( "%s": "%s" )JSON"), kv.first.c_str(), kv.second.c_str()); } count--; } output_file_stream_ << std::string(R"JSON( })JSON"); } void ChromeTracingLogger::RefineDisplayName( std::unordered_map extra_info) { for (auto it = pid_tid_set_.begin(); it != pid_tid_set_.end(); ++it) { output_file_stream_ << string_format( std::string( R"JSON( { "name": "process_name", "pid": %lld, "tid": "%lld(Python)", "ph": "M", "args": { "name": "Process %lld (CPU)" } }, { "name": "process_name", "pid": %lld, "tid": "%lld(C++)", "ph": "M", "args": { "name": "Process %lld (CPU)" } }, { "name": "thread_name", "pid": %lld, "tid": "%lld(Python)", "ph": "M", "args": { "name": "thread %lld:%s(Python)" } }, { "name": "thread_name", "pid": %lld, "tid": "%lld(C++)", "ph": "M", "args": { "name": "thread %lld:%s(C++)" } }, { "name": "process_sort_index", "pid": %lld, "tid": %lld, "ph": "M", "args": { "sort_index": %lld } }, { "name": "thread_sort_index", "pid": %lld, "tid": "%lld(Python)", "ph": "M", "args": { "sort_index": %lld } }, { "name": "thread_sort_index", "pid": %lld, "tid": "%lld(C++)", "ph": "M", "args": { "sort_index": %lld } }, )JSON"), (*it).first, (*it).second, (*it).first, (*it).first, (*it).second, (*it).first, (*it).first, (*it).second, (*it).second, extra_info[string_format(std::string("%lld"), (*it).second)].c_str(), (*it).first, (*it).second, (*it).second, extra_info[string_format(std::string("%lld"), (*it).second)].c_str(), (*it).first, (*it).second, (*it).first, (*it).first, (*it).second, (*it).second * 2, (*it).first, (*it).second, (*it).second * 2 + 1); } #ifdef PADDLE_WITH_MLU static std::string device_type("MLU"); #else static std::string device_type("GPU"); #endif for (auto it = deviceid_streamid_set_.begin(); it != deviceid_streamid_set_.end(); ++it) { output_file_stream_ << string_format(std::string( R"JSON( { "name": "process_name", "pid": %lld, "tid": %lld, "ph": "M", "args": { "name": "Deivce %lld (%s)" } }, { "name": "thread_name", "pid": %lld, "tid": %lld, "ph": "M", "args": { "name": "stream %lld" } }, { "name": "process_sort_index", "pid": %lld, "tid": %lld, "ph": "M", "args": { "sort_index": %lld } }, { "name": "thread_sort_index", "pid": %lld, "tid": %lld, "ph": "M", "args": { "sort_index": %lld } }, )JSON"), (*it).first, (*it).second, (*it).first, device_type.c_str(), (*it).first, (*it).second, (*it).second, (*it).first, (*it).second, (*it).first + 0x10000000, (*it).first, (*it).second, (*it).second); } } void ChromeTracingLogger::EndLog() { output_file_stream_ << std::string( R"JSON( } )JSON"); } } // namespace platform } // namespace paddle