/* Copyright (c) 2021 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/event_python.h" #include "paddle/fluid/platform/profiler/chrometracing_logger.h" #include "paddle/fluid/platform/profiler/dump/deserialization_reader.h" #include "paddle/fluid/platform/profiler/dump/serialization_logger.h" #include "paddle/phi/core/platform/profiler/extra_info.h" namespace paddle::platform { HostPythonNode::~HostPythonNode() { // delete all runtime or device nodes and recursive delete children for (auto& children_node_ptr : children_node_ptrs) { delete children_node_ptr; } for (auto& runtime_node_ptr : runtime_node_ptrs) { delete runtime_node_ptr; } for (auto& device_node_ptr : device_node_ptrs) { delete device_node_ptr; } for (auto& mem_node_ptr : mem_node_ptrs) { delete mem_node_ptr; } } HostPythonNode* ProfilerResult::CopyTree(HostTraceEventNode* root) { // Copy and transfer EventNode in NodeTree to PythonNode if (root == nullptr) { return nullptr; } // copy HostTraceEventNode and its children HostPythonNode* host_python_node = new HostPythonNode(); host_python_node->name = root->Name(); host_python_node->type = root->Type(); host_python_node->start_ns = root->StartNs(); host_python_node->end_ns = root->EndNs(); host_python_node->process_id = root->ProcessId(); host_python_node->thread_id = root->ThreadId(); for (auto child : root->GetChildren()) { host_python_node->children_node_ptrs.push_back(CopyTree(child)); } // copy its CudaRuntimeTraceEventNode for (auto runtimenode : root->GetRuntimeTraceEventNodes()) { HostPythonNode* runtime_python_node = new HostPythonNode(); runtime_python_node->name = runtimenode->Name(); runtime_python_node->type = runtimenode->Type(); runtime_python_node->start_ns = runtimenode->StartNs(); runtime_python_node->end_ns = runtimenode->EndNs(); runtime_python_node->process_id = runtimenode->ProcessId(); runtime_python_node->thread_id = runtimenode->ThreadId(); runtime_python_node->correlation_id = runtimenode->CorrelationId(); host_python_node->runtime_node_ptrs.push_back(runtime_python_node); // copy DeviceTraceEventNode for (auto devicenode : runtimenode->GetDeviceTraceEventNodes()) { DevicePythonNode* device_python_node = new DevicePythonNode(); device_python_node->name = devicenode->Name(); device_python_node->type = devicenode->Type(); device_python_node->start_ns = devicenode->StartNs(); device_python_node->end_ns = devicenode->EndNs(); device_python_node->device_id = devicenode->DeviceId(); device_python_node->context_id = devicenode->ContextId(); device_python_node->stream_id = devicenode->StreamId(); device_python_node->correlation_id = devicenode->CorrelationId(); if (device_python_node->type == TracerEventType::Kernel) { KernelEventInfo kernel_info = devicenode->KernelInfo(); device_python_node->block_x = kernel_info.block_x; device_python_node->block_y = kernel_info.block_y; device_python_node->block_z = kernel_info.block_z; device_python_node->grid_x = kernel_info.grid_x; device_python_node->grid_y = kernel_info.grid_y; device_python_node->grid_z = kernel_info.grid_z; device_python_node->shared_memory = kernel_info.dynamic_shared_memory + kernel_info.static_shared_memory; device_python_node->registers_per_thread = kernel_info.registers_per_thread; device_python_node->blocks_per_sm = kernel_info.blocks_per_sm; device_python_node->warps_per_sm = kernel_info.warps_per_sm; device_python_node->occupancy = kernel_info.occupancy; } else if (device_python_node->type == TracerEventType::Memcpy) { MemcpyEventInfo memcpy_info = devicenode->MemcpyInfo(); device_python_node->num_bytes = memcpy_info.num_bytes; } else if (device_python_node->type == TracerEventType::Memset) { MemsetEventInfo memset_info = devicenode->MemsetInfo(); device_python_node->num_bytes = memset_info.num_bytes; device_python_node->value = memset_info.value; } runtime_python_node->device_node_ptrs.push_back(device_python_node); } } // copy MemTraceEventNode for (auto memnode : root->GetMemTraceEventNodes()) { MemPythonNode* mem_python_node = new MemPythonNode(); mem_python_node->timestamp_ns = memnode->TimeStampNs(); mem_python_node->addr = memnode->Addr(); mem_python_node->type = memnode->Type(); mem_python_node->process_id = memnode->ProcessId(); mem_python_node->thread_id = memnode->ThreadId(); mem_python_node->increase_bytes = memnode->IncreaseBytes(); mem_python_node->place = memnode->Place(); mem_python_node->current_allocated = memnode->CurrentAllocated(); mem_python_node->current_reserved = memnode->CurrentReserved(); mem_python_node->peak_allocated = memnode->PeakAllocated(); mem_python_node->peak_reserved = memnode->PeakReserved(); host_python_node->mem_node_ptrs.push_back(mem_python_node); } // copy OperatorSupplementEventNode's information if exists OperatorSupplementEventNode* op_supplement_node = root->GetOperatorSupplementEventNode(); if (op_supplement_node != nullptr) { host_python_node->input_shapes = op_supplement_node->InputShapes(); host_python_node->dtypes = op_supplement_node->Dtypes(); host_python_node->callstack = op_supplement_node->CallStack(); host_python_node->attributes = op_supplement_node->Attributes(); host_python_node->op_id = op_supplement_node->OpId(); } return host_python_node; } #if defined(PADDLE_WITH_CUDA) || defined(PADDLE_WITH_HIP) || \ defined(PADDLE_WITH_XPU) ProfilerResult::ProfilerResult( std::unique_ptr tree, const ExtraInfo& extra_info, const std::map device_property_map) : tree_(tree.release()), extra_info_(extra_info), device_property_map_(device_property_map), span_index_(0) { if (tree_ != nullptr) { std::map nodetrees = tree_->GetNodeTrees(); for (auto& nodetree : nodetrees) { thread_event_trees_map_[nodetree.first] = CopyTree(nodetree.second); } } } #endif ProfilerResult::ProfilerResult(std::unique_ptr tree, const ExtraInfo& extra_info) : tree_(tree.release()), extra_info_(extra_info), span_index_(0) { if (tree_ != nullptr) { std::map nodetrees = tree_->GetNodeTrees(); for (auto& nodetree : nodetrees) { thread_event_trees_map_[nodetree.first] = CopyTree(nodetree.second); } } } ProfilerResult::~ProfilerResult() { // delete all root nodes for (auto& item : thread_event_trees_map_) { delete item.second; } } void ProfilerResult::Save(const std::string& file_name, const std::string format) { if (format == std::string("json")) { ChromeTracingLogger logger(file_name); logger.LogMetaInfo(version_, span_index_); #if defined(PADDLE_WITH_CUDA) || defined(PADDLE_WITH_HIP) || \ defined(PADDLE_WITH_XPU) logger.LogDeviceProperty(device_property_map_); #endif tree_->LogMe(&logger); logger.LogExtraInfo(GetExtraInfo()); } else if (format == std::string("pb")) { SerializationLogger logger(file_name); logger.LogMetaInfo(version_, span_index_); #if defined(PADDLE_WITH_CUDA) || defined(PADDLE_WITH_HIP) || \ defined(PADDLE_WITH_XPU) logger.LogDeviceProperty(device_property_map_); #endif tree_->LogMe(&logger); logger.LogExtraInfo(GetExtraInfo()); } return; } std::unique_ptr LoadProfilerResult(std::string filename) { DeserializationReader reader(filename); std::unique_ptr result = reader.Parse(); return result; } } // namespace paddle::platform