// Copyright (c) 2019 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. #pragma once #include #include #include #include #include #include #include #include "core/configure/include/configure_parser.h" #include "core/configure/inferencer_configure.pb.h" #include "core/predictor/framework/infer.h" #include "paddle_inference_api.h" // NOLINT DECLARE_int32(gpuid); namespace baidu { namespace paddle_serving { namespace fluid_gpu { using configure::SigmoidConf; class AutoLock { public: explicit AutoLock(pthread_mutex_t& mutex) : _mut(mutex) { pthread_mutex_lock(&mutex); } ~AutoLock() { pthread_mutex_unlock(&_mut); } private: pthread_mutex_t& _mut; }; class GlobalPaddleCreateMutex { public: pthread_mutex_t& mutex() { return _mut; } static pthread_mutex_t& instance() { static GlobalPaddleCreateMutex gmutex; return gmutex.mutex(); } private: GlobalPaddleCreateMutex() { pthread_mutex_init(&_mut, NULL); } pthread_mutex_t _mut; }; using paddle_infer::Config; using paddle_infer::Predictor; using paddle_infer::Tensor; using paddle_infer::CreatePredictor; // data interface class FluidFamilyCore { public: virtual ~FluidFamilyCore() {} virtual std::vector GetInputNames() { return _core->GetInputNames(); } virtual std::unique_ptr GetInputHandle(const std::string& name) { return _core->GetInputHandle(name); } virtual std::vector GetOutputNames() { return _core->GetOutputNames(); } virtual std::unique_ptr GetOutputHandle(const std::string& name) { return _core->GetOutputHandle(name); } virtual bool Run() { if (!_core->Run()) { LOG(ERROR) << "Failed call Run with paddle predictor"; return false; } return true; } virtual int create(const predictor::InferEngineCreationParams& params) = 0; virtual int clone(void* origin_core) { if (origin_core == NULL) { LOG(ERROR) << "origin paddle Predictor is null."; return -1; } Predictor* p_predictor = (Predictor*)origin_core; _core = p_predictor->Clone(); if (_core.get() == NULL) { LOG(ERROR) << "fail to clone paddle predictor: " << origin_core; return -1; } return 0; } virtual void* get() { return _core.get(); } protected: std::shared_ptr _core; }; // infer interface class FluidGpuAnalysisCore : public FluidFamilyCore { public: int create(const predictor::InferEngineCreationParams& params) { std::string data_path = params.get_path(); if (access(data_path.c_str(), F_OK) == -1) { LOG(ERROR) << "create paddle predictor failed, path not exits: " << data_path; return -1; } Config config; config.SetParamsFile(data_path + "/__params__"); config.SetProgFile(data_path + "/__model__"); config.EnableUseGpu(100, FLAGS_gpuid); config.SetCpuMathLibraryNumThreads(1); if (params.enable_memory_optimization()) { config.EnableMemoryOptim(); } config.SwitchSpecifyInputNames(true); AutoLock lock(GlobalPaddleCreateMutex::instance()); _core = CreatePredictor(config); if (NULL == _core.get()) { LOG(ERROR) << "create paddle predictor failed, path: " << data_path; return -1; } VLOG(2) << "create paddle predictor sucess, path: " << data_path; return 0; } }; class FluidGpuAnalysisDirCore : public FluidFamilyCore { public: int create(const predictor::InferEngineCreationParams& params) { std::string data_path = params.get_path(); if (access(data_path.c_str(), F_OK) == -1) { LOG(ERROR) << "create paddle predictor failed, path not exits: " << data_path; return -1; } Config config; config.SetModel(data_path); config.EnableUseGpu(1500, FLAGS_gpuid); config.SwitchSpecifyInputNames(true); config.SetCpuMathLibraryNumThreads(1); if (params.enable_memory_optimization()) { config.EnableMemoryOptim(); } int max_batch = 32; int min_subgraph_size = 3; if (params.use_trt()) { config.EnableTensorRtEngine( 1 << 20, max_batch, min_subgraph_size, Config::Precision::kFloat32, false, false); LOG(INFO) << "create TensorRT predictor"; } else { if (params.enable_memory_optimization()) { config.EnableMemoryOptim(); } if (params.enable_ir_optimization()) { config.SwitchIrOptim(true); } else { config.SwitchIrOptim(false); } } AutoLock lock(GlobalPaddleCreateMutex::instance()); _core = CreatePredictor(config); if (NULL == _core.get()) { LOG(ERROR) << "create paddle predictor failed, path: " << data_path; return -1; } VLOG(2) << "create paddle predictor sucess, path: " << data_path; return 0; } }; class Parameter { public: Parameter() : _row(0), _col(0), _params(NULL) {} ~Parameter() { LOG(INFO) << "before destroy Parameter, file_name[" << _file_name << "]"; destroy(); } int init(int row, int col, const char* file_name) { destroy(); _file_name = file_name; _row = row; _col = col; _params = reinterpret_cast(malloc(_row * _col * sizeof(float))); if (_params == NULL) { LOG(ERROR) << "Load " << _file_name << " malloc error."; return -1; } VLOG(2) << "Load parameter file[" << _file_name << "] success."; return 0; } void destroy() { _row = 0; _col = 0; if (_params != NULL) { free(_params); _params = NULL; } } int load() { if (_params == NULL || _row <= 0 || _col <= 0) { LOG(ERROR) << "load parameter error [not inited]."; return -1; } FILE* fs = fopen(_file_name.c_str(), "rb"); if (fs == NULL) { LOG(ERROR) << "load " << _file_name << " fopen error."; return -1; } static const uint32_t MODEL_FILE_HEAD_LEN = 16; char head[MODEL_FILE_HEAD_LEN] = {0}; if (fread(head, 1, MODEL_FILE_HEAD_LEN, fs) != MODEL_FILE_HEAD_LEN) { destroy(); LOG(ERROR) << "Load " << _file_name << " read head error."; if (fs != NULL) { fclose(fs); fs = NULL; } return -1; } uint32_t matrix_size = _row * _col; if (matrix_size == fread(_params, sizeof(float), matrix_size, fs)) { if (fs != NULL) { fclose(fs); fs = NULL; } LOG(INFO) << "load " << _file_name << " read ok."; return 0; } else { LOG(ERROR) << "load " << _file_name << " read error."; destroy(); if (fs != NULL) { fclose(fs); fs = NULL; } return -1; } return 0; } public: std::string _file_name; int _row; int _col; float* _params; }; } // namespace fluid_gpu } // namespace paddle_serving } // namespace baidu