// 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. #include "core/predictor/framework/infer.h" namespace baidu { namespace paddle_serving { namespace predictor { int ReloadableInferEngine::proc_initialize_impl( const configure::EngineDesc& conf, bool version) { _reload_tag_file = conf.reloadable_meta(); _reload_type = conf.reloadable_type(); _model_dir = conf.model_dir(); _infer_thread_num = conf.runtime_thread_num(); _infer_batch_size = conf.batch_infer_size(); _infer_overrun = conf.enable_overrun(); _allow_split_request = conf.allow_split_request(); _conf = conf; if (!check_need_reload() || load(conf) != 0) { LOG(ERROR) << "Failed load model_data_path" << _model_dir; return -1; } if (parse_version_info(conf, version) != 0) { LOG(ERROR) << "Failed parse version info"; return -1; } LOG(WARNING) << "Succ load model:" << _model_dir; return 0; } int ReloadableInferEngine::proc_initialize(const configure::EngineDesc& conf, bool version) { if (proc_initialize_impl(conf, version) != 0) { LOG(ERROR) << "Failed proc initialize impl"; return -1; } // init bsf framework if (_infer_thread_num <= 0) { return 0; } // init bsf framework im::bsf::TaskExecutorVector::instance()[_model_index] .set_thread_init_fn( boost::bind(&InferEngine::thrd_initialize_impl, this)); im::bsf::TaskExecutorVector::instance()[_model_index] .set_thread_reset_fn(boost::bind(&InferEngine::thrd_clear_impl, this)); im::bsf::TaskExecutorVector::instance()[_model_index] .set_thread_callback_fn( boost::bind(&InferEngine::task_infer_impl, this, _1, _2)); im::bsf::TaskExecutorVector::instance()[_model_index].set_batch_size( _infer_batch_size); im::bsf::TaskExecutorVector::instance()[_model_index].set_overrun( _infer_overrun); im::bsf::TaskExecutorVector::instance()[_model_index] .set_allow_split_request(_allow_split_request); if (im::bsf::TaskExecutorVector::instance()[_model_index].start( _infer_thread_num) != 0) { LOG(ERROR) << "Failed start bsf executor, threads:" << _infer_thread_num; return -1; } LOG(WARNING) << "Enable batch schedule framework, thread_num:" << _infer_thread_num << ", batch_size:" << _infer_batch_size << ", enable_overrun:" << _infer_overrun << ", allow_split_request:" << _allow_split_request; return 0; } // Multiple threads will enter this method of the same object // One Model corresponds to One ReloadableInferEngine object. // ReloadableInferEngine object is Process object. // One ReloadableInferEngine object can have several ModelData // ModelData is Thread object. int ReloadableInferEngine::infer(const void* in, void* out, uint32_t batch_size) { if (_infer_thread_num <= 0) { return infer_impl(in, out, batch_size); } im::bsf::TaskManager task_manager( _model_index); task_manager.schedule(in, out); task_manager.wait(); return 0; } int ReloadableInferEngine::thrd_initialize() { if (_infer_thread_num > 0) { return 0; } return thrd_initialize_impl(); } int ReloadableInferEngine::thrd_clear() { if (_infer_thread_num > 0) { return 0; } return thrd_clear_impl(); } int ReloadableInferEngine::proc_finalize() { if (proc_finalize_impl() != 0) { LOG(ERROR) << "Failed proc finalize impl"; return -1; } if (_infer_thread_num > 0) { im::bsf::TaskExecutorVector::instance()[_model_index].stop(); } return 0; } int ReloadableInferEngine::reload() { if (check_need_reload()) { LOG(WARNING) << "begin reload model[" << _model_dir << "]."; return load(_conf); } return 0; } int ReloadableInferEngine::parse_version_info( const configure::EngineDesc& config, bool version) { _version = uint64_t(-1); return 0; } bool ReloadableInferEngine::check_need_reload() { if (_reload_type == "timestamp_ne") { return check_timestamp_ne(); } else if (_reload_type == "timestamp_gt") { return check_timestamp_gt(); } else if (_reload_type == "md5sum") { return check_md5sum(); } else if (_reload_type == "revision") { return check_revision(); } else if (_reload_type == "none") { return false; } LOG(ERROR) << "Not support reload type: " << _reload_type; return false; } bool ReloadableInferEngine::check_timestamp_ne() { struct stat st; if (stat(_reload_tag_file.c_str(), &st) != 0) { LOG(ERROR) << "Failed stat config file:" << _reload_tag_file; return false; } if ((st.st_mode & S_IFREG) && st.st_mtime != _last_record.timestamp) { _last_record.timestamp = st.st_mtime; return true; } return false; } bool ReloadableInferEngine::check_timestamp_gt() { struct stat st; if (stat(_reload_tag_file.c_str(), &st) != 0) { LOG(ERROR) << "Failed stat config file:" << _reload_tag_file; return false; } if ((st.st_mode & S_IFREG) && st.st_mtime > _last_record.timestamp) { _last_record.timestamp = st.st_mtime; return true; } return false; } int VersionedInferEngine::proc_initialize(const configure::EngineDesc& conf) { if (proc_initialize(conf, false) != 0) { LOG(ERROR) << "Failed proc intialize engine: " << conf.name().c_str(); return -1; } LOG(WARNING) << "Succ proc initialize engine: " << conf.name().c_str(); return 0; } int VersionedInferEngine::proc_initialize(const configure::EngineDesc& conf, bool version) { std::string engine_type = conf.type(); InferEngine* engine = StaticInferFactory::instance().generate_object(engine_type); engine->set_model_index(_model_index); if (!engine) { LOG(ERROR) << "Failed generate engine with type:" << engine_type; return -1; } #ifndef BCLOUD VLOG(2) << "FLAGS_logtostderr " << FLAGS_logtostderr; int tmp = FLAGS_logtostderr; if (engine->proc_initialize(conf, version) != 0) { LOG(ERROR) << "Failed initialize engine, type:" << engine_type; return -1; } VLOG(2) << "FLAGS_logtostderr " << FLAGS_logtostderr; FLAGS_logtostderr = tmp; #else if (engine->proc_initialize(conf, version) != 0) { LOG(ERROR) << "Failed initialize engine, type:" << engine_type; return -1; } #endif auto r = _versions.insert(std::make_pair(engine->version(), engine)); if (!r.second) { LOG(ERROR) << "Failed insert item: " << engine->version() << ", type: " << engine_type; return -1; } LOG(WARNING) << "Succ proc initialize version engine: " << engine->version(); return 0; } int VersionedInferEngine::proc_finalize() { for (auto iter = _versions.begin(); iter != _versions.end(); ++iter) { if (iter->second->proc_finalize() != 0) { LOG(ERROR) << "Failed proc finalize version engine: " << iter->first; } LOG(WARNING) << "Succ proc finalize version engine: " << iter->first; } return 0; } int VersionedInferEngine::thrd_initialize() { for (auto iter = _versions.begin(); iter != _versions.end(); ++iter) { if (iter->second->thrd_initialize() != 0) { LOG(ERROR) << "Failed thrd initialize version engine: " << iter->first; return -1; } LOG(WARNING) << "Succ thrd initialize version engine: " << iter->first; } return 0; } int VersionedInferEngine::thrd_clear() { for (auto iter = _versions.begin(); iter != _versions.end(); ++iter) { if (iter->second->thrd_clear() != 0) { LOG(ERROR) << "Failed thrd clear version engine: " << iter->first; return -1; } } return 0; } int VersionedInferEngine::thrd_finalize() { for (auto iter = _versions.begin(); iter != _versions.end(); ++iter) { if (iter->second->thrd_finalize() != 0) { LOG(ERROR) << "Failed thrd finalize version engine: " << iter->first; return -1; } LOG(WARNING) << "Succ thrd finalize version engine: " << iter->first; } return 0; } int VersionedInferEngine::reload() { for (auto iter = _versions.begin(); iter != _versions.end(); ++iter) { if (iter->second->reload() != 0) { LOG(ERROR) << "Failed reload version engine: " << iter->first; return -1; } LOG(WARNING) << "Succ reload version engine: " << iter->first; } return 0; } uint64_t VersionedInferEngine::version() const { InferEngine* engine = default_engine(); if (engine) { return engine->version(); } else { return uint64_t(-1); } } // inference interface InferEngine* VersionedInferEngine::default_engine() const { if (_versions.size() != 1) { LOG(ERROR) << "Ambiguous default engine version:" << _versions.size(); return NULL; } return _versions.begin()->second; } int VersionedInferEngine::infer(const void* in, void* out, uint32_t batch_size) { InferEngine* engine = default_engine(); if (!engine) { LOG(WARNING) << "fail to get default engine"; return -1; } return engine->infer(in, out, batch_size); } // versioned inference interface int VersionedInferEngine::infer(const void* in, void* out, uint32_t batch_size, uint64_t version) { auto iter = _versions.find(version); if (iter == _versions.end()) { LOG(ERROR) << "Not found version engine: " << version; return -1; } return iter->second->infer(in, out, batch_size); } template T* VersionedInferEngine::get_core() { InferEngine* engine = default_engine(); if (!engine) { LOG(WARNING) << "fail to get core"; return NULL; } auto db_engine = dynamic_cast*>(engine); if (db_engine) { return db_engine->get_core(); } LOG(WARNING) << "fail to get core"; return NULL; } template T* VersionedInferEngine::get_core(uint64_t version) { auto iter = _versions.find(version); if (iter == _versions.end()) { LOG(ERROR) << "Not found version engine: " << version; return NULL; } auto db_engine = dynamic_cast*>(iter->second); if (db_engine) { return db_engine->get_core(); } LOG(WARNING) << "fail to get core for " << version; return NULL; } int VersionedInferEngine::proc_initialize_impl( const configure::EngineDesc& conf, bool) { return -1; } int VersionedInferEngine::thrd_initialize_impl() { return -1; } int VersionedInferEngine::thrd_finalize_impl() { return -1; } int VersionedInferEngine::thrd_clear_impl() { return -1; } int VersionedInferEngine::proc_finalize_impl() { return -1; } int VersionedInferEngine::infer_impl(const void* in, void* out, uint32_t batch_size) { return -1; } int VersionedInferEngine::task_infer_impl(const void* in, void* out) { // NOLINT return -1; } int InferManager::set_taskexecutor_num(size_t total_engine_num) { im::bsf::TaskExecutorVector::instance().resize(total_engine_num); return 0; } int InferManager::proc_initialize(const char* path, const char* file, std::shared_ptr engine_index_ptr) { ModelToolkitConf model_toolkit_conf; if (configure::read_proto_conf(path, file, &model_toolkit_conf) != 0) { LOG(ERROR) << "failed load infer config, path: " << path << "/" << file; return -1; } uint32_t engine_num = model_toolkit_conf.engines_size(); for (uint32_t ei = 0; ei < engine_num; ++ei) { LOG(INFO) << "model_toolkit_conf.engines(" << ei << ").name: " << model_toolkit_conf.engines(ei).name(); std::string engine_name = model_toolkit_conf.engines(ei).name(); VersionedInferEngine* engine = new (std::nothrow) VersionedInferEngine(); int temp_engine_index_ptr = *engine_index_ptr; engine->set_model_index(temp_engine_index_ptr); *engine_index_ptr = temp_engine_index_ptr + 1; if (!engine) { LOG(ERROR) << "Failed generate versioned engine: " << engine_name; return -1; } if (engine->proc_initialize(model_toolkit_conf.engines(ei)) != 0) { LOG(ERROR) << "Failed initialize version engine, name:" << engine_name; return -1; } auto r = _map.insert(std::make_pair(engine_name, engine)); if (!r.second) { LOG(ERROR) << "Failed insert item: " << engine_name; return -1; } LOG(WARNING) << "Succ proc initialize engine: " << engine_name; } return 0; } int InferManager::thrd_initialize() { for (auto it = _map.begin(); it != _map.end(); ++it) { if (it->second->thrd_initialize() != 0) { LOG(ERROR) << "Failed thrd initialize engine, name: " << it->first; return -1; } LOG(WARNING) << "Succ thrd initialize engine, name: " << it->first; } return 0; } int InferManager::thrd_clear() { for (auto it = _map.begin(); it != _map.end(); ++it) { if (it->second->thrd_clear() != 0) { LOG(ERROR) << "Failed thrd clear engine, name: " << it->first; return -1; } } return 0; } int InferManager::reload() { for (auto it = _map.begin(); it != _map.end(); ++it) { if (it->second->reload() != 0) { LOG(ERROR) << "Failed reload engine, name: " << it->first; return -1; } } return 0; } int InferManager::thrd_finalize() { for (auto it = _map.begin(); it != _map.end(); ++it) { if (it->second->thrd_finalize() != 0) { LOG(ERROR) << "Failed thrd finalize engine, name: " << it->first; return -1; } LOG(WARNING) << "Succ thrd finalize engine, name: " << it->first; } return 0; } int InferManager::proc_finalize() { for (auto it = _map.begin(); it != _map.end(); ++it) { if (it->second->proc_finalize() != 0) { LOG(ERROR) << "Failed proc finalize engine, name: " << it->first; return -1; } LOG(WARNING) << "Succ proc finalize engine, name: " << it->first; } _map.clear(); return 0; } // Inference interface int InferManager::infer(const char* model_name, const void* in, void* out, uint32_t batch_size) { auto it = _map.find(model_name); if (it == _map.end()) { LOG(WARNING) << "Cannot find engine in map, model name:" << model_name; return -1; } return it->second->infer(in, out, batch_size); } template T* InferManager::get_core(const char* model_name) { auto it = _map.find(model_name); if (it == _map.end()) { LOG(WARNING) << "Cannot find engine in map, model name:" << model_name; return NULL; } auto infer_engine = dynamic_cast*>(it->second->default_engine()); if (infer_engine) { return infer_engine->get_core(); } LOG(WARNING) << "fail to get core for " << model_name; return NULL; } // Versioned inference interface int InferManager::infer(const char* model_name, const void* in, void* out, uint32_t batch_size, uint64_t version) { auto it = _map.find(model_name); if (it == _map.end()) { LOG(WARNING) << "Cannot find engine in map, model name:" << model_name; return -1; } return it->second->infer(in, out, batch_size, version); } template T* InferManager::get_core(const char* model_name, uint64_t version) { auto it = _map.find(model_name); if (it == _map.end()) { LOG(WARNING) << "Cannot find engine in map, model name:" << model_name; return NULL; } return it->second->get_core(version); } int InferManager::query_version(const std::string& model, uint64_t& version) { auto it = _map.find(model); if (it == _map.end()) { LOG(WARNING) << "Cannot find engine in map, model name:" << model; return -1; } auto infer_engine = it->second->default_engine(); if (!infer_engine) { LOG(WARNING) << "Cannot get default engine for model:" << model; return -1; } version = infer_engine->version(); LOG(INFO) << "Succ get version: " << version << " for model: " << model; return 0; } } // namespace predictor } // namespace paddle_serving } // namespace baidu