// 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 namespace baidu { namespace paddle_serving { namespace sdk_cpp { #ifdef BCLOUD namespace butil = base; #endif template int StubImpl::initialize(const VariantInfo& var, const std::string& ep, const std::string* tag, const std::string* tag_value) { if (tag != NULL && tag_value != NULL) { TagFilter* filter = new (std::nothrow) TagFilter(*tag, *tag_value); if (!filter) { LOG(FATAL) << "Failed create tag filter, key: " << tag << ", value: " << tag_value; return -1; } _gchannel = init_channel(var, filter); LOG(INFO) << "Create stub with tag: " << *tag << ", " << *tag_value << ", ep: " << ep; } else { _gchannel = init_channel(var, NULL); LOG(INFO) << "Create stub without tag, ep " << ep; } if (!_gchannel) { LOG(FATAL) << "Failed init channel via var_info"; return -1; } _service_stub = new (std::nothrow) T(_gchannel); if (!_service_stub) { LOG(FATAL) << "Failed create stub with channel"; return -1; } _infer = _service_stub->GetDescriptor()->FindMethodByName(INFERENCE_METHOD_NAME); if (!_infer) { LOG(FATAL) << "Failed get inference method, " << "method name: " << INFERENCE_METHOD_NAME; return -1; } _debug = _service_stub->GetDescriptor()->FindMethodByName(DEBUG_METHOD_NAME); if (!_debug) { LOG(FATAL) << "Failed get debug method, " << "method name: " << DEBUG_METHOD_NAME; return -1; } _endpoint = ep; if (bthread_key_create(&_bthread_key, NULL) != 0) { LOG(FATAL) << "Failed create key for stub tls"; return -1; } const std::string& name = _endpoint + "_" + _service_stub->GetDescriptor()->full_name() + "_" + _tag; _ltc_bvars.clear(); _avg_bvars.clear(); BAIDU_SCOPED_LOCK(_bvar_mutex); #ifndef DEFINE_LATENCY #define DEFINE_LATENCY(item) \ do { \ _ltc_##item = new (std::nothrow) LatencyWrapper(name + "_" #item); \ if (!_ltc_##item) { \ LOG(FATAL) << "Failed create latency recorder:" << name + "_" #item; \ return -1; \ } \ _ltc_bvars["ltc_" #item] = _ltc_##item; \ } while (0) #endif DEFINE_LATENCY(infer_sync); DEFINE_LATENCY(infer_async); DEFINE_LATENCY(infer_send); DEFINE_LATENCY(infer_recv); DEFINE_LATENCY(infer_cancel); DEFINE_LATENCY(debug); DEFINE_LATENCY(rpc_init); DEFINE_LATENCY(thrd_clear); DEFINE_LATENCY(pack_map); DEFINE_LATENCY(pack_merge); #undef DEFINE_LATENCY #ifndef DEFINE_AVERAGE #define DEFINE_AVERAGE(item) \ do { \ _avg_##item = new (std::nothrow) AverageWrapper(name + "_" #item); \ if (!_avg_##item) { \ LOG(FATAL) << "Failed create average recorder:" << name + "_" #item; \ return -1; \ } \ _avg_bvars["avg_" #item] = _avg_##item; \ } while (0) #endif DEFINE_AVERAGE(failure); DEFINE_AVERAGE(pack); DEFINE_AVERAGE(item_size); DEFINE_AVERAGE(pack_fail); #undef DEFINE_AVERAGE return 0; } template int StubImpl::thrd_initialize() { if (bthread_getspecific(_bthread_key) != NULL) { LOG(WARNING) << "Already thread initialized for stub"; return 0; } StubTLS* tls = new (std::nothrow) StubTLS(); if (!tls || bthread_setspecific(_bthread_key, tls) != 0) { LOG(FATAL) << "Failed binding tls data to bthread_key"; return -1; } LOG(WARNING) << "Succ thread initialize stub impl!"; return 0; } template int StubImpl::thrd_clear() { MetricScope metric(this, "thrd_clear"); StubTLS* tls = get_tls(); if (!tls) { LOG(FATAL) << "Failed get tls stub object"; return -1; } // clear predictor size_t ps = tls->predictor_pools.size(); for (size_t pi = 0; pi < ps; ++pi) { Predictor* p = tls->predictor_pools[pi]; if (p && p->is_inited() && return_predictor(p) != 0) { LOG(FATAL) << "Failed return predictor: " << pi; return -1; } } tls->predictor_pools.clear(); // clear request size_t is = tls->request_pools.size(); for (size_t ii = 0; ii < is; ++ii) { if (return_request(tls->request_pools[ii]) != 0) { LOG(FATAL) << "Failed return request: " << ii; return -1; } } tls->request_pools.clear(); // clear response size_t os = tls->response_pools.size(); for (size_t oi = 0; oi < os; ++oi) { if (return_response(tls->response_pools[oi]) != 0) { LOG(FATAL) << "Failed return response: " << oi; return -1; } } tls->response_pools.clear(); return 0; } template int StubImpl::thrd_finalize() { StubTLS* tls = get_tls(); if (!tls || thrd_clear() != 0) { LOG(FATAL) << "Failed clreate tls in thrd finalize"; return -1; } delete tls; return 0; } template Predictor* StubImpl::fetch_predictor() { StubTLS* tls = get_tls(); if (!tls) { LOG(FATAL) << "Failed get tls data when fetching predictor"; return NULL; } PredictorImpl* predictor = butil::get_object>(); if (!predictor) { LOG(FATAL) << "Failed fetch predictor"; return NULL; } if (predictor->init( _gchannel, _service_stub, _infer, _debug, _options, this, _tag) != 0) { LOG(FATAL) << "Failed init fetched predictor"; return NULL; } tls->predictor_pools.push_back(predictor); return predictor; } template int StubImpl::return_predictor(Predictor* predictor) { if ((dynamic_cast*>(predictor))->deinit() != 0) { LOG(FATAL) << "Failed deinit fetched predictor"; return -1; } butil::return_object(dynamic_cast*>(predictor)); return 0; } template int StubImpl::return_predictor(Predictor* predictor) const { if ((dynamic_cast*>(predictor))->deinit() != 0) { LOG(FATAL) << "Failed deinit fetched predictor"; return -1; } butil::return_object(dynamic_cast*>(predictor)); return 0; } template google::protobuf::Message* StubImpl::fetch_request() { StubTLS* tls = get_tls(); if (!tls) { LOG(FATAL) << "Failed get tls data when fetching request"; return NULL; } I* req = butil::get_object(); if (!req) { LOG(FATAL) << "Failed get tls request item, type: " << typeid(I).name(); return NULL; } req->Clear(); tls->request_pools.push_back(req); return req; } template int StubImpl::return_request( google::protobuf::Message* request) const { request->Clear(); butil::return_object(dynamic_cast(request)); return 0; } template int StubImpl::return_request( google::protobuf::Message* request) { request->Clear(); butil::return_object(dynamic_cast(request)); return 0; } template google::protobuf::Message* StubImpl::fetch_response() { StubTLS* tls = get_tls(); if (!tls) { LOG(FATAL) << "Failed get tls data when fetching response"; return NULL; } O* res = butil::get_object(); if (!res) { LOG(FATAL) << "Failed get tls response item, type: " << typeid(O).name(); return NULL; } res->Clear(); tls->response_pools.push_back(res); return res; } template int StubImpl::return_response( google::protobuf::Message* response) const { response->Clear(); butil::return_object(dynamic_cast(response)); return 0; } template int StubImpl::return_response( google::protobuf::Message* response) { response->Clear(); butil::return_object(dynamic_cast(response)); return 0; } template google::protobuf::RpcChannel* StubImpl::init_channel( const VariantInfo& var, brpc::NamingServiceFilter* filter) { brpc::ChannelOptions chn_options; chn_options.ns_filter = filter; // parameters ASSIGN_CONF_ITEM(chn_options.protocol, var.parameters.protocol, NULL); ASSIGN_CONF_ITEM(_tag, var.parameters.route_tag, NULL); ASSIGN_CONF_ITEM(_max_channel, var.parameters.max_channel, NULL); ASSIGN_CONF_ITEM(_package_size, var.parameters.package_size, NULL); if (_max_channel < 1) { LOG(ERROR) << "Invalid MaxChannelPerRequest: " << _max_channel; return NULL; } // connection ASSIGN_CONF_ITEM(chn_options.max_retry, var.connection.cnt_retry_conn, NULL); ASSIGN_CONF_ITEM( chn_options.connect_timeout_ms, var.connection.tmo_conn, NULL); ASSIGN_CONF_ITEM(chn_options.timeout_ms, var.connection.tmo_rpc, NULL); ASSIGN_CONF_ITEM( chn_options.backup_request_ms, var.connection.tmo_hedge, NULL); // connection type std::string conn_type_str; ASSIGN_CONF_ITEM(conn_type_str, var.connection.type_conn, NULL); chn_options.connection_type = brpc::StringToConnectionType(conn_type_str); // naminginfo std::string cluster_naming_info; std::string cluster_loadbalancer; ASSIGN_CONF_ITEM(cluster_naming_info, var.naminginfo.cluster_naming, NULL); ASSIGN_CONF_ITEM(cluster_loadbalancer, var.naminginfo.load_balancer, NULL); // brpc single channel _channel = butil::get_object(); if (!_channel) { LOG(FATAL) << "Failed get channel object from butil::pool"; return NULL; } if (_channel->Init(cluster_naming_info.c_str(), cluster_loadbalancer.c_str(), &chn_options) != 0) { LOG(ERROR) << "Failed to initialize channel, path: " << cluster_naming_info; return NULL; } // brpc parallel channel _pchannel = init_pchannel(_channel, _max_channel, _package_size, chn_options); if (_pchannel) { LOG(INFO) << "Succ create parallel channel, count: " << _max_channel; return _pchannel; } return _channel; } template brpc::ParallelChannel* StubImpl::init_pchannel( brpc::Channel* sub_channel, uint32_t channel_count, uint32_t package_size, const brpc::ChannelOptions& options) { if (channel_count <= 1) { // noneed use parallel channel LOG(INFO) << "channel count <= 1, noneed use pchannel."; return NULL; } _pchannel = butil::get_object(); if (!_pchannel) { LOG(FATAL) << "Failed get pchannel from object pool"; return NULL; } brpc::ParallelChannelOptions pchan_options; pchan_options.timeout_ms = options.timeout_ms; if (_pchannel->Init(&pchan_options) != 0) { LOG(FATAL) << "Failed init parallel channel with tmo_us: " << pchan_options.timeout_ms; return NULL; } for (uint32_t si = 0; si < channel_count; ++si) { if (_pchannel->AddChannel(sub_channel, brpc::DOESNT_OWN_CHANNEL, new C(package_size, this), new R(package_size, this)) != 0) { LOG(FATAL) << "Failed add channel at: " << si << ", package_size:" << package_size; return NULL; } } return _pchannel; } } // namespace sdk_cpp } // namespace paddle_serving } // namespace baidu