/* Copyright (c) 2020 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 #include "brpc/channel.h" #include "brpc/controller.h" #include "brpc/server.h" #include "paddle/fluid/distributed/ps/service/brpc_ps_client.h" #include "paddle/fluid/distributed/ps/service/brpc_utils.h" #include "paddle/fluid/distributed/ps/service/sendrecv.pb.h" #include "paddle/fluid/framework/scope.h" #include "paddle/fluid/framework/tensor.h" #include "paddle/fluid/framework/variable_helper.h" #include "paddle/fluid/platform/macros.h" // for DISABLE_COPY_AND_ASSIGN #include "paddle/fluid/string/split.h" namespace paddle { namespace framework { class Scope; } // namespace framework } // namespace paddle namespace paddle { namespace distributed { DECLARE_int32(pserver_timeout_ms); using MultiVarMsg = ::paddle::distributed::MultiVariableMessage; using VarMsg = ::paddle::distributed::VariableMessage; typedef std::function HeterRpcCallbackFunc; class OnHeterRpcDone : public google::protobuf::Closure { public: explicit OnHeterRpcDone(HeterRpcCallbackFunc func) : handler_(func) {} virtual ~OnHeterRpcDone() {} void Run() { handler_(this); } void add_promise(std::shared_ptr>& promise) { // NOLINT _promises.push_back(promise); } void set_promise_value(int value) { for (auto& promise : _promises) { promise->set_value(value); } } int CheckResponse() { return 0; } std::vector>> _promises; HeterRpcCallbackFunc handler_; MultiVariableMessage request; MultiVariableMessage response; PsResponseMessage ps_response; brpc::Controller cntl; // PsRequestMessage *request(size_t i) { return &_requests[i]; } // PsResponseMessage *response(size_t i) { return &_responses[i]; } // std::vector _requests; // std::vector _responses; // std::vector> _cntls; }; class HeterClient { public: virtual ~HeterClient() {} void InitClientChannels(bool need_encrypt, const std::vector& node_list, int32_t peer_role) { brpc::ChannelOptions options; options.protocol = "baidu_std"; options.connection_type = "single"; options.timeout_ms = FLAGS_pserver_timeout_ms; std::vector>* client_channels = nullptr; if (peer_role == PEER_ROLE_IS_SWITCH) { #ifdef PADDLE_WITH_ARM_BRPC if (need_encrypt) { options.mutable_ssl_options(); } options.connection_type = ""; VLOG(4) << "ssl enabled in arm"; #else if (need_encrypt) { options.mutable_ssl_options(); } #endif client_channels = &peer_switch_channels_; } else if (peer_role == PEER_ROLE_IS_WORKER) { client_channels = &peer_worker_channels_; } else { LOG(ERROR) << "init switch client failed, peer_role not valid"; } (*client_channels).resize(node_list.size()); for (size_t i = 0; i < node_list.size(); ++i) { (*client_channels)[i].reset(new brpc::Channel()); if ((*client_channels)[i]->Init(node_list[i].c_str(), "", &options) != 0) { VLOG(0) << "client channel init failed! try again"; auto ip_port = paddle::string::Split(node_list[i], ':'); std::string ip = ip_port[0]; int port = std::stoi(ip_port[1]); std::string int_ip_port = GetIntTypeEndpoint(ip, port); if ((*client_channels)[i]->Init(int_ip_port.c_str(), "", &options) != 0) { LOG(ERROR) << "client channel init failed! peer ip_port = " << int_ip_port; } } } VLOG(4) << "InitClientChannels success"; } void CreateClient2XpuConnection(); void SendAndRecvAsync(const platform::DeviceContext& ctx, const framework::Scope& scope, const std::string& message_name, const std::vector& send_var_name, const std::vector& recv_var_name, const std::string& mode = "forward"); int Send(int group_id, const std::vector& var_names, const std::vector& vars_len, void* data_ptr, int64_t data_size); int Send(const platform::DeviceContext& ctx, const framework::Scope& scope, const std::string& message_name, const std::vector& send_var_names); int Recv(int group_id, const std::vector& var_names, void* data_ptr, int64_t data_size); int Recv(const platform::DeviceContext& ctx, framework::Scope& recv_scope, // NOLINT const std::string& message_name, const std::vector& recv_var_names); // HeterClient singleton static std::shared_ptr GetInstance( const std::vector& endpoints, const std::vector& previous_endpoints, const int& trainer_id) { if (NULL == s_instance_) { s_instance_.reset(new HeterClient()); s_instance_->SetXpuList(endpoints); s_instance_->SetPreviousXpuList(previous_endpoints); s_instance_->SetTrainerID(trainer_id); s_instance_->CreateClient2XpuConnection(); } return s_instance_; } // switch client singleton static std::shared_ptr GetSwitchInstance( const std::vector& peer_endpoints, int32_t peer_role) { std::unique_lock lock(mtx_); if (peer_endpoints.empty()) { VLOG(4) << "init switch client failed, null peer_endpoints"; } VLOG(4) << "peer role is: " << peer_role << ", addr is: " << peer_endpoints[0]; if (switch_s_instance_ == nullptr) { switch_s_instance_.reset(new HeterClient()); switch_s_instance_->SetPeerSwitchList(peer_endpoints); switch_s_instance_->InitClientChannels(false, peer_endpoints, peer_role); } return switch_s_instance_; } void SetPeerSwitchList(const std::vector& peer_endpoints) { peer_switch_list_ = peer_endpoints; } void SetPeerWorkerList(const std::vector& worker_endpoints) { peer_worker_list_ = worker_endpoints; } void Stop(); std::future SendCmd(uint32_t table_id, int cmd_id, const std::vector& params); std::future StartProfiler(); std::future StopProfiler(); std::future StopHeterWorker(); std::vector& GetXpuList() { return xpu_list_; } void SetXpuList(const std::vector& xpu_list) { xpu_list_ = xpu_list; } void SetPreviousXpuList(const std::vector& xpu_list) { previous_xpu_list_ = xpu_list; } void SetTrainerID(const int& trainer_id) { trainer_id_ = trainer_id; } public: std::vector send_switch_list_; std::vector recv_switch_list_; std::vector peer_switch_list_; std::vector peer_worker_list_; std::vector> send_switch_channels_; std::vector> recv_switch_channels_; std::vector> peer_switch_channels_; std::vector> peer_worker_channels_; private: HeterClient() {} HeterClient& operator=(const HeterClient&); HeterClient(const HeterClient&); static std::shared_ptr s_instance_; static std::mutex mtx_; static std::shared_ptr switch_s_instance_; std::vector> xpu_channels_; std::vector> previous_xpu_channels_; // DISABLE_COPY_AND_ASSIGN(HeterClient); std::vector xpu_list_; std::vector previous_xpu_list_; int trainer_id_; }; } // end namespace distributed } // end namespace paddle