// Copyright (c) 2018 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/operators/distributed/request_handler_impl.h" #include #include #include #include "paddle/fluid/framework/data_type.h" #include "paddle/fluid/framework/lod_tensor.h" #include "paddle/fluid/framework/scope.h" #include "paddle/fluid/framework/selected_rows.h" #include "paddle/fluid/framework/variable_helper.h" #include "paddle/fluid/operators/distributed/rpc_server.h" #include "paddle/fluid/string/piece.h" #include "paddle/fluid/string/printf.h" #include "paddle/fluid/string/split.h" #include "paddle/fluid/operators/distributed/async_sparse_param_update_recorder.h" #include "paddle/fluid/operators/distributed/heart_beat_monitor.h" namespace paddle { namespace operators { namespace distributed { // define LOOKUP_TABLE_PATH for checkpoint notify to save lookup table variables // to directory specified. constexpr char LOOKUP_TABLE_PATH[] = "kLookupTablePath"; bool RequestSendHandler::Handle(const std::string& varname, framework::Scope* scope, framework::Variable* invar, framework::Variable** outvar, const int trainer_id, const std::string& out_var_name, const std::string& table_name) { VLOG(4) << "RequestSendHandler:" << varname; // Sync if (varname == BATCH_BARRIER_MESSAGE) { VLOG(3) << "sync: recv BATCH_BARRIER_MESSAGE"; rpc_server_->IncreaseBatchBarrier(kRequestSend); } else if (varname == COMPLETE_MESSAGE) { VLOG(3) << "sync: recv complete message"; if (HeartBeatMonitor::GetInstance() != nullptr) { HeartBeatMonitor::GetInstance()->Update(trainer_id, "", COMPLETED); } rpc_server_->Complete(); } else { // Async if (!sync_mode_) { VLOG(3) << "async process var: " << varname; if (varname == BATCH_BARRIER_MESSAGE) { PADDLE_THROW( "async mode should not recv BATCH_BARRIER_MESSAGE or " "COMPLETE_MESSAGE"); } HeartBeatMonitor::GetInstance()->Update(trainer_id, varname, RUNNING); std::string run_varname = varname; string::Piece part_piece("@PIECE"); string::Piece var_name_piece = string::Piece(varname); if (string::Contains(var_name_piece, part_piece)) { auto varname_splits = paddle::string::Split(varname, '@'); PADDLE_ENFORCE_EQ(varname_splits.size(), 3); run_varname = varname_splits[0]; scope->Rename(varname, run_varname); } if (AsyncSparseParamUpdateRecorder::GetInstance()->HasGrad(run_varname)) { auto& grad_slr = scope->FindVar(run_varname)->Get(); AsyncSparseParamUpdateRecorder::GetInstance()->Update(run_varname, grad_slr.rows()); } executor_->RunPreparedContext((*grad_to_prepared_ctx_)[run_varname].get(), scope); return true; } else { // sync rpc_server_->WaitCond(kRequestSend); VLOG(3) << "sync: processing received var: " << varname; if (invar == nullptr) { LOG(FATAL) << "sync: Can not find server side var: " << varname; return false; } } } return true; } bool RequestGetHandler::Handle(const std::string& varname, framework::Scope* scope, framework::Variable* invar, framework::Variable** outvar, const int trainer_id, const std::string& out_var_name, const std::string& table_name) { VLOG(3) << "RequestGetHandler:" << varname << " out_var_name: " << out_var_name << " trainer_id: " << trainer_id << " table_name: " << table_name; if (sync_mode_) { if (varname == FETCH_BARRIER_MESSAGE) { VLOG(3) << "sync: recv fetch barrier message"; rpc_server_->IncreaseBatchBarrier(kRequestGet); } else { rpc_server_->WaitCond(kRequestGet); *outvar = scope_->FindVar(varname); } } else { if (varname != FETCH_BARRIER_MESSAGE && varname != COMPLETE_MESSAGE) { if (enable_dc_asgd_) { // NOTE: the format is determined by distribute_transpiler.py std::string param_bak_name = string::Sprintf("%s.trainer_%d_bak", varname, trainer_id); VLOG(3) << "getting " << param_bak_name << " trainer_id " << trainer_id; auto var = scope_->FindVar(varname); auto t_orig = var->Get(); auto param_bak = scope_->Var(param_bak_name); auto t = param_bak->GetMutable(); t->mutable_data(dev_ctx_->GetPlace(), t_orig.type()); VLOG(3) << "copying " << varname << " to " << param_bak_name; framework::TensorCopy(t_orig, dev_ctx_->GetPlace(), t); } VLOG(1) << "Table name empty? " << table_name.empty(); VLOG(1) << "AsyncSparseParamUpdateRecorder " << varname << " exist " << AsyncSparseParamUpdateRecorder::GetInstance()->HasParam( varname); if (AsyncSparseParamUpdateRecorder::GetInstance()->HasParam(varname) && !table_name.empty()) { std::vector updated_rows; AsyncSparseParamUpdateRecorder::GetInstance()->GetAndClear( varname, trainer_id, &updated_rows); if (VLOG_IS_ON(3)) { std::ostringstream sstream; sstream << "["; for (auto& row_id : updated_rows) { sstream << row_id << ", "; } sstream << "]"; VLOG(3) << "updated_rows size: " << updated_rows.size() << " " << sstream.str(); } auto& origin_tensor = scope_->FindVar(varname)->Get(); auto* origin_tensor_data = origin_tensor.data(); auto& dims = origin_tensor.dims(); *outvar = scope->Var(); auto* out_slr = (*outvar)->GetMutable(); out_slr->set_rows(updated_rows); out_slr->set_height(dims[0]); auto out_dims = framework::make_ddim( {static_cast(updated_rows.size()), dims[1]}); auto* data = out_slr->mutable_value()->mutable_data( out_dims, origin_tensor.place()); auto width = dims[1]; for (auto i = 0; i < updated_rows.size(); ++i) { PADDLE_ENFORCE_LT(updated_rows[i], dims[0]); memcpy(data + i * width, origin_tensor_data + updated_rows[i] * width, sizeof(float) * width); } } else { *outvar = scope_->FindVar(varname); } } } return true; } bool RequestGetNoBarrierHandler::Handle(const std::string& varname, framework::Scope* scope, framework::Variable* invar, framework::Variable** outvar, const int trainer_id, const std::string& out_var_name, const std::string& table_name) { VLOG(4) << "RequestGetNoBarrierHandler:" << varname << " out_var_name: " << out_var_name; // get var from pserver immediately without barriers string::Piece without_barrier_piece(WITHOUT_BARRIER_MESSAGE); string::Piece var_name_piece = string::Piece(varname); if (string::Contains(var_name_piece, without_barrier_piece)) { var_name_piece = string::TrimSuffix(var_name_piece, without_barrier_piece); VLOG(4) << "Get var " << var_name_piece << " with " << WITHOUT_BARRIER_MESSAGE; *outvar = scope_->FindVar(var_name_piece.ToString()); return true; } else { PADDLE_THROW("GetNoBarrier must contain %s", WITHOUT_BARRIER_MESSAGE); } return true; } bool RequestPrefetchHandler::Handle(const std::string& varname, framework::Scope* scope, framework::Variable* invar, framework::Variable** outvar, const int trainer_id, const std::string& out_var_name, const std::string& table_name) { VLOG(4) << "RequestPrefetchHandler " << varname; if (table_name.empty()) { auto var_desc = program_->Block(0).FindVar(out_var_name); InitializeVariable(*outvar, var_desc->GetType()); executor_->RunPreparedContext( (*prefetch_var_name_to_prepared_ctx_)[varname].get(), scope); } else { (*outvar)->GetMutable(); auto lookup_table_op = BuildLookupTableOp(table_name, varname, out_var_name); paddle::platform::CPUPlace cpu_place; lookup_table_op->Run(*scope, cpu_place); } return true; } bool RequestCheckpointHandler::Handle(const std::string& varname, framework::Scope* scope, framework::Variable* invar, framework::Variable** outvar, const int trainer_id, const std::string& out_var_name, const std::string& table_name) { PADDLE_ENFORCE( checkpoint_notify_id != -1, "when checkpoint_notify_id = -1, there should be no RPC invoke."); // TODO(tangwei12): find out why scope will be error. auto* lt_var = scope_->FindVar(LOOKUP_TABLE_PATH)->GetMutable(); lt_var->clear(); lt_var->append(out_var_name); VLOG(4) << "RequestCheckpointHandler update var kLookupTablePath to: " << out_var_name; executor_->RunPreparedContext(checkpoint_prepared_ctx_.get(), scope_); return true; } bool RequestNotifyHandler::Handle(const std::string& varname, framework::Scope* scope, framework::Variable* invar, framework::Variable** outvar, const int trainer_id, const std::string& out_var_name, const std::string& table_name) { VLOG(4) << "RequestNotifyHandler: " << varname; VLOG(3) << "async process var: " << varname << ", trainer_id: " << trainer_id; string::Piece decay_piece(LEARNING_RATE_DECAY_COUNTER); string::Piece var_name_piece = string::Piece(varname); if (string::Contains(var_name_piece, decay_piece)) { VLOG(3) << "LearningRate Decay Counter Update"; PADDLE_ENFORCE_NE( lr_decay_block_id, -1, "when lr_decay_block_id = -1, there should be no RPC invoke."); auto* origin_var = scope_->FindVar(varname); auto origin_var_tensor = origin_var->Get(); auto* send_var = scope->FindVar(varname); auto send_var_tensor = send_var->Get(); int64_t* origin_value = origin_var_tensor.mutable_data(origin_var_tensor.place()); int64_t* send_value = send_var_tensor.mutable_data(send_var_tensor.place()); origin_value[0] += send_value[0]; executor_->RunPreparedContext(lr_decay_prepared_ctx_.get(), scope_); } return true; } } // namespace distributed } // namespace operators } // namespace paddle