/* Copyright (c) 2016 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/detail/sendrecvop_utils.h" #include #include // NOLINT #include "google/protobuf/io/coded_stream.h" #include "google/protobuf/io/zero_copy_stream.h" #include "paddle/fluid/framework/data_type.h" #include "paddle/fluid/operators/detail/bytebuffer_stream.h" #include "paddle/fluid/operators/detail/proto_encoder_helper.h" #include "paddle/fluid/operators/detail/variable_response.h" namespace paddle { namespace operators { namespace detail { void SerializeToByteBuffer(const std::string& name, framework::Variable* var, const platform::DeviceContext& ctx, ::grpc::ByteBuffer* msg, const std::string& out_name) { using VarMsg = sendrecv::VariableMessage; // When using GPU, need to free the copied CPU buffer // when the ByteBuffer destroies // TODO(typhoonzero): add unref here, if we have dependent // parallelism execution, need to know when to free the tensor. DestroyCallback destroy_callback = [](void* backing) {}; void* buf = malloc(1024); void* payload = nullptr; size_t payload_size; ProtoEncodeHelper e(static_cast(buf), 1024); e.WriteString(VarMsg::kVarnameFieldNumber, name); if (var->IsType()) { e.WriteUint64(VarMsg::kTypeFieldNumber, 0); } else if (var->IsType()) { e.WriteUint64(VarMsg::kTypeFieldNumber, 1); } if (!out_name.empty()) { e.WriteString(VarMsg::kOutVarnameFieldNumber, out_name); } switch (framework::ToVarType(var->Type())) { case framework::proto::VarType_Type_LOD_TENSOR: { auto tensor = var->Get(); e.WriteUint64(VarMsg::kDataTypeFieldNumber, framework::ToDataType(tensor.type())); for (auto& dim : framework::vectorize(tensor.dims())) { e.WriteUint64(VarMsg::kDimsFieldNumber, dim); } auto lod = tensor.lod(); // std::vector> if (lod.size() > 0) { e.WriteUint64(VarMsg::kLodLevelFieldNumber, lod.size()); for (auto& each : lod) { e.WriteVarlengthBeginning(VarMsg::kLodFieldNumber, 2 + // tag + varintlength of submessage 1 + // kLodDataFieldNumber each.size()); // auto copied from GPU for (auto& d : each) { e.WriteUint64(VarMsg::LodData::kLodDataFieldNumber, d); } } } if (platform::is_gpu_place(ctx.GetPlace())) { #ifdef PADDLE_WITH_CUDA PADDLE_ENFORCE(platform::is_gpu_place(tensor.place())); platform::CPUPlace cpu; auto& gpu_dev_ctx = static_cast(ctx); auto copy_size = tensor.memory_size(); payload = memory::Alloc(cpu, copy_size); memory::Copy(cpu, payload, boost::get(tensor.place()), reinterpret_cast(tensor.data()), copy_size, gpu_dev_ctx.stream()); ctx.Wait(); destroy_callback = [](void* backing) { platform::CPUPlace cpu; memory::Free(cpu, backing); }; #endif } else { payload = tensor.data(); } payload_size = tensor.memory_size(); e.WriteVarlengthBeginning(VarMsg::kSerializedFieldNumber, payload_size); } break; case framework::proto::VarType_Type_SELECTED_ROWS: { // TODO(typhoonzero): selectedrows implement should not use unique_ptr auto* slr = var->GetMutable(); e.WriteUint64(VarMsg::kDataTypeFieldNumber, framework::ToDataType(slr->value().type())); for (auto& dim : framework::vectorize(slr->value().dims())) { e.WriteUint64(VarMsg::kDimsFieldNumber, dim); } e.WriteUint64(VarMsg::kLodLevelFieldNumber, 0); e.WriteUint64(VarMsg::kSlrHeightFieldNumber, slr->height()); auto* tensor = slr->mutable_value(); if (platform::is_gpu_place(ctx.GetPlace())) { #ifdef PADDLE_WITH_CUDA platform::CPUPlace cpu; auto& gpu_dev_ctx = static_cast(ctx); auto copy_size = tensor->memory_size(); payload = memory::Alloc(cpu, copy_size); memory::Copy(cpu, payload, boost::get(tensor->place()), reinterpret_cast(tensor->data()), copy_size, gpu_dev_ctx.stream()); ctx.Wait(); destroy_callback = [](void* backing) { platform::CPUPlace cpu; memory::Free(cpu, backing); }; #endif } else { payload = slr->mutable_value()->data(); } payload_size = tensor->memory_size(); e.WriteVarlengthBeginning(VarMsg::kSerializedFieldNumber, payload_size); } break; default: PADDLE_THROW("Serialize does not support type: %s", typeid(var->Type()).name()); break; } // steal reference of tensor data ::grpc::Slice slices[4]; // metadata, tensor, rows meta, rows int num_slices = 2; // only SelectedRows have rows buffer slices[0] = ::grpc::Slice(e.size()); memcpy(const_cast(slices[0].begin()), e.data(), e.size()); slices[1] = ::grpc::Slice( grpc_slice_new_with_user_data(payload, payload_size, destroy_callback, static_cast(payload)), ::grpc::Slice::STEAL_REF); if (framework::ToVarType(var->Type()) == framework::proto::VarType_Type_SELECTED_ROWS) { auto* slr = var->GetMutable(); ProtoEncodeHelper e2(static_cast(buf), 128); // NOTE: rows is of type int64_t size_t rows_memory_size = slr->rows().size() * framework::SizeOfType(typeid(int64_t)); e2.WriteVarlengthBeginning(VarMsg::kRowsFieldNumber, rows_memory_size); slices[2] = ::grpc::Slice(e2.size()); memcpy(const_cast(slices[2].begin()), e2.data(), e2.size()); slices[3] = ::grpc::Slice( grpc_slice_new_with_user_data( const_cast( reinterpret_cast(slr->rows().data())), rows_memory_size, [](void* backing) { // TODO(typhoonzero): add unref here, same as above. }, const_cast( reinterpret_cast(slr->rows().data()))), ::grpc::Slice::STEAL_REF); num_slices = 4; } ::grpc::ByteBuffer tmp(&slices[0], num_slices); msg->Swap(&tmp); } void DeserializeFromByteBuffer(const ::grpc::ByteBuffer& msg, const platform::DeviceContext& ctx, const framework::Scope* scope, framework::Variable** var) { operators::detail::VariableResponse resp(scope, &ctx); PADDLE_ENFORCE(resp.Parse(msg) == 0, "parse bytebuffer to tensor error!"); *var = resp.GetVar(); } } // namespace detail } // namespace operators } // namespace paddle