// Copyright (c) 2021 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/distributed/service/graph_py_service.h" #include // NOLINT #include "butil/endpoint.h" #include "iomanip" #include "paddle/fluid/distributed/table/table.h" #include "paddle/fluid/framework/archive.h" #include "paddle/fluid/platform/profiler.h" namespace paddle { namespace distributed { std::vector GraphPyService::split(std::string& str, const char pattern) { std::vector res; std::stringstream input(str); std::string temp; while (std::getline(input, temp, pattern)) { res.push_back(temp); } return res; } void GraphPyService::add_table_feat_conf(std::string table_name, std::string feat_name, std::string feat_dtype, int32_t feat_shape) { if (this->table_id_map.count(table_name)) { this->table_feat_conf_table_name.push_back(table_name); this->table_feat_conf_feat_name.push_back(feat_name); this->table_feat_conf_feat_dtype.push_back(feat_dtype); this->table_feat_conf_feat_shape.push_back(feat_shape); } } void add_graph_node(std::vector node_ids, std::vector weight_list) {} void remove_graph_node(std::vector node_ids) {} void GraphPyService::set_up(std::string ips_str, int shard_num, std::vector node_types, std::vector edge_types) { set_shard_num(shard_num); set_num_node_types(node_types.size()); for (size_t table_id = 0; table_id < node_types.size(); table_id++) { this->table_id_map[node_types[table_id]] = this->table_id_map.size(); } for (size_t table_id = 0; table_id < edge_types.size(); table_id++) { this->table_id_map[edge_types[table_id]] = this->table_id_map.size(); } std::istringstream stream(ips_str); std::string ip; server_size = 0; std::vector ips_list = split(ips_str, ';'); int index = 0; for (auto ips : ips_list) { auto ip_and_port = split(ips, ':'); server_list.push_back(ip_and_port[0]); port_list.push_back(ip_and_port[1]); uint32_t port = stoul(ip_and_port[1]); auto ph_host = paddle::distributed::PSHost(ip_and_port[0], port, index); host_sign_list.push_back(ph_host.serialize_to_string()); index++; } } void GraphPyClient::start_client() { std::map> dense_regions; dense_regions.insert( std::pair>(0, {})); auto regions = dense_regions[0]; ::paddle::distributed::PSParameter worker_proto = GetWorkerProto(); paddle::distributed::PaddlePSEnvironment _ps_env; auto servers_ = host_sign_list.size(); _ps_env = paddle::distributed::PaddlePSEnvironment(); _ps_env.set_ps_servers(&host_sign_list, servers_); worker_ptr = std::shared_ptr( (paddle::distributed::GraphBrpcClient*) paddle::distributed::PSClientFactory::create(worker_proto)); worker_ptr->configure(worker_proto, dense_regions, _ps_env, client_id); worker_ptr->set_shard_num(get_shard_num()); } void GraphPyServer::start_server(bool block) { std::string ip = server_list[rank]; uint32_t port = std::stoul(port_list[rank]); ::paddle::distributed::PSParameter server_proto = this->GetServerProto(); auto _ps_env = paddle::distributed::PaddlePSEnvironment(); _ps_env.set_ps_servers(&this->host_sign_list, this->host_sign_list.size()); // test pserver_ptr = std::shared_ptr( (paddle::distributed::GraphBrpcServer*) paddle::distributed::PSServerFactory::create(server_proto)); VLOG(0) << "pserver-ptr created "; std::vector empty_vec; framework::ProgramDesc empty_prog; empty_vec.push_back(empty_prog); pserver_ptr->configure(server_proto, _ps_env, rank, empty_vec); pserver_ptr->start(ip, port); std::condition_variable* cv_ = pserver_ptr->export_cv(); if (block) { std::mutex mutex_; std::unique_lock lock(mutex_); cv_->wait(lock); } } ::paddle::distributed::PSParameter GraphPyServer::GetServerProto() { // Generate server proto desc ::paddle::distributed::PSParameter server_fleet_desc; ::paddle::distributed::ServerParameter* server_proto = server_fleet_desc.mutable_server_param(); ::paddle::distributed::DownpourServerParameter* downpour_server_proto = server_proto->mutable_downpour_server_param(); ::paddle::distributed::ServerServiceParameter* server_service_proto = downpour_server_proto->mutable_service_param(); server_service_proto->set_service_class("GraphBrpcService"); server_service_proto->set_server_class("GraphBrpcServer"); server_service_proto->set_client_class("GraphBrpcClient"); server_service_proto->set_start_server_port(0); server_service_proto->set_server_thread_num(12); for (auto& tuple : this->table_id_map) { VLOG(0) << " make a new table " << tuple.second; ::paddle::distributed::TableParameter* sparse_table_proto = downpour_server_proto->add_downpour_table_param(); std::vector feat_name; std::vector feat_dtype; std::vector feat_shape; for (size_t i = 0; i < this->table_feat_conf_table_name.size(); i++) { if (tuple.first == table_feat_conf_table_name[i]) { feat_name.push_back(table_feat_conf_feat_name[i]); feat_dtype.push_back(table_feat_conf_feat_dtype[i]); feat_shape.push_back(table_feat_conf_feat_shape[i]); } } std::string table_type; if (tuple.second < this->num_node_types) { table_type = "node"; } else { table_type = "edge"; } GetDownpourSparseTableProto(sparse_table_proto, tuple.second, tuple.first, table_type, feat_name, feat_dtype, feat_shape); } return server_fleet_desc; } ::paddle::distributed::PSParameter GraphPyClient::GetWorkerProto() { ::paddle::distributed::PSParameter worker_fleet_desc; ::paddle::distributed::WorkerParameter* worker_proto = worker_fleet_desc.mutable_worker_param(); ::paddle::distributed::DownpourWorkerParameter* downpour_worker_proto = worker_proto->mutable_downpour_worker_param(); for (auto& tuple : this->table_id_map) { VLOG(0) << " make a new table " << tuple.second; ::paddle::distributed::TableParameter* worker_sparse_table_proto = downpour_worker_proto->add_downpour_table_param(); std::vector feat_name; std::vector feat_dtype; std::vector feat_shape; for (size_t i = 0; i < this->table_feat_conf_table_name.size(); i++) { if (tuple.first == table_feat_conf_table_name[i]) { feat_name.push_back(table_feat_conf_feat_name[i]); feat_dtype.push_back(table_feat_conf_feat_dtype[i]); feat_shape.push_back(table_feat_conf_feat_shape[i]); } } std::string table_type; if (tuple.second < this->num_node_types) { table_type = "node"; } else { table_type = "edge"; } GetDownpourSparseTableProto(worker_sparse_table_proto, tuple.second, tuple.first, table_type, feat_name, feat_dtype, feat_shape); } ::paddle::distributed::ServerParameter* server_proto = worker_fleet_desc.mutable_server_param(); ::paddle::distributed::DownpourServerParameter* downpour_server_proto = server_proto->mutable_downpour_server_param(); ::paddle::distributed::ServerServiceParameter* server_service_proto = downpour_server_proto->mutable_service_param(); server_service_proto->set_service_class("GraphBrpcService"); server_service_proto->set_server_class("GraphBrpcServer"); server_service_proto->set_client_class("GraphBrpcClient"); server_service_proto->set_start_server_port(0); server_service_proto->set_server_thread_num(12); for (auto& tuple : this->table_id_map) { VLOG(0) << " make a new table " << tuple.second; ::paddle::distributed::TableParameter* sparse_table_proto = downpour_server_proto->add_downpour_table_param(); std::vector feat_name; std::vector feat_dtype; std::vector feat_shape; for (size_t i = 0; i < this->table_feat_conf_table_name.size(); i++) { if (tuple.first == table_feat_conf_table_name[i]) { feat_name.push_back(table_feat_conf_feat_name[i]); feat_dtype.push_back(table_feat_conf_feat_dtype[i]); feat_shape.push_back(table_feat_conf_feat_shape[i]); } } std::string table_type; if (tuple.second < this->num_node_types) { table_type = "node"; } else { table_type = "edge"; } GetDownpourSparseTableProto(sparse_table_proto, tuple.second, tuple.first, table_type, feat_name, feat_dtype, feat_shape); } return worker_fleet_desc; } void GraphPyClient::load_edge_file(std::string name, std::string filepath, bool reverse) { // 'e' means load edge std::string params = "e"; if (reverse) { // 'e<' means load edges from $2 to $1 params += "<"; } else { // 'e>' means load edges from $1 to $2 params += ">"; } if (this->table_id_map.count(name)) { VLOG(0) << "loadding data with type " << name << " from " << filepath; uint32_t table_id = this->table_id_map[name]; auto status = get_ps_client()->load(table_id, std::string(filepath), params); status.wait(); } } void GraphPyClient::clear_nodes(std::string name) { if (this->table_id_map.count(name)) { uint32_t table_id = this->table_id_map[name]; auto status = get_ps_client()->clear_nodes(table_id); status.wait(); } } void GraphPyClient::add_graph_node(std::string name, std::vector& node_ids, std::vector& weight_list) { if (this->table_id_map.count(name)) { uint32_t table_id = this->table_id_map[name]; auto status = get_ps_client()->add_graph_node(table_id, node_ids, weight_list); status.wait(); } } void GraphPyClient::remove_graph_node(std::string name, std::vector& node_ids) { if (this->table_id_map.count(name)) { uint32_t table_id = this->table_id_map[name]; auto status = get_ps_client()->remove_graph_node(table_id, node_ids); status.wait(); } } void GraphPyClient::load_node_file(std::string name, std::string filepath) { // 'n' means load nodes and 'node_type' follows std::string params = "n" + name; if (this->table_id_map.count(name)) { uint32_t table_id = this->table_id_map[name]; auto status = get_ps_client()->load(table_id, std::string(filepath), params); status.wait(); } } std::vector>> GraphPyClient::batch_sample_neighboors(std::string name, std::vector node_ids, int sample_size) { std::vector>> v; if (this->table_id_map.count(name)) { uint32_t table_id = this->table_id_map[name]; auto status = worker_ptr->batch_sample_neighboors(table_id, node_ids, sample_size, v); status.wait(); } return v; } std::vector GraphPyClient::random_sample_nodes(std::string name, int server_index, int sample_size) { std::vector v; if (this->table_id_map.count(name)) { uint32_t table_id = this->table_id_map[name]; auto status = worker_ptr->random_sample_nodes(table_id, server_index, sample_size, v); status.wait(); } return v; } // (name, dtype, ndarray) std::vector> GraphPyClient::get_node_feat( std::string node_type, std::vector node_ids, std::vector feature_names) { std::vector> v( feature_names.size(), std::vector(node_ids.size())); if (this->table_id_map.count(node_type)) { uint32_t table_id = this->table_id_map[node_type]; auto status = worker_ptr->get_node_feat(table_id, node_ids, feature_names, v); status.wait(); } return v; } std::vector GraphPyClient::pull_graph_list(std::string name, int server_index, int start, int size, int step) { std::vector res; if (this->table_id_map.count(name)) { uint32_t table_id = this->table_id_map[name]; auto status = worker_ptr->pull_graph_list(table_id, server_index, start, size, step, res); status.wait(); } return res; } void GraphPyClient::stop_server() { VLOG(0) << "going to stop server"; std::unique_lock lock(mutex_); if (stoped_) return; auto status = this->worker_ptr->stop_server(); if (status.get() == 0) stoped_ = true; } void GraphPyClient::finalize_worker() { this->worker_ptr->finalize_worker(); } } }