# 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. from __future__ import print_function import time import unittest import os import sys import signal import subprocess import six import argparse import paddle.fluid as fluid RUN_STEP = 10 class TestDistRunnerBase(object): def get_model(self, batch_size=2): raise NotImplementedError( "get_model should be implemented by child classes.") @staticmethod def get_transpiler(trainer_id, main_program, pserver_endpoints, trainers, sync_mode): # NOTE: import fluid until runtime, or else forking processes will cause error. config = fluid.DistributeTranspilerConfig() t = fluid.DistributeTranspiler(config=config) t.transpile( trainer_id=trainer_id, program=main_program, pservers=pserver_endpoints, trainers=trainers, sync_mode=sync_mode) return t def run_pserver(self, args): self.get_model(batch_size=2) if args.mem_opt: fluid.memory_optimize(fluid.default_main_program()) t = self.get_transpiler(args.trainer_id, fluid.default_main_program(), args.endpoints, args.trainers, args.sync_mode) pserver_prog = t.get_pserver_program(args.current_endpoint) startup_prog = t.get_startup_program(args.current_endpoint, pserver_prog) place = fluid.CPUPlace() exe = fluid.Executor(place) exe.run(startup_prog) exe.run(pserver_prog) def run_trainer(self, args): test_program, avg_cost, train_reader, test_reader, batch_acc, predict = \ self.get_model(batch_size=2) if args.mem_opt: fluid.memory_optimize(fluid.default_main_program()) if args.is_dist: t = self.get_transpiler(args.trainer_id, fluid.default_main_program(), args.endpoints, args.trainers, args.sync_mode) trainer_prog = t.get_trainer_program() else: trainer_prog = fluid.default_main_program() if args.use_cuda: place = fluid.CUDAPlace(0) else: place = fluid.CPUPlace() startup_exe = fluid.Executor(place) startup_exe.run(fluid.default_startup_program()) strategy = fluid.ExecutionStrategy() strategy.num_threads = 1 strategy.allow_op_delay = False build_stra = fluid.BuildStrategy() if args.use_reduce: build_stra.reduce_strategy = fluid.BuildStrategy.ReduceStrategy.Reduce else: build_stra.reduce_strategy = fluid.BuildStrategy.ReduceStrategy.AllReduce exe = fluid.ParallelExecutor( args.use_cuda, loss_name=avg_cost.name, exec_strategy=strategy, build_strategy=build_stra) feed_var_list = [ var for var in trainer_prog.global_block().vars.values() if var.is_data ] feeder = fluid.DataFeeder(feed_var_list, place) reader_generator = train_reader() def get_data(): origin_batch = next(reader_generator) if args.is_dist and args.use_reader_alloc: new_batch = [] for offset, item in enumerate(origin_batch): if offset % 2 == args.trainer_id: new_batch.append(item) return new_batch else: return origin_batch for _ in six.moves.xrange(RUN_STEP): loss, = exe.run(fetch_list=[avg_cost.name], feed=feeder.feed(get_data())) print(loss) def runtime_main(test_class): parser = argparse.ArgumentParser(description='Run dist test.') parser.add_argument( '--role', type=str, required=True, choices=['pserver', 'trainer']) parser.add_argument('--endpoints', type=str, required=False, default="") parser.add_argument('--is_dist', action='store_true') parser.add_argument('--trainer_id', type=int, required=False, default=0) parser.add_argument('--trainers', type=int, required=False, default=1) parser.add_argument( '--current_endpoint', type=str, required=False, default="") parser.add_argument('--sync_mode', action='store_true') parser.add_argument('--mem_opt', action='store_true') parser.add_argument('--use_cuda', action='store_true') parser.add_argument('--use_reduce', action='store_true') parser.add_argument( '--use_reader_alloc', action='store_true', required=False, default=True) args = parser.parse_args() model = test_class() if args.role == "pserver" and args.is_dist: model.run_pserver(args) else: model.run_trainer(args) import paddle.compat as cpt import socket from contextlib import closing class TestDistBase(unittest.TestCase): def _setup_config(self): raise NotImplementedError("tests should have _setup_config implemented") def setUp(self): self._trainers = 2 self._pservers = 2 self._ps_endpoints = "127.0.0.1:%s,127.0.0.1:%s" % ( self._find_free_port(), self._find_free_port()) self._python_interp = "python" self._sync_mode = True self._use_cuda = True self._mem_opt = False self._use_reduce = False self._use_reader_alloc = True self._setup_config() def _find_free_port(self): with closing(socket.socket(socket.AF_INET, socket.SOCK_STREAM)) as s: s.bind(('', 0)) return s.getsockname()[1] def start_pserver(self, model_file, check_error_log, required_envs): ps0_ep, ps1_ep = self._ps_endpoints.split(",") ps_cmd = "%s %s --role pserver --endpoints %s --trainer_id 0 --current_endpoint %s --trainers %d --is_dist" ps0_cmd = ps_cmd % \ (self._python_interp, model_file, self._ps_endpoints, ps0_ep, self._trainers) ps1_cmd = ps_cmd % \ (self._python_interp, model_file, self._ps_endpoints, ps1_ep, self._trainers) if self._sync_mode: ps0_cmd += " --sync_mode" ps1_cmd += " --sync_mode" if self._mem_opt: ps0_cmd += " --mem_opt" ps1_cmd += " --mem_opt" ps0_pipe = subprocess.PIPE ps1_pipe = subprocess.PIPE if check_error_log: print(ps0_cmd) print(ps1_cmd) ps0_pipe = open("/tmp/ps0_err.log", "wb") ps1_pipe = open("/tmp/ps1_err.log", "wb") ps0_proc = subprocess.Popen( ps0_cmd.strip().split(" "), stdout=subprocess.PIPE, stderr=ps0_pipe, env=required_envs) ps1_proc = subprocess.Popen( ps1_cmd.strip().split(" "), stdout=subprocess.PIPE, stderr=ps1_pipe, env=required_envs) if not check_error_log: return ps0_proc, ps1_proc, None, None else: return ps0_proc, ps1_proc, ps0_pipe, ps1_pipe def _wait_ps_ready(self, pid): retry_times = 50 while True: assert retry_times >= 0, "wait ps ready failed" time.sleep(3) try: # the listen_and_serv_op would touch a file which contains the listen port # on the /tmp directory until it was ready to process all the RPC call. os.stat("/tmp/paddle.%d.port" % pid) return except os.error as e: sys.stderr.write('waiting for pserver: %s, left retry %d\n' % (e, retry_times)) retry_times -= 1 def _run_local(self, model, envs, check_error_log): cmd = "%s %s --role trainer" % (self._python_interp, model) if self._use_cuda: cmd += " --use_cuda" env_local = {"CUDA_VISIBLE_DEVICES": "0"} else: env_local = {'CPU_NUM': '1'} envs.update(env_local) if not check_error_log: err_log = open("/tmp/trainer.err.log", "wb") local_proc = subprocess.Popen( cmd.split(" "), stdout=subprocess.PIPE, stderr=err_log, env=envs) else: local_proc = subprocess.Popen( cmd.split(" "), stdout=subprocess.PIPE, stderr=subprocess.PIPE, env=envs) local_proc.wait() local_out, local_err = local_proc.communicate() local_ret = cpt.to_text(local_out) if check_error_log: err_log.close() sys.stderr.write('local_stdout: %s\n' % local_ret) sys.stderr.write('local_stderr: %s\n' % local_err) local_losses = local_ret.split("\n") return local_losses def _run_cluster(self, model, envs, check_error_log): # Run dist train to compare with local results ps0, ps1, ps0_pipe, ps1_pipe = self.start_pserver(model, check_error_log, envs) self._wait_ps_ready(ps0.pid) self._wait_ps_ready(ps1.pid) ps0_ep, ps1_ep = self._ps_endpoints.split(",") tr_cmd = "%s %s --role trainer --endpoints %s --trainer_id %d --current_endpoint %s --trainers %d --is_dist" tr0_cmd = tr_cmd % \ (self._python_interp, model, self._ps_endpoints, 0, ps0_ep, self._trainers) tr1_cmd = tr_cmd % \ (self._python_interp, model, self._ps_endpoints, 1, ps1_ep, self._trainers) if self._sync_mode: tr0_cmd += " --sync_mode" tr1_cmd += " --sync_mode" if self._mem_opt: tr0_cmd += " --mem_opt" tr1_cmd += " --mem_opt" if self._use_reduce: tr0_cmd += " --use_reduce" tr1_cmd += " --use_reduce" if self._use_reader_alloc: tr0_cmd += " --use_reader_alloc" tr1_cmd += " --use_reader_alloc" if self._use_cuda: tr0_cmd += " --use_cuda" tr1_cmd += " --use_cuda" env0 = {"CUDA_VISIBLE_DEVICES": "0"} env1 = {"CUDA_VISIBLE_DEVICES": "1"} else: env0 = {'CPU_NUM': '1'} env1 = {'CPU_NUM': '1'} env0.update(envs) env1.update(envs) FNULL = open(os.devnull, 'w') tr0_pipe = subprocess.PIPE tr1_pipe = subprocess.PIPE if check_error_log: print("tr0_cmd:{}, env0: {}".format(tr0_cmd, env0)) print("tr1_cmd:{}, env1: {}".format(tr1_cmd, env1)) tr0_pipe = open("/tmp/tr0_err.log", "wb") tr1_pipe = open("/tmp/tr1_err.log", "wb") tr0_proc = subprocess.Popen( tr0_cmd.strip().split(" "), stdout=subprocess.PIPE, stderr=tr0_pipe, env=env0) tr1_proc = subprocess.Popen( tr1_cmd.strip().split(" "), stdout=subprocess.PIPE, stderr=tr1_pipe, env=env1) tr0_proc.wait() tr1_proc.wait() tr0_out, tr0_err = tr0_proc.communicate() tr0_loss_text = cpt.to_text(tr0_out) tr1_out, tr1_err = tr1_proc.communicate() tr1_loss_text = cpt.to_text(tr1_out) # close trainer file if check_error_log: tr0_pipe.close() tr1_pipe.close() ps0_pipe.close() ps1_pipe.close() # FIXME: use terminate() instead of sigkill. os.kill(ps0.pid, signal.SIGKILL) os.kill(ps1.pid, signal.SIGKILL) ps0.terminate() ps1.terminate() ps0.wait() ps1.wait() FNULL.close() # print log sys.stderr.write('trainer 0 stdout:\n %s\n' % tr0_loss_text) sys.stderr.write('trainer 0 stderr:\n %s\n' % tr0_err) sys.stderr.write('trainer 1 stdout: %s\n' % tr1_loss_text) sys.stderr.write('trainer 1 stderr: %s\n' % tr1_err) tr0_losses = tr0_loss_text.split("\n") tr1_losses = tr1_loss_text.split("\n") return tr0_losses, tr1_losses def check_with_place(self, model_file, delta=1e-3, check_error_log=False, need_envs={}): # TODO(typhoonzero): should auto adapt GPU count on the machine. required_envs = { "PATH": os.getenv("PATH", ""), "PYTHONPATH": os.getenv("PYTHONPATH", ""), "LD_LIBRARY_PATH": os.getenv("LD_LIBRARY_PATH", ""), "FLAGS_fraction_of_gpu_memory_to_use": "0.15", "FLAGS_cudnn_deterministic": "1", } required_envs.update(need_envs) if check_error_log: required_envs["GLOG_v"] = "7" required_envs["GLOG_logtostderr"] = "1" local_losses\ = self._run_local(model_file, required_envs, check_error_log) tr0_losses, tr1_losses = self._run_cluster(model_file, required_envs, check_error_log) for step_id in range(RUN_STEP): local_loss = eval(local_losses[step_id])[0] tr0_loss = eval(tr0_losses[step_id])[0] tr1_loss = eval(tr1_losses[step_id])[0] dist_loss = (tr0_loss + tr1_loss) / 2 print(str(local_loss) + ":" + str(dist_loss)) self.assertAlmostEqual(local_loss, dist_loss, delta=delta)