launch.py 13.8 KB
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# Copyright (c) 2019 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.
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r"""
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fleetrun is a module that spawns multiple distributed
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process on each training node for gpu training and cpu training.
Usage:
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    In both of single node training or multiple node training, this module
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launch a process on each of the given gpu card or cpu machine.
    GPU training:
    1. for single node training with all visible gpu cards:
       fleetrun your_training_py (arg1 arg2 and all others)
    2. for single node training with [0,4) cards
       fleetrun --gpus="0,1,2,3" your_training_py (arg1 arg2 and all others)
    3. for multiple node training such as two node:192.168.0.16, 192.168.0.17
        on 192.168.0.16:
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            fleetrun --ips="192.168.0.16,192.168.0.17" \
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                your_training_py (arg1 arg2 and all others)
        on 192.168.0.17:
            fleetrun --ips="192.168.0.16,192.168.0.17" \
                your_training_py (arg1 arg2 and all others)
    CPU training:
    1. for single node training with multi servers and workers:
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        fleetrun --server_num=2 --worker_num=2 your_training_py (arg1 arg2 and all others)
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    2. for multiple node training such as two node:192.168.0.16, 192.168.0.17 \
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        with 2 servers and 4 workers.
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        on 192.168.0.16:
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            fleetrun --servers="192.168.0.16:6170,192.168.0.17:6170" \
                --workers="192.168.0.16,192.168.0.17,192.168.0.16,192.168.0.17" \
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                your_training_py (arg1 arg2 and all others)
        on 192.168.0.17:
            fleetrun --servers="192.168.0.16:6170,192.168.0.17:6171" \
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                --workers="192.168.0.16,192.168.0.17,192.168.0.16,192.168.0.17" \
                your_training_py (arg1 arg2 and all others)
    3. use gloo backend for multiple node training such as two node:192.168.0.16, 192.168.0.17 \
        with 2 servers and 4 workers. (workers should set port)
        on 192.168.0.16:
            fleetrun --servers="192.168.0.16:6170,192.168.0.17:6170" \
                --workers="192.168.0.16:6171,192.168.0.17:6171,192.168.0.16:6172,192.168.0.17:6172" \
                your_training_py (arg1 arg2 and all others)
        on 192.168.0.17:
            fleetrun --servers="192.168.0.16:6170,192.168.0.17:6170" \
                --workers="192.168.0.16:6171,192.168.0.17:6171,192.168.0.16:6172,192.168.0.17:6172" \
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                your_training_py (arg1 arg2 and all others)
"""

from __future__ import print_function
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import shutil
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import sys
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import tempfile
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from sys import version
import subprocess
import os
import time
import six
import copy
from argparse import ArgumentParser, REMAINDER
import paddle
import paddle.fluid as fluid
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from paddle.distributed.fleet import launch_utils
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# TODO(danleifeng): Don't import * from a module
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from paddle.distributed.fleet.launch_utils import *
import paddle.distributed.fleet.cloud_utils as cloud_utils
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import paddle.distributed.fleet.ascend_utils as ascend_utils
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def _print_arguments(args):
    print("-----------  Configuration Arguments -----------")
    for arg, value in sorted(six.iteritems(vars(args))):
        print("%s: %s" % (arg, value))
    print("------------------------------------------------")


def _parse_args():
    """
    Helper function parsing the command line options
    @retval ArgumentParser
    """
    parser = ArgumentParser(
        description='''start paddle training using multi-process mode.
see: http://www.paddlepaddle.org/documentation/docs/zh/1.6/user_guides/howto/training/cluster_howto.html#permalink-8--nccl2-
''')
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    base_group = parser.add_argument_group("Base Parameters")
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    base_group.add_argument(
        "--log_dir",
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        type=str,
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        default="log",
        help="The path for each process's log.If it's not set, the log will printed to default pipe."
    )

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    base_group.add_argument(
        "--nproc_per_node",
        type=int,
        default=None,
        help="The number of processes to launch on a node."
        "In gpu training, it should be less or equal to the gpus number of you system(or you set by --gpus). And so each process can"
        " bound to one or average number of gpus.")

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    base_group.add_argument(
        "--run_mode",
        type=str,
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        default=None,
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        help="run mode of job, can be:collective/ps/ps-heter")

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    if fluid.core.is_compiled_with_cuda():
        base_group.add_argument(
            "--gpus",
            type=str,
            default=None,
            help="It's for gpu training."
            "For example:"
            "--gpus=\"0,1,2,3\" will launch four training processes each bound to one gpu."
        )
        base_group.add_argument("--selected_gpus", dest="gpus")

    if fluid.core.is_compiled_with_xpu():
        base_group.add_argument(
            "--xpus",
            type=str,
            default=None,
            help="It's for xpu training. For example: "
            "--xpus=\"0,1,2,3\" will launch four training processes each bound to one xpu."
        )
        base_group.add_argument("--selected_xpus", dest="xpus")
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    base_group.add_argument(
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        "training_script",
        type=str,
        help="The full path to the single GPU training "
        "program/script to be launched in parallel, "
        "followed by all the arguments for the "
        "training script")

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    base_group.add_argument('training_script_args', nargs=REMAINDER)

    # Optional arguments for the launch helper
    # for collective
    collective_group = parser.add_argument_group("Collective Parameters")
    collective_group.add_argument(
        "--ips",
        type=str,
        default="127.0.0.1",
        help="Paddle cluster nodes ips, such as 192.168.0.16,192.168.0.17..")

    ps_group = parser.add_argument_group("Parameter-Server Parameters")
    # for parameter server
    ps_group.add_argument(
        "--servers", type=str, default="", help="User defined servers ip:port")
    ps_group.add_argument(
        "--workers", type=str, default="", help="User defined workers ip:port")
    ps_group.add_argument(
        "--heter_workers",
        type=str,
        default="",
        help="User defined heter workers ip:port")

    ps_group.add_argument("--worker_num", type=int, help="number of workers")
    ps_group.add_argument("--server_num", type=int, help="number of servers")
    ps_group.add_argument(
        "--heter_worker_num", type=int, help="number of heter_workers")
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    ps_group.add_argument("--http_port", type=int, help="Gloo http Port")
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    return parser.parse_args()


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def get_cluster_from_args(args, device_mode, devices_per_proc):
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    node_ips = [x.strip() for x in args.ips.split(',')]
    if len(node_ips) == 1:
        node_ip = node_ips[0]
    else:
        _, node_ip = get_host_name_ip()

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    assert node_ip in node_ips, "Can't find your local ip {%s} in node_ips: {%s}" \
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        % (node_ip, node_ips)
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    node_rank = node_ips.index(node_ip)

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    logger.debug("parsed from args: node_ips:{} node_ip:{} node_rank:{}".format(
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        node_ips, node_ip, node_rank))

    free_ports = None
    if not cloud_utils.use_paddlecloud() and len(
            node_ips) <= 1 and os.environ.get('FLAGS_START_PORT') is None:
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        free_ports = find_free_ports(len(devices_per_proc))
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        if free_ports is not None:
            free_ports = list(free_ports)
    else:
        start_port = 6070
        if os.environ.get('FLAGS_START_PORT') is not None:
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            start_port = int(os.environ.get('FLAGS_START_PORT'))
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        free_ports = [
            x for x in range(start_port, start_port + len(devices_per_proc))
        ]
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    trainer_endpoints = []
    for ip in node_ips:
        trainer_endpoints.append(["%s:%d" % (ip, port) for port in free_ports])
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    return get_cluster(node_ips, node_ip, trainer_endpoints, device_mode,
                       devices_per_proc)
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def launch_collective(args):
    # parse arguments, used for cloud-single-machine and local
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    (device_mode, devices_per_proc) = launch_utils.get_device_proc_info(args)
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    trainers_num = cloud_utils.get_trainers_num()
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    logger.debug("parsed from args trainerss_num:{} mode:{} devices:{}".format(
        trainers_num, device_mode, devices_per_proc))
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    cluster = None
    pod = None

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    start_port = 6170
    if os.environ.get('FLAGS_START_PORT') is not None:
        start_port = os.environ.get('FLAGS_START_PORT')
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    if cloud_utils.use_paddlecloud() and trainers_num != 1:
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        cluster, pod = cloud_utils.get_cloud_cluster(
            args.ips, device_mode, devices_per_proc, start_port)
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        logger.debug("get cluster from cloud:{}".format(cluster))
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    elif device_mode == DeviceMode.ASCEND_NPU:
        # for ascend
        cluster, pod = ascend_utils.get_cloud_cluster(
            rank_table_file=os.getenv("RANK_TABLE_FILE", None),
            device_mode=device_mode,
            start_port=start_port)
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    else:
        # trainers_num = 1 or not use paddlecloud ips="a,b"
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        cluster, pod = get_cluster_from_args(args, device_mode,
                                             devices_per_proc)
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        logger.debug("get cluster from args:{}".format(cluster))
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    global_envs = copy.copy(os.environ.copy())
    gloo_rendezvous_dir = tempfile.mkdtemp()
    # add gloo env
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    global_envs["PADDLE_WITH_GLOO"] = str(os.getenv("PADDLE_WITH_GLOO", "0"))
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    global_envs["PADDLE_GLOO_RENDEZVOUS"] = "3"
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    global_envs["PADDLE_GLOO_FS_PATH"] = gloo_rendezvous_dir

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    procs = start_local_trainers(
        cluster,
        pod,
        training_script=args.training_script,
        training_script_args=args.training_script_args,
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        log_dir=args.log_dir,
        envs=global_envs)
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    for idx, proc in enumerate(procs):
        print("launch proc_id:{} idx:{}".format(proc.proc.pid, idx))

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    while True:
        alive = watch_local_trainers(procs, cluster.trainers_nranks())

        if not alive:
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            logger.info("Local processes completed.")
            logger.debug("POD info:{}".format(pod))
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            break

        time.sleep(3)

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    if os.path.exists(gloo_rendezvous_dir):
        shutil.rmtree(gloo_rendezvous_dir)

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def launch_ps(args, distribute_mode):
    cloud_flag = cloud_utils.use_paddlecloud()

    # for ps-cpu on paddlecloud
    if cloud_flag and distribute_mode == DistributeMode.PS:
        direct_start(args)
        return
    elif cloud_flag and distribute_mode == DistributeMode.PS_HETER:
        cloud_ps_heter_env_set(args)
        args.workers = os.getenv("PADDLE_TRAINER_ENDPOINTS")
        args.servers = os.getenv("PADDLE_PSERVERS_IP_PORT_LIST")
        args.heter_workers = os.getenv("PADDLE_HETER_TRAINER_IP_PORT_LIST")

    ps_launcher = ParameterServerLauncher(args, distribute_mode)
    ps_launcher.start_ps()
    return


def which_distributed_mode(args):
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    if args.run_mode is not None:
        assert args.run_mode in ["collective", "ps", "ps-heter"]

    if args.run_mode == "collective":
        return DistributeMode.COLLECTIVE
    elif args.run_mode == "ps":
        return DistributeMode.PS
    elif args.run_mode == "ps-heter":
        return DistributeMode.PS_HETER

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    ps_args = [
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        '--worker_num', '--server_num', '--heter_worker_num', '--servers',
        '--workers', '--heter_workers', '--http_port'
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    ]
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    collective_args = ['--ips']
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    ps_heter_args = ["--heter_worker_num", "--heter_workers"]
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    has_ps_args = [
        ps_arg for ps_arg in ps_args if ps_arg in " ".join(sys.argv[1:-1])
    ]
    has_collective_args = [
        co_arg for co_arg in collective_args
        if co_arg in " ".join(sys.argv[1:-1])
    ]
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    if len(has_ps_args) > 1 and len(has_collective_args) > 1:
        raise ValueError(
            "Only one mode(Collective or Parameter-Server) can be selected at the same time, but more than one configuration was received."
        )

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    if fluid.core.is_compiled_with_cuda():
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        accelerators = fluid.core.get_cuda_device_count()
    elif fluid.core.is_compiled_with_ascend():
        accelerators = fluid.core.NPUDevice.get_device_count()
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    elif fluid.core.is_compiled_with_xpu():
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        accelerators = fluid.core.get_xpu_device_count()
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    else:
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        accelerators = 0
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    if len(has_ps_args) > 0:
        logger.info(
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            "Run parameter-sever mode. pserver arguments:{}, accelerators count:{}".
            format(has_ps_args, accelerators))
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        has_ps_heter_args = list(set(has_ps_args) & set(ps_heter_args))
        if len(has_ps_heter_args) > 0:
            return DistributeMode.PS_HETER
        else:
            return DistributeMode.PS
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    elif len(has_collective_args) > 0:
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        logger.info("Run collective mode. gpu arguments:{}, cuda count:{}".
                    format(has_collective_args, accelerators))
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        return DistributeMode.COLLECTIVE
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    else:
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        if not fluid.core.is_compiled_with_cuda(
        ) and not fluid.core.is_compiled_with_xpu():
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            logger.warning(
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                "Not found distinct arguments and not compiled with cuda or xpu. Default use ps mode"
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            )
            return DistributeMode.PS
        else:
            logger.warning(
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                "Not found distinct arguments and compiled with cuda or xpu. Default use collective mode"
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            )
            return DistributeMode.COLLECTIVE
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def launch():
    args = _parse_args()
    logger = get_logger()
    _print_arguments(args)

    distribute_mode = which_distributed_mode(args)
    if distribute_mode == DistributeMode.COLLECTIVE:
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        launch_collective(args)
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    else:
        launch_ps(args, distribute_mode)
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if __name__ == "__main__":
    launch()