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ipclusterapp.py
499 lines | 19.2 KiB | text/x-python | PythonLexer
#!/usr/bin/env python
# encoding: utf-8
"""
The ipcluster application.
"""
#-----------------------------------------------------------------------------
# Copyright (C) 2008-2009 The IPython Development Team
#
# Distributed under the terms of the BSD License. The full license is in
# the file COPYING, distributed as part of this software.
#-----------------------------------------------------------------------------
#-----------------------------------------------------------------------------
# Imports
#-----------------------------------------------------------------------------
import logging
import os
import signal
if os.name=='posix':
from twisted.scripts._twistd_unix import daemonize
from twisted.internet import reactor, defer
from twisted.python import log, failure
from IPython.external.argparse import ArgumentParser, SUPPRESS
from IPython.utils.importstring import import_item
from IPython.kernel.clusterdir import (
ApplicationWithClusterDir, ClusterDirConfigLoader,
ClusterDirError, PIDFileError
)
#-----------------------------------------------------------------------------
# Module level variables
#-----------------------------------------------------------------------------
default_config_file_name = u'ipcluster_config.py'
_description = """\
Start an IPython cluster for parallel computing.\n\n
An IPython cluster consists of 1 controller and 1 or more engines.
This command automates the startup of these processes using a wide
range of startup methods (SSH, local processes, PBS, mpiexec,
Windows HPC Server 2008). To start a cluster with 4 engines on your
local host simply do 'ipcluster start -n 4'. For more complex usage
you will typically do 'ipcluster create -p mycluster', then edit
configuration files, followed by 'ipcluster start -p mycluster -n 4'.
"""
# Exit codes for ipcluster
# This will be the exit code if the ipcluster appears to be running because
# a .pid file exists
ALREADY_STARTED = 10
# This will be the exit code if ipcluster stop is run, but there is not .pid
# file to be found.
ALREADY_STOPPED = 11
#-----------------------------------------------------------------------------
# Command line options
#-----------------------------------------------------------------------------
class IPClusterAppConfigLoader(ClusterDirConfigLoader):
def _add_arguments(self):
# Don't call ClusterDirConfigLoader._add_arguments as we don't want
# its defaults on self.parser. Instead, we will put those on
# default options on our subparsers.
# This has all the common options that all subcommands use
parent_parser1 = ArgumentParser(
add_help=False,
argument_default=SUPPRESS
)
self._add_ipython_dir(parent_parser1)
self._add_log_level(parent_parser1)
# This has all the common options that other subcommands use
parent_parser2 = ArgumentParser(
add_help=False,
argument_default=SUPPRESS
)
self._add_cluster_profile(parent_parser2)
self._add_cluster_dir(parent_parser2)
self._add_work_dir(parent_parser2)
paa = parent_parser2.add_argument
paa('--log-to-file',
action='store_true', dest='Global.log_to_file',
help='Log to a file in the log directory (default is stdout)')
# Create the object used to create the subparsers.
subparsers = self.parser.add_subparsers(
dest='Global.subcommand',
title='ipcluster subcommands',
description=
"""ipcluster has a variety of subcommands. The general way of
running ipcluster is 'ipcluster <cmd> [options]'. To get help
on a particular subcommand do 'ipcluster <cmd> -h'."""
# help="For more help, type 'ipcluster <cmd> -h'",
)
# The "list" subcommand parser
parser_list = subparsers.add_parser(
'list',
parents=[parent_parser1],
argument_default=SUPPRESS,
help="List all clusters in cwd and ipython_dir.",
description=
"""List all available clusters, by cluster directory, that can
be found in the current working directly or in the ipython
directory. Cluster directories are named using the convention
'cluster_<profile>'."""
)
# The "create" subcommand parser
parser_create = subparsers.add_parser(
'create',
parents=[parent_parser1, parent_parser2],
argument_default=SUPPRESS,
help="Create a new cluster directory.",
description=
"""Create an ipython cluster directory by its profile name or
cluster directory path. Cluster directories contain
configuration, log and security related files and are named
using the convention 'cluster_<profile>'. By default they are
located in your ipython directory. Once created, you will
probably need to edit the configuration files in the cluster
directory to configure your cluster. Most users will create a
cluster directory by profile name,
'ipcluster create -p mycluster', which will put the directory
in '<ipython_dir>/cluster_mycluster'.
"""
)
paa = parser_create.add_argument
paa('--reset-config',
dest='Global.reset_config', action='store_true',
help=
"""Recopy the default config files to the cluster directory.
You will loose any modifications you have made to these files.""")
# The "start" subcommand parser
parser_start = subparsers.add_parser(
'start',
parents=[parent_parser1, parent_parser2],
argument_default=SUPPRESS,
help="Start a cluster.",
description=
"""Start an ipython cluster by its profile name or cluster
directory. Cluster directories contain configuration, log and
security related files and are named using the convention
'cluster_<profile>' and should be creating using the 'start'
subcommand of 'ipcluster'. If your cluster directory is in
the cwd or the ipython directory, you can simply refer to it
using its profile name, 'ipcluster start -n 4 -p <profile>`,
otherwise use the '--cluster-dir' option.
"""
)
paa = parser_start.add_argument
paa('-n', '--number',
type=int, dest='Global.n',
help='The number of engines to start.',
metavar='Global.n')
paa('--clean-logs',
dest='Global.clean_logs', action='store_true',
help='Delete old log flies before starting.')
paa('--no-clean-logs',
dest='Global.clean_logs', action='store_false',
help="Don't delete old log flies before starting.")
paa('--daemon',
dest='Global.daemonize', action='store_true',
help='Daemonize the ipcluster program. This implies --log-to-file')
paa('--no-daemon',
dest='Global.daemonize', action='store_false',
help="Dont't daemonize the ipcluster program.")
# The "stop" subcommand parser
parser_stop = subparsers.add_parser(
'stop',
parents=[parent_parser1, parent_parser2],
argument_default=SUPPRESS,
help="Stop a running cluster.",
description=
"""Stop a running ipython cluster by its profile name or cluster
directory. Cluster directories are named using the convention
'cluster_<profile>'. If your cluster directory is in
the cwd or the ipython directory, you can simply refer to it
using its profile name, 'ipcluster stop -p <profile>`, otherwise
use the '--cluster-dir' option.
"""
)
paa = parser_stop.add_argument
paa('--signal',
dest='Global.signal', type=int,
help="The signal number to use in stopping the cluster (default=2).",
metavar="Global.signal")
#-----------------------------------------------------------------------------
# Main application
#-----------------------------------------------------------------------------
class IPClusterApp(ApplicationWithClusterDir):
name = u'ipcluster'
description = _description
usage = None
command_line_loader = IPClusterAppConfigLoader
default_config_file_name = default_config_file_name
default_log_level = logging.INFO
auto_create_cluster_dir = False
def create_default_config(self):
super(IPClusterApp, self).create_default_config()
self.default_config.Global.controller_launcher = \
'IPython.kernel.launcher.LocalControllerLauncher'
self.default_config.Global.engine_launcher = \
'IPython.kernel.launcher.LocalEngineSetLauncher'
self.default_config.Global.n = 2
self.default_config.Global.reset_config = False
self.default_config.Global.clean_logs = True
self.default_config.Global.signal = 2
self.default_config.Global.daemonize = False
def find_resources(self):
subcommand = self.command_line_config.Global.subcommand
if subcommand=='list':
self.list_cluster_dirs()
# Exit immediately because there is nothing left to do.
self.exit()
elif subcommand=='create':
self.auto_create_cluster_dir = True
super(IPClusterApp, self).find_resources()
elif subcommand=='start' or subcommand=='stop':
self.auto_create_cluster_dir = True
try:
super(IPClusterApp, self).find_resources()
except ClusterDirError:
raise ClusterDirError(
"Could not find a cluster directory. A cluster dir must "
"be created before running 'ipcluster start'. Do "
"'ipcluster create -h' or 'ipcluster list -h' for more "
"information about creating and listing cluster dirs."
)
def list_cluster_dirs(self):
# Find the search paths
cluster_dir_paths = os.environ.get('IPCLUSTER_DIR_PATH','')
if cluster_dir_paths:
cluster_dir_paths = cluster_dir_paths.split(':')
else:
cluster_dir_paths = []
try:
ipython_dir = self.command_line_config.Global.ipython_dir
except AttributeError:
ipython_dir = self.default_config.Global.ipython_dir
paths = [os.getcwd(), ipython_dir] + \
cluster_dir_paths
paths = list(set(paths))
self.log.info('Searching for cluster dirs in paths: %r' % paths)
for path in paths:
files = os.listdir(path)
for f in files:
full_path = os.path.join(path, f)
if os.path.isdir(full_path) and f.startswith('cluster_'):
profile = full_path.split('_')[-1]
start_cmd = 'ipcluster start -p %s -n 4' % profile
print start_cmd + " ==> " + full_path
def pre_construct(self):
# IPClusterApp.pre_construct() is where we cd to the working directory.
super(IPClusterApp, self).pre_construct()
config = self.master_config
try:
daemon = config.Global.daemonize
if daemon:
config.Global.log_to_file = True
except AttributeError:
pass
def construct(self):
config = self.master_config
subcmd = config.Global.subcommand
reset = config.Global.reset_config
if subcmd == 'list':
return
if subcmd == 'create':
self.log.info('Copying default config files to cluster directory '
'[overwrite=%r]' % (reset,))
self.cluster_dir_obj.copy_all_config_files(overwrite=reset)
if subcmd =='start':
self.cluster_dir_obj.copy_all_config_files(overwrite=False)
self.start_logging()
reactor.callWhenRunning(self.start_launchers)
def start_launchers(self):
config = self.master_config
# Create the launchers. In both bases, we set the work_dir of
# the launcher to the cluster_dir. This is where the launcher's
# subprocesses will be launched. It is not where the controller
# and engine will be launched.
el_class = import_item(config.Global.engine_launcher)
self.engine_launcher = el_class(
work_dir=self.cluster_dir, config=config
)
cl_class = import_item(config.Global.controller_launcher)
self.controller_launcher = cl_class(
work_dir=self.cluster_dir, config=config
)
# Setup signals
signal.signal(signal.SIGINT, self.sigint_handler)
# Setup the observing of stopping. If the controller dies, shut
# everything down as that will be completely fatal for the engines.
d1 = self.controller_launcher.observe_stop()
d1.addCallback(self.stop_launchers)
# But, we don't monitor the stopping of engines. An engine dying
# is just fine and in principle a user could start a new engine.
# Also, if we did monitor engine stopping, it is difficult to
# know what to do when only some engines die. Currently, the
# observing of engine stopping is inconsistent. Some launchers
# might trigger on a single engine stopping, other wait until
# all stop. TODO: think more about how to handle this.
# Start the controller and engines
self._stopping = False # Make sure stop_launchers is not called 2x.
d = self.start_controller()
d.addCallback(self.start_engines)
d.addCallback(self.startup_message)
# If the controller or engines fail to start, stop everything
d.addErrback(self.stop_launchers)
return d
def startup_message(self, r=None):
log.msg("IPython cluster: started")
return r
def start_controller(self, r=None):
# log.msg("In start_controller")
config = self.master_config
d = self.controller_launcher.start(
cluster_dir=config.Global.cluster_dir
)
return d
def start_engines(self, r=None):
# log.msg("In start_engines")
config = self.master_config
d = self.engine_launcher.start(
config.Global.n,
cluster_dir=config.Global.cluster_dir
)
return d
def stop_controller(self, r=None):
# log.msg("In stop_controller")
if self.controller_launcher.running:
d = self.controller_launcher.stop()
d.addErrback(self.log_err)
return d
else:
return defer.succeed(None)
def stop_engines(self, r=None):
# log.msg("In stop_engines")
if self.engine_launcher.running:
d = self.engine_launcher.stop()
d.addErrback(self.log_err)
return d
else:
return defer.succeed(None)
def log_err(self, f):
log.msg(f.getTraceback())
return None
def stop_launchers(self, r=None):
if not self._stopping:
self._stopping = True
if isinstance(r, failure.Failure):
log.msg('Unexpected error in ipcluster:')
log.msg(r.getTraceback())
log.msg("IPython cluster: stopping")
# These return deferreds. We are not doing anything with them
# but we are holding refs to them as a reminder that they
# do return deferreds.
d1 = self.stop_engines()
d2 = self.stop_controller()
# Wait a few seconds to let things shut down.
reactor.callLater(4.0, reactor.stop)
def sigint_handler(self, signum, frame):
self.stop_launchers()
def start_logging(self):
# Remove old log files of the controller and engine
if self.master_config.Global.clean_logs:
log_dir = self.master_config.Global.log_dir
for f in os.listdir(log_dir):
if f.startswith('ipengine' + '-'):
if f.endswith('.log') or f.endswith('.out') or f.endswith('.err'):
os.remove(os.path.join(log_dir, f))
if f.startswith('ipcontroller' + '-'):
if f.endswith('.log') or f.endswith('.out') or f.endswith('.err'):
os.remove(os.path.join(log_dir, f))
# This will remote old log files for ipcluster itself
super(IPClusterApp, self).start_logging()
def start_app(self):
"""Start the application, depending on what subcommand is used."""
subcmd = self.master_config.Global.subcommand
if subcmd=='create' or subcmd=='list':
return
elif subcmd=='start':
self.start_app_start()
elif subcmd=='stop':
self.start_app_stop()
def start_app_start(self):
"""Start the app for the start subcommand."""
config = self.master_config
# First see if the cluster is already running
try:
pid = self.get_pid_from_file()
except PIDFileError:
pass
else:
self.log.critical(
'Cluster is already running with [pid=%s]. '
'use "ipcluster stop" to stop the cluster.' % pid
)
# Here I exit with a unusual exit status that other processes
# can watch for to learn how I existed.
self.exit(ALREADY_STARTED)
# Now log and daemonize
self.log.info(
'Starting ipcluster with [daemon=%r]' % config.Global.daemonize
)
# TODO: Get daemonize working on Windows or as a Windows Server.
if config.Global.daemonize:
if os.name=='posix':
daemonize()
# Now write the new pid file AFTER our new forked pid is active.
self.write_pid_file()
reactor.addSystemEventTrigger('during','shutdown', self.remove_pid_file)
reactor.run()
def start_app_stop(self):
"""Start the app for the stop subcommand."""
config = self.master_config
try:
pid = self.get_pid_from_file()
except PIDFileError:
self.log.critical(
'Problem reading pid file, cluster is probably not running.'
)
# Here I exit with a unusual exit status that other processes
# can watch for to learn how I existed.
self.exit(ALREADY_STOPPED)
else:
if os.name=='posix':
sig = config.Global.signal
self.log.info(
"Stopping cluster [pid=%r] with [signal=%r]" % (pid, sig)
)
os.kill(pid, sig)
elif os.name=='nt':
# As of right now, we don't support daemonize on Windows, so
# stop will not do anything. Minimally, it should clean up the
# old .pid files.
self.remove_pid_file()
def launch_new_instance():
"""Create and run the IPython cluster."""
app = IPClusterApp()
app.start()
if __name__ == '__main__':
launch_new_instance()