/usr/lib/python2.7/dist-packages/celery/bin/multi.py is in python-celery 3.1.20-1.
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"""
.. program:: celery multi
Examples
========
.. code-block:: bash
# Single worker with explicit name and events enabled.
$ celery multi start Leslie -E
# Pidfiles and logfiles are stored in the current directory
# by default. Use --pidfile and --logfile argument to change
# this. The abbreviation %N will be expanded to the current
# node name.
$ celery multi start Leslie -E --pidfile=/var/run/celery/%N.pid
--logfile=/var/log/celery/%N.log
# You need to add the same arguments when you restart,
# as these are not persisted anywhere.
$ celery multi restart Leslie -E --pidfile=/var/run/celery/%N.pid
--logfile=/var/run/celery/%N.log
# To stop the node, you need to specify the same pidfile.
$ celery multi stop Leslie --pidfile=/var/run/celery/%N.pid
# 3 workers, with 3 processes each
$ celery multi start 3 -c 3
celery worker -n celery1@myhost -c 3
celery worker -n celery2@myhost -c 3
celery worker -n celery3@myhost -c 3
# start 3 named workers
$ celery multi start image video data -c 3
celery worker -n image@myhost -c 3
celery worker -n video@myhost -c 3
celery worker -n data@myhost -c 3
# specify custom hostname
$ celery multi start 2 --hostname=worker.example.com -c 3
celery worker -n celery1@worker.example.com -c 3
celery worker -n celery2@worker.example.com -c 3
# specify fully qualified nodenames
$ celery multi start foo@worker.example.com bar@worker.example.com -c 3
# Advanced example starting 10 workers in the background:
# * Three of the workers processes the images and video queue
# * Two of the workers processes the data queue with loglevel DEBUG
# * the rest processes the default' queue.
$ celery multi start 10 -l INFO -Q:1-3 images,video -Q:4,5 data
-Q default -L:4,5 DEBUG
# You can show the commands necessary to start the workers with
# the 'show' command:
$ celery multi show 10 -l INFO -Q:1-3 images,video -Q:4,5 data
-Q default -L:4,5 DEBUG
# Additional options are added to each celery worker' comamnd,
# but you can also modify the options for ranges of, or specific workers
# 3 workers: Two with 3 processes, and one with 10 processes.
$ celery multi start 3 -c 3 -c:1 10
celery worker -n celery1@myhost -c 10
celery worker -n celery2@myhost -c 3
celery worker -n celery3@myhost -c 3
# can also specify options for named workers
$ celery multi start image video data -c 3 -c:image 10
celery worker -n image@myhost -c 10
celery worker -n video@myhost -c 3
celery worker -n data@myhost -c 3
# ranges and lists of workers in options is also allowed:
# (-c:1-3 can also be written as -c:1,2,3)
$ celery multi start 5 -c 3 -c:1-3 10
celery worker -n celery1@myhost -c 10
celery worker -n celery2@myhost -c 10
celery worker -n celery3@myhost -c 10
celery worker -n celery4@myhost -c 3
celery worker -n celery5@myhost -c 3
# lists also works with named workers
$ celery multi start foo bar baz xuzzy -c 3 -c:foo,bar,baz 10
celery worker -n foo@myhost -c 10
celery worker -n bar@myhost -c 10
celery worker -n baz@myhost -c 10
celery worker -n xuzzy@myhost -c 3
"""
from __future__ import absolute_import, print_function, unicode_literals
import errno
import os
import shlex
import signal
import socket
import sys
from collections import defaultdict, namedtuple
from subprocess import Popen
from time import sleep
from kombu.utils import cached_property
from kombu.utils.compat import OrderedDict
from kombu.utils.encoding import from_utf8
from celery import VERSION_BANNER
from celery.five import items
from celery.platforms import Pidfile, IS_WINDOWS
from celery.utils import term, nodesplit
from celery.utils.text import pluralize
__all__ = ['MultiTool']
SIGNAMES = set(sig for sig in dir(signal)
if sig.startswith('SIG') and '_' not in sig)
SIGMAP = dict((getattr(signal, name), name) for name in SIGNAMES)
USAGE = """\
usage: {prog_name} start <node1 node2 nodeN|range> [worker options]
{prog_name} stop <n1 n2 nN|range> [-SIG (default: -TERM)]
{prog_name} stopwait <n1 n2 nN|range> [-SIG (default: -TERM)]
{prog_name} restart <n1 n2 nN|range> [-SIG] [worker options]
{prog_name} kill <n1 n2 nN|range>
{prog_name} show <n1 n2 nN|range> [worker options]
{prog_name} get hostname <n1 n2 nN|range> [-qv] [worker options]
{prog_name} names <n1 n2 nN|range>
{prog_name} expand template <n1 n2 nN|range>
{prog_name} help
additional options (must appear after command name):
* --nosplash: Don't display program info.
* --quiet: Don't show as much output.
* --verbose: Show more output.
* --no-color: Don't display colors.
"""
multi_args_t = namedtuple(
'multi_args_t', ('name', 'argv', 'expander', 'namespace'),
)
def main():
sys.exit(MultiTool().execute_from_commandline(sys.argv))
CELERY_EXE = 'celery'
if sys.version_info < (2, 7):
# pkg.__main__ first supported in Py2.7
CELERY_EXE = 'celery.__main__'
def celery_exe(*args):
return ' '.join((CELERY_EXE, ) + args)
class MultiTool(object):
retcode = 0 # Final exit code.
def __init__(self, env=None, fh=None, quiet=False, verbose=False,
no_color=False, nosplash=False, stdout=None, stderr=None):
"""fh is an old alias to stdout."""
self.stdout = self.fh = stdout or fh or sys.stdout
self.stderr = stderr or sys.stderr
self.env = env
self.nosplash = nosplash
self.quiet = quiet
self.verbose = verbose
self.no_color = no_color
self.prog_name = 'celery multi'
self.commands = {'start': self.start,
'show': self.show,
'stop': self.stop,
'stopwait': self.stopwait,
'stop_verify': self.stopwait, # compat alias
'restart': self.restart,
'kill': self.kill,
'names': self.names,
'expand': self.expand,
'get': self.get,
'help': self.help}
def execute_from_commandline(self, argv, cmd='celery worker'):
argv = list(argv) # don't modify callers argv.
# Reserve the --nosplash|--quiet|-q/--verbose options.
if '--nosplash' in argv:
self.nosplash = argv.pop(argv.index('--nosplash'))
if '--quiet' in argv:
self.quiet = argv.pop(argv.index('--quiet'))
if '-q' in argv:
self.quiet = argv.pop(argv.index('-q'))
if '--verbose' in argv:
self.verbose = argv.pop(argv.index('--verbose'))
if '--no-color' in argv:
self.no_color = argv.pop(argv.index('--no-color'))
self.prog_name = os.path.basename(argv.pop(0))
if not argv or argv[0][0] == '-':
return self.error()
try:
self.commands[argv[0]](argv[1:], cmd)
except KeyError:
self.error('Invalid command: {0}'.format(argv[0]))
return self.retcode
def say(self, m, newline=True, file=None):
print(m, file=file or self.stdout, end='\n' if newline else '')
def carp(self, m, newline=True, file=None):
return self.say(m, newline, file or self.stderr)
def names(self, argv, cmd):
p = NamespacedOptionParser(argv)
self.say('\n'.join(
n.name for n in multi_args(p, cmd)),
)
def get(self, argv, cmd):
wanted = argv[0]
p = NamespacedOptionParser(argv[1:])
for node in multi_args(p, cmd):
if node.name == wanted:
self.say(' '.join(node.argv))
return
def show(self, argv, cmd):
p = NamespacedOptionParser(argv)
self.with_detacher_default_options(p)
self.say('\n'.join(
' '.join([sys.executable] + n.argv) for n in multi_args(p, cmd)),
)
def start(self, argv, cmd):
self.splash()
p = NamespacedOptionParser(argv)
self.with_detacher_default_options(p)
retcodes = []
self.note('> Starting nodes...')
for node in multi_args(p, cmd):
self.note('\t> {0}: '.format(node.name), newline=False)
retcode = self.waitexec(node.argv, path=p.options['--executable'])
self.note(retcode and self.FAILED or self.OK)
retcodes.append(retcode)
self.retcode = int(any(retcodes))
def with_detacher_default_options(self, p):
_setdefaultopt(p.options, ['--pidfile', '-p'], '%N.pid')
_setdefaultopt(p.options, ['--logfile', '-f'], '%N.log')
p.options.setdefault(
'--cmd',
'-m {0}'.format(celery_exe('worker', '--detach')),
)
_setdefaultopt(p.options, ['--executable'], sys.executable)
def signal_node(self, nodename, pid, sig):
try:
os.kill(pid, sig)
except OSError as exc:
if exc.errno != errno.ESRCH:
raise
self.note('Could not signal {0} ({1}): No such process'.format(
nodename, pid))
return False
return True
def node_alive(self, pid):
try:
os.kill(pid, 0)
except OSError as exc:
if exc.errno == errno.ESRCH:
return False
raise
return True
def shutdown_nodes(self, nodes, sig=signal.SIGTERM, retry=None,
callback=None):
if not nodes:
return
P = set(nodes)
def on_down(node):
P.discard(node)
if callback:
callback(*node)
self.note(self.colored.blue('> Stopping nodes...'))
for node in list(P):
if node in P:
nodename, _, pid = node
self.note('\t> {0}: {1} -> {2}'.format(
nodename, SIGMAP[sig][3:], pid))
if not self.signal_node(nodename, pid, sig):
on_down(node)
def note_waiting():
left = len(P)
if left:
pids = ', '.join(str(pid) for _, _, pid in P)
self.note(self.colored.blue(
'> Waiting for {0} {1} -> {2}...'.format(
left, pluralize(left, 'node'), pids)), newline=False)
if retry:
note_waiting()
its = 0
while P:
for node in P:
its += 1
self.note('.', newline=False)
nodename, _, pid = node
if not self.node_alive(pid):
self.note('\n\t> {0}: {1}'.format(nodename, self.OK))
on_down(node)
note_waiting()
break
if P and not its % len(P):
sleep(float(retry))
self.note('')
def getpids(self, p, cmd, callback=None):
_setdefaultopt(p.options, ['--pidfile', '-p'], '%N.pid')
nodes = []
for node in multi_args(p, cmd):
try:
pidfile_template = _getopt(
p.namespaces[node.namespace], ['--pidfile', '-p'],
)
except KeyError:
pidfile_template = _getopt(p.options, ['--pidfile', '-p'])
pid = None
pidfile = node.expander(pidfile_template)
try:
pid = Pidfile(pidfile).read_pid()
except ValueError:
pass
if pid:
nodes.append((node.name, tuple(node.argv), pid))
else:
self.note('> {0.name}: {1}'.format(node, self.DOWN))
if callback:
callback(node.name, node.argv, pid)
return nodes
def kill(self, argv, cmd):
self.splash()
p = NamespacedOptionParser(argv)
for nodename, _, pid in self.getpids(p, cmd):
self.note('Killing node {0} ({1})'.format(nodename, pid))
self.signal_node(nodename, pid, signal.SIGKILL)
def stop(self, argv, cmd, retry=None, callback=None):
self.splash()
p = NamespacedOptionParser(argv)
return self._stop_nodes(p, cmd, retry=retry, callback=callback)
def _stop_nodes(self, p, cmd, retry=None, callback=None):
restargs = p.args[len(p.values):]
self.shutdown_nodes(self.getpids(p, cmd, callback=callback),
sig=findsig(restargs),
retry=retry,
callback=callback)
def restart(self, argv, cmd):
self.splash()
p = NamespacedOptionParser(argv)
self.with_detacher_default_options(p)
retvals = []
def on_node_shutdown(nodename, argv, pid):
self.note(self.colored.blue(
'> Restarting node {0}: '.format(nodename)), newline=False)
retval = self.waitexec(argv, path=p.options['--executable'])
self.note(retval and self.FAILED or self.OK)
retvals.append(retval)
self._stop_nodes(p, cmd, retry=2, callback=on_node_shutdown)
self.retval = int(any(retvals))
def stopwait(self, argv, cmd):
self.splash()
p = NamespacedOptionParser(argv)
self.with_detacher_default_options(p)
return self._stop_nodes(p, cmd, retry=2)
stop_verify = stopwait # compat
def expand(self, argv, cmd=None):
template = argv[0]
p = NamespacedOptionParser(argv[1:])
for node in multi_args(p, cmd):
self.say(node.expander(template))
def help(self, argv, cmd=None):
self.say(__doc__)
def usage(self):
self.splash()
self.say(USAGE.format(prog_name=self.prog_name))
def splash(self):
if not self.nosplash:
c = self.colored
self.note(c.cyan('celery multi v{0}'.format(VERSION_BANNER)))
def waitexec(self, argv, path=sys.executable):
args = ' '.join([path] + list(argv))
argstr = shlex.split(from_utf8(args), posix=not IS_WINDOWS)
pipe = Popen(argstr, env=self.env)
self.info(' {0}'.format(' '.join(argstr)))
retcode = pipe.wait()
if retcode < 0:
self.note('* Child was terminated by signal {0}'.format(-retcode))
return -retcode
elif retcode > 0:
self.note('* Child terminated with errorcode {0}'.format(retcode))
return retcode
def error(self, msg=None):
if msg:
self.carp(msg)
self.usage()
self.retcode = 1
return 1
def info(self, msg, newline=True):
if self.verbose:
self.note(msg, newline=newline)
def note(self, msg, newline=True):
if not self.quiet:
self.say(str(msg), newline=newline)
@cached_property
def colored(self):
return term.colored(enabled=not self.no_color)
@cached_property
def OK(self):
return str(self.colored.green('OK'))
@cached_property
def FAILED(self):
return str(self.colored.red('FAILED'))
@cached_property
def DOWN(self):
return str(self.colored.magenta('DOWN'))
def multi_args(p, cmd='celery worker', append='', prefix='', suffix=''):
names = p.values
options = dict(p.options)
passthrough = p.passthrough
ranges = len(names) == 1
if ranges:
try:
noderange = int(names[0])
except ValueError:
pass
else:
names = [str(n) for n in range(1, noderange + 1)]
prefix = 'celery'
cmd = options.pop('--cmd', cmd)
append = options.pop('--append', append)
hostname = options.pop('--hostname',
options.pop('-n', socket.gethostname()))
prefix = options.pop('--prefix', prefix) or ''
suffix = options.pop('--suffix', suffix) or hostname
if suffix in ('""', "''"):
suffix = ''
for ns_name, ns_opts in list(items(p.namespaces)):
if ',' in ns_name or (ranges and '-' in ns_name):
for subns in parse_ns_range(ns_name, ranges):
p.namespaces[subns].update(ns_opts)
p.namespaces.pop(ns_name)
# Numbers in args always refers to the index in the list of names.
# (e.g. `start foo bar baz -c:1` where 1 is foo, 2 is bar, and so on).
for ns_name, ns_opts in list(items(p.namespaces)):
if ns_name.isdigit():
ns_index = int(ns_name) - 1
if ns_index < 0:
raise KeyError('Indexes start at 1 got: %r' % (ns_name, ))
try:
p.namespaces[names[ns_index]].update(ns_opts)
except IndexError:
raise KeyError('No node at index %r' % (ns_name, ))
for name in names:
this_suffix = suffix
if '@' in name:
this_name = options['-n'] = name
nodename, this_suffix = nodesplit(name)
name = nodename
else:
nodename = '%s%s' % (prefix, name)
this_name = options['-n'] = '%s@%s' % (nodename, this_suffix)
expand = abbreviations({'%h': this_name,
'%n': name,
'%N': nodename,
'%d': this_suffix})
argv = ([expand(cmd)] +
[format_opt(opt, expand(value))
for opt, value in items(p.optmerge(name, options))] +
[passthrough])
if append:
argv.append(expand(append))
yield multi_args_t(this_name, argv, expand, name)
class NamespacedOptionParser(object):
def __init__(self, args):
self.args = args
self.options = OrderedDict()
self.values = []
self.passthrough = ''
self.namespaces = defaultdict(lambda: OrderedDict())
self.parse()
def parse(self):
rargs = list(self.args)
pos = 0
while pos < len(rargs):
arg = rargs[pos]
if arg == '--':
self.passthrough = ' '.join(rargs[pos:])
break
elif arg[0] == '-':
if arg[1] == '-':
self.process_long_opt(arg[2:])
else:
value = None
if len(rargs) > pos + 1 and rargs[pos + 1][0] != '-':
value = rargs[pos + 1]
pos += 1
self.process_short_opt(arg[1:], value)
else:
self.values.append(arg)
pos += 1
def process_long_opt(self, arg, value=None):
if '=' in arg:
arg, value = arg.split('=', 1)
self.add_option(arg, value, short=False)
def process_short_opt(self, arg, value=None):
self.add_option(arg, value, short=True)
def optmerge(self, ns, defaults=None):
if defaults is None:
defaults = self.options
return OrderedDict(defaults, **self.namespaces[ns])
def add_option(self, name, value, short=False, ns=None):
prefix = short and '-' or '--'
dest = self.options
if ':' in name:
name, ns = name.split(':')
dest = self.namespaces[ns]
dest[prefix + name] = value
def quote(v):
return "\\'".join("'" + p + "'" for p in v.split("'"))
def format_opt(opt, value):
if not value:
return opt
if opt.startswith('--'):
return '{0}={1}'.format(opt, value)
return '{0} {1}'.format(opt, value)
def parse_ns_range(ns, ranges=False):
ret = []
for space in ',' in ns and ns.split(',') or [ns]:
if ranges and '-' in space:
start, stop = space.split('-')
ret.extend(
str(n) for n in range(int(start), int(stop) + 1)
)
else:
ret.append(space)
return ret
def abbreviations(mapping):
def expand(S):
ret = S
if S is not None:
for short_opt, long_opt in items(mapping):
ret = ret.replace(short_opt, long_opt)
return ret
return expand
def findsig(args, default=signal.SIGTERM):
for arg in reversed(args):
if len(arg) == 2 and arg[0] == '-':
try:
return int(arg[1])
except ValueError:
pass
if arg[0] == '-':
maybe_sig = 'SIG' + arg[1:]
if maybe_sig in SIGNAMES:
return getattr(signal, maybe_sig)
return default
def _getopt(d, alt):
for opt in alt:
try:
return d[opt]
except KeyError:
pass
raise KeyError(alt[0])
def _setdefaultopt(d, alt, value):
for opt in alt[1:]:
try:
return d[opt]
except KeyError:
pass
return d.setdefault(alt[0], value)
if __name__ == '__main__': # pragma: no cover
main()
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