upstream/ipython Files · IPython/kernel/scripts/ipcluster.py

This is a manual merge of certain things in the ipython1-dev branch, revision 46, into the main ...

This is a manual merge of certain things in the ipython1-dev branch, revision 46, into the main ipython branch. This is not a true merge in the formal sense because all history is not coming over with the files. For a detailed history of the added files, please see the ipython1-dev branch or the svn repository on scipy.org that ipython1-dev came from. More specifically, here is what I have done in this commit: 1) Moved the following by hand ipython1.config -> IPython.config ipython1.kernel -> IPython.kernel ipython1.external -> IPython.external ipython1.core -> IPython.kernel.core ipython1.testutils -> IPython.testing ipython1.tools -> IPython.tools 2) Moved IPython.tools.guid -> IPython1.external.guid 3) Renamed: ipython1 -> IPython IPython.core -> IPython.kernel.core IPython.testutils -> IPython.testing 4) Then did a "bzr add" for all the new stuff. That is all folks!

Brian E Granger - - Load All Authors

File last commit:

r1234:52b55407


                r1234:52b55407

Download file

             ipcluster.py
        
                    323 lines
            
             | 10.4 KiB
            
                | text/x-python
            
             |
                PythonLexer
            
             / IPython / kernel / scripts / ipcluster.py
          
                    History
                
                 |
                  Annotation
                 | Raw
                 |Copy content
                 |Copy permalink

      #!/usr/bin/env python

      # encoding: utf-8

      """Start an IPython cluster conveniently, either locally or remotely.

      Basic usage

      -----------

      For local operation, the simplest mode of usage is:

        %prog -n N

      where N is the number of engines you want started.

      For remote operation, you must call it with a cluster description file:

        %prog -f clusterfile.py

      The cluster file is a normal Python script which gets run via execfile().  You

      can have arbitrary logic in it, but all that matters is that at the end of the

      execution, it declares the variables 'controller', 'engines', and optionally

      'sshx'.  See the accompanying examples for details on what these variables must

      contain.

      Notes

      -----

      WARNING: this code is still UNFINISHED and EXPERIMENTAL!  It is incomplete,

      some listed options are not really implemented, and all of its interfaces are

      subject to change.

      When operating over SSH for a remote cluster, this program relies on the

      existence of a particular script called 'sshx'.  This script must live in the

      target systems where you'll be running your controller and engines, and is

      needed to configure your PATH and PYTHONPATH variables for further execution of

      python code at the other end of an SSH connection.  The script can be as simple

      as:

      #!/bin/sh

      . $HOME/.bashrc

      "$@"

      which is the default one provided by IPython.  You can modify this or provide

      your own.  Since it's quite likely that for different clusters you may need

      this script to configure things differently or that it may live in different

      locations, its full path can be set in the same file where you define the

      cluster setup.  IPython's order of evaluation for this variable is the

      following:

        a) Internal default: 'sshx'.  This only works if it is in the default system

        path which SSH sets up in non-interactive mode.

        b) Environment variable: if $IPYTHON_SSHX is defined, this overrides the

        internal default.

        c) Variable 'sshx' in the cluster configuration file: finally, this will

        override the previous two values.

      This code is Unix-only, with precious little hope of any of this ever working

      under Windows, since we need SSH from the ground up, we background processes,

      etc.  Ports of this functionality to Windows are welcome.

      Call summary

      ------------

          %prog [options]

      """

      __docformat__ = "restructuredtext en"

      #-------------------------------------------------------------------------------

      #  Copyright (C) 2008  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.

      #-------------------------------------------------------------------------------

      #-------------------------------------------------------------------------------

      # Stdlib imports

      #-------------------------------------------------------------------------------

      import os

      import signal

      import sys

      import time

      from optparse import OptionParser

      from subprocess import Popen,call

      #---------------------------------------------------------------------------

      # IPython imports

      #---------------------------------------------------------------------------

      from IPython.tools import utils

      from IPython.config import cutils

      #---------------------------------------------------------------------------

      # Normal code begins

      #---------------------------------------------------------------------------

      def parse_args():

          """Parse command line and return opts,args."""

          parser = OptionParser(usage=__doc__)

          newopt = parser.add_option  # shorthand

          newopt("--controller-port", type="int", dest="controllerport",

                 help="the TCP port the controller is listening on")

          newopt("--controller-ip", type="string", dest="controllerip",

                 help="the TCP ip address of the controller")

          newopt("-n", "--num", type="int", dest="n",default=2,

                 help="the number of engines to start")

          newopt("--engine-port", type="int", dest="engineport",

                 help="the TCP port the controller will listen on for engine "

                 "connections")

          newopt("--engine-ip", type="string", dest="engineip",

                 help="the TCP ip address the controller will listen on "

                 "for engine connections")

          newopt("--mpi", type="string", dest="mpi",

                 help="use mpi with package:  for instance --mpi=mpi4py")

          newopt("-l", "--logfile", type="string", dest="logfile",

                 help="log file name")

          newopt('-f','--cluster-file',dest='clusterfile',

                 help='file describing a remote cluster')

          return parser.parse_args()

      def numAlive(controller,engines):

          """Return the number of processes still alive."""

          retcodes = [controller.poll()] + \

                     [e.poll() for e in engines]

          return retcodes.count(None)

      stop = lambda pid: os.kill(pid,signal.SIGINT)

      kill = lambda pid: os.kill(pid,signal.SIGTERM)

      def cleanup(clean,controller,engines):

          """Stop the controller and engines with the given cleanup method."""

          for e in engines:

              if e.poll() is None:

                  print 'Stopping engine, pid',e.pid

                  clean(e.pid)

          if controller.poll() is None:

              print 'Stopping controller, pid',controller.pid

              clean(controller.pid)

      def ensureDir(path):

          """Ensure a directory exists or raise an exception."""

          if not os.path.isdir(path):

              os.makedirs(path)

      def startMsg(control_host,control_port=10105):

          """Print a startup message"""

          print

          print 'Your cluster is up and running.'

          print

          print 'For interactive use, you can make a MultiEngineClient with:'

          print

          print 'from IPython.kernel import client'

          print "mec = client.MultiEngineClient((%r,%s))" % \

                (control_host,control_port)

          print

          print 'You can then cleanly stop the cluster from IPython using:'

          print

          print 'mec.kill(controller=True)'

          print

      def clusterLocal(opt,arg):

          """Start a cluster on the local machine."""

          # Store all logs inside the ipython directory

          ipdir = cutils.get_ipython_dir()

          pjoin = os.path.join

          logfile = opt.logfile

          if logfile is None:

              logdir_base = pjoin(ipdir,'log')

              ensureDir(logdir_base)

              logfile = pjoin(logdir_base,'ipcluster-')

          print 'Starting controller:',

          controller = Popen(['ipcontroller','--logfile',logfile])

          print 'Controller PID:',controller.pid

          print 'Starting engines:   ',

          time.sleep(3)

          englogfile = '%s%s-' % (logfile,controller.pid)

          mpi = opt.mpi

          if mpi: # start with mpi - killing the engines with sigterm will not work if you do this

              engines = [Popen(['mpirun', '-np', str(opt.n), 'ipengine', '--mpi', mpi, '--logfile',englogfile])]

          else: # do what we would normally do

              engines = [ Popen(['ipengine','--logfile',englogfile])

                          for i in range(opt.n) ]

          eids = [e.pid for e in engines]

          print 'Engines PIDs:  ',eids

          print 'Log files: %s*' % englogfile

          proc_ids = eids + [controller.pid]

          procs = engines + [controller]

          grpid = os.getpgrp()

          try:

              startMsg('127.0.0.1')

              print 'You can also hit Ctrl-C to stop it, or use from the cmd line:'

              print

              print 'kill -INT',grpid

              print

              try:

                  while True:

                      time.sleep(5)

              except:

                  pass

          finally:

              print 'Stopping cluster.  Cleaning up...'

              cleanup(stop,controller,engines)

              for i in range(4):

                  time.sleep(i+2)

                  nZombies = numAlive(controller,engines)

                  if  nZombies== 0:

                      print 'OK: All processes cleaned up.'

                      break

                  print 'Trying again, %d processes did not stop...' % nZombies

                  cleanup(kill,controller,engines)

                  if numAlive(controller,engines) == 0:

                      print 'OK: All processes cleaned up.'

                      break

              else:

                  print '*'*75

                  print 'ERROR: could not kill some processes, try to do it',

                  print 'manually.'

                  zombies = []

                  if controller.returncode is None:

                      print 'Controller is alive: pid =',controller.pid

                      zombies.append(controller.pid)

                  liveEngines = [ e for e in engines if e.returncode is None ]

                  for e in liveEngines:

                      print 'Engine is alive:     pid =',e.pid

                      zombies.append(e.pid)

                  print

                  print 'Zombie summary:',' '.join(map(str,zombies))

      def clusterRemote(opt,arg):

          """Start a remote cluster over SSH"""

          # Load the remote cluster configuration

          clConfig = {}

          execfile(opt.clusterfile,clConfig)

          contConfig = clConfig['controller']

          engConfig = clConfig['engines']

          # Determine where to find sshx:

          sshx = clConfig.get('sshx',os.environ.get('IPYTHON_SSHX','sshx'))

          # Store all logs inside the ipython directory

          ipdir = cutils.get_ipython_dir()

          pjoin = os.path.join

          logfile = opt.logfile

          if logfile is None:

              logdir_base = pjoin(ipdir,'log')

              ensureDir(logdir_base)

              logfile = pjoin(logdir_base,'ipcluster')

          # Append this script's PID to the logfile name always

          logfile = '%s-%s' % (logfile,os.getpid())

          print 'Starting controller:'

          # Controller data:

          xsys = os.system

          contHost = contConfig['host']

          contLog = '%s-con-%s-' % (logfile,contHost)

          cmd = "ssh %s '%s' 'ipcontroller --logfile %s' &" % \

                (contHost,sshx,contLog)

          #print 'cmd:<%s>' % cmd  # dbg

          xsys(cmd)

          time.sleep(2)

          print 'Starting engines:   '

          for engineHost,engineData in engConfig.iteritems():

              if isinstance(engineData,int):

                  numEngines = engineData

              else:

                  raise NotImplementedError('port configuration not finished for engines')

              print 'Sarting %d engines on %s' % (numEngines,engineHost)

              engLog = '%s-eng-%s-' % (logfile,engineHost)

              for i in range(numEngines):

                  cmd = "ssh %s '%s' 'ipengine --controller-ip %s --logfile %s' &" % \

                            (engineHost,sshx,contHost,engLog)

                  #print 'cmd:<%s>' % cmd  # dbg

                  xsys(cmd)

              # Wait after each host a little bit

              time.sleep(1)

          startMsg(contConfig['host'])

      def main():

          """Main driver for the two big options: local or remote cluster."""

          opt,arg = parse_args()

          clusterfile = opt.clusterfile

          if clusterfile:

              clusterRemote(opt,arg)

          else:

              clusterLocal(opt,arg)

      if __name__=='__main__':

          main()

	Site-wide shortcuts
/	Use quick search box
g h	Goto home page
g g	Goto my private gists page
g G	Goto my public gists page
g 0-9	Goto bookmarked items from 0-9
n r	New repository page
n g	New gist page

	Repositories
g s	Goto summary page
g c	Goto changelog page
g f	Goto files page
g F	Goto files page with file search activated
g p	Goto pull requests page
g o	Goto repository settings
g O	Goto repository access permissions settings
t s	Toggle sidebar on some pages

				#!/usr/bin/env python
				# encoding: utf-8

				"""Start an IPython cluster conveniently, either locally or remotely.

				Basic usage
				-----------

				For local operation, the simplest mode of usage is:

				%prog -n N

				where N is the number of engines you want started.

				For remote operation, you must call it with a cluster description file:

				%prog -f clusterfile.py

				The cluster file is a normal Python script which gets run via execfile(). You
				can have arbitrary logic in it, but all that matters is that at the end of the
				execution, it declares the variables 'controller', 'engines', and optionally
				'sshx'. See the accompanying examples for details on what these variables must
				contain.


				Notes
				-----

				WARNING: this code is still UNFINISHED and EXPERIMENTAL! It is incomplete,
				some listed options are not really implemented, and all of its interfaces are
				subject to change.

				When operating over SSH for a remote cluster, this program relies on the
				existence of a particular script called 'sshx'. This script must live in the
				target systems where you'll be running your controller and engines, and is
				needed to configure your PATH and PYTHONPATH variables for further execution of
				python code at the other end of an SSH connection. The script can be as simple
				as:

				#!/bin/sh
				. $HOME/.bashrc
				"$@"

				which is the default one provided by IPython. You can modify this or provide
				your own. Since it's quite likely that for different clusters you may need
				this script to configure things differently or that it may live in different
				locations, its full path can be set in the same file where you define the
				cluster setup. IPython's order of evaluation for this variable is the
				following:

				a) Internal default: 'sshx'. This only works if it is in the default system
				path which SSH sets up in non-interactive mode.

				b) Environment variable: if $IPYTHON_SSHX is defined, this overrides the
				internal default.

				c) Variable 'sshx' in the cluster configuration file: finally, this will
				override the previous two values.

				This code is Unix-only, with precious little hope of any of this ever working
				under Windows, since we need SSH from the ground up, we background processes,
				etc. Ports of this functionality to Windows are welcome.


				Call summary
				------------

				%prog [options]
				"""

				__docformat__ = "restructuredtext en"

				#-------------------------------------------------------------------------------
				# Copyright (C) 2008 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.
				#-------------------------------------------------------------------------------

				#-------------------------------------------------------------------------------
				# Stdlib imports
				#-------------------------------------------------------------------------------

				import os
				import signal
				import sys
				import time

				from optparse import OptionParser
				from subprocess import Popen,call

				#---------------------------------------------------------------------------
				# IPython imports
				#---------------------------------------------------------------------------
				from IPython.tools import utils
				from IPython.config import cutils

				#---------------------------------------------------------------------------
				# Normal code begins
				#---------------------------------------------------------------------------

				def parse_args():
				"""Parse command line and return opts,args."""

				parser = OptionParser(usage=__doc__)
				newopt = parser.add_option # shorthand

				newopt("--controller-port", type="int", dest="controllerport",
				help="the TCP port the controller is listening on")

				newopt("--controller-ip", type="string", dest="controllerip",
				help="the TCP ip address of the controller")

				newopt("-n", "--num", type="int", dest="n",default=2,
				help="the number of engines to start")

				newopt("--engine-port", type="int", dest="engineport",
				help="the TCP port the controller will listen on for engine "
				"connections")

				newopt("--engine-ip", type="string", dest="engineip",
				help="the TCP ip address the controller will listen on "
				"for engine connections")

				newopt("--mpi", type="string", dest="mpi",
				help="use mpi with package: for instance --mpi=mpi4py")

				newopt("-l", "--logfile", type="string", dest="logfile",
				help="log file name")

				newopt('-f','--cluster-file',dest='clusterfile',
				help='file describing a remote cluster')

				return parser.parse_args()

				def numAlive(controller,engines):
				"""Return the number of processes still alive."""
				retcodes = [controller.poll()] + \
				[e.poll() for e in engines]
				return retcodes.count(None)

				stop = lambda pid: os.kill(pid,signal.SIGINT)
				kill = lambda pid: os.kill(pid,signal.SIGTERM)

				def cleanup(clean,controller,engines):
				"""Stop the controller and engines with the given cleanup method."""

				for e in engines:
				if e.poll() is None:
				print 'Stopping engine, pid',e.pid
				clean(e.pid)
				if controller.poll() is None:
				print 'Stopping controller, pid',controller.pid
				clean(controller.pid)


				def ensureDir(path):
				"""Ensure a directory exists or raise an exception."""
				if not os.path.isdir(path):
				os.makedirs(path)


				def startMsg(control_host,control_port=10105):
				"""Print a startup message"""
				print
				print 'Your cluster is up and running.'
				print
				print 'For interactive use, you can make a MultiEngineClient with:'
				print
				print 'from IPython.kernel import client'
				print "mec = client.MultiEngineClient((%r,%s))" % \
				(control_host,control_port)
				print
				print 'You can then cleanly stop the cluster from IPython using:'
				print
				print 'mec.kill(controller=True)'
				print


				def clusterLocal(opt,arg):
				"""Start a cluster on the local machine."""

				# Store all logs inside the ipython directory
				ipdir = cutils.get_ipython_dir()
				pjoin = os.path.join

				logfile = opt.logfile
				if logfile is None:
				logdir_base = pjoin(ipdir,'log')
				ensureDir(logdir_base)
				logfile = pjoin(logdir_base,'ipcluster-')

				print 'Starting controller:',
				controller = Popen(['ipcontroller','--logfile',logfile])
				print 'Controller PID:',controller.pid

				print 'Starting engines: ',
				time.sleep(3)

				englogfile = '%s%s-' % (logfile,controller.pid)
				mpi = opt.mpi
				if mpi: # start with mpi - killing the engines with sigterm will not work if you do this
				engines = [Popen(['mpirun', '-np', str(opt.n), 'ipengine', '--mpi', mpi, '--logfile',englogfile])]
				else: # do what we would normally do
				engines = [ Popen(['ipengine','--logfile',englogfile])
				for i in range(opt.n) ]
				eids = [e.pid for e in engines]
				print 'Engines PIDs: ',eids
				print 'Log files: %s*' % englogfile

				proc_ids = eids + [controller.pid]
				procs = engines + [controller]

				grpid = os.getpgrp()
				try:
				startMsg('127.0.0.1')
				print 'You can also hit Ctrl-C to stop it, or use from the cmd line:'
				print
				print 'kill -INT',grpid
				print
				try:
				while True:
				time.sleep(5)
				except:
				pass
				finally:
				print 'Stopping cluster. Cleaning up...'
				cleanup(stop,controller,engines)
				for i in range(4):
				time.sleep(i+2)
				nZombies = numAlive(controller,engines)
				if nZombies== 0:
				print 'OK: All processes cleaned up.'
				break
				print 'Trying again, %d processes did not stop...' % nZombies
				cleanup(kill,controller,engines)
				if numAlive(controller,engines) == 0:
				print 'OK: All processes cleaned up.'
				break
				else:
				print ''75
				print 'ERROR: could not kill some processes, try to do it',
				print 'manually.'
				zombies = []
				if controller.returncode is None:
				print 'Controller is alive: pid =',controller.pid
				zombies.append(controller.pid)
				liveEngines = [ e for e in engines if e.returncode is None ]
				for e in liveEngines:
				print 'Engine is alive: pid =',e.pid
				zombies.append(e.pid)
				print
				print 'Zombie summary:',' '.join(map(str,zombies))

				def clusterRemote(opt,arg):
				"""Start a remote cluster over SSH"""

				# Load the remote cluster configuration
				clConfig = {}
				execfile(opt.clusterfile,clConfig)
				contConfig = clConfig['controller']
				engConfig = clConfig['engines']
				# Determine where to find sshx:
				sshx = clConfig.get('sshx',os.environ.get('IPYTHON_SSHX','sshx'))

				# Store all logs inside the ipython directory
				ipdir = cutils.get_ipython_dir()
				pjoin = os.path.join

				logfile = opt.logfile
				if logfile is None:
				logdir_base = pjoin(ipdir,'log')
				ensureDir(logdir_base)
				logfile = pjoin(logdir_base,'ipcluster')

				# Append this script's PID to the logfile name always
				logfile = '%s-%s' % (logfile,os.getpid())

				print 'Starting controller:'
				# Controller data:
				xsys = os.system

				contHost = contConfig['host']
				contLog = '%s-con-%s-' % (logfile,contHost)
				cmd = "ssh %s '%s' 'ipcontroller --logfile %s' &" % \
				(contHost,sshx,contLog)
				#print 'cmd:<%s>' % cmd # dbg
				xsys(cmd)
				time.sleep(2)

				print 'Starting engines: '
				for engineHost,engineData in engConfig.iteritems():
				if isinstance(engineData,int):
				numEngines = engineData
				else:
				raise NotImplementedError('port configuration not finished for engines')

				print 'Sarting %d engines on %s' % (numEngines,engineHost)
				engLog = '%s-eng-%s-' % (logfile,engineHost)
				for i in range(numEngines):
				cmd = "ssh %s '%s' 'ipengine --controller-ip %s --logfile %s' &" % \
				(engineHost,sshx,contHost,engLog)
				#print 'cmd:<%s>' % cmd # dbg
				xsys(cmd)
				# Wait after each host a little bit
				time.sleep(1)

				startMsg(contConfig['host'])

				def main():
				"""Main driver for the two big options: local or remote cluster."""

				opt,arg = parse_args()

				clusterfile = opt.clusterfile
				if clusterfile:
				clusterRemote(opt,arg)
				else:
				clusterLocal(opt,arg)


				if __name__=='__main__':
				main()