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Refactored the command line config system and other aspects of config....
Refactored the command line config system and other aspects of config. * Removed ``NoConfigDefault`` from our config logic entirely. It turns out that argparse has a nice ``argparse.SUPPRESS`` object that handles this nicely (r1283, r1284). * Completely cleared the previous config when :meth:`load_config` is called to allow it to be called more than once. * Added some additional tests and docs for the config system. * Removed the ``override_config`` and ``constructor_config`` config stages from :class:`~IPython.core.application.Applications` (r1293). * Completely refactored the command line config parser classes. We are now using a more object oriented design that allows for fine grained inheritance and good encapsulation.
Brian Granger - - Load All Authors

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ipcontrollerapp.py
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#!/usr/bin/env python
# encoding: utf-8
"""
The IPython controller 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
#-----------------------------------------------------------------------------
from __future__ import with_statement
import copy
import sys
from twisted.application import service
from twisted.internet import reactor
from twisted.python import log
from IPython.config.loader import Config
from IPython.kernel import controllerservice
from IPython.kernel.clusterdir import (
ApplicationWithClusterDir,
ClusterDirConfigLoader
)
from IPython.kernel.fcutil import FCServiceFactory
from IPython.utils.traitlets import Instance, Unicode
#-----------------------------------------------------------------------------
# Module level variables
#-----------------------------------------------------------------------------
#: The default config file name for this application
default_config_file_name = u'ipcontroller_config.py'
_description = """Start the IPython controller for parallel computing.
The IPython controller provides a gateway between the IPython engines and
clients. The controller needs to be started before the engines and can be
configured using command line options or using a cluster directory. Cluster
directories contain config, log and security files and are usually located in
your .ipython directory and named as "cluster_<profile>". See the --profile
and --cluster-dir options for details.
"""
#-----------------------------------------------------------------------------
# Default interfaces
#-----------------------------------------------------------------------------
# The default client interfaces for FCClientServiceFactory.interfaces
default_client_interfaces = Config()
default_client_interfaces.Task.interface_chain = [
'IPython.kernel.task.ITaskController',
'IPython.kernel.taskfc.IFCTaskController'
]
default_client_interfaces.Task.furl_file = 'ipcontroller-tc.furl'
default_client_interfaces.MultiEngine.interface_chain = [
'IPython.kernel.multiengine.IMultiEngine',
'IPython.kernel.multienginefc.IFCSynchronousMultiEngine'
]
default_client_interfaces.MultiEngine.furl_file = u'ipcontroller-mec.furl'
# Make this a dict we can pass to Config.__init__ for the default
default_client_interfaces = dict(copy.deepcopy(default_client_interfaces.items()))
# The default engine interfaces for FCEngineServiceFactory.interfaces
default_engine_interfaces = Config()
default_engine_interfaces.Default.interface_chain = [
'IPython.kernel.enginefc.IFCControllerBase'
]
default_engine_interfaces.Default.furl_file = u'ipcontroller-engine.furl'
# Make this a dict we can pass to Config.__init__ for the default
default_engine_interfaces = dict(copy.deepcopy(default_engine_interfaces.items()))
#-----------------------------------------------------------------------------
# Service factories
#-----------------------------------------------------------------------------
class FCClientServiceFactory(FCServiceFactory):
"""A Foolscap implementation of the client services."""
cert_file = Unicode(u'ipcontroller-client.pem', config=True)
interfaces = Instance(klass=Config, kw=default_client_interfaces,
allow_none=False, config=True)
class FCEngineServiceFactory(FCServiceFactory):
"""A Foolscap implementation of the engine services."""
cert_file = Unicode(u'ipcontroller-engine.pem', config=True)
interfaces = Instance(klass=dict, kw=default_engine_interfaces,
allow_none=False, config=True)
#-----------------------------------------------------------------------------
# Command line options
#-----------------------------------------------------------------------------
class IPControllerAppConfigLoader(ClusterDirConfigLoader):
def _add_arguments(self):
super(IPControllerAppConfigLoader, self)._add_arguments()
paa = self.parser.add_argument
# Client config
paa('--client-ip',
type=str, dest='FCClientServiceFactory.ip',
help='The IP address or hostname the controller will listen on for '
'client connections.',
metavar='FCClientServiceFactory.ip')
paa('--client-port',
type=int, dest='FCClientServiceFactory.port',
help='The port the controller will listen on for client connections. '
'The default is to use 0, which will autoselect an open port.',
metavar='FCClientServiceFactory.port')
paa('--client-location',), dict(
type=str, dest='FCClientServiceFactory.location',
help='The hostname or IP that clients should connect to. This does '
'not control which interface the controller listens on. Instead, this '
'determines the hostname/IP that is listed in the FURL, which is how '
'clients know where to connect. Useful if the controller is listening '
'on multiple interfaces.',
metavar='FCClientServiceFactory.location')
# Engine config
paa('--engine-ip',
type=str, dest='FCEngineServiceFactory.ip',
help='The IP address or hostname the controller will listen on for '
'engine connections.',
metavar='FCEngineServiceFactory.ip')
paa('--engine-port',
type=int, dest='FCEngineServiceFactory.port',
help='The port the controller will listen on for engine connections. '
'The default is to use 0, which will autoselect an open port.',
metavar='FCEngineServiceFactory.port')
paa('--engine-location',
type=str, dest='FCEngineServiceFactory.location',
help='The hostname or IP that engines should connect to. This does '
'not control which interface the controller listens on. Instead, this '
'determines the hostname/IP that is listed in the FURL, which is how '
'engines know where to connect. Useful if the controller is listening '
'on multiple interfaces.',
metavar='FCEngineServiceFactory.location')
# Global config
paa('--log-to-file',
action='store_true', dest='Global.log_to_file',
help='Log to a file in the log directory (default is stdout)')
paa('-r','--reuse-furls',
action='store_true', dest='Global.reuse_furls',
help='Try to reuse all FURL files. If this is not set all FURL files '
'are deleted before the controller starts. This must be set if '
'specific ports are specified by --engine-port or --client-port.')
paa('--no-secure',
action='store_false', dest='Global.secure',
help='Turn off SSL encryption for all connections.')
paa('--secure',
action='store_true', dest='Global.secure',
help='Turn off SSL encryption for all connections.')
#-----------------------------------------------------------------------------
# The main application
#-----------------------------------------------------------------------------
class IPControllerApp(ApplicationWithClusterDir):
name = u'ipcontroller'
description = _description
command_line_loader = IPControllerAppConfigLoader
config_file_name = default_config_file_name
auto_create_cluster_dir = True
def create_default_config(self):
super(IPControllerApp, self).create_default_config()
self.default_config.Global.reuse_furls = False
self.default_config.Global.secure = True
self.default_config.Global.import_statements = []
self.default_config.Global.clean_logs = True
def post_load_command_line_config(self):
# Now setup reuse_furls
c = self.command_line_config
if hasattr(c.Global, 'reuse_furls'):
c.FCClientServiceFactory.reuse_furls = c.Global.reuse_furls
c.FCEngineServiceFactory.reuse_furls = c.Global.reuse_furls
del c.Global.reuse_furls
if hasattr(c.Global, 'secure'):
c.FCClientServiceFactory.secure = c.Global.secure
c.FCEngineServiceFactory.secure = c.Global.secure
del c.Global.secure
def construct(self):
# This is the working dir by now.
sys.path.insert(0, '')
self.start_logging()
self.import_statements()
# Create the service hierarchy
self.main_service = service.MultiService()
# The controller service
controller_service = controllerservice.ControllerService()
controller_service.setServiceParent(self.main_service)
# The client tub and all its refereceables
csfactory = FCClientServiceFactory(self.master_config, controller_service)
client_service = csfactory.create()
client_service.setServiceParent(self.main_service)
# The engine tub
esfactory = FCEngineServiceFactory(self.master_config, controller_service)
engine_service = esfactory.create()
engine_service.setServiceParent(self.main_service)
def import_statements(self):
statements = self.master_config.Global.import_statements
for s in statements:
try:
log.msg("Executing statement: '%s'" % s)
exec s in globals(), locals()
except:
log.msg("Error running statement: %s" % s)
def start_app(self):
# Start the controller service.
self.main_service.startService()
# Write the .pid file overwriting old ones. This allow multiple
# controllers to clober each other. But Windows is not cleaning
# these up properly.
self.write_pid_file(overwrite=True)
# Add a trigger to delete the .pid file upon shutting down.
reactor.addSystemEventTrigger('during','shutdown', self.remove_pid_file)
reactor.run()
def launch_new_instance():
"""Create and run the IPython controller"""
app = IPControllerApp()
app.start()
if __name__ == '__main__':
launch_new_instance()