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Beginning work on notebook duplication.
Beginning work on notebook duplication.

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engine.py
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"""A simple engine that talks to a controller over 0MQ.
it handles registration, etc. and launches a kernel
connected to the Controller's Schedulers.
Authors:
* Min RK
"""
#-----------------------------------------------------------------------------
# Copyright (C) 2010-2011 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.
#-----------------------------------------------------------------------------
from __future__ import print_function
import sys
import time
from getpass import getpass
import zmq
from zmq.eventloop import ioloop, zmqstream
from IPython.external.ssh import tunnel
# internal
from IPython.utils.traitlets import (
Instance, Dict, Integer, Type, CFloat, Unicode, CBytes, Bool
)
from IPython.utils import py3compat
from IPython.parallel.controller.heartmonitor import Heart
from IPython.parallel.factory import RegistrationFactory
from IPython.parallel.util import disambiguate_url, asbytes
from IPython.zmq.session import Message
from .streamkernel import Kernel
class EngineFactory(RegistrationFactory):
"""IPython engine"""
# configurables:
out_stream_factory=Type('IPython.zmq.iostream.OutStream', config=True,
help="""The OutStream for handling stdout/err.
Typically 'IPython.zmq.iostream.OutStream'""")
display_hook_factory=Type('IPython.zmq.displayhook.ZMQDisplayHook', config=True,
help="""The class for handling displayhook.
Typically 'IPython.zmq.displayhook.ZMQDisplayHook'""")
location=Unicode(config=True,
help="""The location (an IP address) of the controller. This is
used for disambiguating URLs, to determine whether
loopback should be used to connect or the public address.""")
timeout=CFloat(2,config=True,
help="""The time (in seconds) to wait for the Controller to respond
to registration requests before giving up.""")
sshserver=Unicode(config=True,
help="""The SSH server to use for tunneling connections to the Controller.""")
sshkey=Unicode(config=True,
help="""The SSH private key file to use when tunneling connections to the Controller.""")
paramiko=Bool(sys.platform == 'win32', config=True,
help="""Whether to use paramiko instead of openssh for tunnels.""")
# not configurable:
user_ns=Dict()
id=Integer(allow_none=True)
registrar=Instance('zmq.eventloop.zmqstream.ZMQStream')
kernel=Instance(Kernel)
bident = CBytes()
ident = Unicode()
def _ident_changed(self, name, old, new):
self.bident = asbytes(new)
using_ssh=Bool(False)
def __init__(self, **kwargs):
super(EngineFactory, self).__init__(**kwargs)
self.ident = self.session.session
def init_connector(self):
"""construct connection function, which handles tunnels."""
self.using_ssh = bool(self.sshkey or self.sshserver)
if self.sshkey and not self.sshserver:
# We are using ssh directly to the controller, tunneling localhost to localhost
self.sshserver = self.url.split('://')[1].split(':')[0]
if self.using_ssh:
if tunnel.try_passwordless_ssh(self.sshserver, self.sshkey, self.paramiko):
password=False
else:
password = getpass("SSH Password for %s: "%self.sshserver)
else:
password = False
def connect(s, url):
url = disambiguate_url(url, self.location)
if self.using_ssh:
self.log.debug("Tunneling connection to %s via %s"%(url, self.sshserver))
return tunnel.tunnel_connection(s, url, self.sshserver,
keyfile=self.sshkey, paramiko=self.paramiko,
password=password,
)
else:
return s.connect(url)
def maybe_tunnel(url):
"""like connect, but don't complete the connection (for use by heartbeat)"""
url = disambiguate_url(url, self.location)
if self.using_ssh:
self.log.debug("Tunneling connection to %s via %s"%(url, self.sshserver))
url,tunnelobj = tunnel.open_tunnel(url, self.sshserver,
keyfile=self.sshkey, paramiko=self.paramiko,
password=password,
)
return url
return connect, maybe_tunnel
def register(self):
"""send the registration_request"""
self.log.info("Registering with controller at %s"%self.url)
ctx = self.context
connect,maybe_tunnel = self.init_connector()
reg = ctx.socket(zmq.DEALER)
reg.setsockopt(zmq.IDENTITY, self.bident)
connect(reg, self.url)
self.registrar = zmqstream.ZMQStream(reg, self.loop)
content = dict(queue=self.ident, heartbeat=self.ident, control=self.ident)
self.registrar.on_recv(lambda msg: self.complete_registration(msg, connect, maybe_tunnel))
# print (self.session.key)
self.session.send(self.registrar, "registration_request",content=content)
def complete_registration(self, msg, connect, maybe_tunnel):
# print msg
self._abort_dc.stop()
ctx = self.context
loop = self.loop
identity = self.bident
idents,msg = self.session.feed_identities(msg)
msg = Message(self.session.unserialize(msg))
if msg.content.status == 'ok':
self.id = int(msg.content.id)
# launch heartbeat
hb_addrs = msg.content.heartbeat
# possibly forward hb ports with tunnels
hb_addrs = [ maybe_tunnel(addr) for addr in hb_addrs ]
heart = Heart(*map(str, hb_addrs), heart_id=identity)
heart.start()
# create Shell Streams (MUX, Task, etc.):
queue_addr = msg.content.mux
shell_addrs = [ str(queue_addr) ]
task_addr = msg.content.task
if task_addr:
shell_addrs.append(str(task_addr))
# Uncomment this to go back to two-socket model
# shell_streams = []
# for addr in shell_addrs:
# stream = zmqstream.ZMQStream(ctx.socket(zmq.ROUTER), loop)
# stream.setsockopt(zmq.IDENTITY, identity)
# stream.connect(disambiguate_url(addr, self.location))
# shell_streams.append(stream)
# Now use only one shell stream for mux and tasks
stream = zmqstream.ZMQStream(ctx.socket(zmq.ROUTER), loop)
stream.setsockopt(zmq.IDENTITY, identity)
shell_streams = [stream]
for addr in shell_addrs:
connect(stream, addr)
# end single stream-socket
# control stream:
control_addr = str(msg.content.control)
control_stream = zmqstream.ZMQStream(ctx.socket(zmq.ROUTER), loop)
control_stream.setsockopt(zmq.IDENTITY, identity)
connect(control_stream, control_addr)
# create iopub stream:
iopub_addr = msg.content.iopub
iopub_stream = zmqstream.ZMQStream(ctx.socket(zmq.PUB), loop)
iopub_stream.setsockopt(zmq.IDENTITY, identity)
connect(iopub_stream, iopub_addr)
# # Redirect input streams and set a display hook.
if self.out_stream_factory:
sys.stdout = self.out_stream_factory(self.session, iopub_stream, u'stdout')
sys.stdout.topic = py3compat.cast_bytes('engine.%i.stdout' % self.id)
sys.stderr = self.out_stream_factory(self.session, iopub_stream, u'stderr')
sys.stderr.topic = py3compat.cast_bytes('engine.%i.stderr' % self.id)
if self.display_hook_factory:
sys.displayhook = self.display_hook_factory(self.session, iopub_stream)
sys.displayhook.topic = py3compat.cast_bytes('engine.%i.pyout' % self.id)
self.kernel = Kernel(config=self.config, int_id=self.id, ident=self.ident, session=self.session,
control_stream=control_stream, shell_streams=shell_streams, iopub_stream=iopub_stream,
loop=loop, user_ns = self.user_ns, log=self.log)
self.kernel.start()
else:
self.log.fatal("Registration Failed: %s"%msg)
raise Exception("Registration Failed: %s"%msg)
self.log.info("Completed registration with id %i"%self.id)
def abort(self):
self.log.fatal("Registration timed out after %.1f seconds"%self.timeout)
if self.url.startswith('127.'):
self.log.fatal("""
If the controller and engines are not on the same machine,
you will have to instruct the controller to listen on an external IP (in ipcontroller_config.py):
c.HubFactory.ip='*' # for all interfaces, internal and external
c.HubFactory.ip='192.168.1.101' # or any interface that the engines can see
or tunnel connections via ssh.
""")
self.session.send(self.registrar, "unregistration_request", content=dict(id=self.id))
time.sleep(1)
sys.exit(255)
def start(self):
dc = ioloop.DelayedCallback(self.register, 0, self.loop)
dc.start()
self._abort_dc = ioloop.DelayedCallback(self.abort, self.timeout*1000, self.loop)
self._abort_dc.start()