##// END OF EJS Templates
enable %gui/%pylab magics in the Kernel...
enable %gui/%pylab magics in the Kernel This isn't as significant as it looks, as it's principally a big dedent in zmq.ipkernel. All the single-method Kernel subclasses were just dedented, and are used as functions. This lets them be plugged into the existing kernel's event loop. The enable_pylab and magic_gui methods in zmqshell only differ from the originals in the source of the enable_gui function, and the change of the default pylab backend to inline, from matplotlib autodetect.

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kernel.py
255 lines | 8.5 KiB | text/x-python | PythonLexer
"""Utilities for connecting to kernels
Authors:
* Min Ragan-Kelley
"""
#-----------------------------------------------------------------------------
# Copyright (C) 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.
#-----------------------------------------------------------------------------
#-----------------------------------------------------------------------------
# Imports
#-----------------------------------------------------------------------------
import glob
import json
import os
import sys
from getpass import getpass
from subprocess import Popen, PIPE
# external imports
from IPython.external.ssh import tunnel
# IPython imports
from IPython.core.profiledir import ProfileDir
from IPython.utils.path import filefind, get_ipython_dir
from IPython.utils.py3compat import str_to_bytes
#-----------------------------------------------------------------------------
# Functions
#-----------------------------------------------------------------------------
def get_connection_file(app=None):
"""Return the path to the connection file of an app
Parameters
----------
app : KernelApp instance [optional]
If unspecified, the currently running app will be used
"""
if app is None:
from IPython.zmq.kernelapp import KernelApp
if not KernelApp.initialized():
raise RuntimeError("app not specified, and not in a running Kernel")
app = KernelApp.instance()
return filefind(app.connection_file, ['.', app.profile_dir.security_dir])
def find_connection_file(filename, profile=None):
"""find a connection file, and return its absolute path.
The current working directory and the profile's security
directory will be searched for the file if it is not given by
absolute path.
If profile is unspecified, then the current running application's
profile will be used, or 'default', if not run from IPython.
If the argument does not match an existing file, it will be interpreted as a
fileglob, and the matching file in the profile's security dir with
the latest access time will be used.
Parameters
----------
filename : str
The connection file or fileglob to search for.
profile : str [optional]
The name of the profile to use when searching for the connection file,
if different from the current IPython session or 'default'.
Returns
-------
str : The absolute path of the connection file.
"""
from IPython.core.application import BaseIPythonApplication as IPApp
try:
# quick check for absolute path, before going through logic
return filefind(filename)
except IOError:
pass
if profile is None:
# profile unspecified, check if running from an IPython app
if IPApp.initialized():
app = IPApp.instance()
profile_dir = app.profile_dir
else:
# not running in IPython, use default profile
profile_dir = ProfileDir.find_profile_dir_by_name(get_ipython_dir(), 'default')
else:
# find profiledir by profile name:
profile_dir = ProfileDir.find_profile_dir_by_name(get_ipython_dir(), profile)
security_dir = profile_dir.security_dir
try:
# first, try explicit name
return filefind(filename, ['.', security_dir])
except IOError:
pass
# not found by full name
if '*' in filename:
# given as a glob already
pat = filename
else:
# accept any substring match
pat = '*%s*' % filename
matches = glob.glob( os.path.join(security_dir, pat) )
if not matches:
raise IOError("Could not find %r in %r" % (filename, security_dir))
elif len(matches) == 1:
return matches[0]
else:
# get most recent match, by access time:
return sorted(matches, key=lambda f: os.stat(f).st_atime)[-1]
def get_connection_info(connection_file=None, unpack=False, profile=None):
"""Return the connection information for the current Kernel.
Parameters
----------
connection_file : str [optional]
The connection file to be used. Can be given by absolute path, or
IPython will search in the security directory of a given profile.
If run from IPython,
If unspecified, the connection file for the currently running
IPython Kernel will be used, which is only allowed from inside a kernel.
unpack : bool [default: False]
if True, return the unpacked dict, otherwise just the string contents
of the file.
profile : str [optional]
The name of the profile to use when searching for the connection file,
if different from the current IPython session or 'default'.
Returns
-------
The connection dictionary of the current kernel, as string or dict,
depending on `unpack`.
"""
if connection_file is None:
# get connection file from current kernel
cf = get_connection_file()
else:
# connection file specified, allow shortnames:
cf = find_connection_file(connection_file, profile=profile)
with open(cf) as f:
info = f.read()
if unpack:
info = json.loads(info)
# ensure key is bytes:
info['key'] = str_to_bytes(info.get('key', ''))
return info
def connect_qtconsole(connection_file=None, argv=None, profile=None):
"""Connect a qtconsole to the current kernel.
This is useful for connecting a second qtconsole to a kernel, or to a
local notebook.
Parameters
----------
connection_file : str [optional]
The connection file to be used. Can be given by absolute path, or
IPython will search in the security directory of a given profile.
If run from IPython,
If unspecified, the connection file for the currently running
IPython Kernel will be used, which is only allowed from inside a kernel.
argv : list [optional]
Any extra args to be passed to the console.
profile : str [optional]
The name of the profile to use when searching for the connection file,
if different from the current IPython session or 'default'.
Returns
-------
subprocess.Popen instance running the qtconsole frontend
"""
argv = [] if argv is None else argv
if connection_file is None:
# get connection file from current kernel
cf = get_connection_file()
else:
cf = find_connection_file(connection_file, profile=profile)
cmd = ';'.join([
"from IPython.frontend.qt.console import qtconsoleapp",
"qtconsoleapp.main()"
])
return Popen([sys.executable, '-c', cmd, '--existing', cf] + argv, stdout=PIPE, stderr=PIPE)
def tunnel_to_kernel(connection_info, sshserver, sshkey=None):
"""tunnel connections to a kernel via ssh
This will open four SSH tunnels from localhost on this machine to the
ports associated with the kernel. They can be either direct
localhost-localhost tunnels, or if an intermediate server is necessary,
the kernel must be listening on a public IP.
Parameters
----------
connection_info : dict or str (path)
Either a connection dict, or the path to a JSON connection file
sshserver : str
The ssh sever to use to tunnel to the kernel. Can be a full
`user@server:port` string. ssh config aliases are respected.
sshkey : str [optional]
Path to file containing ssh key to use for authentication.
Only necessary if your ssh config does not already associate
a keyfile with the host.
Returns
-------
(shell, iopub, stdin, hb) : ints
The four ports on localhost that have been forwarded to the kernel.
"""
if isinstance(connection_info, basestring):
# it's a path, unpack it
with open(connection_info) as f:
connection_info = json.loads(f.read())
cf = connection_info
lports = tunnel.select_random_ports(4)
rports = cf['shell_port'], cf['iopub_port'], cf['stdin_port'], cf['hb_port']
remote_ip = cf['ip']
if tunnel.try_passwordless_ssh(sshserver, sshkey):
password=False
else:
password = getpass("SSH Password for %s: "%sshserver)
for lp,rp in zip(lports, rports):
tunnel.ssh_tunnel(lp, rp, sshserver, remote_ip, sshkey, password)
return tuple(lports)