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Merge pull request #1732 from fperez/cellmagics...
Merge pull request #1732 from fperez/cellmagics Refactoring of the magics system and implementation of cell magics. This PR completely refactors the magic system, finally moving the magic objects to standalone, independent objects instead of being the mixin class we'd had since the beginning of IPython. Now, a separate base class is provided in IPython.core.magic.Magics that users can subclass to create their own magics. Decorators are also provided to create magics from simple functions without the need for object orientation. All builtin magics now exist in a few subclasses that group together related functionality, and the new IPython.core.magics package has been created to organize this into smaller files. This cleanup was the last major piece of deep refactoring needed from the original 2001 codebase. Secondly, this PR introduces a new type of magic function, prefixed with `%%` instead of `%`, which operates at the cell level. A cell magic receives two arguments: the line it is called on (like a line magic) and the body of the cell below it. Cell magics are most natural in the notebook, but they also work in the terminal and qt console, with the usual approach of using a blank line to signal cell termination. This PR closes #1611, or IPEP 1, where the design had been discussed.
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tunnel.py
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/ IPython / external / ssh / tunnel.py
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"""Basic ssh tunnel utilities, and convenience functions for tunneling
zeromq connections.
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.
#-----------------------------------------------------------------------------
#-----------------------------------------------------------------------------
# Imports
#-----------------------------------------------------------------------------
from __future__ import print_function
import os,sys, atexit
import socket
from multiprocessing import Process
from getpass import getpass, getuser
import warnings
try:
with warnings.catch_warnings():
warnings.simplefilter('ignore', DeprecationWarning)
import paramiko
except ImportError:
paramiko = None
else:
from forward import forward_tunnel
try:
from IPython.external import pexpect
except ImportError:
pexpect = None
#-----------------------------------------------------------------------------
# Code
#-----------------------------------------------------------------------------
# select_random_ports copied from IPython.parallel.util
_random_ports = set()
def select_random_ports(n):
"""Selects and return n random ports that are available."""
ports = []
for i in xrange(n):
sock = socket.socket()
sock.bind(('', 0))
while sock.getsockname()[1] in _random_ports:
sock.close()
sock = socket.socket()
sock.bind(('', 0))
ports.append(sock)
for i, sock in enumerate(ports):
port = sock.getsockname()[1]
sock.close()
ports[i] = port
_random_ports.add(port)
return ports
#-----------------------------------------------------------------------------
# Check for passwordless login
#-----------------------------------------------------------------------------
def try_passwordless_ssh(server, keyfile, paramiko=None):
"""Attempt to make an ssh connection without a password.
This is mainly used for requiring password input only once
when many tunnels may be connected to the same server.
If paramiko is None, the default for the platform is chosen.
"""
if paramiko is None:
paramiko = sys.platform == 'win32'
if not paramiko:
f = _try_passwordless_openssh
else:
f = _try_passwordless_paramiko
return f(server, keyfile)
def _try_passwordless_openssh(server, keyfile):
"""Try passwordless login with shell ssh command."""
if pexpect is None:
raise ImportError("pexpect unavailable, use paramiko")
cmd = 'ssh -f '+ server
if keyfile:
cmd += ' -i ' + keyfile
cmd += ' exit'
p = pexpect.spawn(cmd)
while True:
try:
p.expect('[Ppassword]:', timeout=.1)
except pexpect.TIMEOUT:
continue
except pexpect.EOF:
return True
else:
return False
def _try_passwordless_paramiko(server, keyfile):
"""Try passwordless login with paramiko."""
if paramiko is None:
msg = "Paramiko unavaliable, "
if sys.platform == 'win32':
msg += "Paramiko is required for ssh tunneled connections on Windows."
else:
msg += "use OpenSSH."
raise ImportError(msg)
username, server, port = _split_server(server)
client = paramiko.SSHClient()
client.load_system_host_keys()
client.set_missing_host_key_policy(paramiko.WarningPolicy())
try:
client.connect(server, port, username=username, key_filename=keyfile,
look_for_keys=True)
except paramiko.AuthenticationException:
return False
else:
client.close()
return True
def tunnel_connection(socket, addr, server, keyfile=None, password=None, paramiko=None, timeout=60):
"""Connect a socket to an address via an ssh tunnel.
This is a wrapper for socket.connect(addr), when addr is not accessible
from the local machine. It simply creates an ssh tunnel using the remaining args,
and calls socket.connect('tcp://localhost:lport') where lport is the randomly
selected local port of the tunnel.
"""
new_url, tunnel = open_tunnel(addr, server, keyfile=keyfile, password=password, paramiko=paramiko, timeout=timeout)
socket.connect(new_url)
return tunnel
def open_tunnel(addr, server, keyfile=None, password=None, paramiko=None, timeout=60):
"""Open a tunneled connection from a 0MQ url.
For use inside tunnel_connection.
Returns
-------
(url, tunnel): The 0MQ url that has been forwarded, and the tunnel object
"""
lport = select_random_ports(1)[0]
transport, addr = addr.split('://')
ip,rport = addr.split(':')
rport = int(rport)
if paramiko is None:
paramiko = sys.platform == 'win32'
if paramiko:
tunnelf = paramiko_tunnel
else:
tunnelf = openssh_tunnel
tunnel = tunnelf(lport, rport, server, remoteip=ip, keyfile=keyfile, password=password, timeout=timeout)
return 'tcp://127.0.0.1:%i'%lport, tunnel
def openssh_tunnel(lport, rport, server, remoteip='127.0.0.1', keyfile=None, password=None, timeout=60):
"""Create an ssh tunnel using command-line ssh that connects port lport
on this machine to localhost:rport on server. The tunnel
will automatically close when not in use, remaining open
for a minimum of timeout seconds for an initial connection.
This creates a tunnel redirecting `localhost:lport` to `remoteip:rport`,
as seen from `server`.
keyfile and password may be specified, but ssh config is checked for defaults.
Parameters
----------
lport : int
local port for connecting to the tunnel from this machine.
rport : int
port on the remote machine to connect to.
server : str
The ssh server to connect to. The full ssh server string will be parsed.
user@server:port
remoteip : str [Default: 127.0.0.1]
The remote ip, specifying the destination of the tunnel.
Default is localhost, which means that the tunnel would redirect
localhost:lport on this machine to localhost:rport on the *server*.
keyfile : str; path to public key file
This specifies a key to be used in ssh login, default None.
Regular default ssh keys will be used without specifying this argument.
password : str;
Your ssh password to the ssh server. Note that if this is left None,
you will be prompted for it if passwordless key based login is unavailable.
timeout : int [default: 60]
The time (in seconds) after which no activity will result in the tunnel
closing. This prevents orphaned tunnels from running forever.
"""
if pexpect is None:
raise ImportError("pexpect unavailable, use paramiko_tunnel")
ssh="ssh "
if keyfile:
ssh += "-i " + keyfile
if ':' in server:
server, port = server.split(':')
ssh += " -p %s" % port
cmd = "%s -f -L 127.0.0.1:%i:%s:%i %s sleep %i" % (
ssh, lport, remoteip, rport, server, timeout)
tunnel = pexpect.spawn(cmd)
failed = False
while True:
try:
tunnel.expect('[Pp]assword:', timeout=.1)
except pexpect.TIMEOUT:
continue
except pexpect.EOF:
if tunnel.exitstatus:
print (tunnel.exitstatus)
print (tunnel.before)
print (tunnel.after)
raise RuntimeError("tunnel '%s' failed to start"%(cmd))
else:
return tunnel.pid
else:
if failed:
print("Password rejected, try again")
password=None
if password is None:
password = getpass("%s's password: "%(server))
tunnel.sendline(password)
failed = True
def _split_server(server):
if '@' in server:
username,server = server.split('@', 1)
else:
username = getuser()
if ':' in server:
server, port = server.split(':')
port = int(port)
else:
port = 22
return username, server, port
def paramiko_tunnel(lport, rport, server, remoteip='127.0.0.1', keyfile=None, password=None, timeout=60):
"""launch a tunner with paramiko in a subprocess. This should only be used
when shell ssh is unavailable (e.g. Windows).
This creates a tunnel redirecting `localhost:lport` to `remoteip:rport`,
as seen from `server`.
If you are familiar with ssh tunnels, this creates the tunnel:
ssh server -L localhost:lport:remoteip:rport
keyfile and password may be specified, but ssh config is checked for defaults.
Parameters
----------
lport : int
local port for connecting to the tunnel from this machine.
rport : int
port on the remote machine to connect to.
server : str
The ssh server to connect to. The full ssh server string will be parsed.
user@server:port
remoteip : str [Default: 127.0.0.1]
The remote ip, specifying the destination of the tunnel.
Default is localhost, which means that the tunnel would redirect
localhost:lport on this machine to localhost:rport on the *server*.
keyfile : str; path to public key file
This specifies a key to be used in ssh login, default None.
Regular default ssh keys will be used without specifying this argument.
password : str;
Your ssh password to the ssh server. Note that if this is left None,
you will be prompted for it if passwordless key based login is unavailable.
timeout : int [default: 60]
The time (in seconds) after which no activity will result in the tunnel
closing. This prevents orphaned tunnels from running forever.
"""
if paramiko is None:
raise ImportError("Paramiko not available")
if password is None:
if not _try_passwordless_paramiko(server, keyfile):
password = getpass("%s's password: "%(server))
p = Process(target=_paramiko_tunnel,
args=(lport, rport, server, remoteip),
kwargs=dict(keyfile=keyfile, password=password))
p.daemon=False
p.start()
atexit.register(_shutdown_process, p)
return p
def _shutdown_process(p):
if p.is_alive():
p.terminate()
def _paramiko_tunnel(lport, rport, server, remoteip, keyfile=None, password=None):
"""Function for actually starting a paramiko tunnel, to be passed
to multiprocessing.Process(target=this), and not called directly.
"""
username, server, port = _split_server(server)
client = paramiko.SSHClient()
client.load_system_host_keys()
client.set_missing_host_key_policy(paramiko.WarningPolicy())
try:
client.connect(server, port, username=username, key_filename=keyfile,
look_for_keys=True, password=password)
# except paramiko.AuthenticationException:
# if password is None:
# password = getpass("%s@%s's password: "%(username, server))
# client.connect(server, port, username=username, password=password)
# else:
# raise
except Exception as e:
print ('*** Failed to connect to %s:%d: %r' % (server, port, e))
sys.exit(1)
# print ('Now forwarding port %d to %s:%d ...' % (lport, server, rport))
try:
forward_tunnel(lport, remoteip, rport, client.get_transport())
except KeyboardInterrupt:
print ('SIGINT: Port forwarding stopped cleanly')
sys.exit(0)
except Exception as e:
print ("Port forwarding stopped uncleanly: %s"%e)
sys.exit(255)
if sys.platform == 'win32':
ssh_tunnel = paramiko_tunnel
else:
ssh_tunnel = openssh_tunnel
__all__ = ['tunnel_connection', 'ssh_tunnel', 'openssh_tunnel', 'paramiko_tunnel', 'try_passwordless_ssh']