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# -*- coding: utf-8 -*-
# process.py
# Copyright (C) 2013-2017 LEAP
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
"""
VPN Process management.
A custom processProtocol launches the VPNProcess and connects to its management
interface.
"""
import os
import shutil
import sys
from twisted.internet import protocol, reactor, defer
from twisted.internet import error as internet_error
from twisted.internet.endpoints import clientFromString, connectProtocol
from twisted.logger import Logger
from zope.interface import implementer
from leap.bitmask.vpn.utils import get_vpn_launcher
from leap.bitmask.vpn.management import ManagementProtocol, IStateListener
from leap.bitmask.vpn.launchers import darwin
from leap.bitmask.vpn.constants import IS_MAC, IS_LINUX
from leap.common.events import catalog, emit_async
OPENVPN_VERBOSITY = 4
@implementer(IStateListener)
class VPNStateListener(object):
# TODO we should move the state history to this class
# and make VPNProcess the implementer itself - or the service.
def change_state(self, state):
emit_async(catalog.VPN_STATUS_CHANGED)
class _VPNProcess(protocol.ProcessProtocol):
"""
A ProcessProtocol class that can be used to spawn a process that will
launch openvpn and connect to its management interface to control it
programmatically.
"""
log = Logger()
# HACK - reactor is expected to set this up when the process is spawned.
# should try to get it from the management protocol instead.
# XXX or, at least, we can check if they match.
pid = None
# TODO do we really need the vpnconfig/providerconfig objects in here???
def __init__(self, vpnconfig, providerconfig, socket_host, socket_port,
openvpn_verb, remotes, restartfun=None):
"""
:param vpnconfig: vpn configuration object
:type vpnconfig: VPNConfig
:param providerconfig: provider specific configuration
:type providerconfig: ProviderConfig
:param socket_host: either socket path (unix) or socket IP
:type socket_host: str
:param socket_port: either string "unix" if it's a unix
socket, or port otherwise
:type socket_port: str
"""
self._host = socket_host
self._port = socket_port
if socket_port == 'unix':
self._management_endpoint = clientFromString(
reactor, b"unix:path=%s" % socket_host)
else:
raise ValueError('tcp endpoint not configured')
self._vpnconfig = vpnconfig
self._providerconfig = providerconfig
self._launcher = get_vpn_launcher()
self._restartfun = restartfun
self.restarting = True
self.failed = False
self.errmsg = None
self.proto = None
self._remotes = remotes
# processProtocol methods
def outReceived(self, data):
# use this to debug failed invocations.
# print data
pass
@defer.inlineCallbacks
def _got_management_protocol(self, proto):
self.proto = proto
listener = VPNStateListener()
proto.addStateListener(listener)
try:
yield proto.logOn()
yield proto.getVersion()
yield proto.getPid()
yield proto.stateOn()
yield proto.byteCount(2)
except Exception as exc:
print('[!] Error: %s' % exc)
def _connect_to_management(self, retries=30):
if retries == 0:
self.log.error('Timeout whilte connecting to management')
self.failed = True
return
def retry(retries):
ctr = retries - 1
self.log.warn(
'Error connecting to management, retrying. '
'Retries left: %s' % ctr)
reactor.callLater(
0.1, self._connect_to_management, ctr)
self._d = connectProtocol(
self._management_endpoint,
ManagementProtocol(verbose=True))
self._d.addCallbacks(
self._got_management_protocol,
lambda f: retry(retries))
def connectionMade(self):
self.failed = False
reactor.callLater(0.1, self._connect_to_management)
def processExited(self, failure):
err = failure.trap(
internet_error.ProcessDone, internet_error.ProcessTerminated)
if err == internet_error.ProcessDone:
pass
elif err == internet_error.ProcessTerminated:
self.failed = True
self.errmsg = failure.value.exitCode
if self.errmsg:
self.log.debug('Process Exited, status %d' % (self.errmsg,))
else:
self.log.warn('%r' % failure.value)
if IS_MAC:
# TODO: need to exit properly!
self.errmsg = None
self.proto = None
def processEnded(self, reason):
"""
Called when the child process exits and all file descriptors associated
with it have been closed.
"""
self.proto = None
exit_code = reason.value.exitCode
if isinstance(exit_code, int):
self.log.debug('processEnded, status %d' % (exit_code,))
if self.restarting:
self.log.debug('Restarting VPN process')
self._cleanup()
self._restartfun()
def _cleanup(self):
"""
Remove all temporal files we might have left behind.
Iif self.port is 'unix', we have created a temporal socket path that,
under normal circumstances, we should be able to delete.
"""
if self._port == "unix":
tempfolder = os.path.split(self._host)[0]
if tempfolder and os.path.isdir(tempfolder):
try:
shutil.rmtree(tempfolder)
except OSError:
self.log.error(
'Could not delete VPN temp folder %s' % tempfolder)
# status handling
@property
def status(self):
if self.failed:
return {'status': 'failed', 'error': self.errmsg}
if not self.proto:
return {'status': 'off', 'error': None}
status = {'status': self.proto.state.simple.lower(),
'error': None}
if self.proto.traffic:
remote = self.proto.remote
rport = self.proto.rport
status['remote'] = '%s:%s' % (remote, rport)
down, up = self.proto.traffic.get_rate()
status['up'] = up
status['down'] = down
if status['status'] == 'off' and self.restarting:
status['status'] = 'starting'
return status
# launcher
def preUp(self):
self._launcher.kill_previous_openvpn()
def preDown(self):
pass
def getCommand(self):
"""
Gets the vpn command from the aproppriate launcher.
Might throw:
VPNLauncherException,
OpenVPNNotFoundException.
:rtype: list of str
"""
command = self._launcher.get_vpn_command(
vpnconfig=self._vpnconfig,
providerconfig=self._providerconfig,
socket_host=self._host,
socket_port=self._port,
remotes=self._remotes)
encoding = sys.getfilesystemencoding()
for i, c in enumerate(command):
if not isinstance(c, str):
command[i] = c.encode(encoding)
self.log.debug("Running VPN with command: ")
self.log.debug("{0}".format(" ".join(command)))
return command
# shutdown
def terminate(self):
if self.proto:
self.proto.signal('SIGTERM')
def kill(self):
try:
self.transport.signalProcess('KILL')
except internet_error.ProcessExitedAlready:
self.log.debug('Process Exited Already')
def terminate_or_kill(self):
return self._launcher.terminate_or_kill(
self.terminate, self.kill, self)
if IS_LINUX:
VPNProcess = _VPNProcess
elif IS_MAC:
class _VPNCanary(_VPNProcess):
"""
Special form of _VPNProcess, for Darwin Launcher (windows might end up
using the same strategy).
This is a Canary Process that does not run openvpn itself, but it's
notified by the privileged process when the process dies.
This is a workaround to allow the state machine to be notified when
openvpn process is spawned by the privileged helper.
"""
def setupHelper(self):
# TODO use get_vpn_launcher instead
self.helper = darwin.HelperCommand()
def preUp(self):
self.setupHelper()
cmd = self.getVPNCommand()
self.helper.send('openvpn_start %s' % ' '.join(cmd))
def preDown(self):
self.helper.send('openvpn_stop')
def connectionMade(self):
self.setupHelper()
reactor.callLater(2, self.registerPID)
_VPNProcess.connectionMade(self)
def registerPID(self):
cmd = 'openvpn_set_watcher %s' % self.pid
self.helper.send(cmd)
def killProcess(self):
cmd = 'openvpn_force_stop'
self.helper.send(cmd)
def getVPNCommand(self):
vpncmd = _VPNProcess.getCommand(self)
return vpncmd
def getCommand(self):
canary = '''import sys, signal, time
def receive_signal(signum, stack): sys.exit()
signal.signal(signal.SIGTERM, receive_signal)
while True: time.sleep(90)'''
return ['python', '-c', '%s' % canary]
VPNProcess = _VPNCanary
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