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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
import time
from collections import OrderedDict
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
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
from zope.interface import Interface
from ._state import State
OPENVPN_VERBOSITY = 4
class IStateListener(Interface):
def changeState(self, state):
pass
def appendToStateLog(self, state):
pass
def getState(sef):
pass
def getStateHistory(self):
pass
@implementer(IStateListener)
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':
folder = os.path.split(self._host)[0]
if not os.path.isdir(folder):
os.makedirs(folder)
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
self._statelog = OrderedDict()
self._turn_state_off()
def _turn_state_off(self):
ts = time.time()
off = State('OFF', ts)
self.changeState(off)
# IStateListener methods
def changeState(self, state):
self.appendToStateLog(state)
emit_async(catalog.VPN_STATUS_CHANGED, state.simple)
def appendToStateLog(self, state):
ts = state.timestamp
self._statelog[ts] = state
def getState(self):
if self._statelog.values():
return self._statelog.values()[-1]
else:
return None
# TODO -- expose on the API, wanted by UI
def getStateHistory(self):
return self._statelog
# processProtocol methods
def outReceived(self, data):
# use this to debug failed invocations.
# print("DEBUG VPN: %s" % data)
pass
@defer.inlineCallbacks
def _got_management_protocol(self, proto):
self.proto = proto
proto.addStateListener(self)
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 while 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
self._turn_state_off()
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}
try:
state = self.getState()
if state:
_status = state.simple.lower()
status = {'status': _status, 'error': None}
except AttributeError:
raise
# BUG -- glitch due to proto.state transition?
# still needed?
# state = self.getState()
# if state:
# _status = state.simple.lower()
# status = {'status': _status, 'error': None}
if self.proto and 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
"""
print("GETTING COMMAND", self._launcher)
try:
command = self._launcher.get_vpn_command(
vpnconfig=self._vpnconfig,
providerconfig=self._providerconfig,
socket_host=self._host,
socket_port=self._port,
remotes=self._remotes)
print("Command: %s", command)
except Exception as exc:
print("ERROR: %r" % exc)
encoding = sys.getfilesystemencoding()
print("encoding", encoding)
for i, c in enumerate(command):
if not isinstance(c, str):
command[i] = c.encode(encoding)
print("command: %s", command)
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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