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"""
OpenVPN Connection
"""
from __future__ import (print_function)
import logging
import os
import socket
import telnetlib
import time
from functools import partial
logger = logging.getLogger(name=__name__)
from leap.util.coroutines import spawn_and_watch_process
from leap.eip.config import get_config
from leap.base.connection import Connection
class OpenVPNConnection(Connection):
"""
All related to invocation
of the openvpn binary
"""
# Connection Methods
def __init__(self, config_file=None,
watcher_cb=None,
debug=False,
host="/tmp/.eip.sock",
port="unix",
password=None,
*args, **kwargs):
#XXX FIXME
#change watcher_cb to line_observer
"""
:param config_file: configuration file to read from
:param watcher_cb: callback to be \
called for each line in watched stdout
:param signal_map: dictionary of signal names and callables \
to be triggered for each one of them.
:type config_file: str
:type watcher_cb: function
:type signal_map: dict
"""
self.config_file = config_file
self.watcher_cb = watcher_cb
#self.signal_maps = signal_maps
self.subp = None
self.watcher = None
self.server = None
self.port = None
self.proto = None
self.autostart = True
self._get_config()
#Get this info from the Configuration Class
#XXX hardcoded host here. change.
self.host = host
if isinstance(port, str) and port.isdigit():
port = int(port)
self.port = port
self.password = password
self.tn = None
#XXX workaround for signaling
#the ui that we don't know how to
#manage a connection error
self.with_errors = False
#def _set_command_mockup(self):
#"""
#sets command and args for a command mockup
#that just mimics the output from the real thing
#"""
#command, args = get_vpn_stdout_mockup()
#self.command, self.args = command, args
def _get_config(self):
"""
retrieves the config options from defaults or
home file, or config file passed in command line.
"""
#XXX merge! was changed in test-eip branch!!!
config = get_config(config_file=self.config_file)
self.config = config
if config.has_option('openvpn', 'command'):
commandline = config.get('openvpn', 'command')
if commandline == "mockup":
self._set_command_mockup()
return
command_split = commandline.split(' ')
command = command_split[0]
if len(command_split) > 1:
args = command_split[1:]
else:
args = []
self.command = command
#print("debug: command = %s" % command)
self.args = args
#else:
#self._set_command_mockup()
if config.has_option('openvpn', 'autostart'):
autostart = config.get('openvpn', 'autostart')
self.autostart = autostart
def _launch_openvpn(self):
"""
invocation of openvpn binaries in a subprocess.
"""
#XXX TODO:
#deprecate watcher_cb,
#use _only_ signal_maps instead
if self.watcher_cb is not None:
linewrite_callback = self.watcher_cb
else:
#XXX get logger instead
linewrite_callback = lambda line: print('watcher: %s' % line)
observers = (linewrite_callback,
partial(self.status_watcher, self.status))
subp, watcher = spawn_and_watch_process(
self.command,
self.args,
observers=observers)
self.subp = subp
self.watcher = watcher
conn_result = self.status.CONNECTED
return conn_result
def _try_connection(self):
"""
attempts to connect
"""
if self.subp is not None:
print('cowardly refusing to launch subprocess again')
return
self._launch_openvpn()
def cleanup(self):
"""
terminates child subprocess
"""
if self.subp:
self.subp.terminate()
#Here are the actual code to manage OpenVPN Connection
#TODO: Look into abstraction them and moving them up into base class
# this code based on code from cube-routed project
"""
Run commands over OpenVPN management interface
and parses the output.
"""
# XXX might need a lock to avoid
# race conditions here...
def forget_errors(self):
print('forgetting errors')
self.with_errors = False
def connect(self):
"""Connect to openvpn management interface"""
try:
self.close()
except:
#XXX don't like this general
#catch here.
pass
if self.connected():
return True
self.tn = UDSTelnet(self.host, self.port)
# XXX make password optional
# specially for win plat. we should generate
# the pass on the fly when invoking manager
# from conductor
#self.tn.read_until('ENTER PASSWORD:', 2)
#self.tn.write(self.password + '\n')
#self.tn.read_until('SUCCESS:', 2)
self._seek_to_eof()
self.forget_errors()
return True
def _seek_to_eof(self):
"""
Read as much as available. Position seek pointer to end of stream
"""
b = self.tn.read_eager()
while b:
b = self.tn.read_eager()
def connected(self):
"""
Returns True if connected
rtype: bool
"""
#return bool(getattr(self, 'tn', None))
try:
assert self.tn
return True
except:
#XXX get rid of
#this pokemon exception!!!
return False
def close(self, announce=True):
"""
Close connection to openvpn management interface
"""
if announce:
self.tn.write("quit\n")
self.tn.read_all()
self.tn.get_socket().close()
del self.tn
def _send_command(self, cmd, tries=0):
"""
Send a command to openvpn and return response as list
"""
if tries > 3:
return []
if not self.connected():
try:
self.connect()
except MissingSocketError:
#XXX capture more helpful error
#messages
#pass
return self.make_error()
try:
self.tn.write(cmd + "\n")
except socket.error:
logger.error('socket error')
print('socket error!')
self.close(announce=False)
self._send_command(cmd, tries=tries + 1)
return []
buf = self.tn.read_until(b"END", 2)
self._seek_to_eof()
blist = buf.split('\r\n')
if blist[-1].startswith('END'):
del blist[-1]
return blist
else:
return []
def _send_short_command(self, cmd):
"""
parse output from commands that are
delimited by "success" instead
"""
if not self.connected():
self.connect()
self.tn.write(cmd + "\n")
# XXX not working?
buf = self.tn.read_until(b"SUCCESS", 2)
self._seek_to_eof()
blist = buf.split('\r\n')
return blist
#
# useful vpn commands
#
def pid(self):
#XXX broken
return self._send_short_command("pid")
def make_error(self):
"""
capture error and wrap it in an
understandable format
"""
#XXX get helpful error codes
self.with_errors = True
now = int(time.time())
return '%s,LAUNCHER ERROR,ERROR,-,-' % now
def state(self):
"""
OpenVPN command: state
"""
state = self._send_command("state")
if not state:
return None
if isinstance(state, str):
return state
if isinstance(state, list):
if len(state) == 1:
return state[0]
else:
return state[-1]
def status(self):
"""
OpenVPN command: status
"""
status = self._send_command("status")
return status
def status2(self):
"""
OpenVPN command: last 2 statuses
"""
return self._send_command("status 2")
#
# parse info
#
def get_status_io(self):
status = self.status()
if isinstance(status, str):
lines = status.split('\n')
if isinstance(status, list):
lines = status
try:
(header, when, tun_read, tun_write,
tcp_read, tcp_write, auth_read) = tuple(lines)
except ValueError:
return None
when_ts = time.strptime(when.split(',')[1], "%a %b %d %H:%M:%S %Y")
sep = ','
# XXX cleanup!
tun_read = tun_read.split(sep)[1]
tun_write = tun_write.split(sep)[1]
tcp_read = tcp_read.split(sep)[1]
tcp_write = tcp_write.split(sep)[1]
auth_read = auth_read.split(sep)[1]
# XXX this could be a named tuple. prettier.
return when_ts, (tun_read, tun_write, tcp_read, tcp_write, auth_read)
def get_connection_state(self):
state = self.state()
if state is not None:
ts, status_step, ok, ip, remote = state.split(',')
ts = time.gmtime(float(ts))
# XXX this could be a named tuple. prettier.
return ts, status_step, ok, ip, remote
def status_watcher(self, cs, line):
"""
a wrapper that calls to ConnectionStatus object
:param cs: a EIPConnectionStatus instance
:type cs: EIPConnectionStatus object
:param line: a single line of the watched output
:type line: str
"""
#print('status watcher watching')
# from the mullvad code, should watch for
# things like:
# "Initialization Sequence Completed"
# "With Errors"
# "Tap-Win32"
if "Completed" in line:
cs.change_to(cs.CONNECTED)
return
if "Initial packet from" in line:
cs.change_to(cs.CONNECTING)
return
class MissingSocketError(Exception):
pass
class ConnectionRefusedError(Exception):
pass
class UDSTelnet(telnetlib.Telnet):
def open(self, host, port=23, timeout=socket._GLOBAL_DEFAULT_TIMEOUT):
"""Connect to a host. If port is 'unix', it
will open a connection over unix docmain sockets.
The optional second argument is the port number, which
defaults to the standard telnet port (23).
Don't try to reopen an already connected instance.
"""
self.eof = 0
self.host = host
self.port = port
self.timeout = timeout
if self.port == "unix":
# unix sockets spoken
if not os.path.exists(self.host):
raise MissingSocketError
self.sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
try:
self.sock.connect(self.host)
except socket.error:
raise ConnectionRefusedError
else:
self.sock = socket.create_connection((host, port), timeout)
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