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# -*- mode: python; coding: utf-8 -*-
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# Mandos server - give out binary blobs to connecting clients.
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# This program is partly derived from an example program for an Avahi
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# service publisher, downloaded from
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# <http://avahi.org/wiki/PythonPublishExample>. This includes the
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# methods "add", "remove", "server_state_changed",
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# "entry_group_state_changed", "cleanup", and "activate" in the
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# "AvahiService" class, and some lines in "main".
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# Everything else is
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# Copyright © 2008-2019 Teddy Hogeborn
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# Copyright © 2008-2019 Björn Påhlsson
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# This file is part of Mandos.
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# Mandos is free software: you can redistribute it and/or modify it
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# under the terms of the GNU General Public License as published by
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# Copyright © 2008-2012 Teddy Hogeborn
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# Copyright © 2008-2012 Björn Påhlsson
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# This program is free software: you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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# Mandos is distributed in the hope that it will be useful, but
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# WITHOUT ANY WARRANTY; without even the implied warranty of
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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# You should have received a copy of the GNU General Public License
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# along with Mandos. If not, see <http://www.gnu.org/licenses/>.
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# along with this program. If not, see
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# <http://www.gnu.org/licenses/>.
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# Contact the authors at <mandos@recompile.se>.
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from __future__ import (division, absolute_import, print_function,
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from future_builtins import *
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from future_builtins import *
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import SocketServer as socketserver
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import SocketServer as socketserver
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import ConfigParser as configparser
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import gnutls.connection
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import gnutls.library.functions
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import gnutls.library.constants
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import gnutls.library.types
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import ConfigParser as configparser
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import cPickle as pickle
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import cPickle as pickle
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import multiprocessing
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import dbus.service
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from gi.repository import GLib
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from dbus.mainloop.glib import DBusGMainLoop
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import xml.dom.minidom
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# Try to find the value of SO_BINDTODEVICE:
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# This is where SO_BINDTODEVICE is in Python 3.3 (or 3.4?) and
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# newer, and it is also the most natural place for it:
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SO_BINDTODEVICE = socket.SO_BINDTODEVICE
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except AttributeError:
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# This is where SO_BINDTODEVICE was up to and including Python
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from IN import SO_BINDTODEVICE
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except ImportError:
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# In Python 2.7 it seems to have been removed entirely.
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# Try running the C preprocessor:
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cc = subprocess.Popen(["cc", "--language=c", "-E",
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stdin=subprocess.PIPE,
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stdout=subprocess.PIPE)
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stdout = cc.communicate(
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"#include <sys/socket.h>\nSO_BINDTODEVICE\n")[0]
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SO_BINDTODEVICE = int(stdout.splitlines()[-1])
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except (OSError, ValueError, IndexError):
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SO_BINDTODEVICE = None
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if sys.version_info.major == 2:
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SO_BINDTODEVICE = None
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stored_state_file = "clients.pickle"
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logger = logging.getLogger()
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syslogger = (logging.handlers.SysLogHandler
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(facility = logging.handlers.SysLogHandler.LOG_DAEMON,
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address = str("/dev/log")))
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if_nametoindex = ctypes.cdll.LoadLibrary(
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ctypes.util.find_library("c")).if_nametoindex
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if_nametoindex = (ctypes.cdll.LoadLibrary
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(ctypes.util.find_library("c"))
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except (OSError, AttributeError):
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def if_nametoindex(interface):
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"Get an interface index the hard way, i.e. using fcntl()"
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SIOCGIFINDEX = 0x8933 # From /usr/include/linux/sockios.h
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with contextlib.closing(socket.socket()) as s:
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ifreq = fcntl.ioctl(s, SIOCGIFINDEX,
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struct.pack(b"16s16x", interface))
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interface_index = struct.unpack("I", ifreq[16:20])[0]
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struct.pack(str("16s16x"),
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interface_index = struct.unpack(str("I"),
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return interface_index
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def copy_function(func):
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"""Make a copy of a function"""
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if sys.version_info.major == 2:
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return types.FunctionType(func.func_code,
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return types.FunctionType(func.__code__,
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def initlogger(debug, level=logging.WARNING):
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"""init logger and add loglevel"""
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syslogger = (logging.handlers.SysLogHandler(
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facility=logging.handlers.SysLogHandler.LOG_DAEMON,
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syslogger.setFormatter(logging.Formatter
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('Mandos [%(process)d]: %(levelname)s:'
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logger.addHandler(syslogger)
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console = logging.StreamHandler()
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console.setFormatter(logging.Formatter('%(asctime)s %(name)s'
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os.rmdir(self.tempdir)
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self.tempdir = None
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def password_encode(self, password):
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# Passphrase can not be empty and can not contain newlines or
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# NUL bytes. So we prefix it and hex encode it.
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encoded = b"mandos" + binascii.hexlify(password)
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if len(encoded) > 2048:
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# GnuPG can't handle long passwords, so encode differently
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encoded = (b"mandos" + password.replace(b"\\", b"\\\\")
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.replace(b"\n", b"\\n")
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.replace(b"\0", b"\\x00"))
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return b"mandos" + binascii.hexlify(password)
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def encrypt(self, data, password):
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passphrase = self.password_encode(password)
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with tempfile.NamedTemporaryFile(
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dir=self.tempdir) as passfile:
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passfile.write(passphrase)
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proc = subprocess.Popen([self.gpg, '--symmetric',
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stdin=subprocess.PIPE,
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stdout=subprocess.PIPE,
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stderr=subprocess.PIPE)
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ciphertext, err = proc.communicate(input=data)
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if proc.returncode != 0:
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self.gnupg.passphrase = self.password_encode(password)
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with open(os.devnull, "w") as devnull:
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proc = self.gnupg.run(['--symmetric'],
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create_fhs=['stdin', 'stdout'],
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attach_fhs={'stderr': devnull})
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with contextlib.closing(proc.handles['stdin']) as f:
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with contextlib.closing(proc.handles['stdout']) as f:
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ciphertext = f.read()
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self.gnupg.passphrase = None
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return ciphertext
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def decrypt(self, data, password):
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passphrase = self.password_encode(password)
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with tempfile.NamedTemporaryFile(
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dir=self.tempdir) as passfile:
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passfile.write(passphrase)
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proc = subprocess.Popen([self.gpg, '--decrypt',
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stdin=subprocess.PIPE,
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stdout=subprocess.PIPE,
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stderr=subprocess.PIPE)
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decrypted_plaintext, err = proc.communicate(input=data)
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if proc.returncode != 0:
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self.gnupg.passphrase = self.password_encode(password)
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with open(os.devnull, "w") as devnull:
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proc = self.gnupg.run(['--decrypt'],
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create_fhs=['stdin', 'stdout'],
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attach_fhs={'stderr': devnull})
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with contextlib.closing(proc.handles['stdin']) as f:
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with contextlib.closing(proc.handles['stdout']) as f:
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decrypted_plaintext = f.read()
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self.gnupg.passphrase = None
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return decrypted_plaintext
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# Pretend that we have an Avahi module
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"""This isn't so much a class as it is a module-like namespace.
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It is instantiated once, and simulates having an Avahi module."""
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IF_UNSPEC = -1 # avahi-common/address.h
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PROTO_UNSPEC = -1 # avahi-common/address.h
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PROTO_INET = 0 # avahi-common/address.h
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PROTO_INET6 = 1 # avahi-common/address.h
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DBUS_NAME = "org.freedesktop.Avahi"
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DBUS_INTERFACE_ENTRY_GROUP = DBUS_NAME + ".EntryGroup"
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DBUS_INTERFACE_SERVER = DBUS_NAME + ".Server"
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DBUS_PATH_SERVER = "/"
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def string_array_to_txt_array(self, t):
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return dbus.Array((dbus.ByteArray(s.encode("utf-8"))
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for s in t), signature="ay")
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ENTRY_GROUP_ESTABLISHED = 2 # avahi-common/defs.h
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ENTRY_GROUP_COLLISION = 3 # avahi-common/defs.h
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ENTRY_GROUP_FAILURE = 4 # avahi-common/defs.h
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SERVER_INVALID = 0 # avahi-common/defs.h
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SERVER_REGISTERING = 1 # avahi-common/defs.h
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SERVER_RUNNING = 2 # avahi-common/defs.h
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SERVER_COLLISION = 3 # avahi-common/defs.h
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SERVER_FAILURE = 4 # avahi-common/defs.h
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class AvahiError(Exception):
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def __init__(self, value, *args, **kwargs):
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self.value = value
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return super(AvahiError, self).__init__(value, *args,
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super(AvahiError, self).__init__(value, *args, **kwargs)
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def __unicode__(self):
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return unicode(repr(self.value))
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class AvahiServiceError(AvahiError):
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class AvahiGroupError(AvahiError):
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class AvahiService(object):
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"""An Avahi (Zeroconf) service.
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interface: integer; avahi.IF_UNSPEC or an interface index.
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Used to optionally bind to the specified interface.
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name: string; Example: 'Mandos'
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type: string; Example: '_mandos._tcp'.
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See <https://www.iana.org/assignments/service-names-port-numbers>
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See <http://www.dns-sd.org/ServiceTypes.html>
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port: integer; what port to announce
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TXT: list of strings; TXT record for the service
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domain: string; Domain to publish on, default to .local if empty.
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follow_name_owner_changes=True),
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avahi.DBUS_INTERFACE_SERVER)
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self.server.connect_to_signal("StateChanged",
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self.server_state_changed)
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self.server_state_changed)
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self.server_state_changed(self.server.GetState())
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class AvahiServiceToSyslog(AvahiService):
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def rename(self, *args, **kwargs):
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"""Add the new name to the syslog messages"""
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ret = super(AvahiServiceToSyslog, self).rename(*args, **kwargs)
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syslogger.setFormatter(logging.Formatter(
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'Mandos ({}) [%(process)d]: %(levelname)s: %(message)s'
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ret = AvahiService.rename(self)
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syslogger.setFormatter(logging.Formatter
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('Mandos ({0}) [%(process)d]:'
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' %(levelname)s: %(message)s'
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# Pretend that we have a GnuTLS module
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class GnuTLS(object):
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"""This isn't so much a class as it is a module-like namespace.
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It is instantiated once, and simulates having a GnuTLS module."""
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library = ctypes.util.find_library("gnutls")
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library = ctypes.util.find_library("gnutls-deb0")
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_library = ctypes.cdll.LoadLibrary(library)
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_need_version = b"3.3.0"
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_tls_rawpk_version = b"3.6.6"
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# Need to use "self" here, since this method is called before
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# the assignment to the "gnutls" global variable happens.
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if self.check_version(self._need_version) is None:
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raise self.Error("Needs GnuTLS {} or later"
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.format(self._need_version))
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# Unless otherwise indicated, the constants and types below are
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# all from the gnutls/gnutls.h C header file.
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E_NO_CERTIFICATE_FOUND = -49
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KEYID_USE_SHA256 = 1 # gnutls/x509.h
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OPENPGP_FMT_RAW = 0 # gnutls/openpgp.h
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class session_int(ctypes.Structure):
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session_t = ctypes.POINTER(session_int)
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class certificate_credentials_st(ctypes.Structure):
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certificate_credentials_t = ctypes.POINTER(
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certificate_credentials_st)
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certificate_type_t = ctypes.c_int
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class datum_t(ctypes.Structure):
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_fields_ = [('data', ctypes.POINTER(ctypes.c_ubyte)),
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('size', ctypes.c_uint)]
561
class openpgp_crt_int(ctypes.Structure):
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openpgp_crt_t = ctypes.POINTER(openpgp_crt_int)
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openpgp_crt_fmt_t = ctypes.c_int # gnutls/openpgp.h
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log_func = ctypes.CFUNCTYPE(None, ctypes.c_int, ctypes.c_char_p)
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credentials_type_t = ctypes.c_int
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transport_ptr_t = ctypes.c_void_p
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close_request_t = ctypes.c_int
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class Error(Exception):
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# We need to use the class name "GnuTLS" here, since this
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# exception might be raised from within GnuTLS.__init__,
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# which is called before the assignment to the "gnutls"
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# global variable has happened.
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def __init__(self, message=None, code=None, args=()):
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# Default usage is by a message string, but if a return
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# code is passed, convert it to a string with
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if message is None and code is not None:
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message = GnuTLS.strerror(code)
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return super(GnuTLS.Error, self).__init__(
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class CertificateSecurityError(Error):
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class Credentials(object):
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self._c_object = gnutls.certificate_credentials_t()
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gnutls.certificate_allocate_credentials(
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ctypes.byref(self._c_object))
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self.type = gnutls.CRD_CERTIFICATE
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gnutls.certificate_free_credentials(self._c_object)
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class ClientSession(object):
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def __init__(self, socket, credentials=None):
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self._c_object = gnutls.session_t()
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gnutls_flags = gnutls.CLIENT
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if gnutls.check_version("3.5.6"):
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gnutls_flags |= gnutls.NO_TICKETS
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gnutls_flags |= gnutls.ENABLE_RAWPK
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gnutls.init(ctypes.byref(self._c_object), gnutls_flags)
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gnutls.set_default_priority(self._c_object)
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gnutls.transport_set_ptr(self._c_object, socket.fileno())
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gnutls.handshake_set_private_extensions(self._c_object,
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if credentials is None:
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credentials = gnutls.Credentials()
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gnutls.credentials_set(self._c_object, credentials.type,
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ctypes.cast(credentials._c_object,
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self.credentials = credentials
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gnutls.deinit(self._c_object)
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return gnutls.handshake(self._c_object)
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def send(self, data):
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data_len -= gnutls.record_send(self._c_object,
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return gnutls.bye(self._c_object, gnutls.SHUT_RDWR)
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# Error handling functions
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def _error_code(result):
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"""A function to raise exceptions on errors, suitable
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for the 'restype' attribute on ctypes functions"""
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if result == gnutls.E_NO_CERTIFICATE_FOUND:
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raise gnutls.CertificateSecurityError(code=result)
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raise gnutls.Error(code=result)
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def _retry_on_error(result, func, arguments):
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"""A function to retry on some errors, suitable
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for the 'errcheck' attribute on ctypes functions"""
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if result not in (gnutls.E_INTERRUPTED, gnutls.E_AGAIN):
654
return _error_code(result)
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result = func(*arguments)
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# Unless otherwise indicated, the function declarations below are
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# all from the gnutls/gnutls.h C header file.
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priority_set_direct = _library.gnutls_priority_set_direct
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priority_set_direct.argtypes = [session_t, ctypes.c_char_p,
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ctypes.POINTER(ctypes.c_char_p)]
665
priority_set_direct.restype = _error_code
667
init = _library.gnutls_init
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init.argtypes = [ctypes.POINTER(session_t), ctypes.c_int]
669
init.restype = _error_code
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set_default_priority = _library.gnutls_set_default_priority
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set_default_priority.argtypes = [session_t]
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set_default_priority.restype = _error_code
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record_send = _library.gnutls_record_send
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record_send.argtypes = [session_t, ctypes.c_void_p,
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record_send.restype = ctypes.c_ssize_t
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record_send.errcheck = _retry_on_error
681
certificate_allocate_credentials = (
682
_library.gnutls_certificate_allocate_credentials)
683
certificate_allocate_credentials.argtypes = [
684
ctypes.POINTER(certificate_credentials_t)]
685
certificate_allocate_credentials.restype = _error_code
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certificate_free_credentials = (
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_library.gnutls_certificate_free_credentials)
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certificate_free_credentials.argtypes = [
690
certificate_credentials_t]
691
certificate_free_credentials.restype = None
693
handshake_set_private_extensions = (
694
_library.gnutls_handshake_set_private_extensions)
695
handshake_set_private_extensions.argtypes = [session_t,
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handshake_set_private_extensions.restype = None
699
credentials_set = _library.gnutls_credentials_set
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credentials_set.argtypes = [session_t, credentials_type_t,
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credentials_set.restype = _error_code
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strerror = _library.gnutls_strerror
705
strerror.argtypes = [ctypes.c_int]
706
strerror.restype = ctypes.c_char_p
708
certificate_type_get = _library.gnutls_certificate_type_get
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certificate_type_get.argtypes = [session_t]
710
certificate_type_get.restype = _error_code
712
certificate_get_peers = _library.gnutls_certificate_get_peers
713
certificate_get_peers.argtypes = [session_t,
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ctypes.POINTER(ctypes.c_uint)]
715
certificate_get_peers.restype = ctypes.POINTER(datum_t)
717
global_set_log_level = _library.gnutls_global_set_log_level
718
global_set_log_level.argtypes = [ctypes.c_int]
719
global_set_log_level.restype = None
721
global_set_log_function = _library.gnutls_global_set_log_function
722
global_set_log_function.argtypes = [log_func]
723
global_set_log_function.restype = None
725
deinit = _library.gnutls_deinit
726
deinit.argtypes = [session_t]
727
deinit.restype = None
729
handshake = _library.gnutls_handshake
730
handshake.argtypes = [session_t]
731
handshake.restype = _error_code
732
handshake.errcheck = _retry_on_error
734
transport_set_ptr = _library.gnutls_transport_set_ptr
735
transport_set_ptr.argtypes = [session_t, transport_ptr_t]
736
transport_set_ptr.restype = None
738
bye = _library.gnutls_bye
739
bye.argtypes = [session_t, close_request_t]
740
bye.restype = _error_code
741
bye.errcheck = _retry_on_error
743
check_version = _library.gnutls_check_version
744
check_version.argtypes = [ctypes.c_char_p]
745
check_version.restype = ctypes.c_char_p
747
has_rawpk = bool(check_version(_tls_rawpk_version))
751
class pubkey_st(ctypes.Structure):
753
pubkey_t = ctypes.POINTER(pubkey_st)
755
x509_crt_fmt_t = ctypes.c_int
757
# All the function declarations below are from gnutls/abstract.h
758
pubkey_init = _library.gnutls_pubkey_init
759
pubkey_init.argtypes = [ctypes.POINTER(pubkey_t)]
760
pubkey_init.restype = _error_code
762
pubkey_import = _library.gnutls_pubkey_import
763
pubkey_import.argtypes = [pubkey_t, ctypes.POINTER(datum_t),
765
pubkey_import.restype = _error_code
767
pubkey_get_key_id = _library.gnutls_pubkey_get_key_id
768
pubkey_get_key_id.argtypes = [pubkey_t, ctypes.c_int,
769
ctypes.POINTER(ctypes.c_ubyte),
770
ctypes.POINTER(ctypes.c_size_t)]
771
pubkey_get_key_id.restype = _error_code
773
pubkey_deinit = _library.gnutls_pubkey_deinit
774
pubkey_deinit.argtypes = [pubkey_t]
775
pubkey_deinit.restype = None
777
# All the function declarations below are from gnutls/openpgp.h
779
openpgp_crt_init = _library.gnutls_openpgp_crt_init
780
openpgp_crt_init.argtypes = [ctypes.POINTER(openpgp_crt_t)]
781
openpgp_crt_init.restype = _error_code
783
openpgp_crt_import = _library.gnutls_openpgp_crt_import
784
openpgp_crt_import.argtypes = [openpgp_crt_t,
785
ctypes.POINTER(datum_t),
787
openpgp_crt_import.restype = _error_code
789
openpgp_crt_verify_self = _library.gnutls_openpgp_crt_verify_self
790
openpgp_crt_verify_self.argtypes = [openpgp_crt_t, ctypes.c_uint,
791
ctypes.POINTER(ctypes.c_uint)]
792
openpgp_crt_verify_self.restype = _error_code
794
openpgp_crt_deinit = _library.gnutls_openpgp_crt_deinit
795
openpgp_crt_deinit.argtypes = [openpgp_crt_t]
796
openpgp_crt_deinit.restype = None
798
openpgp_crt_get_fingerprint = (
799
_library.gnutls_openpgp_crt_get_fingerprint)
800
openpgp_crt_get_fingerprint.argtypes = [openpgp_crt_t,
804
openpgp_crt_get_fingerprint.restype = _error_code
806
if check_version("3.6.4"):
807
certificate_type_get2 = _library.gnutls_certificate_type_get2
808
certificate_type_get2.argtypes = [session_t, ctypes.c_int]
809
certificate_type_get2.restype = _error_code
811
# Remove non-public functions
812
del _error_code, _retry_on_error
813
# Create the global "gnutls" object, simulating a module
817
def call_pipe(connection, # : multiprocessing.Connection
818
func, *args, **kwargs):
819
"""This function is meant to be called by multiprocessing.Process
821
This function runs func(*args, **kwargs), and writes the resulting
822
return value on the provided multiprocessing.Connection.
824
connection.send(func(*args, **kwargs))
394
def timedelta_to_milliseconds(td):
395
"Convert a datetime.timedelta() to milliseconds"
396
return ((td.days * 24 * 60 * 60 * 1000)
397
+ (td.seconds * 1000)
398
+ (td.microseconds // 1000))
828
401
class Client(object):
829
402
"""A representation of a client host served by this server.
832
405
approved: bool(); 'None' if not yet approved/disapproved
833
406
approval_delay: datetime.timedelta(); Time to wait for approval
1013
590
logger.info("Disabling client %s", self.name)
1014
591
if getattr(self, "disable_initiator_tag", None) is not None:
1015
GLib.source_remove(self.disable_initiator_tag)
592
gobject.source_remove(self.disable_initiator_tag)
1016
593
self.disable_initiator_tag = None
1017
594
self.expires = None
1018
595
if getattr(self, "checker_initiator_tag", None) is not None:
1019
GLib.source_remove(self.checker_initiator_tag)
596
gobject.source_remove(self.checker_initiator_tag)
1020
597
self.checker_initiator_tag = None
1021
598
self.stop_checker()
1022
599
self.enabled = False
1024
601
self.send_changedstate()
1025
# Do not run this again if called by a GLib.timeout_add
602
# Do not run this again if called by a gobject.timeout_add
1028
605
def __del__(self):
1031
608
def init_checker(self):
1032
609
# Schedule a new checker to be started an 'interval' from now,
1033
610
# and every interval from then on.
1034
611
if self.checker_initiator_tag is not None:
1035
GLib.source_remove(self.checker_initiator_tag)
1036
self.checker_initiator_tag = GLib.timeout_add(
1037
int(self.interval.total_seconds() * 1000),
612
gobject.source_remove(self.checker_initiator_tag)
613
self.checker_initiator_tag = (gobject.timeout_add
614
(self.interval_milliseconds(),
1039
616
# Schedule a disable() when 'timeout' has passed
1040
617
if self.disable_initiator_tag is not None:
1041
GLib.source_remove(self.disable_initiator_tag)
1042
self.disable_initiator_tag = GLib.timeout_add(
1043
int(self.timeout.total_seconds() * 1000), self.disable)
618
gobject.source_remove(self.disable_initiator_tag)
619
self.disable_initiator_tag = (gobject.timeout_add
620
(self.timeout_milliseconds(),
1044
622
# Also start a new checker *right now*.
1045
623
self.start_checker()
1047
def checker_callback(self, source, condition, connection,
625
def checker_callback(self, pid, condition, command):
1049
626
"""The checker has completed, so take appropriate actions."""
1050
627
self.checker_callback_tag = None
1051
628
self.checker = None
1052
# Read return code from connection (see call_pipe)
1053
returncode = connection.recv()
1057
self.last_checker_status = returncode
1058
self.last_checker_signal = None
629
if os.WIFEXITED(condition):
630
self.last_checker_status = os.WEXITSTATUS(condition)
1059
631
if self.last_checker_status == 0:
1060
632
logger.info("Checker for %(name)s succeeded",
1062
634
self.checked_ok()
1064
logger.info("Checker for %(name)s failed", vars(self))
636
logger.info("Checker for %(name)s failed",
1066
639
self.last_checker_status = -1
1067
self.last_checker_signal = -returncode
1068
640
logger.warning("Checker for %(name)s crashed?",
1072
643
def checked_ok(self):
1073
644
"""Assert that the client has been seen, alive and well."""
1074
645
self.last_checked_ok = datetime.datetime.utcnow()
1075
646
self.last_checker_status = 0
1076
self.last_checker_signal = None
1077
647
self.bump_timeout()
1079
649
def bump_timeout(self, timeout=None):
1080
650
"""Bump up the timeout for this client."""
1081
651
if timeout is None:
1082
652
timeout = self.timeout
1083
653
if self.disable_initiator_tag is not None:
1084
GLib.source_remove(self.disable_initiator_tag)
654
gobject.source_remove(self.disable_initiator_tag)
1085
655
self.disable_initiator_tag = None
1086
656
if getattr(self, "enabled", False):
1087
self.disable_initiator_tag = GLib.timeout_add(
1088
int(timeout.total_seconds() * 1000), self.disable)
657
self.disable_initiator_tag = (gobject.timeout_add
658
(timedelta_to_milliseconds
659
(timeout), self.disable))
1089
660
self.expires = datetime.datetime.utcnow() + timeout
1091
662
def need_approval(self):
1092
663
self.last_approval_request = datetime.datetime.utcnow()
1094
665
def start_checker(self):
1095
666
"""Start a new checker subprocess if one is not running.
1097
668
If a checker already exists, leave it running and do
1099
670
# The reason for not killing a running checker is that if we
1104
675
# checkers alone, the checker would have to take more time
1105
676
# than 'timeout' for the client to be disabled, which is as it
1108
if self.checker is not None and not self.checker.is_alive():
1109
logger.warning("Checker was not alive; joining")
679
# If a checker exists, make sure it is not a zombie
681
pid, status = os.waitpid(self.checker.pid, os.WNOHANG)
682
except (AttributeError, OSError) as error:
683
if (isinstance(error, OSError)
684
and error.errno != errno.ECHILD):
688
logger.warning("Checker was a zombie")
689
gobject.source_remove(self.checker_callback_tag)
690
self.checker_callback(pid, status,
691
self.current_checker_command)
1112
692
# Start a new checker if needed
1113
693
if self.checker is None:
1114
694
# Escape attributes for the shell
1116
attr: re.escape(str(getattr(self, attr)))
1117
for attr in self.runtime_expansions}
695
escaped_attrs = dict(
696
(attr, re.escape(unicode(getattr(self, attr))))
698
self.runtime_expansions)
1119
700
command = self.checker_command % escaped_attrs
1120
701
except TypeError as error:
1121
702
logger.error('Could not format string "%s"',
1122
self.checker_command,
703
self.checker_command, exc_info=error)
704
return True # Try again later
705
self.current_checker_command = command
707
logger.info("Starting checker %r for %s",
709
# We don't need to redirect stdout and stderr, since
710
# in normal mode, that is already done by daemon(),
711
# and in debug mode we don't want to. (Stdin is
712
# always replaced by /dev/null.)
713
self.checker = subprocess.Popen(command,
716
except OSError as error:
717
logger.error("Failed to start subprocess",
1124
return True # Try again later
1125
self.current_checker_command = command
1126
logger.info("Starting checker %r for %s", command,
1128
# We don't need to redirect stdout and stderr, since
1129
# in normal mode, that is already done by daemon(),
1130
# and in debug mode we don't want to. (Stdin is
1131
# always replaced by /dev/null.)
1132
# The exception is when not debugging but nevertheless
1133
# running in the foreground; use the previously
1135
popen_args = {"close_fds": True,
1138
if (not self.server_settings["debug"]
1139
and self.server_settings["foreground"]):
1140
popen_args.update({"stdout": wnull,
1142
pipe = multiprocessing.Pipe(duplex=False)
1143
self.checker = multiprocessing.Process(
1145
args=(pipe[1], subprocess.call, command),
1147
self.checker.start()
1148
self.checker_callback_tag = GLib.io_add_watch(
1149
pipe[0].fileno(), GLib.IO_IN,
1150
self.checker_callback, pipe[0], command)
1151
# Re-run this periodically if run by GLib.timeout_add
719
self.checker_callback_tag = (gobject.child_watch_add
721
self.checker_callback,
723
# The checker may have completed before the gobject
724
# watch was added. Check for this.
725
pid, status = os.waitpid(self.checker.pid, os.WNOHANG)
727
gobject.source_remove(self.checker_callback_tag)
728
self.checker_callback(pid, status, command)
729
# Re-run this periodically if run by gobject.timeout_add
1154
732
def stop_checker(self):
1155
733
"""Force the checker process, if any, to stop."""
1156
734
if self.checker_callback_tag:
1157
GLib.source_remove(self.checker_callback_tag)
735
gobject.source_remove(self.checker_callback_tag)
1158
736
self.checker_callback_tag = None
1159
737
if getattr(self, "checker", None) is None:
1161
739
logger.debug("Stopping checker for %(name)s", vars(self))
1162
self.checker.terminate()
741
self.checker.terminate()
743
#if self.checker.poll() is None:
744
# self.checker.kill()
745
except OSError as error:
746
if error.errno != errno.ESRCH: # No such process
1163
748
self.checker = None
1166
def dbus_service_property(dbus_interface,
751
def dbus_service_property(dbus_interface, signature="v",
752
access="readwrite", byte_arrays=False):
1170
753
"""Decorators for marking methods of a DBusObjectWithProperties to
1171
754
become properties on the D-Bus.
1173
756
The decorated method will be called with no arguments by "Get"
1174
757
and with one argument by "Set".
1176
759
The parameters, where they are supported, are the same as
1177
760
dbus.service.method, except there is only "signature", since the
1178
761
type from Get() and the type sent to Set() is the same.
1261
class DBusObjectWithAnnotations(dbus.service.Object):
1262
"""A D-Bus object with annotations.
1264
Classes inheriting from this can use the dbus_annotations
1265
decorator to add annotations to methods or signals.
837
class DBusObjectWithProperties(dbus.service.Object):
838
"""A D-Bus object with properties.
840
Classes inheriting from this can use the dbus_service_property
841
decorator to expose methods as D-Bus properties. It exposes the
842
standard Get(), Set(), and GetAll() methods on the D-Bus.
1269
846
def _is_dbus_thing(thing):
1270
847
"""Returns a function testing if an attribute is a D-Bus thing
1272
849
If called like _is_dbus_thing("method") it returns a function
1273
850
suitable for use as predicate to inspect.getmembers().
1275
return lambda obj: getattr(obj, "_dbus_is_{}".format(thing),
852
return lambda obj: getattr(obj, "_dbus_is_{0}".format(thing),
1278
855
def _get_all_dbus_things(self, thing):
1279
856
"""Returns a generator of (name, attribute) pairs
1281
return ((getattr(athing.__get__(self), "_dbus_name", name),
858
return ((getattr(athing.__get__(self), "_dbus_name",
1282
860
athing.__get__(self))
1283
861
for cls in self.__class__.__mro__
1284
862
for name, athing in
1285
inspect.getmembers(cls, self._is_dbus_thing(thing)))
1287
@dbus.service.method(dbus.INTROSPECTABLE_IFACE,
1289
path_keyword='object_path',
1290
connection_keyword='connection')
1291
def Introspect(self, object_path, connection):
1292
"""Overloading of standard D-Bus method.
1294
Inserts annotation tags on methods and signals.
1296
xmlstring = dbus.service.Object.Introspect(self, object_path,
1299
document = xml.dom.minidom.parseString(xmlstring)
1301
for if_tag in document.getElementsByTagName("interface"):
1302
# Add annotation tags
1303
for typ in ("method", "signal"):
1304
for tag in if_tag.getElementsByTagName(typ):
1306
for name, prop in (self.
1307
_get_all_dbus_things(typ)):
1308
if (name == tag.getAttribute("name")
1309
and prop._dbus_interface
1310
== if_tag.getAttribute("name")):
1311
annots.update(getattr(
1312
prop, "_dbus_annotations", {}))
1313
for name, value in annots.items():
1314
ann_tag = document.createElement(
1316
ann_tag.setAttribute("name", name)
1317
ann_tag.setAttribute("value", value)
1318
tag.appendChild(ann_tag)
1319
# Add interface annotation tags
1320
for annotation, value in dict(
1321
itertools.chain.from_iterable(
1322
annotations().items()
1323
for name, annotations
1324
in self._get_all_dbus_things("interface")
1325
if name == if_tag.getAttribute("name")
1327
ann_tag = document.createElement("annotation")
1328
ann_tag.setAttribute("name", annotation)
1329
ann_tag.setAttribute("value", value)
1330
if_tag.appendChild(ann_tag)
1331
# Fix argument name for the Introspect method itself
1332
if (if_tag.getAttribute("name")
1333
== dbus.INTROSPECTABLE_IFACE):
1334
for cn in if_tag.getElementsByTagName("method"):
1335
if cn.getAttribute("name") == "Introspect":
1336
for arg in cn.getElementsByTagName("arg"):
1337
if (arg.getAttribute("direction")
1339
arg.setAttribute("name",
1341
xmlstring = document.toxml("utf-8")
1343
except (AttributeError, xml.dom.DOMException,
1344
xml.parsers.expat.ExpatError) as error:
1345
logger.error("Failed to override Introspection method",
1350
class DBusObjectWithProperties(DBusObjectWithAnnotations):
1351
"""A D-Bus object with properties.
1353
Classes inheriting from this can use the dbus_service_property
1354
decorator to expose methods as D-Bus properties. It exposes the
1355
standard Get(), Set(), and GetAll() methods on the D-Bus.
863
inspect.getmembers(cls,
864
self._is_dbus_thing(thing)))
1358
866
def _get_dbus_property(self, interface_name, property_name):
1359
867
"""Returns a bound method if one exists which is a D-Bus
1360
868
property with the specified name and interface.
1362
for cls in self.__class__.__mro__:
1363
for name, value in inspect.getmembers(
1364
cls, self._is_dbus_thing("property")):
870
for cls in self.__class__.__mro__:
871
for name, value in (inspect.getmembers
873
self._is_dbus_thing("property"))):
1365
874
if (value._dbus_name == property_name
1366
875
and value._dbus_interface == interface_name):
1367
876
return value.__get__(self)
1369
878
# No such property
1370
raise DBusPropertyNotFound("{}:{}.{}".format(
1371
self.dbus_object_path, interface_name, property_name))
1374
def _get_all_interface_names(cls):
1375
"""Get a sequence of all interfaces supported by an object"""
1376
return (name for name in set(getattr(getattr(x, attr),
1377
"_dbus_interface", None)
1378
for x in (inspect.getmro(cls))
1380
if name is not None)
1382
@dbus.service.method(dbus.PROPERTIES_IFACE,
879
raise DBusPropertyNotFound(self.dbus_object_path + ":"
880
+ interface_name + "."
883
@dbus.service.method(dbus.PROPERTIES_IFACE, in_signature="ss",
1384
884
out_signature="v")
1385
885
def Get(self, interface_name, property_name):
1386
886
"""Standard D-Bus property Get() method, see D-Bus standard.
1515
1016
return xmlstring
1519
dbus.OBJECT_MANAGER_IFACE
1520
except AttributeError:
1521
dbus.OBJECT_MANAGER_IFACE = "org.freedesktop.DBus.ObjectManager"
1524
class DBusObjectWithObjectManager(DBusObjectWithAnnotations):
1525
"""A D-Bus object with an ObjectManager.
1527
Classes inheriting from this exposes the standard
1528
GetManagedObjects call and the InterfacesAdded and
1529
InterfacesRemoved signals on the standard
1530
"org.freedesktop.DBus.ObjectManager" interface.
1532
Note: No signals are sent automatically; they must be sent
1535
@dbus.service.method(dbus.OBJECT_MANAGER_IFACE,
1536
out_signature="a{oa{sa{sv}}}")
1537
def GetManagedObjects(self):
1538
"""This function must be overridden"""
1539
raise NotImplementedError()
1541
@dbus.service.signal(dbus.OBJECT_MANAGER_IFACE,
1542
signature="oa{sa{sv}}")
1543
def InterfacesAdded(self, object_path, interfaces_and_properties):
1546
@dbus.service.signal(dbus.OBJECT_MANAGER_IFACE, signature="oas")
1547
def InterfacesRemoved(self, object_path, interfaces):
1550
@dbus.service.method(dbus.INTROSPECTABLE_IFACE,
1552
path_keyword='object_path',
1553
connection_keyword='connection')
1554
def Introspect(self, object_path, connection):
1555
"""Overloading of standard D-Bus method.
1557
Override return argument name of GetManagedObjects to be
1558
"objpath_interfaces_and_properties"
1560
xmlstring = DBusObjectWithAnnotations.Introspect(self,
1564
document = xml.dom.minidom.parseString(xmlstring)
1566
for if_tag in document.getElementsByTagName("interface"):
1567
# Fix argument name for the GetManagedObjects method
1568
if (if_tag.getAttribute("name")
1569
== dbus.OBJECT_MANAGER_IFACE):
1570
for cn in if_tag.getElementsByTagName("method"):
1571
if (cn.getAttribute("name")
1572
== "GetManagedObjects"):
1573
for arg in cn.getElementsByTagName("arg"):
1574
if (arg.getAttribute("direction")
1578
"objpath_interfaces"
1580
xmlstring = document.toxml("utf-8")
1582
except (AttributeError, xml.dom.DOMException,
1583
xml.parsers.expat.ExpatError) as error:
1584
logger.error("Failed to override Introspection method",
1589
def datetime_to_dbus(dt, variant_level=0):
1019
def datetime_to_dbus (dt, variant_level=0):
1590
1020
"""Convert a UTC datetime.datetime() to a D-Bus type."""
1592
return dbus.String("", variant_level=variant_level)
1593
return dbus.String(dt.isoformat(), variant_level=variant_level)
1022
return dbus.String("", variant_level = variant_level)
1023
return dbus.String(dt.isoformat(),
1024
variant_level=variant_level)
1596
1027
def alternate_dbus_interfaces(alt_interface_names, deprecate=True):
1627
1057
# Ignore non-D-Bus attributes, and D-Bus attributes
1628
1058
# with the wrong interface name
1629
1059
if (not hasattr(attribute, "_dbus_interface")
1630
or not attribute._dbus_interface.startswith(
1631
orig_interface_name)):
1060
or not attribute._dbus_interface
1061
.startswith(orig_interface_name)):
1633
1063
# Create an alternate D-Bus interface name based on
1634
1064
# the current name
1635
alt_interface = attribute._dbus_interface.replace(
1636
orig_interface_name, alt_interface_name)
1065
alt_interface = (attribute._dbus_interface
1066
.replace(orig_interface_name,
1067
alt_interface_name))
1637
1068
interface_names.add(alt_interface)
1638
1069
# Is this a D-Bus signal?
1639
1070
if getattr(attribute, "_dbus_is_signal", False):
1640
# Extract the original non-method undecorated
1641
# function by black magic
1642
if sys.version_info.major == 2:
1643
nonmethod_func = (dict(
1071
# Extract the original non-method function by
1073
nonmethod_func = (dict(
1644
1074
zip(attribute.func_code.co_freevars,
1645
attribute.__closure__))
1646
["func"].cell_contents)
1648
nonmethod_func = (dict(
1649
zip(attribute.__code__.co_freevars,
1650
attribute.__closure__))
1651
["func"].cell_contents)
1075
attribute.__closure__))["func"]
1652
1077
# Create a new, but exactly alike, function
1653
1078
# object, and decorate it to be a new D-Bus signal
1654
1079
# with the alternate D-Bus interface name
1655
new_function = copy_function(nonmethod_func)
1656
new_function = (dbus.service.signal(
1658
attribute._dbus_signature)(new_function))
1080
new_function = (dbus.service.signal
1082
attribute._dbus_signature)
1083
(types.FunctionType(
1084
nonmethod_func.func_code,
1085
nonmethod_func.func_globals,
1086
nonmethod_func.func_name,
1087
nonmethod_func.func_defaults,
1088
nonmethod_func.func_closure)))
1659
1089
# Copy annotations, if any
1661
new_function._dbus_annotations = dict(
1662
attribute._dbus_annotations)
1091
new_function._dbus_annotations = (
1092
dict(attribute._dbus_annotations))
1663
1093
except AttributeError:
1666
1095
# Define a creator of a function to call both the
1667
1096
# original and alternate functions, so both the
1668
1097
# original and alternate signals gets sent when
1957
1380
server to mandos-client
1961
1384
# Rejected - signal
1962
1385
@dbus.service.signal(_interface, signature="s")
1963
1386
def Rejected(self, reason):
1967
1390
# NeedApproval - signal
1968
1391
@dbus.service.signal(_interface, signature="tb")
1969
1392
def NeedApproval(self, timeout, default):
1971
1394
return self.need_approval()
1975
1398
# Approve - method
1976
1399
@dbus.service.method(_interface, in_signature="b")
1977
1400
def Approve(self, value):
1978
1401
self.approve(value)
1980
1403
# CheckedOK - method
1981
1404
@dbus.service.method(_interface)
1982
1405
def CheckedOK(self):
1983
1406
self.checked_ok()
1985
1408
# Enable - method
1986
@dbus_annotations({"org.freedesktop.DBus.Deprecated": "true"})
1987
1409
@dbus.service.method(_interface)
1988
1410
def Enable(self):
1992
1414
# StartChecker - method
1993
@dbus_annotations({"org.freedesktop.DBus.Deprecated": "true"})
1994
1415
@dbus.service.method(_interface)
1995
1416
def StartChecker(self):
1997
1418
self.start_checker()
1999
1420
# Disable - method
2000
@dbus_annotations({"org.freedesktop.DBus.Deprecated": "true"})
2001
1421
@dbus.service.method(_interface)
2002
1422
def Disable(self):
2006
1426
# StopChecker - method
2007
@dbus_annotations({"org.freedesktop.DBus.Deprecated": "true"})
2008
1427
@dbus.service.method(_interface)
2009
1428
def StopChecker(self):
2010
1429
self.stop_checker()
2014
1433
# ApprovalPending - property
2015
1434
@dbus_service_property(_interface, signature="b", access="read")
2016
1435
def ApprovalPending_dbus_property(self):
2017
1436
return dbus.Boolean(bool(self.approvals_pending))
2019
1438
# ApprovedByDefault - property
2020
@dbus_service_property(_interface,
1439
@dbus_service_property(_interface, signature="b",
2022
1440
access="readwrite")
2023
1441
def ApprovedByDefault_dbus_property(self, value=None):
2024
1442
if value is None: # get
2025
1443
return dbus.Boolean(self.approved_by_default)
2026
1444
self.approved_by_default = bool(value)
2028
1446
# ApprovalDelay - property
2029
@dbus_service_property(_interface,
1447
@dbus_service_property(_interface, signature="t",
2031
1448
access="readwrite")
2032
1449
def ApprovalDelay_dbus_property(self, value=None):
2033
1450
if value is None: # get
2034
return dbus.UInt64(self.approval_delay.total_seconds()
1451
return dbus.UInt64(self.approval_delay_milliseconds())
2036
1452
self.approval_delay = datetime.timedelta(0, 0, 0, value)
2038
1454
# ApprovalDuration - property
2039
@dbus_service_property(_interface,
1455
@dbus_service_property(_interface, signature="t",
2041
1456
access="readwrite")
2042
1457
def ApprovalDuration_dbus_property(self, value=None):
2043
1458
if value is None: # get
2044
return dbus.UInt64(self.approval_duration.total_seconds()
1459
return dbus.UInt64(timedelta_to_milliseconds(
1460
self.approval_duration))
2046
1461
self.approval_duration = datetime.timedelta(0, 0, 0, value)
2048
1463
# Name - property
2050
{"org.freedesktop.DBus.Property.EmitsChangedSignal": "const"})
2051
1464
@dbus_service_property(_interface, signature="s", access="read")
2052
1465
def Name_dbus_property(self):
2053
1466
return dbus.String(self.name)
2057
{"org.freedesktop.DBus.Property.EmitsChangedSignal": "const"})
2058
@dbus_service_property(_interface, signature="s", access="read")
2059
def KeyID_dbus_property(self):
2060
return dbus.String(self.key_id)
2062
1468
# Fingerprint - property
2064
{"org.freedesktop.DBus.Property.EmitsChangedSignal": "const"})
2065
1469
@dbus_service_property(_interface, signature="s", access="read")
2066
1470
def Fingerprint_dbus_property(self):
2067
1471
return dbus.String(self.fingerprint)
2069
1473
# Host - property
2070
@dbus_service_property(_interface,
1474
@dbus_service_property(_interface, signature="s",
2072
1475
access="readwrite")
2073
1476
def Host_dbus_property(self, value=None):
2074
1477
if value is None: # get
2075
1478
return dbus.String(self.host)
2076
self.host = str(value)
1479
self.host = unicode(value)
2078
1481
# Created - property
2080
{"org.freedesktop.DBus.Property.EmitsChangedSignal": "const"})
2081
1482
@dbus_service_property(_interface, signature="s", access="read")
2082
1483
def Created_dbus_property(self):
2083
1484
return datetime_to_dbus(self.created)
2085
1486
# LastEnabled - property
2086
1487
@dbus_service_property(_interface, signature="s", access="read")
2087
1488
def LastEnabled_dbus_property(self):
2088
1489
return datetime_to_dbus(self.last_enabled)
2090
1491
# Enabled - property
2091
@dbus_service_property(_interface,
1492
@dbus_service_property(_interface, signature="b",
2093
1493
access="readwrite")
2094
1494
def Enabled_dbus_property(self, value=None):
2095
1495
if value is None: # get
2144
1543
if (getattr(self, "disable_initiator_tag", None)
2147
GLib.source_remove(self.disable_initiator_tag)
2148
self.disable_initiator_tag = GLib.timeout_add(
2149
int((self.expires - now).total_seconds() * 1000),
1546
gobject.source_remove(self.disable_initiator_tag)
1547
self.disable_initiator_tag = (
1548
gobject.timeout_add(
1549
timedelta_to_milliseconds(self.expires - now),
2152
1552
# ExtendedTimeout - property
2153
@dbus_service_property(_interface,
1553
@dbus_service_property(_interface, signature="t",
2155
1554
access="readwrite")
2156
1555
def ExtendedTimeout_dbus_property(self, value=None):
2157
1556
if value is None: # get
2158
return dbus.UInt64(self.extended_timeout.total_seconds()
1557
return dbus.UInt64(self.extended_timeout_milliseconds())
2160
1558
self.extended_timeout = datetime.timedelta(0, 0, 0, value)
2162
1560
# Interval - property
2163
@dbus_service_property(_interface,
1561
@dbus_service_property(_interface, signature="t",
2165
1562
access="readwrite")
2166
1563
def Interval_dbus_property(self, value=None):
2167
1564
if value is None: # get
2168
return dbus.UInt64(self.interval.total_seconds() * 1000)
1565
return dbus.UInt64(self.interval_milliseconds())
2169
1566
self.interval = datetime.timedelta(0, 0, 0, value)
2170
1567
if getattr(self, "checker_initiator_tag", None) is None:
2172
1569
if self.enabled:
2173
1570
# Reschedule checker run
2174
GLib.source_remove(self.checker_initiator_tag)
2175
self.checker_initiator_tag = GLib.timeout_add(
2176
value, self.start_checker)
2177
self.start_checker() # Start one now, too
1571
gobject.source_remove(self.checker_initiator_tag)
1572
self.checker_initiator_tag = (gobject.timeout_add
1573
(value, self.start_checker))
1574
self.start_checker() # Start one now, too
2179
1576
# Checker - property
2180
@dbus_service_property(_interface,
1577
@dbus_service_property(_interface, signature="s",
2182
1578
access="readwrite")
2183
1579
def Checker_dbus_property(self, value=None):
2184
1580
if value is None: # get
2185
1581
return dbus.String(self.checker_command)
2186
self.checker_command = str(value)
1582
self.checker_command = unicode(value)
2188
1584
# CheckerRunning - property
2189
@dbus_service_property(_interface,
1585
@dbus_service_property(_interface, signature="b",
2191
1586
access="readwrite")
2192
1587
def CheckerRunning_dbus_property(self, value=None):
2193
1588
if value is None: # get
2250
1635
class ClientHandler(socketserver.BaseRequestHandler, object):
2251
1636
"""A class to handle client connections.
2253
1638
Instantiated once for each connection to handle it.
2254
1639
Note: This will run in its own forked process."""
2256
1641
def handle(self):
2257
1642
with contextlib.closing(self.server.child_pipe) as child_pipe:
2258
1643
logger.info("TCP connection from: %s",
2259
str(self.client_address))
1644
unicode(self.client_address))
2260
1645
logger.debug("Pipe FD: %d",
2261
1646
self.server.child_pipe.fileno())
2263
session = gnutls.ClientSession(self.request)
2265
# priority = ':'.join(("NONE", "+VERS-TLS1.1",
2266
# "+AES-256-CBC", "+SHA1",
2267
# "+COMP-NULL", "+CTYPE-OPENPGP",
1648
session = (gnutls.connection
1649
.ClientSession(self.request,
1651
.X509Credentials()))
1653
# Note: gnutls.connection.X509Credentials is really a
1654
# generic GnuTLS certificate credentials object so long as
1655
# no X.509 keys are added to it. Therefore, we can use it
1656
# here despite using OpenPGP certificates.
1658
#priority = ':'.join(("NONE", "+VERS-TLS1.1",
1659
# "+AES-256-CBC", "+SHA1",
1660
# "+COMP-NULL", "+CTYPE-OPENPGP",
2269
1662
# Use a fallback default, since this MUST be set.
2270
1663
priority = self.server.gnutls_priority
2271
1664
if priority is None:
2272
1665
priority = "NORMAL"
2273
gnutls.priority_set_direct(session._c_object,
2274
priority.encode("utf-8"),
1666
(gnutls.library.functions
1667
.gnutls_priority_set_direct(session._c_object,
2277
1670
# Start communication using the Mandos protocol
2278
1671
# Get protocol number
2279
1672
line = self.request.makefile().readline()
2280
1673
logger.debug("Protocol version: %r", line)
2282
1675
if int(line.strip().split()[0]) > 1:
2283
raise RuntimeError(line)
2284
1677
except (ValueError, IndexError, RuntimeError) as error:
2285
1678
logger.error("Unknown protocol version: %s", error)
2288
1681
# Start GnuTLS connection
2290
1683
session.handshake()
2291
except gnutls.Error as error:
1684
except gnutls.errors.GNUTLSError as error:
2292
1685
logger.warning("Handshake failed: %s", error)
2293
1686
# Do not run session.bye() here: the session is not
2294
1687
# established. Just abandon the request.
2296
1689
logger.debug("Handshake succeeded")
2298
1691
approval_required = False
2300
if gnutls.has_rawpk:
2303
key_id = self.key_id(
2304
self.peer_certificate(session))
2305
except (TypeError, gnutls.Error) as error:
2306
logger.warning("Bad certificate: %s", error)
2308
logger.debug("Key ID: %s", key_id)
2313
fpr = self.fingerprint(
2314
self.peer_certificate(session))
2315
except (TypeError, gnutls.Error) as error:
2316
logger.warning("Bad certificate: %s", error)
2318
logger.debug("Fingerprint: %s", fpr)
2321
client = ProxyClient(child_pipe, key_id, fpr,
1694
fpr = self.fingerprint(self.peer_certificate
1697
gnutls.errors.GNUTLSError) as error:
1698
logger.warning("Bad certificate: %s", error)
1700
logger.debug("Fingerprint: %s", fpr)
1703
client = ProxyClient(child_pipe, fpr,
2322
1704
self.client_address)
2323
1705
except KeyError:
2326
1708
if client.approval_delay:
2327
1709
delay = client.approval_delay
2328
1710
client.approvals_pending += 1
2329
1711
approval_required = True
2332
1714
if not client.enabled:
2333
1715
logger.info("Client %s is disabled",
2335
1717
if self.server.use_dbus:
2336
1718
# Emit D-Bus signal
2337
1719
client.Rejected("Disabled")
2340
1722
if client.approved or not client.approval_delay:
2341
# We are approved or approval is disabled
1723
#We are approved or approval is disabled
2343
1725
elif client.approved is None:
2344
1726
logger.info("Client %s needs approval",
2377
1761
delay -= time2 - time
2380
session.send(client.secret)
2381
except gnutls.Error as error:
2382
logger.warning("gnutls send failed",
1764
while sent_size < len(client.secret):
1766
sent = session.send(client.secret[sent_size:])
1767
except gnutls.errors.GNUTLSError as error:
1768
logger.warning("gnutls send failed",
1771
logger.debug("Sent: %d, remaining: %d",
1772
sent, len(client.secret)
1773
- (sent_size + sent))
2386
1776
logger.info("Sending secret to %s", client.name)
2387
1777
# bump the timeout using extended_timeout
2388
1778
client.bump_timeout(client.extended_timeout)
2389
1779
if self.server.use_dbus:
2390
1780
# Emit D-Bus signal
2391
1781
client.GotSecret()
2394
1784
if approval_required:
2395
1785
client.approvals_pending -= 1
2398
except gnutls.Error as error:
1788
except gnutls.errors.GNUTLSError as error:
2399
1789
logger.warning("GnuTLS bye failed",
2400
1790
exc_info=error)
2403
1793
def peer_certificate(session):
2404
"Return the peer's certificate as a bytestring"
2406
cert_type = gnutls.certificate_type_get2(session._c_object,
2408
except AttributeError:
2409
cert_type = gnutls.certificate_type_get(session._c_object)
2410
if gnutls.has_rawpk:
2411
valid_cert_types = frozenset((gnutls.CRT_RAWPK,))
2413
valid_cert_types = frozenset((gnutls.CRT_OPENPGP,))
2414
# If not a valid certificate type...
2415
if cert_type not in valid_cert_types:
2416
logger.info("Cert type %r not in %r", cert_type,
2418
# ...return invalid data
1794
"Return the peer's OpenPGP certificate as a bytestring"
1795
# If not an OpenPGP certificate...
1796
if (gnutls.library.functions
1797
.gnutls_certificate_type_get(session._c_object)
1798
!= gnutls.library.constants.GNUTLS_CRT_OPENPGP):
1799
# ...do the normal thing
1800
return session.peer_certificate
2420
1801
list_size = ctypes.c_uint(1)
2421
cert_list = (gnutls.certificate_get_peers
1802
cert_list = (gnutls.library.functions
1803
.gnutls_certificate_get_peers
2422
1804
(session._c_object, ctypes.byref(list_size)))
2423
1805
if not bool(cert_list) and list_size.value != 0:
2424
raise gnutls.Error("error getting peer certificate")
1806
raise gnutls.errors.GNUTLSError("error getting peer"
2425
1808
if list_size.value == 0:
2427
1810
cert = cert_list[0]
2428
1811
return ctypes.string_at(cert.data, cert.size)
2431
def key_id(certificate):
2432
"Convert a certificate bytestring to a hexdigit key ID"
2433
# New GnuTLS "datum" with the public key
2434
datum = gnutls.datum_t(
2435
ctypes.cast(ctypes.c_char_p(certificate),
2436
ctypes.POINTER(ctypes.c_ubyte)),
2437
ctypes.c_uint(len(certificate)))
2438
# XXX all these need to be created in the gnutls "module"
2439
# New empty GnuTLS certificate
2440
pubkey = gnutls.pubkey_t()
2441
gnutls.pubkey_init(ctypes.byref(pubkey))
2442
# Import the raw public key into the certificate
2443
gnutls.pubkey_import(pubkey,
2444
ctypes.byref(datum),
2445
gnutls.X509_FMT_DER)
2446
# New buffer for the key ID
2447
buf = ctypes.create_string_buffer(32)
2448
buf_len = ctypes.c_size_t(len(buf))
2449
# Get the key ID from the raw public key into the buffer
2450
gnutls.pubkey_get_key_id(pubkey,
2451
gnutls.KEYID_USE_SHA256,
2452
ctypes.cast(ctypes.byref(buf),
2453
ctypes.POINTER(ctypes.c_ubyte)),
2454
ctypes.byref(buf_len))
2455
# Deinit the certificate
2456
gnutls.pubkey_deinit(pubkey)
2458
# Convert the buffer to a Python bytestring
2459
key_id = ctypes.string_at(buf, buf_len.value)
2460
# Convert the bytestring to hexadecimal notation
2461
hex_key_id = binascii.hexlify(key_id).upper()
2465
1814
def fingerprint(openpgp):
2466
1815
"Convert an OpenPGP bytestring to a hexdigit fingerprint"
2467
1816
# New GnuTLS "datum" with the OpenPGP public key
2468
datum = gnutls.datum_t(
2469
ctypes.cast(ctypes.c_char_p(openpgp),
2470
ctypes.POINTER(ctypes.c_ubyte)),
2471
ctypes.c_uint(len(openpgp)))
1817
datum = (gnutls.library.types
1818
.gnutls_datum_t(ctypes.cast(ctypes.c_char_p(openpgp),
1821
ctypes.c_uint(len(openpgp))))
2472
1822
# New empty GnuTLS certificate
2473
crt = gnutls.openpgp_crt_t()
2474
gnutls.openpgp_crt_init(ctypes.byref(crt))
1823
crt = gnutls.library.types.gnutls_openpgp_crt_t()
1824
(gnutls.library.functions
1825
.gnutls_openpgp_crt_init(ctypes.byref(crt)))
2475
1826
# Import the OpenPGP public key into the certificate
2476
gnutls.openpgp_crt_import(crt, ctypes.byref(datum),
2477
gnutls.OPENPGP_FMT_RAW)
1827
(gnutls.library.functions
1828
.gnutls_openpgp_crt_import(crt, ctypes.byref(datum),
1829
gnutls.library.constants
1830
.GNUTLS_OPENPGP_FMT_RAW))
2478
1831
# Verify the self signature in the key
2479
1832
crtverify = ctypes.c_uint()
2480
gnutls.openpgp_crt_verify_self(crt, 0,
2481
ctypes.byref(crtverify))
1833
(gnutls.library.functions
1834
.gnutls_openpgp_crt_verify_self(crt, 0,
1835
ctypes.byref(crtverify)))
2482
1836
if crtverify.value != 0:
2483
gnutls.openpgp_crt_deinit(crt)
2484
raise gnutls.CertificateSecurityError(code
1837
gnutls.library.functions.gnutls_openpgp_crt_deinit(crt)
1838
raise (gnutls.errors.CertificateSecurityError
2486
1840
# New buffer for the fingerprint
2487
1841
buf = ctypes.create_string_buffer(20)
2488
1842
buf_len = ctypes.c_size_t()
2489
1843
# Get the fingerprint from the certificate into the buffer
2490
gnutls.openpgp_crt_get_fingerprint(crt, ctypes.byref(buf),
2491
ctypes.byref(buf_len))
1844
(gnutls.library.functions
1845
.gnutls_openpgp_crt_get_fingerprint(crt, ctypes.byref(buf),
1846
ctypes.byref(buf_len)))
2492
1847
# Deinit the certificate
2493
gnutls.openpgp_crt_deinit(crt)
1848
gnutls.library.functions.gnutls_openpgp_crt_deinit(crt)
2494
1849
# Convert the buffer to a Python bytestring
2495
1850
fpr = ctypes.string_at(buf, buf_len.value)
2496
1851
# Convert the bytestring to hexadecimal notation
2501
1856
class MultiprocessingMixIn(object):
2502
1857
"""Like socketserver.ThreadingMixIn, but with multiprocessing"""
2504
1858
def sub_process_main(self, request, address):
2506
1860
self.finish_request(request, address)
2507
1861
except Exception:
2508
1862
self.handle_error(request, address)
2509
1863
self.close_request(request)
2511
1865
def process_request(self, request, address):
2512
1866
"""Start a new process to process the request."""
2513
proc = multiprocessing.Process(target=self.sub_process_main,
2514
args=(request, address))
1867
proc = multiprocessing.Process(target = self.sub_process_main,
1868
args = (request, address))
2519
1873
class MultiprocessingMixInWithPipe(MultiprocessingMixIn, object):
2520
1874
""" adds a pipe to the MixIn """
2522
1875
def process_request(self, request, client_address):
2523
1876
"""Overrides and wraps the original process_request().
2525
1878
This function creates a new pipe in self.pipe
2527
1880
parent_pipe, self.child_pipe = multiprocessing.Pipe()
2529
1882
proc = MultiprocessingMixIn.process_request(self, request,
2530
1883
client_address)
2531
1884
self.child_pipe.close()
2532
1885
self.add_pipe(parent_pipe, proc)
2534
1887
def add_pipe(self, parent_pipe, proc):
2535
1888
"""Dummy function; override as necessary"""
2536
raise NotImplementedError()
1889
raise NotImplementedError
2539
1892
class IPv6_TCPServer(MultiprocessingMixInWithPipe,
2540
1893
socketserver.TCPServer, object):
2541
1894
"""IPv6-capable TCP server. Accepts 'None' as address and/or port
2544
1897
enabled: Boolean; whether this server is activated yet
2545
1898
interface: None or a network interface name (string)
2546
1899
use_ipv6: Boolean; to use IPv6 or not
2549
1901
def __init__(self, server_address, RequestHandlerClass,
2553
"""If socketfd is set, use that file descriptor instead of
2554
creating a new one with socket.socket().
1902
interface=None, use_ipv6=True):
2556
1903
self.interface = interface
2558
1905
self.address_family = socket.AF_INET6
2559
if socketfd is not None:
2560
# Save the file descriptor
2561
self.socketfd = socketfd
2562
# Save the original socket.socket() function
2563
self.socket_socket = socket.socket
2565
# To implement --socket, we monkey patch socket.socket.
2567
# (When socketserver.TCPServer is a new-style class, we
2568
# could make self.socket into a property instead of monkey
2569
# patching socket.socket.)
2571
# Create a one-time-only replacement for socket.socket()
2572
@functools.wraps(socket.socket)
2573
def socket_wrapper(*args, **kwargs):
2574
# Restore original function so subsequent calls are
2576
socket.socket = self.socket_socket
2577
del self.socket_socket
2578
# This time only, return a new socket object from the
2579
# saved file descriptor.
2580
return socket.fromfd(self.socketfd, *args, **kwargs)
2581
# Replace socket.socket() function with wrapper
2582
socket.socket = socket_wrapper
2583
# The socketserver.TCPServer.__init__ will call
2584
# socket.socket(), which might be our replacement,
2585
# socket_wrapper(), if socketfd was set.
2586
1906
socketserver.TCPServer.__init__(self, server_address,
2587
1907
RequestHandlerClass)
2589
1908
def server_bind(self):
2590
1909
"""This overrides the normal server_bind() function
2591
1910
to bind to an interface if one was specified, and also NOT to
2592
1911
bind to an address or port if they were not specified."""
2593
global SO_BINDTODEVICE
2594
1912
if self.interface is not None:
2595
1913
if SO_BINDTODEVICE is None:
2596
# Fall back to a hard-coded value which seems to be
2598
logger.warning("SO_BINDTODEVICE not found, trying 25")
2599
SO_BINDTODEVICE = 25
2601
self.socket.setsockopt(
2602
socket.SOL_SOCKET, SO_BINDTODEVICE,
2603
(self.interface + "\0").encode("utf-8"))
2604
except socket.error as error:
2605
if error.errno == errno.EPERM:
2606
logger.error("No permission to bind to"
2607
" interface %s", self.interface)
2608
elif error.errno == errno.ENOPROTOOPT:
2609
logger.error("SO_BINDTODEVICE not available;"
2610
" cannot bind to interface %s",
2612
elif error.errno == errno.ENODEV:
2613
logger.error("Interface %s does not exist,"
2614
" cannot bind", self.interface)
1914
logger.error("SO_BINDTODEVICE does not exist;"
1915
" cannot bind to interface %s",
1919
self.socket.setsockopt(socket.SOL_SOCKET,
1923
except socket.error as error:
1924
if error.errno == errno.EPERM:
1925
logger.error("No permission to"
1926
" bind to interface %s",
1928
elif error.errno == errno.ENOPROTOOPT:
1929
logger.error("SO_BINDTODEVICE not available;"
1930
" cannot bind to interface %s",
1932
elif error.errno == errno.ENODEV:
1933
logger.error("Interface %s does not"
1934
" exist, cannot bind",
2617
1938
# Only bind(2) the socket if we really need to.
2618
1939
if self.server_address[0] or self.server_address[1]:
2619
1940
if not self.server_address[0]:
2620
1941
if self.address_family == socket.AF_INET6:
2621
any_address = "::" # in6addr_any
1942
any_address = "::" # in6addr_any
2623
any_address = "0.0.0.0" # INADDR_ANY
1944
any_address = socket.INADDR_ANY
2624
1945
self.server_address = (any_address,
2625
1946
self.server_address[1])
2626
1947
elif not self.server_address[1]:
2627
self.server_address = (self.server_address[0], 0)
1948
self.server_address = (self.server_address[0],
2628
1950
# if self.interface:
2629
1951
# self.server_address = (self.server_address[0],
2660
1977
self.gnutls_priority = gnutls_priority
2661
1978
IPv6_TCPServer.__init__(self, server_address,
2662
1979
RequestHandlerClass,
2663
interface=interface,
1980
interface = interface,
1981
use_ipv6 = use_ipv6)
2667
1982
def server_activate(self):
2668
1983
if self.enabled:
2669
1984
return socketserver.TCPServer.server_activate(self)
2671
1986
def enable(self):
2672
1987
self.enabled = True
2674
1989
def add_pipe(self, parent_pipe, proc):
2675
1990
# Call "handle_ipc" for both data and EOF events
2677
parent_pipe.fileno(),
2678
GLib.IO_IN | GLib.IO_HUP,
2679
functools.partial(self.handle_ipc,
2680
parent_pipe=parent_pipe,
2683
def handle_ipc(self, source, condition,
2686
client_object=None):
1991
gobject.io_add_watch(parent_pipe.fileno(),
1992
gobject.IO_IN | gobject.IO_HUP,
1993
functools.partial(self.handle_ipc,
1998
def handle_ipc(self, source, condition, parent_pipe=None,
1999
proc = None, client_object=None):
2687
2000
# error, or the other end of multiprocessing.Pipe has closed
2688
if condition & (GLib.IO_ERR | GLib.IO_HUP):
2001
if condition & (gobject.IO_ERR | gobject.IO_HUP):
2689
2002
# Wait for other process to exit
2693
2006
# Read a request from the child
2694
2007
request = parent_pipe.recv()
2695
2008
command = request[0]
2697
2010
if command == 'init':
2698
key_id = request[1].decode("ascii")
2699
fpr = request[2].decode("ascii")
2700
address = request[3]
2702
for c in self.clients.values():
2703
if key_id == "E3B0C44298FC1C149AFBF4C8996FB92427AE41E4649B934CA495991B7852B855":
2705
if key_id and c.key_id == key_id:
2708
if fpr and c.fingerprint == fpr:
2012
address = request[2]
2014
for c in self.clients.itervalues():
2015
if c.fingerprint == fpr:
2712
logger.info("Client not found for key ID: %s, address"
2713
": %s", key_id or fpr, address)
2019
logger.info("Client not found for fingerprint: %s, ad"
2020
"dress: %s", fpr, address)
2714
2021
if self.use_dbus:
2715
2022
# Emit D-Bus signal
2716
mandos_dbus_service.ClientNotFound(key_id or fpr,
2023
mandos_dbus_service.ClientNotFound(fpr,
2718
2025
parent_pipe.send(False)
2722
parent_pipe.fileno(),
2723
GLib.IO_IN | GLib.IO_HUP,
2724
functools.partial(self.handle_ipc,
2725
parent_pipe=parent_pipe,
2727
client_object=client))
2028
gobject.io_add_watch(parent_pipe.fileno(),
2029
gobject.IO_IN | gobject.IO_HUP,
2030
functools.partial(self.handle_ipc,
2728
2036
parent_pipe.send(True)
2729
2037
# remove the old hook in favor of the new above hook on
2733
2041
funcname = request[1]
2734
2042
args = request[2]
2735
2043
kwargs = request[3]
2737
2045
parent_pipe.send(('data', getattr(client_object,
2738
2046
funcname)(*args,
2741
2049
if command == 'getattr':
2742
2050
attrname = request[1]
2743
if isinstance(client_object.__getattribute__(attrname),
2744
collections.Callable):
2745
parent_pipe.send(('function', ))
2051
if callable(client_object.__getattribute__(attrname)):
2052
parent_pipe.send(('function',))
2748
'data', client_object.__getattribute__(attrname)))
2054
parent_pipe.send(('data', client_object
2055
.__getattribute__(attrname)))
2750
2057
if command == 'setattr':
2751
2058
attrname = request[1]
2752
2059
value = request[2]
2753
2060
setattr(client_object, attrname, value)
2758
def rfc3339_duration_to_delta(duration):
2759
"""Parse an RFC 3339 "duration" and return a datetime.timedelta
2761
>>> rfc3339_duration_to_delta("P7D")
2762
datetime.timedelta(7)
2763
>>> rfc3339_duration_to_delta("PT60S")
2764
datetime.timedelta(0, 60)
2765
>>> rfc3339_duration_to_delta("PT60M")
2766
datetime.timedelta(0, 3600)
2767
>>> rfc3339_duration_to_delta("PT24H")
2768
datetime.timedelta(1)
2769
>>> rfc3339_duration_to_delta("P1W")
2770
datetime.timedelta(7)
2771
>>> rfc3339_duration_to_delta("PT5M30S")
2772
datetime.timedelta(0, 330)
2773
>>> rfc3339_duration_to_delta("P1DT3M20S")
2774
datetime.timedelta(1, 200)
2777
# Parsing an RFC 3339 duration with regular expressions is not
2778
# possible - there would have to be multiple places for the same
2779
# values, like seconds. The current code, while more esoteric, is
2780
# cleaner without depending on a parsing library. If Python had a
2781
# built-in library for parsing we would use it, but we'd like to
2782
# avoid excessive use of external libraries.
2784
# New type for defining tokens, syntax, and semantics all-in-one
2785
Token = collections.namedtuple("Token", (
2786
"regexp", # To match token; if "value" is not None, must have
2787
# a "group" containing digits
2788
"value", # datetime.timedelta or None
2789
"followers")) # Tokens valid after this token
2790
# RFC 3339 "duration" tokens, syntax, and semantics; taken from
2791
# the "duration" ABNF definition in RFC 3339, Appendix A.
2792
token_end = Token(re.compile(r"$"), None, frozenset())
2793
token_second = Token(re.compile(r"(\d+)S"),
2794
datetime.timedelta(seconds=1),
2795
frozenset((token_end, )))
2796
token_minute = Token(re.compile(r"(\d+)M"),
2797
datetime.timedelta(minutes=1),
2798
frozenset((token_second, token_end)))
2799
token_hour = Token(re.compile(r"(\d+)H"),
2800
datetime.timedelta(hours=1),
2801
frozenset((token_minute, token_end)))
2802
token_time = Token(re.compile(r"T"),
2804
frozenset((token_hour, token_minute,
2806
token_day = Token(re.compile(r"(\d+)D"),
2807
datetime.timedelta(days=1),
2808
frozenset((token_time, token_end)))
2809
token_month = Token(re.compile(r"(\d+)M"),
2810
datetime.timedelta(weeks=4),
2811
frozenset((token_day, token_end)))
2812
token_year = Token(re.compile(r"(\d+)Y"),
2813
datetime.timedelta(weeks=52),
2814
frozenset((token_month, token_end)))
2815
token_week = Token(re.compile(r"(\d+)W"),
2816
datetime.timedelta(weeks=1),
2817
frozenset((token_end, )))
2818
token_duration = Token(re.compile(r"P"), None,
2819
frozenset((token_year, token_month,
2820
token_day, token_time,
2822
# Define starting values:
2824
value = datetime.timedelta()
2826
# Following valid tokens
2827
followers = frozenset((token_duration, ))
2828
# String left to parse
2830
# Loop until end token is found
2831
while found_token is not token_end:
2832
# Search for any currently valid tokens
2833
for token in followers:
2834
match = token.regexp.match(s)
2835
if match is not None:
2837
if token.value is not None:
2838
# Value found, parse digits
2839
factor = int(match.group(1), 10)
2840
# Add to value so far
2841
value += factor * token.value
2842
# Strip token from string
2843
s = token.regexp.sub("", s, 1)
2846
# Set valid next tokens
2847
followers = found_token.followers
2850
# No currently valid tokens were found
2851
raise ValueError("Invalid RFC 3339 duration: {!r}"
2857
2065
def string_to_delta(interval):
2858
2066
"""Parse a string and return a datetime.timedelta
2860
2068
>>> string_to_delta('7d')
2861
2069
datetime.timedelta(7)
2862
2070
>>> string_to_delta('60s')
2957
2160
parser.add_argument("--no-dbus", action="store_false",
2958
2161
dest="use_dbus", help="Do not provide D-Bus"
2959
" system bus interface", default=None)
2162
" system bus interface")
2960
2163
parser.add_argument("--no-ipv6", action="store_false",
2961
dest="use_ipv6", help="Do not use IPv6",
2164
dest="use_ipv6", help="Do not use IPv6")
2963
2165
parser.add_argument("--no-restore", action="store_false",
2964
2166
dest="restore", help="Do not restore stored"
2965
" state", default=None)
2966
parser.add_argument("--socket", type=int,
2967
help="Specify a file descriptor to a network"
2968
" socket to use instead of creating one")
2969
2168
parser.add_argument("--statedir", metavar="DIR",
2970
2169
help="Directory to save/restore state in")
2971
parser.add_argument("--foreground", action="store_true",
2972
help="Run in foreground", default=None)
2973
parser.add_argument("--no-zeroconf", action="store_false",
2974
dest="zeroconf", help="Do not use Zeroconf",
2977
2171
options = parser.parse_args()
2979
2173
if options.check:
2981
fail_count, test_count = doctest.testmod()
2982
sys.exit(os.EX_OK if fail_count == 0 else 1)
2984
2178
# Default values for config file for server-global settings
2985
if gnutls.has_rawpk:
2986
priority = ("SECURE128:!CTYPE-X.509:+CTYPE-RAWPK:!RSA"
2987
":!VERS-ALL:+VERS-TLS1.3:%PROFILE_ULTRA")
2989
priority = ("SECURE256:!CTYPE-X.509:+CTYPE-OPENPGP:!RSA"
2990
":+SIGN-DSA-SHA256")
2991
server_defaults = {"interface": "",
2995
"priority": priority,
2996
"servicename": "Mandos",
3002
"statedir": "/var/lib/mandos",
3003
"foreground": "False",
2179
server_defaults = { "interface": "",
2184
"SECURE256:!CTYPE-X.509:+CTYPE-OPENPGP",
2185
"servicename": "Mandos",
2190
"statedir": "/var/lib/mandos"
3008
2193
# Parse config file for server-global settings
3009
2194
server_config = configparser.SafeConfigParser(server_defaults)
3010
2195
del server_defaults
3011
server_config.read(os.path.join(options.configdir, "mandos.conf"))
2196
server_config.read(os.path.join(options.configdir,
3012
2198
# Convert the SafeConfigParser object to a dict
3013
2199
server_settings = server_config.defaults()
3014
2200
# Use the appropriate methods on the non-string config options
3015
for option in ("debug", "use_dbus", "use_ipv6", "restore",
3016
"foreground", "zeroconf"):
2201
for option in ("debug", "use_dbus", "use_ipv6"):
3017
2202
server_settings[option] = server_config.getboolean("DEFAULT",
3019
2204
if server_settings["port"]:
3020
2205
server_settings["port"] = server_config.getint("DEFAULT",
3022
if server_settings["socket"]:
3023
server_settings["socket"] = server_config.getint("DEFAULT",
3025
# Later, stdin will, and stdout and stderr might, be dup'ed
3026
# over with an opened os.devnull. But we don't want this to
3027
# happen with a supplied network socket.
3028
if 0 <= server_settings["socket"] <= 2:
3029
server_settings["socket"] = os.dup(server_settings
3031
2207
del server_config
3033
2209
# Override the settings from the config file with command line
3034
2210
# options, if set.
3035
2211
for option in ("interface", "address", "port", "debug",
3036
"priority", "servicename", "configdir", "use_dbus",
3037
"use_ipv6", "debuglevel", "restore", "statedir",
3038
"socket", "foreground", "zeroconf"):
2212
"priority", "servicename", "configdir",
2213
"use_dbus", "use_ipv6", "debuglevel", "restore",
3039
2215
value = getattr(options, option)
3040
2216
if value is not None:
3041
2217
server_settings[option] = value
3043
2219
# Force all strings to be unicode
3044
2220
for option in server_settings.keys():
3045
if isinstance(server_settings[option], bytes):
3046
server_settings[option] = (server_settings[option]
3048
# Force all boolean options to be boolean
3049
for option in ("debug", "use_dbus", "use_ipv6", "restore",
3050
"foreground", "zeroconf"):
3051
server_settings[option] = bool(server_settings[option])
3052
# Debug implies foreground
3053
if server_settings["debug"]:
3054
server_settings["foreground"] = True
2221
if type(server_settings[option]) is str:
2222
server_settings[option] = unicode(server_settings[option])
3055
2223
# Now we have our good server settings in "server_settings"
3057
2225
##################################################################
3059
if (not server_settings["zeroconf"]
3060
and not (server_settings["port"]
3061
or server_settings["socket"] != "")):
3062
parser.error("Needs port or socket to work without Zeroconf")
3064
2227
# For convenience
3065
2228
debug = server_settings["debug"]
3066
2229
debuglevel = server_settings["debuglevel"]
3136
logger.debug("Did setuid/setgid to {}:{}".format(uid,
3138
2290
except OSError as error:
3139
logger.warning("Failed to setuid/setgid to {}:{}: {}"
3140
.format(uid, gid, os.strerror(error.errno)))
3141
2291
if error.errno != errno.EPERM:
3145
2295
# Enable all possible GnuTLS debugging
3147
2297
# "Use a log level over 10 to enable all debugging options."
3148
2298
# - GnuTLS manual
3149
gnutls.global_set_log_level(11)
2299
gnutls.library.functions.gnutls_global_set_log_level(11)
2301
@gnutls.library.types.gnutls_log_func
3152
2302
def debug_gnutls(level, string):
3153
2303
logger.debug("GnuTLS: %s", string[:-1])
3155
gnutls.global_set_log_function(debug_gnutls)
2305
(gnutls.library.functions
2306
.gnutls_global_set_log_function(debug_gnutls))
3157
2308
# Redirect stdin so all checkers get /dev/null
3158
2309
null = os.open(os.devnull, os.O_NOCTTY | os.O_RDWR)
3159
2310
os.dup2(null, sys.stdin.fileno())
3163
2314
# Need to fork before connecting to D-Bus
3165
2316
# Close all input and output, do double fork, etc.
3168
# multiprocessing will use threads, so before we use GLib we need
3169
# to inform GLib that threads will be used.
2319
gobject.threads_init()
3172
2321
global main_loop
3173
2322
# From the Avahi example code
3174
2323
DBusGMainLoop(set_as_default=True)
3175
main_loop = GLib.MainLoop()
2324
main_loop = gobject.MainLoop()
3176
2325
bus = dbus.SystemBus()
3177
2326
# End of Avahi example code
3180
2329
bus_name = dbus.service.BusName("se.recompile.Mandos",
3183
old_bus_name = dbus.service.BusName(
3184
"se.bsnet.fukt.Mandos", bus,
3186
except dbus.exceptions.DBusException as e:
2330
bus, do_not_queue=True)
2331
old_bus_name = (dbus.service.BusName
2332
("se.bsnet.fukt.Mandos", bus,
2334
except dbus.exceptions.NameExistsException as e:
3187
2335
logger.error("Disabling D-Bus:", exc_info=e)
3188
2336
use_dbus = False
3189
2337
server_settings["use_dbus"] = False
3190
2338
tcp_server.use_dbus = False
3192
protocol = avahi.PROTO_INET6 if use_ipv6 else avahi.PROTO_INET
3193
service = AvahiServiceToSyslog(
3194
name=server_settings["servicename"],
3195
servicetype="_mandos._tcp",
3198
if server_settings["interface"]:
3199
service.interface = if_nametoindex(
3200
server_settings["interface"].encode("utf-8"))
2339
protocol = avahi.PROTO_INET6 if use_ipv6 else avahi.PROTO_INET
2340
service = AvahiServiceToSyslog(name =
2341
server_settings["servicename"],
2342
servicetype = "_mandos._tcp",
2343
protocol = protocol, bus = bus)
2344
if server_settings["interface"]:
2345
service.interface = (if_nametoindex
2346
(str(server_settings["interface"])))
3202
2348
global multiprocessing_manager
3203
2349
multiprocessing_manager = multiprocessing.Manager()
3205
2351
client_class = Client
3207
client_class = functools.partial(ClientDBus, bus=bus)
2353
client_class = functools.partial(ClientDBus, bus = bus)
3209
2355
client_settings = Client.config_parser(client_config)
3210
2356
old_client_settings = {}
3211
2357
clients_data = {}
3213
# This is used to redirect stdout and stderr for checker processes
3215
wnull = open(os.devnull, "w") # A writable /dev/null
3216
# Only used if server is running in foreground but not in debug
3218
if debug or not foreground:
3221
2359
# Get client data and settings from last running state.
3222
2360
if server_settings["restore"]:
3224
2362
with open(stored_state_path, "rb") as stored_state:
3225
if sys.version_info.major == 2:
3226
clients_data, old_client_settings = pickle.load(
3229
bytes_clients_data, bytes_old_client_settings = (
3230
pickle.load(stored_state, encoding="bytes"))
3231
# Fix bytes to strings
3234
clients_data = {(key.decode("utf-8")
3235
if isinstance(key, bytes)
3238
bytes_clients_data.items()}
3239
del bytes_clients_data
3240
for key in clients_data:
3241
value = {(k.decode("utf-8")
3242
if isinstance(k, bytes) else k): v
3244
clients_data[key].items()}
3245
clients_data[key] = value
3247
value["client_structure"] = [
3249
if isinstance(s, bytes)
3251
value["client_structure"]]
3253
for k in ("name", "host"):
3254
if isinstance(value[k], bytes):
3255
value[k] = value[k].decode("utf-8")
3256
if not value.has_key("key_id"):
3257
value["key_id"] = ""
3258
elif not value.has_key("fingerprint"):
3259
value["fingerprint"] = ""
3260
# old_client_settings
3262
old_client_settings = {
3263
(key.decode("utf-8")
3264
if isinstance(key, bytes)
3267
bytes_old_client_settings.items()}
3268
del bytes_old_client_settings
3270
for value in old_client_settings.values():
3271
if isinstance(value["host"], bytes):
3272
value["host"] = (value["host"]
2363
clients_data, old_client_settings = (pickle.load
3274
2365
os.remove(stored_state_path)
3275
2366
except IOError as e:
3276
2367
if e.errno == errno.ENOENT:
3277
logger.warning("Could not load persistent state:"
3278
" {}".format(os.strerror(e.errno)))
2368
logger.warning("Could not load persistent state: {0}"
2369
.format(os.strerror(e.errno)))
3280
2371
logger.critical("Could not load persistent state:",
3283
2374
except EOFError as e:
3284
2375
logger.warning("Could not load persistent state: "
2376
"EOFError:", exc_info=e)
3288
2378
with PGPEngine() as pgp:
3289
for client_name, client in clients_data.items():
3290
# Skip removed clients
3291
if client_name not in client_settings:
2379
for client_name, client in clients_data.iteritems():
3294
2380
# Decide which value to use after restoring saved state.
3295
2381
# We have three different values: Old config file,
3296
2382
# new config file, and saved state.
3354
2440
for client_name in (set(client_settings)
3355
2441
- set(old_client_settings)):
3356
2442
clients_data[client_name] = client_settings[client_name]
3358
2444
# Create all client objects
3359
for client_name, client in clients_data.items():
2445
for client_name, client in clients_data.iteritems():
3360
2446
tcp_server.clients[client_name] = client_class(
3363
server_settings=server_settings)
2447
name = client_name, settings = client)
3365
2449
if not tcp_server.clients:
3366
2450
logger.warning("No clients defined")
3369
if pidfile is not None:
3373
print(pid, file=pidfile)
3375
logger.error("Could not write to file %r with PID %d",
2456
pidfile.write(str(pid) + "\n".encode("utf-8"))
2459
logger.error("Could not write to file %r with PID %d",
2462
# "pidfile" was never created
3378
2464
del pidfilename
3380
for termsig in (signal.SIGHUP, signal.SIGTERM):
3381
GLib.unix_signal_add(GLib.PRIORITY_HIGH, termsig,
3382
lambda: main_loop.quit() and False)
2466
signal.signal(signal.SIGHUP, lambda signum, frame: sys.exit())
2467
signal.signal(signal.SIGTERM, lambda signum, frame: sys.exit())
3386
@alternate_dbus_interfaces(
3387
{"se.recompile.Mandos": "se.bsnet.fukt.Mandos"})
3388
class MandosDBusService(DBusObjectWithObjectManager):
2470
@alternate_dbus_interfaces({"se.recompile.Mandos":
2471
"se.bsnet.fukt.Mandos"})
2472
class MandosDBusService(DBusObjectWithProperties):
3389
2473
"""A D-Bus proxy object"""
3391
2474
def __init__(self):
3392
2475
dbus.service.Object.__init__(self, bus, "/")
3394
2476
_interface = "se.recompile.Mandos"
2478
@dbus_interface_annotations(_interface)
2480
return { "org.freedesktop.DBus.Property"
2481
".EmitsChangedSignal":
3396
2484
@dbus.service.signal(_interface, signature="o")
3397
2485
def ClientAdded(self, objpath):
3401
2489
@dbus.service.signal(_interface, signature="ss")
3402
def ClientNotFound(self, key_id, address):
2490
def ClientNotFound(self, fingerprint, address):
3406
@dbus_annotations({"org.freedesktop.DBus.Deprecated":
3408
2494
@dbus.service.signal(_interface, signature="os")
3409
2495
def ClientRemoved(self, objpath, name):
3413
@dbus_annotations({"org.freedesktop.DBus.Deprecated":
3415
2499
@dbus.service.method(_interface, out_signature="ao")
3416
2500
def GetAllClients(self):
3418
return dbus.Array(c.dbus_object_path for c in
3419
tcp_server.clients.values())
3421
@dbus_annotations({"org.freedesktop.DBus.Deprecated":
2502
return dbus.Array(c.dbus_object_path
2504
tcp_server.clients.itervalues())
3423
2506
@dbus.service.method(_interface,
3424
2507
out_signature="a{oa{sv}}")
3425
2508
def GetAllClientsWithProperties(self):
3427
2510
return dbus.Dictionary(
3428
{c.dbus_object_path: c.GetAll(
3429
"se.recompile.Mandos.Client")
3430
for c in tcp_server.clients.values()},
2511
((c.dbus_object_path, c.GetAll(""))
2512
for c in tcp_server.clients.itervalues()),
3431
2513
signature="oa{sv}")
3433
2515
@dbus.service.method(_interface, in_signature="o")
3434
2516
def RemoveClient(self, object_path):
3436
for c in tcp_server.clients.values():
2518
for c in tcp_server.clients.itervalues():
3437
2519
if c.dbus_object_path == object_path:
3438
2520
del tcp_server.clients[c.name]
3439
2521
c.remove_from_connection()
3440
# Don't signal the disabling
2522
# Don't signal anything except ClientRemoved
3441
2523
c.disable(quiet=True)
3442
# Emit D-Bus signal for removal
3443
self.client_removed_signal(c)
2525
self.ClientRemoved(object_path, c.name)
3445
2527
raise KeyError(object_path)
3449
@dbus.service.method(dbus.OBJECT_MANAGER_IFACE,
3450
out_signature="a{oa{sa{sv}}}")
3451
def GetManagedObjects(self):
3453
return dbus.Dictionary(
3454
{client.dbus_object_path:
3456
{interface: client.GetAll(interface)
3458
client._get_all_interface_names()})
3459
for client in tcp_server.clients.values()})
3461
def client_added_signal(self, client):
3462
"""Send the new standard signal and the old signal"""
3464
# New standard signal
3465
self.InterfacesAdded(
3466
client.dbus_object_path,
3468
{interface: client.GetAll(interface)
3470
client._get_all_interface_names()}))
3472
self.ClientAdded(client.dbus_object_path)
3474
def client_removed_signal(self, client):
3475
"""Send the new standard signal and the old signal"""
3477
# New standard signal
3478
self.InterfacesRemoved(
3479
client.dbus_object_path,
3480
client._get_all_interface_names())
3482
self.ClientRemoved(client.dbus_object_path,
3485
2531
mandos_dbus_service = MandosDBusService()
3487
# Save modules to variables to exempt the modules from being
3488
# unloaded before the function registered with atexit() is run.
3489
mp = multiprocessing
3493
2534
"Cleanup function; run on exit"
3497
mp.active_children()
2537
multiprocessing.active_children()
3499
2538
if not (tcp_server.clients or client_settings):
3502
2541
# Store client before exiting. Secrets are encrypted with key
3503
2542
# based on what config file has. If config file is
3504
2543
# removed/edited, old secret will thus be unrecovable.
3506
2545
with PGPEngine() as pgp:
3507
for client in tcp_server.clients.values():
2546
for client in tcp_server.clients.itervalues():
3508
2547
key = client_settings[client.name]["secret"]
3509
2548
client.encrypted_secret = pgp.encrypt(client.secret,
3511
2550
client_dict = {}
3513
2552
# A list of attributes that can not be pickled
3515
exclude = {"bus", "changedstate", "secret",
3516
"checker", "server_settings"}
3517
for name, typ in inspect.getmembers(dbus.service
2554
exclude = set(("bus", "changedstate", "secret",
2556
for name, typ in (inspect.getmembers
2557
(dbus.service.Object)):
3519
2558
exclude.add(name)
3521
2560
client_dict["encrypted_secret"] = (client
3522
2561
.encrypted_secret)
3523
2562
for attr in client.client_structure:
3524
2563
if attr not in exclude:
3525
2564
client_dict[attr] = getattr(client, attr)
3527
2566
clients[client.name] = client_dict
3528
2567
del client_settings[client.name]["secret"]
3531
with tempfile.NamedTemporaryFile(
3535
dir=os.path.dirname(stored_state_path),
3536
delete=False) as stored_state:
3537
pickle.dump((clients, client_settings), stored_state,
3539
tempname = stored_state.name
2570
with (tempfile.NamedTemporaryFile
2571
(mode='wb', suffix=".pickle", prefix='clients-',
2572
dir=os.path.dirname(stored_state_path),
2573
delete=False)) as stored_state:
2574
pickle.dump((clients, client_settings), stored_state)
2575
tempname=stored_state.name
3540
2576
os.rename(tempname, stored_state_path)
3541
2577
except (IOError, OSError) as e: