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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 © 2008-2016 Teddy Hogeborn
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# Copyright © 2008-2016 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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# 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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# 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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# 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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# 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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# 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 this program. If not, see
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# <http://www.gnu.org/licenses/>.
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# along with Mandos. If not, see <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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'--passphrase-file',
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+ self.gnupgargs,
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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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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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raise PGPError(err)
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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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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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'--passphrase-file',
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+ self.gnupgargs,
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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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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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raise PGPError(err)
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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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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 = AvahiService.rename(self, *args, **kwargs)
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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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.format(self.name)))
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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.cdll.LoadLibrary(
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ctypes.util.find_library("gnutls"))
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_need_version = "3.3.0"
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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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def __init__(self):
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# Need to use class name "GnuTLS" here, since this method is
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# called before the assignment to the "gnutls" global variable
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if GnuTLS.check_version(self._need_version) is None:
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raise GnuTLS.Error("Needs GnuTLS {} or later"
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.format(self._need_version))
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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_INTERRUPTED = -52
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CRD_CERTIFICATE = 1
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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)]
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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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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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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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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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# gnutls.strerror()
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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)]
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priority_set_direct.restype = _error_code
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init = _library.gnutls_init
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init.argtypes = [ctypes.POINTER(session_t), ctypes.c_int]
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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
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certificate_allocate_credentials = (
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_library.gnutls_certificate_allocate_credentials)
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certificate_allocate_credentials.argtypes = [
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ctypes.POINTER(certificate_credentials_t)]
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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 = [certificate_credentials_t]
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certificate_free_credentials.argtypes = [
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certificate_credentials_t]
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certificate_free_credentials.restype = None
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handshake_set_private_extensions = (
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_library.gnutls_handshake_set_private_extensions)
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handshake_set_private_extensions.argtypes = [session_t,
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handshake_set_private_extensions.restype = None
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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
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strerror.argtypes = [ctypes.c_int]
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strerror.restype = ctypes.c_char_p
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certificate_type_get = _library.gnutls_certificate_type_get
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certificate_type_get.argtypes = [session_t]
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certificate_type_get.restype = _error_code
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certificate_get_peers = _library.gnutls_certificate_get_peers
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certificate_get_peers.argtypes = [session_t,
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ctypes.POINTER(ctypes.c_uint)]
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certificate_get_peers.restype = ctypes.POINTER(datum_t)
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global_set_log_level = _library.gnutls_global_set_log_level
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global_set_log_level.argtypes = [ctypes.c_int]
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global_set_log_level.restype = None
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global_set_log_function = _library.gnutls_global_set_log_function
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global_set_log_function.argtypes = [log_func]
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global_set_log_function.restype = None
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deinit = _library.gnutls_deinit
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deinit.argtypes = [session_t]
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deinit.restype = None
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handshake = _library.gnutls_handshake
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handshake.argtypes = [session_t]
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handshake.restype = _error_code
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handshake.errcheck = _retry_on_error
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transport_set_ptr = _library.gnutls_transport_set_ptr
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transport_set_ptr.argtypes = [session_t, transport_ptr_t]
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transport_set_ptr.restype = None
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bye = _library.gnutls_bye
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bye.argtypes = [session_t, close_request_t]
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bye.restype = _error_code
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bye.errcheck = _retry_on_error
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check_version = _library.gnutls_check_version
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check_version.argtypes = [ctypes.c_char_p]
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check_version.restype = ctypes.c_char_p
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# All the function declarations below are from gnutls/openpgp.h
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openpgp_crt_init = _library.gnutls_openpgp_crt_init
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openpgp_crt_init.argtypes = [ctypes.POINTER(openpgp_crt_t)]
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openpgp_crt_init.restype = _error_code
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openpgp_crt_import = _library.gnutls_openpgp_crt_import
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openpgp_crt_import.argtypes = [openpgp_crt_t,
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ctypes.POINTER(datum_t),
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openpgp_crt_import.restype = _error_code
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openpgp_crt_verify_self = _library.gnutls_openpgp_crt_verify_self
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openpgp_crt_verify_self.argtypes = [openpgp_crt_t, ctypes.c_uint,
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ctypes.POINTER(ctypes.c_uint)]
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openpgp_crt_verify_self.restype = _error_code
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openpgp_crt_deinit = _library.gnutls_openpgp_crt_deinit
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openpgp_crt_deinit.argtypes = [openpgp_crt_t]
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openpgp_crt_deinit.restype = None
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openpgp_crt_get_fingerprint = (
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_library.gnutls_openpgp_crt_get_fingerprint)
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openpgp_crt_get_fingerprint.argtypes = [openpgp_crt_t,
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openpgp_crt_get_fingerprint.restype = _error_code
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has_rawpk = bool(check_version(_tls_rawpk_version))
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class pubkey_st(ctypes.Structure):
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pubkey_t = ctypes.POINTER(pubkey_st)
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x509_crt_fmt_t = ctypes.c_int
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# All the function declarations below are from gnutls/abstract.h
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pubkey_init = _library.gnutls_pubkey_init
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pubkey_init.argtypes = [ctypes.POINTER(pubkey_t)]
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pubkey_init.restype = _error_code
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pubkey_import = _library.gnutls_pubkey_import
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pubkey_import.argtypes = [pubkey_t, ctypes.POINTER(datum_t),
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pubkey_import.restype = _error_code
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pubkey_get_key_id = _library.gnutls_pubkey_get_key_id
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pubkey_get_key_id.argtypes = [pubkey_t, ctypes.c_int,
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ctypes.POINTER(ctypes.c_ubyte),
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ctypes.POINTER(ctypes.c_size_t)]
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pubkey_get_key_id.restype = _error_code
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pubkey_deinit = _library.gnutls_pubkey_deinit
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pubkey_deinit.argtypes = [pubkey_t]
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pubkey_deinit.restype = None
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# All the function declarations below are from gnutls/openpgp.h
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openpgp_crt_init = _library.gnutls_openpgp_crt_init
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openpgp_crt_init.argtypes = [ctypes.POINTER(openpgp_crt_t)]
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openpgp_crt_init.restype = _error_code
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openpgp_crt_import = _library.gnutls_openpgp_crt_import
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openpgp_crt_import.argtypes = [openpgp_crt_t,
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ctypes.POINTER(datum_t),
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openpgp_crt_import.restype = _error_code
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openpgp_crt_verify_self = _library.gnutls_openpgp_crt_verify_self
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openpgp_crt_verify_self.argtypes = [openpgp_crt_t, ctypes.c_uint,
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ctypes.POINTER(ctypes.c_uint)]
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openpgp_crt_verify_self.restype = _error_code
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openpgp_crt_deinit = _library.gnutls_openpgp_crt_deinit
795
openpgp_crt_deinit.argtypes = [openpgp_crt_t]
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openpgp_crt_deinit.restype = None
798
openpgp_crt_get_fingerprint = (
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_library.gnutls_openpgp_crt_get_fingerprint)
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openpgp_crt_get_fingerprint.argtypes = [openpgp_crt_t,
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openpgp_crt_get_fingerprint.restype = _error_code
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if check_version("3.6.4"):
807
certificate_type_get2 = _library.gnutls_certificate_type_get2
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certificate_type_get2.argtypes = [session_t, ctypes.c_int]
809
certificate_type_get2.restype = _error_code
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811
# Remove non-public functions
694
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del _error_code, _retry_on_error
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# Create the global "gnutls" object, simulating a module
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gnutls = GnuTLS()
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def call_pipe(connection, # : multiprocessing.Connection
699
818
func, *args, **kwargs):
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"""This function is meant to be called by multiprocessing.Process
702
821
This function runs func(*args, **kwargs), and writes the resulting
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822
return value on the provided multiprocessing.Connection.
705
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connection.send(func(*args, **kwargs))
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connection.close()
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class Client(object):
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"""A representation of a client host served by this server.
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832
approved: bool(); 'None' if not yet approved/disapproved
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833
approval_delay: datetime.timedelta(); Time to wait for approval
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checker: subprocess.Popen(); a running checker process used
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to see if the client lives.
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'None' if no process is running.
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checker_callback_tag: a GObject event source tag, or None
838
checker_callback_tag: a GLib event source tag, or None
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checker_command: string; External command which is run to check
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if client lives. %() expansions are done at
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841
runtime with vars(self) as dict, so that for
722
842
instance %(name)s can be used in the command.
723
checker_initiator_tag: a GObject event source tag, or None
843
checker_initiator_tag: a GLib event source tag, or None
724
844
created: datetime.datetime(); (UTC) object creation
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845
client_structure: Object describing what attributes a client has
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and is used for storing the client at exit
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847
current_checker_command: string; current running checker_command
728
disable_initiator_tag: a GObject event source tag, or None
848
disable_initiator_tag: a GLib event source tag, or None
730
850
fingerprint: string (40 or 32 hexadecimal digits); used to
731
uniquely identify the client
851
uniquely identify an OpenPGP client
852
key_id: string (64 hexadecimal digits); used to uniquely identify
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a client using raw public keys
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854
host: string; available for use by the checker command
733
855
interval: datetime.timedelta(); How often to start a new checker
734
856
last_approval_request: datetime.datetime(); (UTC) or None
886
1013
logger.info("Disabling client %s", self.name)
887
1014
if getattr(self, "disable_initiator_tag", None) is not None:
888
GObject.source_remove(self.disable_initiator_tag)
1015
GLib.source_remove(self.disable_initiator_tag)
889
1016
self.disable_initiator_tag = None
890
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self.expires = None
891
1018
if getattr(self, "checker_initiator_tag", None) is not None:
892
GObject.source_remove(self.checker_initiator_tag)
1019
GLib.source_remove(self.checker_initiator_tag)
893
1020
self.checker_initiator_tag = None
894
1021
self.stop_checker()
895
1022
self.enabled = False
897
1024
self.send_changedstate()
898
# Do not run this again if called by a GObject.timeout_add
1025
# Do not run this again if called by a GLib.timeout_add
901
1028
def __del__(self):
904
1031
def init_checker(self):
905
1032
# Schedule a new checker to be started an 'interval' from now,
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# and every interval from then on.
907
1034
if self.checker_initiator_tag is not None:
908
GObject.source_remove(self.checker_initiator_tag)
909
self.checker_initiator_tag = GObject.timeout_add(
1035
GLib.source_remove(self.checker_initiator_tag)
1036
self.checker_initiator_tag = GLib.timeout_add(
910
1037
int(self.interval.total_seconds() * 1000),
911
1038
self.start_checker)
912
1039
# Schedule a disable() when 'timeout' has passed
913
1040
if self.disable_initiator_tag is not None:
914
GObject.source_remove(self.disable_initiator_tag)
915
self.disable_initiator_tag = GObject.timeout_add(
1041
GLib.source_remove(self.disable_initiator_tag)
1042
self.disable_initiator_tag = GLib.timeout_add(
916
1043
int(self.timeout.total_seconds() * 1000), self.disable)
917
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# Also start a new checker *right now*.
918
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self.start_checker()
920
1047
def checker_callback(self, source, condition, connection,
922
1049
"""The checker has completed, so take appropriate actions."""
1005
1132
# The exception is when not debugging but nevertheless
1006
1133
# running in the foreground; use the previously
1007
1134
# created wnull.
1008
popen_args = { "close_fds": True,
1135
popen_args = {"close_fds": True,
1011
1138
if (not self.server_settings["debug"]
1012
1139
and self.server_settings["foreground"]):
1013
1140
popen_args.update({"stdout": wnull,
1015
pipe = multiprocessing.Pipe(duplex = False)
1142
pipe = multiprocessing.Pipe(duplex=False)
1016
1143
self.checker = multiprocessing.Process(
1018
args = (pipe[1], subprocess.call, command),
1019
kwargs = popen_args)
1145
args=(pipe[1], subprocess.call, command),
1020
1147
self.checker.start()
1021
self.checker_callback_tag = GObject.io_add_watch(
1022
pipe[0].fileno(), GObject.IO_IN,
1148
self.checker_callback_tag = GLib.io_add_watch(
1149
pipe[0].fileno(), GLib.IO_IN,
1023
1150
self.checker_callback, pipe[0], command)
1024
# Re-run this periodically if run by GObject.timeout_add
1151
# Re-run this periodically if run by GLib.timeout_add
1027
1154
def stop_checker(self):
1028
1155
"""Force the checker process, if any, to stop."""
1029
1156
if self.checker_callback_tag:
1030
GObject.source_remove(self.checker_callback_tag)
1157
GLib.source_remove(self.checker_callback_tag)
1031
1158
self.checker_callback_tag = None
1032
1159
if getattr(self, "checker", None) is None:
1387
1514
exc_info=error)
1388
1515
return xmlstring
1391
1519
dbus.OBJECT_MANAGER_IFACE
1392
1520
except AttributeError:
1393
1521
dbus.OBJECT_MANAGER_IFACE = "org.freedesktop.DBus.ObjectManager"
1395
1524
class DBusObjectWithObjectManager(DBusObjectWithAnnotations):
1396
1525
"""A D-Bus object with an ObjectManager.
1398
1527
Classes inheriting from this exposes the standard
1399
1528
GetManagedObjects call and the InterfacesAdded and
1400
1529
InterfacesRemoved signals on the standard
1401
1530
"org.freedesktop.DBus.ObjectManager" interface.
1403
1532
Note: No signals are sent automatically; they must be sent
1406
1535
@dbus.service.method(dbus.OBJECT_MANAGER_IFACE,
1407
out_signature = "a{oa{sa{sv}}}")
1536
out_signature="a{oa{sa{sv}}}")
1408
1537
def GetManagedObjects(self):
1409
1538
"""This function must be overridden"""
1410
1539
raise NotImplementedError()
1412
1541
@dbus.service.signal(dbus.OBJECT_MANAGER_IFACE,
1413
signature = "oa{sa{sv}}")
1542
signature="oa{sa{sv}}")
1414
1543
def InterfacesAdded(self, object_path, interfaces_and_properties):
1417
@dbus.service.signal(dbus.OBJECT_MANAGER_IFACE, signature = "oas")
1546
@dbus.service.signal(dbus.OBJECT_MANAGER_IFACE, signature="oas")
1418
1547
def InterfacesRemoved(self, object_path, interfaces):
1421
1550
@dbus.service.method(dbus.INTROSPECTABLE_IFACE,
1422
out_signature = "s",
1423
path_keyword = 'object_path',
1424
connection_keyword = 'connection')
1552
path_keyword='object_path',
1553
connection_keyword='connection')
1425
1554
def Introspect(self, object_path, connection):
1426
1555
"""Overloading of standard D-Bus method.
1428
1557
Override return argument name of GetManagedObjects to be
1429
1558
"objpath_interfaces_and_properties"
1507
1637
interface_names.add(alt_interface)
1508
1638
# Is this a D-Bus signal?
1509
1639
if getattr(attribute, "_dbus_is_signal", False):
1640
# Extract the original non-method undecorated
1641
# function by black magic
1510
1642
if sys.version_info.major == 2:
1511
# Extract the original non-method undecorated
1512
# function by black magic
1513
1643
nonmethod_func = (dict(
1514
1644
zip(attribute.func_code.co_freevars,
1515
1645
attribute.__closure__))
1516
1646
["func"].cell_contents)
1518
nonmethod_func = attribute
1648
nonmethod_func = (dict(
1649
zip(attribute.__code__.co_freevars,
1650
attribute.__closure__))
1651
["func"].cell_contents)
1519
1652
# Create a new, but exactly alike, function
1520
1653
# object, and decorate it to be a new D-Bus signal
1521
1654
# with the alternate D-Bus interface name
1522
if sys.version_info.major == 2:
1523
new_function = types.FunctionType(
1524
nonmethod_func.func_code,
1525
nonmethod_func.func_globals,
1526
nonmethod_func.func_name,
1527
nonmethod_func.func_defaults,
1528
nonmethod_func.func_closure)
1530
new_function = types.FunctionType(
1531
nonmethod_func.__code__,
1532
nonmethod_func.__globals__,
1533
nonmethod_func.__name__,
1534
nonmethod_func.__defaults__,
1535
nonmethod_func.__closure__)
1655
new_function = copy_function(nonmethod_func)
1536
1656
new_function = (dbus.service.signal(
1538
1658
attribute._dbus_signature)(new_function))
1740
1853
"ApprovedByDefault")
1741
1854
approval_delay = notifychangeproperty(
1742
1855
dbus.UInt64, "ApprovalDelay",
1743
type_func = lambda td: td.total_seconds() * 1000)
1856
type_func=lambda td: td.total_seconds() * 1000)
1744
1857
approval_duration = notifychangeproperty(
1745
1858
dbus.UInt64, "ApprovalDuration",
1746
type_func = lambda td: td.total_seconds() * 1000)
1859
type_func=lambda td: td.total_seconds() * 1000)
1747
1860
host = notifychangeproperty(dbus.String, "Host")
1748
1861
timeout = notifychangeproperty(
1749
1862
dbus.UInt64, "Timeout",
1750
type_func = lambda td: td.total_seconds() * 1000)
1863
type_func=lambda td: td.total_seconds() * 1000)
1751
1864
extended_timeout = notifychangeproperty(
1752
1865
dbus.UInt64, "ExtendedTimeout",
1753
type_func = lambda td: td.total_seconds() * 1000)
1866
type_func=lambda td: td.total_seconds() * 1000)
1754
1867
interval = notifychangeproperty(
1755
1868
dbus.UInt64, "Interval",
1756
type_func = lambda td: td.total_seconds() * 1000)
1869
type_func=lambda td: td.total_seconds() * 1000)
1757
1870
checker_command = notifychangeproperty(dbus.String, "Checker")
1758
1871
secret = notifychangeproperty(dbus.ByteArray, "Secret",
1759
1872
invalidate_only=True)
1761
1874
del notifychangeproperty
1763
1876
def __del__(self, *args, **kwargs):
1765
1878
self.remove_from_connection()
2130
2250
class ClientHandler(socketserver.BaseRequestHandler, object):
2131
2251
"""A class to handle client connections.
2133
2253
Instantiated once for each connection to handle it.
2134
2254
Note: This will run in its own forked process."""
2136
2256
def handle(self):
2137
2257
with contextlib.closing(self.server.child_pipe) as child_pipe:
2138
2258
logger.info("TCP connection from: %s",
2139
2259
str(self.client_address))
2140
2260
logger.debug("Pipe FD: %d",
2141
2261
self.server.child_pipe.fileno())
2143
2263
session = gnutls.ClientSession(self.request)
2145
#priority = ':'.join(("NONE", "+VERS-TLS1.1",
2146
# "+AES-256-CBC", "+SHA1",
2147
# "+COMP-NULL", "+CTYPE-OPENPGP",
2265
# priority = ':'.join(("NONE", "+VERS-TLS1.1",
2266
# "+AES-256-CBC", "+SHA1",
2267
# "+COMP-NULL", "+CTYPE-OPENPGP",
2149
2269
# Use a fallback default, since this MUST be set.
2150
2270
priority = self.server.gnutls_priority
2151
2271
if priority is None:
2152
2272
priority = "NORMAL"
2153
gnutls.priority_set_direct(session._c_object, priority,
2273
gnutls.priority_set_direct(session._c_object,
2274
priority.encode("utf-8"),
2156
2277
# Start communication using the Mandos protocol
2157
2278
# Get protocol number
2158
2279
line = self.request.makefile().readline()
2284
2427
cert = cert_list[0]
2285
2428
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()
2288
2465
def fingerprint(openpgp):
2289
2466
"Convert an OpenPGP bytestring to a hexdigit fingerprint"
2323
2501
class MultiprocessingMixIn(object):
2324
2502
"""Like socketserver.ThreadingMixIn, but with multiprocessing"""
2326
2504
def sub_process_main(self, request, address):
2328
2506
self.finish_request(request, address)
2329
2507
except Exception:
2330
2508
self.handle_error(request, address)
2331
2509
self.close_request(request)
2333
2511
def process_request(self, request, address):
2334
2512
"""Start a new process to process the request."""
2335
proc = multiprocessing.Process(target = self.sub_process_main,
2336
args = (request, address))
2513
proc = multiprocessing.Process(target=self.sub_process_main,
2514
args=(request, address))
2341
2519
class MultiprocessingMixInWithPipe(MultiprocessingMixIn, object):
2342
2520
""" adds a pipe to the MixIn """
2344
2522
def process_request(self, request, client_address):
2345
2523
"""Overrides and wraps the original process_request().
2347
2525
This function creates a new pipe in self.pipe
2349
2527
parent_pipe, self.child_pipe = multiprocessing.Pipe()
2351
2529
proc = MultiprocessingMixIn.process_request(self, request,
2352
2530
client_address)
2353
2531
self.child_pipe.close()
2354
2532
self.add_pipe(parent_pipe, proc)
2356
2534
def add_pipe(self, parent_pipe, proc):
2357
2535
"""Dummy function; override as necessary"""
2358
2536
raise NotImplementedError()
2406
2585
# socket_wrapper(), if socketfd was set.
2407
2586
socketserver.TCPServer.__init__(self, server_address,
2408
2587
RequestHandlerClass)
2410
2589
def server_bind(self):
2411
2590
"""This overrides the normal server_bind() function
2412
2591
to bind to an interface if one was specified, and also NOT to
2413
2592
bind to an address or port if they were not specified."""
2593
global SO_BINDTODEVICE
2414
2594
if self.interface is not None:
2415
2595
if SO_BINDTODEVICE is None:
2416
logger.error("SO_BINDTODEVICE does not exist;"
2417
" cannot bind to interface %s",
2421
self.socket.setsockopt(
2422
socket.SOL_SOCKET, SO_BINDTODEVICE,
2423
(self.interface + "\0").encode("utf-8"))
2424
except socket.error as error:
2425
if error.errno == errno.EPERM:
2426
logger.error("No permission to bind to"
2427
" interface %s", self.interface)
2428
elif error.errno == errno.ENOPROTOOPT:
2429
logger.error("SO_BINDTODEVICE not available;"
2430
" cannot bind to interface %s",
2432
elif error.errno == errno.ENODEV:
2433
logger.error("Interface %s does not exist,"
2434
" cannot bind", self.interface)
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)
2437
2617
# Only bind(2) the socket if we really need to.
2438
2618
if self.server_address[0] or self.server_address[1]:
2439
2619
if not self.server_address[0]:
2440
2620
if self.address_family == socket.AF_INET6:
2441
any_address = "::" # in6addr_any
2621
any_address = "::" # in6addr_any
2443
any_address = "0.0.0.0" # INADDR_ANY
2623
any_address = "0.0.0.0" # INADDR_ANY
2444
2624
self.server_address = (any_address,
2445
2625
self.server_address[1])
2446
2626
elif not self.server_address[1]:
2480
2660
self.gnutls_priority = gnutls_priority
2481
2661
IPv6_TCPServer.__init__(self, server_address,
2482
2662
RequestHandlerClass,
2483
interface = interface,
2484
use_ipv6 = use_ipv6,
2485
socketfd = socketfd)
2663
interface=interface,
2487
2667
def server_activate(self):
2488
2668
if self.enabled:
2489
2669
return socketserver.TCPServer.server_activate(self)
2491
2671
def enable(self):
2492
2672
self.enabled = True
2494
2674
def add_pipe(self, parent_pipe, proc):
2495
2675
# Call "handle_ipc" for both data and EOF events
2496
GObject.io_add_watch(
2497
2677
parent_pipe.fileno(),
2498
GObject.IO_IN | GObject.IO_HUP,
2678
GLib.IO_IN | GLib.IO_HUP,
2499
2679
functools.partial(self.handle_ipc,
2500
parent_pipe = parent_pipe,
2680
parent_pipe=parent_pipe,
2503
2683
def handle_ipc(self, source, condition,
2504
2684
parent_pipe=None,
2506
2686
client_object=None):
2507
2687
# error, or the other end of multiprocessing.Pipe has closed
2508
if condition & (GObject.IO_ERR | GObject.IO_HUP):
2688
if condition & (GLib.IO_ERR | GLib.IO_HUP):
2509
2689
# Wait for other process to exit
2513
2693
# Read a request from the child
2514
2694
request = parent_pipe.recv()
2515
2695
command = request[0]
2517
2697
if command == 'init':
2519
address = request[2]
2521
for c in self.clients.itervalues():
2522
if c.fingerprint == fpr:
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:
2526
logger.info("Client not found for fingerprint: %s, ad"
2527
"dress: %s", fpr, address)
2712
logger.info("Client not found for key ID: %s, address"
2713
": %s", key_id or fpr, address)
2528
2714
if self.use_dbus:
2529
2715
# Emit D-Bus signal
2530
mandos_dbus_service.ClientNotFound(fpr,
2716
mandos_dbus_service.ClientNotFound(key_id or fpr,
2532
2718
parent_pipe.send(False)
2535
GObject.io_add_watch(
2536
2722
parent_pipe.fileno(),
2537
GObject.IO_IN | GObject.IO_HUP,
2723
GLib.IO_IN | GLib.IO_HUP,
2538
2724
functools.partial(self.handle_ipc,
2539
parent_pipe = parent_pipe,
2541
client_object = client))
2725
parent_pipe=parent_pipe,
2727
client_object=client))
2542
2728
parent_pipe.send(True)
2543
2729
# remove the old hook in favor of the new above hook on
3136
logger.debug("Did setuid/setgid to {}:{}".format(uid,
2940
3138
except OSError as error:
3139
logger.warning("Failed to setuid/setgid to {}:{}: {}"
3140
.format(uid, gid, os.strerror(error.errno)))
2941
3141
if error.errno != errno.EPERM:
2945
3145
# Enable all possible GnuTLS debugging
2947
3147
# "Use a log level over 10 to enable all debugging options."
2948
3148
# - GnuTLS manual
2949
3149
gnutls.global_set_log_level(11)
2951
3151
@gnutls.log_func
2952
3152
def debug_gnutls(level, string):
2953
3153
logger.debug("GnuTLS: %s", string[:-1])
2955
3155
gnutls.global_set_log_function(debug_gnutls)
2957
3157
# Redirect stdin so all checkers get /dev/null
2958
3158
null = os.open(os.devnull, os.O_NOCTTY | os.O_RDWR)
2959
3159
os.dup2(null, sys.stdin.fileno())
2963
3163
# Need to fork before connecting to D-Bus
2964
3164
if not foreground:
2965
3165
# Close all input and output, do double fork, etc.
2968
# multiprocessing will use threads, so before we use GObject we
2969
# need to inform GObject that threads will be used.
2970
GObject.threads_init()
3168
# multiprocessing will use threads, so before we use GLib we need
3169
# to inform GLib that threads will be used.
2972
3172
global main_loop
2973
3173
# From the Avahi example code
2974
3174
DBusGMainLoop(set_as_default=True)
2975
main_loop = GObject.MainLoop()
3175
main_loop = GLib.MainLoop()
2976
3176
bus = dbus.SystemBus()
2977
3177
# End of Avahi example code
2992
3192
protocol = avahi.PROTO_INET6 if use_ipv6 else avahi.PROTO_INET
2993
3193
service = AvahiServiceToSyslog(
2994
name = server_settings["servicename"],
2995
servicetype = "_mandos._tcp",
2996
protocol = protocol,
3194
name=server_settings["servicename"],
3195
servicetype="_mandos._tcp",
2998
3198
if server_settings["interface"]:
2999
3199
service.interface = if_nametoindex(
3000
3200
server_settings["interface"].encode("utf-8"))
3002
3202
global multiprocessing_manager
3003
3203
multiprocessing_manager = multiprocessing.Manager()
3005
3205
client_class = Client
3007
client_class = functools.partial(ClientDBus, bus = bus)
3207
client_class = functools.partial(ClientDBus, bus=bus)
3009
3209
client_settings = Client.config_parser(client_config)
3010
3210
old_client_settings = {}
3011
3211
clients_data = {}
3013
3213
# This is used to redirect stdout and stderr for checker processes
3015
wnull = open(os.devnull, "w") # A writable /dev/null
3215
wnull = open(os.devnull, "w") # A writable /dev/null
3016
3216
# Only used if server is running in foreground but not in debug
3018
3218
if debug or not foreground:
3021
3221
# Get client data and settings from last running state.
3022
3222
if server_settings["restore"]:
3024
3224
with open(stored_state_path, "rb") as stored_state:
3025
clients_data, old_client_settings = pickle.load(
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"]
3027
3274
os.remove(stored_state_path)
3028
3275
except IOError as e:
3029
3276
if e.errno == errno.ENOENT:
3129
3376
pidfilename, pid)
3131
3378
del pidfilename
3133
signal.signal(signal.SIGHUP, lambda signum, frame: sys.exit())
3134
signal.signal(signal.SIGTERM, lambda signum, frame: sys.exit())
3380
for termsig in (signal.SIGHUP, signal.SIGTERM):
3381
GLib.unix_signal_add(GLib.PRIORITY_HIGH, termsig,
3382
lambda: main_loop.quit() and False)
3138
3386
@alternate_dbus_interfaces(
3139
{ "se.recompile.Mandos": "se.bsnet.fukt.Mandos" })
3387
{"se.recompile.Mandos": "se.bsnet.fukt.Mandos"})
3140
3388
class MandosDBusService(DBusObjectWithObjectManager):
3141
3389
"""A D-Bus proxy object"""
3143
3391
def __init__(self):
3144
3392
dbus.service.Object.__init__(self, bus, "/")
3146
3394
_interface = "se.recompile.Mandos"
3148
3396
@dbus.service.signal(_interface, signature="o")
3149
3397
def ClientAdded(self, objpath):
3153
3401
@dbus.service.signal(_interface, signature="ss")
3154
def ClientNotFound(self, fingerprint, address):
3402
def ClientNotFound(self, key_id, address):
3158
3406
@dbus_annotations({"org.freedesktop.DBus.Deprecated":
3160
3408
@dbus.service.signal(_interface, signature="os")
3161
3409
def ClientRemoved(self, objpath, name):
3165
3413
@dbus_annotations({"org.freedesktop.DBus.Deprecated":
3167
3415
@dbus.service.method(_interface, out_signature="ao")
3168
3416
def GetAllClients(self):
3170
3418
return dbus.Array(c.dbus_object_path for c in
3171
tcp_server.clients.itervalues())
3419
tcp_server.clients.values())
3173
3421
@dbus_annotations({"org.freedesktop.DBus.Deprecated":
3175
3423
@dbus.service.method(_interface,
3234
3482
self.ClientRemoved(client.dbus_object_path,
3237
3485
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
3240
3493
"Cleanup function; run on exit"
3242
3495
service.cleanup()
3244
multiprocessing.active_children()
3497
mp.active_children()
3246
3499
if not (tcp_server.clients or client_settings):
3249
3502
# Store client before exiting. Secrets are encrypted with key
3250
3503
# based on what config file has. If config file is
3251
3504
# removed/edited, old secret will thus be unrecovable.
3253
3506
with PGPEngine() as pgp:
3254
for client in tcp_server.clients.itervalues():
3507
for client in tcp_server.clients.values():
3255
3508
key = client_settings[client.name]["secret"]
3256
3509
client.encrypted_secret = pgp.encrypt(client.secret,
3258
3511
client_dict = {}
3260
3513
# A list of attributes that can not be pickled
3262
exclude = { "bus", "changedstate", "secret",
3263
"checker", "server_settings" }
3515
exclude = {"bus", "changedstate", "secret",
3516
"checker", "server_settings"}
3264
3517
for name, typ in inspect.getmembers(dbus.service
3266
3519
exclude.add(name)
3268
3521
client_dict["encrypted_secret"] = (client
3269
3522
.encrypted_secret)
3270
3523
for attr in client.client_structure:
3271
3524
if attr not in exclude:
3272
3525
client_dict[attr] = getattr(client, attr)
3274
3527
clients[client.name] = client_dict
3275
3528
del client_settings[client.name]["secret"]
3278
3531
with tempfile.NamedTemporaryFile(