# -*- encoding: utf8 -*- # # The Qubes OS Project, http://www.qubes-os.org # # Copyright (C) 2017 Wojtek Porczyk # Copyright (C) 2017 Marek Marczykowski-Górecki # # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License along # with this program; if not, see . import asyncio import errno import functools import io import os import shutil import socket import struct import traceback import qubes.exc class ProtocolError(AssertionError): '''Raised when something is wrong with data received''' pass class PermissionDenied(Exception): '''Raised deliberately by handlers when we decide not to cooperate''' pass def method(name, *, no_payload=False, endpoints=None, **classifiers): '''Decorator factory for methods intended to appear in API. The decorated method can be called from public API using a child of :py:class:`AbstractQubesMgmt` class. The method becomes "public", and can be called using remote management interface. :param str name: qrexec rpc method name :param bool no_payload: if :py:obj:`True`, will barf on non-empty payload; \ also will not pass payload at all to the method :param iterable endpoints: if specified, method serve multiple API calls generated by replacing `{endpoint}` with each value in this iterable The expected function method should have one argument (other than usual *self*), ``untrusted_payload``, which will contain the payload. .. warning:: This argument has to be named such, to remind the programmer that the content of this variable is indeed untrusted. If *no_payload* is true, then the method is called with no arguments. ''' def decorator(func): if no_payload: # the following assignment is needed for how closures work in Python _func = func @functools.wraps(_func) def wrapper(self, untrusted_payload, **kwargs): if untrusted_payload != b'': raise ProtocolError('unexpected payload') return _func(self, **kwargs) func = wrapper # pylint: disable=protected-access if endpoints is None: func.rpcnames = ((name, None),) else: func.rpcnames = tuple( (name.format(endpoint=endpoint), endpoint) for endpoint in endpoints) func.classifiers = classifiers return func return decorator def apply_filters(iterable, filters): '''Apply filters returned by mgmt-permission:... event''' for selector in filters: iterable = filter(selector, iterable) return iterable class AbstractQubesAPI(object): '''Common code for Qubes Management Protocol handling Different interfaces can expose different API call sets, however they share common protocol and common implementation framework. This class is the latter. To implement a new interface, inherit from this class and write at least one method and decorate it with :py:func:`api` decorator. It will have access to pre-defined attributes: :py:attr:`app`, :py:attr:`src`, :py:attr:`dest`, :py:attr:`arg` and :py:attr:`method`. There are also two helper functions for firing events associated with API calls. ''' #: the preferred socket location (to be overridden in child's class) SOCKNAME = None def __init__(self, app, src, method_name, dest, arg, send_event=None): #: :py:class:`qubes.Qubes` object self.app = app #: source qube self.src = self.app.domains[src.decode('ascii')] #: destination qube self.dest = self.app.domains[dest.decode('ascii')] #: argument self.arg = arg.decode('ascii') #: name of the method self.method = method_name.decode('ascii') #: callback for sending events if applicable self.send_event = send_event #: is this operation cancellable? self.cancellable = False candidates = list(self.list_methods(self.method)) if not candidates: raise ProtocolError('no such method: {!r}'.format(self.method)) assert len(candidates) == 1, \ 'multiple candidates for method {!r}'.format(self.method) #: the method to execute self._handler = candidates[0] self._running_handler = None @classmethod def list_methods(cls, select_method=None): for attr in dir(cls): func = getattr(cls, attr) if not callable(func): continue try: # pylint: disable=protected-access rpcnames = func.rpcnames except AttributeError: continue for mname, endpoint in rpcnames: if select_method is None or mname == select_method: yield (func, mname, endpoint) def execute(self, *, untrusted_payload): '''Execute management operation. This method is a coroutine. ''' handler, _, endpoint = self._handler kwargs = {} if endpoint is not None: kwargs['endpoint'] = endpoint self._running_handler = asyncio.ensure_future(handler(self, untrusted_payload=untrusted_payload, **kwargs)) return self._running_handler def cancel(self): '''If operation is cancellable, interrupt it''' if self.cancellable and self._running_handler is not None: self._running_handler.cancel() def fire_event_for_permission(self, **kwargs): '''Fire an event on the source qube to check for permission''' return self.src.fire_event('mgmt-permission:' + self.method, pre_event=True, dest=self.dest, arg=self.arg, **kwargs) def fire_event_for_filter(self, iterable, **kwargs): '''Fire an event on the source qube to filter for permission''' return apply_filters(iterable, self.fire_event_for_permission(**kwargs)) class QubesDaemonProtocol(asyncio.Protocol): buffer_size = 65536 header = struct.Struct('Bx') def __init__(self, handler, *args, app, debug=False, **kwargs): super().__init__(*args, **kwargs) self.handler = handler self.app = app self.untrusted_buffer = io.BytesIO() self.len_untrusted_buffer = 0 self.transport = None self.debug = debug self.event_sent = False self.mgmt = None def connection_made(self, transport): self.transport = transport def connection_lost(self, exc): self.untrusted_buffer.close() # for cancellable operation, interrupt it, otherwise it will do nothing if self.mgmt is not None: self.mgmt.cancel() self.transport = None def data_received(self, untrusted_data): # pylint: disable=arguments-differ if self.len_untrusted_buffer + len(untrusted_data) > self.buffer_size: self.app.log.warning('request too long') self.transport.abort() self.untrusted_buffer.close() return self.len_untrusted_buffer += \ self.untrusted_buffer.write(untrusted_data) def eof_received(self): try: src, meth, dest, arg, untrusted_payload = \ self.untrusted_buffer.getvalue().split(b'\0', 4) except ValueError: self.app.log.warning('framing error') self.transport.abort() return finally: self.untrusted_buffer.close() asyncio.ensure_future(self.respond( src, meth, dest, arg, untrusted_payload=untrusted_payload)) return True @asyncio.coroutine def respond(self, src, meth, dest, arg, *, untrusted_payload): try: self.mgmt = self.handler(self.app, src, meth, dest, arg, self.send_event) response = yield from self.mgmt.execute( untrusted_payload=untrusted_payload) assert not (self.event_sent and response) if self.transport is None: return # except clauses will fall through to transport.abort() below except PermissionDenied: self.app.log.warning( 'permission denied for call %s+%s (%s → %s) ' 'with payload of %d bytes', meth, arg, src, dest, len(untrusted_payload)) except ProtocolError: self.app.log.warning( 'protocol error for call %s+%s (%s → %s) ' 'with payload of %d bytes', meth, arg, src, dest, len(untrusted_payload)) except qubes.exc.QubesException as err: msg = ('%r while calling ' 'src=%r meth=%r dest=%r arg=%r len(untrusted_payload)=%d') if self.debug: self.app.log.exception(msg, err, src, meth, dest, arg, len(untrusted_payload)) else: self.app.log.info(msg, err, src, meth, dest, arg, len(untrusted_payload)) if self.transport is not None: self.send_exception(err) self.transport.write_eof() self.transport.close() return except Exception: # pylint: disable=broad-except self.app.log.exception( 'unhandled exception while calling ' 'src=%r meth=%r dest=%r arg=%r len(untrusted_payload)=%d', src, meth, dest, arg, len(untrusted_payload)) else: if not self.event_sent: self.send_response(response) try: self.transport.write_eof() except NotImplementedError: pass self.transport.close() return # this is reached if from except: blocks; do not put it in finally:, # because this will prevent the good case from sending the reply self.transport.abort() def send_header(self, *args): self.transport.write(self.header.pack(*args)) def send_response(self, content): assert not self.event_sent self.send_header(0x30) if content is not None: self.transport.write(content.encode('utf-8')) def send_event(self, subject, event, **kwargs): self.event_sent = True self.send_header(0x31) if subject is not self.app: self.transport.write(subject.name.encode('ascii')) self.transport.write(b'\0') self.transport.write(event.encode('ascii') + b'\0') for k, v in kwargs.items(): self.transport.write('{}\0{}\0'.format(k, str(v)).encode('ascii')) self.transport.write(b'\0') def send_exception(self, exc): self.send_header(0x32) self.transport.write(type(exc).__name__.encode() + b'\0') if self.debug: self.transport.write(''.join(traceback.format_exception( type(exc), exc, exc.__traceback__)).encode('utf-8')) self.transport.write(b'\0') self.transport.write(str(exc).encode('utf-8') + b'\0') @asyncio.coroutine def create_servers(*args, force=False, loop=None, **kwargs): '''Create multiple Qubes API servers :param qubes.Qubes app: the app that is a backend of the servers :param bool force: if :py:obj:`True`, unconditionally remove existing \ sockets; if :py:obj:`False`, raise an error if there is some process \ listening to such socket :param asyncio.Loop loop: loop *args* are supposed to be classes inheriting from :py:class:`AbstractQubesAPI` *kwargs* (like *app* or *debug* for example) are passed to :py:class:`QubesDaemonProtocol` constructor ''' loop = loop or asyncio.get_event_loop() servers = [] old_umask = os.umask(0o007) try: # XXX this can be optimised with asyncio.wait() to start servers in # parallel, but I currently don't see the need for handler in args: sockpath = handler.SOCKNAME assert sockpath is not None, \ 'SOCKNAME needs to be overloaded in {}'.format( type(handler).__name__) if os.path.exists(sockpath): if force: os.unlink(sockpath) else: sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM) try: sock.connect(sockpath) except ConnectionRefusedError: # dead socket, remove it anyway os.unlink(sockpath) else: # woops, someone is listening sock.close() raise FileExistsError(errno.EEXIST, 'socket already exists: {!r}'.format(sockpath)) server = yield from loop.create_unix_server( functools.partial(QubesDaemonProtocol, handler, **kwargs), sockpath) for sock in server.sockets: shutil.chown(sock.getsockname(), group='qubes') servers.append(server) finally: os.umask(old_umask) return servers