# -*- encoding: utf8 -*- # # The Qubes OS Project, http://www.qubes-os.org # # 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 Lesser General Public License as published by # the Free Software Foundation; either version 2.1 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 Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public License along # with this program; if not, see . ''' Main Qubes() class and related classes. ''' import os import shlex import socket import subprocess import logging import qubesadmin.base import qubesadmin.exc import qubesadmin.label import qubesadmin.storage import qubesadmin.utils import qubesadmin.vm import qubesadmin.config BUF_SIZE = 4096 VM_ENTRY_POINT = 'qubesadmin.vm' class VMCollection(object): '''Collection of VMs objects''' def __init__(self, app): self.app = app self._vm_list = None self._vm_objects = {} def clear_cache(self): '''Clear cached list of VMs''' self._vm_list = None def refresh_cache(self, force=False): '''Refresh cached list of VMs''' if not force and self._vm_list is not None: return vm_list_data = self.app.qubesd_call( 'dom0', 'admin.vm.List' ) new_vm_list = {} # FIXME: this will probably change for vm_data in vm_list_data.splitlines(): vm_name, props = vm_data.decode('ascii').split(' ', 1) vm_name = str(vm_name) props = props.split(' ') new_vm_list[vm_name] = dict( [vm_prop.split('=', 1) for vm_prop in props]) self._vm_list = new_vm_list for name, vm in list(self._vm_objects.items()): if vm.name not in self._vm_list: # VM no longer exists del self._vm_objects[name] elif vm.__class__.__name__ != self._vm_list[vm.name]['class']: # VM class have changed del self._vm_objects[name] # TODO: some generation ID, to detect VM re-creation elif name != vm.name: # renamed self._vm_objects[vm.name] = vm del self._vm_objects[name] def __getitem__(self, item): if item not in self: raise KeyError(item) if item not in self._vm_objects: cls = qubesadmin.utils.get_entry_point_one(VM_ENTRY_POINT, self._vm_list[item]['class']) self._vm_objects[item] = cls(self.app, item) return self._vm_objects[item] def __contains__(self, item): self.refresh_cache() return item in self._vm_list def __delitem__(self, key): self.app.qubesd_call(key, 'admin.vm.Remove') self.clear_cache() def __iter__(self): self.refresh_cache() for vm in sorted(self._vm_list): yield self[vm] def keys(self): '''Get list of VM names.''' self.refresh_cache() return self._vm_list.keys() class QubesBase(qubesadmin.base.PropertyHolder): '''Main Qubes application''' #: domains (VMs) collection domains = None #: labels collection labels = None #: storage pools pools = None #: type of qubesd connection: either 'socket' or 'qrexec' qubesd_connection_type = None #: logger log = None def __init__(self): super(QubesBase, self).__init__(self, 'admin.property.', 'dom0') self.domains = VMCollection(self) self.labels = qubesadmin.base.WrapperObjectsCollection( self, 'admin.label.List', qubesadmin.label.Label) self.pools = qubesadmin.base.WrapperObjectsCollection( self, 'admin.pool.List', qubesadmin.storage.Pool) #: cache for available storage pool drivers and options to create them self._pool_drivers = None self.log = logging.getLogger('app') def _refresh_pool_drivers(self): ''' Refresh cached storage pool drivers and their parameters. :return: None ''' if self._pool_drivers is None: pool_drivers_data = self.qubesd_call( 'dom0', 'admin.pool.ListDrivers', None, None) assert pool_drivers_data.endswith(b'\n') pool_drivers = {} for driver_line in pool_drivers_data.decode('ascii').splitlines(): if not driver_line: continue driver_name, driver_options = driver_line.split(' ', 1) pool_drivers[driver_name] = driver_options.split(' ') self._pool_drivers = pool_drivers @property def pool_drivers(self): ''' Available storage pool drivers ''' self._refresh_pool_drivers() return self._pool_drivers.keys() def pool_driver_parameters(self, driver): ''' Parameters to initialize storage pool using given driver ''' self._refresh_pool_drivers() return self._pool_drivers[driver] def add_pool(self, name, driver, **kwargs): ''' Add a storage pool to config :param name: name of storage pool to create :param driver: driver to use, see :py:meth:`pool_drivers` for available drivers :param kwargs: configuration parameters for storage pool, see :py:meth:`pool_driver_parameters` for a list ''' # sort parameters only to ease testing, not required by API payload = 'name={}\n'.format(name) + \ ''.join('{}={}\n'.format(key, value) for key, value in sorted(kwargs.items())) self.qubesd_call('dom0', 'admin.pool.Add', driver, payload.encode('utf-8')) def remove_pool(self, name): ''' Remove a storage pool ''' self.qubesd_call('dom0', 'admin.pool.Remove', name, None) def get_label(self, label): '''Get label as identified by index or name :throws KeyError: when label is not found ''' # first search for name, verbatim try: return self.labels[label] except KeyError: pass # then search for index if label.isdigit(): for i in self.labels: if i.index == int(label): return i raise KeyError(label) @staticmethod def get_vm_class(clsname): '''Find the class for a domain. Classes are registered as setuptools' entry points in ``qubes.vm`` group. Any package may supply their own classes. :param str clsname: name of the class :return type: class ''' try: return qubesadmin.utils.get_entry_point_one( VM_ENTRY_POINT, clsname) except KeyError: raise qubesadmin.exc.QubesException( 'no such VM class: {!r}'.format(clsname)) # don't catch TypeError def add_new_vm(self, cls, name, label, template=None, pool=None, pools=None): '''Create new Virtual Machine Example usage with custom storage pools: >>> app = qubesadmin.Qubes() >>> pools = {'private': 'external'} >>> vm = app.add_new_vm('AppVM', 'my-new-vm', 'red', >>> 'my-template', pools=pools) >>> vm.netvm = app.domains['sys-whonix'] :param str cls: name of VM class (`AppVM`, `TemplateVM` etc) :param str name: name of VM :param str label: label color for new VM :param str template: template to use (if apply for given VM class), can be also VM object; use None for default value :param str pool: storage pool to use instead of default one :param dict pools: storage pool for specific volumes :return new VM object ''' if not isinstance(cls, str): cls = cls.__name__ if template is not None: template = str(template) if pool and pools: raise ValueError('only one of pool= and pools= can be used') method_prefix = 'admin.vm.Create.' payload = 'name={} label={}'.format(name, label) if pool: payload += ' pool={}'.format(str(pool)) method_prefix = 'admin.vm.CreateInPool.' if pools: payload += ''.join(' pool:{}={}'.format(vol, str(pool)) for vol, pool in sorted(pools.items())) method_prefix = 'admin.vm.CreateInPool.' self.qubesd_call('dom0', method_prefix + cls, template, payload.encode('utf-8')) self.domains.clear_cache() return self.domains[name] def clone_vm(self, src_vm, new_name, pool=None, pools=None): '''Clone Virtual Machine Example usage with custom storage pools: >>> app = qubesadmin.Qubes() >>> pools = {'private': 'external'} >>> src_vm = app.domains['personal'] >>> vm = app.clone_vm(src_vm, 'my-new-vm', pools=pools) >>> vm.label = app.labels['green'] :param str cls: name of VM class (`AppVM`, `TemplateVM` etc) :param str name: name of VM :param str label: label color for new VM :param str template: template to use (if apply for given VM class), can be also VM object; use None for default value :param str pool: storage pool to use instead of default one :param dict pools: storage pool for specific volumes :return new VM object ''' if pool and pools: raise ValueError('only one of pool= and pools= can be used') if not isinstance(src_vm, str): src_vm = str(src_vm) method = 'admin.vm.Clone' payload = 'name={}'.format(new_name) if pool: payload += ' pool={}'.format(str(pool)) method = 'admin.vm.CloneInPool' if pools: payload += ''.join(' pool:{}={}'.format(vol, str(pool)) for vol, pool in sorted(pools.items())) method = 'admin.vm.CloneInPool' self.qubesd_call(src_vm, method, None, payload.encode('utf-8')) return self.domains[new_name] def run_service(self, dest, service, filter_esc=False, user=None, localcmd=None, wait=True, **kwargs): '''Run qrexec service in a given destination *kwargs* are passed verbatim to :py:meth:`subprocess.Popen`. :param str dest: Destination - may be a VM name or empty string for default (for a given service) :param str service: service name :param bool filter_esc: filter escape sequences to protect terminal \ emulator :param str user: username to run service as :param str localcmd: Command to connect stdin/stdout to :rtype: subprocess.Popen ''' raise NotImplementedError class QubesLocal(QubesBase): '''Application object communicating through local socket. Used when running in dom0. ''' qubesd_connection_type = 'socket' def qubesd_call(self, dest, method, arg=None, payload=None, payload_stream=None): ''' Execute Admin API method. Only one of `payload` and `payload_stream` can be specified. :param dest: Destination VM name :param method: Full API method name ('admin...') :param arg: Method argument (if any) :param payload: Payload send to the method :param payload_stream: file-like object to read payload from :return: Data returned by qubesd (string) ''' if payload and payload_stream: raise ValueError( 'Only one of payload and payload_stream can be used') if payload_stream: # payload_stream can be used for large amount of data, # so optimize for throughput, not latency: spawn actual qrexec # service implementation, which may use some optimization there ( # see admin.vm.volume.Import - actual data handling is done with dd) method_path = os.path.join( qubesadmin.config.QREXEC_SERVICES_DIR, method) if not os.path.exists(method_path): raise qubesadmin.exc.QubesDaemonCommunicationError( '{} not found'.format(method_path)) qrexec_call_env = os.environ.copy() qrexec_call_env['QREXEC_REMOTE_DOMAIN'] = 'dom0' qrexec_call_env['QREXEC_REQUESTED_TARGET'] = dest proc = subprocess.Popen([method_path, arg], stdin=payload_stream, stdout=subprocess.PIPE, env=qrexec_call_env) (return_data, _) = proc.communicate() return self._parse_qubesd_response(return_data) try: client_socket = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM) client_socket.connect(qubesadmin.config.QUBESD_SOCKET) except IOError: # TODO: raise # src, method, dest, arg for call_arg in ('dom0', method, dest, arg): if call_arg is not None: client_socket.sendall(call_arg.encode('ascii')) client_socket.sendall(b'\0') if payload is not None: client_socket.sendall(payload) client_socket.shutdown(socket.SHUT_WR) return_data = client_socket.makefile('rb').read() client_socket.close() return self._parse_qubesd_response(return_data) def run_service(self, dest, service, filter_esc=False, user=None, localcmd=None, wait=True, **kwargs): '''Run qrexec service in a given destination :param str dest: Destination - may be a VM name or empty string for default (for a given service) :param str service: service name :param bool filter_esc: filter escape sequences to protect terminal \ emulator :param str user: username to run service as :param str localcmd: Command to connect stdin/stdout to :param bool wait: wait for remote process to finish :rtype: subprocess.Popen ''' if not dest: raise ValueError('Empty destination name allowed only from a VM') if not wait and localcmd: raise ValueError('wait=False incompatible with localcmd') try: self.qubesd_call(dest, 'admin.vm.Start') except qubesadmin.exc.QubesVMNotHaltedError: pass qrexec_opts = ['-d', dest] if filter_esc: qrexec_opts.extend(['-t', '-T']) if localcmd: qrexec_opts.extend(['-l', localcmd]) if user is None: user = 'DEFAULT' if not wait: qrexec_opts.extend(['-e']) kwargs.setdefault('stdin', subprocess.PIPE) kwargs.setdefault('stdout', subprocess.PIPE) kwargs.setdefault('stderr', subprocess.PIPE) proc = subprocess.Popen([qubesadmin.config.QREXEC_CLIENT] + qrexec_opts + ['{}:QUBESRPC {} dom0'.format(user, service)], **kwargs) return proc class QubesRemote(QubesBase): '''Application object communicating through qrexec services. Used when running in VM. ''' qubesd_connection_type = 'qrexec' def qubesd_call(self, dest, method, arg=None, payload=None, payload_stream=None): ''' Execute Admin API method. Only one of `payload` and `payload_stream` can be specified. :param dest: Destination VM name :param method: Full API method name ('admin...') :param arg: Method argument (if any) :param payload: Payload send to the method :param payload_stream: file-like object to read payload from :return: Data returned by qubesd (string) ''' if payload and payload_stream: raise ValueError( 'Only one of payload and payload_stream can be used') service_name = method if arg is not None: service_name += '+' + arg p = subprocess.Popen([qubesadmin.config.QREXEC_CLIENT_VM, dest, service_name], stdin=(payload_stream or subprocess.PIPE), stdout=subprocess.PIPE, stderr=subprocess.PIPE) (stdout, stderr) = p.communicate(payload) if p.returncode != 0: # TODO: use dedicated exception raise qubesadmin.exc.QubesException('Service call error: %s', stderr.decode()) return self._parse_qubesd_response(stdout) def run_service(self, dest, service, filter_esc=False, user=None, localcmd=None, wait=True, **kwargs): '''Run qrexec service in a given destination :param str dest: Destination - may be a VM name or empty string for default (for a given service) :param str service: service name :param bool filter_esc: filter escape sequences to protect terminal \ emulator :param str user: username to run service as :param str localcmd: Command to connect stdin/stdout to :param bool wait: wait for process to finish :rtype: subprocess.Popen ''' if filter_esc: raise NotImplementedError( 'filter_esc not implemented for calls from VM') if user: raise ValueError( 'non-default user not possible for calls from VM') if not wait and localcmd: raise ValueError('wait=False incompatible with localcmd') if not wait: # qrexec-client-vm can only request service calls, which are # started using MSG_EXEC_CMDLINE qrexec protocol message; this # message means "start the process, pipe its stdin/out/err, # and when it terminates, send exit code back". # According to the protocol qrexec-client-vm needs to wait for # MSG_DATA_EXIT_CODE, so implementing wait=False would require # some protocol change (or protocol violation). raise NotImplementedError( 'wait=False not implemented for calls from VM') kwargs.setdefault('stdin', subprocess.PIPE) kwargs.setdefault('stdout', subprocess.PIPE) kwargs.setdefault('stderr', subprocess.PIPE) proc = subprocess.Popen([qubesadmin.config.QREXEC_CLIENT_VM, dest or '', service] + (shlex.split(localcmd) if localcmd else []), **kwargs) return proc