# pylint: disable=invalid-name # # The Qubes OS Project, https://www.qubes-os.org/ # # Copyright (C) 2014-2015 Joanna Rutkowska # Copyright (C) 2014-2015 # Marek Marczykowski-Górecki # Copyright (C) 2014-2015 Wojtek Porczyk # # This library 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 library 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 library; if not, see . # """ .. warning:: The test suite hereby claims any domain whose name starts with :py:data:`VMPREFIX` as fair game. This is needed to enforce sane test executing environment. If you have domains named ``test-*``, don't run the tests. """ import asyncio import collections import functools import logging import os import pathlib import shlex import shutil import subprocess import sys import tempfile import time import traceback import unittest import warnings from distutils import spawn import gc import lxml.etree import pkg_resources import qubes import qubes.api import qubes.api.admin import qubes.api.internal import qubes.api.misc import qubes.backup import qubes.config import qubes.devices import qubes.events import qubes.exc import qubes.ext.pci import qubes.vm.standalonevm import qubes.vm.templatevm XMLPATH = '/var/lib/qubes/qubes-test.xml' CLASS_XMLPATH = '/var/lib/qubes/qubes-class-test.xml' TEMPLATE = 'fedora-23' VMPREFIX = 'test-inst-' CLSVMPREFIX = 'test-cls-' if 'DEFAULT_LVM_POOL' in os.environ.keys(): DEFAULT_LVM_POOL = os.environ['DEFAULT_LVM_POOL'] else: DEFAULT_LVM_POOL = 'qubes_dom0/pool00' POOL_CONF = {'name': 'test-lvm', 'driver': 'lvm_thin', 'volume_group': DEFAULT_LVM_POOL.split('/')[0], 'thin_pool': DEFAULT_LVM_POOL.split('/')[1]} #: :py:obj:`True` if running in dom0, :py:obj:`False` otherwise in_dom0 = False #: :py:obj:`False` if outside of git repo, #: path to root of the directory otherwise in_git = False try: import libvirt libvirt.openReadOnly(qubes.config.defaults['libvirt_uri']).close() in_dom0 = True except libvirt.libvirtError: pass if in_dom0: import libvirtaio libvirt_event_impl = libvirtaio.virEventRegisterAsyncIOImpl() else: libvirt_event_impl = None try: in_git = subprocess.check_output( ['git', 'rev-parse', '--show-toplevel']).decode().strip() qubes.log.LOGPATH = '/tmp' qubes.log.LOGFILE = '/tmp/qubes.log' except subprocess.CalledProcessError: # git returned nonzero, we are outside git repo pass except OSError: # command not found; let's assume we're outside pass ha_syslog = None def skipUnlessDom0(test_item): '''Decorator that skips test outside dom0. Some tests (especially integration tests) have to be run in more or less working dom0. This is checked by connecting to libvirt. ''' return unittest.skipUnless(in_dom0, 'outside dom0')(test_item) def skipUnlessGit(test_item): '''Decorator that skips test outside git repo. There are very few tests that an be run only in git. One example is correctness of example code that won't get included in RPM. ''' return unittest.skipUnless(in_git, 'outside git tree')(test_item) def skipUnlessEnv(varname): '''Decorator generator for skipping tests without environment variable set. Some tests require working X11 display, like those using GTK library, which segfaults without connection to X. Other require their own, custom variables. ''' return unittest.skipUnless(os.getenv(varname), 'no {} set'.format(varname)) class TestEmitter(qubes.events.Emitter): '''Dummy event emitter which records events fired on it. Events are counted in :py:attr:`fired_events` attribute, which is :py:class:`collections.Counter` instance. For each event, ``(event, args, kwargs)`` object is counted. *event* is event name (a string), *args* is tuple with positional arguments and *kwargs* is sorted tuple of items from keyword arguments. >>> emitter = TestEmitter() >>> emitter.fired_events Counter() >>> emitter.fire_event('event', spam='eggs', foo='bar') >>> emitter.fired_events Counter({('event', (1, 2, 3), (('foo', 'bar'), ('spam', 'eggs'))): 1}) ''' def __init__(self, *args, **kwargs): super(TestEmitter, self).__init__(*args, **kwargs) #: :py:class:`collections.Counter` instance self.fired_events = collections.Counter() def fire_event(self, event, **kwargs): effects = super(TestEmitter, self).fire_event(event, **kwargs) ev_kwargs = frozenset( (key, frozenset(value.items()) if isinstance(value, dict) else tuple(value) if isinstance(value, list) else value) for key, value in kwargs.items() ) self.fired_events[(event, ev_kwargs)] += 1 return effects @asyncio.coroutine def fire_event_async(self, event, pre_event=False, **kwargs): effects = yield from super(TestEmitter, self).fire_event_async( event, pre_event=pre_event, **kwargs) ev_kwargs = frozenset( (key, frozenset(value.items()) if isinstance(value, dict) else value) for key, value in kwargs.items() ) self.fired_events[(event, ev_kwargs)] += 1 return effects def expectedFailureIfTemplate(templates): """ Decorator for marking specific test as expected to fail only for some templates. Template name is compared as substring, so 'whonix' will handle both 'whonix-ws' and 'whonix-gw'. templates can be either a single string, or an iterable """ def decorator(func): @functools.wraps(func) def wrapper(self, *args, **kwargs): template = self.template if isinstance(templates, str): should_expect_fail = template in templates else: should_expect_fail = any([template in x for x in templates]) if should_expect_fail: try: func(self, *args, **kwargs) except Exception: raise unittest.case._ExpectedFailure(sys.exc_info()) raise unittest.case._UnexpectedSuccess() else: # Call directly: func(self, *args, **kwargs) return wrapper return decorator def wait_on_fail(func): """Test decorator for debugging. It pause test execution on failure and wait for user input. It's useful to manually inspect system state just after test fails, before executing any cleanup. Usage: decorate a test you are debugging. DO IT ONLY TEMPORARILY, DO NOT COMMIT! """ @functools.wraps(func) def wrapper(self, *args, **kwargs): try: func(self, *args, **kwargs) except: print('FAIL\n') traceback.print_exc() print('Press return to continue:', end='') sys.stdout.flush() reader = asyncio.StreamReader(loop=self.loop) transport, protocol = self.loop.run_until_complete( self.loop.connect_read_pipe(lambda: asyncio.StreamReaderProtocol(reader), sys.stdin)) self.loop.run_until_complete(reader.readline()) raise return wrapper class _AssertNotRaisesContext(object): """A context manager used to implement TestCase.assertNotRaises methods. Stolen from unittest and hacked. Regexp support stripped. """ # pylint: disable=too-few-public-methods def __init__(self, expected, test_case, expected_regexp=None): if expected_regexp is not None: raise NotImplementedError('expected_regexp is unsupported') self.expected = expected self.exception = None self.failureException = test_case.failureException def __enter__(self): return self def __exit__(self, exc_type, exc_value, tb): if exc_type is None: return True if issubclass(exc_type, self.expected): raise self.failureException( "{!r} raised, traceback:\n{!s}".format( exc_value, ''.join(traceback.format_tb(tb)))) else: # pass through return False self.exception = exc_value # store for later retrieval class _QrexecPolicyContext(object): '''Context manager for SystemTestCase.qrexec_policy''' def __init__(self, service, source, destination, allow=True, action=None): try: source = source.name except AttributeError: pass try: destination = destination.name except AttributeError: pass self._filename = pathlib.Path('/etc/qubes-rpc/policy') / service if action is None: action = 'allow' if allow else 'deny' self._rule = '{} {} {}\n'.format(source, destination, action) self._did_create = False self._handle = None def load(self): if self._handle is None: try: self._handle = self._filename.open('r+') except FileNotFoundError: self._handle = self._filename.open('w+') self._did_create = True self._handle.seek(0) return self._handle.readlines() def save(self, rules): assert self._handle is not None self._handle.truncate(0) self._handle.seek(0) self._handle.write(''.join(rules)) self._handle.flush() def close(self): assert self._handle is not None self._handle.close() self._handle = None def __enter__(self): rules = self.load() rules.insert(0, self._rule) self.save(rules) return self def __exit__(self, exc_type, exc_value, tb): if not self._did_create: try: rules = self.load() rules.remove(self._rule) self.save(rules) finally: self.close() else: self.close() self._filename.unlink() class substitute_entry_points(object): '''Monkey-patch pkg_resources to substitute one group in iter_entry_points This is for testing plugins, like device classes. :param str group: The group that is to be overloaded. :param str tempgroup: The substitute group. Inside this context, if one iterates over entry points in overloaded group, the iteration actually happens over the other group. This context manager is stackable. To substitute more than one entry point group, just nest two contexts. ''' # pylint: disable=invalid-name def __init__(self, group, tempgroup): self.group = group self.tempgroup = tempgroup self._orig_iter_entry_points = None def _iter_entry_points(self, group, *args, **kwargs): if group == self.group: group = self.tempgroup return self._orig_iter_entry_points(group, *args, **kwargs) def __enter__(self): self._orig_iter_entry_points = pkg_resources.iter_entry_points pkg_resources.iter_entry_points = self._iter_entry_points return self def __exit__(self, exc_type, exc_value, tb): pkg_resources.iter_entry_points = self._orig_iter_entry_points self._orig_iter_entry_points = None class QubesTestCase(unittest.TestCase): '''Base class for Qubes unit tests. ''' def __init__(self, *args, **kwargs): super(QubesTestCase, self).__init__(*args, **kwargs) self.longMessage = True self.log = logging.getLogger('{}.{}.{}'.format( self.__class__.__module__, self.__class__.__name__, self._testMethodName)) self.addTypeEqualityFunc(qubes.devices.DeviceManager, self.assertDevicesEqual) self.loop = None def __str__(self): return '{}/{}/{}'.format( self.__class__.__module__, self.__class__.__name__, self._testMethodName) def setUp(self): super().setUp() self.addCleanup(self.cleanup_gc) self.loop = asyncio.get_event_loop() self.addCleanup(self.cleanup_loop) self.addCleanup(self.cleanup_traceback) def cleanup_traceback(self): '''Remove local variables reference from tracebacks to allow garbage collector to clean all Qubes*() objects, otherwise file descriptors held by them will leak''' exc_infos = [e for test_case, e in self._outcome.errors if test_case is self] if self._outcome.expectedFailure: exc_infos.append(self._outcome.expectedFailure) for exc_info in exc_infos: if exc_info is None: continue ex = exc_info[1] while ex is not None: if isinstance(ex, qubes.exc.QubesVMError): ex.vm = None traceback.clear_frames(ex.__traceback__) ex = ex.__context__ def cleanup_gc(self): gc.collect() leaked = [obj for obj in gc.get_objects() + gc.garbage if isinstance(obj, (qubes.Qubes, qubes.vm.BaseVM, libvirt.virConnect, libvirt.virDomain))] if leaked: try: import objgraph objgraph.show_backrefs(leaked, max_depth=15, extra_info=extra_info, filename='/tmp/objgraph-{}.png'.format(self.id())) except ImportError: pass # do not keep leaked object references in locals() leaked = bool(leaked) assert not leaked def cleanup_loop(self): '''Check if the loop is empty''' # XXX BEWARE this is touching undocumented, implementation-specific # attributes of the loop. This is most certainly unsupported and likely # will break when messing with: Python version, kernel family, loop # implementation, a combination thereof, or other things. # KEYWORDS for searching: # win32, SelectorEventLoop, ProactorEventLoop, uvloop, gevent global libvirt_event_impl # really destroy all objects that could have used loop and/or libvirt gc.collect() # Check for unfinished libvirt business. if libvirt_event_impl is not None: try: self.loop.run_until_complete(asyncio.wait_for( libvirt_event_impl.drain(), timeout=4)) except asyncio.TimeoutError: raise AssertionError('libvirt event impl drain timeout') # this is stupid, but apparently it requires two passes # to cleanup SIGCHLD handlers self.loop.stop() self.loop.run_forever() self.loop.stop() self.loop.run_forever() # Check there are no Tasks left. assert not self.loop._ready assert not self.loop._scheduled # Check the loop watches no descriptors. # NOTE the loop has a pipe for self-interrupting, created once per # lifecycle, and it is unwatched only at loop.close(); so we cannot just # check selector for non-emptiness assert len(self.loop._selector.get_map()) \ == int(self.loop._ssock is not None) del self.loop def assertNotRaises(self, excClass, callableObj=None, *args, **kwargs): """Fail if an exception of class excClass is raised by callableObj when invoked with arguments args and keyword arguments kwargs. If a different type of exception is raised, it will not be caught, and the test case will be deemed to have suffered an error, exactly as for an unexpected exception. If called with callableObj omitted or None, will return a context object used like this:: with self.assertRaises(SomeException): do_something() The context manager keeps a reference to the exception as the 'exception' attribute. This allows you to inspect the exception after the assertion:: with self.assertRaises(SomeException) as cm: do_something() the_exception = cm.exception self.assertEqual(the_exception.error_code, 3) """ context = _AssertNotRaisesContext(excClass, self) if callableObj is None: return context with context: callableObj(*args, **kwargs) def assertXMLEqual(self, xml1, xml2, msg=''): '''Check for equality of two XML objects. :param xml1: first element :param xml2: second element :type xml1: :py:class:`lxml.etree._Element` :type xml2: :py:class:`lxml.etree._Element` ''' self.assertEqual(xml1.tag, xml2.tag) msg += '/' + str(xml1.tag) if xml1.text is not None and xml2.text is not None: self.assertEqual(xml1.text.strip(), xml2.text.strip(), msg) else: self.assertEqual(xml1.text, xml2.text, msg) self.assertCountEqual(xml1.keys(), xml2.keys(), msg) for key in xml1.keys(): self.assertEqual(xml1.get(key), xml2.get(key), msg) self.assertEqual(len(xml1), len(xml2), msg + ' children count') for child1, child2 in zip(xml1, xml2): self.assertXMLEqual(child1, child2, msg=msg) def assertDevicesEqual(self, devices1, devices2, msg=None): self.assertEqual(devices1.keys(), devices2.keys(), msg) for dev_class in devices1.keys(): self.assertEqual( [str(dev) for dev in devices1[dev_class]], [str(dev) for dev in devices2[dev_class]], "Devices of class {} differs{}".format( dev_class, (": " + msg) if msg else "") ) def assertEventFired(self, subject, event, kwargs=None): '''Check whether event was fired on given emitter and fail if it did not. :param subject: emitter which is being checked :type emitter: :py:class:`TestEmitter` :param str event: event identifier :param dict kwargs: when given, all items must appear in kwargs passed \ to an event ''' will_not_match = object() for ev, ev_kwargs in subject.fired_events: if ev != event: continue if kwargs is not None: ev_kwargs = dict(ev_kwargs) if any(ev_kwargs.get(k, will_not_match) != v for k, v in kwargs.items()): continue return self.fail('event {!r} {}did not fire on {!r}'.format( event, ('' if kwargs is None else '{!r} '.format(kwargs)), subject)) def assertEventNotFired(self, subject, event, kwargs=None): '''Check whether event was fired on given emitter. Fail if it did. :param subject: emitter which is being checked :type emitter: :py:class:`TestEmitter` :param str event: event identifier :param list kwargs: when given, all items must appear in kwargs passed \ to an event ''' will_not_match = object() for ev, ev_kwargs in subject.fired_events: if ev != event: continue if kwargs is not None: ev_kwargs = dict(ev_kwargs) if any(ev_kwargs.get(k, will_not_match) != v for k, v in kwargs.items()): continue self.fail('event {!r} {}did fire on {!r}'.format( event, ('' if kwargs is None else '{!r} '.format(kwargs)), subject)) return def assertXMLIsValid(self, xml, file=None, schema=None): '''Check whether given XML fulfills Relax NG schema. Schema can be given in a couple of ways: - As separate file. This is most common, and also the only way to handle file inclusion. Call with file name as second argument. - As string containing actual schema. Put that string in *schema* keyword argument. :param lxml.etree._Element xml: XML element instance to check :param str file: filename of Relax NG schema :param str schema: optional explicit schema string ''' # pylint: disable=redefined-builtin if schema is not None and file is None: relaxng = schema if isinstance(relaxng, str): relaxng = lxml.etree.XML(relaxng) # pylint: disable=protected-access if isinstance(relaxng, lxml.etree._Element): relaxng = lxml.etree.RelaxNG(relaxng) elif file is not None and schema is None: if not os.path.isabs(file): basedirs = ['/usr/share/doc/qubes/relaxng'] if in_git: basedirs.insert(0, os.path.join(in_git, 'relaxng')) for basedir in basedirs: abspath = os.path.join(basedir, file) if os.path.exists(abspath): file = abspath break relaxng = lxml.etree.RelaxNG(file=file) else: raise TypeError("There should be excactly one of 'file' and " "'schema' arguments specified.") # We have to be extra careful here in case someone messed up with # self.failureException. It should by default be AssertionError, just # what is spewed by RelaxNG(), but who knows what might happen. try: relaxng.assert_(xml) except self.failureException: raise except AssertionError as e: self.fail(str(e)) @staticmethod def make_vm_name(name, class_teardown=False): if class_teardown: return CLSVMPREFIX + name else: return VMPREFIX + name class SystemTestCase(QubesTestCase): """ Mixin for integration tests. All the tests here should use self.app object and when need qubes.xml path - should use :py:data:`XMLPATH` defined in this file. Every VM created by test, must use :py:meth:`SystemTestCase.make_vm_name` for VM name. By default self.app represents empty collection, if anything is needed there from the real collection it can be imported from self.host_app in :py:meth:`SystemTestCase.setUp`. But *can not be modified* in any way - this include both changing attributes in :py:attr:`SystemTestCase.host_app` and modifying files of such imported VM. If test need to make some modification, it must clone the VM first. If some group of tests needs class-wide initialization, first of all the author should consider if it is really needed. But if so, setUpClass can be used to create Qubes(CLASS_XMLPATH) object and create/import required stuff there. VMs created in :py:meth:`TestCase.setUpClass` should use self.make_vm_name('...', class_teardown=True) for name creation. Such (group of) test need to take care about :py:meth:`TestCase.tearDownClass` implementation itself. """ # noinspection PyAttributeOutsideInit def setUp(self): if not in_dom0: self.skipTest('outside dom0') super(SystemTestCase, self).setUp() self.remove_test_vms() global ha_syslog if ha_syslog is None: ha_syslog = logging.handlers.SysLogHandler('/dev/log') ha_syslog.setFormatter( logging.Formatter('%(name)s[%(process)d]: %(message)s')) logging.root.addHandler(ha_syslog) self.log.critical('starting') # need some information from the real qubes.xml - at least installed # templates; should not be used for testing, only to initialize self.app self.host_app = qubes.Qubes(os.path.join( qubes.config.qubes_base_dir, qubes.config.system_path['qubes_store_filename'])) if os.path.exists(CLASS_XMLPATH): shutil.copy(CLASS_XMLPATH, XMLPATH) else: shutil.copy(self.host_app.store, XMLPATH) self.app = qubes.Qubes(XMLPATH) os.environ['QUBES_XML_PATH'] = XMLPATH self.app.register_event_handlers() self.qubesd = self.loop.run_until_complete( qubes.api.create_servers( qubes.api.admin.QubesAdminAPI, qubes.api.internal.QubesInternalAPI, qubes.api.misc.QubesMiscAPI, app=self.app, debug=True)) self.addCleanup(self.cleanup_app) self.app.add_handler('domain-delete', self.close_qdb_on_remove) def close_qdb_on_remove(self, app, event, vm, **kwargs): # only close QubesDB connection, do not perform other (destructive) # actions of vm.close() if vm._qdb_connection_watch is not None: asyncio.get_event_loop().remove_reader( vm._qdb_connection_watch.watch_fd()) vm._qdb_connection_watch.close() vm._qdb_connection_watch = None def cleanup_app(self): self.remove_test_vms() server = None for server in self.qubesd: for sock in server.sockets: os.unlink(sock.getsockname()) server.close() del server # close all existing connections, especially this will interrupt # running admin.Events calls, which do keep reference to Qubes() and # libvirt connection conn = None for conn in qubes.api.QubesDaemonProtocol.connections: if conn.transport: conn.transport.abort() del conn self.loop.run_until_complete(asyncio.wait([ server.wait_closed() for server in self.qubesd])) del self.qubesd # remove all references to any complex qubes objects, to release # resources - most importantly file descriptors; this object will live # during the whole test run, but all the file descriptors would be # depleted earlier self.app.close() self.host_app.close() del self.app del self.host_app for attr in dir(self): obj_type = type(getattr(self, attr)) if obj_type.__module__.startswith('qubes'): delattr(self, attr) # then trigger garbage collector to really destroy those objects gc.collect() def init_default_template(self, template=None): if template is None: template = self.host_app.default_template elif isinstance(template, str): template = self.host_app.domains[template] self.app.default_template = str(template) def init_networking(self): if not self.app.default_template: self.skipTest('Default template required for testing networking') default_netvm = self.host_app.default_netvm # if testing Whonix Workstation based VMs, try to use sys-whonix instead if self.app.default_template.name.startswith('whonix-ws'): if 'sys-whonix' in self.host_app.domains: default_netvm = self.host_app.domains['sys-whonix'] if default_netvm is None: self.skipTest('Default netvm required') if not default_netvm.is_running(): self.skipTest('VM {} required to be running'.format( default_netvm.name)) self.app.default_netvm = str(default_netvm) def _find_pool(self, volume_group, thin_pool): ''' Returns the pool matching the specified ``volume_group`` & ``thin_pool``, or None. ''' pools = [p for p in self.app.pools if issubclass(p.__class__, qubes.storage.lvm.ThinPool)] for pool in pools: if pool.volume_group == volume_group \ and pool.thin_pool == thin_pool: return pool return None def init_lvm_pool(self): volume_group, thin_pool = DEFAULT_LVM_POOL.split('/', 1) path = "/dev/mapper/{!s}-{!s}".format(volume_group, thin_pool) if not os.path.exists(path): self.skipTest('LVM thin pool {!r} does not exist'. format(DEFAULT_LVM_POOL)) self.pool = self._find_pool(volume_group, thin_pool) if not self.pool: self.pool = self.loop.run_until_complete( self.app.add_pool(**POOL_CONF)) self.created_pool = True def _remove_vm_qubes(self, vm): vmname = vm.name app = vm.app try: del app.domains[vm.qid] except KeyError: pass try: self.loop.run_until_complete(vm.remove_from_disk()) except: # pylint: disable=bare-except pass vm.close() del vm app.save() del app # Now ensure it really went away. This may not have happened, # for example if vm.libvirt_domain malfunctioned. try: conn = libvirt.open(qubes.config.defaults['libvirt_uri']) except: # pylint: disable=bare-except pass else: try: dom = conn.lookupByName(vmname) except: # pylint: disable=bare-except pass else: self._remove_vm_libvirt(dom) conn.close() self._remove_vm_disk(vmname) @staticmethod def _remove_vm_libvirt(dom): try: dom.destroy() except libvirt.libvirtError: # not running pass dom.undefine() @staticmethod def _remove_vm_disk(vmname): for dirspec in ( 'qubes_appvms_dir', 'qubes_servicevms_dir', 'qubes_templates_dir'): dirpath = os.path.join(qubes.config.qubes_base_dir, qubes.config.system_path[dirspec], vmname) if os.path.exists(dirpath): if os.path.isdir(dirpath): shutil.rmtree(dirpath) else: os.unlink(dirpath) @staticmethod def _remove_vm_disk_lvm(prefix=VMPREFIX): ''' Remove LVM volumes with given prefix This is "a bit" drastic, as it removes volumes regardless of volume group, thin pool etc. But we assume no important data on test system. ''' try: volumes = subprocess.check_output( ['lvs', '--noheadings', '-o', 'vg_name,name', '--separator', '/']).decode() if ('/vm-' + prefix) not in volumes: return subprocess.check_call(['sudo', 'lvremove', '-f'] + [vol.strip() for vol in volumes.splitlines() if ('/vm-' + prefix) in vol], stdout=subprocess.DEVNULL) except subprocess.CalledProcessError: pass def remove_vms(self, vms): vms = list(vms) if not vms: return # workaround for https://phabricator.whonix.org/T930 # unregister all the VMs from sys-whonix, otherwise it will start them # again (possibly in further test) if 'whonix' in self.app.default_netvm.name: for vm in vms: try: self.loop.run_until_complete( self.app.default_netvm.run_service_for_stdio( 'whonix.NewStatus+{}_shutdown'.format(vm.name))) except: pass locked_vms = set() # first take startup lock for vm in vms: self.loop.run_until_complete(vm.startup_lock.acquire()) locked_vms.add(vm) # first kill all the domains, to avoid side effects of changing netvm for vm in vms: try: # XXX .is_running() may throw libvirtError if undefined if vm.is_running(): self.loop.run_until_complete(vm._kill_locked()) except: # pylint: disable=bare-except pass # break dependencies for vm in vms: vm.default_dispvm = None vm.netvm = None # take app instance from any VM to be removed app = vms[0].app if app.default_dispvm in vms: app.default_dispvm = None if app.default_netvm in vms: app.default_netvm = None del app # then remove in reverse topological order (wrt template), using naive # algorithm # this heavily depends on lack of template loops, but those are # impossible while vms: vm = vms.pop(0) # make sure that all connected VMs are going to be removed, # otherwise this will loop forever child_vms = list(getattr(vm, 'appvms', [])) assert all(x in vms for x in child_vms) if child_vms: # if still something use this VM, put it at the end of queue # and try next one vms.append(vm) continue self._remove_vm_qubes(vm) # release startup_lock, if anything was waiting at vm.start(), # it will detect the VM is gone for vm in locked_vms: vm.startup_lock.release() def remove_test_vms(self, xmlpath=XMLPATH, prefix=VMPREFIX): '''Aggressively remove any domain that has name in testing namespace. :param prefix: name prefix of VMs to remove, can be a list of prefixes ''' if isinstance(prefix, str): prefixes = [prefix] else: prefixes = prefix del prefix # first, remove them Qubes-way if os.path.exists(xmlpath): try: try: app = self.app except AttributeError: app = qubes.Qubes(xmlpath) try: host_app = self.host_app except AttributeError: host_app = qubes.Qubes() self.remove_vms([vm for vm in app.domains if any(vm.name.startswith(prefix) for prefix in prefixes) or (isinstance(vm, qubes.vm.dispvm.DispVM) and vm.name not in host_app.domains)]) if not hasattr(self, 'host_app'): host_app.close() del host_app if not hasattr(self, 'app'): app.close() del app except qubes.exc.QubesException: pass os.unlink(xmlpath) # now remove what was only in libvirt conn = libvirt.open(qubes.config.defaults['libvirt_uri']) for dom in conn.listAllDomains(): if any(dom.name().startswith(prefix) for prefix in prefixes): self._remove_vm_libvirt(dom) conn.close() # finally remove anything that is left on disk vmnames = set() for dirspec in ( 'qubes_appvms_dir', 'qubes_servicevms_dir', 'qubes_templates_dir'): dirpath = os.path.join(qubes.config.qubes_base_dir, qubes.config.system_path[dirspec]) if not os.path.exists(dirpath): continue for name in os.listdir(dirpath): if any(name.startswith(prefix) for prefix in prefixes): vmnames.add(name) for vmname in vmnames: self._remove_vm_disk(vmname) for prefix in prefixes: self._remove_vm_disk_lvm(prefix) def qrexec_policy(self, service, source, destination, allow=True, action=None): """ Allow qrexec calls for duration of the test :param service: service name :param source: source VM name :param destination: destination VM name :param allow: add rule with 'allow' action, otherwise 'deny' :param action: custom action, if specified *allow* argument is ignored :return: """ return _QrexecPolicyContext(service, source, destination, allow=allow, action=action) @asyncio.coroutine def wait_for_window_hide_coro(self, title, winid, timeout=30): """ Wait for window do disappear :param winid: window id :return: """ wait_count = 0 while subprocess.call(['xdotool', 'getwindowname', str(winid)], stdout=subprocess.DEVNULL, stderr=subprocess.STDOUT) == 0: wait_count += 1 if wait_count > timeout * 10: self.fail("Timeout while waiting for {}({}) window to " "disappear".format(title, winid)) yield from asyncio.sleep(0.1) @asyncio.coroutine def wait_for_window_coro(self, title, search_class=False, timeout=30, show=True): """ Wait for a window with a given title. Depending on show parameter, it will wait for either window to show or to disappear. :param title: title of the window to wait for :param timeout: timeout of the operation, in seconds :param show: if True - wait for the window to be visible, otherwise - to not be visible :param search_class: search based on window class instead of title :return: window id of found window, if show=True """ xdotool_search = ['xdotool', 'search', '--onlyvisible'] if search_class: xdotool_search.append('--class') else: xdotool_search.append('--name') if show: xdotool_search.append('--sync') if not show: try: winid = subprocess.check_output(xdotool_search + [title], stderr=subprocess.DEVNULL).decode() except subprocess.CalledProcessError: # already gone return yield from self.wait_for_window_hide_coro(winid, title, timeout=timeout) return winid = None while not winid: p = yield from asyncio.create_subprocess_exec( *xdotool_search, title, stderr=subprocess.DEVNULL, stdout=subprocess.PIPE) try: (winid, _) = yield from asyncio.wait_for( p.communicate(), timeout) # don't check exit code, getting winid on stdout is enough # indicator of success; specifically ignore xdotool failing # with BadWindow or such - when some window appears only for a # moment by xdotool didn't manage to get its properties except asyncio.TimeoutError: self.fail( "Timeout while waiting for {} window to show".format(title)) return winid.decode().strip() def wait_for_window(self, *args, **kwargs): """ Wait for a window with a given title. Depending on show parameter, it will wait for either window to show or to disappear. :param title: title of the window to wait for :param timeout: timeout of the operation, in seconds :param show: if True - wait for the window to be visible, otherwise - to not be visible :param search_class: search based on window class instead of title :return: window id of found window, if show=True """ return self.loop.run_until_complete( self.wait_for_window_coro(*args, **kwargs)) def enter_keys_in_window(self, title, keys): """ Search for window with given title, then enter listed keys there. The function will wait for said window to appear. :param title: title of window :param keys: list of keys to enter, as for `xdotool key` :return: None """ # 'xdotool search --sync' sometimes crashes on some race when # accessing window properties self.wait_for_window(title) command = ['xdotool', 'search', '--name', title, 'windowactivate', '--sync', 'key'] + keys subprocess.check_call(command) def shutdown_and_wait(self, vm, timeout=60): try: self.loop.run_until_complete(vm.shutdown(wait=True, timeout=timeout)) except qubes.exc.QubesException: name = vm.name del vm self.fail("Timeout while waiting for VM {} shutdown".format(name)) def prepare_hvm_system_linux(self, vm, init_script, extra_files=None): if not os.path.exists('/usr/lib/grub/i386-pc'): self.skipTest('grub2 not installed') if not spawn.find_executable('grub2-install'): self.skipTest('grub2-tools not installed') if not spawn.find_executable('dracut'): self.skipTest('dracut not installed') # create a single partition p = subprocess.Popen(['sfdisk', '-q', '-L', vm.storage.root_img], stdin=subprocess.PIPE, stdout=subprocess.DEVNULL, stderr=subprocess.STDOUT) p.communicate('2048,\n') assert p.returncode == 0, 'sfdisk failed' # TODO: check if root_img is really file, not already block device p = subprocess.Popen(['sudo', 'losetup', '-f', '-P', '--show', vm.storage.root_img], stdout=subprocess.PIPE) (loopdev, _) = p.communicate() loopdev = loopdev.strip() looppart = loopdev + 'p1' assert p.returncode == 0, 'losetup failed' subprocess.check_call(['sudo', 'mkfs.ext2', '-q', '-F', looppart]) mountpoint = tempfile.mkdtemp() subprocess.check_call(['sudo', 'mount', looppart, mountpoint]) try: subprocess.check_call(['sudo', 'grub2-install', '--target', 'i386-pc', '--modules', 'part_msdos ext2', '--boot-directory', mountpoint, loopdev], stderr=subprocess.DEVNULL ) grub_cfg = '{}/grub2/grub.cfg'.format(mountpoint) subprocess.check_call( ['sudo', 'chown', '-R', os.getlogin(), mountpoint]) with open(grub_cfg, 'w') as f: f.write( "set timeout=1\n" "menuentry 'Default' {\n" " linux /vmlinuz root=/dev/xvda1 " "rd.driver.blacklist=bochs_drm " "rd.driver.blacklist=uhci_hcd console=hvc0\n" " initrd /initrd\n" "}" ) p = subprocess.Popen(['uname', '-r'], stdout=subprocess.PIPE) (kernel_version, _) = p.communicate() kernel_version = kernel_version.strip() kernel = '/boot/vmlinuz-{}'.format(kernel_version) shutil.copy(kernel, os.path.join(mountpoint, 'vmlinuz')) init_path = os.path.join(mountpoint, 'init') with open(init_path, 'w') as f: f.write(init_script) os.chmod(init_path, 0o755) dracut_args = [ '--kver', kernel_version, '--include', init_path, '/usr/lib/dracut/hooks/pre-pivot/initscript.sh', '--no-hostonly', '--nolvmconf', '--nomdadmconf', ] if extra_files: dracut_args += ['--install', ' '.join(extra_files)] subprocess.check_call( ['dracut'] + dracut_args + [os.path.join(mountpoint, 'initrd')], stderr=subprocess.DEVNULL ) finally: subprocess.check_call(['sudo', 'umount', mountpoint]) shutil.rmtree(mountpoint) subprocess.check_call(['sudo', 'losetup', '-d', loopdev]) def create_bootable_iso(self): '''Create simple bootable ISO image. Type 'poweroff' to it to terminate that VM. ''' isolinux_cfg = ( 'prompt 1\n' 'label poweroff\n' ' kernel poweroff.c32\n' ) output_fd, output_path = tempfile.mkstemp('.iso') with tempfile.TemporaryDirectory() as tmp_dir: try: shutil.copy('/usr/share/syslinux/isolinux.bin', tmp_dir) shutil.copy('/usr/share/syslinux/ldlinux.c32', tmp_dir) shutil.copy('/usr/share/syslinux/poweroff.c32', tmp_dir) with open(os.path.join(tmp_dir, 'isolinux.cfg'), 'w') as cfg: cfg.write(isolinux_cfg) subprocess.check_call(['genisoimage', '-o', output_path, '-c', 'boot.cat', '-b', 'isolinux.bin', '-no-emul-boot', '-boot-load-size', '4', '-boot-info-table', '-q', tmp_dir]) except FileNotFoundError: self.skipTest('syslinux or genisoimage not installed') os.close(output_fd) self.addCleanup(os.unlink, output_path) return output_path def create_local_file(self, filename, content, mode='w'): with open(filename, mode) as file: file.write(content) self.addCleanup(os.unlink, filename) def create_remote_file(self, vm, filename, content): self.loop.run_until_complete(vm.run_for_stdio( 'cat > {}'.format(shlex.quote(filename)), user='root', input=content.encode('utf-8'))) @asyncio.coroutine def wait_for_session(self, vm): timeout = 30 if getattr(vm, 'template', None) and 'whonix-ws' in vm.template.name: # first boot of whonix-ws takes more time because of /home # initialization, including Tor Browser copying timeout = 120 yield from asyncio.wait_for( vm.run_service_for_stdio( 'qubes.WaitForSession', input=vm.default_user.encode()), timeout=timeout) _templates = None def list_templates(): '''Returns tuple of template names available in the system.''' global _templates if _templates is None: if 'QUBES_TEST_TEMPLATES' in os.environ: _templates = os.environ['QUBES_TEST_TEMPLATES'].split() if _templates is None: try: app = qubes.Qubes() _templates = tuple(vm.name for vm in app.domains if isinstance(vm, qubes.vm.templatevm.TemplateVM) and vm.features.get('os', None) != 'Windows') app.close() del app except OSError: _templates = () return _templates def create_testcases_for_templates(name, *bases, module, **kwds): '''Do-it-all helper for generating per-template tests via load_tests proto This does several things: - creates per-template classes - adds them to module's :py:func:`globals` - returns an iterable suitable for passing to loader.loadTestsFromNames TestCase classes created by this function have implicit `.template` attribute, which contains name of the respective template. They are also named with given prefix, underscore and template name. If template name contains characters not valid as part of Python identifier, they are impossible to get via standard ``.`` operator, though :py:func:`getattr` is still usable. >>> class MyTestsMixIn: ... def test_000_my_test(self): ... assert self.template.startswith('debian') >>> def load_tests(loader, tests, pattern): ... tests.addTests(loader.loadTestsFromNames( ... qubes.tests.create_testcases_for_templates( ... 'TC_00_MyTests', MyTestsMixIn, qubes.tests.SystemTestCase, ... module=sys.modules[__name__]))) *NOTE* adding ``module=sys.modules[__name__]`` is *mandatory*, and to allow enforcing this, it uses keyword-only argument syntax, which is only in Python 3. ''' # Do not attempt to grab the module from traceback, since we are actually # a generator and loadTestsFromNames may also be a generator, so it's not # possible to correctly guess frame from stack. Explicit is better than # implicit! for template in list_templates(): clsname = name + '_' + template if hasattr(module, clsname): continue cls = type(clsname, bases, {'template': template, **kwds}) cls.__module__ = module.__name__ # XXX I wonder what other __dunder__ attrs did I miss setattr(module, clsname, cls) yield '.'.join((module.__name__, clsname)) def maybe_create_testcases_on_import(create_testcases_gen): '''If certain conditions are met, call *create_testcases_gen* to create testcases for templates tests. The purpose is to use it on integration tests module(s) import, so the test runner could discover tests without using load tests protocol. The conditions - any of: - QUBES_TEST_TEMPLATES present in the environment (it's possible to create test cases without opening qubes.xml) - QUBES_TEST_LOAD_ALL present in the environment ''' if 'QUBES_TEST_TEMPLATES' in os.environ or \ 'QUBES_TEST_LOAD_ALL' in os.environ: list(create_testcases_gen()) def extra_info(obj): '''Return short info identifying object. For example, if obj is a qube, return its name. This is for use with :py:mod:`objgraph` package. ''' # Feel free to extend to other cases. if isinstance(obj, qubes.vm.qubesvm.QubesVM): try: return obj.name except AttributeError: pass if isinstance(obj, unittest.TestCase): return obj.id() return '' def load_tests(loader, tests, pattern): # pylint: disable=unused-argument # discard any tests from this module, because it hosts base classes tests = unittest.TestSuite() for modname in ( # unit tests 'qubes.tests.events', 'qubes.tests.devices', 'qubes.tests.devices_block', 'qubes.tests.firewall', 'qubes.tests.init', 'qubes.tests.vm.init', 'qubes.tests.storage', 'qubes.tests.storage_file', 'qubes.tests.storage_reflink', 'qubes.tests.storage_lvm', 'qubes.tests.storage_kernels', 'qubes.tests.ext', 'qubes.tests.vm.qubesvm', 'qubes.tests.vm.mix.net', 'qubes.tests.vm.adminvm', 'qubes.tests.vm.appvm', 'qubes.tests.vm.dispvm', 'qubes.tests.app', 'qubes.tests.tarwriter', 'qubes.tests.api', 'qubes.tests.api_admin', 'qubes.tests.api_misc', 'qubes.tests.api_internal', ): tests.addTests(loader.loadTestsFromName(modname)) tests.addTests(loader.discover( os.path.join(os.path.dirname(__file__), 'tools'))) if not in_dom0: return tests for modname in ( 'qrexec.tests', 'qrexec.tests.cli', 'qrexec.tests.gtkhelpers', 'qrexec.tests.rpcconfirmation', # integration tests 'qubes.tests.integ.basic', 'qubes.tests.integ.storage', 'qubes.tests.integ.grub', 'qubes.tests.integ.devices_block', 'qubes.tests.integ.devices_pci', 'qubes.tests.integ.dom0_update', 'qubes.tests.integ.network', 'qubes.tests.integ.dispvm', 'qubes.tests.integ.vm_qrexec_gui', 'qubes.tests.integ.mime', 'qubes.tests.integ.salt', 'qubes.tests.integ.backup', 'qubes.tests.integ.backupcompatibility', # 'qubes.tests.regressions', # external modules 'qubes.tests.extra', ): tests.addTests(loader.loadTestsFromName(modname)) return tests