# -*- 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 . import hashlib import logging import multiprocessing import os import shutil import qubesadmin.backup.restore import qubesadmin.exc import qubesadmin.tests SIGNATURE_LEN = 512 class BackupTestCase(qubesadmin.tests.QubesTestCase): class BackupErrorHandler(logging.Handler): def __init__(self, errors_queue, level=logging.NOTSET): super(BackupTestCase.BackupErrorHandler, self).__init__(level) self.errors_queue = errors_queue def emit(self, record): self.errors_queue.put(record.getMessage()) def make_vm_name(self, name): try: return super(BackupTestCase, self).make_vm_name(name) except AttributeError: return 'test-' + name def setUp(self): super(BackupTestCase, self).setUp() self.error_detected = multiprocessing.Queue() self.log = logging.getLogger('qubesadmin.tests.backup') self.log.debug("Creating backupvm") self.backupdir = os.path.join(os.environ["HOME"], "test-backup") if os.path.exists(self.backupdir): shutil.rmtree(self.backupdir) os.mkdir(self.backupdir) self.error_handler = self.BackupErrorHandler(self.error_detected, level=logging.WARNING) backup_log = logging.getLogger('qubesadmin.backup') backup_log.addHandler(self.error_handler) def tearDown(self): super(BackupTestCase, self).tearDown() shutil.rmtree(self.backupdir) backup_log = logging.getLogger('qubes.backup') backup_log.removeHandler(self.error_handler) def fill_image(self, path, size=None, sparse=False, signature=b''): block_size = 4096 self.log.debug("Filling %s" % path) f = open(path, 'wb+') if size is None: f.seek(0, 2) size = f.tell() f.seek(0) f.write(signature) f.write(b'\0' * (SIGNATURE_LEN - len(signature))) for block_num in range(int(size/block_size)): if sparse: f.seek(block_size, 1) f.write(b'a' * block_size) f.close() # NOTE: this was create_basic_vms def create_backup_vms(self, pool=None): template = self.app.default_template vms = [] vmname = self.make_vm_name('test-net') self.log.debug("Creating %s" % vmname) testnet = self.app.add_new_vm('AppVM', name=vmname, label='red') testnet.provides_network = True testnet.create_on_disk(pool=pool) testnet.features['services/ntpd'] = True vms.append(testnet) self.fill_image(testnet.storage.export('private'), 20*1024*1024) vmname = self.make_vm_name('test1') self.log.debug("Creating %s" % vmname) testvm1 = self.app.add_new_vm('AppVM', name=vmname, template=template, label='red') testvm1.uses_default_netvm = False testvm1.netvm = testnet testvm1.create_on_disk(pool=pool) vms.append(testvm1) self.fill_image(testvm1.storage.export('private'), 100 * 1024 * 1024) vmname = self.make_vm_name('testhvm1') self.log.debug("Creating %s" % vmname) testvm2 = self.app.add_new_vm('StandaloneVM', name=vmname, label='red') testvm2.virt_mode = 'hvm' testvm2.create_on_disk(pool=pool) self.fill_image(testvm2.storage.export('root'), 1024 * 1024 * 1024, \ True) vms.append(testvm2) vmname = self.make_vm_name('template') self.log.debug("Creating %s" % vmname) testvm3 = self.app.add_new_vm('TemplateVM', name=vmname, label='red') testvm3.create_on_disk(pool=pool) self.fill_image(testvm3.storage.export('root'), 100 * 1024 * 1024, True) vms.append(testvm3) vmname = self.make_vm_name('custom') self.log.debug("Creating %s" % vmname) testvm4 = self.app.add_new_vm('AppVM', name=vmname, template=testvm3, label='red') testvm4.create_on_disk(pool=pool) vms.append(testvm4) self.app.save() return vms def make_backup(self, vms, target=None, expect_failure=False, **kwargs): if target is None: target = self.backupdir try: backup = qubesadmin.backup.Backup(self.app, vms, **kwargs) except qubesadmin.exc.QubesException as e: if not expect_failure: self.fail("QubesException during backup_prepare: %s" % str(e)) else: raise if 'passphrase' not in kwargs: backup.passphrase = 'qubes' backup.target_dir = target try: backup.backup_do() except qubesadmin.exc.QubesException as e: if not expect_failure: self.fail("QubesException during backup_do: %s" % str(e)) else: raise def restore_backup(self, source=None, appvm=None, options=None, expect_errors=None, manipulate_restore_info=None, passphrase='qubes'): if source is None: backupfile = os.path.join(self.backupdir, sorted(os.listdir(self.backupdir))[-1]) else: backupfile = source with self.assertNotRaises(qubesadmin.exc.QubesException): restore_op = qubesadmin.backup.restore.BackupRestore( self.app, backupfile, appvm, passphrase) if options: for key, value in options.items(): setattr(restore_op.options, key, value) restore_info = restore_op.get_restore_info() if callable(manipulate_restore_info): restore_info = manipulate_restore_info(restore_info) self.log.debug(restore_op.get_restore_summary(restore_info)) with self.assertNotRaises(qubesadmin.exc.QubesException): restore_op.restore_do(restore_info) errors = [] if expect_errors is None: expect_errors = [] else: self.assertFalse(self.error_detected.empty(), "Restore errors expected, but none detected") while not self.error_detected.empty(): current_error = self.error_detected.get() if any(map(current_error.startswith, expect_errors)): continue errors.append(current_error) self.assertTrue(len(errors) == 0, "Error(s) detected during backup_restore_do: %s" % '\n'.join(errors)) if not appvm and not os.path.isdir(backupfile): os.unlink(backupfile) def create_sparse(self, path, size, signature=b''): f = open(path, "wb") f.write(signature) f.write(b'\0' * (SIGNATURE_LEN - len(signature))) f.truncate(size) f.close() def vm_checksum(self, vms): hashes = {} for vm in vms: assert isinstance(vm, qubesadmin.vm.QubesVM) hashes[vm.name] = {} for name, volume in vm.volumes.items(): if not volume.rw or not volume.save_on_stop: continue vol_path = vm.storage.get_pool(volume).export(volume) hasher = hashlib.sha1() with open(vol_path, 'rb') as afile: for buf in iter(lambda: afile.read(4096000), b''): hasher.update(buf) hashes[vm.name][name] = hasher.hexdigest() return hashes def assertCorrectlyRestored(self, orig_vms, orig_hashes): ''' Verify if restored VMs are identical to those before backup. :param orig_vms: collection of original QubesVM objects :param orig_hashes: result of :py:meth:`vm_checksum` on original VMs, before backup :return: ''' for vm in orig_vms: self.assertIn(vm.name, self.app.domains) restored_vm = self.app.domains[vm.name] for prop in ('name', 'kernel', 'memory', 'maxmem', 'kernelopts', 'services', 'vcpus', 'features' 'include_in_backups', 'default_user', 'qrexec_timeout', 'autostart', 'pci_strictreset', 'debug', 'internal'): if not hasattr(vm, prop): continue self.assertEqual( getattr(vm, prop), getattr(restored_vm, prop), "VM {} - property {} not properly restored".format( vm.name, prop)) for prop in ('netvm', 'template', 'label'): if not hasattr(vm, prop): continue orig_value = getattr(vm, prop) restored_value = getattr(restored_vm, prop) if orig_value and restored_value: self.assertEqual(orig_value.name, restored_value.name, "VM {} - property {} not properly restored".format( vm.name, prop)) else: self.assertEqual(orig_value, restored_value, "VM {} - property {} not properly restored".format( vm.name, prop)) for dev_class in vm.devices.keys(): for dev in vm.devices[dev_class]: self.assertIn(dev, restored_vm.devices[dev_class], "VM {} - {} device not restored".format( vm.name, dev_class)) if orig_hashes: hashes = self.vm_checksum([restored_vm])[restored_vm.name] self.assertEqual(orig_hashes[vm.name], hashes, "VM {} - disk images are not properly restored".format( vm.name))