#!/usr/bin/python3
#
# udisks2 integration test suite
#
# Run in udisks built tree to test local built binaries (needs
# --localstatedir=/var), or from anywhere else to test system installed
# binaries.
#
# Usage:
# - Run all tests:
#   src/tests/integration-test
# - Run only a particular class of tests:
#   src/tests/integration-test Drive
# - Run only a single test:
#   src/tests/integration-test FS.test_ext3
#
# Copyright: (C) 2011 Martin Pitt <martin.pitt@ubuntu.com>
#
# 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.

# TODO:
# - add and test method for changing LUKS passphrase
# - test Format with take-ownership

import sys
import os
import contextlib

srcdir = os.path.dirname(os.path.dirname(os.path.dirname(os.path.realpath(__file__))))
libdir = os.path.join(srcdir, 'udisks', '.libs')

# as we can't change LD_LIBRARY_PATH within a running program, and doing
# #!/usr/bin/env LD_LIBRARY_PATH=... python3 does not work either, do this
# nasty hack
if 'LD_LIBRARY_PATH' not in os.environ and os.path.isdir(libdir):
    os.environ['LD_LIBRARY_PATH'] = libdir
    os.environ['GI_TYPELIB_PATH'] = '%s/udisks:%s' % (
        srcdir,
        os.environ.get('GI_TYPELIB_PATH', ''))
    os.execv(sys.argv[0], sys.argv)
    assert False, 'not expecting to land here'

import subprocess
import unittest
import tempfile
import atexit
import time
import shutil
import signal
import argparse
import re
from glob import glob
from gi.repository import GLib, Gio, UDisks

# find local test_polkit.py
sys.path.insert(0, os.path.dirname(__file__))
import test_polkitd

# GI_TYPELIB_PATH=udisks LD_LIBRARY_PATH=udisks/.libs
VDEV_SIZE = 300000000  # size of virtual test device

# Those file systems are known to have a broken handling of permissions, in
# particular the executable bit
BROKEN_PERMISSIONS_FS = ['ntfs', 'exfat']

no_options = GLib.Variant('a{sv}', {})


# ----------------------------------------------------------------------------

class UDisksTestCase(unittest.TestCase):
    '''Base class for udisks test cases.

    This provides static functions which are useful for all test cases.
    '''
    daemon = None
    daemon_path = None
    daemon_log = None
    device = None

    client = None
    manager = None

    @classmethod
    def init(klass, logfile=None):
        '''start daemon and set up test environment'''

        if os.geteuid() != 0:
            print('this test suite needs to run as root', file=sys.stderr)
            sys.exit(0)

        # run from local build tree if we are in one, otherwise use system instance
        klass.daemon_path = os.path.join(srcdir, 'src', '.libs', 'udisksd')
        if (os.access(klass.daemon_path, os.X_OK)):
            print('Testing binaries from local build tree')
            klass.check_build_tree_config()
        else:
            print('Testing installed system binaries')
            klass.daemon_path = None
            for l in open('/usr/share/dbus-1/system-services/org.freedesktop.UDisks2.service'):
                if l.startswith('Exec='):
                    klass.daemon_path = l.split('=', 1)[1].split()[0]
                    break
            assert klass.daemon_path, 'could not determine daemon path from D-BUS .service file'

        print('daemon path: ' + klass.daemon_path)

        (klass.device, klass.cd_device) = klass.setup_vdev()

        # start polkit and udisks on a private DBus
        klass.dbus = Gio.TestDBus()
        klass.dbus.up()
        os.environ['DBUS_SYSTEM_BUS_ADDRESS'] = klass.dbus.get_bus_address()
        # do not try to communicate with the current desktop session; this will
        # confuse it, as it cannot see this D-BUS instance
        try:
            del os.environ['DISPLAY']
        except KeyError:
            pass
        if logfile:
            klass.daemon_log = open(logfile, 'w')
        else:
            klass.daemon_log = tempfile.TemporaryFile()
        atexit.register(klass.cleanup)

        klass.start_daemon()

    @classmethod
    def cleanup(klass):
        '''stop daemon again and clean up test environment'''

        subprocess.call(['umount', klass.device], stderr=subprocess.PIPE)  # if a test failed

        klass.stop_daemon()

        klass.teardown_vdev(klass.device)
        klass.device = None

        del os.environ['DBUS_SYSTEM_BUS_ADDRESS']
        klass.dbus.down()

    @classmethod
    def start_daemon(klass):
        assert klass.daemon is None
        klass.daemon = subprocess.Popen([klass.daemon_path, '--replace'],
                                        stdout=klass.daemon_log,
                                        stderr=subprocess.STDOUT)
        assert klass.daemon.pid, 'daemon failed to start'

        # wait until the daemon has started up
        timeout = 10
        klass.manager = None
        while klass.manager is None and timeout > 0:
            time.sleep(0.2)
            klass.client = UDisks.Client.new_sync(None)
            assert klass.client is not None
            klass.manager = klass.client.get_manager()
            timeout -= 1
        assert klass.manager, 'daemon failed to start'
        assert klass.daemon.pid, 'daemon failed to start'

        klass.sync()

    @classmethod
    def stop_daemon(klass):
        assert klass.daemon
        os.kill(klass.daemon.pid, signal.SIGTERM)
        os.wait()
        klass.daemon = None

    @classmethod
    def sync(klass):
        '''Wait until pending events finished processing.

        This should only be called for situations where we genuinely have an
        asynchronous response, like invoking a CLI program and waiting for
        udev/udisks to catch up on the change events.
        '''
        subprocess.call(['udevadm', 'settle'])
        context = GLib.main_context_default()
        timeout = 100
        # wait until all GDBus events have been processed
        while context.pending() and timeout > 0:
            klass.client.settle()
            time.sleep(0.1)
            timeout -= 1
        if timeout <= 0:
            self.write_stderr('[wait timeout!] ')

    @classmethod
    def zero_device(klass):
        subprocess.call(['dd', 'if=/dev/zero', 'of=' + klass.device, 'bs=10M'],
                        stderr=subprocess.PIPE)
        time.sleep(0.5)
        klass.sync()

    @classmethod
    def devname(klass, partition=None, cd=False):
        '''Get name of test device or one of its partitions

        If cd is True, return the CD device, otherwise the hard disk device.
        '''
        if cd:
            dev = klass.cd_device
        else:
            dev = klass.device
        if partition:
            if dev[-1].isdigit():
                return dev + 'p' + str(partition)
            else:
                return dev + str(partition)
        else:
            return dev

    @classmethod
    def udisks_block(klass, partition=None, cd=False):
        '''Get UDisksBlock object for test device or partition

        If cd is True, return the CD device, otherwise the hard disk device.
        '''
        assert klass.client
        devname = klass.devname(partition, cd)
        dev_t = os.stat(devname).st_rdev
        block = klass.client.get_block_for_dev(dev_t)
        assert block, 'did not find an UDisksBlock object for %s' % devname
        return block

    @classmethod
    def udisks_filesystem(klass, partition=None, cd=False):
        '''Get UDisksFilesystem object for test device or partition

        Return None if there is no file system on that device.

        If cd is True, return the CD device, otherwise the hard disk device.
        '''
        block = klass.udisks_block(partition, cd)
        return klass.client.get_object(block.get_object_path()).get_filesystem()

    @classmethod
    def blkid(klass, partition=None, device=None):
        '''Call blkid and return dictionary of results.'''

        if not device:
            device = klass.devname(partition)
        result = {}
        cmd = subprocess.Popen(['blkid', '-p', '-o', 'udev', device], stdout=subprocess.PIPE)
        for l in cmd.stdout:
            (key, value) = l.decode('UTF-8').split('=', 1)
            result[key] = value.strip()
        assert cmd.wait() == 0
        return result

    @classmethod
    def is_mountpoint(klass, path):
        '''Check if given path is a mount point.'''

        return subprocess.call(['mountpoint', path], stdout=subprocess.PIPE) == 0

    @classmethod
    def mkfs(klass, type, label=None, partition=None):
        '''Create file system using mkfs.'''

        if type == 'minix':
            assert label is None, 'minix does not support labels'

        # work around mkswap not properly cleaning up an existing reiserfs
        # signature (mailed kzak about it)
        if type == 'swap':
            subprocess.check_call(['wipefs', '-a', klass.devname(partition)],
                                  stdout=subprocess.PIPE)

        mkcmd = {'swap': 'mkswap',
                 'ntfs': 'mkntfs'}
        label_opt = {'vfat': '-n',
                     'exfat': '-n',
                     'f2fs': '-l',
                     'reiserfs': '-l'}
        extra_opt = {'vfat': ['-I', '-F', '32'],
                     'swap': ['-f'],
                     'xfs': ['-f'],   # XFS complains if there's an existing FS, so force
                     'ext2': ['-F'],  # ext* complains about using entire device, so force
                     'ext3': ['-F'],
                     'ext4': ['-F'],
                     'ntfs': ['-F'],
                     'btrfs': ['-f'],
                     'reiserfs': ['-ff']}

        cmd = [mkcmd.get(type, 'mkfs.' + type)] + extra_opt.get(type, [])
        if label:
            cmd += [label_opt.get(type, '-L'), label]
        cmd.append(klass.devname(partition))

        subprocess.check_call(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE)

        # kernel/udev generally detect those changes itself, but do not quite
        # tell us when they are done; so do a little kludge here to know how
        # long we need to wait
        subprocess.call(['udevadm', 'trigger', '--action=change',
                         '--sysname-match=' + os.path.basename(klass.devname(partition))])
        klass.sync()

    @classmethod
    def fs_create(klass, partition, type, options):
        '''Create file system using udisks.'''

        block = klass.udisks_block(partition)
        block.call_format_sync(type, options, None)

    @classmethod
    def retry_busy(klass, fn, *args):
        '''Call a function until it does not fail with "Busy".'''

        timeout = 10
        while timeout >= 0:
            try:
                return fn(*args)
            except GLib.GError as e:
                if 'UDisks2.Error.DeviceBusy' not in e.message:
                    raise
                self.write_stderr('[busy] ')
                time.sleep(0.3)
                timeout -= 1

    @classmethod
    def check_build_tree_config(klass):
        '''Check configuration of build tree'''

        # read make variables
        make_vars = {}
        var_re = re.compile('^([a-zA-Z_]+) = (.*)$')
        make = subprocess.Popen(['make', '-p', '/dev/null'], stdout=subprocess.PIPE)
        for l in make.stdout:
            l = l.decode('UTF-8')
            m = var_re.match(l)
            if m:
                make_vars[m.group(1)] = m.group(2)
        make.wait()

        # expand make variables
        subst_re = re.compile('\${([a-zA-Z_]+)}')
        for (k, v) in make_vars.items():
            while True:
                m = subst_re.search(v)
                if m:
                    v = subst_re.sub(make_vars.get(m.group(1), ''), v)
                    make_vars[k] = v
                else:
                    break

        # check localstatedir
        for d in (os.path.join(make_vars['localstatedir'], 'run', 'udisks2'),
                  os.path.join(make_vars['localstatedir'], 'lib', 'udisks2')):
            if not os.path.exists(d):
                sys.stderr.write('The directory %s does not exist; please create it before running these tests.\n' % d)
                sys.exit(0)

    @classmethod
    def setup_vdev(klass):
        '''create virtual test devices

        It is zeroed out initially.

        Return a pair (writable HD device path, readonly CD device path).
        '''
        # ensure that the scsi_debug module is loaded
        if os.path.isdir('/sys/module/scsi_debug'):
            sys.stderr.write('The scsi_debug module is already loaded; please remove before running this test.\n')
            sys.exit(1)

        # work around scsi_debug not implementing CD-ROM SCSI commands, so that
        # udev's cdrom_id does not recognize tracks
        scsi_debug_rules = '/run/udev/rules.d/60-persistent-storage-scsi_debug.rules'
        if os.path.isdir('/run/udev') and not os.path.exists(scsi_debug_rules):
            os.makedirs('/run/udev/rules.d', exist_ok=True)
            with open(scsi_debug_rules, 'w') as f:
                f.write('''KERNEL=="sr*", ENV{DISK_EJECT_REQUEST}!="?*", ATTRS{model}=="scsi_debug*", ENV{ID_CDROM_MEDIA}=="?*", IMPORT{program}="/sbin/blkid -o udev -p -u noraid $tempnode"
''')
            # reload udev
            subprocess.call('sync; pkill --signal HUP udevd || pkill --signal HUP systemd-udevd',
                            shell=True)

        # craete a fake SCSI hard drive
        assert subprocess.call(['modprobe', 'scsi_debug', 'dev_size_mb=%i' % (
            VDEV_SIZE / 1048576)]) == 0, 'Failure to modprobe scsi_debug'

        # wait until drive got created
        rw_dirs = []
        while len(rw_dirs) < 1:
            rw_dirs = glob('/sys/bus/pseudo/drivers/scsi_debug/adapter*/host*/target*/*:*/block')
            time.sleep(0.1)
        assert len(rw_dirs) == 1

        # create a fake CD-ROM, too
        with open('/sys/bus/pseudo/drivers/scsi_debug/ptype', 'w') as f:
            f.write('5')  # henceforth, created devices will be CD drives
        with open('/sys/bus/pseudo/drivers/scsi_debug/add_host', 'w') as f:
            f.write('1')  # generate a new drive
        subprocess.call(['udevadm', 'settle'])
        with open('/sys/bus/pseudo/drivers/scsi_debug/ptype', 'w') as f:
            f.write('0')

        ro_dirs = []
        while len(ro_dirs) < 2:
            ro_dirs = glob('/sys/bus/pseudo/drivers/scsi_debug/adapter*/host*/target*/*:*/block')
            time.sleep(0.1)
        ro_dirs.remove(rw_dirs[0])
        assert len(ro_dirs) == 1

        # determine the debug block devices
        devs = os.listdir(ro_dirs[0])
        assert len(devs) == 1
        ro_dev = '/dev/' + devs[0]
        devs = os.listdir(rw_dirs[0])
        assert len(devs) == 1
        rw_dev = '/dev/' + devs[0]
        assert os.path.exists(ro_dev)
        assert os.path.exists(rw_dev)

        # let's be 100% sure that we pick a virtual one
        assert open('/sys/block/%s/device/model' % os.path.basename(rw_dev)).read().strip() == 'scsi_debug'

        print('Set up test device: r/w: %s, r/o: %s' % (rw_dev, ro_dev))
        return (rw_dev, ro_dev)

    @classmethod
    def teardown_vdev(klass, device):
        '''release and remove virtual test device'''

        klass.remove_device(device)
        assert subprocess.call(['rmmod', 'scsi_debug']) == 0, 'Failure to rmmod scsi_debug'

    @classmethod
    def remove_device(klass, device):
        '''remove virtual test device'''

        device = device.split('/')[-1]
        if os.path.exists('/sys/block/' + device):
            f = open('/sys/block/%s/device/delete' % device, 'w')
            f.write('1')
            f.close()
        while os.path.exists(device):
            time.sleep(0.1)
        klass.sync()
        time.sleep(0.5)  # TODO

    @classmethod
    def readd_devices(klass):
        '''re-add virtual test devices after removal'''

        scan_files = glob('/sys/bus/pseudo/devices/adapter*/host*/scsi_host/host*/scan')
        assert len(scan_files) > 0
        for f in scan_files:
            open(f, 'w').write('- - -\n')
        while not os.path.exists(klass.device):
            time.sleep(0.1)
        time.sleep(0.5)
        klass.sync()

    def assertEventually(self, fn, value):
        '''Check that an function is eventually equal to value.

        This is mostly meant for checking object properties, as these are
        updated asynchronously. This retries up to 10 times.
        '''
        retries = 10
        while retries > 0:
            if fn() == value:
                break
            retries -= 1
            time.sleep(0.1)
            self.sync()

        if isinstance(value, set):
            self.assertEqual(set(fn()), value)
        else:
            self.assertEqual(fn(), value)

    def assertProperty(self, obj, name, value):
        '''Check that an object's property is eventually equal to value'''

        self.assertEventually(lambda: obj.get_property(name), value)

    def write_stderr(self, msg):
        '''Write to stderr without buffering'''
        sys.stderr.write(msg)
        sys.stderr.flush()


# ----------------------------------------------------------------------------

class Manager(UDisksTestCase):
    '''UDisksManager operations'''

    def test_version(self):
        '''daemon version'''

        self.assertTrue(self.manager.get_property('version')[0].isdigit())

    def test_loop_rw(self):
        '''loop device R/W'''

        with tempfile.NamedTemporaryFile() as f:
            f.truncate(100000000)
            fd_list = Gio.UnixFDList.new_from_array([f.fileno()])

            (path, out_fd_list) = self.manager.call_loop_setup_sync(
                GLib.Variant('h', 0),  # fd index
                no_options,
                fd_list,
                None)
            self.client.settle()

            obj = self.client.get_object(path)
            loop = obj.get_property('loop')
            block = obj.get_property('block')
            self.assertNotEqual(block, None)
            self.assertNotEqual(loop, None)
            self.assertEqual(obj.get_property('filesystem'), None)

            try:
                self.assertEqual(loop.get_property('backing-file'), f.name)

                options = GLib.Variant('a{sv}', {'label': GLib.Variant('s', 'foo')})
                block.call_format_sync('ext2', options, None)
                self.client.settle()
                self.assertNotEqual(obj.get_property('filesystem'), None)

                self.assertEqual(block.get_property('id-label'), 'foo')
                self.assertEqual(block.get_property('id-usage'), 'filesystem')
                self.assertEqual(block.get_property('id-type'), 'ext2')
            finally:
                loop.call_delete_sync(no_options, None)

    def test_loop_ro(self):
        '''loop device R/O'''

        with tempfile.NamedTemporaryFile() as f:
            f.truncate(100000000)
            fd_list = Gio.UnixFDList.new_from_array([f.fileno()])

            (path, out_fd_list) = self.manager.call_loop_setup_sync(
                GLib.Variant('h', 0),  # fd index
                GLib.Variant('a{sv}', {'read-only': GLib.Variant('b', True)}),
                fd_list,
                None)
            self.client.settle()

            obj = self.client.get_object(path)
            loop = obj.get_property('loop')
            block = obj.get_property('block')
            self.assertNotEqual(block, None)
            self.assertNotEqual(loop, None)
            self.assertEqual(obj.get_property('filesystem'), None)

            try:
                self.assertEqual(loop.get_property('backing-file'), f.name)

                # can't format due to permission error
                self.assertRaises(GLib.GError, block.call_format_sync, 'ext2', no_options, None)

                self.assertProperty(block, 'id-label', '')
                self.assertProperty(block, 'id-usage', '')
                self.assertProperty(block, 'id-type', '')
            finally:
                self.client.settle()
                loop.call_delete_sync(no_options, None)


# ----------------------------------------------------------------------------

class Drive(UDisksTestCase):
    '''UDisksDrive'''

    def setUp(self):
        self.drive = self.client.get_drive_for_block(self.udisks_block())
        self.assertNotEqual(self.drive, None)

    def test_properties(self):
        '''properties of UDisksDrive object'''

        self.assertEqual(self.drive.get_property('model'), 'scsi_debug')
        self.assertEqual(self.drive.get_property('vendor'), 'Linux')
        self.assertAlmostEqual(self.drive.get_property('size') / 1.e6, VDEV_SIZE / 1.e6, 0)
        self.assertEqual(self.drive.get_property('media-available'), True)
        self.assertEqual(self.drive.get_property('optical'), False)

        self.assertNotEqual(len(self.drive.get_property('serial')), 0)
        self.assertNotEqual(len(self.drive.get_property('revision')), 0)


# ----------------------------------------------------------------------------

class FS(UDisksTestCase):
    '''Test detection of all supported file systems'''

    def setUp(self):
        self.workdir = tempfile.mkdtemp()
        self.block = self.udisks_block()
        self.assertNotEqual(self.block, None)

    def tearDown(self):
        if subprocess.call(['umount', self.device], stderr=subprocess.PIPE) == 0:
            self.write_stderr('[cleanup unmount] ')
        shutil.rmtree(self.workdir)

    def test_zero(self):
        '''properties of zeroed out device'''

        self.zero_device()
        self.assertProperty(self.block, 'device', self.device)
        self.assertIn('Linux_scsi_debug', self.block.get_property('drive'))
        self.assertProperty(self.block, 'id-label', '')
        self.assertEqual(self.block.get_property('hint-system'), True)
        self.assertEqual(self.block.get_property('id-usage'), '')
        self.assertEqual(self.block.get_property('id-type'), '')
        self.assertEqual(self.block.get_property('id-uuid'), '')
        self.assertAlmostEqual(self.block.get_property('size') / 1.e6, VDEV_SIZE / 1.e6, 0)
        obj = self.client.get_object(self.block.get_object_path())
        self.assertEqual(obj.get_property('filesystem'), None)
        self.assertEqual(obj.get_property('partition'), None)
        self.assertEqual(obj.get_property('partition-table'), None)

    def test_ext2(self):
        '''fs: ext2'''
        self._do_fs_check('ext2')

    def test_ext3(self):
        '''fs: ext3'''
        self._do_fs_check('ext3')

    def test_ext4(self):
        '''fs: ext4'''
        self._do_fs_check('ext4')

    def test_btrfs(self):
        '''fs: btrfs'''
        self._do_fs_check('btrfs')

    def test_f2fs(self):
        '''fs: f2fs'''
        self._do_fs_check('f2fs')

    def test_minix(self):
        '''fs: minix'''
        self._do_fs_check('minix')

    def test_xfs(self):
        '''fs: XFS'''
        self._do_fs_check('xfs')

    def test_ntfs(self):
        '''fs: NTFS'''
        self._do_fs_check('ntfs')

    def test_vfat(self):
        '''fs: FAT'''
        self._do_fs_check('vfat')

    def test_exfat(self):
        '''fs: exFAT'''
        self._do_fs_check('exfat')

    def test_reiserfs(self):
        '''fs: reiserfs'''
        self._do_fs_check('reiserfs')

    def test_swap(self):
        '''fs: swap'''
        self._do_fs_check('swap')

    def test_nilfs2(self):
        '''fs: nilfs2'''
        self._do_fs_check('nilfs2')

    def test_empty(self):
        '''fs: empty'''

        self.mkfs('ext4', 'foo')
        block = self.udisks_block()
        self.assertProperty(block, 'id-usage', 'filesystem')
        self.assertProperty(block, 'id-type', 'ext4')
        self.assertProperty(block, 'id-label', 'foo')
        self.assertNotEqual(self.udisks_filesystem(), None)

        self.fs_create(None, 'empty', no_options)

        self.assertProperty(block, 'id-usage', '')
        self.assertProperty(block, 'id-type', '')
        self.assertProperty(block, 'id-label', '')
        self.assertEqual(self.udisks_filesystem(), None)

    def test_create_fs_unknown_type(self):
        '''Format() with unknown type'''

        try:
            self.fs_create(None, 'bogus', no_options)
            self.fail('Expected failure for bogus file system')
        except GLib.GError as e:
            self.assertIn('UDisks2.Error.NotSupported', e.message)
            self.assertIn('type bogus', e.message)

    def test_create_fs_unsupported_label(self):
        '''Format() with unsupported label'''

        options = GLib.Variant('a{sv}', {'label': GLib.Variant('s', 'foo')})
        try:
            self.fs_create(None, 'minix', options)
            self.fail('Expected failure for unsupported label')
        except GLib.GError as e:
            self.assertIn('UDisks2.Error.NotSupported', e.message)

    def test_force_removal(self):
        '''fs: forced removal'''

        # create a fs and mount it
        self.mkfs('ext4', 'udiskstest')
        fs = self.udisks_filesystem()
        mount_path = fs.call_mount_sync(no_options, None)
        self.assertTrue(mount_path.endswith('udiskstest'))
        self.assertIn('/media/', mount_path)
        self.assertTrue(self.is_mountpoint(mount_path))

        dev_t = os.stat(self.devname()).st_rdev

        # removal should clean up mounts
        self.remove_device(self.device)
        self.assertFalse(os.path.exists(mount_path))
        self.assertEqual(self.client.get_block_for_dev(dev_t), None)

        # after putting it back, it should be mountable again
        self.readd_devices()
        fs = self.udisks_filesystem()
        self.assertProperty(fs, 'mount-points', [])

        mount_path = fs.call_mount_sync(no_options, None)
        self.assertTrue(mount_path.endswith('udiskstest'))
        self.assertIn('/media/', mount_path)
        self.assertTrue(self.is_mountpoint(mount_path))
        self.assertProperty(fs, 'mount-points', [mount_path])

        self.retry_busy(fs.call_unmount_sync, no_options, None)
        self.assertProperty(fs, 'mount-points', [])

    def test_existing_manual_mount_point(self):
        '''fs: does not reuse existing manual mount point'''

        self.mkfs('ext4', 'udiskstest')
        fs = self.udisks_filesystem()

        # mount it, determine mount path, and unmount again
        mount_path = fs.call_mount_sync(no_options, None)
        self.assertTrue(mount_path.endswith('udiskstest'))

        self.retry_busy(fs.call_unmount_sync, no_options, None)
        self.assertProperty(fs, 'mount-points', [])

        # cleans up mountpoint
        self.assertFalse(os.path.exists(mount_path))

        # now manually create the mount point
        os.mkdir(mount_path)

        # now this should use mount_path + '1'
        try:
            new_mount_path = fs.call_mount_sync(no_options, None)
            self.retry_busy(fs.call_unmount_sync, no_options, None)
            self.assertProperty(fs, 'mount-points', [])
            self.assertEqual(new_mount_path, mount_path + '1')
        finally:
            os.rmdir(mount_path)

    def test_existing_udisks_mount_point(self):
        '''fs: reuses existing udisks mount point'''

        self.mkfs('ext4', 'udiskstest')
        fs = self.udisks_filesystem()

        # mount it, determine mount path
        mount_path = fs.call_mount_sync(no_options, None)
        self.assertTrue(mount_path.endswith('udiskstest'))

        # stop the daemon (happens during a package upgrade)
        UDisksTestCase.stop_daemon()

        # mount should still be there; unmount it manually
        self.assertTrue(self.is_mountpoint(mount_path))
        subprocess.check_call(['umount', mount_path])

        # restart daemon, mount again; this should use the same mount point as
        # before
        UDisksTestCase.start_daemon()
        fs = self.udisks_filesystem()
        new_mount_path = fs.call_mount_sync(no_options, None)
        self.retry_busy(fs.call_unmount_sync, no_options, None)
        self.assertProperty(fs, 'mount-points', [])
        self.assertEqual(new_mount_path, mount_path)

    def _do_fs_check(self, type):
        '''Run checks for a particular file system.'''
        if type == 'ntfs':
            mkfs = 'mkntfs'
        else:
            mkfs = 'mkfs.' + type

        if type != 'swap' and subprocess.call(['which', mkfs],
                                              stdout=subprocess.PIPE) != 0:
            self.write_stderr('[no %s, skip] ' % mkfs)

            # check correct D-Bus exception
            try:
                self.fs_create(None, type, no_options)
                self.fail('Expected failure for missing mkfs.' + type)
            except GLib.GError as e:
                self.assertIn('UDisks2.Error.Failed', e.message)
            return

        # do checks with command line tools (mkfs/mount/umount)
        self.write_stderr('[cli] ')

        self._do_cli_check(type)
        if type != 'minix':
            self._do_cli_check(type, 'test%stst' % type)

        # put a different fs here instead of zeroing, so that we verify that
        # udisks overrides existing FS (e. g. XFS complains then), and does not
        # leave traces of other FS around
        if type == 'ext3':
            self.mkfs('swap')
        else:
            self.mkfs('ext3')

        # do checks with udisks operations
        self.write_stderr('[ud] ')
        self._do_udisks_check(type)
        if type != 'minix':
            self._do_udisks_check(type, 'test%stst' % type)
            # also test fs_create with an empty label
            self._do_udisks_check(type, '')

    def _do_cli_check(self, type, label=None):
        '''udisks correctly picks up file system changes from command line tools'''

        self.mkfs(type, label)

        block = self.udisks_block()

        self.assertProperty(block, 'id-usage', (type == 'swap') and 'other' or 'filesystem')
        self.assertProperty(block, 'id-type', type)
        l = block.get_property('id-label')
        if type == 'vfat':
            l = l.lower()  # VFAT is case insensitive
        self.assertEqual(l, label or '')
        self.assertEqual(block.get_property('hint-name'), '')
        if type != 'minix':
            self.assertEqual(block.get_property('id-uuid'), self.blkid()['ID_FS_UUID'])

        obj = self.client.get_object(self.block.get_object_path())
        self.assertEqual(obj.get_property('partition'), None)
        self.assertEqual(obj.get_property('partition-table'), None)

        fs = obj.get_property('filesystem')
        if type == 'swap':
            self.assertEqual(fs, None)
        else:
            self.assertNotEqual(fs, None)

        if type == 'swap':
            return

        # mount it on two points
        if type == 'ntfs' and subprocess.call(['which', 'mount.ntfs-3g'],
                                              stdout=subprocess.PIPE) == 0:
            # prefer mount.ntfs-3g if we have it (on Debian; Ubuntu
            # defaults to ntfs-3g if installed); TODO: check other distros
            mount_prog = 'mount.ntfs-3g'
        else:
            mount_prog = 'mount'
        mount_a = os.path.join(self.workdir, 'mp_a')
        mount_b = os.path.join(self.workdir, 'mp_b')
        with contextlib.suppress(FileExistsError):
            os.mkdir(mount_a)
            os.mkdir(mount_b)

        ret = subprocess.call([mount_prog, self.device, mount_a])
        if ret == 32:
            # missing fs driver
            self.write_stderr('[missing kernel driver, skip] ')
            return
        self.assertEqual(ret, 0)

        self.assertProperty(fs, 'mount-points', [mount_a])

        if type != 'ntfs':
            # ntfs-3g does not support multiple mounts
            subprocess.check_call([mount_prog, self.device, mount_b])
            self.assertProperty(fs, 'mount-points', set([mount_a, mount_b]))
            subprocess.call(['umount', mount_b])

        # unmount it
        subprocess.call(['umount', mount_a])
        self.assertProperty(fs, 'mount-points', [])

    def _do_udisks_check(self, type, label=None):
        '''udisks API correctly changes file system'''

        # create fs
        if label is not None:
            options = GLib.Variant('a{sv}', {'label': GLib.Variant('s', label)})
        else:
            options = no_options
        self.fs_create(None, type, options)

        # properties
        id = self.blkid()
        self.assertEqual(id['ID_FS_USAGE'], type == 'swap' and 'other' or 'filesystem')
        self.assertEqual(id['ID_FS_TYPE'], type)
        l = id.get('ID_FS_LABEL', '')
        if type == 'vfat':
            l = l.lower()  # VFAT is case insensitive
        self.assertEqual(l, label or '')

        block = self.udisks_block()
        self.assertProperty(block, 'id-usage', (type == 'swap') and 'other' or 'filesystem')
        self.assertProperty(block, 'id-type', type)
        if type == 'vfat' and label:
            # VFAT is case insensitive
            self.assertEventually(lambda: block.get_property('id-label').lower(), label.lower())
        else:
            self.assertProperty(block, 'id-label', label or '')

        if type == 'swap':
            return

        obj = self.client.get_object(self.block.get_object_path())
        self.assertEqual(obj.get_property('partition'), None)
        self.assertEqual(obj.get_property('partition-table'), None)

        fs = self.udisks_filesystem()
        self.assertNotEqual(fs, None, 'no Filesystem interface for test device')
        self.assertEqual(fs.get_property('mount-points'), [])

        # mount
        mount_path = fs.call_mount_sync(no_options, None)

        self.assertIn('/media/', mount_path)
        if label:
            if type == 'vfat':
                self.assertTrue(mount_path.lower().endswith(label))
            else:
                self.assertTrue(mount_path.endswith(label))

        self.assertTrue(self.is_mountpoint(mount_path))
        # FIXME: this should work on the existing fs object, but doesn't!
        self.sync()
        fs = self.udisks_filesystem()
        self.assertProperty(fs, 'mount-points', [mount_path])

        # no ownership taken, should be root owned
        st = os.stat(mount_path)
        self.assertEqual((st.st_uid, st.st_gid), (0, 0))

        self._do_file_perms_checks(type, mount_path)

        # unmount
        self.retry_busy(fs.call_unmount_sync, no_options, None)
        self.assertFalse(os.path.exists(mount_path), 'mount point was not removed')
        self.assertProperty(fs, 'mount-points', [])

        # create fs with taking ownership (daemon:mail == 1:8)
        # if supports_unix_owners:
        #     options.append('take_ownership_uid=1')
        #     options.append('take_ownership_gid=8')
        #     self.fs_create(None, type, options)
        #     mount_path = iface.FilesystemMount('', [])
        #     st = os.stat(mount_path)
        #     self.assertEqual((st.st_uid, st.st_gid), (1, 8))
        #     self.retry_busy(self.partition_iface().FilesystemUnmount, [])
        #     self.assertFalse(os.path.exists(mount_path), 'mount point was not removed')

        # change label
        supported = True
        l = 'n"a\m\\"e' + type
        if type == 'vfat':
            # VFAT does not support some characters
            self.assertRaises(GLib.GError, fs.call_set_label_sync, l, no_options, None)
            l = "n@a$me"
        try:
            fs.call_set_label_sync(l, no_options, None)
        except GLib.GError as e:
            if 'UDisks2.Error.NotSupported' in e.message:
                # these fses are known to not support relabeling
                self.assertIn(type, ['minix', 'btrfs', 'f2fs'])
                supported = False
            else:
                raise

        if supported:
            block = self.udisks_block()
            blkid_label = self.blkid().get('ID_FS_LABEL_ENC', '').replace('\\x22', '"').replace(
                '\\x5c', '\\').replace('\\x24', '$')
            if type == 'vfat':
                # EXFAIL: often (but not always) the label appears in all upper case
                self.assertEqual(blkid_label.upper(), l.upper())
                self.assertEventually(lambda: block.get_property('id-label').upper(), l.upper())
            else:
                self.assertEqual(blkid_label, l)
                self.assertProperty(block, 'id-label', l)

            # test setting empty label
            fs.call_set_label_sync('', no_options, None)
            self.assertEqual(self.blkid().get('ID_FS_LABEL_ENC', ''), '')
            self.assertProperty(block, 'id-label', '')

        # check fs - Not implemented in udisks yet
        # self.assertEqual(iface.FilesystemCheck([]), True)

        # check mounting of a read-only device
        # this is known-broken for reiserfs and xfs right now:
        # https://github.com/karelzak/util-linux/issues/17
        # https://github.com/karelzak/util-linux/issues/18
        if type not in ['reiserfs', 'xfs']:
            # the scsi_debug CD drive content is the same as for the HD drive, but
            # udev does not know about this; so give it a nudge to re-probe
            subprocess.call(['udevadm', 'trigger', '--action=change',
                             '--sysname-match=' + os.path.basename(self.cd_device)])
            self.sync()
            self.sync()
            cd_fs = self.udisks_filesystem(cd=True)

            mount_path = cd_fs.call_mount_sync(no_options, None)
            try:
                self.assertIn('/media/', mount_path)
                self.assertProperty(cd_fs, 'mount-points', [mount_path])
                self.assertTrue(self.is_mountpoint(mount_path))

                self.assertProperty(self.udisks_block(cd=True), 'read-only', True)
            finally:
                self.retry_busy(cd_fs.call_unmount_sync, no_options, None)
                self.assertFalse(os.path.exists(mount_path), 'mount point was not removed')
                self.assertProperty(cd_fs, 'mount-points', [])

    def _do_file_perms_checks(self, type, mount_point):
        '''Check for permissions for data files and executables.

        This particularly checks sane and useful permissions on non-Unix file
        systems like vfat.
        '''
        if type in BROKEN_PERMISSIONS_FS:
            return

        f = os.path.join(mount_point, 'simpledata.txt')
        open(f, 'w').close()
        self.assertTrue(os.access(f, os.R_OK))
        self.assertTrue(os.access(f, os.W_OK))
        self.assertFalse(os.access(f, os.X_OK))

        f = os.path.join(mount_point, 'simple.exe')
        shutil.copy('/bin/bash', f)
        self.assertTrue(os.access(f, os.R_OK))
        self.assertTrue(os.access(f, os.W_OK))
        self.assertTrue(os.access(f, os.X_OK))

        os.mkdir(os.path.join(mount_point, 'subdir'))
        f = os.path.join(mount_point, 'subdir', 'subdirdata.txt')
        open(f, 'w').close()
        self.assertTrue(os.access(f, os.R_OK))
        self.assertTrue(os.access(f, os.W_OK))
        self.assertFalse(os.access(f, os.X_OK))

        f = os.path.join(mount_point, 'subdir', 'subdir.exe')
        shutil.copy('/bin/bash', f)
        self.assertTrue(os.access(f, os.R_OK))
        self.assertTrue(os.access(f, os.W_OK))
        self.assertTrue(os.access(f, os.X_OK))


# ----------------------------------------------------------------------------

class Fstab(UDisksTestCase):
    '''Test /etc/fstab custom options'''

    @classmethod
    def setUpClass(kls):
        kls.orig_fstab = '/etc/fstab.udiskstest'
        shutil.copy2('/etc/fstab', kls.orig_fstab)

        # create one partition
        subprocess.check_call(
            ['parted', '-s', kls.device, 'mklabel', 'gpt'],
            stdout=subprocess.PIPE)
        subprocess.check_call(
            ['parted', '-s', kls.device, 'mkpart', 'primary', '0', '64'],
            stdout=subprocess.PIPE)
        kls.p1label = 'udtestp1'
        subprocess.check_call(
            ['parted', '-s', kls.device, 'name', '1', kls.p1label],
            stdout=subprocess.PIPE)
        kls.sync()
        blkid = subprocess.check_output(
            ['blkid', '-oudev', '-p', kls.devname(1)], universal_newlines=True).splitlines()
        for line in blkid:
            if line.startswith('ID_PART_ENTRY_UUID='):
                kls.p1uuid = line.split('=', 1)[1]
                break
        else:
            raise SystemError('blkid does not contain partition UUID')

        kls.mkfs('ext2', partition=1, label='udtestfst')
        kls.mountpoint = tempfile.mkdtemp()
        kls.block = kls.udisks_block(partition=1)
        kls.fs = kls.udisks_filesystem(partition=1)

    @classmethod
    def tearDownClass(kls):
        os.rmdir(kls.mountpoint)
        os.unlink(kls.orig_fstab)

    def tearDown(self):
        shutil.copy2(self.orig_fstab, '/etc/fstab')
        self.retry_busy(self.fs.call_unmount_sync, no_options, None)

    def test_devname(self):
        '''by device name'''

        with open('/etc/fstab', 'a') as f:
            f.write('%s %s ext4 defaults,nosuid,noexec 0 0\n' %
                    (self.devname(partition=1), self.mountpoint))
        os.sync()
        self.do_test()

    def test_label(self):
        '''by label'''

        with open('/etc/fstab', 'a') as f:
            f.write('LABEL=udtestfst %s ext4 defaults,nosuid,noexec 0 0\n' %
                    self.mountpoint)
        os.sync()
        self.do_test()

    def test_uuid(self):
        '''by UUID'''

        with open('/etc/fstab', 'a') as f:
            f.write('UUID=%s %s ext4 defaults,nosuid,noexec 0 0\n' %
                    (self.block.get_property('id-uuid'), self.mountpoint))
        os.sync()
        self.do_test()

    def test_partuuid(self):
        '''by PARTUUID'''

        with open('/etc/fstab', 'a') as f:
            f.write('PARTUUID=%s %s ext4 defaults,nosuid,noexec 0 0\n' %
                    (self.p1uuid, self.mountpoint))
        os.sync()
        self.do_test()

    def test_partlabel(self):
        '''by PARTLABEL'''

        with open('/etc/fstab', 'a') as f:
            f.write('PARTLABEL=%s %s ext4 defaults,nosuid,noexec 0 0\n' %
                    (self.p1label, self.mountpoint))
        os.sync()
        self.do_test()

    def do_test(self):
        self.assertEqual(self.fs.get_property('mount-points'), [])
        mount_path = self.fs.call_mount_sync(no_options, None)
        self.assertEqual(mount_path, self.mountpoint)
        with open('/proc/self/mounts') as f:
            for line in f:
                if line.startswith(self.devname()):
                    options = line.split()[3].split(',')
                    break
            else:
                self.fail('%s not mounted' % self.devname())
        self.assertIn('noexec', options)
        self.assertIn('nosuid', options)


# ----------------------------------------------------------------------------

class Smart(UDisksTestCase):
    '''Check SMART operation.'''

    def test_sda(self):
        '''SMART status of first internal hard disk

        This is a best-effort readonly test.
        '''
        hd = '/dev/sda'

        if not os.path.exists(hd):
            self.write_stderr('[skip] ')
            return

        has_smart = subprocess.call(['skdump', '--can-smart', hd],
                                    stdout=subprocess.PIPE,
                                    stderr=subprocess.STDOUT) == 0

        block = self.client.get_block_for_dev(os.stat(hd).st_rdev)
        self.assertNotEqual(block, None)
        drive = self.client.get_drive_for_block(block)
        ata = self.client.get_object(drive.get_object_path()).get_property('drive-ata')
        self.assertEqual(ata is not None, has_smart)

        if has_smart:
            self.write_stderr('[avail] ')
            self.assertEqual(ata.get_property('smart-supported'), True)
            self.assertEqual(ata.get_property('smart-enabled'), True)

            # wait for SMART data to be read
            while ata.get_property('smart-updated') == 0:
                self.write_stderr('[wait for data] ')
                self.client.settle()
                time.sleep(0.5)

            # this is of course not truly correct for a test suite, but let's
            # consider it a courtesy for developers :-)
            self.assertEqual(ata.get_property('smart-failing'), False)
            self.assertIn(ata.get_property('smart-selftest-status'),
                                           ['success', 'inprogress', 'aborted',
                                           'interrupted'])
        else:
            self.write_stderr('[N/A] ')


# ----------------------------------------------------------------------------

class Luks(UDisksTestCase):
    '''Check LUKS.'''

    def tearDown(self):
        '''clean up behind failed test cases'''

        crypt_obj = self.client.get_object(self.udisks_block().get_object_path())
        if crypt_obj:
            encrypted = crypt_obj.get_property('encrypted')
            if encrypted:
                try:
                    encrypted.call_lock_sync(no_options, None)
                    self.write_stderr('[cleanup lock] ')
                except GLib.GError:
                    pass

    # needs to run before the other tests
    def test_0_create_teardown(self):
        '''LUKS create/teardown'''

        self.fs_create(None, 'ext4', GLib.Variant('a{sv}', {
            'encrypt.passphrase': GLib.Variant('s', 's3kr1t'),
            'label': GLib.Variant('s', 'treasure')}))
        self.client.settle()

        try:
            block = self.udisks_block()
            obj = self.client.get_object(block.get_object_path())
            self.assertEqual(obj.get_property('filesystem'), None)
            encrypted = obj.get_property('encrypted')
            self.assertNotEqual(encrypted, None)

            # check crypted device info
            self.assertEqual(block.get_property('id-type'), 'crypto_LUKS')
            self.assertEqual(block.get_property('id-usage'), 'crypto')
            self.assertEqual(block.get_property('id-label'), '')
            self.assertEqual(block.get_property('id-uuid'), self.blkid()['ID_FS_UUID'])
            self.assertEqual(block.get_property('device'), self.devname())

            # check whether we can lock/unlock; we also need this to get the
            # cleartext device
            encrypted.call_lock_sync(no_options, None)
            self.assertRaises(GLib.GError, encrypted.call_lock_sync,
                              no_options, None)

            # wrong password
            self.assertRaises(GLib.GError, encrypted.call_unlock_sync,
                              'h4ckpassword', no_options, None)
            # right password
            clear_path = encrypted.call_unlock_sync('s3kr1t',
                                                    no_options, None)

            # check cleartext device info
            clear_obj = self.client.get_object(clear_path)
            self.assertEqual(clear_obj.get_property('encrypted'), None)
            clear_block = clear_obj.get_property('block')
            self.assertEqual(clear_block.get_property('id-type'), 'ext4')
            self.assertEqual(clear_block.get_property('id-usage'), 'filesystem')
            self.assertEqual(clear_block.get_property('id-label'), 'treasure')
            self.assertNotEqual(clear_block.get_property('crypto-backing-device'), None)
            clear_dev = clear_block.get_property('device')
            self.assertNotEqual(clear_dev, None)
            self.assertEqual(clear_block.get_property('id-uuid'),
                             self.blkid(device=clear_dev)['ID_FS_UUID'])

            clear_fs = clear_obj.get_property('filesystem')
            self.assertEqual(clear_fs.get_property('mount-points'), [])

            # check that we do not leak key information
            udev_dump = subprocess.Popen(['udevadm', 'info', '--export-db'],
                                         stdout=subprocess.PIPE)
            out = udev_dump.communicate()[0]
            self.assertFalse(b's3kr1t' in out, 'password in udev properties')
            self.assertFalse(b'essiv:sha' in out, 'key information in udev properties')

        finally:
            # tear down cleartext device
            encrypted.call_lock_sync(no_options, None)
            self.assertFalse(os.path.exists(clear_dev))

    def test_luks_mount(self):
        '''LUKS mount/unmount'''

        crypt_obj = self.client.get_object(self.udisks_block().get_object_path())
        encrypted = crypt_obj.get_property('encrypted')

        path = encrypted.call_unlock_sync('s3kr1t', no_options, None)
        self.client.settle()
        obj = self.client.get_object(path)
        fs = obj.get_property('filesystem')
        self.assertNotEqual(fs, None)

        # mount
        mount_path = fs.call_mount_sync(no_options, None)

        try:
            self.assertIn('/media/', mount_path)
            self.assertTrue(mount_path.endswith('treasure'))
            self.assertTrue(self.is_mountpoint(mount_path))
            self.assertProperty(fs, 'mount-points', [mount_path])

            # can't lock, busy
            try:
                encrypted.call_lock_sync(no_options, None)
                self.fail('Lock() unexpectedly succeeded on mounted file system')
            except GLib.GError as e:
                self.assertIn('UDisks2.Error.Failed', e.message)
        finally:
            # umount
            self.retry_busy(fs.call_unmount_sync, no_options, None)
            self.client.settle()
            self.assertFalse(os.path.exists(mount_path), 'mount point was not removed')
            self.assertEqual(fs.get_property('mount-points'), [])

            # lock
            encrypted.call_lock_sync(no_options, None)
            self.client.settle()
            self.assertEqual(self.client.get_object(path), None)

    def test_luks_forced_removal(self):
        '''LUKS forced removal'''

        # unlock and mount it
        crypt_obj = self.client.get_object(self.udisks_block().get_object_path())
        path = crypt_obj.get_property('encrypted').call_unlock_sync(
            's3kr1t', no_options, None)
        try:
            fs = self.client.get_object(path).get_property('filesystem')
            mount_path = fs.call_mount_sync(no_options, None)
            self.assertIn('/media/', mount_path)
            self.assertTrue(mount_path.endswith('treasure'))

            # removal should clean up mounts
            try:
                self.remove_device(self.device)
                self.assertFalse(os.path.exists(mount_path))
                timeout = 50
                while timeout > 0:
                    if self.client.get_object(path) is None:
                        break
                    timeout -= 1
                    # we do not have a main loop, and cannot currently use
                    # g_main_context_get_default() from introspection, so
                    # instead of refreshing self.client, get a new one
                    self.client = UDisks.Client.new_sync(None)
                    time.sleep(0.1)
                self.assertGreater(timeout, 0, 'timeout waiting for object path %s to disappear' % path)
            finally:
                self.readd_devices()

            # after putting it back, it should be mountable again
            crypt_obj = self.client.get_object(self.udisks_block().get_object_path())
            path = crypt_obj.get_property('encrypted').call_unlock_sync(
                's3kr1t', no_options, None)
            self.client.settle()
            fs = self.client.get_object(path).get_property('filesystem')
            mount_path = fs.call_mount_sync(no_options, None)
            self.assertIn('/media/', mount_path)
            self.assertTrue(mount_path.endswith('treasure'))

            # umount
            self.retry_busy(fs.call_unmount_sync, no_options, None)
            self.client.settle()
            self.assertFalse(os.path.exists(mount_path), 'mount point was not removed')
            self.assertEqual(fs.get_property('mount-points'), [])
        finally:
            # lock
            crypt_obj.get_property('encrypted').call_lock_sync(
                no_options, None)
            self.client.settle()
            self.assertEqual(self.client.get_object(path), None)


# ----------------------------------------------------------------------------

class Polkit(UDisksTestCase, test_polkitd.PolkitTestCase):
    '''Check operation with polkit.'''

    def test_internal_fs_forbidden(self):
        '''Create FS on internal drive (forbidden)'''

        self.start_polkitd(['org.freedesktop.udisks2.modify-device'])

        options = GLib.Variant('a{sv}', {'label': GLib.Variant('s', 'polkitno')})
        with self.assertRaises(GLib.GError) as cm:
            self.fs_create(None, 'ext4', options)
        self.assertIn('UDisks2.Error.NotAuthorized', cm.exception.message)

        # did not actually do anything
        block = self.udisks_block()
        self.assertNotEqual(block.get_property('id-label'), 'polkitno')

    def test_internal_fs_allowed(self):
        '''Create FS on internal drive (allowed)'''

        self.start_polkitd(['org.freedesktop.udisks2.modify-device-system',
                            'org.freedesktop.udisks2.modify-device'])

        options = GLib.Variant('a{sv}', {'label': GLib.Variant('s', 'polkityes')})
        self.fs_create(None, 'ext4', options)
        block = self.udisks_block()
        self.assertProperty(block, 'id-usage', 'filesystem')
        self.assertEqual(block.get_property('id-type'), 'ext4')
        self.assertEqual(block.get_property('id-label'), 'polkityes')

    def test_removable_fs(self):
        '''Create FS on removable drive (allowed)'''

        self.start_polkitd(['org.freedesktop.udisks2.filesystem-mount',
                            'org.freedesktop.udisks2.filesystem-mount-other-seat'])

        # the scsi_debug CD drive content is the same as for the HD drive, but
        # udev does not know about this; so give it a nudge to re-probe
        subprocess.call(['udevadm', 'trigger', '--action=change',
                         '--sysname-match=' + os.path.basename(self.cd_device)])
        self.sync()
        self.sync()

        fs = self.udisks_filesystem(cd=True)
        self.assertNotEqual(fs, None)
        mount_path = fs.call_mount_sync(no_options, None)
        self.assertIn('/media/', mount_path)

        self.retry_busy(fs.call_unmount_sync, no_options, None)
        self.client.settle()

# ----------------------------------------------------------------------------

if __name__ == '__main__':
    argparser = argparse.ArgumentParser(description='udisks2 integration test suite')
    argparser.add_argument('-l', '--log-file', dest='logfile',
                           help='write daemon log to a file')
    argparser.add_argument('testname', nargs='*',
                           help='name of test class or method (e. g. "Drive", "FS.test_ext2")')
    args = argparser.parse_args()

    UDisksTestCase.init(logfile=args.logfile)
    if args.testname:
        tests = unittest.TestLoader().loadTestsFromNames(
            args.testname, __import__('__main__'))
    else:
        tests = unittest.TestLoader().loadTestsFromName('__main__')
    if unittest.TextTestRunner(verbosity=2).run(tests).wasSuccessful():
        sys.exit(0)
    else:
        sys.exit(1)
