# Copyright (c) 2012 The Chromium OS Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. import dbus, gobject, logging, os, stat from dbus.mainloop.glib import DBusGMainLoop import common from autotest_lib.client.bin import utils from autotest_lib.client.common_lib import autotemp, error from mainloop import ExceptionForward from mainloop import GenericTesterMainLoop """This module contains several helper classes for writing tests to verify the CrosDisks DBus interface. In particular, the CrosDisksTester class can be used to derive functional tests that interact with the CrosDisks server over DBus. """ class ExceptionSuppressor(object): """A context manager class for suppressing certain types of exception. An instance of this class is expected to be used with the with statement and takes a set of exception classes at instantiation, which are types of exception to be suppressed (and logged) in the code block under the with statement. Example: with ExceptionSuppressor(OSError, IOError): # An exception, which is a sub-class of OSError or IOError, is # suppressed in the block code under the with statement. """ def __init__(self, *args): self.__suppressed_exc_types = (args) def __enter__(self): return self def __exit__(self, exc_type, exc_value, traceback): if exc_type and issubclass(exc_type, self.__suppressed_exc_types): try: logging.exception('Suppressed exception: %s(%s)', exc_type, exc_value) except Exception: pass return True return False class DBusClient(object): """ A base class of a DBus proxy client to test a DBus server. This class is expected to be used along with a GLib main loop and provides some convenient functions for testing the DBus API exposed by a DBus server. """ def __init__(self, main_loop, bus, bus_name, object_path): """Initializes the instance. Args: main_loop: The GLib main loop. bus: The bus where the DBus server is connected to. bus_name: The bus name owned by the DBus server. object_path: The object path of the DBus server. """ self.__signal_content = {} self.main_loop = main_loop self.signal_timeout_in_seconds = 10 logging.debug('Getting D-Bus proxy object on bus "%s" and path "%s"', bus_name, object_path) self.proxy_object = bus.get_object(bus_name, object_path) def clear_signal_content(self, signal_name): """Clears the content of the signal. Args: signal_name: The name of the signal. """ if signal_name in self.__signal_content: self.__signal_content[signal_name] = None def get_signal_content(self, signal_name): """Gets the content of a signal. Args: signal_name: The name of the signal. Returns: The content of a signal or None if the signal is not being handled. """ return self.__signal_content.get(signal_name) def handle_signal(self, interface, signal_name, argument_names=()): """Registers a signal handler to handle a given signal. Args: interface: The DBus interface of the signal. signal_name: The name of the signal. argument_names: A list of argument names that the signal contains. """ if signal_name in self.__signal_content: return self.__signal_content[signal_name] = None def signal_handler(*args): self.__signal_content[signal_name] = dict(zip(argument_names, args)) logging.debug('Handling D-Bus signal "%s(%s)" on interface "%s"', signal_name, ', '.join(argument_names), interface) self.proxy_object.connect_to_signal(signal_name, signal_handler, interface) def wait_for_signal(self, signal_name): """Waits for the reception of a signal. Args: signal_name: The name of the signal to wait for. Returns: The content of the signal. """ if signal_name not in self.__signal_content: return None def check_signal_content(): context = self.main_loop.get_context() while context.iteration(False): pass return self.__signal_content[signal_name] is not None logging.debug('Waiting for D-Bus signal "%s"', signal_name) utils.poll_for_condition(condition=check_signal_content, desc='%s signal' % signal_name, timeout=self.signal_timeout_in_seconds) content = self.__signal_content[signal_name] logging.debug('Received D-Bus signal "%s(%s)"', signal_name, content) self.__signal_content[signal_name] = None return content def expect_signal(self, signal_name, expected_content): """Waits the the reception of a signal and verifies its content. Args: signal_name: The name of the signal to wait for. expected_content: The expected content of the signal, which can be partially specified. Only specified fields are compared between the actual and expected content. Returns: The actual content of the signal. Raises: error.TestFail: A test failure when there is a mismatch between the actual and expected content of the signal. """ actual_content = self.wait_for_signal(signal_name) logging.debug("%s signal: expected=%s actual=%s", signal_name, expected_content, actual_content) for argument, expected_value in expected_content.iteritems(): if argument not in actual_content: raise error.TestFail( ('%s signal missing "%s": expected=%s, actual=%s') % (signal_name, argument, expected_content, actual_content)) if actual_content[argument] != expected_value: raise error.TestFail( ('%s signal not matched on "%s": expected=%s, actual=%s') % (signal_name, argument, expected_content, actual_content)) return actual_content class CrosDisksClient(DBusClient): """A DBus proxy client for testing the CrosDisks DBus server. """ CROS_DISKS_BUS_NAME = 'org.chromium.CrosDisks' CROS_DISKS_INTERFACE = 'org.chromium.CrosDisks' CROS_DISKS_OBJECT_PATH = '/org/chromium/CrosDisks' DBUS_PROPERTIES_INTERFACE = 'org.freedesktop.DBus.Properties' FORMAT_COMPLETED_SIGNAL = 'FormatCompleted' FORMAT_COMPLETED_SIGNAL_ARGUMENTS = ( 'status', 'path' ) MOUNT_COMPLETED_SIGNAL = 'MountCompleted' MOUNT_COMPLETED_SIGNAL_ARGUMENTS = ( 'status', 'source_path', 'source_type', 'mount_path' ) def __init__(self, main_loop, bus): """Initializes the instance. Args: main_loop: The GLib main loop. bus: The bus where the DBus server is connected to. """ super(CrosDisksClient, self).__init__(main_loop, bus, self.CROS_DISKS_BUS_NAME, self.CROS_DISKS_OBJECT_PATH) self.interface = dbus.Interface(self.proxy_object, self.CROS_DISKS_INTERFACE) self.properties = dbus.Interface(self.proxy_object, self.DBUS_PROPERTIES_INTERFACE) self.handle_signal(self.CROS_DISKS_INTERFACE, self.FORMAT_COMPLETED_SIGNAL, self.FORMAT_COMPLETED_SIGNAL_ARGUMENTS) self.handle_signal(self.CROS_DISKS_INTERFACE, self.MOUNT_COMPLETED_SIGNAL, self.MOUNT_COMPLETED_SIGNAL_ARGUMENTS) def is_alive(self): """Invokes the CrosDisks IsAlive method. Returns: True if the CrosDisks server is alive or False otherwise. """ return self.interface.IsAlive() def enumerate_auto_mountable_devices(self): """Invokes the CrosDisks EnumerateAutoMountableDevices method. Returns: A list of sysfs paths of devices that are auto-mountable by CrosDisks. """ return self.interface.EnumerateAutoMountableDevices() def enumerate_devices(self): """Invokes the CrosDisks EnumerateMountableDevices method. Returns: A list of sysfs paths of devices that are recognized by CrosDisks. """ return self.interface.EnumerateDevices() def get_device_properties(self, path): """Invokes the CrosDisks GetDeviceProperties method. Args: path: The device path. Returns: The properties of the device in a dictionary. """ return self.interface.GetDeviceProperties(path) def format(self, path, filesystem_type=None, options=None): """Invokes the CrosDisks Format method. Args: path: The device path to format. filesystem_type: The filesystem type used for formatting the device. options: A list of options used for formatting the device. """ if filesystem_type is None: filesystem_type = '' if options is None: options = [] self.clear_signal_content(self.FORMAT_COMPLETED_SIGNAL) self.interface.Format(path, filesystem_type, options) def wait_for_format_completion(self): """Waits for the CrosDisks FormatCompleted signal. Returns: The content of the FormatCompleted signal. """ return self.wait_for_signal(self.FORMAT_COMPLETED_SIGNAL) def expect_format_completion(self, expected_content): """Waits and verifies for the CrosDisks FormatCompleted signal. Args: expected_content: The expected content of the FormatCompleted signal, which can be partially specified. Only specified fields are compared between the actual and expected content. Returns: The actual content of the FormatCompleted signal. Raises: error.TestFail: A test failure when there is a mismatch between the actual and expected content of the FormatCompleted signal. """ return self.expect_signal(self.FORMAT_COMPLETED_SIGNAL, expected_content) def mount(self, path, filesystem_type=None, options=None): """Invokes the CrosDisks Mount method. Args: path: The device path to mount. filesystem_type: The filesystem type used for mounting the device. options: A list of options used for mounting the device. """ if filesystem_type is None: filesystem_type = '' if options is None: options = [] self.clear_signal_content(self.MOUNT_COMPLETED_SIGNAL) self.interface.Mount(path, filesystem_type, options) def unmount(self, path, options=None): """Invokes the CrosDisks Unmount method. Args: path: The device or mount path to unmount. options: A list of options used for unmounting the path. """ if options is None: options = [] self.interface.Unmount(path, options) def wait_for_mount_completion(self): """Waits for the CrosDisks MountCompleted signal. Returns: The content of the MountCompleted signal. """ return self.wait_for_signal(self.MOUNT_COMPLETED_SIGNAL) def expect_mount_completion(self, expected_content): """Waits and verifies for the CrosDisks MountCompleted signal. Args: expected_content: The expected content of the MountCompleted signal, which can be partially specified. Only specified fields are compared between the actual and expected content. Returns: The actual content of the MountCompleted signal. Raises: error.TestFail: A test failure when there is a mismatch between the actual and expected content of the MountCompleted signal. """ return self.expect_signal(self.MOUNT_COMPLETED_SIGNAL, expected_content) class CrosDisksTester(GenericTesterMainLoop): """A base tester class for testing the CrosDisks server. A derived class should override the get_tests method to return a list of test methods. The perform_one_test method invokes each test method in the list to verify some functionalities of CrosDisks server. """ def __init__(self, test): bus_loop = DBusGMainLoop(set_as_default=True) bus = dbus.SystemBus(mainloop=bus_loop) self.main_loop = gobject.MainLoop() super(CrosDisksTester, self).__init__(test, self.main_loop) self.cros_disks = CrosDisksClient(self.main_loop, bus) def get_tests(self): """Returns a list of test methods to be invoked by perform_one_test. A derived class should override this method. Returns: A list of test methods. """ return [] @ExceptionForward def perform_one_test(self): """Exercises each test method in the list returned by get_tests. """ tests = self.get_tests() self.remaining_requirements = set([test.func_name for test in tests]) for test in tests: test() self.requirement_completed(test.func_name) class FilesystemTestObject(object): """A base class to represent a filesystem test object. A filesystem test object can be a file, directory or symbolic link. A derived class should override the _create and _verify method to implement how the test object should be created and verified, respectively, on a filesystem. """ def __init__(self, path, content, mode): """Initializes the instance. Args: path: The relative path of the test object. content: The content of the test object. mode: The file permissions given to the test object. """ self._path = path self._content = content self._mode = mode def create(self, base_dir): """Creates the test object in a base directory. Args: base_dir: The base directory where the test object is created. Returns: True if the test object is created successfully or False otherwise. """ if not self._create(base_dir): logging.debug('Failed to create filesystem test object at "%s"', os.path.join(base_dir, self._path)) return False return True def verify(self, base_dir): """Verifies the test object in a base directory. Args: base_dir: The base directory where the test object is expected to be found. Returns: True if the test object is found in the base directory and matches the expected content, or False otherwise. """ if not self._verify(base_dir): logging.debug('Failed to verify filesystem test object at "%s"', os.path.join(base_dir, self._path)) return False return True def _create(self, base_dir): return False def _verify(self, base_dir): return False class FilesystemTestDirectory(FilesystemTestObject): """A filesystem test object that represents a directory.""" def __init__(self, path, content, mode=stat.S_IRWXU|stat.S_IRGRP| \ stat.S_IXGRP|stat.S_IROTH|stat.S_IXOTH): super(FilesystemTestDirectory, self).__init__(path, content, mode) def _create(self, base_dir): path = os.path.join(base_dir, self._path) if self._path else base_dir if self._path: with ExceptionSuppressor(OSError): os.makedirs(path) os.chmod(path, self._mode) if not os.path.isdir(path): return False for content in self._content: if not content.create(path): return False return True def _verify(self, base_dir): path = os.path.join(base_dir, self._path) if self._path else base_dir if not os.path.isdir(path): return False for content in self._content: if not content.verify(path): return False return True class FilesystemTestFile(FilesystemTestObject): """A filesystem test object that represents a file.""" def __init__(self, path, content, mode=stat.S_IRUSR|stat.S_IWUSR| \ stat.S_IRGRP|stat.S_IROTH): super(FilesystemTestFile, self).__init__(path, content, mode) def _create(self, base_dir): path = os.path.join(base_dir, self._path) with ExceptionSuppressor(IOError): with open(path, 'wb+') as f: f.write(self._content) with ExceptionSuppressor(OSError): os.chmod(path, self._mode) return True return False def _verify(self, base_dir): path = os.path.join(base_dir, self._path) with ExceptionSuppressor(IOError): with open(path, 'rb') as f: return f.read() == self._content return False class DefaultFilesystemTestContent(FilesystemTestDirectory): def __init__(self): super(DefaultFilesystemTestContent, self).__init__('', [ FilesystemTestFile('file1', '0123456789'), FilesystemTestDirectory('dir1', [ FilesystemTestFile('file1', ''), FilesystemTestFile('file2', 'abcdefg'), FilesystemTestDirectory('dir2', [ FilesystemTestFile('file3', 'abcdefg'), ]), ]), ], stat.S_IRWXU|stat.S_IRGRP|stat.S_IXGRP|stat.S_IROTH|stat.S_IXOTH) class VirtualFilesystemImage(object): def __init__(self, block_size, block_count, filesystem_type, *args, **kwargs): """Initializes the instance. Args: block_size: The number of bytes of each block in the image. block_count: The number of blocks in the image. filesystem_type: The filesystem type to be given to the mkfs program for formatting the image. Keyword Args: mount_filesystem_type: The filesystem type to be given to the mount program for mounting the image. mkfs_options: A list of options to be given to the mkfs program. """ self._block_size = block_size self._block_count = block_count self._filesystem_type = filesystem_type self._mount_filesystem_type = kwargs.get('mount_filesystem_type') if self._mount_filesystem_type is None: self._mount_filesystem_type = filesystem_type self._mkfs_options = kwargs.get('mkfs_options') if self._mkfs_options is None: self._mkfs_options = [] self._image_file = None self._loop_device = None self._mount_dir = None def __del__(self): with ExceptionSuppressor(Exception): self.clean() def __enter__(self): self.create() return self def __exit__(self, exc_type, exc_value, traceback): self.clean() return False def _remove_temp_path(self, temp_path): """Removes a temporary file or directory created using autotemp.""" if temp_path: with ExceptionSuppressor(Exception): path = temp_path.name temp_path.clean() logging.debug('Removed "%s"', path) def _remove_image_file(self): """Removes the image file if one has been created.""" self._remove_temp_path(self._image_file) self._image_file = None def _remove_mount_dir(self): """Removes the mount directory if one has been created.""" self._remove_temp_path(self._mount_dir) self._mount_dir = None @property def image_file(self): """Gets the path of the image file. Returns: The path of the image file or None if no image file has been created. """ return self._image_file.name if self._image_file else None @property def loop_device(self): """Gets the loop device where the image file is attached to. Returns: The path of the loop device where the image file is attached to or None if no loop device is attaching the image file. """ return self._loop_device @property def mount_dir(self): """Gets the directory where the image file is mounted to. Returns: The directory where the image file is mounted to or None if no mount directory has been created. """ return self._mount_dir.name if self._mount_dir else None def create(self): """Creates a zero-filled image file with the specified size. The created image file is temporary and removed when clean() is called. """ self.clean() self._image_file = autotemp.tempfile(unique_id='fsImage') try: logging.debug('Creating zero-filled image file at "%s"', self._image_file.name) utils.run('dd if=/dev/zero of=%s bs=%s count=%s' % (self._image_file.name, self._block_size, self._block_count)) except error.CmdError as exc: self._remove_image_file() message = 'Failed to create filesystem image: %s' % exc raise RuntimeError(message) def clean(self): """Removes the image file if one has been created. Before removal, the image file is detached from the loop device that it is attached to. """ self.detach_from_loop_device() self._remove_image_file() def attach_to_loop_device(self): """Attaches the created image file to a loop device. Creates the image file, if one has not been created, by calling create(). Returns: The path of the loop device where the image file is attached to. """ if self._loop_device: return self._loop_device if not self._image_file: self.create() logging.debug('Attaching image file "%s" to loop device', self._image_file.name) utils.run('losetup -f %s' % self._image_file.name) output = utils.system_output('losetup -j %s' % self._image_file.name) # output should look like: "/dev/loop0: [000d]:6329 (/tmp/test.img)" self._loop_device = output.split(':')[0] logging.debug('Attached image file "%s" to loop device "%s"', self._image_file.name, self._loop_device) return self._loop_device def detach_from_loop_device(self): """Detaches the image file from the loop device.""" if not self._loop_device: return self.unmount() logging.debug('Cleaning up remaining mount points of loop device "%s"', self._loop_device) utils.run('umount -f %s' % self._loop_device, ignore_status=True) logging.debug('Detaching image file "%s" from loop device "%s"', self._image_file.name, self._loop_device) utils.run('losetup -d %s' % self._loop_device) self._loop_device = None def format(self): """Formats the image file as the specified filesystem.""" self.attach_to_loop_device() try: logging.debug('Formatting image file at "%s" as "%s" filesystem', self._image_file.name, self._filesystem_type) utils.run('yes | mkfs -t %s %s %s' % (self._filesystem_type, ' '.join(self._mkfs_options), self._loop_device)) logging.debug('blkid: %s', utils.system_output( 'blkid -c /dev/null %s' % self._loop_device, ignore_status=True)) except error.CmdError as exc: message = 'Failed to format filesystem image: %s' % exc raise RuntimeError(message) def mount(self, options=None): """Mounts the image file to a directory. Args: options: An optional list of mount options. """ if self._mount_dir: return self._mount_dir.name if options is None: options = [] options_arg = ','.join(options) if options_arg: options_arg = '-o ' + options_arg self.attach_to_loop_device() self._mount_dir = autotemp.tempdir(unique_id='fsImage') try: logging.debug('Mounting image file "%s" (%s) to directory "%s"', self._image_file.name, self._loop_device, self._mount_dir.name) utils.run('mount -t %s %s %s %s' % (self._mount_filesystem_type, options_arg, self._loop_device, self._mount_dir.name)) except error.CmdError as exc: self._remove_mount_dir() message = ('Failed to mount virtual filesystem image "%s": %s' % (self._image_file.name, exc)) raise RuntimeError(message) return self._mount_dir.name def unmount(self): """Unmounts the image file from the mounted directory.""" if not self._mount_dir: return try: logging.debug('Unmounting image file "%s" (%s) from directory "%s"', self._image_file.name, self._loop_device, self._mount_dir.name) utils.run('umount %s' % self._mount_dir.name) except error.CmdError as exc: message = ('Failed to unmount virtual filesystem image "%s": %s' % (self._image_file.name, exc)) raise RuntimeError(message) finally: self._remove_mount_dir()