예제 #1
0
파일: disk.py 프로젝트: sitedata/kiwi-1
 def _load_boot_image_instance(self):
     boot_image_dump_file = self.target_dir + '/boot_image.pickledump'
     if not os.path.exists(boot_image_dump_file):
         raise KiwiInstallMediaError(
             'No boot image instance dump %s found' % boot_image_dump_file)
     try:
         with open(boot_image_dump_file, 'rb') as boot_image_dump:
             boot_image = pickle.load(boot_image_dump)
         Path.wipe(boot_image_dump_file)
     except Exception as e:
         raise KiwiInstallMediaError('Failed to load boot image dump: %s' %
                                     type(e).__name__)
     return boot_image
예제 #2
0
    def create_disk(self):  # noqa: C901
        """
        Build a bootable raw disk image

        :raises KiwiInstallMediaError:
            if install media is required and image type is not oem
        :raises KiwiVolumeManagerSetupError:
            root overlay at the same time volumes are defined is not supported

        :return: result

        :rtype: instance of :class:`Result`
        """
        if self.install_media and self.build_type_name != 'oem':
            raise KiwiInstallMediaError(
                'Install media requires oem type setup, got %s' %
                self.build_type_name)

        if self.root_filesystem_is_overlay and self.volume_manager_name:
            raise KiwiVolumeManagerSetupError(
                'Volume management together with root overlay is not supported'
            )

        # setup recovery archive, cleanup and create archive if requested
        self.system_setup.create_recovery_archive()

        # prepare boot(initrd) root system
        log.info('Preparing boot system')
        self.boot_image.prepare()

        # precalculate needed disk size
        disksize_mbytes = self.disk_setup.get_disksize_mbytes()

        # create the disk
        log.info('Creating raw disk image %s', self.diskname)
        loop_provider = LoopDevice(self.diskname, disksize_mbytes,
                                   self.blocksize)
        loop_provider.create()

        self.disk = Disk(self.firmware.get_partition_table_type(),
                         loop_provider, self.xml_state.get_disk_start_sector())

        # create the bootloader instance
        self.bootloader_config = BootLoaderConfig(
            self.bootloader,
            self.xml_state,
            root_dir=self.root_dir,
            boot_dir=self.root_dir,
            custom_args={
                'targetbase':
                loop_provider.get_device(),
                'grub_directory_name':
                Defaults.get_grub_boot_directory_name(self.root_dir),
                'boot_is_crypto':
                self.boot_is_crypto
            })

        # create disk partitions and instance device map
        device_map = self._build_and_map_disk_partitions(disksize_mbytes)

        # create raid on current root device if requested
        if self.mdraid:
            self.raid_root = RaidDevice(device_map['root'])
            self.raid_root.create_degraded_raid(raid_level=self.mdraid)
            device_map['root'] = self.raid_root.get_device()
            self.disk.public_partition_id_map['kiwi_RaidPart'] = \
                self.disk.public_partition_id_map['kiwi_RootPart']
            self.disk.public_partition_id_map['kiwi_RaidDev'] = \
                device_map['root'].get_device()

        # create luks on current root device if requested
        if self.luks:
            self.luks_root = LuksDevice(device_map['root'])
            self.luks_boot_keyname = '/.root.keyfile'
            self.luks_boot_keyfile = ''.join(
                [self.root_dir, self.luks_boot_keyname])
            self.luks_root.create_crypto_luks(passphrase=self.luks,
                                              os=self.luks_os,
                                              keyfile=self.luks_boot_keyfile
                                              if self.boot_is_crypto else None)
            if self.boot_is_crypto:
                self.luks_boot_keyfile_setup = ''.join(
                    [self.root_dir, '/etc/dracut.conf.d/99-luks-boot.conf'])
                self.boot_image.write_system_config_file(
                    config={'install_items': [self.luks_boot_keyname]},
                    config_file=self.luks_boot_keyfile_setup)
                self.boot_image.include_file(
                    os.sep + os.path.basename(self.luks_boot_keyfile))
            device_map['luks_root'] = device_map['root']
            device_map['root'] = self.luks_root.get_device()

        # create spare filesystem on spare partition if present
        self._build_spare_filesystem(device_map)

        # create filesystems on boot partition(s) if any
        self._build_boot_filesystems(device_map)

        # create volumes and filesystems for root system
        if self.volume_manager_name:
            volume_manager_custom_parameters = {
                'fs_mount_options':
                self.custom_root_mount_args,
                'fs_create_options':
                self.custom_root_creation_args,
                'root_label':
                self.disk_setup.get_root_label(),
                'root_is_snapshot':
                self.xml_state.build_type.get_btrfs_root_is_snapshot(),
                'root_is_readonly_snapshot':
                self.xml_state.build_type.get_btrfs_root_is_readonly_snapshot(
                ),
                'quota_groups':
                self.xml_state.build_type.get_btrfs_quota_groups(),
                'image_type':
                self.xml_state.get_build_type_name()
            }
            volume_manager = VolumeManager(self.volume_manager_name,
                                           device_map['root'],
                                           self.root_dir + '/', self.volumes,
                                           volume_manager_custom_parameters)
            volume_manager.setup(self.volume_group_name)
            volume_manager.create_volumes(self.requested_filesystem)
            volume_manager.mount_volumes()
            self.generic_fstab_entries += volume_manager.get_fstab(
                self.persistency_type, self.requested_filesystem)
            self.system = volume_manager
            device_map['root'] = volume_manager.get_device()['root']
        else:
            log.info('Creating root(%s) filesystem on %s',
                     self.requested_filesystem,
                     device_map['root'].get_device())
            filesystem_custom_parameters = {
                'mount_options': self.custom_root_mount_args,
                'create_options': self.custom_root_creation_args
            }
            filesystem = FileSystem(self.requested_filesystem,
                                    device_map['root'], self.root_dir + '/',
                                    filesystem_custom_parameters)
            filesystem.create_on_device(label=self.disk_setup.get_root_label())
            self.system = filesystem

        # create a random image identifier
        self.mbrid = SystemIdentifier()
        self.mbrid.calculate_id()

        # create first stage metadata to boot image
        self._write_partition_id_config_to_boot_image()

        self._write_recovery_metadata_to_boot_image()

        self._write_raid_config_to_boot_image()

        self._write_generic_fstab_to_boot_image(device_map)

        self.system_setup.export_modprobe_setup(
            self.boot_image.boot_root_directory)

        # create first stage metadata to system image
        self._write_image_identifier_to_system_image()

        self._write_crypttab_to_system_image()

        self._write_generic_fstab_to_system_image(device_map)

        if self.initrd_system == 'dracut':
            if self.root_filesystem_is_multipath is False:
                self.boot_image.omit_module('multipath')
            if self.root_filesystem_is_overlay:
                self.boot_image.include_module('kiwi-overlay')
                self.boot_image.write_system_config_file(
                    config={'modules': ['kiwi-overlay']})
            if self.build_type_name == 'oem':
                self.boot_image.include_module('kiwi-repart')

        # create initrd cpio archive
        self.boot_image.create_initrd(self.mbrid)

        # create second stage metadata to system image
        self._copy_first_boot_files_to_system_image()

        self._write_bootloader_meta_data_to_system_image(device_map)

        self.mbrid.write_to_disk(self.disk.storage_provider)

        # set SELinux file security contexts if context exists
        self._setup_selinux_file_contexts()

        # syncing system data to disk image
        log.info('Syncing system to image')
        if self.system_spare:
            self.system_spare.sync_data()

        if self.system_efi:
            log.info('--> Syncing EFI boot data to EFI partition')
            self.system_efi.sync_data()

        if self.system_boot:
            log.info('--> Syncing boot data at extra partition')
            self.system_boot.sync_data(
                self._get_exclude_list_for_boot_data_sync())

        log.info('--> Syncing root filesystem data')
        if self.root_filesystem_is_overlay:
            squashed_root_file = NamedTemporaryFile()
            squashed_root = FileSystemSquashFs(device_provider=None,
                                               root_dir=self.root_dir)
            squashed_root.create_on_file(
                filename=squashed_root_file.name,
                exclude=self._get_exclude_list_for_root_data_sync(device_map))
            Command.run([
                'dd',
                'if=%s' % squashed_root_file.name,
                'of=%s' % device_map['readonly'].get_device()
            ])
        else:
            self.system.sync_data(
                self._get_exclude_list_for_root_data_sync(device_map))

        # install boot loader
        self._install_bootloader(device_map)

        # set root filesystem properties
        self._setup_property_root_is_readonly_snapshot()

        # prepare for install media if requested
        if self.install_media:
            log.info('Saving boot image instance to file')
            self.boot_image.dump(self.target_dir + '/boot_image.pickledump')

        self.result.verify_image_size(
            self.runtime_config.get_max_size_constraint(), self.diskname)
        # store image file name in result
        self.result.add(
            key='disk_image',
            filename=self.diskname,
            use_for_bundle=True if not self.image_format else False,
            compress=self.runtime_config.get_bundle_compression(default=True),
            shasum=True)

        # create image root metadata
        self.result.add(key='image_packages',
                        filename=self.system_setup.export_package_list(
                            self.target_dir),
                        use_for_bundle=True,
                        compress=False,
                        shasum=False)
        self.result.add(key='image_verified',
                        filename=self.system_setup.export_package_verification(
                            self.target_dir),
                        use_for_bundle=True,
                        compress=False,
                        shasum=False)

        return self.result
예제 #3
0
파일: disk.py 프로젝트: rabueker/kiwi
    def create_disk(self) -> Result:
        """
        Build a bootable raw disk image

        :raises KiwiInstallMediaError:
            if install media is required and image type is not oem
        :raises KiwiVolumeManagerSetupError:
            root overlay at the same time volumes are defined is not supported

        :return: result

        :rtype: instance of :class:`Result`
        """
        # an instance of a class with the sync_data capability
        # representing the entire image system except for the boot/ area
        # which could live on another part of the disk
        system: Any = None

        # an instance of a class with the sync_data capability
        # representing the boot/ area of the disk if not part of
        # self.system
        system_boot: Optional[FileSystemBase] = None

        # an instance of a class with the sync_data capability
        # representing the boot/efi area of the disk
        system_efi: Optional[FileSystemBase] = None

        # an instance of a class with the sync_data capability
        # representing the spare_part_mountpoint area of the disk
        system_spare: Optional[FileSystemBase] = None

        # a list of instances with the sync_data capability
        # representing the custom partitions area of the disk
        system_custom_parts: List[FileSystemBase] = []

        if self.install_media and self.build_type_name != 'oem':
            raise KiwiInstallMediaError(
                'Install media requires oem type setup, got {0}'.format(
                    self.build_type_name))

        if self.root_filesystem_is_overlay and self.volume_manager_name:
            raise KiwiVolumeManagerSetupError(
                'Volume management together with root overlay is not supported'
            )

        # setup recovery archive, cleanup and create archive if requested
        self.system_setup.create_recovery_archive()

        # prepare initrd
        if self.boot_image.has_initrd_support():
            log.info('Preparing boot system')
            self.boot_image.prepare()

        # precalculate needed disk size
        disksize_mbytes = self.disk_setup.get_disksize_mbytes()

        # create the disk
        log.info('Creating raw disk image %s', self.diskname)
        loop_provider = LoopDevice(self.diskname, disksize_mbytes,
                                   self.blocksize)
        loop_provider.create()

        disk = Disk(self.firmware.get_partition_table_type(), loop_provider,
                    self.xml_state.get_disk_start_sector())

        # create the bootloader instance
        if self.bootloader != 'custom':
            self.bootloader_config = BootLoaderConfig.new(
                self.bootloader,
                self.xml_state,
                root_dir=self.root_dir,
                boot_dir=self.root_dir,
                custom_args={
                    'targetbase':
                    loop_provider.get_device(),
                    'grub_directory_name':
                    Defaults.get_grub_boot_directory_name(self.root_dir),
                    'crypto_disk':
                    True if self.luks is not None else False,
                    'boot_is_crypto':
                    self.boot_is_crypto
                })

        # create disk partitions and instance device map
        device_map = self._build_and_map_disk_partitions(disk, disksize_mbytes)

        # create raid on current root device if requested
        raid_root = None
        if self.mdraid:
            raid_root = RaidDevice(device_map['root'])
            raid_root.create_degraded_raid(raid_level=self.mdraid)
            device_map['root'] = raid_root.get_device()
            disk.public_partition_id_map['kiwi_RaidPart'] = \
                disk.public_partition_id_map['kiwi_RootPart']
            disk.public_partition_id_map['kiwi_RaidDev'] = \
                device_map['root'].get_device()

        # create luks on current root device if requested
        luks_root = None
        if self.luks is not None:
            luks_root = LuksDevice(device_map['root'])
            self.luks_boot_keyname = '/.root.keyfile'
            self.luks_boot_keyfile = ''.join(
                [self.root_dir, self.luks_boot_keyname])
            # use LUKS key file for the following conditions:
            # 1. /boot is encrypted
            #    In this case grub needs to read from LUKS via the
            #    cryptodisk module which at the moment always asks
            #    for the passphrase even when empty. The keyfile
            #    setup makes sure only one interaction on the grub
            #    stage is needed
            # 2. LUKS passphrase is configured as empty string
            #    In this case the keyfile allows to open the
            #    LUKS pool without asking
            #
            luks_need_keyfile = \
                True if self.boot_is_crypto or self.luks == '' else False
            luks_root.create_crypto_luks(
                passphrase=self.luks,
                os=self.luks_os,
                keyfile=self.luks_boot_keyfile if luks_need_keyfile else '')
            if luks_need_keyfile:
                self.luks_boot_keyfile_setup = ''.join(
                    [self.root_dir, '/etc/dracut.conf.d/99-luks-boot.conf'])
                self.boot_image.write_system_config_file(
                    config={'install_items': [self.luks_boot_keyname]},
                    config_file=self.luks_boot_keyfile_setup)
                self.boot_image.include_file(
                    os.sep + os.path.basename(self.luks_boot_keyfile))
            device_map['luks_root'] = device_map['root']
            device_map['root'] = luks_root.get_device()

        # create spare filesystem on spare partition if present
        system_spare = self._build_spare_filesystem(device_map)

        system_custom_parts = self._build_custom_parts_filesystem(
            device_map, self.custom_partitions)

        # create filesystems on boot partition(s) if any
        system_boot, system_efi = self._build_boot_filesystems(device_map)

        # create volumes and filesystems for root system
        if self.volume_manager_name:
            volume_manager_custom_parameters = {
                'fs_mount_options':
                self.custom_root_mount_args,
                'fs_create_options':
                self.custom_root_creation_args,
                'root_label':
                self.disk_setup.get_root_label(),
                'root_is_snapshot':
                self.xml_state.build_type.get_btrfs_root_is_snapshot(),
                'root_is_readonly_snapshot':
                self.xml_state.build_type.get_btrfs_root_is_readonly_snapshot(
                ),
                'quota_groups':
                self.xml_state.build_type.get_btrfs_quota_groups(),
                'resize_on_boot':
                self.disk_resize_requested
            }
            volume_manager = VolumeManager.new(
                self.volume_manager_name, device_map, self.root_dir + '/',
                self.volumes, volume_manager_custom_parameters)
            volume_manager.setup(self.volume_group_name)
            volume_manager.create_volumes(self.requested_filesystem)
            volume_manager.mount_volumes()
            system = volume_manager
            device_map['root'] = volume_manager.get_device().get('root')
            device_map['swap'] = volume_manager.get_device().get('swap')
        else:
            log.info('Creating root(%s) filesystem on %s',
                     self.requested_filesystem,
                     device_map['root'].get_device())
            filesystem_custom_parameters = {
                'mount_options': self.custom_root_mount_args,
                'create_options': self.custom_root_creation_args
            }
            filesystem = FileSystem.new(self.requested_filesystem,
                                        device_map['root'],
                                        self.root_dir + '/',
                                        filesystem_custom_parameters)
            filesystem.create_on_device(label=self.disk_setup.get_root_label())
            system = filesystem

        # create swap on current root device if requested
        if self.swap_mbytes:
            swap = FileSystem.new('swap', device_map['swap'])
            swap.create_on_device(label='SWAP')

        # store root partition/filesystem uuid for profile
        self._preserve_root_partition_uuid(device_map)
        self._preserve_root_filesystem_uuid(device_map)

        # create a random image identifier
        self.mbrid = SystemIdentifier()
        self.mbrid.calculate_id()

        # create first stage metadata to boot image
        self._write_partition_id_config_to_boot_image(disk)

        self._write_recovery_metadata_to_boot_image()

        self._write_raid_config_to_boot_image(raid_root)

        self._write_generic_fstab_to_boot_image(device_map, system)

        self.system_setup.export_modprobe_setup(
            self.boot_image.boot_root_directory)

        # create first stage metadata to system image
        self._write_image_identifier_to_system_image()

        self._write_crypttab_to_system_image(luks_root)

        self._write_generic_fstab_to_system_image(device_map, system)

        if self.initrd_system == 'dracut':
            if self.root_filesystem_is_multipath is False:
                self.boot_image.omit_module('multipath')
            if self.root_filesystem_is_overlay:
                self.boot_image.include_module('kiwi-overlay')
                self.boot_image.write_system_config_file(
                    config={'modules': ['kiwi-overlay']})
            if self.disk_resize_requested:
                self.boot_image.include_module('kiwi-repart')

        # create initrd
        if self.boot_image.has_initrd_support():
            self.boot_image.create_initrd(self.mbrid)

        # create second stage metadata to system image
        self._copy_first_boot_files_to_system_image()

        self._write_bootloader_meta_data_to_system_image(device_map, disk)

        self.mbrid.write_to_disk(disk.storage_provider)

        # set SELinux file security contexts if context exists
        self._setup_selinux_file_contexts()

        # syncing system data to disk image
        self._sync_system_to_image(device_map, system, system_boot, system_efi,
                                   system_spare, system_custom_parts)

        # run post sync script hook
        if self.system_setup.script_exists(defaults.POST_DISK_SYNC_SCRIPT):
            disk_system = SystemSetup(self.xml_state, system.get_mountpoint())
            disk_system.import_description()
            disk_system.call_disk_script()
            disk_system.cleanup()

        # install boot loader
        self._install_bootloader(device_map, disk, system)

        # set root filesystem properties
        self._setup_property_root_is_readonly_snapshot(system)

        Result.verify_image_size(self.runtime_config.get_max_size_constraint(),
                                 self.diskname)
        # store image bundle_format in result
        if self.bundle_format:
            self.result.add_bundle_format(self.bundle_format)

        # store image file name in result
        compression = self.runtime_config.get_bundle_compression(default=True)
        if self.luks is not None:
            compression = False
        self.result.add(
            key='disk_image',
            filename=self.diskname,
            use_for_bundle=True if not self.image_format else False,
            compress=compression,
            shasum=True)

        # create image root metadata
        self.result.add(key='image_packages',
                        filename=self.system_setup.export_package_list(
                            self.target_dir),
                        use_for_bundle=True,
                        compress=False,
                        shasum=False)
        self.result.add(key='image_changes',
                        filename=self.system_setup.export_package_changes(
                            self.target_dir),
                        use_for_bundle=True,
                        compress=True,
                        shasum=False)
        self.result.add(key='image_verified',
                        filename=self.system_setup.export_package_verification(
                            self.target_dir),
                        use_for_bundle=True,
                        compress=False,
                        shasum=False)

        return self.result
예제 #4
0
파일: disk.py 프로젝트: michal42/kiwi-1
    def create_disk(self):
        """
        Build a bootable raw disk image
        """
        if self.install_media and self.build_type_name != 'oem':
            raise KiwiInstallMediaError(
                'Install media requires oem type setup, got %s' %
                self.build_type_name)

        if self.root_filesystem_is_overlay and self.volume_manager_name:
            raise KiwiVolumeManagerSetupError(
                'Volume management together with root overlay is not supported'
            )

        # setup recovery archive, cleanup and create archive if requested
        self.system_setup.create_recovery_archive()

        # prepare boot(initrd) root system
        log.info('Preparing boot system')
        self.boot_image.prepare()

        # precalculate needed disk size
        disksize_mbytes = self.disk_setup.get_disksize_mbytes()

        # create the disk
        log.info('Creating raw disk image %s', self.diskname)
        loop_provider = LoopDevice(self.diskname, disksize_mbytes,
                                   self.blocksize)
        loop_provider.create()

        self.disk = Disk(self.firmware.get_partition_table_type(),
                         loop_provider)

        # create the bootloader instance
        self.bootloader_config = BootLoaderConfig(
            self.bootloader, self.xml_state, self.root_dir, {
                'targetbase':
                loop_provider.get_device(),
                'grub_directory_name':
                Defaults.get_grub_boot_directory_name(self.root_dir)
            })

        # create disk partitions and instance device map
        device_map = self._build_and_map_disk_partitions()

        # create raid on current root device if requested
        if self.mdraid:
            self.raid_root = RaidDevice(device_map['root'])
            self.raid_root.create_degraded_raid(raid_level=self.mdraid)
            device_map['root'] = self.raid_root.get_device()

        # create luks on current root device if requested
        if self.luks:
            self.luks_root = LuksDevice(device_map['root'])
            self.luks_root.create_crypto_luks(passphrase=self.luks,
                                              os=self.luks_os)
            device_map['root'] = self.luks_root.get_device()

        # create filesystems on boot partition(s) if any
        self._build_boot_filesystems(device_map)

        # create volumes and filesystems for root system
        if self.volume_manager_name:
            volume_manager_custom_parameters = {
                'fs_mount_options':
                self.custom_root_mount_args,
                'root_label':
                self.disk_setup.get_root_label(),
                'root_is_snapshot':
                self.xml_state.build_type.get_btrfs_root_is_snapshot(),
                'root_is_readonly_snapshot':
                self.xml_state.build_type.get_btrfs_root_is_readonly_snapshot(
                ),
                'image_type':
                self.xml_state.get_build_type_name()
            }
            volume_manager = VolumeManager(self.volume_manager_name,
                                           device_map['root'],
                                           self.root_dir + '/', self.volumes,
                                           volume_manager_custom_parameters)
            volume_manager.setup(self.volume_group_name)
            volume_manager.create_volumes(self.requested_filesystem)
            volume_manager.mount_volumes()
            self.generic_fstab_entries += volume_manager.get_fstab(
                self.persistency_type, self.requested_filesystem)
            self.system = volume_manager
            device_map['root'] = volume_manager.get_device()['root']
        else:
            log.info('Creating root(%s) filesystem on %s',
                     self.requested_filesystem,
                     device_map['root'].get_device())
            filesystem_custom_parameters = {
                'mount_options': self.custom_root_mount_args
            }
            filesystem = FileSystem(self.requested_filesystem,
                                    device_map['root'], self.root_dir + '/',
                                    filesystem_custom_parameters)
            filesystem.create_on_device(label=self.disk_setup.get_root_label())
            self.system = filesystem

        # create a random image identifier
        self.mbrid = SystemIdentifier()
        self.mbrid.calculate_id()

        # create first stage metadata to boot image
        self._write_partition_id_config_to_boot_image()

        self._write_recovery_metadata_to_boot_image()

        self._write_raid_config_to_boot_image()

        self._write_generic_fstab_to_boot_image(device_map)

        self.system_setup.export_modprobe_setup(
            self.boot_image.boot_root_directory)

        # create first stage metadata to system image
        self._write_image_identifier_to_system_image()

        self._write_crypttab_to_system_image()

        self._write_generic_fstab_to_system_image(device_map)

        if self.root_filesystem_is_overlay:
            self._create_dracut_overlay_config()

        # create initrd cpio archive
        self.boot_image.create_initrd(self.mbrid)

        # create second stage metadata to system image
        self._copy_first_boot_files_to_system_image()

        self._write_bootloader_config_to_system_image(device_map)

        self.mbrid.write_to_disk(self.disk.storage_provider)

        # set SELinux file security contexts if context exists
        self._setup_selinux_file_contexts()

        # syncing system data to disk image
        log.info('Syncing system to image')
        if self.system_efi:
            log.info('--> Syncing EFI boot data to EFI partition')
            self.system_efi.sync_data()

        if self.system_boot:
            log.info('--> Syncing boot data at extra partition')
            self.system_boot.sync_data(
                self._get_exclude_list_for_boot_data_sync())

        log.info('--> Syncing root filesystem data')
        if self.root_filesystem_is_overlay:
            squashed_root_file = NamedTemporaryFile()
            squashed_root = FileSystemSquashFs(device_provider=None,
                                               root_dir=self.root_dir)
            squashed_root.create_on_file(
                filename=squashed_root_file.name,
                exclude=self._get_exclude_list_for_root_data_sync(device_map))
            Command.run([
                'dd',
                'if=%s' % squashed_root_file.name,
                'of=%s' % device_map['readonly'].get_device()
            ])
        else:
            self.system.sync_data(
                self._get_exclude_list_for_root_data_sync(device_map))

        # install boot loader
        self._install_bootloader(device_map)

        # set root filesystem properties
        self._setup_property_root_is_readonly_snapshot()

        # prepare for install media if requested
        if self.install_media:
            if self.initrd_system == 'dracut':
                # for the installation process we need a kiwi initrd
                # Therefore an extra install boot root system needs to
                # be prepared if dracut was set as the initrd system
                # to boot the system image
                log.info('Preparing extra install boot system')

                self.xml_state.build_type.set_initrd_system('kiwi')
                self.initrd_system = self.xml_state.get_initrd_system()

                self.boot_image = BootImageKiwi(self.xml_state,
                                                self.target_dir,
                                                signing_keys=self.signing_keys)

                self.boot_image.prepare()

                # apply disk builder metadata also needed in the install initrd
                self._write_partition_id_config_to_boot_image()
                self._write_recovery_metadata_to_boot_image()
                self._write_raid_config_to_boot_image()
                self.system_setup.export_modprobe_setup(
                    self.boot_image.boot_root_directory)

            log.info('Saving boot image instance to file')
            self.boot_image.dump(self.target_dir + '/boot_image.pickledump')

        # store image file name in result
        self.result.add(
            key='disk_image',
            filename=self.diskname,
            use_for_bundle=True if not self.image_format else False,
            compress=True,
            shasum=True)

        # create image root metadata
        self.result.add(key='image_packages',
                        filename=self.system_setup.export_package_list(
                            self.target_dir),
                        use_for_bundle=True,
                        compress=False,
                        shasum=False)
        self.result.add(key='image_verified',
                        filename=self.system_setup.export_package_verification(
                            self.target_dir),
                        use_for_bundle=True,
                        compress=False,
                        shasum=False)

        return self.result