def setup(self, mock_open, mock_partitioner): self.tempfile = mock.Mock() self.tempfile.name = 'tempfile' self.context_manager_mock = mock.Mock() self.file_mock = mock.Mock() self.enter_mock = mock.Mock() self.exit_mock = mock.Mock() self.enter_mock.return_value = self.file_mock setattr(self.context_manager_mock, '__enter__', self.enter_mock) setattr(self.context_manager_mock, '__exit__', self.exit_mock) self.partitioner = mock.Mock() self.partitioner.create = mock.Mock() self.partitioner.get_id = mock.Mock( return_value=1 ) mock_partitioner.return_value = self.partitioner self.storage_provider = mock.Mock() self.storage_provider.is_loop = mock.Mock( return_value=True ) self.storage_provider.get_device = mock.Mock( return_value='/dev/loop0' ) self.disk = Disk('gpt', self.storage_provider)
def setup(self, mock_partitioner): self.tempfile = mock.Mock() self.tempfile.name = 'tempfile' self.partitioner = mock.Mock() self.partitioner.create = mock.Mock() self.partitioner.get_id = mock.Mock(return_value=1) mock_partitioner.return_value = self.partitioner self.storage_provider = mock.Mock() self.storage_provider.is_loop = mock.Mock(return_value=True) self.storage_provider.get_device = mock.Mock(return_value='/dev/loop0') self.disk = Disk('gpt', self.storage_provider)
def _write_partition_id_config_to_boot_image(self, disk: Disk) -> None: log.info('Creating config.partids in boot system') filename = ''.join( [self.boot_image.boot_root_directory, '/config.partids']) partition_id_map = disk.get_public_partition_id_map() with open(filename, 'w') as partids: for id_name, id_value in list(partition_id_map.items()): partids.write('{0}="{1}"{2}'.format(id_name, id_value, os.linesep)) self.boot_image.include_file(os.sep + os.path.basename(filename))
def _write_bootloader_meta_data_to_system_image(self, device_map: Dict, disk: Disk) -> None: if self.bootloader != 'custom': log.info('Creating %s bootloader configuration', self.bootloader) boot_options = [] if self.mdraid: boot_options.append('rd.auto') root_device = device_map['root'] boot_device = root_device if 'boot' in device_map: boot_device = device_map['boot'] boot_uuid = disk.get_uuid(boot_device.get_device()) boot_uuid_unmapped = disk.get_uuid( device_map['luks_root'].get_device( )) if self.luks else boot_uuid self.bootloader_config.setup_disk_boot_images(boot_uuid_unmapped) self.bootloader_config.write_meta_data( root_device=device_map['root'].get_device(), boot_options=' '.join(boot_options)) log.info('Creating config.bootoptions') filename = ''.join( [self.boot_image.boot_root_directory, '/config.bootoptions']) kexec_boot_options = ' '.join([ self.bootloader_config.get_boot_cmdline( device_map['root'].get_device()) ] + boot_options) with open(filename, 'w') as boot_optionsfp: boot_optionsfp.write('{0}{1}'.format(kexec_boot_options, os.linesep)) partition_id_map = disk.get_public_partition_id_map() boot_partition_id = partition_id_map['kiwi_RootPart'] if 'kiwi_BootPart' in partition_id_map: boot_partition_id = partition_id_map['kiwi_BootPart'] self.system_setup.call_edit_boot_config_script( self.requested_filesystem, int(boot_partition_id))
class TestDisk: @patch('kiwi.storage.disk.Partitioner') def setup(self, mock_partitioner): self.tempfile = mock.Mock() self.tempfile.name = 'tempfile' self.partitioner = mock.Mock() self.partitioner.create = mock.Mock() self.partitioner.get_id = mock.Mock(return_value=1) mock_partitioner.return_value = self.partitioner self.storage_provider = mock.Mock() self.storage_provider.is_loop = mock.Mock(return_value=True) self.storage_provider.get_device = mock.Mock(return_value='/dev/loop0') self.disk = Disk('gpt', self.storage_provider) @patch('os.path.exists') def test_get_device(self, mock_exists): mock_exists.return_value = True self.disk.partition_map['root'] = '/dev/root-device' assert self.disk.get_device()['root'].get_device( ) == '/dev/root-device' def test_is_loop(self): self.disk.is_loop() self.storage_provider.is_loop.called_once_with() def test_create_root_partition(self): self.disk.create_root_partition(100) self.partitioner.create.assert_called_once_with( 'p.lxroot', 100, 't.linux') def test_create_root_which_is_also_boot_partition(self): self.disk.create_root_partition(200) self.partitioner.create.assert_called_once_with( 'p.lxroot', 200, 't.linux') assert self.disk.public_partition_id_map['kiwi_RootPart'] == 1 assert self.disk.public_partition_id_map['kiwi_BootPart'] == 1 def test_create_root_which_is_also_read_write_partition(self): self.disk.public_partition_id_map['kiwi_ROPart'] = 1 self.disk.create_root_partition(200) self.partitioner.create.assert_called_once_with( 'p.lxroot', 200, 't.linux') assert self.disk.public_partition_id_map['kiwi_RootPart'] == 1 assert self.disk.public_partition_id_map['kiwi_RWPart'] == 1 def test_create_root_lvm_partition(self): self.disk.create_root_lvm_partition(100) self.partitioner.create.assert_called_once_with( 'p.lxlvm', 100, 't.lvm') assert self.disk.public_partition_id_map['kiwi_RootPart'] == 1 assert self.disk.public_partition_id_map[ 'kiwi_RootPartVol'] == 'LVRoot' def test_create_root_raid_partition(self): self.disk.create_root_raid_partition(100) self.partitioner.create.assert_called_once_with( 'p.lxraid', 100, 't.raid') assert self.disk.public_partition_id_map['kiwi_RootPart'] == 1 assert self.disk.public_partition_id_map['kiwi_RaidPart'] == 1 def test_create_root_readonly_partition(self): self.disk.create_root_readonly_partition(100) self.partitioner.create.assert_called_once_with( 'p.lxreadonly', 100, 't.linux') assert self.disk.public_partition_id_map['kiwi_ROPart'] == 1 def test_create_boot_partition(self): self.disk.create_boot_partition(100) self.partitioner.create.assert_called_once_with( 'p.lxboot', 100, 't.linux') assert self.disk.public_partition_id_map['kiwi_BootPart'] == 1 def test_create_efi_csm_partition(self): self.disk.create_efi_csm_partition(100) self.partitioner.create.assert_called_once_with( 'p.legacy', 100, 't.csm') assert self.disk.public_partition_id_map['kiwi_BiosGrub'] == 1 def test_create_efi_partition(self): self.disk.create_efi_partition(100) self.partitioner.create.assert_called_once_with('p.UEFI', 100, 't.efi') assert self.disk.public_partition_id_map['kiwi_EfiPart'] == 1 def test_create_spare_partition(self): self.disk.create_spare_partition(42) self.partitioner.create.assert_called_once_with( 'p.spare', 42, 't.linux') assert self.disk.public_partition_id_map['kiwi_SparePart'] == 1 @patch('kiwi.storage.disk.Command.run') def test_create_prep_partition(self, mock_command): self.disk.create_prep_partition(8) self.partitioner.create.assert_called_once_with('p.prep', 8, 't.prep') assert self.disk.public_partition_id_map['kiwi_PrepPart'] == 1 @patch('kiwi.storage.disk.Command.run') def test_device_map_efi_partition(self, mock_command): self.disk.create_efi_partition(100) self.disk.map_partitions() assert self.disk.partition_map == {'efi': '/dev/mapper/loop0p1'} self.disk.is_mapped = False @patch('kiwi.storage.disk.Command.run') def test_device_map_prep_partition(self, mock_command): self.disk.create_prep_partition(8) self.disk.map_partitions() assert self.disk.partition_map == {'prep': '/dev/mapper/loop0p1'} self.disk.is_mapped = False @patch('kiwi.storage.disk.Command.run') def test_device_map_linux_dev_sda(self, mock_command): self.storage_provider.is_loop.return_value = False self.storage_provider.get_device = mock.Mock(return_value='/dev/sda') self.disk.create_efi_partition(100) self.disk.map_partitions() assert self.disk.partition_map == {'efi': '/dev/sda1'} self.disk.is_mapped = False @patch('kiwi.storage.disk.Command.run') def test_device_map_linux_dev_c0d0(self, mock_command): self.storage_provider.is_loop.return_value = False self.storage_provider.get_device = mock.Mock(return_value='/dev/c0d0') self.disk.create_efi_partition(100) self.disk.map_partitions() assert self.disk.partition_map == {'efi': '/dev/c0d0p1'} self.disk.is_mapped = False @patch('kiwi.storage.disk.Command.run') def test_activate_boot_partition_is_boot_partition(self, mock_command): self.disk.create_boot_partition(100) self.disk.create_root_partition(100) self.disk.activate_boot_partition() self.partitioner.set_flag(1, 'f.active') @patch('kiwi.storage.disk.Command.run') def test_activate_boot_partition_is_root_partition(self, mock_command): self.disk.create_root_partition(100) self.disk.activate_boot_partition() self.partitioner.set_flag(1, 'f.active') @patch('kiwi.storage.disk.Command.run') def test_activate_boot_partition_is_prep_partition(self, mock_command): self.disk.create_prep_partition(8) self.disk.activate_boot_partition() self.partitioner.set_flag(1, 'f.active') @patch('kiwi.storage.disk.Command.run') def test_wipe_gpt(self, mock_command): self.disk.wipe() mock_command.assert_called_once_with( ['sgdisk', '--zap-all', '/dev/loop0']) @patch('kiwi.storage.disk.Command.run') @patch('kiwi.storage.disk.NamedTemporaryFile') @patch('kiwi.logger.log.debug') def test_wipe_dasd(self, mock_debug, mock_temp, mock_command): mock_command.side_effect = Exception self.disk.table_type = 'dasd' mock_temp.return_value = self.tempfile m_open = mock_open() with patch('builtins.open', m_open, create=True): self.disk.wipe() m_open.return_value.write.assert_called_once_with('y\n\nw\nq\n') mock_command.assert_called_once_with( ['bash', '-c', 'cat tempfile | fdasd -f /dev/loop0']) assert mock_debug.called @patch('kiwi.storage.disk.Command.run') def test_map_partitions_loop(self, mock_command): self.disk.map_partitions() mock_command.assert_called_once_with( ['kpartx', '-s', '-a', '/dev/loop0']) self.disk.is_mapped = False @patch('kiwi.storage.disk.Command.run') def test_map_partitions_other(self, mock_command): self.storage_provider.is_loop.return_value = False self.disk.map_partitions() mock_command.assert_called_once_with(['partprobe', '/dev/loop0']) @patch('kiwi.storage.disk.Command.run') @patch('kiwi.logger.log.warning') def test_destructor(self, mock_log_warn, mock_command): self.disk.is_mapped = True self.disk.partition_map = {'root': '/dev/mapper/loop0p1'} mock_command.side_effect = Exception self.disk.__del__() mock_command.assert_called_once_with( ['dmsetup', 'remove', '/dev/mapper/loop0p1']) assert mock_log_warn.called self.disk.is_mapped = False def test_get_public_partition_id_map(self): assert self.disk.get_public_partition_id_map() == {} def test_create_hybrid_mbr(self): self.disk.create_hybrid_mbr() self.partitioner.set_hybrid_mbr.assert_called_once_with() def test_create_mbr(self): self.disk.create_mbr() self.partitioner.set_mbr.assert_called_once_with()
class TestDisk(object): @patch('kiwi.storage.disk.Partitioner') @patch('builtins.open') def setup(self, mock_open, mock_partitioner): self.tempfile = mock.Mock() self.tempfile.name = 'tempfile' self.context_manager_mock = mock.Mock() self.file_mock = mock.Mock() self.enter_mock = mock.Mock() self.exit_mock = mock.Mock() self.enter_mock.return_value = self.file_mock setattr(self.context_manager_mock, '__enter__', self.enter_mock) setattr(self.context_manager_mock, '__exit__', self.exit_mock) self.partitioner = mock.Mock() self.partitioner.create = mock.Mock() self.partitioner.get_id = mock.Mock( return_value=1 ) mock_partitioner.return_value = self.partitioner self.storage_provider = mock.Mock() self.storage_provider.is_loop = mock.Mock( return_value=True ) self.storage_provider.get_device = mock.Mock( return_value='/dev/loop0' ) self.disk = Disk('gpt', self.storage_provider) @patch('os.path.exists') def test_get_device(self, mock_exists): mock_exists.return_value = True self.disk.partition_map['root'] = '/dev/root-device' assert self.disk.get_device()['root'].get_device() == '/dev/root-device' def test_is_loop(self): self.disk.is_loop() self.storage_provider.is_loop.called_once_with() def test_create_root_partition(self): self.disk.create_root_partition(100) self.partitioner.create.assert_called_once_with( 'p.lxroot', 100, 't.linux' ) def test_create_root_and_boot_partition(self): self.disk.create_root_partition(200) self.partitioner.create.assert_called_once_with( 'p.lxroot', 200, 't.linux' ) assert self.disk.public_partition_id_map['kiwi_RootPart'] == 1 assert self.disk.public_partition_id_map['kiwi_BootPart'] == 1 def test_create_root_lvm_partition(self): self.disk.create_root_lvm_partition(100) self.partitioner.create.assert_called_once_with( 'p.lxlvm', 100, 't.lvm' ) assert self.disk.public_partition_id_map['kiwi_RootPart'] == 1 assert self.disk.public_partition_id_map['kiwi_RootPartVol'] == 'LVRoot' def test_create_root_raid_partition(self): self.disk.create_root_raid_partition(100) self.partitioner.create.assert_called_once_with( 'p.lxraid', 100, 't.raid' ) assert self.disk.public_partition_id_map['kiwi_RootPart'] == 1 assert self.disk.public_partition_id_map['kiwi_RaidPart'] == 1 assert self.disk.public_partition_id_map['kiwi_RaidDev'] == '/dev/md0' def test_create_boot_partition(self): self.disk.create_boot_partition(100) self.partitioner.create.assert_called_once_with( 'p.lxboot', 100, 't.linux' ) assert self.disk.public_partition_id_map['kiwi_BootPart'] == 1 def test_create_efi_csm_partition(self): self.disk.create_efi_csm_partition(100) self.partitioner.create.assert_called_once_with( 'p.legacy', 100, 't.csm' ) assert self.disk.public_partition_id_map['kiwi_BiosGrub'] == 1 def test_create_efi_partition(self): self.disk.create_efi_partition(100) self.partitioner.create.assert_called_once_with( 'p.UEFI', 100, 't.efi' ) assert self.disk.public_partition_id_map['kiwi_EfiPart'] == 1 def test_create_vboot_partition(self): self.disk.create_vboot_partition(42) self.partitioner.create.assert_called_once_with( 'p.vboot', 42, 't.linux' ) assert self.disk.public_partition_id_map['kiwi_VbootPart'] == 1 @patch('kiwi.storage.disk.Command.run') def test_create_prep_partition(self, mock_command): self.disk.create_prep_partition(8) self.partitioner.create.assert_called_once_with( 'p.prep', 8, 't.prep' ) assert self.disk.public_partition_id_map['kiwi_PrepPart'] == 1 @patch('kiwi.storage.disk.Command.run') def test_device_map_loop(self, mock_command): self.disk.create_efi_partition(100) self.disk.map_partitions() assert self.disk.partition_map == {'efi': '/dev/mapper/loop0p1'} self.disk.is_mapped = False @patch('kiwi.storage.disk.Command.run') def test_device_map_loop(self, mock_command): self.disk.create_prep_partition(8) self.disk.map_partitions() assert self.disk.partition_map == {'prep': '/dev/mapper/loop0p1'} self.disk.is_mapped = False @patch('kiwi.storage.disk.Command.run') def test_device_map_linux_dev_sda(self, mock_command): self.storage_provider.is_loop.return_value = False self.storage_provider.get_device = mock.Mock( return_value='/dev/sda' ) self.disk.create_efi_partition(100) self.disk.map_partitions() assert self.disk.partition_map == {'efi': '/dev/sda1'} self.disk.is_mapped = False @patch('kiwi.storage.disk.Command.run') def test_device_map_linux_dev_c0d0(self, mock_command): self.storage_provider.is_loop.return_value = False self.storage_provider.get_device = mock.Mock( return_value='/dev/c0d0' ) self.disk.create_efi_partition(100) self.disk.map_partitions() assert self.disk.partition_map == {'efi': '/dev/c0d0p1'} self.disk.is_mapped = False @patch('kiwi.storage.disk.Command.run') def test_activate_boot_partition_is_boot_partition(self, mock_command): self.disk.create_boot_partition(100) self.disk.create_root_partition(100) self.disk.activate_boot_partition() self.partitioner.set_flag(1, 'f.active') @patch('kiwi.storage.disk.Command.run') def test_activate_boot_partition_is_root_partition(self, mock_command): self.disk.create_root_partition(100) self.disk.activate_boot_partition() self.partitioner.set_flag(1, 'f.active') @patch('kiwi.storage.disk.Command.run') def test_activate_boot_partition_is_prep_partition(self, mock_command): self.disk.create_prep_partition(8) self.disk.activate_boot_partition() self.partitioner.set_flag(1, 'f.active') @patch('kiwi.storage.disk.Command.run') def test_wipe_gpt(self, mock_command): self.disk.wipe() mock_command.assert_called_once_with( ['sgdisk', '--zap-all', '/dev/loop0'] ) @patch('kiwi.storage.disk.Command.run') @patch('builtins.open') @patch('kiwi.storage.disk.NamedTemporaryFile') @patch('kiwi.logger.log.debug') def test_wipe_dasd(self, mock_debug, mock_temp, mock_open, mock_command): mock_command.side_effect = Exception self.disk.table_type = 'dasd' mock_temp.return_value = self.tempfile mock_open.return_value = self.context_manager_mock self.disk.wipe() self.file_mock.write.assert_called_once_with( 'y\n\nw\nq\n' ) mock_command.assert_called_once_with( ['bash', '-c', 'cat tempfile | fdasd -f /dev/loop0'] ) assert mock_debug.called @patch('kiwi.storage.disk.Command.run') def test_map_partitions_loop(self, mock_command): self.disk.map_partitions() mock_command.assert_called_once_with( ['kpartx', '-s', '-a', '/dev/loop0'] ) self.disk.is_mapped = False @patch('kiwi.storage.disk.Command.run') def test_map_partitions_other(self, mock_command): self.storage_provider.is_loop.return_value = False self.disk.map_partitions() mock_command.assert_called_once_with( ['partprobe', '/dev/loop0'] ) @patch('kiwi.storage.disk.Command.run') @patch('kiwi.logger.log.warning') def test_destructor(self, mock_log_warn, mock_command): self.disk.is_mapped = True mock_command.side_effect = Exception self.disk.__del__() mock_command.assert_called_once_with( ['kpartx', '-s', '-d', '/dev/loop0'] ) assert mock_log_warn.called self.disk.is_mapped = False def test_get_public_partition_id_map(self): assert self.disk.get_public_partition_id_map() == {} def test_create_hybrid_mbr(self): self.disk.create_hybrid_mbr() self.partitioner.set_hybrid_mbr.assert_called_once_with()
class TestDisk: @fixture(autouse=True) def inject_fixtures(self, caplog): self._caplog = caplog @patch('kiwi.storage.disk.Partitioner.new') def setup(self, mock_partitioner): self.tempfile = mock.Mock() self.tempfile.name = 'tempfile' self.partitioner = mock.Mock() self.partitioner.create = mock.Mock() self.partitioner.get_id = mock.Mock(return_value=1) mock_partitioner.return_value = self.partitioner self.storage_provider = mock.Mock() self.storage_provider.is_loop = mock.Mock(return_value=True) self.storage_provider.get_device = mock.Mock(return_value='/dev/loop0') self.disk = Disk('gpt', self.storage_provider) @patch('os.path.exists') def test_get_device(self, mock_exists): mock_exists.return_value = True self.disk.partition_map['root'] = '/dev/root-device' assert self.disk.get_device()['root'].get_device( ) == '/dev/root-device' def test_is_loop(self): self.disk.is_loop() self.storage_provider.is_loop.called_once_with() def test_create_root_partition(self): self.disk.create_root_partition(100) self.partitioner.create.assert_called_once_with( 'p.lxroot', 100, 't.linux') def test_create_root_which_is_also_boot_partition(self): self.disk.create_root_partition(200) self.partitioner.create.assert_called_once_with( 'p.lxroot', 200, 't.linux') assert self.disk.public_partition_id_map['kiwi_RootPart'] == 1 assert self.disk.public_partition_id_map['kiwi_BootPart'] == 1 def test_create_root_which_is_also_read_write_partition(self): self.disk.public_partition_id_map['kiwi_ROPart'] = 1 self.disk.create_root_partition(200) self.partitioner.create.assert_called_once_with( 'p.lxroot', 200, 't.linux') assert self.disk.public_partition_id_map['kiwi_RootPart'] == 1 assert self.disk.public_partition_id_map['kiwi_RWPart'] == 1 def test_create_root_lvm_partition(self): self.disk.create_root_lvm_partition(100) self.partitioner.create.assert_called_once_with( 'p.lxlvm', 100, 't.lvm') assert self.disk.public_partition_id_map['kiwi_RootPart'] == 1 def test_create_root_raid_partition(self): self.disk.create_root_raid_partition(100) self.partitioner.create.assert_called_once_with( 'p.lxraid', 100, 't.raid') assert self.disk.public_partition_id_map['kiwi_RootPart'] == 1 assert self.disk.public_partition_id_map['kiwi_RaidPart'] == 1 def test_create_root_readonly_partition(self): self.disk.create_root_readonly_partition(100) self.partitioner.create.assert_called_once_with( 'p.lxreadonly', 100, 't.linux') assert self.disk.public_partition_id_map['kiwi_ROPart'] == 1 def test_create_boot_partition(self): self.disk.create_boot_partition(100) self.partitioner.create.assert_called_once_with( 'p.lxboot', 100, 't.linux') assert self.disk.public_partition_id_map['kiwi_BootPart'] == 1 def test_create_efi_csm_partition(self): self.disk.create_efi_csm_partition(100) self.partitioner.create.assert_called_once_with( 'p.legacy', 100, 't.csm') assert self.disk.public_partition_id_map['kiwi_BiosGrub'] == 1 def test_create_efi_partition(self): self.disk.create_efi_partition(100) self.partitioner.create.assert_called_once_with('p.UEFI', 100, 't.efi') assert self.disk.public_partition_id_map['kiwi_EfiPart'] == 1 def test_create_spare_partition(self): self.disk.create_spare_partition(42) self.partitioner.create.assert_called_once_with( 'p.spare', 42, 't.linux') assert self.disk.public_partition_id_map['kiwi_SparePart'] == 1 def test_create_swap_partition(self): self.disk.create_swap_partition(42) self.partitioner.create.assert_called_once_with('p.swap', 42, 't.swap') assert self.disk.public_partition_id_map['kiwi_SwapPart'] == 1 @patch('kiwi.storage.disk.Command.run') def test_create_prep_partition(self, mock_command): self.disk.create_prep_partition(8) self.partitioner.create.assert_called_once_with('p.prep', 8, 't.prep') assert self.disk.public_partition_id_map['kiwi_PrepPart'] == 1 @patch('kiwi.storage.disk.Command.run') def test_create_custom_partitions(self, mock_command): table_entries = { 'var': ptable_entry_type(mbsize=100, partition_name='p.lxvar', partition_type='t.linux', mountpoint='/var', filesystem='ext3') } self.disk.create_custom_partitions(table_entries) self.partitioner.create.assert_called_once_with( 'p.lxvar', 100, 't.linux') assert self.disk.public_partition_id_map['kiwi_VarPart'] == 1 def test_create_custom_partitions_reserved_name(self): table_entries = { 'root': ptable_entry_type(mbsize=100, partition_name='p.lxroot', partition_type='t.linux', mountpoint='/', filesystem='ext3') } with raises(KiwiCustomPartitionConflictError): self.disk.create_custom_partitions(table_entries) @patch('kiwi.storage.disk.Command.run') def test_device_map_efi_partition(self, mock_command): self.disk.create_efi_partition(100) self.disk.map_partitions() assert self.disk.partition_map == {'efi': '/dev/mapper/loop0p1'} self.disk.is_mapped = False @patch('kiwi.storage.disk.Command.run') def test_device_map_prep_partition(self, mock_command): self.disk.create_prep_partition(8) self.disk.map_partitions() assert self.disk.partition_map == {'prep': '/dev/mapper/loop0p1'} self.disk.is_mapped = False @patch('kiwi.storage.disk.Command.run') def test_device_map_linux_dev_sda(self, mock_command): self.storage_provider.is_loop.return_value = False self.storage_provider.get_device = mock.Mock(return_value='/dev/sda') self.disk.create_efi_partition(100) self.disk.map_partitions() assert self.disk.partition_map == {'efi': '/dev/sda1'} self.disk.is_mapped = False @patch('kiwi.storage.disk.Command.run') def test_device_map_linux_dev_c0d0(self, mock_command): self.storage_provider.is_loop.return_value = False self.storage_provider.get_device = mock.Mock(return_value='/dev/c0d0') self.disk.create_efi_partition(100) self.disk.map_partitions() assert self.disk.partition_map == {'efi': '/dev/c0d0p1'} self.disk.is_mapped = False @patch('kiwi.storage.disk.Command.run') def test_activate_boot_partition_is_boot_partition(self, mock_command): self.disk.create_boot_partition(100) self.disk.create_root_partition(100) self.disk.activate_boot_partition() self.partitioner.set_flag(1, 'f.active') @patch('kiwi.storage.disk.Command.run') def test_activate_boot_partition_is_root_partition(self, mock_command): self.disk.create_root_partition(100) self.disk.activate_boot_partition() self.partitioner.set_flag(1, 'f.active') @patch('kiwi.storage.disk.Command.run') def test_activate_boot_partition_is_prep_partition(self, mock_command): self.disk.create_prep_partition(8) self.disk.activate_boot_partition() self.partitioner.set_flag(1, 'f.active') @patch('kiwi.storage.disk.Command.run') def test_wipe_gpt(self, mock_command): self.disk.wipe() mock_command.assert_called_once_with( ['sgdisk', '--zap-all', '/dev/loop0']) @patch('kiwi.storage.disk.Command.run') @patch('kiwi.storage.disk.Temporary.new_file') def test_wipe_dasd(self, mock_temp, mock_command): mock_command.side_effect = Exception self.disk.table_type = 'dasd' mock_temp.return_value = self.tempfile m_open = mock_open() with patch('builtins.open', m_open, create=True): self.disk.wipe() m_open.return_value.write.assert_called_once_with('y\n\nw\nq\n') with self._caplog.at_level(logging.DEBUG): mock_command.assert_called_once_with( ['bash', '-c', 'cat tempfile | fdasd -f /dev/loop0']) @patch('kiwi.storage.disk.Command.run') def test_map_partitions_loop(self, mock_command): self.disk.map_partitions() mock_command.assert_called_once_with( ['kpartx', '-s', '-a', '/dev/loop0']) self.disk.is_mapped = False @patch('kiwi.storage.disk.Command.run') def test_map_partitions_other(self, mock_command): self.storage_provider.is_loop.return_value = False self.disk.map_partitions() mock_command.assert_called_once_with(['partprobe', '/dev/loop0']) @patch('kiwi.storage.disk.Command.run') def test_destructor(self, mock_command): self.disk.is_mapped = True self.disk.partition_map = {'root': '/dev/mapper/loop0p1'} mock_command.side_effect = Exception self.disk.__del__() with self._caplog.at_level(logging.WARNING): mock_command.assert_called_once_with( ['dmsetup', 'remove', '/dev/mapper/loop0p1']) self.disk.is_mapped = False def test_get_public_partition_id_map(self): assert self.disk.get_public_partition_id_map() == {} def test_create_hybrid_mbr(self): self.disk.create_hybrid_mbr() self.partitioner.set_hybrid_mbr.assert_called_once_with() def test_create_mbr(self): self.disk.create_mbr() self.partitioner.set_mbr.assert_called_once_with()
def AddPartitionTable(self): self._disk = Disk(table_type='msdos', storage_provider=self._lodev, start_sector=None) return True
def create_disk(self): """ 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, 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() 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_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.initrd_system == 'dracut': self._create_dracut_config() # create initrd cpio archive self.boot_image.create_initrd(self.mbrid) # create dracut config omitting one time kiwi dracut modules if self.initrd_system == 'dracut': self._create_system_dracut_config() # 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: 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=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
def _build_and_map_disk_partitions(self, disk: Disk, disksize_mbytes: float) -> Dict: disk.wipe() disksize_used_mbytes = 0 if self.firmware.legacy_bios_mode(): log.info('--> creating EFI CSM(legacy bios) partition') partition_mbsize = self.firmware.get_legacy_bios_partition_size() disk.create_efi_csm_partition(partition_mbsize) disksize_used_mbytes += partition_mbsize if self.firmware.efi_mode(): log.info('--> creating EFI partition') partition_mbsize = self.firmware.get_efi_partition_size() disk.create_efi_partition(partition_mbsize) disksize_used_mbytes += partition_mbsize if self.firmware.ofw_mode(): log.info('--> creating PReP partition') partition_mbsize = self.firmware.get_prep_partition_size() disk.create_prep_partition(partition_mbsize) disksize_used_mbytes += partition_mbsize if self.disk_setup.need_boot_partition(): log.info('--> creating boot partition') partition_mbsize = self.disk_setup.boot_partition_size() disk.create_boot_partition(partition_mbsize) disksize_used_mbytes += partition_mbsize if self.swap_mbytes: if not self.volume_manager_name or self.volume_manager_name != 'lvm': log.info('--> creating SWAP partition') disk.create_swap_partition(f'{self.swap_mbytes}') disksize_used_mbytes += self.swap_mbytes if self.custom_partitions: log.info('--> creating custom partition(s): {0}'.format( sorted(self.custom_partitions.keys()))) disk.create_custom_partitions(self.custom_partitions) if self.spare_part_mbsize and not self.spare_part_is_last: log.info('--> creating spare partition') disk.create_spare_partition(f'{self.spare_part_mbsize}') if self.root_filesystem_is_overlay: log.info('--> creating readonly root partition') squashed_root_file = Temporary().new_file() squashed_root = FileSystemSquashFs( device_provider=DeviceProvider(), root_dir=self.root_dir, custom_args={ 'compression': self.xml_state.build_type.get_squashfscompression() }) squashed_root.create_on_file( filename=squashed_root_file.name, exclude=[Defaults.get_shared_cache_location()]) squashed_rootfs_mbsize = int( os.path.getsize(squashed_root_file.name) / 1048576) + Defaults.get_min_partition_mbytes() disk.create_root_readonly_partition(squashed_rootfs_mbsize) disksize_used_mbytes += squashed_rootfs_mbsize if self.spare_part_mbsize and self.spare_part_is_last: rootfs_mbsize = disksize_mbytes - disksize_used_mbytes - \ self.spare_part_mbsize - Defaults.get_min_partition_mbytes() else: rootfs_mbsize = 'all_free' if self.volume_manager_name and self.volume_manager_name == 'lvm': log.info('--> creating LVM root partition') disk.create_root_lvm_partition(rootfs_mbsize) elif self.mdraid: log.info('--> creating mdraid root partition') disk.create_root_raid_partition(rootfs_mbsize) else: log.info('--> creating root partition') disk.create_root_partition(rootfs_mbsize) if self.spare_part_mbsize and self.spare_part_is_last: log.info('--> creating spare partition') disk.create_spare_partition('all_free') if self.firmware.bios_mode(): log.info('--> setting active flag to primary boot partition') disk.activate_boot_partition() if self.firmware.ofw_mode(): log.info('--> setting active flag to primary PReP partition') disk.activate_boot_partition() if self.firmware.efi_mode(): if self.force_mbr: log.info('--> converting partition table to MBR') disk.create_mbr() elif self.hybrid_mbr: log.info('--> converting partition table to hybrid GPT/MBR') disk.create_hybrid_mbr() disk.map_partitions() return disk.get_device()
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
class DiskBuilder(object): """ Disk image builder Attributes * :attr:`xml_state` Instance of XMLState * :attr:`target_dir` Target directory path name * :attr:`root_dir` Root directory path name * :attr:`custom_args` Custom processing arguments defined as hash keys: * signing_keys: list of package signing keys * xz_options: string of XZ compression parameters """ def __init__(self, xml_state, target_dir, root_dir, custom_args=None): self.arch = platform.machine() if self.arch == 'i686' or self.arch == 'i586': self.arch = 'ix86' self.root_dir = root_dir self.target_dir = target_dir self.xml_state = xml_state self.spare_part_mbsize = xml_state.get_build_type_spare_part_size() self.persistency_type = xml_state.build_type.get_devicepersistency() self.root_filesystem_is_overlay = xml_state.build_type.get_overlayroot( ) self.custom_root_mount_args = xml_state.get_fs_mount_option_list() self.build_type_name = xml_state.get_build_type_name() self.image_format = xml_state.build_type.get_format() self.install_iso = xml_state.build_type.get_installiso() self.install_stick = xml_state.build_type.get_installstick() self.install_pxe = xml_state.build_type.get_installpxe() self.blocksize = xml_state.build_type.get_target_blocksize() self.volume_manager_name = xml_state.get_volume_management() self.volumes = xml_state.get_volumes() self.volume_group_name = xml_state.get_volume_group_name() self.mdraid = xml_state.build_type.get_mdraid() self.hybrid_mbr = xml_state.build_type.get_gpt_hybrid_mbr() self.force_mbr = xml_state.build_type.get_force_mbr() self.luks = xml_state.build_type.get_luks() self.luks_os = xml_state.build_type.get_luksOS() self.xen_server = xml_state.is_xen_server() self.requested_filesystem = xml_state.build_type.get_filesystem() self.requested_boot_filesystem = \ xml_state.build_type.get_bootfilesystem() self.bootloader = xml_state.build_type.get_bootloader() self.initrd_system = xml_state.get_initrd_system() self.target_removable = xml_state.build_type.get_target_removable() self.disk_setup = DiskSetup(xml_state, root_dir) self.custom_args = custom_args self.signing_keys = None if custom_args and 'signing_keys' in custom_args: self.signing_keys = custom_args['signing_keys'] self.boot_image = BootImage(xml_state, target_dir, root_dir, signing_keys=self.signing_keys, custom_args=self.custom_args) self.firmware = FirmWare(xml_state) self.system_setup = SystemSetup(xml_state=xml_state, root_dir=self.root_dir) self.diskname = ''.join([ target_dir, '/', xml_state.xml_data.get_name(), '.' + self.arch, '-' + xml_state.get_image_version(), '.raw' ]) self.install_media = self._install_image_requested() self.generic_fstab_entries = [] # 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 self.system = None # an instance of a class with the sync_data capability # representing the boot/ area of the disk if not part of # self.system self.system_boot = None # an instance of a class with the sync_data capability # representing the boot/efi area of the disk self.system_efi = None # result store self.result = Result(xml_state) def create(self): """ Build a bootable disk image and optional installation image The installation image is a bootable hybrid ISO image which embeds the disk image and an image installer Image types which triggers this builder are: * image="oem" * image="vmx" """ disk = DiskBuilder(self.xml_state, self.target_dir, self.root_dir, self.custom_args) result = disk.create_disk() # cleanup disk resources taken prior to next steps del disk disk_installer = DiskBuilder(self.xml_state, self.target_dir, self.root_dir) result = disk_installer.create_install_media(result) disk_format = DiskBuilder(self.xml_state, self.target_dir, self.root_dir) result = disk_format.create_disk_format(result) return result 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 def create_disk_format(self, result_instance): """ Create a bootable disk format from a previously created raw disk image """ if self.image_format: log.info('Creating %s Disk Format', self.image_format) disk_format = DiskFormat(self.image_format, self.xml_state, self.root_dir, self.target_dir) disk_format.create_image_format() disk_format.store_to_result(result_instance) return result_instance def create_install_media(self, result_instance): """ Build an installation image. The installation image is a bootable hybrid ISO image which embeds the raw disk image and an image installer """ if self.install_media: install_image = InstallImageBuilder( self.xml_state, self.root_dir, self.target_dir, self._load_boot_image_instance(), self.custom_args) if self.install_iso or self.install_stick: log.info('Creating hybrid ISO installation image') install_image.create_install_iso() result_instance.add(key='installation_image', filename=install_image.isoname, use_for_bundle=True, compress=False, shasum=True) if self.install_pxe: log.info('Creating PXE installation archive') install_image.create_install_pxe_archive() result_instance.add(key='installation_pxe_archive', filename=install_image.pxename, use_for_bundle=True, compress=False, shasum=True) return result_instance 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) boot_image.enable_cleanup() 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 def _setup_selinux_file_contexts(self): security_context = '/etc/selinux/targeted/contexts/files/file_contexts' if os.path.exists(self.root_dir + security_context): self.system_setup.set_selinux_file_contexts(security_context) def _install_image_requested(self): if self.install_iso or self.install_stick or self.install_pxe: return True def _get_exclude_list_for_root_data_sync(self, device_map): exclude_list = Defaults.get_exclude_list_for_root_data_sync() if 'boot' in device_map and self.bootloader == 'grub2_s390x_emu': exclude_list.append('boot/zipl/*') exclude_list.append('boot/zipl/.*') elif 'boot' in device_map: exclude_list.append('boot/*') exclude_list.append('boot/.*') if 'efi' in device_map: exclude_list.append('boot/efi/*') exclude_list.append('boot/efi/.*') return exclude_list def _get_exclude_list_for_boot_data_sync(self): return ['efi/*'] def _build_boot_filesystems(self, device_map): if 'efi' in device_map: log.info('Creating EFI(fat16) filesystem on %s', device_map['efi'].get_device()) filesystem = FileSystem('fat16', device_map['efi'], self.root_dir + '/boot/efi/') filesystem.create_on_device(label=self.disk_setup.get_efi_label()) self.system_efi = filesystem if 'boot' in device_map: boot_filesystem = self.requested_boot_filesystem if not boot_filesystem: boot_filesystem = self.requested_filesystem boot_directory = self.root_dir + '/boot/' if self.bootloader == 'grub2_s390x_emu': boot_directory = self.root_dir + '/boot/zipl/' boot_filesystem = 'ext2' log.info('Creating boot(%s) filesystem on %s', boot_filesystem, device_map['boot'].get_device()) filesystem = FileSystem(boot_filesystem, device_map['boot'], boot_directory) filesystem.create_on_device(label=self.disk_setup.get_boot_label()) self.system_boot = filesystem def _build_and_map_disk_partitions(self): self.disk.wipe() if self.firmware.legacy_bios_mode(): log.info('--> creating EFI CSM(legacy bios) partition') self.disk.create_efi_csm_partition( self.firmware.get_legacy_bios_partition_size()) if self.firmware.efi_mode(): log.info('--> creating EFI partition') self.disk.create_efi_partition( self.firmware.get_efi_partition_size()) if self.firmware.ofw_mode(): log.info('--> creating PReP partition') self.disk.create_prep_partition( self.firmware.get_prep_partition_size()) if self.disk_setup.need_boot_partition(): log.info('--> creating boot partition') self.disk.create_boot_partition( self.disk_setup.boot_partition_size()) if self.spare_part_mbsize: log.info('--> creating spare partition') self.disk.create_spare_partition(self.spare_part_mbsize) if self.root_filesystem_is_overlay: log.info('--> creating readonly root partition') 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=[Defaults.get_shared_cache_location()]) squashed_rootfs_mbsize = os.path.getsize( squashed_root_file.name) / 1048576 self.disk.create_root_readonly_partition( int(squashed_rootfs_mbsize + 50)) if self.volume_manager_name and self.volume_manager_name == 'lvm': log.info('--> creating LVM root partition') self.disk.create_root_lvm_partition('all_free') elif self.mdraid: log.info('--> creating mdraid root partition') self.disk.create_root_raid_partition('all_free') else: log.info('--> creating root partition') self.disk.create_root_partition('all_free') if self.firmware.bios_mode(): log.info('--> setting active flag to primary boot partition') self.disk.activate_boot_partition() if self.firmware.ofw_mode(): log.info('--> setting active flag to primary PReP partition') self.disk.activate_boot_partition() if self.firmware.efi_mode(): if self.force_mbr: log.info('--> converting partition table to MBR') self.disk.create_mbr() elif self.hybrid_mbr: log.info('--> converting partition table to hybrid GPT/MBR') self.disk.create_hybrid_mbr() self.disk.map_partitions() return self.disk.get_device() def _create_dracut_overlay_config(self): overlay_config_file = ''.join( [self.root_dir, '/etc/dracut.conf.d/02-overlay.conf']) overlay_config = [ 'add_dracutmodules+=" kiwi-overlay "', 'hostonly="no"', 'dracut_rescue_image="no"' ] with open(overlay_config_file, 'w') as config: for entry in overlay_config: config.write(entry + os.linesep) def _write_partition_id_config_to_boot_image(self): if self.initrd_system == 'kiwi': log.info('Creating config.partids in boot system') filename = ''.join( [self.boot_image.boot_root_directory, '/config.partids']) partition_id_map = self.disk.get_public_partition_id_map() with open(filename, 'w') as partids: for id_name, id_value in list(partition_id_map.items()): partids.write('{0}="{1}"{2}'.format( id_name, id_value, os.linesep)) def _write_raid_config_to_boot_image(self): if self.mdraid: log.info('Creating etc/mdadm.conf in boot system') self.raid_root.create_raid_config( self.boot_image.boot_root_directory + '/etc/mdadm.conf') def _write_crypttab_to_system_image(self): if self.luks: log.info('Creating etc/crypttab') self.luks_root.create_crypttab(self.root_dir + '/etc/crypttab') def _write_generic_fstab_to_system_image(self, device_map): log.info('Creating generic system etc/fstab') self._write_generic_fstab(device_map, self.system_setup) def _write_generic_fstab_to_boot_image(self, device_map): if self.initrd_system == 'kiwi': log.info('Creating generic boot image etc/fstab') self._write_generic_fstab(device_map, self.boot_image.setup) def _write_generic_fstab(self, device_map, setup): 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() fs_check_interval = '1 1' custom_root_mount_args = list(self.custom_root_mount_args) if root_is_snapshot and root_is_readonly_snapshot: custom_root_mount_args += ['ro'] fs_check_interval = '0 0' self._add_generic_fstab_entry(device_map['root'].get_device(), '/', custom_root_mount_args, fs_check_interval) if 'boot' in device_map: if self.bootloader == 'grub2_s390x_emu': boot_mount_point = '/boot/zipl' else: boot_mount_point = '/boot' self._add_generic_fstab_entry(device_map['boot'].get_device(), boot_mount_point) if 'efi' in device_map: self._add_generic_fstab_entry(device_map['efi'].get_device(), '/boot/efi') setup.create_fstab(self.generic_fstab_entries) def _add_generic_fstab_entry(self, device, mount_point, options=None, check='0 0'): if not options: options = ['defaults'] block_operation = BlockID(device) blkid_type = 'LABEL' if self.persistency_type == 'by-label' else 'UUID' device_id = block_operation.get_blkid(blkid_type) fstab_entry = ' '.join([ blkid_type + '=' + device_id, mount_point, block_operation.get_filesystem(), ','.join(options), check ]) if fstab_entry not in self.generic_fstab_entries: self.generic_fstab_entries.append(fstab_entry) def _write_image_identifier_to_system_image(self): log.info('Creating image identifier: %s', self.mbrid.get_id()) self.mbrid.write(self.root_dir + '/boot/mbrid') def _write_recovery_metadata_to_boot_image(self): if os.path.exists(self.root_dir + '/recovery.partition.size'): log.info('Copying recovery metadata to boot image') Command.run([ 'cp', self.root_dir + '/recovery.partition.size', self.boot_image.boot_root_directory ]) def _write_bootloader_config_to_system_image(self, device_map): if self.bootloader is not 'custom': log.info('Creating %s bootloader configuration', self.bootloader) boot_names = self._get_boot_names() boot_device = device_map['root'] if 'boot' in device_map: boot_device = device_map['boot'] root_uuid = self.disk.get_uuid(device_map['root'].get_device()) boot_uuid = self.disk.get_uuid(boot_device.get_device()) self.bootloader_config.setup_disk_boot_images(boot_uuid) self.bootloader_config.setup_disk_image_config( boot_uuid=boot_uuid, root_uuid=root_uuid, kernel=boot_names.kernel_name, initrd=boot_names.initrd_name) self.bootloader_config.write() partition_id_map = self.disk.get_public_partition_id_map() boot_partition_id = partition_id_map['kiwi_RootPart'] if 'kiwi_BootPart' in partition_id_map: boot_partition_id = partition_id_map['kiwi_BootPart'] self.system_setup.call_edit_boot_config_script( self.requested_filesystem, boot_partition_id) def _install_bootloader(self, device_map): root_device = device_map['root'] boot_device = root_device if 'boot' in device_map: boot_device = device_map['boot'] if 'readonly' in device_map: root_device = device_map['readonly'] custom_install_arguments = { 'boot_device': boot_device.get_device(), 'root_device': root_device.get_device(), 'firmware': self.firmware, 'target_removable': self.target_removable } if 'efi' in device_map: efi_device = device_map['efi'] custom_install_arguments.update( {'efi_device': efi_device.get_device()}) if 'prep' in device_map: prep_device = device_map['prep'] custom_install_arguments.update( {'prep_device': prep_device.get_device()}) if self.volume_manager_name: self.system.umount_volumes() custom_install_arguments.update( {'system_volumes': self.system.get_volumes()}) if self.bootloader is not 'custom': log.debug("custom arguments for bootloader installation %s", custom_install_arguments) bootloader = BootLoaderInstall(self.bootloader, self.root_dir, self.disk.storage_provider, custom_install_arguments) if bootloader.install_required(): bootloader.install() self.system_setup.call_edit_boot_install_script( self.diskname, boot_device.get_device()) def _setup_property_root_is_readonly_snapshot(self): if self.volume_manager_name: 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() if root_is_snapshot and root_is_readonly_snapshot: log.info('Setting root filesystem into read-only mode') self.system.mount_volumes() self.system.set_property_readonly_root() self.system.umount_volumes() def _copy_first_boot_files_to_system_image(self): boot_names = self._get_boot_names() if self.initrd_system == 'kiwi': log.info('Copy boot files to system image') kernel = Kernel(self.boot_image.boot_root_directory) log.info('--> boot image kernel as %s', boot_names.kernel_name) kernel.copy_kernel(self.root_dir, ''.join(['/boot/', boot_names.kernel_name])) if self.xen_server: if kernel.get_xen_hypervisor(): log.info('--> boot image Xen hypervisor as xen.gz') kernel.copy_xen_hypervisor(self.root_dir, '/boot/xen.gz') else: raise KiwiDiskBootImageError( 'No hypervisor in boot image tree %s found' % self.boot_image.boot_root_directory) log.info('--> initrd archive as %s', boot_names.initrd_name) Command.run([ 'mv', self.boot_image.initrd_filename, self.root_dir + ''.join(['/boot/', boot_names.initrd_name]) ]) def _get_boot_names(self): boot_names_type = namedtuple('boot_names_type', ['kernel_name', 'initrd_name']) kernel = Kernel(self.boot_image.boot_root_directory) kernel_info = kernel.get_kernel() if not kernel_info: raise KiwiDiskBootImageError( 'No kernel in boot image tree %s found' % self.boot_image.boot_root_directory) if self.initrd_system == 'dracut': dracut_output_format = self._get_dracut_output_file_format() return boot_names_type(kernel_name=kernel_info.name, initrd_name=dracut_output_format.format( kernel_version=kernel_info.version)) else: return boot_names_type(kernel_name='linux.vmx', initrd_name='initrd.vmx') def _get_dracut_output_file_format(self): """ Unfortunately the dracut initrd output file format varies between the different Linux distributions. Tools like lsinitrd, and also grub2 rely on the initrd output file to be in that format. Thus when kiwi uses dracut the same file format should be used all over the place in order to stay compatible with what the distribution does """ default_outfile_format = 'initramfs-{kernel_version}.img' dracut_search_env = { 'PATH': os.sep.join([self.root_dir, 'usr', 'bin']) } dracut_tool = Path.which('dracut', custom_env=dracut_search_env, access_mode=os.X_OK) if dracut_tool: outfile_expression = r'outfile="/boot/(init.*\$kernel.*)"' with open(dracut_tool) as dracut: outfile = re.findall(outfile_expression, dracut.read())[0] if outfile: return outfile.replace('$kernel', '{kernel_version}') log.warning('Could not detect dracut output file format') log.warning('Using default initrd file name format {0}'.format( default_outfile_format)) return default_outfile_format
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
class DiskBuilder(object): """ **Disk image builder** :param object xml_state: Instance of :class:`XMLState` :param str target_dir: Target directory path name :param str root_dir: Root directory path name :param dict custom_args: Custom processing arguments defined as hash keys: * signing_keys: list of package signing keys * xz_options: string of XZ compression parameters """ def __init__(self, xml_state, target_dir, root_dir, custom_args=None): self.arch = platform.machine() if self.arch == 'i686' or self.arch == 'i586': self.arch = 'ix86' self.root_dir = root_dir self.target_dir = target_dir self.xml_state = xml_state self.spare_part_mbsize = xml_state.get_build_type_spare_part_size() self.persistency_type = xml_state.build_type.get_devicepersistency() self.root_filesystem_is_overlay = xml_state.build_type.get_overlayroot() self.custom_root_mount_args = xml_state.get_fs_mount_option_list() self.build_type_name = xml_state.get_build_type_name() self.image_format = xml_state.build_type.get_format() self.install_iso = xml_state.build_type.get_installiso() self.install_stick = xml_state.build_type.get_installstick() self.install_pxe = xml_state.build_type.get_installpxe() self.blocksize = xml_state.build_type.get_target_blocksize() self.volume_manager_name = xml_state.get_volume_management() self.volumes = xml_state.get_volumes() self.volume_group_name = xml_state.get_volume_group_name() self.mdraid = xml_state.build_type.get_mdraid() self.hybrid_mbr = xml_state.build_type.get_gpt_hybrid_mbr() self.force_mbr = xml_state.build_type.get_force_mbr() self.luks = xml_state.build_type.get_luks() self.luks_os = xml_state.build_type.get_luksOS() self.xen_server = xml_state.is_xen_server() self.requested_filesystem = xml_state.build_type.get_filesystem() self.requested_boot_filesystem = \ xml_state.build_type.get_bootfilesystem() self.bootloader = xml_state.build_type.get_bootloader() self.initrd_system = xml_state.get_initrd_system() self.target_removable = xml_state.build_type.get_target_removable() self.root_filesystem_is_multipath = \ xml_state.get_oemconfig_oem_multipath_scan() self.disk_setup = DiskSetup( xml_state, root_dir ) self.unpartitioned_bytes = \ xml_state.get_build_type_unpartitioned_bytes() self.custom_args = custom_args self.signing_keys = None if custom_args and 'signing_keys' in custom_args: self.signing_keys = custom_args['signing_keys'] self.boot_image = BootImage( xml_state, target_dir, root_dir, signing_keys=self.signing_keys, custom_args=self.custom_args ) self.firmware = FirmWare( xml_state ) self.system_setup = SystemSetup( xml_state=xml_state, root_dir=self.root_dir ) self.diskname = ''.join( [ target_dir, '/', xml_state.xml_data.get_name(), '.' + self.arch, '-' + xml_state.get_image_version(), '.raw' ] ) self.install_media = self._install_image_requested() self.generic_fstab_entries = [] # 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 self.system = None # an instance of a class with the sync_data capability # representing the boot/ area of the disk if not part of # self.system self.system_boot = None # an instance of a class with the sync_data capability # representing the boot/efi area of the disk self.system_efi = None # result store self.result = Result(xml_state) self.runtime_config = RuntimeConfig() def create(self): """ Build a bootable disk image and optional installation image The installation image is a bootable hybrid ISO image which embeds the disk image and an image installer Image types which triggers this builder are: * image="oem" * image="vmx" :return: result :rtype: instance of :class:`Result` """ disk = DiskBuilder( self.xml_state, self.target_dir, self.root_dir, self.custom_args ) result = disk.create_disk() # cleanup disk resources taken prior to next steps del disk disk_installer = DiskBuilder( self.xml_state, self.target_dir, self.root_dir ) result = disk_installer.create_install_media(result) disk_format = DiskBuilder( self.xml_state, self.target_dir, self.root_dir ) disk_format.append_unpartitioned_space() result = disk_format.create_disk_format(result) return result def create_disk(self): """ 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, 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() 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_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.initrd_system == 'dracut': self._create_dracut_config() # create initrd cpio archive self.boot_image.create_initrd(self.mbrid) # create dracut config omitting one time kiwi dracut modules if self.initrd_system == 'dracut': self._create_system_dracut_config() # 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: 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=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 def create_disk_format(self, result_instance): """ Create a bootable disk format from a previously created raw disk image :param object result_instance: instance of :class:`Result` :return: updated result_instance :rtype: instance of :class:`Result` """ if self.image_format: log.info('Creating %s Disk Format', self.image_format) disk_format = DiskFormat( self.image_format, self.xml_state, self.root_dir, self.target_dir ) disk_format.create_image_format() disk_format.store_to_result(result_instance) return result_instance def append_unpartitioned_space(self): """ Extends the raw disk if an unpartitioned area is specified """ if self.unpartitioned_bytes: log.info( 'Expanding disk with %d bytes of unpartitioned space', self.unpartitioned_bytes ) disk_format = DiskFormat( 'raw', self.xml_state, self.root_dir, self.target_dir ) disk_format.resize_raw_disk(self.unpartitioned_bytes, append=True) firmware = FirmWare(self.xml_state) loop_provider = LoopDevice(disk_format.diskname) loop_provider.create(overwrite=False) partitioner = Partitioner( firmware.get_partition_table_type(), loop_provider ) partitioner.resize_table() def create_install_media(self, result_instance): """ Build an installation image. The installation image is a bootable hybrid ISO image which embeds the raw disk image and an image installer :param object result_instance: instance of :class:`Result` :return: updated result_instance with installation media :rtype: instance of :class:`Result` """ if self.install_media: install_image = InstallImageBuilder( self.xml_state, self.root_dir, self.target_dir, self._load_boot_image_instance(), self.custom_args ) if self.install_iso or self.install_stick: log.info('Creating hybrid ISO installation image') install_image.create_install_iso() result_instance.add( key='installation_image', filename=install_image.isoname, use_for_bundle=True, compress=False, shasum=True ) if self.install_pxe: log.info('Creating PXE installation archive') install_image.create_install_pxe_archive() result_instance.add( key='installation_pxe_archive', filename=install_image.pxename, use_for_bundle=True, compress=False, shasum=True ) return result_instance 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) boot_image.enable_cleanup() 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 def _setup_selinux_file_contexts(self): security_context = '/etc/selinux/targeted/contexts/files/file_contexts' if os.path.exists(self.root_dir + security_context): self.system_setup.set_selinux_file_contexts( security_context ) def _install_image_requested(self): if self.install_iso or self.install_stick or self.install_pxe: return True def _get_exclude_list_for_root_data_sync(self, device_map): exclude_list = Defaults.get_exclude_list_for_root_data_sync() if 'boot' in device_map and self.bootloader == 'grub2_s390x_emu': exclude_list.append('boot/zipl/*') exclude_list.append('boot/zipl/.*') elif 'boot' in device_map: exclude_list.append('boot/*') exclude_list.append('boot/.*') if 'efi' in device_map: exclude_list.append('boot/efi/*') exclude_list.append('boot/efi/.*') return exclude_list def _get_exclude_list_for_boot_data_sync(self): return ['efi/*'] def _build_boot_filesystems(self, device_map): if 'efi' in device_map: log.info( 'Creating EFI(fat16) filesystem on %s', device_map['efi'].get_device() ) filesystem = FileSystem( 'fat16', device_map['efi'], self.root_dir + '/boot/efi/' ) filesystem.create_on_device( label=self.disk_setup.get_efi_label() ) self.system_efi = filesystem if 'boot' in device_map: boot_filesystem = self.requested_boot_filesystem if not boot_filesystem: boot_filesystem = self.requested_filesystem boot_directory = self.root_dir + '/boot/' if self.bootloader == 'grub2_s390x_emu': boot_directory = self.root_dir + '/boot/zipl/' boot_filesystem = 'ext2' log.info( 'Creating boot(%s) filesystem on %s', boot_filesystem, device_map['boot'].get_device() ) filesystem = FileSystem( boot_filesystem, device_map['boot'], boot_directory ) filesystem.create_on_device( label=self.disk_setup.get_boot_label() ) self.system_boot = filesystem def _build_and_map_disk_partitions(self): # noqa: C901 self.disk.wipe() if self.firmware.legacy_bios_mode(): log.info('--> creating EFI CSM(legacy bios) partition') self.disk.create_efi_csm_partition( self.firmware.get_legacy_bios_partition_size() ) if self.firmware.efi_mode(): log.info('--> creating EFI partition') self.disk.create_efi_partition( self.firmware.get_efi_partition_size() ) if self.firmware.ofw_mode(): log.info('--> creating PReP partition') self.disk.create_prep_partition( self.firmware.get_prep_partition_size() ) if self.disk_setup.need_boot_partition(): log.info('--> creating boot partition') self.disk.create_boot_partition( self.disk_setup.boot_partition_size() ) if self.spare_part_mbsize: log.info('--> creating spare partition') self.disk.create_spare_partition( self.spare_part_mbsize ) if self.root_filesystem_is_overlay: log.info('--> creating readonly root partition') 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=[Defaults.get_shared_cache_location()] ) squashed_rootfs_mbsize = os.path.getsize( squashed_root_file.name ) / 1048576 self.disk.create_root_readonly_partition( int(squashed_rootfs_mbsize + 50) ) if self.volume_manager_name and self.volume_manager_name == 'lvm': log.info('--> creating LVM root partition') self.disk.create_root_lvm_partition('all_free') elif self.mdraid: log.info('--> creating mdraid root partition') self.disk.create_root_raid_partition('all_free') else: log.info('--> creating root partition') self.disk.create_root_partition('all_free') if self.firmware.bios_mode(): log.info('--> setting active flag to primary boot partition') self.disk.activate_boot_partition() if self.firmware.ofw_mode(): log.info('--> setting active flag to primary PReP partition') self.disk.activate_boot_partition() if self.firmware.efi_mode(): if self.force_mbr: log.info('--> converting partition table to MBR') self.disk.create_mbr() elif self.hybrid_mbr: log.info('--> converting partition table to hybrid GPT/MBR') self.disk.create_hybrid_mbr() self.disk.map_partitions() return self.disk.get_device() def _create_dracut_config(self): dracut_config = [ 'hostonly="no"', 'dracut_rescue_image="no"' ] dracut_modules = [] dracut_modules_omit = ['kiwi-live', 'kiwi-dump'] if self.root_filesystem_is_multipath is False: dracut_modules_omit.append('multipath') if self.root_filesystem_is_overlay: dracut_modules.append('kiwi-overlay') else: dracut_modules_omit.append('kiwi-overlay') if self.build_type_name == 'oem': dracut_modules.append('kiwi-lib') dracut_modules.append('kiwi-repart') self._write_dracut_config( config=dracut_config, modules=dracut_modules, omit_modules=dracut_modules_omit ) def _create_system_dracut_config(self): dracut_modules = [] dracut_modules_omit = ['kiwi-live', 'kiwi-dump', 'kiwi-repart'] if self.root_filesystem_is_overlay: dracut_modules.append('kiwi-overlay') else: dracut_modules_omit.append('kiwi-overlay') self._write_dracut_config( config=[], modules=dracut_modules, omit_modules=dracut_modules_omit ) def _write_dracut_config(self, config, modules, omit_modules): dracut_config_file = ''.join( [self.root_dir, Defaults.get_dracut_conf_name()] ) if modules: config.append( 'add_dracutmodules+=" {0} "'.format(' '.join(modules)) ) if omit_modules: config.append( 'omit_dracutmodules+=" {0} "'.format(' '.join(omit_modules)) ) with open(dracut_config_file, 'w') as dracut_config: for entry in config: dracut_config.write(entry + os.linesep) def _write_partition_id_config_to_boot_image(self): log.info('Creating config.partids in boot system') filename = ''.join( [self.boot_image.boot_root_directory, '/config.partids'] ) partition_id_map = self.disk.get_public_partition_id_map() with open(filename, 'w') as partids: for id_name, id_value in list(partition_id_map.items()): partids.write('{0}="{1}"{2}'.format( id_name, id_value, os.linesep) ) self.boot_image.include_file( os.sep + os.path.basename(filename) ) def _write_raid_config_to_boot_image(self): if self.mdraid: log.info('Creating etc/mdadm.conf in boot system') filename = ''.join( [self.boot_image.boot_root_directory, '/etc/mdadm.conf'] ) self.raid_root.create_raid_config(filename) self.boot_image.include_file( os.sep + os.sep.join(['etc', os.path.basename(filename)]) ) def _write_crypttab_to_system_image(self): if self.luks: log.info('Creating etc/crypttab') filename = ''.join( [self.root_dir, '/etc/crypttab'] ) self.luks_root.create_crypttab(filename) self.boot_image.include_file( os.sep + os.sep.join(['etc', os.path.basename(filename)]) ) def _write_generic_fstab_to_system_image(self, device_map): log.info('Creating generic system etc/fstab') self._write_generic_fstab(device_map, self.system_setup) def _write_generic_fstab_to_boot_image(self, device_map): if self.initrd_system == 'kiwi': log.info('Creating generic boot image etc/fstab') self._write_generic_fstab(device_map, self.boot_image.setup) def _write_generic_fstab(self, device_map, setup): 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() fs_check_interval = '1 1' custom_root_mount_args = list(self.custom_root_mount_args) if root_is_snapshot and root_is_readonly_snapshot: custom_root_mount_args += ['ro'] fs_check_interval = '0 0' self._add_generic_fstab_entry( device_map['root'].get_device(), '/', custom_root_mount_args, fs_check_interval ) if 'boot' in device_map: if self.bootloader == 'grub2_s390x_emu': boot_mount_point = '/boot/zipl' else: boot_mount_point = '/boot' self._add_generic_fstab_entry( device_map['boot'].get_device(), boot_mount_point ) if 'efi' in device_map: self._add_generic_fstab_entry( device_map['efi'].get_device(), '/boot/efi' ) setup.create_fstab( self.generic_fstab_entries ) def _add_generic_fstab_entry( self, device, mount_point, options=None, check='0 0' ): if not options: options = ['defaults'] block_operation = BlockID(device) blkid_type = 'LABEL' if self.persistency_type == 'by-label' else 'UUID' device_id = block_operation.get_blkid(blkid_type) fstab_entry = ' '.join( [ blkid_type + '=' + device_id, mount_point, block_operation.get_filesystem(), ','.join(options), check ] ) if fstab_entry not in self.generic_fstab_entries: self.generic_fstab_entries.append( fstab_entry ) def _write_image_identifier_to_system_image(self): log.info('Creating image identifier: %s', self.mbrid.get_id()) self.mbrid.write( self.root_dir + '/boot/mbrid' ) def _write_recovery_metadata_to_boot_image(self): if os.path.exists(self.root_dir + '/recovery.partition.size'): log.info('Copying recovery metadata to boot image') recovery_metadata = ''.join( [self.root_dir, '/recovery.partition.size'] ) Command.run( ['cp', recovery_metadata, self.boot_image.boot_root_directory] ) self.boot_image.include_file( os.sep + os.path.basename(recovery_metadata) ) def _write_bootloader_config_to_system_image(self, device_map): if self.bootloader is not 'custom': log.info('Creating %s bootloader configuration', self.bootloader) boot_options = [] if self.mdraid: boot_options.append('rd.auto') boot_names = self.boot_image.get_boot_names() boot_device = device_map['root'] if 'boot' in device_map: boot_device = device_map['boot'] root_uuid = self.disk.get_uuid( device_map['root'].get_device() ) boot_uuid = self.disk.get_uuid( boot_device.get_device() ) self.bootloader_config.setup_disk_boot_images(boot_uuid) self.bootloader_config.setup_disk_image_config( boot_uuid=boot_uuid, root_uuid=root_uuid, kernel=boot_names.kernel_name, initrd=boot_names.initrd_name, boot_options=' '.join(boot_options) ) self.bootloader_config.write() log.info('Creating config.bootoptions') filename = ''.join( [self.boot_image.boot_root_directory, '/config.bootoptions'] ) kexec_boot_options = ' '.join( [ self.bootloader_config.get_boot_cmdline(root_uuid) ] + boot_options ) with open(filename, 'w') as boot_options: boot_options.write( '{0}{1}'.format(kexec_boot_options, os.linesep) ) partition_id_map = self.disk.get_public_partition_id_map() boot_partition_id = partition_id_map['kiwi_RootPart'] if 'kiwi_BootPart' in partition_id_map: boot_partition_id = partition_id_map['kiwi_BootPart'] self.system_setup.call_edit_boot_config_script( self.requested_filesystem, boot_partition_id ) def _install_bootloader(self, device_map): root_device = device_map['root'] boot_device = root_device if 'boot' in device_map: boot_device = device_map['boot'] if 'readonly' in device_map: root_device = device_map['readonly'] custom_install_arguments = { 'boot_device': boot_device.get_device(), 'root_device': root_device.get_device(), 'firmware': self.firmware, 'target_removable': self.target_removable } if 'efi' in device_map: efi_device = device_map['efi'] custom_install_arguments.update( {'efi_device': efi_device.get_device()} ) if 'prep' in device_map: prep_device = device_map['prep'] custom_install_arguments.update( {'prep_device': prep_device.get_device()} ) if self.volume_manager_name: self.system.umount_volumes() custom_install_arguments.update( {'system_volumes': self.system.get_volumes()} ) if self.bootloader is not 'custom': log.debug( "custom arguments for bootloader installation %s", custom_install_arguments ) bootloader = BootLoaderInstall( self.bootloader, self.root_dir, self.disk.storage_provider, custom_install_arguments ) if bootloader.install_required(): bootloader.install() self.system_setup.call_edit_boot_install_script( self.diskname, boot_device.get_device() ) def _setup_property_root_is_readonly_snapshot(self): if self.volume_manager_name: 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() if root_is_snapshot and root_is_readonly_snapshot: log.info( 'Setting root filesystem into read-only mode' ) self.system.mount_volumes() self.system.set_property_readonly_root() self.system.umount_volumes() def _copy_first_boot_files_to_system_image(self): boot_names = self.boot_image.get_boot_names() if self.initrd_system == 'kiwi': log.info('Copy boot files to system image') kernel = Kernel(self.boot_image.boot_root_directory) log.info('--> boot image kernel as %s', boot_names.kernel_name) kernel.copy_kernel( self.root_dir, ''.join(['/boot/', boot_names.kernel_name]) ) if self.xen_server: if kernel.get_xen_hypervisor(): log.info('--> boot image Xen hypervisor as xen.gz') kernel.copy_xen_hypervisor( self.root_dir, '/boot/xen.gz' ) else: raise KiwiDiskBootImageError( 'No hypervisor in boot image tree %s found' % self.boot_image.boot_root_directory ) log.info('--> initrd archive as %s', boot_names.initrd_name) Command.run( [ 'mv', self.boot_image.initrd_filename, self.root_dir + ''.join(['/boot/', boot_names.initrd_name]) ] )
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
class DiskBuilder: """ **Disk image builder** :param object xml_state: Instance of :class:`XMLState` :param str target_dir: Target directory path name :param str root_dir: Root directory path name :param dict custom_args: Custom processing arguments defined as hash keys: * signing_keys: list of package signing keys * xz_options: string of XZ compression parameters """ def __init__(self, xml_state, target_dir, root_dir, custom_args=None): self.arch = platform.machine() if self.arch == 'i686' or self.arch == 'i586': self.arch = 'ix86' self.root_dir = root_dir self.target_dir = target_dir self.xml_state = xml_state self.spare_part_mbsize = xml_state.get_build_type_spare_part_size() self.spare_part_fs = xml_state.build_type.get_spare_part_fs() self.spare_part_is_last = xml_state.build_type.get_spare_part_is_last() self.spare_part_mountpoint = \ xml_state.build_type.get_spare_part_mountpoint() self.persistency_type = xml_state.build_type.get_devicepersistency() self.root_filesystem_is_overlay = xml_state.build_type.get_overlayroot( ) self.custom_root_mount_args = xml_state.get_fs_mount_option_list() self.custom_root_creation_args = xml_state.get_fs_create_option_list() self.build_type_name = xml_state.get_build_type_name() self.image_format = xml_state.build_type.get_format() self.install_iso = xml_state.build_type.get_installiso() self.install_stick = xml_state.build_type.get_installstick() self.install_pxe = xml_state.build_type.get_installpxe() self.blocksize = xml_state.build_type.get_target_blocksize() self.volume_manager_name = xml_state.get_volume_management() self.volumes = xml_state.get_volumes() self.volume_group_name = xml_state.get_volume_group_name() self.mdraid = xml_state.build_type.get_mdraid() self.hybrid_mbr = xml_state.build_type.get_gpt_hybrid_mbr() self.force_mbr = xml_state.build_type.get_force_mbr() self.luks = xml_state.build_type.get_luks() self.luks_os = xml_state.build_type.get_luksOS() self.xen_server = xml_state.is_xen_server() self.requested_filesystem = xml_state.build_type.get_filesystem() self.requested_boot_filesystem = \ xml_state.build_type.get_bootfilesystem() self.bootloader = xml_state.build_type.get_bootloader() self.initrd_system = xml_state.get_initrd_system() self.target_removable = xml_state.build_type.get_target_removable() self.root_filesystem_is_multipath = \ xml_state.get_oemconfig_oem_multipath_scan() self.disk_setup = DiskSetup(xml_state, root_dir) self.unpartitioned_bytes = \ xml_state.get_build_type_unpartitioned_bytes() self.custom_args = custom_args self.signing_keys = None if custom_args and 'signing_keys' in custom_args: self.signing_keys = custom_args['signing_keys'] self.boot_image = BootImage(xml_state, target_dir, root_dir, signing_keys=self.signing_keys) self.firmware = FirmWare(xml_state) self.system_setup = SystemSetup(xml_state=xml_state, root_dir=self.root_dir) self.diskname = ''.join([ target_dir, '/', xml_state.xml_data.get_name(), '.' + self.arch, '-' + xml_state.get_image_version(), '.raw' ]) self.boot_is_crypto = True if self.luks and not \ self.disk_setup.need_boot_partition() else False self.install_media = self._install_image_requested() self.generic_fstab_entries = [] # 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 self.system = None # an instance of a class with the sync_data capability # representing the boot/ area of the disk if not part of # self.system self.system_boot = None # an instance of a class with the sync_data capability # representing the boot/efi area of the disk self.system_efi = None # an instance of a class with the sync_data capability # representing the spare_part_mountpoint area of the disk self.system_spare = None # result store self.result = Result(xml_state) self.runtime_config = RuntimeConfig() def create(self): """ Build a bootable disk image and optional installation image The installation image is a bootable hybrid ISO image which embeds the disk image and an image installer Image types which triggers this builder are: * image="oem" * image="vmx" :return: result :rtype: instance of :class:`Result` """ disk = DiskBuilder(self.xml_state, self.target_dir, self.root_dir, self.custom_args) result = disk.create_disk() # cleanup disk resources taken prior to next steps del disk disk_installer = DiskBuilder(self.xml_state, self.target_dir, self.root_dir) result = disk_installer.create_install_media(result) disk_format = DiskBuilder(self.xml_state, self.target_dir, self.root_dir) disk_format.append_unpartitioned_space() result = disk_format.create_disk_format(result) return result 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 def create_disk_format(self, result_instance): """ Create a bootable disk format from a previously created raw disk image :param object result_instance: instance of :class:`Result` :return: updated result_instance :rtype: instance of :class:`Result` """ if self.image_format: log.info('Creating %s Disk Format', self.image_format) disk_format = DiskFormat(self.image_format, self.xml_state, self.root_dir, self.target_dir) disk_format.create_image_format() disk_format.store_to_result(result_instance) return result_instance def append_unpartitioned_space(self): """ Extends the raw disk if an unpartitioned area is specified """ if self.unpartitioned_bytes: log.info('Expanding disk with %d bytes of unpartitioned space', self.unpartitioned_bytes) disk_format = DiskFormat('raw', self.xml_state, self.root_dir, self.target_dir) disk_format.resize_raw_disk(self.unpartitioned_bytes, append=True) firmware = FirmWare(self.xml_state) loop_provider = LoopDevice(disk_format.diskname) loop_provider.create(overwrite=False) partitioner = Partitioner(firmware.get_partition_table_type(), loop_provider) partitioner.resize_table() def create_install_media(self, result_instance): """ Build an installation image. The installation image is a bootable hybrid ISO image which embeds the raw disk image and an image installer :param object result_instance: instance of :class:`Result` :return: updated result_instance with installation media :rtype: instance of :class:`Result` """ if self.install_media: install_image = InstallImageBuilder( self.xml_state, self.root_dir, self.target_dir, self._load_boot_image_instance(), self.custom_args) if self.install_iso or self.install_stick: log.info('Creating hybrid ISO installation image') install_image.create_install_iso() result_instance.add(key='installation_image', filename=install_image.isoname, use_for_bundle=True, compress=False, shasum=True) if self.install_pxe: log.info('Creating PXE installation archive') install_image.create_install_pxe_archive() result_instance.add(key='installation_pxe_archive', filename=install_image.pxename, use_for_bundle=True, compress=False, shasum=True) return result_instance 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) boot_image.enable_cleanup() 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 def _setup_selinux_file_contexts(self): security_context = '/etc/selinux/targeted/contexts/files/file_contexts' if os.path.exists(self.root_dir + security_context): self.system_setup.set_selinux_file_contexts(security_context) def _install_image_requested(self): if self.install_iso or self.install_stick or self.install_pxe: return True def _get_exclude_list_for_root_data_sync(self, device_map): exclude_list = Defaults.get_exclude_list_for_root_data_sync() if 'spare' in device_map and self.spare_part_mountpoint: exclude_list.append('{0}/*'.format( self.spare_part_mountpoint.lstrip(os.sep))) exclude_list.append('{0}/.*'.format( self.spare_part_mountpoint.lstrip(os.sep))) if 'boot' in device_map and self.bootloader == 'grub2_s390x_emu': exclude_list.append('boot/zipl/*') exclude_list.append('boot/zipl/.*') elif 'boot' in device_map: exclude_list.append('boot/*') exclude_list.append('boot/.*') if 'efi' in device_map: exclude_list.append('boot/efi/*') exclude_list.append('boot/efi/.*') return exclude_list def _get_exclude_list_for_boot_data_sync(self): return ['efi/*'] def _build_spare_filesystem(self, device_map): if 'spare' in device_map and self.spare_part_fs: spare_part_data_path = None if self.spare_part_mountpoint: spare_part_data_path = self.root_dir + '{0}/'.format( self.spare_part_mountpoint) filesystem = FileSystem(self.spare_part_fs, device_map['spare'], spare_part_data_path) filesystem.create_on_device(label='SPARE') self.system_spare = filesystem def _build_boot_filesystems(self, device_map): if 'efi' in device_map: log.info('Creating EFI(fat16) filesystem on %s', device_map['efi'].get_device()) filesystem = FileSystem('fat16', device_map['efi'], self.root_dir + '/boot/efi/') filesystem.create_on_device(label=self.disk_setup.get_efi_label()) self.system_efi = filesystem if 'boot' in device_map: boot_filesystem = self.requested_boot_filesystem if not boot_filesystem: boot_filesystem = self.requested_filesystem boot_directory = self.root_dir + '/boot/' if self.bootloader == 'grub2_s390x_emu': boot_directory = self.root_dir + '/boot/zipl/' boot_filesystem = 'ext2' log.info('Creating boot(%s) filesystem on %s', boot_filesystem, device_map['boot'].get_device()) filesystem = FileSystem(boot_filesystem, device_map['boot'], boot_directory) filesystem.create_on_device(label=self.disk_setup.get_boot_label()) self.system_boot = filesystem def _build_and_map_disk_partitions(self, disksize_mbytes): # noqa: C901 self.disk.wipe() disksize_used_mbytes = 0 if self.firmware.legacy_bios_mode(): log.info('--> creating EFI CSM(legacy bios) partition') partition_mbsize = self.firmware.get_legacy_bios_partition_size() self.disk.create_efi_csm_partition(partition_mbsize) disksize_used_mbytes += partition_mbsize if self.firmware.efi_mode(): log.info('--> creating EFI partition') partition_mbsize = self.firmware.get_efi_partition_size() self.disk.create_efi_partition(partition_mbsize) disksize_used_mbytes += partition_mbsize if self.firmware.ofw_mode(): log.info('--> creating PReP partition') partition_mbsize = self.firmware.get_prep_partition_size() self.disk.create_prep_partition(partition_mbsize) disksize_used_mbytes += partition_mbsize if self.disk_setup.need_boot_partition(): log.info('--> creating boot partition') partition_mbsize = self.disk_setup.boot_partition_size() self.disk.create_boot_partition(partition_mbsize) disksize_used_mbytes += partition_mbsize if self.spare_part_mbsize and not self.spare_part_is_last: log.info('--> creating spare partition') self.disk.create_spare_partition(self.spare_part_mbsize) if self.root_filesystem_is_overlay: log.info('--> creating readonly root partition') 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=[Defaults.get_shared_cache_location()]) squashed_rootfs_mbsize = int( os.path.getsize(squashed_root_file.name) / 1048576) + Defaults.get_min_partition_mbytes() self.disk.create_root_readonly_partition(squashed_rootfs_mbsize) disksize_used_mbytes += squashed_rootfs_mbsize if self.spare_part_mbsize and self.spare_part_is_last: rootfs_mbsize = disksize_mbytes - disksize_used_mbytes - \ self.spare_part_mbsize - Defaults.get_min_partition_mbytes() else: rootfs_mbsize = 'all_free' if self.volume_manager_name and self.volume_manager_name == 'lvm': log.info('--> creating LVM root partition') self.disk.create_root_lvm_partition(rootfs_mbsize) elif self.mdraid: log.info('--> creating mdraid root partition') self.disk.create_root_raid_partition(rootfs_mbsize) else: log.info('--> creating root partition') self.disk.create_root_partition(rootfs_mbsize) if self.spare_part_mbsize and self.spare_part_is_last: log.info('--> creating spare partition') self.disk.create_spare_partition('all_free') if self.firmware.bios_mode(): log.info('--> setting active flag to primary boot partition') self.disk.activate_boot_partition() if self.firmware.ofw_mode(): log.info('--> setting active flag to primary PReP partition') self.disk.activate_boot_partition() if self.firmware.efi_mode(): if self.force_mbr: log.info('--> converting partition table to MBR') self.disk.create_mbr() elif self.hybrid_mbr: log.info('--> converting partition table to hybrid GPT/MBR') self.disk.create_hybrid_mbr() self.disk.map_partitions() return self.disk.get_device() def _write_partition_id_config_to_boot_image(self): log.info('Creating config.partids in boot system') filename = ''.join( [self.boot_image.boot_root_directory, '/config.partids']) partition_id_map = self.disk.get_public_partition_id_map() with open(filename, 'w') as partids: for id_name, id_value in list(partition_id_map.items()): partids.write('{0}="{1}"{2}'.format(id_name, id_value, os.linesep)) self.boot_image.include_file(os.sep + os.path.basename(filename)) def _write_raid_config_to_boot_image(self): if self.mdraid: log.info('Creating etc/mdadm.conf in boot system') filename = ''.join( [self.boot_image.boot_root_directory, '/etc/mdadm.conf']) self.raid_root.create_raid_config(filename) self.boot_image.include_file( os.sep + os.sep.join(['etc', os.path.basename(filename)])) def _write_crypttab_to_system_image(self): if self.luks: log.info('Creating etc/crypttab') filename = ''.join([self.root_dir, '/etc/crypttab']) self.luks_root.create_crypttab(filename) self.boot_image.include_file( os.sep + os.sep.join(['etc', os.path.basename(filename)])) def _write_generic_fstab_to_system_image(self, device_map): log.info('Creating generic system etc/fstab') self._write_generic_fstab(device_map, self.system_setup) def _write_generic_fstab_to_boot_image(self, device_map): if self.initrd_system == 'kiwi': log.info('Creating generic boot image etc/fstab') self._write_generic_fstab(device_map, self.boot_image.setup) def _write_generic_fstab(self, device_map, setup): 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() fs_check_interval = '1 1' custom_root_mount_args = list(self.custom_root_mount_args) if root_is_snapshot and root_is_readonly_snapshot: custom_root_mount_args += ['ro'] fs_check_interval = '0 0' self._add_generic_fstab_entry(device_map['root'].get_device(), '/', custom_root_mount_args, fs_check_interval) if 'spare' in device_map and \ self.spare_part_fs and self.spare_part_mountpoint: self._add_generic_fstab_entry(device_map['spare'].get_device(), self.spare_part_mountpoint) if 'boot' in device_map: if self.bootloader == 'grub2_s390x_emu': boot_mount_point = '/boot/zipl' else: boot_mount_point = '/boot' self._add_generic_fstab_entry(device_map['boot'].get_device(), boot_mount_point) if 'efi' in device_map: self._add_generic_fstab_entry(device_map['efi'].get_device(), '/boot/efi') setup.create_fstab(self.generic_fstab_entries) def _add_generic_fstab_entry(self, device, mount_point, options=None, check='0 0'): if not options: options = ['defaults'] block_operation = BlockID(device) blkid_type = 'LABEL' if self.persistency_type == 'by-label' else 'UUID' device_id = block_operation.get_blkid(blkid_type) fstab_entry = ' '.join([ blkid_type + '=' + device_id, mount_point, block_operation.get_filesystem(), ','.join(options), check ]) if fstab_entry not in self.generic_fstab_entries: self.generic_fstab_entries.append(fstab_entry) def _write_image_identifier_to_system_image(self): log.info('Creating image identifier: %s', self.mbrid.get_id()) self.mbrid.write(self.root_dir + '/boot/mbrid') def _write_recovery_metadata_to_boot_image(self): if os.path.exists(self.root_dir + '/recovery.partition.size'): log.info('Copying recovery metadata to boot image') recovery_metadata = ''.join( [self.root_dir, '/recovery.partition.size']) Command.run( ['cp', recovery_metadata, self.boot_image.boot_root_directory]) self.boot_image.include_file(os.sep + os.path.basename(recovery_metadata)) def _write_bootloader_meta_data_to_system_image(self, device_map): if self.bootloader != 'custom': log.info('Creating %s bootloader configuration', self.bootloader) boot_options = [] if self.mdraid: boot_options.append('rd.auto') root_device = device_map['root'] boot_device = root_device if 'boot' in device_map: boot_device = device_map['boot'] root_uuid = self.disk.get_uuid(device_map['root'].get_device()) boot_uuid = self.disk.get_uuid(boot_device.get_device()) boot_uuid_unmapped = self.disk.get_uuid( device_map['luks_root'].get_device( )) if self.luks else boot_uuid self.bootloader_config.setup_disk_boot_images(boot_uuid_unmapped) self.bootloader_config.write_meta_data( root_uuid=root_uuid, boot_options=' '.join(boot_options)) log.info('Creating config.bootoptions') filename = ''.join( [self.boot_image.boot_root_directory, '/config.bootoptions']) kexec_boot_options = ' '.join( [self.bootloader_config.get_boot_cmdline(root_uuid)] + boot_options) with open(filename, 'w') as boot_options: boot_options.write('{0}{1}'.format(kexec_boot_options, os.linesep)) partition_id_map = self.disk.get_public_partition_id_map() boot_partition_id = partition_id_map['kiwi_RootPart'] if 'kiwi_BootPart' in partition_id_map: boot_partition_id = partition_id_map['kiwi_BootPart'] self.system_setup.call_edit_boot_config_script( self.requested_filesystem, boot_partition_id) def _install_bootloader(self, device_map): root_device = device_map['root'] boot_device = root_device if 'boot' in device_map: boot_device = device_map['boot'] if 'readonly' in device_map: root_device = device_map['readonly'] custom_install_arguments = { 'boot_device': boot_device.get_device(), 'root_device': root_device.get_device(), 'firmware': self.firmware, 'target_removable': self.target_removable } if 'efi' in device_map: efi_device = device_map['efi'] custom_install_arguments.update( {'efi_device': efi_device.get_device()}) if 'prep' in device_map: prep_device = device_map['prep'] custom_install_arguments.update( {'prep_device': prep_device.get_device()}) if self.volume_manager_name: self.system.umount_volumes() custom_install_arguments.update( {'system_volumes': self.system.get_volumes()}) # create bootloader config prior bootloader installation self.bootloader_config.setup_disk_image_config( boot_options=custom_install_arguments) # cleanup bootloader config resources taken prior to next steps del self.bootloader_config if self.bootloader != 'custom': log.debug("custom arguments for bootloader installation %s", custom_install_arguments) bootloader = BootLoaderInstall(self.bootloader, self.root_dir, self.disk.storage_provider, custom_install_arguments) if bootloader.install_required(): bootloader.install() self.system_setup.call_edit_boot_install_script( self.diskname, boot_device.get_device()) def _setup_property_root_is_readonly_snapshot(self): if self.volume_manager_name: 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() if root_is_snapshot and root_is_readonly_snapshot: log.info('Setting root filesystem into read-only mode') self.system.mount_volumes() self.system.set_property_readonly_root() self.system.umount_volumes() def _copy_first_boot_files_to_system_image(self): boot_names = self.boot_image.get_boot_names() if self.initrd_system == 'kiwi': log.info('Copy boot files to system image') kernel = Kernel(self.boot_image.boot_root_directory) log.info('--> boot image kernel as %s', boot_names.kernel_name) kernel.copy_kernel(self.root_dir, ''.join(['/boot/', boot_names.kernel_name])) if self.xen_server: if kernel.get_xen_hypervisor(): log.info('--> boot image Xen hypervisor as xen.gz') kernel.copy_xen_hypervisor(self.root_dir, '/boot/xen.gz') else: raise KiwiDiskBootImageError( 'No hypervisor in boot image tree %s found' % self.boot_image.boot_root_directory) log.info('--> initrd archive as %s', boot_names.initrd_name) Command.run([ 'mv', self.boot_image.initrd_filename, self.root_dir + ''.join(['/boot/', boot_names.initrd_name]) ])
class KiwiDiskImage: def __init__(self, path, size): # don't allocate kiwi disk object self._disk = None # allocate file-backed loop-device mbytes = math.ceil(size/(1024*1024)) self._lodev = LoopDevice(filename=path, filesize_mbytes=mbytes, blocksize_bytes=None) self._lodev.create(overwrite=True) def AddSection(self, section): if isinstance(section, BlobSection): ret = self.AddBlob(path=section.path(), offset=section.offset()) return ret elif isinstance(section, KiwiRootfsSection): ret = self.AddRootfs(path=section.path(), offset=section.offset()) if ret: section.set_device(device=self._disk.get_device()['root'].get_device()) return ret else: return False def AddPartitionTable(self): self._disk = Disk(table_type='msdos', storage_provider=self._lodev, start_sector=None) return True def AddRootfs(self, path, fstype='ext4', offset=None): sector_offset = None if not offset is None: if (offset % 512) != 0: print(f'given rootfs offset { offset } is not multiple of 512!') return False sector_offset = int(offset / 512) # kiwi does not directly allow manipulating partition offset directly # this setting only works for the initial gap to the first partition ... # also, this call relies on implementation details! self._disk.partitioner.start_sector = sector_offset self._disk.create_root_partition(mbsize='all_free') self._disk.map_partitions() system = FileSystem.new(name=fstype, device_provider=self._disk.get_device()['root'], root_dir=f'{ path }/', custom_args=None) system.create_on_device(label=None) system.sync_data(exclude=None) del system return True def AddBlob(self, path, offset): bs = 1 if 0 == (offset % 512): bs = 512 offset = int(offset / 512) Command.run(command=['dd', 'conv=notrunc', f'of={ self._lodev.get_device() }', f'if={ path }', f'bs={ bs }', f'seek={ offset }']) return True def __del__(self): # free kiwi disk object, if any if not self._disk is None: del self._disk # free loop-device del self._lodev