# Copyright (c) 2014 Cloudbase Solutions SRL # All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. import os import sys from os_win import utilsfactory from oslo_config import cfg from oslo_log import log as logging from oslo_utils import fileutils from oslo_utils import units from cinder import exception from cinder.i18n import _, _LI from cinder.image import image_utils from cinder.volume.drivers import remotefs as remotefs_drv from cinder.volume.drivers import smbfs from cinder.volume.drivers.windows import remotefs VERSION = '1.1.0' LOG = logging.getLogger(__name__) CONF = cfg.CONF CONF.set_default('smbfs_shares_config', r'C:\OpenStack\smbfs_shares.txt') CONF.set_default('smbfs_allocation_info_file_path', r'C:\OpenStack\allocation_data.txt') CONF.set_default('smbfs_mount_point_base', r'C:\OpenStack\_mnt') CONF.set_default('smbfs_default_volume_format', 'vhd') class WindowsSmbfsDriver(smbfs.SmbfsDriver): VERSION = VERSION _MINIMUM_QEMU_IMG_VERSION = '1.6' def __init__(self, *args, **kwargs): super(WindowsSmbfsDriver, self).__init__(*args, **kwargs) self.base = getattr(self.configuration, 'smbfs_mount_point_base', CONF.smbfs_mount_point_base) opts = getattr(self.configuration, 'smbfs_mount_options', CONF.smbfs_mount_options) self._remotefsclient = remotefs.WindowsRemoteFsClient( 'cifs', root_helper=None, smbfs_mount_point_base=self.base, smbfs_mount_options=opts) self._vhdutils = utilsfactory.get_vhdutils() self._pathutils = utilsfactory.get_pathutils() self._smbutils = utilsfactory.get_smbutils() def do_setup(self, context): self._check_os_platform() super(WindowsSmbfsDriver, self).do_setup(context) def _check_os_platform(self): if sys.platform != 'win32': _msg = _("This system platform (%s) is not supported. This " "driver supports only Win32 platforms.") % sys.platform raise exception.SmbfsException(_msg) def _do_create_volume(self, volume): volume_path = self.local_path(volume) volume_format = self.get_volume_format(volume) volume_size_bytes = volume['size'] * units.Gi if os.path.exists(volume_path): err_msg = _('File already exists at: %s') % volume_path raise exception.InvalidVolume(err_msg) if volume_format not in (self._DISK_FORMAT_VHD, self._DISK_FORMAT_VHDX): err_msg = _("Unsupported volume format: %s ") % volume_format raise exception.InvalidVolume(err_msg) self._vhdutils.create_dynamic_vhd(volume_path, volume_size_bytes) def _ensure_share_mounted(self, smbfs_share): mnt_options = {} if self.shares.get(smbfs_share) is not None: mnt_flags = self.shares[smbfs_share] mnt_options = self.parse_options(mnt_flags)[1] self._remotefsclient.mount(smbfs_share, mnt_options) def _delete(self, path): fileutils.delete_if_exists(path) def _get_capacity_info(self, smbfs_share): """Calculate available space on the SMBFS share. :param smbfs_share: example //172.18.194.100/var/smbfs """ total_size, total_available = self._smbutils.get_share_capacity_info( smbfs_share) total_allocated = self._get_total_allocated(smbfs_share) return_value = [total_size, total_available, total_allocated] LOG.info(_LI('Smb share %(share)s Total size %(size)s ' 'Total allocated %(allocated)s'), {'share': smbfs_share, 'size': total_size, 'allocated': total_allocated}) return [float(x) for x in return_value] def _img_commit(self, snapshot_path): self._vhdutils.merge_vhd(snapshot_path) def _rebase_img(self, image, backing_file, volume_format): # Relative path names are not supported in this case. image_dir = os.path.dirname(image) backing_file_path = os.path.join(image_dir, backing_file) self._vhdutils.reconnect_parent_vhd(image, backing_file_path) def _qemu_img_info(self, path, volume_name=None): # This code expects to deal only with relative filenames. # As this method is needed by the upper class and qemu-img does # not fully support vhdx images, for the moment we'll use Win32 API # for retrieving image information. parent_path = self._vhdutils.get_vhd_parent_path(path) file_format = os.path.splitext(path)[1][1:].lower() if parent_path: backing_file_name = os.path.split(parent_path)[1].lower() else: backing_file_name = None class ImageInfo(object): def __init__(self, image, backing_file): self.image = image self.backing_file = backing_file self.file_format = file_format return ImageInfo(os.path.basename(path), backing_file_name) def _do_create_snapshot(self, snapshot, backing_file, new_snap_path): backing_file_full_path = os.path.join( self._local_volume_dir(snapshot['volume']), backing_file) self._vhdutils.create_differencing_vhd(new_snap_path, backing_file_full_path) def _do_extend_volume(self, volume_path, size_gb, volume_name=None): self._vhdutils.resize_vhd(volume_path, size_gb * units.Gi, is_file_max_size=False) @remotefs_drv.locked_volume_id_operation def copy_volume_to_image(self, context, volume, image_service, image_meta): """Copy the volume to the specified image.""" # If snapshots exist, flatten to a temporary image, and upload it active_file = self.get_active_image_from_info(volume) active_file_path = os.path.join(self._local_volume_dir(volume), active_file) backing_file = self._vhdutils.get_vhd_parent_path(active_file_path) root_file_fmt = self.get_volume_format(volume) temp_path = None try: if backing_file or root_file_fmt == self._DISK_FORMAT_VHDX: temp_file_name = '%s.temp_image.%s.%s' % ( volume['id'], image_meta['id'], self._DISK_FORMAT_VHD) temp_path = os.path.join(self._local_volume_dir(volume), temp_file_name) self._vhdutils.convert_vhd(active_file_path, temp_path) upload_path = temp_path else: upload_path = active_file_path image_utils.upload_volume(context, image_service, image_meta, upload_path, self._DISK_FORMAT_VHD) finally: if temp_path: self._delete(temp_path) def copy_image_to_volume(self, context, volume, image_service, image_id): """Fetch the image from image_service and write it to the volume.""" volume_path = self.local_path(volume) volume_format = self.get_volume_format(volume, qemu_format=True) self._delete(volume_path) image_utils.fetch_to_volume_format( context, image_service, image_id, volume_path, volume_format, self.configuration.volume_dd_blocksize) self._vhdutils.resize_vhd(self.local_path(volume), volume['size'] * units.Gi, is_file_max_size=False) def _copy_volume_from_snapshot(self, snapshot, volume, volume_size): """Copy data from snapshot to destination volume.""" LOG.debug("snapshot: %(snap)s, volume: %(vol)s, " "volume_size: %(size)s", {'snap': snapshot['id'], 'vol': volume['id'], 'size': snapshot['volume_size']}) info_path = self._local_path_volume_info(snapshot['volume']) snap_info = self._read_info_file(info_path) vol_dir = self._local_volume_dir(snapshot['volume']) forward_file = snap_info[snapshot['id']] forward_path = os.path.join(vol_dir, forward_file) # Find the file which backs this file, which represents the point # when this snapshot was created. img_info = self._qemu_img_info(forward_path) snapshot_path = os.path.join(vol_dir, img_info.backing_file) volume_path = self.local_path(volume) self._delete(volume_path) self._vhdutils.convert_vhd(snapshot_path, volume_path) self._vhdutils.resize_vhd(volume_path, volume_size * units.Gi, is_file_max_size=False)