# vim: tabstop=4 shiftwidth=4 softtabstop=4 # Copyright (c) 2013 Red Hat, Inc. # 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 errno import hashlib import json import os import re import stat import tempfile import time from oslo.config import cfg from cinder import compute from cinder import db from cinder import exception from cinder.image import image_utils from cinder.openstack.common import log as logging from cinder import units from cinder import utils from cinder.volume.drivers import nfs LOG = logging.getLogger(__name__) volume_opts = [ cfg.StrOpt('glusterfs_shares_config', default='/etc/cinder/glusterfs_shares', help='File with the list of available gluster shares'), cfg.StrOpt('glusterfs_disk_util', default='df', help='Use du or df for free space calculation'), cfg.BoolOpt('glusterfs_sparsed_volumes', default=True, help=('Create volumes as sparsed files which take no space.' 'If set to False volume is created as regular file.' 'In such case volume creation takes a lot of time.')), cfg.BoolOpt('glusterfs_qcow2_volumes', default=False, help=('Create volumes as QCOW2 files rather than raw files.')), cfg.StrOpt('glusterfs_mount_point_base', default='$state_path/mnt', help='Base dir containing mount points for gluster shares.'), ] CONF = cfg.CONF CONF.register_opts(volume_opts) CONF.import_opt('volume_name_template', 'cinder.db') class GlusterfsDriver(nfs.RemoteFsDriver): """Gluster based cinder driver. Creates file on Gluster share for using it as block device on hypervisor. Operations such as create/delete/extend volume/snapshot use locking on a per-process basis to prevent multiple threads from modifying qcow2 chains or the snapshot .info file simultaneously. """ driver_volume_type = 'glusterfs' driver_prefix = 'glusterfs' volume_backend_name = 'GlusterFS' VERSION = '1.1.0' def __init__(self, *args, **kwargs): super(GlusterfsDriver, self).__init__(*args, **kwargs) self.configuration.append_config_values(volume_opts) self._nova = None def do_setup(self, context): """Any initialization the volume driver does while starting.""" super(GlusterfsDriver, self).do_setup(context) self._nova = compute.API() config = self.configuration.glusterfs_shares_config if not config: msg = (_("There's no Gluster config file configured (%s)") % 'glusterfs_shares_config') LOG.warn(msg) raise exception.GlusterfsException(msg) if not os.path.exists(config): msg = (_("Gluster config file at %(config)s doesn't exist") % {'config': config}) LOG.warn(msg) raise exception.GlusterfsException(msg) self.shares = {} try: self._execute('mount.glusterfs', check_exit_code=False) except OSError as exc: if exc.errno == errno.ENOENT: raise exception.GlusterfsException( _('mount.glusterfs is not installed')) else: raise self._ensure_shares_mounted() def check_for_setup_error(self): """Just to override parent behavior.""" pass def _local_volume_dir(self, volume): hashed = self._get_hash_str(volume['provider_location']) path = '%s/%s' % (self.configuration.glusterfs_mount_point_base, hashed) return path def _local_path_volume(self, volume): path_to_disk = '%s/%s' % ( self._local_volume_dir(volume), volume['name']) return path_to_disk def _local_path_volume_info(self, volume): return '%s%s' % (self._local_path_volume(volume), '.info') def _qemu_img_info(self, path): """Sanitize image_utils' qemu_img_info. This code expects to deal only with relative filenames. """ info = image_utils.qemu_img_info(path) if info.image: info.image = os.path.basename(info.image) if info.backing_file: info.backing_file = os.path.basename(info.backing_file) return info def get_active_image_from_info(self, volume): """Returns filename of the active image from the info file.""" info_file = self._local_path_volume_info(volume) snap_info = self._read_info_file(info_file, empty_if_missing=True) if snap_info == {}: # No info file = no snapshots exist vol_path = os.path.basename(self._local_path_volume(volume)) return vol_path return snap_info['active'] def create_cloned_volume(self, volume, src_vref): """Creates a clone of the specified volume.""" LOG.info(_('Cloning volume %(src)s to volume %(dst)s') % {'src': src_vref['id'], 'dst': volume['id']}) if src_vref['status'] != 'available': msg = _("Volume status must be 'available'.") raise exception.InvalidVolume(msg) volume_name = CONF.volume_name_template % volume['id'] volume_info = {'provider_location': src_vref['provider_location'], 'size': src_vref['size'], 'id': volume['id'], 'name': volume_name, 'status': src_vref['status']} temp_snapshot = {'volume_name': volume_name, 'size': src_vref['size'], 'volume_size': src_vref['size'], 'name': 'clone-snap-%s' % src_vref['id'], 'volume_id': src_vref['id'], 'id': 'tmp-snap-%s' % src_vref['id'], 'volume': src_vref} self.create_snapshot(temp_snapshot) try: self._copy_volume_from_snapshot(temp_snapshot, volume_info, src_vref['size']) finally: self.delete_snapshot(temp_snapshot) return {'provider_location': src_vref['provider_location']} @utils.synchronized('glusterfs', external=False) def create_volume(self, volume): """Creates a volume.""" self._ensure_shares_mounted() volume['provider_location'] = self._find_share(volume['size']) LOG.info(_('casted to %s') % volume['provider_location']) self._do_create_volume(volume) return {'provider_location': volume['provider_location']} def create_volume_from_snapshot(self, volume, snapshot): """Creates a volume from a snapshot. Snapshot must not be the active snapshot. (offline) """ if snapshot['status'] != 'available': msg = _('Snapshot status must be "available" to clone.') raise exception.InvalidSnapshot(msg) self._ensure_shares_mounted() volume['provider_location'] = self._find_share(volume['size']) self._do_create_volume(volume) self._copy_volume_from_snapshot(snapshot, volume, snapshot['volume_size']) return {'provider_location': volume['provider_location']} def _copy_volume_from_snapshot(self, snapshot, volume, volume_size): """Copy data from snapshot to destination volume. This is done with a qemu-img convert to raw/qcow2 from the snapshot qcow2. """ LOG.debug(_("snapshot: %(snap)s, volume: %(vol)s, " "volume_size: %(size)s") % {'snap': snapshot['id'], 'vol': volume['id'], 'size': volume_size}) info_path = self._local_path_volume_info(snapshot['volume']) snap_info = self._read_info_file(info_path) vol_path = self._local_volume_dir(snapshot['volume']) forward_file = snap_info[snapshot['id']] forward_path = os.path.join(vol_path, 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) path_to_snap_img = os.path.join(vol_path, img_info.backing_file) path_to_new_vol = self._local_path_volume(volume) LOG.debug(_("will copy from snapshot at %s") % path_to_snap_img) if self.configuration.glusterfs_qcow2_volumes: out_format = 'qcow2' else: out_format = 'raw' image_utils.convert_image(path_to_snap_img, path_to_new_vol, out_format) self._set_rw_permissions_for_all(path_to_new_vol) @utils.synchronized('glusterfs', external=False) def delete_volume(self, volume): """Deletes a logical volume.""" if not volume['provider_location']: LOG.warn(_('Volume %s does not have provider_location specified, ' 'skipping'), volume['name']) return self._ensure_share_mounted(volume['provider_location']) mounted_path = self.local_path(volume) self._execute('rm', '-f', mounted_path, run_as_root=True) @utils.synchronized('glusterfs', external=False) def create_snapshot(self, snapshot): """Create a snapshot. If volume is attached, call to Nova to create snapshot, providing a qcow2 file. Otherwise, create locally with qemu-img. A file named volume-.info is stored with the volume data and is a JSON table which contains a mapping between Cinder snapshot UUIDs and filenames, as these associations will change as snapshots are deleted. Basic snapshot operation: 1. Initial volume file: volume-1234 2. Snapshot created: volume-1234 <- volume-1234.aaaa volume-1234.aaaa becomes the new "active" disk image. If the volume is not attached, this filename will be used to attach the volume to a VM at volume-attach time. If the volume is attached, the VM will switch to this file as part of the snapshot process. Note that volume-1234.aaaa represents changes after snapshot 'aaaa' was created. So the data for snapshot 'aaaa' is actually in the backing file(s) of volume-1234.aaaa. This file has a qcow2 header recording the fact that volume-1234 is its backing file. Delta changes since the snapshot was created are stored in this file, and the backing file (volume-1234) does not change. info file: { 'active': 'volume-1234.aaaa', 'aaaa': 'volume-1234.aaaa' } 3. Second snapshot created: volume-1234 <- volume-1234.aaaa <- volume-1234.bbbb volume-1234.bbbb now becomes the "active" disk image, recording changes made to the volume. info file: { 'active': 'volume-1234.bbbb', 'aaaa': 'volume-1234.aaaa', 'bbbb': 'volume-1234.bbbb' } 4. First snapshot deleted: volume-1234 <- volume-1234.aaaa(* now with bbbb's data) volume-1234.aaaa is removed (logically) from the snapshot chain. The data from volume-1234.bbbb is merged into it. (*) Since bbbb's data was committed into the aaaa file, we have "removed" aaaa's snapshot point but the .aaaa file now represents snapshot with id "bbbb". info file: { 'active': 'volume-1234.bbbb', 'bbbb': 'volume-1234.aaaa' (* changed!) } 5. Second snapshot deleted: volume-1234 volume-1234.bbbb is removed from the snapshot chain, as above. The base image, volume-1234, becomes the active image for this volume again. If in-use, the VM begins using the volume-1234.bbbb file immediately as part of the snapshot delete process. info file: { 'active': 'volume-1234' } For the above operations, Cinder handles manipulation of qcow2 files when the volume is detached. When attached, Cinder creates and deletes qcow2 files, but Nova is responsible for transitioning the VM between them and handling live transfers of data between files as required. """ status = snapshot['volume']['status'] if status not in ['available', 'in-use']: msg = _('Volume status must be "available" or "in-use"' ' for snapshot. (is %s)') % status raise exception.InvalidVolume(msg) if status == 'in-use': # Perform online snapshot via Nova context = snapshot['context'] backing_filename = self.get_active_image_from_info( snapshot['volume']) path_to_disk = self._local_path_volume(snapshot['volume']) new_snap_path = '%s.%s' % ( self._local_path_volume(snapshot['volume']), snapshot['id']) self._create_qcow2_snap_file(snapshot, backing_filename, new_snap_path) connection_info = { 'type': 'qcow2', 'new_file': os.path.basename(new_snap_path), 'snapshot_id': snapshot['id'] } try: result = self._nova.create_volume_snapshot( context, snapshot['volume_id'], connection_info) LOG.debug(_('nova call result: %s') % result) except Exception as e: LOG.error(_('Call to Nova to create snapshot failed')) LOG.exception(e) raise e # Loop and wait for result # Nova will call Cinderclient to update the status in the database # An update of progress = '90%' means that Nova is done seconds_elapsed = 0 increment = 1 timeout = 600 while True: s = db.snapshot_get(context, snapshot['id']) if s['status'] == 'creating': if s['progress'] == '90%': # Nova tasks completed successfully break time.sleep(increment) seconds_elapsed += increment elif s['status'] == 'error': msg = _('Nova returned "error" status ' 'while creating snapshot.') raise exception.GlusterfsException(msg) LOG.debug(_('Status of snapshot %(id)s is now %(status)s') % { 'id': snapshot['id'], 'status': s['status'] }) if 10 < seconds_elapsed <= 20: increment = 2 elif 20 < seconds_elapsed <= 60: increment = 5 elif 60 < seconds_elapsed: increment = 10 if seconds_elapsed > timeout: msg = _('Timed out while waiting for Nova update ' 'for creation of snapshot %s.') % snapshot['id'] raise exception.GlusterfsException(msg) info_path = self._local_path_volume(snapshot['volume']) + '.info' snap_info = self._read_info_file(info_path, empty_if_missing=True) snap_info['active'] = os.path.basename(new_snap_path) snap_info[snapshot['id']] = os.path.basename(new_snap_path) self._write_info_file(info_path, snap_info) return LOG.debug(_('create snapshot: %s') % snapshot) LOG.debug(_('volume id: %s') % snapshot['volume_id']) path_to_disk = self._local_path_volume(snapshot['volume']) snap_id = snapshot['id'] self._create_snapshot(snapshot, path_to_disk, snap_id) def _create_qcow2_snap_file(self, snapshot, backing_filename, new_snap_path): """Create a QCOW2 file backed by another file. :param snapshot: snapshot reference :param backing_filename: filename of file that will back the new qcow2 file :param new_snap_path: filename of new qcow2 file """ backing_path_full_path = '%s/%s' % ( self._local_volume_dir(snapshot['volume']), backing_filename) command = ['qemu-img', 'create', '-f', 'qcow2', '-o', 'backing_file=%s' % backing_path_full_path, new_snap_path] self._execute(*command, run_as_root=True) info = self._qemu_img_info(backing_path_full_path) backing_fmt = info.file_format command = ['qemu-img', 'rebase', '-u', '-b', backing_filename, '-F', backing_fmt, new_snap_path] self._execute(*command, run_as_root=True) def _create_snapshot(self, snapshot, path_to_disk, snap_id): """Create snapshot (offline case).""" # Requires volume status = 'available' new_snap_path = '%s.%s' % (path_to_disk, snapshot['id']) backing_filename = self.get_active_image_from_info(snapshot['volume']) self._create_qcow2_snap_file(snapshot, backing_filename, new_snap_path) # Update info file info_path = self._local_path_volume_info(snapshot['volume']) snap_info = self._read_info_file(info_path, empty_if_missing=True) snap_info['active'] = os.path.basename(new_snap_path) snap_info[snapshot['id']] = os.path.basename(new_snap_path) self._write_info_file(info_path, snap_info) def _read_file(self, filename): """This method is to make it easier to stub out code for testing. Returns a string representing the contents of the file. """ with open(filename, 'r') as f: return f.read() def _read_info_file(self, info_path, empty_if_missing=False): """Return dict of snapshot information.""" if not os.path.exists(info_path): if empty_if_missing is True: return {} return json.loads(self._read_file(info_path)) def _write_info_file(self, info_path, snap_info): if 'active' not in snap_info.keys(): msg = _("'active' must be present when writing snap_info.") raise exception.GlusterfsException(msg) with open(info_path, 'w') as f: json.dump(snap_info, f, indent=1, sort_keys=True) def _get_matching_backing_file(self, backing_chain, snapshot_file): return next(f for f in backing_chain if f.get('backing-filename', '') == snapshot_file) @utils.synchronized('glusterfs', external=False) def delete_snapshot(self, snapshot): """Delete a snapshot. If volume status is 'available', delete snapshot here in Cinder using qemu-img. If volume status is 'in-use', calculate what qcow2 files need to merge, and call to Nova to perform this operation. """ LOG.debug(_('deleting snapshot %s') % snapshot['id']) volume_status = snapshot['volume']['status'] if volume_status not in ['available', 'in-use']: msg = _('Volume status must be "available" or "in-use".') raise exception.InvalidVolume(msg) self._ensure_share_writable( self._local_volume_dir(snapshot['volume'])) # Determine the true snapshot file for this snapshot # based on the .info file info_path = self._local_path_volume(snapshot['volume']) + '.info' snap_info = self._read_info_file(info_path) snapshot_file = snap_info[snapshot['id']] LOG.debug(_('snapshot_file for this snap is %s') % snapshot_file) snapshot_path = '%s/%s' % (self._local_volume_dir(snapshot['volume']), snapshot_file) snapshot_path_img_info = self._qemu_img_info(snapshot_path) vol_path = self._local_volume_dir(snapshot['volume']) # Find what file has this as its backing file active_file = self.get_active_image_from_info(snapshot['volume']) active_file_path = '%s/%s' % (vol_path, active_file) if volume_status == 'in-use': # Online delete context = snapshot['context'] base_file = snapshot_path_img_info.backing_file if base_file is None: # There should always be at least the original volume # file as base. msg = _('No base file found for %s.') % snapshot_path raise exception.GlusterfsException(msg) base_id = None info_path = self._local_path_volume(snapshot['volume']) + '.info' snap_info = self._read_info_file(info_path) for key, value in snap_info.iteritems(): if value == base_file and key != 'active': base_id = key break if base_id is None: # This means we are deleting the oldest snapshot msg = _('No %(base_id)s found for %(file)s') % { 'base_id': 'base_id', 'file': snapshot_file} LOG.debug(msg) online_delete_info = { 'active_file': active_file, 'snapshot_file': snapshot_file, 'base_file': base_file, 'base_id': base_id } return self._delete_snapshot_online(context, snapshot, online_delete_info) if snapshot_file == active_file: # Need to merge snapshot_file into its backing file # There is no top file # T0 | T1 | # base | snapshot_file | None # (guaranteed to| (being deleted) | # exist) | | base_file = snapshot_path_img_info.backing_file self._qemu_img_commit(snapshot_path) self._execute('rm', '-f', snapshot_path, run_as_root=True) # Remove snapshot_file from info info_path = self._local_path_volume(snapshot['volume']) + '.info' snap_info = self._read_info_file(info_path) del(snap_info[snapshot['id']]) # Active file has changed snap_info['active'] = base_file self._write_info_file(info_path, snap_info) else: # T0 | T1 | T2 | T3 # base | snapshot_file | higher_file | highest_file #(guaranteed to | (being deleted)|(guaranteed to | (may exist, # exist, not | | exist, being |needs ptr update # used here) | | committed down)| if so) backing_chain = self._get_backing_chain_for_path( snapshot['volume'], active_file_path) # This file is guaranteed to exist since we aren't operating on # the active file. higher_file = next((os.path.basename(f['filename']) for f in backing_chain if f.get('backing-filename', '') == snapshot_file), None) if higher_file is None: msg = _('No file found with %s as backing file.') %\ snapshot_file raise exception.GlusterfsException(msg) snap_info = self._read_info_file(info_path) higher_id = next((i for i in snap_info if snap_info[i] == higher_file and i != 'active'), None) if higher_id is None: msg = _('No snap found with %s as backing file.') %\ higher_file raise exception.GlusterfsException(msg) # Is there a file depending on higher_file? highest_file = next((os.path.basename(f['filename']) for f in backing_chain if f.get('backing-filename', '') == higher_file), None) if highest_file is None: msg = _('No file depends on %s.') % higher_file LOG.debug(msg) # Committing higher_file into snapshot_file # And update pointer in highest_file higher_file_path = '%s/%s' % (vol_path, higher_file) self._qemu_img_commit(higher_file_path) if highest_file is not None: highest_file_path = '%s/%s' % (vol_path, highest_file) info = self._qemu_img_info(snapshot_path) snapshot_file_fmt = info.file_format backing_fmt = ('-F', snapshot_file_fmt) self._execute('qemu-img', 'rebase', '-u', '-b', snapshot_file, highest_file_path, *backing_fmt, run_as_root=True) self._execute('rm', '-f', higher_file_path, run_as_root=True) # Remove snapshot_file from info info_path = self._local_path_volume(snapshot['volume']) + '.info' snap_info = self._read_info_file(info_path) del(snap_info[snapshot['id']]) snap_info[higher_id] = snapshot_file if higher_file == active_file: if highest_file is not None: msg = _('Check condition failed: ' '%s expected to be None.') % 'highest_file' raise exception.GlusterfsException(msg) # Active file has changed snap_info['active'] = snapshot_file self._write_info_file(info_path, snap_info) def _delete_snapshot_online(self, context, snapshot, info): # Update info over the course of this method # active file never changes info_path = self._local_path_volume(snapshot['volume']) + '.info' snap_info = self._read_info_file(info_path) if info['active_file'] == info['snapshot_file']: # blockRebase/Pull base into active # info['base'] => snapshot_file file_to_delete = info['base_file'] delete_info = {'file_to_merge': info['base_file'], 'merge_target_file': None, # current 'type': 'qcow2', 'volume_id': snapshot['volume']['id']} del(snap_info[snapshot['id']]) else: # blockCommit snapshot into base # info['base'] <= snapshot_file # delete record of snapshot file_to_delete = info['snapshot_file'] delete_info = {'file_to_merge': info['snapshot_file'], 'merge_target_file': info['base_file'], 'type': 'qcow2', 'volume_id': snapshot['volume']['id']} del(snap_info[snapshot['id']]) try: self._nova.delete_volume_snapshot( context, snapshot['id'], delete_info) except Exception as e: LOG.error(_('Call to Nova delete snapshot failed')) LOG.exception(e) raise e # Loop and wait for result # Nova will call Cinderclient to update the status in the database # An update of progress = '90%' means that Nova is done seconds_elapsed = 0 increment = 1 timeout = 600 while True: s = db.snapshot_get(context, snapshot['id']) if s['status'] == 'deleting': if s['progress'] == '90%': # Nova tasks completed successfully break else: msg = _('status of snapshot %s is ' 'still "deleting"... waiting') % snapshot['id'] LOG.debug(msg) time.sleep(increment) seconds_elapsed += increment else: msg = _('Unable to delete snapshot %(id)s, ' 'status: %(status)s.') % {'id': snapshot['id'], 'status': s['status']} raise exception.GlusterfsException(msg) if 10 < seconds_elapsed <= 20: increment = 2 elif 20 < seconds_elapsed <= 60: increment = 5 elif 60 < seconds_elapsed: increment = 10 if seconds_elapsed > timeout: msg = _('Timed out while waiting for Nova update ' 'for deletion of snapshot %(id)s.') %\ {'id': snapshot['id']} raise exception.GlusterfsException(msg) # Write info file updated above self._write_info_file(info_path, snap_info) # Delete stale file path_to_delete = os.path.join( self._local_volume_dir(snapshot['volume']), file_to_delete) self._execute('rm', '-f', path_to_delete, run_as_root=True) def _get_backing_chain_for_path(self, volume, path): """Returns list of dicts containing backing-chain information. Includes 'filename', and 'backing-filename' for each applicable entry. Consider converting this to use --backing-chain and --output=json when environment supports qemu-img 1.5.0. :param volume: volume reference :param path: path to image file at top of chain """ output = [] info = self._qemu_img_info(path) new_info = {} new_info['filename'] = os.path.basename(path) new_info['backing-filename'] = info.backing_file output.append(new_info) while new_info['backing-filename']: filename = new_info['backing-filename'] path = os.path.join(self._local_volume_dir(volume), filename) info = self._qemu_img_info(path) backing_filename = info.backing_file new_info = {} new_info['filename'] = filename new_info['backing-filename'] = backing_filename output.append(new_info) return output def _qemu_img_commit(self, path): return self._execute('qemu-img', 'commit', path, run_as_root=True) def ensure_export(self, ctx, volume): """Synchronously recreates an export for a logical volume.""" self._ensure_share_mounted(volume['provider_location']) def create_export(self, ctx, volume): """Exports the volume.""" pass def remove_export(self, ctx, volume): """Removes an export for a logical volume.""" pass def validate_connector(self, connector): pass @utils.synchronized('glusterfs', external=False) def initialize_connection(self, volume, connector): """Allow connection to connector and return connection info.""" # Find active qcow2 file active_file = self.get_active_image_from_info(volume) path = '%s/%s/%s' % (self.configuration.glusterfs_mount_point_base, self._get_hash_str(volume['provider_location']), active_file) data = {'export': volume['provider_location'], 'name': active_file} if volume['provider_location'] in self.shares: data['options'] = self.shares[volume['provider_location']] # Test file for raw vs. qcow2 format info = self._qemu_img_info(path) data['format'] = info.file_format if data['format'] not in ['raw', 'qcow2']: msg = _('%s must be a valid raw or qcow2 image.') % path raise exception.InvalidVolume(msg) return { 'driver_volume_type': 'glusterfs', 'data': data } def terminate_connection(self, volume, connector, **kwargs): """Disallow connection from connector.""" pass 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 = '%s/%s' % (self._local_volume_dir(volume), active_file) info = self._qemu_img_info(active_file_path) backing_file = info.backing_file if backing_file: snapshots_exist = True else: snapshots_exist = False root_file_fmt = info.file_format temp_path = None try: if snapshots_exist or (root_file_fmt != 'raw'): # Convert due to snapshots # or volume data not being stored in raw format # (upload_volume assumes raw format input) temp_path = '%s/%s.temp_image.%s' % ( self._local_volume_dir(volume), volume['id'], image_meta['id']) image_utils.convert_image(active_file_path, temp_path, 'raw') upload_path = temp_path else: upload_path = active_file_path image_utils.upload_volume(context, image_service, image_meta, upload_path) finally: if temp_path is not None: self._execute('rm', '-f', temp_path) @utils.synchronized('glusterfs', external=False) def extend_volume(self, volume, size_gb): volume_path = self.local_path(volume) volume_filename = os.path.basename(volume_path) # Ensure no snapshots exist for the volume active_image = self.get_active_image_from_info(volume) if volume_filename != active_image: msg = _('Extend volume is only supported for this' ' driver when no snapshots exist.') raise exception.InvalidVolume(msg) info = self._qemu_img_info(volume_path) backing_fmt = info.file_format if backing_fmt not in ['raw', 'qcow2']: msg = _('Unrecognized backing format: %s') raise exception.InvalidVolume(msg % backing_fmt) # qemu-img can resize both raw and qcow2 files image_utils.resize_image(volume_path, size_gb) def _do_create_volume(self, volume): """Create a volume on given glusterfs_share. :param volume: volume reference """ volume_path = self.local_path(volume) volume_size = volume['size'] LOG.debug(_("creating new volume at %s") % volume_path) if os.path.exists(volume_path): msg = _('file already exists at %s') % volume_path LOG.error(msg) raise exception.InvalidVolume(reason=msg) if self.configuration.glusterfs_qcow2_volumes: self._create_qcow2_file(volume_path, volume_size) else: if self.configuration.glusterfs_sparsed_volumes: self._create_sparsed_file(volume_path, volume_size) else: self._create_regular_file(volume_path, volume_size) self._set_rw_permissions_for_all(volume_path) def _ensure_shares_mounted(self): """Mount all configured GlusterFS shares.""" self._mounted_shares = [] self._load_shares_config(self.configuration.glusterfs_shares_config) for share in self.shares.keys(): try: self._ensure_share_mounted(share) self._mounted_shares.append(share) except Exception as exc: LOG.warning(_('Exception during mounting %s') % (exc,)) LOG.debug(_('Available shares: %s') % str(self._mounted_shares)) def _ensure_share_writable(self, path): """Ensure that the Cinder user can write to the share. If not, raise an exception. :param path: path to test :raises: GlusterfsException :returns: None """ prefix = '.cinder-write-test-' + str(os.getpid()) + '-' try: tempfile.NamedTemporaryFile(prefix=prefix, dir=path) except OSError: msg = _('GlusterFS share at %(dir)s is not writable by the ' 'Cinder volume service. Snapshot operations will not be ' 'supported.') % {'dir': path} raise exception.GlusterfsException(msg) def _ensure_share_mounted(self, glusterfs_share): """Mount GlusterFS share. :param glusterfs_share: string """ mount_path = self._get_mount_point_for_share(glusterfs_share) self._mount_glusterfs(glusterfs_share, mount_path, ensure=True) # Ensure we can write to this share group_id = os.getegid() current_group_id = utils.get_file_gid(mount_path) current_mode = utils.get_file_mode(mount_path) if group_id != current_group_id: cmd = ['chgrp', group_id, mount_path] self._execute(*cmd, run_as_root=True) if not (current_mode & stat.S_IWGRP): cmd = ['chmod', 'g+w', mount_path] self._execute(*cmd, run_as_root=True) self._ensure_share_writable(mount_path) def _find_share(self, volume_size_for): """Choose GlusterFS share among available ones for given volume size. Current implementation looks for greatest capacity. :param volume_size_for: int size in GB """ if not self._mounted_shares: raise exception.GlusterfsNoSharesMounted() greatest_size = 0 greatest_share = None for glusterfs_share in self._mounted_shares: capacity = self._get_available_capacity(glusterfs_share)[0] if capacity > greatest_size: greatest_share = glusterfs_share greatest_size = capacity if volume_size_for * units.GiB > greatest_size: raise exception.GlusterfsNoSuitableShareFound( volume_size=volume_size_for) return greatest_share def _get_hash_str(self, base_str): """Return a string that represents hash of base_str (in a hex format). """ return hashlib.md5(base_str).hexdigest() def _get_mount_point_for_share(self, glusterfs_share): """Return mount point for share. :param glusterfs_share: example 172.18.194.100:/var/glusterfs """ return os.path.join(self.configuration.glusterfs_mount_point_base, self._get_hash_str(glusterfs_share)) def _get_available_capacity(self, glusterfs_share): """Calculate available space on the GlusterFS share. :param glusterfs_share: example 172.18.194.100:/var/glusterfs """ mount_point = self._get_mount_point_for_share(glusterfs_share) out, _ = self._execute('df', '--portability', '--block-size', '1', mount_point, run_as_root=True) out = out.splitlines()[1] available = 0 size = int(out.split()[1]) if self.configuration.glusterfs_disk_util == 'df': available = int(out.split()[3]) else: out, _ = self._execute('du', '-sb', '--apparent-size', '--exclude', '*snapshot*', mount_point, run_as_root=True) used = int(out.split()[0]) available = size - used return available, size def _get_capacity_info(self, glusterfs_share): available, size = self._get_available_capacity(glusterfs_share) return size, available, size - available def _mount_glusterfs(self, glusterfs_share, mount_path, ensure=False): """Mount GlusterFS share to mount path.""" self._execute('mkdir', '-p', mount_path) command = ['mount', '-t', 'glusterfs', glusterfs_share, mount_path] if self.shares.get(glusterfs_share) is not None: command.extend(self.shares[glusterfs_share].split()) self._do_mount(command, ensure, glusterfs_share)