PSARC 2015/289 OpenStack Cinder Enhancements
20938366 cinder backup and volume-migration need to be supported in openstack
21215160 cinder SAN needs Paramiko
21365620 cinder volume backups sometimes fail on SPARC
# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright (c) 2012 OpenStack LLC.
# All Rights Reserved.
#
# Copyright (c) 2014, 2015, Oracle and/or its affiliates. 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.
"""
Drivers for Solaris ZFS operations in local and iSCSI modes
"""
import abc
import fcntl
import os
import socket
import subprocess
import time
from oslo.config import cfg
from cinder import exception
from cinder.i18n import _
from cinder.image import image_utils
from cinder.openstack.common import log as logging
from cinder.openstack.common import processutils
from cinder.volume import driver
from cinder.volume.drivers.san.san import SanDriver
from solaris_install.target.size import Size
FLAGS = cfg.CONF
LOG = logging.getLogger(__name__)
solaris_zfs_opts = [
cfg.StrOpt('zfs_volume_base',
default='rpool/cinder',
help='The base dataset for ZFS volumes.'), ]
FLAGS.register_opts(solaris_zfs_opts)
class ZFSVolumeDriver(SanDriver):
"""Local ZFS volume operations."""
protocol = 'local'
def __init__(self, *args, **kwargs):
super(ZFSVolumeDriver, self).__init__(execute=self.solaris_execute,
*args, **kwargs)
self.configuration.append_config_values(solaris_zfs_opts)
self.run_local = self.configuration.san_is_local
self.hostname = socket.gethostname()
def solaris_execute(self, *cmd, **kwargs):
"""Execute the command locally or remotely."""
if self.run_local:
return processutils.execute(*cmd, **kwargs)
else:
return super(ZFSVolumeDriver, self)._run_ssh(cmd,
check_exit_code=True)
def check_for_setup_error(self):
"""Check the setup error."""
pass
def create_volume(self, volume):
"""Create a volume."""
size = '%sG' % volume['size']
zfs_volume = self._get_zfs_volume_name(volume['name'])
# Create a ZFS volume
cmd = ['/usr/sbin/zfs', 'create', '-V', size, zfs_volume]
self._execute(*cmd)
LOG.debug(_("Created ZFS volume '%s'") % volume['name'])
def create_volume_from_snapshot(self, volume, snapshot):
"""Create a cloned volume from a snapshot."""
if volume['size'] != snapshot['volume_size']:
exception_message = (_("Could not create volume '%s' because "
"its volume size of '%s' is different "
"from that of the snapshot, '%s'.")
% (volume['name'], volume['size'],
snapshot['volume_size']))
raise exception.InvalidInput(reason=exception_message)
# Create a ZFS clone
zfs_snapshot = self._get_zfs_snap_name(snapshot)
zfs_volume = self._get_zfs_volume_name(volume['name'])
cmd = ['/usr/sbin/zfs', 'clone', zfs_snapshot, zfs_volume]
self._execute(*cmd)
LOG.debug(_("Created cloned volume '%s'") % volume['name'])
def create_cloned_volume(self, volume, src_vref):
"""Create a clone of the specified volume."""
if volume['size'] != src_vref['size']:
exception_message = (_("Could not clone volume '%s' because "
"its volume size of '%s' is different "
"from that of the source volume, '%s'.")
% (volume['name'], volume['size'],
src_vref['size']))
raise exception.VolumeBackendAPIException(data=exception_message)
src_volume_name = src_vref['name']
volume_name = volume['name']
tmp_snapshot = {'volume_name': src_volume_name,
'name': 'tmp-snapshot-%s' % volume['id']}
self.create_snapshot(tmp_snapshot)
# Create a ZFS clone
zfs_snapshot = self._get_zfs_snap_name(tmp_snapshot)
zfs_volume = self._get_zfs_volume_name(volume['name'])
cmd = ['/usr/sbin/zfs', 'clone', zfs_snapshot, zfs_volume]
self._execute(*cmd)
LOG.debug(_("Created cloned volume '%s' from source volume '%s'")
% (volume_name, src_volume_name))
def delete_volume(self, volume):
"""Delete a volume.
Firstly, the volume should be checked if it is a cloned one. If yes,
its parent snapshot with prefix 'tmp-snapshot-' should be deleted as
well after it is removed.
"""
zvol = self._get_zvol_path(volume)
try:
(out, _err) = self._execute('/usr/bin/ls', zvol)
except processutils.ProcessExecutionError:
LOG.debug(_("The volume path '%s' doesn't exist") % zvol)
return
zfs_volume = self._get_zfs_volume_name(volume['name'])
origin_snapshot = self._get_zfs_property('origin', zfs_volume)
tmp_cloned_vol = False
# Check if it is the temporary snapshot created for the cloned volume
if origin_snapshot.startswith(self.configuration.zfs_volume_base):
prop_type = self._get_zfs_property('type', origin_snapshot)
tmp_snap_prefix = 'tmp-snapshot-%s' % volume['id']
if prop_type == 'snapshot' and tmp_snap_prefix in origin_snapshot:
tmp_cloned_vol = True
cmd = ['/usr/sbin/zfs', 'destroy', zfs_volume]
self._execute(*cmd)
LOG.debug(_("Deleted volume '%s'") % volume['name'])
if tmp_cloned_vol:
self._execute('/usr/sbin/zfs', 'destroy', origin_snapshot)
LOG.debug(_("Deleted parent snapshot '%s' of volume '%s'")
% (origin_snapshot, volume['name']))
def create_snapshot(self, snapshot):
"""Create a snapshot."""
cmd = ['/usr/sbin/zfs', 'snapshot', self._get_zfs_snap_name(snapshot)]
self._execute(*cmd)
LOG.debug(_("Created snapshot '%s'") % snapshot['name'])
def delete_snapshot(self, snapshot):
"""Delete a snapshot."""
cmd = ['/usr/sbin/zfs', 'destroy', self._get_zfs_snap_name(snapshot)]
self._execute(*cmd)
LOG.debug(_("Deleted snapshot '%s'") % snapshot['name'])
def ensure_export(self, context, volume):
"""Synchronously recreate an export for a logical volume."""
pass
def create_export(self, context, volume):
"""Export the volume."""
pass
def remove_export(self, context, volume):
"""Remove an export for a volume."""
pass
def initialize_connection(self, volume, connector):
"""Initialize the connection and returns connection info."""
volume_path = '%s/volume-%s' % (self.configuration.zfs_volume_base,
volume['id'])
properties = {}
properties['device_path'] = self._get_zvol_path(volume)
return {
'driver_volume_type': 'local',
'volume_path': volume_path,
'data': properties
}
def terminate_connection(self, volume, connector, **kwargs):
"""Disconnection from the connector."""
pass
def attach_volume(self, context, volume, instance_uuid, host_name,
mountpoint):
"""Callback for volume attached to instance or host."""
pass
def detach_volume(self, context, volume):
""" Callback for volume detached."""
pass
def get_volume_stats(self, refresh=False):
"""Get volume status."""
if refresh:
self._update_volume_stats()
return self._stats
def copy_image_to_volume(self, context, volume, image_service, image_id):
"""Fetch the image from image_service and write it to the volume."""
raise NotImplementedError()
def copy_volume_to_image(self, context, volume, image_service, image_meta):
"""Copy the volume to the specified image."""
raise NotImplementedError()
def _get_zfs_property(self, prop, dataset):
"""Get the value of property for the dataset."""
try:
(out, _err) = self._execute('/usr/sbin/zfs', 'get', '-H', '-o',
'value', prop, dataset)
return out.rstrip()
except processutils.ProcessExecutionError:
LOG.info(_("Failed to get the property '%s' of the dataset '%s'") %
(prop, dataset))
return None
def _get_zfs_snap_name(self, snapshot):
"""Get the snapshot path."""
return "%s/%s@%s" % (self.configuration.zfs_volume_base,
snapshot['volume_name'], snapshot['name'])
def _get_zfs_volume_name(self, volume_name):
"""Add the pool name to get the ZFS volume."""
return "%s/%s" % (self.configuration.zfs_volume_base,
volume_name)
def _piped_execute(self, cmd1, cmd2):
"""Pipe output of cmd1 into cmd2."""
LOG.debug(_("Piping cmd1='%s' into cmd2='%s'") %
(' '.join(cmd1), ' '.join(cmd2)))
try:
p1 = subprocess.Popen(cmd1, stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
except:
LOG.error(_("_piped_execute '%s' failed.") % (cmd1))
raise
# Set the pipe to be blocking because evenlet.green.subprocess uses
# the non-blocking pipe.
flags = fcntl.fcntl(p1.stdout, fcntl.F_GETFL) & (~os.O_NONBLOCK)
fcntl.fcntl(p1.stdout, fcntl.F_SETFL, flags)
p2 = subprocess.Popen(cmd2, stdin=p1.stdout,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
p1.stdout.close()
stdout, stderr = p2.communicate()
if p2.returncode:
msg = (_("_piped_execute failed with the info '%s' and '%s'.") %
(stdout, stderr))
raise exception.VolumeBackendAPIException(data=msg)
def _zfs_send_recv(self, src, dst, remote=False):
"""Replicate the ZFS dataset by calling zfs send/recv cmd"""
src_snapshot = {'volume_name': src['name'],
'name': 'tmp-snapshot-%s' % src['id']}
src_snapshot_name = self._get_zfs_snap_name(src_snapshot)
prop_type = self._get_zfs_property('type', src_snapshot_name)
# Delete the temporary snapshot if it already exists
if prop_type == 'snapshot':
self.delete_snapshot(src_snapshot)
# Create a temporary snapshot of volume
self.create_snapshot(src_snapshot)
src_snapshot_name = self._get_zfs_snap_name(src_snapshot)
cmd1 = ['/usr/sbin/zfs', 'send', src_snapshot_name]
cmd2 = ['/usr/sbin/zfs', 'receive', dst]
self._piped_execute(cmd1, cmd2)
# Delete the temporary src snapshot and dst snapshot
self.delete_snapshot(src_snapshot)
dst_snapshot_name = "%s@tmp-snapshot-%s" % (dst, src['id'])
cmd = ['/usr/sbin/zfs', 'destroy', dst_snapshot_name]
self._execute(*cmd)
def _get_zvol_path(self, volume):
"""Get the ZFS volume path."""
return "/dev/zvol/rdsk/%s" % self._get_zfs_volume_name(volume['name'])
def _update_volume_stats(self):
"""Retrieve volume status info."""
LOG.debug(_("Updating volume status"))
stats = {}
backend_name = self.configuration.safe_get('volume_backend_name')
stats["volume_backend_name"] = backend_name or self.__class__.__name__
stats["storage_protocol"] = self.protocol
stats["driver_version"] = '1.0'
stats["vendor_name"] = 'Oracle'
stats['QoS_support'] = False
dataset = self.configuration.zfs_volume_base
used_size = self._get_zfs_property('used', dataset)
avail_size = self._get_zfs_property('avail', dataset)
stats['total_capacity_gb'] = \
(Size(used_size) + Size(avail_size)).get(Size.gb_units)
stats['free_capacity_gb'] = Size(avail_size).get(Size.gb_units)
stats['reserved_percentage'] = self.configuration.reserved_percentage
stats['location_info'] =\
('ZFSVolumeDriver:%(hostname)s:%(zfs_volume_base)s' %
{'hostname': self.hostname,
'zfs_volume_base': self.configuration.zfs_volume_base})
self._stats = stats
def extend_volume(self, volume, new_size):
"""Extend an existing volume's size."""
volsize_str = 'volsize=%sg' % new_size
zfs_volume = self._get_zfs_volume_name(volume['name'])
try:
self._execute('/usr/sbin/zfs', 'set', volsize_str, zfs_volume)
except Exception:
msg = (_("Failed to extend volume size to %(new_size)s GB.")
% {'new_size': new_size})
raise exception.VolumeBackendAPIException(data=msg)
def rename_volume(self, src, dst):
"""Rename the volume from src to dst in the same zpool."""
cmd = ['/usr/sbin/zfs', 'rename', src, dst]
self._execute(*cmd)
LOG.debug(_("Rename the volume '%s' to '%s'") % (src, dst))
def migrate_volume(self, context, volume, host):
"""Migrate the volume among different backends on the same server.
The volume migration can only run locally by calling zfs send/recv
cmds and the specified host needs to be on the same server with the
host. But, one exception is when the src and dst volume are located
under the same zpool locally or remotely, the migration will be done
by just renaming the volume.
:param context: context
:param volume: a dictionary describing the volume to migrate
:param host: a dictionary describing the host to migrate to
"""
false_ret = (False, None)
if volume['status'] != 'available':
LOG.debug(_("Status of volume '%s' is '%s', not 'available'.") %
(volume['name'], volume['status']))
return false_ret
if 'capabilities' not in host or \
'location_info' not in host['capabilities']:
LOG.debug(_("No location_info or capabilities are in host info"))
return false_ret
info = host['capabilities']['location_info']
if (self.hostname != info.split(':')[1]):
LOG.debug(_("Migration between two different servers '%s' and "
"'%s' is not supported yet.") %
(self.hostname, info.split(':')[1]))
return false_ret
dst_volume = "%s/%s" % (info.split(':')[-1], volume['name'])
src_volume = self._get_zfs_volume_name(volume['name'])
# check if the src and dst volume are under the same zpool
if (src_volume.split('/')[0] == dst_volume.split('/')[0]):
self.rename_volume(src_volume, dst_volume)
else:
self._zfs_send_recv(volume, dst_volume)
# delete the source volume
self.delete_volume(volume)
provider_location = {}
return (True, provider_location)
class STMFDriver(ZFSVolumeDriver):
"""Abstract base class for common COMSTAR operations."""
__metaclass__ = abc.ABCMeta
def __init__(self, *args, **kwargs):
super(STMFDriver, self).__init__(*args, **kwargs)
def _stmf_execute(self, *cmd):
"""Handle the possible race during the local execution."""
tries = 0
while True:
try:
self._execute(*cmd)
return
except processutils.ProcessExecutionError as ex:
tries = tries + 1
if tries >= self.configuration.num_shell_tries or \
'resource busy' not in ex.stderr:
raise
time.sleep(tries ** 2)
def _check_target(self, target, protocol):
"""Verify if the target exists."""
(out, _err) = self._execute('/usr/sbin/stmfadm', 'list-target')
for line in [l.strip() for l in out.splitlines()]:
if line.startswith("Target:"):
if target == line.split()[-1]:
break
else:
LOG.debug(_("The target '%s' doesn't exist") % target)
return False
# Verify if the target protocol is iSCSI.
(out, _err) = self._execute('/usr/sbin/stmfadm', 'list-target',
'-v', target)
for line in [l.strip() for l in out.splitlines()]:
if line.startswith("Target:"):
tmp_target = line.split()[-1]
if line.startswith("Operational"):
status = line.split()[-1]
if line.startswith("Protocol"):
tmp_protocol = line.split()[-1]
break
return (tmp_target == target and status == 'Online' and
tmp_protocol == protocol)
def _check_tg(self, tg):
"""Check if the target group exists."""
(out, _err) = self._execute('/usr/sbin/stmfadm', 'list-tg')
found = False
for line in [l.strip() for l in out.splitlines()]:
if line.startswith("Target"):
if tg == line.split()[-1]:
found = True
break
else:
LOG.debug(_("The target group '%s' doesn't exist") % tg)
return found
def _get_luid(self, volume):
"""Get the LU corresponding to the volume."""
zvol = self._get_zvol_path(volume)
(out, _err) = self._execute('/usr/sbin/stmfadm', 'list-lu', '-v')
luid = None
for line in [l.strip() for l in out.splitlines()]:
if line.startswith("LU Name:"):
luid = line.split()[-1]
if line.startswith("Alias") and line.split()[-1] == zvol:
break
else:
luid = None
if luid is not None:
LOG.debug(_("Got the LU '%s'") % luid)
else:
LOG.debug(_("Failed to get LU for volume '%s'")
% volume['name'])
return luid
def _get_view_and_lun(self, lu):
"""Check the view entry of the LU and then get the lun and view."""
view_and_lun = {}
view_and_lun['view'] = view_and_lun['lun'] = None
try:
(out, _err) = self._execute('/usr/sbin/stmfadm', 'list-view',
'-l', lu, '-v')
except processutils.ProcessExecutionError as error:
if 'no views found' in error.stderr:
LOG.debug(_("No view is found for LU '%s'") % lu)
return view_and_lun
else:
raise
for line in [l.strip() for l in out.splitlines()]:
if line.startswith("View Entry:"):
view_and_lun['view'] = line.split()[-1]
if line.startswith("LUN") and 'Auto' not in line.split()[-1]:
view_and_lun['lun'] = int(line.split()[-1])
break
if line.startswith("Lun"):
view_and_lun['lun'] = int(line.split()[2])
if view_and_lun['view'] is None or view_and_lun['lun'] is None:
err_msg = (_("Failed to get the view_entry or LUN of the LU '%s'.")
% lu)
raise exception.VolumeBackendAPIException(data=err_msg)
else:
LOG.debug(_("The view_entry and LUN of LU '%s' are '%s' and '%d'.")
% (lu, view_and_lun['view'], view_and_lun['lun']))
return view_and_lun
class ZFSISCSIDriver(STMFDriver, driver.ISCSIDriver):
"""ZFS volume operations in iSCSI mode."""
protocol = 'iSCSI'
def __init__(self, *args, **kwargs):
super(ZFSISCSIDriver, self).__init__(*args, **kwargs)
def create_export(self, context, volume):
"""Export the volume."""
zvol = self._get_zvol_path(volume)
# Create a Logical Unit (LU)
self._stmf_execute('/usr/sbin/stmfadm', 'create-lu', zvol)
luid = self._get_luid(volume)
if not luid:
msg = (_("Failed to create LU for volume '%s'")
% volume['name'])
raise exception.VolumeBackendAPIException(data=msg)
# Create a target group and a target belonging to the target group
target_group = 'tg-%s' % volume['name']
self._stmf_execute('/usr/sbin/stmfadm', 'create-tg', target_group)
target_name = '%s%s' % (self.configuration.iscsi_target_prefix,
volume['name'])
self._stmf_execute('/usr/sbin/stmfadm', 'add-tg-member', '-g',
target_group, target_name)
self._stmf_execute('/usr/sbin/itadm', 'create-target', '-n',
target_name)
assert self._check_target(target_name, 'iSCSI')
# Add a view entry to the logical unit with the specified LUN, 8776
if luid is not None:
self._stmf_execute('/usr/sbin/stmfadm', 'add-view', '-n', '8776',
'-t', target_group, luid)
def remove_export(self, context, volume):
"""Remove an export for a volume.
All of the related elements about the volume, including the
target, target group, view entry and lu, are deleted.
"""
luid = self._get_luid(volume)
target_group = 'tg-%s' % volume['name']
target_name = '%s%s' % (self.configuration.iscsi_target_prefix,
volume['name'])
# Remove the view entry
if luid is not None:
view_lun = self._get_view_and_lun(luid)
if view_lun['view']:
self._stmf_execute('/usr/sbin/stmfadm', 'remove-view', '-l',
luid, view_lun['view'])
# Remove the target and its target group
if self._check_target(target_name, 'iSCSI'):
self._stmf_execute('/usr/sbin/stmfadm', 'offline-target',
target_name)
self._stmf_execute('/usr/sbin/itadm', 'delete-target', '-f',
target_name)
if self._check_tg(target_group):
self._stmf_execute('/usr/sbin/stmfadm', 'delete-tg', target_group)
# Remove the LU
if luid is not None:
self._stmf_execute('/usr/sbin/stmfadm', 'delete-lu', luid)
def _get_iscsi_properties(self, volume):
"""Get iSCSI configuration
Now we use the discovery address as the default approach to add
objects into the initiator. A discovery address is an IP address:port
combination used in a SendTargets discovery session in the initiator.
:target_discovered: boolean indicating whether discovery was used
:target_iqn: the IQN of the iSCSI target
:target_portal: the portal of the iSCSI target
:target_lun: the lun of the iSCSI target
:volume_id: the id of the volume
:auth_method:, :auth_username:, :auth_password:
the authentication details. Right now, either auth_method is not
present meaning no authentication, or auth_method == `CHAP`
meaning use CHAP with the specified credentials.
"""
luid = self._get_luid(volume)
if not luid:
msg = (_("Failed to get LU for volume '%s'") % volume['name'])
raise exception.VolumeBackendAPIException(data=msg)
target_name = '%s%s' % (self.configuration.iscsi_target_prefix,
volume['name'])
properties = {}
properties['target_discovered'] = True
properties['target_iqn'] = target_name
# Here the san_is_local means that the cinder-volume runs in the
# iSCSI target with iscsi_ip_address.
if self.configuration.san_is_local:
target_ip = self.configuration.iscsi_ip_address
else:
target_ip = self.configuration.san_ip
properties['target_portal'] = ('%s:%d' %
(target_ip,
self.configuration.iscsi_port))
view_lun = self._get_view_and_lun(luid)
if view_lun['lun'] is not None:
properties['target_lun'] = view_lun['lun']
properties['volume_id'] = volume['id']
auth = volume['provider_auth']
if auth:
(auth_method, auth_username, auth_secret) = auth.split()
properties['auth_method'] = auth_method
properties['auth_username'] = auth_username
properties['auth_password'] = auth_secret
return properties
def initialize_connection(self, volume, connector):
"""Initialize the connection and returns connection info.
The iSCSI driver returns a driver_volume_type of 'iscsi'.
The format of the driver data is defined in _get_iscsi_properties.
Example return value::
{
'driver_volume_type': 'iscsi'
'data': {
'target_discovered': True,
'target_iqn':
'iqn.1986-03.com.sun:02:200720c6-9bca-cb8f-c061-d427d7ab978f',
'target_portal': '127.0.0.1:3260',
'volume_id': 1,
}
}
"""
initiator_name = connector['initiator']
volume_name = volume['name']
LOG.debug(_('Connecting the initiator %(initiator_name)s '
'for volume %(volume_name)s')
% {'initiator_name': initiator_name,
'volume_name': volume_name})
iscsi_properties = self._get_iscsi_properties(volume)
return {
'driver_volume_type': 'iscsi',
'data': iscsi_properties
}
def terminate_connection(self, volume, connector, **kwargs):
"""Disconnection from the connector."""
initiator_name = connector['initiator']
volume_name = volume['name']
LOG.debug(_('Disconnecting the initiator %(initiator_name)s '
'for volume %(volume_name)s')
% {'initiator_name': initiator_name,
'volume_name': volume_name})
class ZFSFCDriver(STMFDriver, driver.FibreChannelDriver):
"""ZFS volume operations in FC mode."""
protocol = 'FC'
def __init__(self, *args, **kwargs):
super(ZFSFCDriver, self).__init__(*args, **kwargs)
def check_for_setup_error(self):
"""Check the setup error."""
wwns = self._get_wwns()
if not wwns:
msg = (_("Could not determine fibre channel world wide "
"node names."))
raise exception.VolumeBackendAPIException(data=msg)
def _get_wwns(self):
"""Get the FC port WWNs of the host."""
(out, _err) = self._execute('/usr/sbin/fcinfo', 'hba-port', '-t')
wwns = []
for line in [l.strip() for l in out.splitlines()]:
if line.startswith("HBA Port WWN:"):
wwn = line.split()[-1]
LOG.debug(_("Got the FC port WWN '%s'") % wwn)
wwns.append(wwn)
return wwns
def _check_wwn_tg(self, wwn):
"""Check if the target group 'tg-wwn-xxx' exists."""
(out, _err) = self._execute('/usr/sbin/stmfadm', 'list-tg')
for line in [l.strip() for l in out.splitlines()]:
if line.startswith("Target Group:") and wwn in line:
tg = line.split()[-1]
break
else:
LOG.debug(_("The target group 'tg-wwn-%s' doesn't exist.") % wwn)
tg = None
return tg
def _only_lu(self, lu):
"""Check if the LU is the only one."""
(out, _err) = self._execute('/usr/sbin/stmfadm', 'list-lu', '-v')
linecount = 0
for line in [l.strip() for l in out.splitlines()]:
if line.startswith("LU Name:"):
luid = line.split()[-1]
linecount += 1
if linecount == 1 and luid == lu:
LOG.debug(_("The LU '%s' is the only one.") % lu)
return True
else:
return False
def _target_in_tg(self, wwn, tg):
"""Check if the target has been added into a target group."""
target = 'wwn.%s' % wwn.upper()
if tg is not None:
(out, _err) = self._execute('/usr/sbin/stmfadm', 'list-tg',
'-v', tg)
else:
(out, _err) = self._execute('/usr/sbin/stmfadm', 'list-tg', '-v')
for line in [l.strip() for l in out.splitlines()]:
if line.startswith("Member:") and target in line:
return True
LOG.debug(_("The target '%s' is not in any target group.") % target)
return False
def create_export(self, context, volume):
"""Export the volume."""
zvol = self._get_zvol_path(volume)
# Create a Logical Unit (LU)
self._stmf_execute('/usr/sbin/stmfadm', 'create-lu', zvol)
luid = self._get_luid(volume)
if not luid:
msg = (_("Failed to create logic unit for volume '%s'")
% volume['name'])
raise exception.VolumeBackendAPIException(data=msg)
wwns = self._get_wwns()
wwn = wwns[0]
target_group = self._check_wwn_tg(wwn)
if target_group is None:
target_group = 'tg-wwn-%s' % wwn
if self._target_in_tg(wwn, None):
msg = (_("Target WWN '%s' has been found in another"
"target group, so it will not be added "
"into the expected target group '%s'.") %
(wwn, target_group))
raise exception.VolumeBackendAPIException(data=msg)
# Create a target group for the wwn
self._stmf_execute('/usr/sbin/stmfadm', 'create-tg', target_group)
# Enable the target and add it to the 'tg-wwn-xxx' group
self._stmf_execute('/usr/sbin/stmfadm', 'offline-target',
'wwn.%s' % wwn)
self._stmf_execute('/usr/sbin/stmfadm', 'add-tg-member', '-g',
target_group, 'wwn.%s' % wwn)
self._stmf_execute('/usr/sbin/stmfadm', 'online-target',
'wwn.%s' % wwn)
assert self._target_in_tg(wwn, target_group)
# Add a logical unit view entry
# TODO(Strony): replace the auto assigned LUN with '-n' option
if luid is not None:
self._stmf_execute('/usr/sbin/stmfadm', 'add-view', '-t',
target_group, luid)
def remove_export(self, context, volume):
"""Remove an export for a volume."""
luid = self._get_luid(volume)
if luid is not None:
wwns = self._get_wwns()
wwn = wwns[0]
target_wwn = 'wwn.%s' % wwn
target_group = 'tg-wwn-%s' % wwn
view_lun = self._get_view_and_lun(luid)
if view_lun['view']:
self._stmf_execute('/usr/sbin/stmfadm', 'remove-view', '-l',
luid, view_lun['view'])
# Remove the target group when only one LU exists.
if self._only_lu(luid):
if self._check_target(target_wwn, 'Channel'):
self._stmf_execute('/usr/sbin/stmfadm', 'offline-target',
target_wwn)
if self._check_tg(target_group):
self._stmf_execute('/usr/sbin/stmfadm', 'delete-tg',
target_group)
# Remove the LU
self._stmf_execute('/usr/sbin/stmfadm', 'delete-lu', luid)
def _get_fc_properties(self, volume):
"""Get Fibre Channel configuration.
:target_discovered: boolean indicating whether discovery was used
:target_wwn: the world wide name of the FC port target
:target_lun: the lun assigned to the LU for the view entry
"""
wwns = self._get_wwns()
if not wwns:
msg = (_("Could not determine fibre channel world wide "
"node names."))
raise exception.VolumeBackendAPIException(data=msg)
luid = self._get_luid(volume)
if not luid:
msg = (_("Failed to get logic unit for volume '%s'")
% volume['name'])
raise exception.VolumeBackendAPIException(data=msg)
properties = {}
properties['target_discovered'] = True
properties['target_wwn'] = wwns
view_lun = self._get_view_and_lun(luid)
if view_lun['lun'] is not None:
properties['target_lun'] = view_lun['lun']
return properties
def initialize_connection(self, volume, connector):
"""Initializes the connection and returns connection info.
The driver returns a driver_volume_type of 'fibre_channel'.
The target_wwn can be a single entry or a list of wwns that
correspond to the list of remote wwn(s) that will export the volume.
Example return values:
{
'driver_volume_type': 'fibre_channel'
'data': {
'target_discovered': True,
'target_lun': 1,
'target_wwn': '1234567890123',
}
}
or
{
'driver_volume_type': 'fibre_channel'
'data': {
'target_discovered': True,
'target_lun': 1,
'target_wwn': ['1234567890123', '0987654321321'],
}
}
"""
fc_properties = self._get_fc_properties(volume)
return {
'driver_volume_type': 'fibre_channel',
'data': fc_properties
}