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os-brick/os_brick/initiator/connector.py

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# Copyright 2013 OpenStack Foundation.
# 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.
""" Brick Connector objects for each supported transport protocol.
.. module: connector
The connectors here are responsible for discovering and removing volumes for
each of the supported transport protocols.
"""
import copy
import os
import platform
import re
import socket
import time
from oslo_concurrency import lockutils
from oslo_concurrency import processutils as putils
from oslo_log import log as logging
from oslo_utils import strutils
import six
S390X = "s390x"
S390 = "s390"
from os_brick import exception
from os_brick import executor
from os_brick.initiator import host_driver
from os_brick.initiator import linuxfc
from os_brick.initiator import linuxscsi
from os_brick.remotefs import remotefs
from os_brick.i18n import _, _LE, _LW
from os_brick.openstack.common import loopingcall
LOG = logging.getLogger(__name__)
synchronized = lockutils.synchronized_with_prefix('os-brick-')
DEVICE_SCAN_ATTEMPTS_DEFAULT = 3
MULTIPATH_ERROR_REGEX = re.compile("\w{3} \d+ \d\d:\d\d:\d\d \|.*$")
def _check_multipathd_running(root_helper, enforce_multipath):
try:
putils.execute('multipathd', 'show', 'status',
run_as_root=True, root_helper=root_helper)
except putils.ProcessExecutionError as err:
LOG.error(_LE('multipathd is not running: exit code %(err)s'),
{'err': err.exit_code})
if enforce_multipath:
raise
return False
return True
def get_connector_properties(root_helper, my_ip, multipath, enforce_multipath,
host=None):
"""Get the connection properties for all protocols.
When the connector wants to use multipath, multipath=True should be
specified. If enforce_multipath=True is specified too, an exception is
thrown when multipathd is not running. Otherwise, it falls back to
multipath=False and only the first path shown up is used.
For the compatibility reason, even if multipath=False is specified,
some cinder storage drivers may export the target for multipath, which
can be found via sendtargets discovery.
"""
iscsi = ISCSIConnector(root_helper=root_helper)
fc = linuxfc.LinuxFibreChannel(root_helper=root_helper)
props = {}
props['ip'] = my_ip
props['host'] = host if host else socket.gethostname()
initiator = iscsi.get_initiator()
if initiator:
props['initiator'] = initiator
wwpns = fc.get_fc_wwpns()
if wwpns:
props['wwpns'] = wwpns
wwnns = fc.get_fc_wwnns()
if wwnns:
props['wwnns'] = wwnns
props['multipath'] = (multipath and
_check_multipathd_running(root_helper,
enforce_multipath))
return props
class InitiatorConnector(executor.Executor):
def __init__(self, root_helper, driver=None,
execute=putils.execute,
device_scan_attempts=DEVICE_SCAN_ATTEMPTS_DEFAULT,
*args, **kwargs):
super(InitiatorConnector, self).__init__(root_helper, execute=execute,
*args, **kwargs)
if not driver:
driver = host_driver.HostDriver()
self.set_driver(driver)
self.device_scan_attempts = device_scan_attempts
def set_driver(self, driver):
"""The driver is used to find used LUNs."""
self.driver = driver
@staticmethod
def factory(protocol, root_helper, driver=None,
execute=putils.execute, use_multipath=False,
device_scan_attempts=DEVICE_SCAN_ATTEMPTS_DEFAULT,
arch=None,
*args, **kwargs):
"""Build a Connector object based upon protocol and architecture."""
# We do this instead of assigning it in the definition
# to help mocking for unit tests
if arch is None:
arch = platform.machine()
LOG.debug("Factory for %(protocol)s on %(arch)s",
{'protocol': protocol, 'arch': arch})
protocol = protocol.upper()
if protocol == "ISCSI":
return ISCSIConnector(root_helper=root_helper,
driver=driver,
execute=execute,
use_multipath=use_multipath,
device_scan_attempts=device_scan_attempts,
*args, **kwargs)
elif protocol == "ISER":
return ISERConnector(root_helper=root_helper,
driver=driver,
execute=execute,
use_multipath=use_multipath,
device_scan_attempts=device_scan_attempts,
*args, **kwargs)
elif protocol == "FIBRE_CHANNEL":
if arch in (S390, S390X):
return FibreChannelConnectorS390X(
root_helper=root_helper,
driver=driver,
execute=execute,
use_multipath=use_multipath,
device_scan_attempts=device_scan_attempts,
*args, **kwargs)
else:
return FibreChannelConnector(
root_helper=root_helper,
driver=driver,
execute=execute,
use_multipath=use_multipath,
device_scan_attempts=device_scan_attempts,
*args, **kwargs)
elif protocol == "AOE":
return AoEConnector(root_helper=root_helper,
driver=driver,
execute=execute,
device_scan_attempts=device_scan_attempts,
*args, **kwargs)
elif protocol == "NFS" or protocol == "GLUSTERFS":
return RemoteFsConnector(mount_type=protocol.lower(),
root_helper=root_helper,
driver=driver,
execute=execute,
device_scan_attempts=device_scan_attempts,
*args, **kwargs)
elif protocol == "LOCAL":
return LocalConnector(root_helper=root_helper,
driver=driver,
execute=execute,
device_scan_attempts=device_scan_attempts,
*args, **kwargs)
elif protocol == "HUAWEISDSHYPERVISOR":
return HuaweiStorHyperConnector(
root_helper=root_helper,
driver=driver,
execute=execute,
device_scan_attempts=device_scan_attempts,
*args, **kwargs)
else:
msg = (_("Invalid InitiatorConnector protocol "
"specified %(protocol)s") %
dict(protocol=protocol))
raise ValueError(msg)
def check_valid_device(self, path, run_as_root=True):
cmd = ('dd', 'if=%(path)s' % {"path": path},
'of=/dev/null', 'count=1')
out, info = None, None
try:
out, info = self._execute(*cmd, run_as_root=run_as_root,
root_helper=self._root_helper)
except putils.ProcessExecutionError as e:
LOG.error(_LE("Failed to access the device on the path "
"%(path)s: %(error)s %(info)s."),
{"path": path, "error": e.stderr,
"info": info})
return False
# If the info is none, the path does not exist.
if info is None:
return False
return True
def connect_volume(self, connection_properties):
"""Connect to a volume.
The connection_properties describes the information needed by
the specific protocol to use to make the connection.
"""
raise NotImplementedError()
def disconnect_volume(self, connection_properties, device_info):
"""Disconnect a volume from the local host.
The connection_properties are the same as from connect_volume.
The device_info is returned from connect_volume.
"""
raise NotImplementedError()
class ISCSIConnector(InitiatorConnector):
"""Connector class to attach/detach iSCSI volumes."""
def __init__(self, root_helper, driver=None,
execute=putils.execute, use_multipath=False,
device_scan_attempts=DEVICE_SCAN_ATTEMPTS_DEFAULT,
*args, **kwargs):
self._linuxscsi = linuxscsi.LinuxSCSI(root_helper, execute)
super(ISCSIConnector, self).__init__(
root_helper, driver=driver,
execute=execute,
device_scan_attempts=device_scan_attempts,
*args, **kwargs)
self.use_multipath = use_multipath
def set_execute(self, execute):
super(ISCSIConnector, self).set_execute(execute)
self._linuxscsi.set_execute(execute)
def _iterate_all_targets(self, connection_properties):
for ip, iqn, lun in self._get_all_targets(connection_properties):
props = copy.deepcopy(connection_properties)
props['target_portal'] = ip
props['target_iqn'] = iqn
props['target_lun'] = lun
for key in ('target_portals', 'target_iqns', 'target_luns'):
props.pop(key, None)
yield props
def _get_all_targets(self, connection_properties):
if all([key in connection_properties for key in ('target_portals',
'target_iqns',
'target_luns')]):
return zip(connection_properties['target_portals'],
connection_properties['target_iqns'],
connection_properties['target_luns'])
return [(connection_properties['target_portal'],
connection_properties['target_iqn'],
connection_properties.get('target_lun', 0))]
def _discover_iscsi_portals(self, connection_properties):
if all([key in connection_properties for key in ('target_portals',
'target_iqns')]):
# Use targets specified by connection_properties
return zip(connection_properties['target_portals'],
connection_properties['target_iqns'])
# Discover and return every available target
out = self._run_iscsiadm_bare(['-m',
'discovery',
'-t',
'sendtargets',
'-p',
connection_properties['target_portal']],
check_exit_code=[0, 255])[0] \
or ""
return self._get_target_portals_from_iscsiadm_output(out)
@synchronized('connect_volume')
def connect_volume(self, connection_properties):
"""Attach the volume to instance_name.
connection_properties for iSCSI must include:
target_portal(s) - ip and optional port
target_iqn(s) - iSCSI Qualified Name
target_lun(s) - LUN id of the volume
Note that plural keys may be used when use_multipath=True
"""
device_info = {'type': 'block'}
if self.use_multipath:
# Multipath installed, discovering other targets if available
ips_iqns = self._discover_iscsi_portals(connection_properties)
if not connection_properties.get('target_iqns'):
# There are two types of iSCSI multipath devices. One which
# shares the same iqn between multiple portals, and the other
# which use different iqns on different portals.
# Try to identify the type by checking the iscsiadm output
# if the iqn is used by multiple portals. If it is, it's
# the former, so use the supplied iqn. Otherwise, it's the
# latter, so try the ip,iqn combinations to find the targets
# which constitutes the multipath device.
main_iqn = connection_properties['target_iqn']
all_portals = set([ip for ip, iqn in ips_iqns])
match_portals = set([ip for ip, iqn in ips_iqns
if iqn == main_iqn])
if len(all_portals) == len(match_portals):
ips_iqns = zip(all_portals, [main_iqn] * len(all_portals))
for ip, iqn in ips_iqns:
props = copy.deepcopy(connection_properties)
props['target_portal'] = ip
props['target_iqn'] = iqn
self._connect_to_iscsi_portal(props)
self._rescan_iscsi()
host_devices = self._get_device_path(connection_properties)
else:
target_props = connection_properties
for props in self._iterate_all_targets(connection_properties):
if self._connect_to_iscsi_portal(props):
target_props = props
break
else:
LOG.warning(_LW(
'Failed to login to any of the iSCSI targets.'))
host_devices = self._get_device_path(target_props)
# The /dev/disk/by-path/... node is not always present immediately
# TODO(justinsb): This retry-with-delay is a pattern, move to utils?
tries = 0
# Loop until at least 1 path becomes available
while all(map(lambda x: not os.path.exists(x), host_devices)):
if tries >= self.device_scan_attempts:
raise exception.VolumeDeviceNotFound(device=host_devices)
LOG.warning(_LW("ISCSI volume not yet found at: %(host_devices)s. "
"Will rescan & retry. Try number: %(tries)s"),
{'host_devices': host_devices,
'tries': tries})
# The rescan isn't documented as being necessary(?), but it helps
if self.use_multipath:
self._rescan_iscsi()
else:
self._run_iscsiadm(target_props, ("--rescan",))
tries = tries + 1
if all(map(lambda x: not os.path.exists(x), host_devices)):
time.sleep(tries ** 2)
else:
break
if tries != 0:
LOG.debug("Found iSCSI node %(host_devices)s "
"(after %(tries)s rescans)",
{'host_devices': host_devices, 'tries': tries})
# Choose an accessible host device
host_device = next(dev for dev in host_devices if os.path.exists(dev))
if self.use_multipath:
# We use the multipath device instead of the single path device
self._rescan_multipath()
multipath_device = self._get_multipath_device_name(host_device)
if multipath_device is not None:
host_device = multipath_device
device_info['path'] = host_device
return device_info
@synchronized('connect_volume')
def disconnect_volume(self, connection_properties, device_info):
"""Detach the volume from instance_name.
connection_properties for iSCSI must include:
target_portal(s) - IP and optional port
target_iqn(s) - iSCSI Qualified Name
target_lun(s) - LUN id of the volume
"""
# Moved _rescan_iscsi and _rescan_multipath
# from _disconnect_volume_multipath_iscsi to here.
# Otherwise, if we do rescan after _linuxscsi.remove_multipath_device
# but before logging out, the removed devices under /dev/disk/by-path
# will reappear after rescan.
self._rescan_iscsi()
if self.use_multipath:
self._rescan_multipath()
host_device = multipath_device = None
host_devices = self._get_device_path(connection_properties)
# Choose an accessible host device
for dev in host_devices:
if os.path.exists(dev):
host_device = dev
multipath_device = self._get_multipath_device_name(dev)
if multipath_device:
break
if not host_device:
LOG.error(_LE("No accessible volume device: %(host_devices)s"),
{'host_devices': host_devices})
raise exception.VolumeDeviceNotFound(device=host_devices)
if multipath_device:
device_realpath = os.path.realpath(host_device)
self._linuxscsi.remove_multipath_device(device_realpath)
return self._disconnect_volume_multipath_iscsi(
connection_properties, multipath_device)
# When multiple portals/iqns/luns are specified, we need to remove
# unused devices created by logging into other LUNs' session.
for props in self._iterate_all_targets(connection_properties):
self._disconnect_volume_iscsi(props)
def _disconnect_volume_iscsi(self, connection_properties):
# remove the device from the scsi subsystem
# this eliminates any stale entries until logout
host_device = self._get_device_path(connection_properties)[0]
dev_name = self._linuxscsi.get_name_from_path(host_device)
if dev_name:
self._linuxscsi.remove_scsi_device(dev_name)
# NOTE(jdg): On busy systems we can have a race here
# where remove_iscsi_device is called before the device file
# has actually been removed. The result is an orphaned
# iscsi session that never gets logged out. The following
# call to wait addresses that issue.
self._linuxscsi.wait_for_volume_removal(host_device)
# NOTE(vish): Only disconnect from the target if no luns from the
# target are in use.
device_prefix = ("/dev/disk/by-path/ip-%(portal)s-iscsi-%(iqn)s-lun-" %
{'portal': connection_properties['target_portal'],
'iqn': connection_properties['target_iqn']})
devices = self.driver.get_all_block_devices()
devices = [dev for dev in devices if dev.startswith(device_prefix)
and os.path.exists(dev)]
if not devices:
self._disconnect_from_iscsi_portal(connection_properties)
def _get_device_path(self, connection_properties):
return ["/dev/disk/by-path/ip-%s-iscsi-%s-lun-%s" % x for x in
self._get_all_targets(connection_properties)]
def get_initiator(self):
"""Secure helper to read file as root."""
file_path = '/etc/iscsi/initiatorname.iscsi'
try:
lines, _err = self._execute('cat', file_path, run_as_root=True,
root_helper=self._root_helper)
for l in lines.split('\n'):
if l.startswith('InitiatorName='):
return l[l.index('=') + 1:].strip()
except putils.ProcessExecutionError:
LOG.warning(_LW("Could not find the iSCSI Initiator File %s"),
file_path)
return None
def _run_iscsiadm(self, connection_properties, iscsi_command, **kwargs):
check_exit_code = kwargs.pop('check_exit_code', 0)
attempts = kwargs.pop('attempts', 1)
delay_on_retry = kwargs.pop('delay_on_retry', True)
(out, err) = self._execute('iscsiadm', '-m', 'node', '-T',
connection_properties['target_iqn'],
'-p',
connection_properties['target_portal'],
*iscsi_command, run_as_root=True,
root_helper=self._root_helper,
check_exit_code=check_exit_code,
attempts=attempts,
delay_on_retry=delay_on_retry)
msg = ("iscsiadm %(iscsi_command)s: stdout=%(out)s stderr=%(err)s",
{'iscsi_command': iscsi_command, 'out': out, 'err': err})
# don't let passwords be shown in log output
LOG.debug(strutils.mask_password(msg))
return (out, err)
def _iscsiadm_update(self, connection_properties, property_key,
property_value, **kwargs):
iscsi_command = ('--op', 'update', '-n', property_key,
'-v', property_value)
return self._run_iscsiadm(connection_properties, iscsi_command,
**kwargs)
def _get_target_portals_from_iscsiadm_output(self, output):
# return both portals and iqns
#
# as we are parsing a command line utility, allow for the
# possibility that additional debug data is spewed in the
# stream, and only grab actual ip / iqn lines.
targets = []
for data in [line.split() for line in output.splitlines()]:
if len(data) == 2 and data[1].startswith('iqn.'):
targets.append(data)
return targets
def _disconnect_volume_multipath_iscsi(self, connection_properties,
multipath_name):
"""This removes a multipath device and it's LUNs."""
LOG.debug("Disconnect multipath device %s", multipath_name)
block_devices = self.driver.get_all_block_devices()
devices = []
for dev in block_devices:
if os.path.exists(dev):
if "/mapper/" in dev:
devices.append(dev)
else:
mpdev = self._get_multipath_device_name(dev)
if mpdev:
devices.append(mpdev)
# Do a discovery to find all targets.
# Targets for multiple paths for the same multipath device
# may not be the same.
all_ips_iqns = self._discover_iscsi_portals(connection_properties)
# As discovery result may contain other targets' iqns, extract targets
# to be disconnected whose block devices are already deleted here.
ips_iqns = []
entries = map(lambda x: x.lstrip('ip-').split('-lun-')[0],
self._get_iscsi_devices())
for ip, iqn in all_ips_iqns:
ip_iqn = "%s-iscsi-%s" % (ip.split(",")[0], iqn)
if ip_iqn not in entries:
ips_iqns.append([ip, iqn])
if not devices:
# disconnect if no other multipath devices
self._disconnect_mpath(connection_properties, ips_iqns)
return
# Get a target for all other multipath devices
other_iqns = [self._get_multipath_iqn(device)
for device in devices]
# Get all the targets for the current multipath device
current_iqns = [iqn for ip, iqn in ips_iqns]
in_use = False
for current in current_iqns:
if current in other_iqns:
in_use = True
break
# If no other multipath device attached has the same iqn
# as the current device
if not in_use:
# disconnect if no other multipath devices with same iqn
self._disconnect_mpath(connection_properties, ips_iqns)
return
# else do not disconnect iscsi portals,
# as they are used for other luns
return
def _connect_to_iscsi_portal(self, connection_properties):
# NOTE(vish): If we are on the same host as nova volume, the
# discovery makes the target so we don't need to
# run --op new. Therefore, we check to see if the
# target exists, and if we get 255 (Not Found), then
# we run --op new. This will also happen if another
# volume is using the same target.
try:
self._run_iscsiadm(connection_properties, ())
except putils.ProcessExecutionError as exc:
# iscsiadm returns 21 for "No records found" after version 2.0-871
if exc.exit_code in [21, 255]:
self._run_iscsiadm(connection_properties, ('--op', 'new'))
else:
raise
if connection_properties.get('auth_method'):
self._iscsiadm_update(connection_properties,
"node.session.auth.authmethod",
connection_properties['auth_method'])
self._iscsiadm_update(connection_properties,
"node.session.auth.username",
connection_properties['auth_username'])
self._iscsiadm_update(connection_properties,
"node.session.auth.password",
connection_properties['auth_password'])
# Duplicate logins crash iscsiadm after load,
# so we scan active sessions to see if the node is logged in.
out = self._run_iscsiadm_bare(["-m", "session"],
run_as_root=True,
check_exit_code=[0, 1, 21])[0] or ""
portals = [{'portal': p.split(" ")[2], 'iqn': p.split(" ")[3]}
for p in out.splitlines() if p.startswith("tcp:")]
stripped_portal = connection_properties['target_portal'].split(",")[0]
if len(portals) == 0 or len([s for s in portals
if stripped_portal ==
s['portal'].split(",")[0]
and
s['iqn'] ==
connection_properties['target_iqn']]
) == 0:
try:
self._run_iscsiadm(connection_properties,
("--login",),
check_exit_code=[0, 255])
except putils.ProcessExecutionError as err:
# exit_code=15 means the session already exists, so it should
# be regarded as successful login.
if err.exit_code not in [15]:
LOG.warning(_LW('Failed to login iSCSI target %(iqn)s '
'on portal %(portal)s (exit code '
'%(err)s).'),
{'iqn': connection_properties['target_iqn'],
'portal': connection_properties[
'target_portal'],
'err': err.exit_code})
return False
self._iscsiadm_update(connection_properties,
"node.startup",
"automatic")
return True
def _disconnect_from_iscsi_portal(self, connection_properties):
self._iscsiadm_update(connection_properties, "node.startup", "manual",
check_exit_code=[0, 21, 255])
self._run_iscsiadm(connection_properties, ("--logout",),
check_exit_code=[0, 21, 255])
self._run_iscsiadm(connection_properties, ('--op', 'delete'),
check_exit_code=[0, 21, 255],
attempts=5,
delay_on_retry=True)
def _get_multipath_device_name(self, single_path_device):
device = os.path.realpath(single_path_device)
out = self._run_multipath(['-ll',
device],
check_exit_code=[0, 1])[0]
mpath_line = [line for line in out.splitlines()
if not re.match(MULTIPATH_ERROR_REGEX, line)]
if len(mpath_line) > 0 and len(mpath_line[0]) > 0:
return "/dev/mapper/%s" % mpath_line[0].split(" ")[0]
return None
def _get_iscsi_devices(self):
try:
devices = list(os.walk('/dev/disk/by-path'))[0][-1]
except IndexError:
return []
return [entry for entry in devices if entry.startswith("ip-")]
def _disconnect_mpath(self, connection_properties, ips_iqns):
for ip, iqn in ips_iqns:
props = copy.deepcopy(connection_properties)
props['target_portal'] = ip
props['target_iqn'] = iqn
self._disconnect_from_iscsi_portal(props)
self._rescan_multipath()
def _get_multipath_iqn(self, multipath_device):
entries = self._get_iscsi_devices()
for entry in entries:
entry_real_path = os.path.realpath("/dev/disk/by-path/%s" % entry)
entry_multipath = self._get_multipath_device_name(entry_real_path)
if entry_multipath == multipath_device:
return entry.split("iscsi-")[1].split("-lun")[0]
return None
def _run_iscsiadm_bare(self, iscsi_command, **kwargs):
check_exit_code = kwargs.pop('check_exit_code', 0)
(out, err) = self._execute('iscsiadm',
*iscsi_command,
run_as_root=True,
root_helper=self._root_helper,
check_exit_code=check_exit_code)
LOG.debug("iscsiadm %(iscsi_command)s: stdout=%(out)s stderr=%(err)s",
{'iscsi_command': iscsi_command, 'out': out, 'err': err})
return (out, err)
def _run_multipath(self, multipath_command, **kwargs):
check_exit_code = kwargs.pop('check_exit_code', 0)
(out, err) = self._execute('multipath',
*multipath_command,
run_as_root=True,
root_helper=self._root_helper,
check_exit_code=check_exit_code)
LOG.debug("multipath %(multipath_command)s: "
"stdout=%(out)s stderr=%(err)s",
{'multipath_command': multipath_command,
'out': out, 'err': err})
return (out, err)
def _rescan_iscsi(self):
self._run_iscsiadm_bare(('-m', 'node', '--rescan'),
check_exit_code=[0, 1, 21, 255])
self._run_iscsiadm_bare(('-m', 'session', '--rescan'),
check_exit_code=[0, 1, 21, 255])
def _rescan_multipath(self):
self._run_multipath(['-r'], check_exit_code=[0, 1, 21])
class ISERConnector(ISCSIConnector):
def _get_device_path(self, iser_properties):
return ("/dev/disk/by-path/ip-%s-iser-%s-lun-%s" %
(iser_properties['target_portal'],
iser_properties['target_iqn'],
iser_properties.get('target_lun', 0)))
class FibreChannelConnector(InitiatorConnector):
"""Connector class to attach/detach Fibre Channel volumes."""
def __init__(self, root_helper, driver=None,
execute=putils.execute, use_multipath=False,
device_scan_attempts=DEVICE_SCAN_ATTEMPTS_DEFAULT,
*args, **kwargs):
self._linuxscsi = linuxscsi.LinuxSCSI(root_helper, execute)
self._linuxfc = linuxfc.LinuxFibreChannel(root_helper, execute)
super(FibreChannelConnector, self).__init__(
root_helper, driver=driver,
execute=execute,
device_scan_attempts=device_scan_attempts,
*args, **kwargs)
self.use_multipath = use_multipath
def set_execute(self, execute):
super(FibreChannelConnector, self).set_execute(execute)
self._linuxscsi.set_execute(execute)
self._linuxfc.set_execute(execute)
@synchronized('connect_volume')
def connect_volume(self, connection_properties):
"""Attach the volume to instance_name.
connection_properties for Fibre Channel must include:
target_portal - ip and optional port
target_iqn - iSCSI Qualified Name
target_lun - LUN id of the volume
"""
LOG.debug("execute = %s", self._execute)
device_info = {'type': 'block'}
hbas = self._linuxfc.get_fc_hbas_info()
ports = connection_properties['target_wwn']
possible_devs = self._get_possible_devices(hbas, ports)
lun = connection_properties.get('target_lun', 0)
host_devices = self._get_host_devices(possible_devs, lun)
if len(host_devices) == 0:
# this is empty because we don't have any FC HBAs
LOG.warning(
_LW("We are unable to locate any Fibre Channel devices"))
raise exception.NoFibreChannelHostsFound()
# The /dev/disk/by-path/... node is not always present immediately
# We only need to find the first device. Once we see the first device
# multipath will have any others.
def _wait_for_device_discovery(host_devices):
tries = self.tries
for device in host_devices:
LOG.debug("Looking for Fibre Channel dev %(device)s",
{'device': device})
if os.path.exists(device):
self.host_device = device
# get the /dev/sdX device. This is used
# to find the multipath device.
self.device_name = os.path.realpath(device)
raise loopingcall.LoopingCallDone()
if self.tries >= self.device_scan_attempts:
LOG.error(_LE("Fibre Channel volume device not found."))
raise exception.NoFibreChannelVolumeDeviceFound()
LOG.warning(_LW("Fibre volume not yet found. "
"Will rescan & retry. Try number: %(tries)s"),
{'tries': tries})
self._linuxfc.rescan_hosts(hbas)
self.tries = self.tries + 1
self.host_device = None
self.device_name = None
self.tries = 0
timer = loopingcall.FixedIntervalLoopingCall(
_wait_for_device_discovery, host_devices)
timer.start(interval=2).wait()
tries = self.tries
if self.host_device is not None and self.device_name is not None:
LOG.debug("Found Fibre Channel volume %(name)s "
"(after %(tries)s rescans)",
{'name': self.device_name, 'tries': tries})
# see if the new drive is part of a multipath
# device. If so, we'll use the multipath device.
if self.use_multipath:
mdev_info = self._linuxscsi.find_multipath_device(self.device_name)
if mdev_info is not None:
LOG.debug("Multipath device discovered %(device)s",
{'device': mdev_info['device']})
device_path = mdev_info['device']
devices = mdev_info['devices']
device_info['multipath_id'] = mdev_info['id']
else:
# we didn't find a multipath device.
# so we assume the kernel only sees 1 device
device_path = self.host_device
dev_info = self._linuxscsi.get_device_info(self.device_name)
devices = [dev_info]
else:
device_path = self.host_device
dev_info = self._linuxscsi.get_device_info(self.device_name)
devices = [dev_info]
device_info['path'] = device_path
device_info['devices'] = devices
return device_info
def _get_host_devices(self, possible_devs, lun):
host_devices = []
for pci_num, target_wwn in possible_devs:
host_device = "/dev/disk/by-path/pci-%s-fc-%s-lun-%s" % (
pci_num,
target_wwn,
lun)
host_devices.append(host_device)
return host_devices
def _get_possible_devices(self, hbas, wwnports):
"""Compute the possible valid fibre channel device options.
:param hbas: available hba devices.
:param wwnports: possible wwn addresses. Can either be string
or list of strings.
:returns: list of (pci_id, wwn) tuples
Given one or more wwn (mac addresses for fibre channel) ports
do the matrix math to figure out a set of pci device, wwn
tuples that are potentially valid (they won't all be). This
provides a search space for the device connection.
"""
# the wwn (think mac addresses for fiber channel devices) can
# either be a single value or a list. Normalize it to a list
# for further operations.
wwns = []
if isinstance(wwnports, list):
for wwn in wwnports:
wwns.append(str(wwn))
elif isinstance(wwnports, six.string_types):
wwns.append(str(wwnports))
raw_devices = []
for hba in hbas:
pci_num = self._get_pci_num(hba)
if pci_num is not None:
for wwn in wwns:
target_wwn = "0x%s" % wwn.lower()
raw_devices.append((pci_num, target_wwn))
return raw_devices
@synchronized('connect_volume')
def disconnect_volume(self, connection_properties, device_info):
"""Detach the volume from instance_name.
connection_properties for Fibre Channel must include:
target_wwn - iSCSI Qualified Name
target_lun - LUN id of the volume
"""
devices = device_info['devices']
# If this is a multipath device, we need to search again
# and make sure we remove all the devices. Some of them
# might not have shown up at attach time.
if self.use_multipath and 'multipath_id' in device_info:
multipath_id = device_info['multipath_id']
mdev_info = self._linuxscsi.find_multipath_device(multipath_id)
devices = mdev_info['devices']
LOG.debug("devices to remove = %s", devices)
self._linuxscsi.flush_multipath_device(multipath_id)
self._remove_devices(connection_properties, devices)
def _remove_devices(self, connection_properties, devices):
# There may have been more than 1 device mounted
# by the kernel for this volume. We have to remove
# all of them
for device in devices:
self._linuxscsi.remove_scsi_device(device["device"])
def _get_pci_num(self, hba):
# NOTE(walter-boring)
# device path is in format of
# /sys/devices/pci0000:00/0000:00:03.0/0000:05:00.3/host2/fc_host/host2
# sometimes an extra entry exists before the host2 value
# we always want the value prior to the host2 value
pci_num = None
if hba is not None:
if "device_path" in hba:
index = 0
device_path = hba['device_path'].split('/')
for value in device_path:
if value.startswith('host'):
break
index = index + 1
if index > 0:
pci_num = device_path[index - 1]
return pci_num
class FibreChannelConnectorS390X(FibreChannelConnector):
"""Connector class to attach/detach Fibre Channel volumes on S390X arch."""
def __init__(self, root_helper, driver=None,
execute=putils.execute, use_multipath=False,
device_scan_attempts=DEVICE_SCAN_ATTEMPTS_DEFAULT,
*args, **kwargs):
super(FibreChannelConnectorS390X, self).__init__(
root_helper,
driver=driver,
execute=execute,
device_scan_attempts=device_scan_attempts,
*args, **kwargs)
LOG.debug("Initializing Fibre Channel connector for S390")
self._linuxscsi = linuxscsi.LinuxSCSI(root_helper, execute)
self._linuxfc = linuxfc.LinuxFibreChannelS390X(root_helper, execute)
self.use_multipath = use_multipath
def set_execute(self, execute):
super(FibreChannelConnectorS390X, self).set_execute(execute)
self._linuxscsi.set_execute(execute)
self._linuxfc.set_execute(execute)
def _get_host_devices(self, possible_devs, lun):
host_devices = []
for pci_num, target_wwn in possible_devs:
target_lun = self._get_lun_string(lun)
host_device = self._get_device_file_path(
pci_num,
target_wwn,
target_lun)
self._linuxfc.configure_scsi_device(pci_num, target_wwn,
target_lun)
host_devices.append(host_device)
return host_devices
def _get_lun_string(self, lun):
target_lun = 0
if lun < 256:
target_lun = "0x00%02x000000000000" % lun
elif lun <= 0xffffffff:
target_lun = "0x%08x00000000" % lun
return target_lun
def _get_device_file_path(self, pci_num, target_wwn, target_lun):
host_device = "/dev/disk/by-path/ccw-%s-zfcp-%s:%s" % (
pci_num,
target_wwn,
target_lun)
return host_device
def _remove_devices(self, connection_properties, devices):
hbas = self._linuxfc.get_fc_hbas_info()
ports = connection_properties['target_wwn']
possible_devs = self._get_possible_devices(hbas, ports)
lun = connection_properties.get('target_lun', 0)
target_lun = self._get_lun_string(lun)
for pci_num, target_wwn in possible_devs:
self._linuxfc.deconfigure_scsi_device(pci_num,
target_wwn,
target_lun)
class AoEConnector(InitiatorConnector):
"""Connector class to attach/detach AoE volumes."""
def __init__(self, root_helper, driver=None,
execute=putils.execute,
device_scan_attempts=DEVICE_SCAN_ATTEMPTS_DEFAULT,
*args, **kwargs):
super(AoEConnector, self).__init__(
root_helper,
driver=driver,
execute=execute,
device_scan_attempts=device_scan_attempts,
*args, **kwargs)
def _get_aoe_info(self, connection_properties):
shelf = connection_properties['target_shelf']
lun = connection_properties['target_lun']
aoe_device = 'e%(shelf)s.%(lun)s' % {'shelf': shelf,
'lun': lun}
aoe_path = '/dev/etherd/%s' % (aoe_device)
return aoe_device, aoe_path
@lockutils.synchronized('aoe_control', 'aoe-')
def connect_volume(self, connection_properties):
"""Discover and attach the volume.
connection_properties for AoE must include:
target_shelf - shelf id of volume
target_lun - lun id of volume
"""
aoe_device, aoe_path = self._get_aoe_info(connection_properties)
device_info = {
'type': 'block',
'device': aoe_device,
'path': aoe_path,
}
if os.path.exists(aoe_path):
self._aoe_revalidate(aoe_device)
else:
self._aoe_discover()
waiting_status = {'tries': 0}
# NOTE(jbr_): Device path is not always present immediately
def _wait_for_discovery(aoe_path):
if os.path.exists(aoe_path):
raise loopingcall.LoopingCallDone
if waiting_status['tries'] >= self.device_scan_attempts:
raise exception.VolumeDeviceNotFound(device=aoe_path)
LOG.warning(_LW("AoE volume not yet found at: %(path)s. "
"Try number: %(tries)s"),
{'path': aoe_device,
'tries': waiting_status['tries']})
self._aoe_discover()
waiting_status['tries'] += 1
timer = loopingcall.FixedIntervalLoopingCall(_wait_for_discovery,
aoe_path)
timer.start(interval=2).wait()
if waiting_status['tries']:
LOG.debug("Found AoE device %(path)s "
"(after %(tries)s rediscover)",
{'path': aoe_path,
'tries': waiting_status['tries']})
return device_info
@lockutils.synchronized('aoe_control', 'aoe-')
def disconnect_volume(self, connection_properties, device_info):
"""Detach and flush the volume.
connection_properties for AoE must include:
target_shelf - shelf id of volume
target_lun - lun id of volume
"""
aoe_device, aoe_path = self._get_aoe_info(connection_properties)
if os.path.exists(aoe_path):
self._aoe_flush(aoe_device)
def _aoe_discover(self):
(out, err) = self._execute('aoe-discover',
run_as_root=True,
root_helper=self._root_helper,
check_exit_code=0)
LOG.debug('aoe-discover: stdout=%(out)s stderr%(err)s',
{'out': out, 'err': err})
def _aoe_revalidate(self, aoe_device):
(out, err) = self._execute('aoe-revalidate',
aoe_device,
run_as_root=True,
root_helper=self._root_helper,
check_exit_code=0)
LOG.debug('aoe-revalidate %(dev)s: stdout=%(out)s stderr%(err)s',
{'dev': aoe_device, 'out': out, 'err': err})
def _aoe_flush(self, aoe_device):
(out, err) = self._execute('aoe-flush',
aoe_device,
run_as_root=True,
root_helper=self._root_helper,
check_exit_code=0)
LOG.debug('aoe-flush %(dev)s: stdout=%(out)s stderr%(err)s',
{'dev': aoe_device, 'out': out, 'err': err})
class RemoteFsConnector(InitiatorConnector):
"""Connector class to attach/detach NFS and GlusterFS volumes."""
def __init__(self, mount_type, root_helper, driver=None,
execute=putils.execute,
device_scan_attempts=DEVICE_SCAN_ATTEMPTS_DEFAULT,
*args, **kwargs):
kwargs = kwargs or {}
conn = kwargs.get('conn')
if conn:
mount_point_base = conn.get('mount_point_base')
if mount_type.lower() == 'nfs':
kwargs['nfs_mount_point_base'] =\
kwargs.get('nfs_mount_point_base') or\
mount_point_base
elif mount_type.lower() == 'glusterfs':
kwargs['glusterfs_mount_point_base'] =\
kwargs.get('glusterfs_mount_point_base') or\
mount_point_base
else:
LOG.warning(_LW("Connection details not present."
" RemoteFsClient may not initialize properly."))
self._remotefsclient = remotefs.RemoteFsClient(mount_type, root_helper,
execute=execute,
*args, **kwargs)
super(RemoteFsConnector, self).__init__(
root_helper, driver=driver,
execute=execute,
device_scan_attempts=device_scan_attempts,
*args, **kwargs)
def set_execute(self, execute):
super(RemoteFsConnector, self).set_execute(execute)
self._remotefsclient.set_execute(execute)
def connect_volume(self, connection_properties):
"""Ensure that the filesystem containing the volume is mounted.
connection_properties must include:
export - remote filesystem device (e.g. '172.18.194.100:/var/nfs')
name - file name within the filesystem
connection_properties may optionally include:
options - options to pass to mount
"""
mnt_flags = []
if connection_properties.get('options'):
mnt_flags = connection_properties['options'].split()
nfs_share = connection_properties['export']
self._remotefsclient.mount(nfs_share, mnt_flags)
mount_point = self._remotefsclient.get_mount_point(nfs_share)
path = mount_point + '/' + connection_properties['name']
return {'path': path}
def disconnect_volume(self, connection_properties, device_info):
"""No need to do anything to disconnect a volume in a filesystem."""
class LocalConnector(InitiatorConnector):
""""Connector class to attach/detach File System backed volumes."""
def __init__(self, root_helper, driver=None, execute=putils.execute,
*args, **kwargs):
super(LocalConnector, self).__init__(root_helper, driver=driver,
execute=execute, *args, **kwargs)
def connect_volume(self, connection_properties):
"""Connect to a volume.
connection_properties must include:
device_path - path to the volume to be connected
"""
if 'device_path' not in connection_properties:
msg = (_("Invalid connection_properties specified "
"no device_path attribute"))
raise ValueError(msg)
device_info = {'type': 'local',
'path': connection_properties['device_path']}
return device_info
def disconnect_volume(self, connection_properties, device_info):
"""Disconnect a volume from the local host."""
pass
class HuaweiStorHyperConnector(InitiatorConnector):
""""Connector class to attach/detach SDSHypervisor volumes."""
attached_success_code = 0
has_been_attached_code = 50151401
attach_mnid_done_code = 50151405
vbs_unnormal_code = 50151209
not_mount_node_code = 50155007
iscliexist = True
def __init__(self, root_helper, driver=None, execute=putils.execute,
*args, **kwargs):
self.cli_path = os.getenv('HUAWEISDSHYPERVISORCLI_PATH')
if not self.cli_path:
self.cli_path = '/usr/local/bin/sds/sds_cli'
LOG.debug("CLI path is not configured, using default %s.",
self.cli_path)
if not os.path.isfile(self.cli_path):
self.iscliexist = False
LOG.error(_LE('SDS CLI file not found, '
'HuaweiStorHyperConnector init failed.'))
super(HuaweiStorHyperConnector, self).__init__(root_helper,
driver=driver,
execute=execute,
*args, **kwargs)
@synchronized('connect_volume')
def connect_volume(self, connection_properties):
"""Connect to a volume."""
LOG.debug("Connect_volume connection properties: %s.",
connection_properties)
out = self._attach_volume(connection_properties['volume_id'])
if not out or int(out['ret_code']) not in (self.attached_success_code,
self.has_been_attached_code,
self.attach_mnid_done_code):
msg = (_("Attach volume failed, "
"error code is %s") % out['ret_code'])
raise exception.BrickException(message=msg)
out = self._query_attached_volume(
connection_properties['volume_id'])
if not out or int(out['ret_code']) != 0:
msg = _("query attached volume failed or volume not attached.")
raise exception.BrickException(message=msg)
device_info = {'type': 'block',
'path': out['dev_addr']}
return device_info
@synchronized('connect_volume')
def disconnect_volume(self, connection_properties, device_info):
"""Disconnect a volume from the local host."""
LOG.debug("Disconnect_volume: %s.", connection_properties)
out = self._detach_volume(connection_properties['volume_id'])
if not out or int(out['ret_code']) not in (self.attached_success_code,
self.vbs_unnormal_code,
self.not_mount_node_code):
msg = (_("Disconnect_volume failed, "
"error code is %s") % out['ret_code'])
raise exception.BrickException(message=msg)
def is_volume_connected(self, volume_name):
"""Check if volume already connected to host"""
LOG.debug('Check if volume %s already connected to a host.',
volume_name)
out = self._query_attached_volume(volume_name)
if out:
return int(out['ret_code']) == 0
return False
def _attach_volume(self, volume_name):
return self._cli_cmd('attach', volume_name)
def _detach_volume(self, volume_name):
return self._cli_cmd('detach', volume_name)
def _query_attached_volume(self, volume_name):
return self._cli_cmd('querydev', volume_name)
def _cli_cmd(self, method, volume_name):
LOG.debug("Enter into _cli_cmd.")
if not self.iscliexist:
msg = _("SDS command line doesn't exist, "
"can't execute SDS command.")
raise exception.BrickException(message=msg)
if not method or volume_name is None:
return
cmd = [self.cli_path, '-c', method, '-v', volume_name]
out, clilog = self._execute(*cmd, run_as_root=False,
root_helper=self._root_helper)
analyse_result = self._analyze_output(out)
LOG.debug('%(method)s volume returns %(analyse_result)s.',
{'method': method, 'analyse_result': analyse_result})
if clilog:
LOG.error(_LE("SDS CLI output some log: %s."), clilog)
return analyse_result
def _analyze_output(self, out):
LOG.debug("Enter into _analyze_output.")
if out:
analyse_result = {}
out_temp = out.split('\n')
for line in out_temp:
LOG.debug("Line is %s.", line)
if line.find('=') != -1:
key, val = line.split('=', 1)
LOG.debug("%(key)s = %(val)s", {'key': key, 'val': val})
if key in ['ret_code', 'ret_desc', 'dev_addr']:
analyse_result[key] = val
return analyse_result
else:
return None
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