openstack/os-brick
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a82b2ffce5
os-brick/os_brick/initiator/linuxfc.py
Rajat Dhasmana 22830d7077 nit: correct spelling of Rescanning in debug log 
Change-Id: Iba31b709ef0009891d0098600387e3fe6b1af26d
2022-09-24 18:48:14 +00:00

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Python
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# (c) Copyright 2013 Hewlett-Packard Development Company, L.P.
#
# 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.
"""Generic linux Fibre Channel utilities."""
from __future__ import annotations
import glob
import os
from typing import Iterable
from oslo_concurrency import processutils as putils
from oslo_log import log as logging
from os_brick.initiator import linuxscsi
LOG = logging.getLogger(__name__)
class LinuxFibreChannel(linuxscsi.LinuxSCSI):
FC_HOST_SYSFS_PATH = '/sys/class/fc_host'
# Only load the sysfs attributes we care about
HBA_ATTRIBUTES = ('port_name', 'node_name', 'port_state')
def _get_hba_channel_scsi_target_lun(self, hba, conn_props):
"""Get HBA channels, SCSI targets, LUNs to FC targets for given HBA.
Given an HBA and the connection properties we look for the HBA channels
and SCSI targets for each of the FC targets that this HBA has been
granted permission to connect.
For drivers that don't return an initiator to target map we try to find
the info for all the target ports.
For drivers that return an initiator_target_map we use the
initiator_target_lun_map entry that was generated by the FC connector
based on the contents of the connection information data to know which
target ports to look for.
:returns: 2-Tuple with the first entry being a list of [c, t, l]
entries where the target port was found, and the second entry of the
tuple being a set of luns for ports that were not found.
"""
# We want the targets' WWPNs, so we use the initiator_target_map if
# present for this hba or default to targets if not present.
targets = conn_props['targets']
if conn_props.get('initiator_target_map') is not None:
# This map we try to use was generated by the FC connector
targets = conn_props['initiator_target_lun_map'].get(
hba['port_name'], targets)
# Leave only the number from the host_device field (ie: host6)
host_device = hba['host_device']
if host_device and len(host_device) > 4:
host_device = host_device[4:]
path = '/sys/class/fc_transport/target%s:' % host_device
ctls = []
luns_not_found = set()
for wwpn, lun in targets:
cmd = 'grep -Gil "%(wwpns)s" %(path)s*/port_name' % {'wwpns': wwpn,
'path': path}
try:
# We need to run command in shell to expand the * glob
out, _err = self._execute(cmd, shell=True)
ctls += [line.split('/')[4].split(':')[1:] + [lun]
for line in out.split('\n') if line.startswith(path)]
except Exception as exc:
LOG.debug('Could not get HBA channel and SCSI target ID, path:'
' %(path)s*, reason: %(reason)s', {'path': path,
'reason': exc})
# If we didn't find any paths add it to the not found list
luns_not_found.add(lun)
return ctls, luns_not_found
def rescan_hosts(self,
hbas: Iterable,
connection_properties: dict) -> None:
LOG.debug('Rescanning HBAs %(hbas)s with connection properties '
'%(conn_props)s', {'hbas': hbas,
'conn_props': connection_properties})
# Use initiator_target_lun_map (generated from initiator_target_map by
# the FC connector) as HBA exclusion map
ports = connection_properties.get('initiator_target_lun_map')
if ports:
hbas = [hba for hba in hbas if hba['port_name'] in ports]
LOG.debug('Using initiator target map to exclude HBAs: %s',
hbas)
# Most storage arrays get their target ports automatically detected
# by the Linux FC initiator and sysfs gets populated with that
# information, but there are some that don't. We'll do a narrow scan
# using the channel, target, and LUN for the former and a wider scan
# for the latter. If all paths to a former type of array were down on
# the system boot the array could look like it's of the latter type
# and make us bring us unwanted volumes into the system by doing a
# broad scan. To prevent this from happening Cinder drivers can use
# the "enable_wildcard_scan" key in the connection_info to let us know
# they don't want us to do broad scans even in those cases.
broad_scan = connection_properties.get('enable_wildcard_scan', True)
if not broad_scan:
LOG.debug('Connection info disallows broad SCSI scanning')
process = []
skipped = []
get_ctls = self._get_hba_channel_scsi_target_lun
for hba in hbas:
ctls, luns_wildcards = get_ctls(hba, connection_properties)
# If we found the target ports, ignore HBAs that din't find them
if ctls:
process.append((hba, ctls))
# If target ports not found and should have, then the HBA is not
# connected to our storage
elif not broad_scan:
LOG.debug('Skipping HBA %s, nothing to scan, target port '
'not connected to initiator', hba['node_name'])
# If we haven't found any target ports we may need to do broad
# SCSI scans
elif not process:
skipped.append((hba,
[('-', '-', lun) for lun in luns_wildcards]))
# If we didn't find any target ports use wildcards if they are enabled
process = process or skipped
for hba, ctls in process:
for hba_channel, target_id, target_lun in ctls:
LOG.debug('Scanning %(host)s (wwnn: %(wwnn)s, c: '
'%(channel)s, t: %(target)s, l: %(lun)s)',
{'host': hba['host_device'],
'wwnn': hba['node_name'], 'channel': hba_channel,
'target': target_id, 'lun': target_lun})
self.echo_scsi_command(
"/sys/class/scsi_host/%s/scan" % hba['host_device'],
"%(c)s %(t)s %(l)s" % {'c': hba_channel,
't': target_id,
'l': target_lun})
@classmethod
def get_fc_hbas(cls) -> list[dict[str, str]]:
"""Get the Fibre Channel HBA information from sysfs."""
hbas = []
for hostpath in glob.glob(f'{cls.FC_HOST_SYSFS_PATH}/*'):
try:
hba = {'ClassDevice': os.path.basename(hostpath),
'ClassDevicepath': os.path.realpath(hostpath)}
for attribute in cls.HBA_ATTRIBUTES:
with open(os.path.join(hostpath, attribute), 'rt') as f:
hba[attribute] = f.read().strip()
hbas.append(hba)
except Exception as exc:
LOG.warning('Could not read attributes for %(hp)s: %(exc)s',
{'hp': hostpath, 'exc': exc})
return hbas
def get_fc_hbas_info(self) -> list[dict[str, str]]:
"""Get Fibre Channel WWNs and device paths from the system, if any."""
hbas = self.get_fc_hbas()
hbas_info = []
for hba in hbas:
wwpn = hba['port_name'].replace('0x', '')
wwnn = hba['node_name'].replace('0x', '')
device_path = hba['ClassDevicepath']
device = hba['ClassDevice']
hbas_info.append({'port_name': wwpn,
'node_name': wwnn,
'host_device': device,
'device_path': device_path})
return hbas_info
def get_fc_wwpns(self) -> list[str]:
"""Get Fibre Channel WWPNs from the system, if any."""
hbas = self.get_fc_hbas()
wwpns = []
for hba in hbas:
if hba['port_state'] == 'Online':
wwpn = hba['port_name'].replace('0x', '')
wwpns.append(wwpn)
return wwpns
def get_fc_wwnns(self) -> list[str]:
"""Get Fibre Channel WWNNs from the system, if any."""
hbas = self.get_fc_hbas()
wwnns = []
for hba in hbas:
if hba['port_state'] == 'Online':
wwnn = hba['node_name'].replace('0x', '')
wwnns.append(wwnn)
return wwnns
class LinuxFibreChannelS390X(LinuxFibreChannel):
def get_fc_hbas_info(self):
"""Get Fibre Channel WWNs and device paths from the system, if any."""
hbas = self.get_fc_hbas()
hbas_info = []
for hba in hbas:
if hba['port_state'] == 'Online':
wwpn = hba['port_name'].replace('0x', '')
wwnn = hba['node_name'].replace('0x', '')
device_path = hba['ClassDevicepath']
device = hba['ClassDevice']
hbas_info.append({'port_name': wwpn,
'node_name': wwnn,
'host_device': device,
'device_path': device_path})
return hbas_info
def configure_scsi_device(self, device_number, target_wwn, lun):
"""Write the LUN to the port's unit_add attribute.
If auto-discovery of Fibre-Channel target ports is
disabled on s390 platforms, ports need to be added to
the configuration.
If auto-discovery of LUNs is disabled on s390 platforms
luns need to be added to the configuration through the
unit_add interface
"""
LOG.debug("Configure lun for s390: device_number=%(device_num)s "
"target_wwn=%(target_wwn)s target_lun=%(target_lun)s",
{'device_num': device_number,
'target_wwn': target_wwn,
'target_lun': lun})
filepath = ("/sys/bus/ccw/drivers/zfcp/%s/%s" %
(device_number, target_wwn))
if not (os.path.exists(filepath)):
zfcp_device_command = ("/sys/bus/ccw/drivers/zfcp/%s/port_rescan" %
(device_number))
LOG.debug("port_rescan call for s390: %s", zfcp_device_command)
try:
self.echo_scsi_command(zfcp_device_command, "1")
except putils.ProcessExecutionError as exc:
LOG.warning("port_rescan call for s390 failed exit"
" %(code)s, stderr %(stderr)s",
{'code': exc.exit_code, 'stderr': exc.stderr})
zfcp_device_command = ("/sys/bus/ccw/drivers/zfcp/%s/%s/unit_add" %
(device_number, target_wwn))
LOG.debug("unit_add call for s390 execute: %s", zfcp_device_command)
try:
self.echo_scsi_command(zfcp_device_command, lun)
except putils.ProcessExecutionError as exc:
LOG.warning("unit_add call for s390 failed exit %(code)s, "
"stderr %(stderr)s",
{'code': exc.exit_code, 'stderr': exc.stderr})
def deconfigure_scsi_device(self, device_number, target_wwn, lun):
"""Write the LUN to the port's unit_remove attribute.
If auto-discovery of LUNs is disabled on s390 platforms
luns need to be removed from the configuration through the
unit_remove interface
"""
LOG.debug("Deconfigure lun for s390: "
"device_number=%(device_num)s "
"target_wwn=%(target_wwn)s target_lun=%(target_lun)s",
{'device_num': device_number,
'target_wwn': target_wwn,
'target_lun': lun})
zfcp_device_command = ("/sys/bus/ccw/drivers/zfcp/%s/%s/unit_remove" %
(device_number, target_wwn))
LOG.debug("unit_remove call for s390 execute: %s", zfcp_device_command)
try:
self.echo_scsi_command(zfcp_device_command, lun)
except putils.ProcessExecutionError as exc:
LOG.warning("unit_remove call for s390 failed exit %(code)s, "
"stderr %(stderr)s",
{'code': exc.exit_code, 'stderr': exc.stderr})
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