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cinder/cinder/tests/test_storwize_svc.py

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# Copyright 2013 IBM Corp.
# Copyright 2012 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.
#
"""
Tests for the IBM Storwize family and SVC volume driver.
"""
import mock
import random
import re
from cinder import context
from cinder import exception
from cinder.openstack.common import excutils
from cinder.openstack.common import importutils
from cinder.openstack.common import log as logging
from cinder.openstack.common import processutils
from cinder import test
from cinder.tests import utils as testutils
from cinder import units
from cinder import utils
from cinder.volume import configuration as conf
from cinder.volume.drivers.ibm import storwize_svc
from cinder.volume.drivers.ibm.storwize_svc import helpers
from cinder.volume.drivers.ibm.storwize_svc import ssh
from cinder.volume import volume_types
LOG = logging.getLogger(__name__)
class StorwizeSVCManagementSimulator:
def __init__(self, pool_name):
self._flags = {'storwize_svc_volpool_name': pool_name}
self._volumes_list = {}
self._hosts_list = {}
self._mappings_list = {}
self._fcmappings_list = {}
self._other_pools = {'openstack2': {}, 'openstack3': {}}
self._next_cmd_error = {
'lsportip': '',
'lsfabric': '',
'lsiscsiauth': '',
'lsnodecanister': '',
'mkvdisk': '',
'lsvdisk': '',
'lsfcmap': '',
'prestartfcmap': '',
'startfcmap': '',
'rmfcmap': '',
'lslicense': '',
}
self._errors = {
'CMMVC5701E': ('', 'CMMVC5701E No object ID was specified.'),
'CMMVC6035E': ('', 'CMMVC6035E The action failed as the '
'object already exists.'),
'CMMVC5753E': ('', 'CMMVC5753E The specified object does not '
'exist or is not a suitable candidate.'),
'CMMVC5707E': ('', 'CMMVC5707E Required parameters are missing.'),
'CMMVC6581E': ('', 'CMMVC6581E The command has failed because '
'the maximum number of allowed iSCSI '
'qualified names (IQNs) has been reached, '
'or the IQN is already assigned or is not '
'valid.'),
'CMMVC5754E': ('', 'CMMVC5754E The specified object does not '
'exist, or the name supplied does not meet '
'the naming rules.'),
'CMMVC6071E': ('', 'CMMVC6071E The VDisk-to-host mapping was '
'not created because the VDisk is already '
'mapped to a host.'),
'CMMVC5879E': ('', 'CMMVC5879E The VDisk-to-host mapping was '
'not created because a VDisk is already '
'mapped to this host with this SCSI LUN.'),
'CMMVC5840E': ('', 'CMMVC5840E The virtual disk (VDisk) was '
'not deleted because it is mapped to a '
'host or because it is part of a FlashCopy '
'or Remote Copy mapping, or is involved in '
'an image mode migrate.'),
'CMMVC6527E': ('', 'CMMVC6527E The name that you have entered '
'is not valid. The name can contain letters, '
'numbers, spaces, periods, dashes, and '
'underscores. The name must begin with a '
'letter or an underscore. The name must not '
'begin or end with a space.'),
'CMMVC5871E': ('', 'CMMVC5871E The action failed because one or '
'more of the configured port names is in a '
'mapping.'),
'CMMVC5924E': ('', 'CMMVC5924E The FlashCopy mapping was not '
'created because the source and target '
'virtual disks (VDisks) are different sizes.'),
'CMMVC6303E': ('', 'CMMVC6303E The create failed because the '
'source and target VDisks are the same.'),
'CMMVC7050E': ('', 'CMMVC7050E The command failed because at '
'least one node in the I/O group does not '
'support compressed VDisks.'),
'CMMVC6430E': ('', 'CMMVC6430E The command failed because the '
'target and source managed disk groups must '
'be different.'),
'CMMVC6353E': ('', 'CMMVC6353E The command failed because the '
'copy specified does not exist.'),
'CMMVC6446E': ('', 'The command failed because the managed disk '
'groups have different extent sizes.'),
# Catch-all for invalid state transitions:
'CMMVC5903E': ('', 'CMMVC5903E The FlashCopy mapping was not '
'changed because the mapping or consistency '
'group is another state.'),
'CMMVC5709E': ('', 'CMMVC5709E [-%(VALUE)s] is not a supported '
'parameter.'),
}
self._transitions = {'begin': {'make': 'idle_or_copied'},
'idle_or_copied': {'prepare': 'preparing',
'delete': 'end',
'delete_force': 'end'},
'preparing': {'flush_failed': 'stopped',
'wait': 'prepared'},
'end': None,
'stopped': {'prepare': 'preparing',
'delete_force': 'end'},
'prepared': {'stop': 'stopped',
'start': 'copying'},
'copying': {'wait': 'idle_or_copied',
'stop': 'stopping'},
# Assume the worst case where stopping->stopped
# rather than stopping idle_or_copied
'stopping': {'wait': 'stopped'},
}
def _state_transition(self, function, fcmap):
if (function == 'wait' and
'wait' not in self._transitions[fcmap['status']]):
return ('', '')
if fcmap['status'] == 'copying' and function == 'wait':
if fcmap['copyrate'] != '0':
if fcmap['progress'] == '0':
fcmap['progress'] = '50'
else:
fcmap['progress'] = '100'
fcmap['status'] = 'idle_or_copied'
return ('', '')
else:
try:
curr_state = fcmap['status']
fcmap['status'] = self._transitions[curr_state][function]
return ('', '')
except Exception:
return self._errors['CMMVC5903E']
# Find an unused ID
@staticmethod
def _find_unused_id(d):
ids = []
for v in d.itervalues():
ids.append(int(v['id']))
ids.sort()
for index, n in enumerate(ids):
if n > index:
return str(index)
return str(len(ids))
# Check if name is valid
@staticmethod
def _is_invalid_name(name):
if re.match(r'^[a-zA-Z_][\w ._-]*$', name):
return False
return True
# Convert argument string to dictionary
@staticmethod
def _cmd_to_dict(arg_list):
no_param_args = [
'autodelete',
'bytes',
'compressed',
'force',
'nohdr',
]
one_param_args = [
'chapsecret',
'cleanrate',
'copy',
'copyrate',
'delim',
'easytier',
'filtervalue',
'grainsize',
'hbawwpn',
'host',
'iogrp',
'iscsiname',
'mdiskgrp',
'name',
'rsize',
'scsi',
'size',
'source',
'target',
'unit',
'vdisk',
'warning',
'wwpn',
]
no_or_one_param_args = [
'autoexpand',
]
# Handle the special case of lsnode which is a two-word command
# Use the one word version of the command internally
if arg_list[0] in ('svcinfo', 'svctask'):
if arg_list[1] == 'lsnode':
if len(arg_list) > 4: # e.g. svcinfo lsnode -delim ! <node id>
ret = {'cmd': 'lsnode', 'node_id': arg_list[-1]}
else:
ret = {'cmd': 'lsnodecanister'}
else:
ret = {'cmd': arg_list[1]}
arg_list.pop(0)
else:
ret = {'cmd': arg_list[0]}
skip = False
for i in range(1, len(arg_list)):
if skip:
skip = False
continue
if arg_list[i][0] == '-':
if arg_list[i][1:] in no_param_args:
ret[arg_list[i][1:]] = True
elif arg_list[i][1:] in one_param_args:
ret[arg_list[i][1:]] = arg_list[i + 1]
skip = True
elif arg_list[i][1:] in no_or_one_param_args:
if i == (len(arg_list) - 1) or arg_list[i + 1][0] == '-':
ret[arg_list[i][1:]] = True
else:
ret[arg_list[i][1:]] = arg_list[i + 1]
skip = True
else:
raise exception.InvalidInput(
reason=_('unrecognized argument %s') % arg_list[i])
else:
ret['obj'] = arg_list[i]
return ret
@staticmethod
def _print_info_cmd(rows, delim=' ', nohdr=False, **kwargs):
"""Generic function for printing information."""
if nohdr:
del rows[0]
for index in range(len(rows)):
rows[index] = delim.join(rows[index])
return ('%s' % '\n'.join(rows), '')
@staticmethod
def _print_info_obj_cmd(header, row, delim=' ', nohdr=False):
"""Generic function for printing information for a specific object."""
objrows = []
for idx, val in enumerate(header):
objrows.append([val, row[idx]])
if nohdr:
for index in range(len(objrows)):
objrows[index] = ' '.join(objrows[index][1:])
for index in range(len(objrows)):
objrows[index] = delim.join(objrows[index])
return ('%s' % '\n'.join(objrows), '')
@staticmethod
def _convert_bytes_units(bytestr):
num = int(bytestr)
unit_array = ['B', 'KB', 'MB', 'GB', 'TB', 'PB']
unit_index = 0
while num > 1024:
num = num / 1024
unit_index += 1
return '%d%s' % (num, unit_array[unit_index])
@staticmethod
def _convert_units_bytes(num, unit):
unit_array = ['B', 'KB', 'MB', 'GB', 'TB', 'PB']
unit_index = 0
while unit.lower() != unit_array[unit_index].lower():
num = num * 1024
unit_index += 1
return str(num)
def _cmd_lslicense(self, **kwargs):
rows = [None] * 3
rows[0] = ['used_compression_capacity', '0.08']
rows[1] = ['license_compression_capacity', '0']
if self._next_cmd_error['lslicense'] == 'no_compression':
self._next_cmd_error['lslicense'] = ''
rows[2] = ['license_compression_enclosures', '0']
else:
rows[2] = ['license_compression_enclosures', '1']
return self._print_info_cmd(rows=rows, **kwargs)
# Print mostly made-up stuff in the correct syntax
def _cmd_lssystem(self, **kwargs):
rows = [None] * 3
rows[0] = ['id', '0123456789ABCDEF']
rows[1] = ['name', 'storwize-svc-sim']
rows[2] = ['code_level', '7.2.0.0 (build 87.0.1311291000)']
return self._print_info_cmd(rows=rows, **kwargs)
# Print mostly made-up stuff in the correct syntax, assume -bytes passed
def _cmd_lsmdiskgrp(self, **kwargs):
rows = [None] * 4
rows[0] = ['id', 'name', 'status', 'mdisk_count',
'vdisk_count', 'capacity', 'extent_size',
'free_capacity', 'virtual_capacity', 'used_capacity',
'real_capacity', 'overallocation', 'warning',
'easy_tier', 'easy_tier_status']
rows[1] = ['1', self._flags['storwize_svc_volpool_name'], 'online',
'1', str(len(self._volumes_list)), '3573412790272',
'256', '3529926246400', '1693247906775', '277841182',
'38203734097', '47', '80', 'auto', 'inactive']
rows[2] = ['2', 'openstack2', 'online',
'1', '0', '3573412790272', '256',
'3529432325160', '1693247906775', '277841182',
'38203734097', '47', '80', 'auto', 'inactive']
rows[3] = ['3', 'openstack3', 'online',
'1', '0', '3573412790272', '128',
'3529432325160', '1693247906775', '277841182',
'38203734097', '47', '80', 'auto', 'inactive']
if 'obj' not in kwargs:
return self._print_info_cmd(rows=rows, **kwargs)
else:
if kwargs['obj'] == self._flags['storwize_svc_volpool_name']:
row = rows[1]
elif kwargs['obj'] == 'openstack2':
row = rows[2]
elif kwargs['obj'] == 'openstack3':
row = rows[3]
else:
return self._errors['CMMVC5754E']
objrows = []
for idx, val in enumerate(rows[0]):
objrows.append([val, row[idx]])
if 'nohdr' in kwargs:
for index in range(len(objrows)):
objrows[index] = ' '.join(objrows[index][1:])
if 'delim' in kwargs:
for index in range(len(objrows)):
objrows[index] = kwargs['delim'].join(objrows[index])
return ('%s' % '\n'.join(objrows), '')
# Print mostly made-up stuff in the correct syntax
def _cmd_lsnodecanister(self, **kwargs):
rows = [None] * 3
rows[0] = ['id', 'name', 'UPS_serial_number', 'WWNN', 'status',
'IO_group_id', 'IO_group_name', 'config_node',
'UPS_unique_id', 'hardware', 'iscsi_name', 'iscsi_alias',
'panel_name', 'enclosure_id', 'canister_id',
'enclosure_serial_number']
rows[1] = ['1', 'node1', '', '123456789ABCDEF0', 'online', '0',
'io_grp0',
'yes', '123456789ABCDEF0', '100',
'iqn.1982-01.com.ibm:1234.sim.node1', '', '01-1', '1', '1',
'0123ABC']
rows[2] = ['2', 'node2', '', '123456789ABCDEF1', 'online', '0',
'io_grp0',
'no', '123456789ABCDEF1', '100',
'iqn.1982-01.com.ibm:1234.sim.node2', '', '01-2', '1', '2',
'0123ABC']
if self._next_cmd_error['lsnodecanister'] == 'header_mismatch':
rows[0].pop(2)
self._next_cmd_error['lsnodecanister'] = ''
if self._next_cmd_error['lsnodecanister'] == 'remove_field':
for row in rows:
row.pop(0)
self._next_cmd_error['lsnodecanister'] = ''
return self._print_info_cmd(rows=rows, **kwargs)
# Print information of every single node of SVC
def _cmd_lsnode(self, **kwargs):
node_infos = dict()
node_infos['1'] = r'''id!1
name!node1
port_id!500507680210C744
port_status!active
port_speed!8Gb
port_id!500507680220C744
port_status!active
port_speed!8Gb
'''
node_infos['2'] = r'''id!2
name!node2
port_id!500507680220C745
port_status!active
port_speed!8Gb
port_id!500507680230C745
port_status!inactive
port_speed!N/A
'''
node_id = kwargs.get('node_id', None)
stdout = node_infos.get(node_id, '')
return stdout, ''
# Print mostly made-up stuff in the correct syntax
def _cmd_lsportip(self, **kwargs):
if self._next_cmd_error['lsportip'] == 'ip_no_config':
self._next_cmd_error['lsportip'] = ''
ip_addr1 = ''
ip_addr2 = ''
gw = ''
else:
ip_addr1 = '1.234.56.78'
ip_addr2 = '1.234.56.79'
gw = '1.234.56.1'
rows = [None] * 17
rows[0] = ['id', 'node_id', 'node_name', 'IP_address', 'mask',
'gateway', 'IP_address_6', 'prefix_6', 'gateway_6', 'MAC',
'duplex', 'state', 'speed', 'failover']
rows[1] = ['1', '1', 'node1', ip_addr1, '255.255.255.0',
gw, '', '', '', '01:23:45:67:89:00', 'Full',
'online', '1Gb/s', 'no']
rows[2] = ['1', '1', 'node1', '', '', '', '', '', '',
'01:23:45:67:89:00', 'Full', 'online', '1Gb/s', 'yes']
rows[3] = ['2', '1', 'node1', '', '', '', '', '', '',
'01:23:45:67:89:01', 'Full', 'unconfigured', '1Gb/s', 'no']
rows[4] = ['2', '1', 'node1', '', '', '', '', '', '',
'01:23:45:67:89:01', 'Full', 'unconfigured', '1Gb/s', 'yes']
rows[5] = ['3', '1', 'node1', '', '', '', '', '', '', '', '',
'unconfigured', '', 'no']
rows[6] = ['3', '1', 'node1', '', '', '', '', '', '', '', '',
'unconfigured', '', 'yes']
rows[7] = ['4', '1', 'node1', '', '', '', '', '', '', '', '',
'unconfigured', '', 'no']
rows[8] = ['4', '1', 'node1', '', '', '', '', '', '', '', '',
'unconfigured', '', 'yes']
rows[9] = ['1', '2', 'node2', ip_addr2, '255.255.255.0',
gw, '', '', '', '01:23:45:67:89:02', 'Full',
'online', '1Gb/s', 'no']
rows[10] = ['1', '2', 'node2', '', '', '', '', '', '',
'01:23:45:67:89:02', 'Full', 'online', '1Gb/s', 'yes']
rows[11] = ['2', '2', 'node2', '', '', '', '', '', '',
'01:23:45:67:89:03', 'Full', 'unconfigured', '1Gb/s', 'no']
rows[12] = ['2', '2', 'node2', '', '', '', '', '', '',
'01:23:45:67:89:03', 'Full', 'unconfigured', '1Gb/s',
'yes']
rows[13] = ['3', '2', 'node2', '', '', '', '', '', '', '', '',
'unconfigured', '', 'no']
rows[14] = ['3', '2', 'node2', '', '', '', '', '', '', '', '',
'unconfigured', '', 'yes']
rows[15] = ['4', '2', 'node2', '', '', '', '', '', '', '', '',
'unconfigured', '', 'no']
rows[16] = ['4', '2', 'node2', '', '', '', '', '', '', '', '',
'unconfigured', '', 'yes']
if self._next_cmd_error['lsportip'] == 'header_mismatch':
rows[0].pop(2)
self._next_cmd_error['lsportip'] = ''
if self._next_cmd_error['lsportip'] == 'remove_field':
for row in rows:
row.pop(1)
self._next_cmd_error['lsportip'] = ''
return self._print_info_cmd(rows=rows, **kwargs)
def _cmd_lsfabric(self, **kwargs):
host_name = kwargs['host'].strip('\'\"') if 'host' in kwargs else None
target_wwpn = kwargs['wwpn'] if 'wwpn' in kwargs else None
host_infos = []
for hv in self._hosts_list.itervalues():
if (not host_name) or (hv['host_name'] == host_name):
for mv in self._mappings_list.itervalues():
if mv['host'] == hv['host_name']:
if not target_wwpn or target_wwpn in hv['wwpns']:
host_infos.append(hv)
break
if not len(host_infos):
return ('', '')
rows = []
rows.append(['remote_wwpn', 'remote_nportid', 'id', 'node_name',
'local_wwpn', 'local_port', 'local_nportid', 'state',
'name', 'cluster_name', 'type'])
for host_info in host_infos:
for wwpn in host_info['wwpns']:
rows.append([wwpn, '123456', host_info['id'], 'nodeN',
'AABBCCDDEEFF0011', '1', '0123ABC', 'active',
host_info['host_name'], '', 'host'])
if self._next_cmd_error['lsfabric'] == 'header_mismatch':
rows[0].pop(0)
self._next_cmd_error['lsfabric'] = ''
if self._next_cmd_error['lsfabric'] == 'remove_field':
for row in rows:
row.pop(0)
self._next_cmd_error['lsfabric'] = ''
return self._print_info_cmd(rows=rows, **kwargs)
# Create a vdisk
def _cmd_mkvdisk(self, **kwargs):
# We only save the id/uid, name, and size - all else will be made up
volume_info = {}
volume_info['id'] = self._find_unused_id(self._volumes_list)
volume_info['uid'] = ('ABCDEF' * 3) + ('0' * 14) + volume_info['id']
if 'name' in kwargs:
volume_info['name'] = kwargs['name'].strip('\'\"')
else:
volume_info['name'] = 'vdisk' + volume_info['id']
# Assume size and unit are given, store it in bytes
capacity = int(kwargs['size'])
unit = kwargs['unit']
volume_info['capacity'] = self._convert_units_bytes(capacity, unit)
volume_info['IO_group_id'] = kwargs['iogrp']
volume_info['IO_group_name'] = 'io_grp%s' % kwargs['iogrp']
if 'easytier' in kwargs:
if kwargs['easytier'] == 'on':
volume_info['easy_tier'] = 'on'
else:
volume_info['easy_tier'] = 'off'
if 'rsize' in kwargs:
# Fake numbers
volume_info['used_capacity'] = '786432'
volume_info['real_capacity'] = '21474816'
volume_info['free_capacity'] = '38219264'
if 'warning' in kwargs:
volume_info['warning'] = kwargs['warning'].rstrip('%')
else:
volume_info['warning'] = '80'
if 'autoexpand' in kwargs:
volume_info['autoexpand'] = 'on'
else:
volume_info['autoexpand'] = 'off'
if 'grainsize' in kwargs:
volume_info['grainsize'] = kwargs['grainsize']
else:
volume_info['grainsize'] = '32'
if 'compressed' in kwargs:
volume_info['compressed_copy'] = 'yes'
else:
volume_info['compressed_copy'] = 'no'
else:
volume_info['used_capacity'] = volume_info['capacity']
volume_info['real_capacity'] = volume_info['capacity']
volume_info['free_capacity'] = '0'
volume_info['warning'] = ''
volume_info['autoexpand'] = ''
volume_info['grainsize'] = ''
volume_info['compressed_copy'] = 'no'
vol_cp = {'id': '0',
'status': 'online',
'sync': 'yes',
'primary': 'yes',
'mdisk_grp_id': '1',
'mdisk_grp_name': self._flags['storwize_svc_volpool_name'],
'easy_tier': volume_info['easy_tier'],
'compressed_copy': volume_info['compressed_copy']}
volume_info['copies'] = {'0': vol_cp}
if volume_info['name'] in self._volumes_list:
return self._errors['CMMVC6035E']
else:
self._volumes_list[volume_info['name']] = volume_info
return ('Virtual Disk, id [%s], successfully created' %
(volume_info['id']), '')
# Delete a vdisk
def _cmd_rmvdisk(self, **kwargs):
force = True if 'force' in kwargs else False
if 'obj' not in kwargs:
return self._errors['CMMVC5701E']
vol_name = kwargs['obj'].strip('\'\"')
if vol_name not in self._volumes_list:
return self._errors['CMMVC5753E']
if not force:
for mapping in self._mappings_list.itervalues():
if mapping['vol'] == vol_name:
return self._errors['CMMVC5840E']
for fcmap in self._fcmappings_list.itervalues():
if ((fcmap['source'] == vol_name) or
(fcmap['target'] == vol_name)):
return self._errors['CMMVC5840E']
del self._volumes_list[vol_name]
return ('', '')
def _cmd_expandvdisksize(self, **kwargs):
if 'obj' not in kwargs:
return self._errors['CMMVC5701E']
vol_name = kwargs['obj'].strip('\'\"')
# Assume unit is gb
if 'size' not in kwargs:
return self._errors['CMMVC5707E']
size = int(kwargs['size'])
if vol_name not in self._volumes_list:
return self._errors['CMMVC5753E']
curr_size = int(self._volumes_list[vol_name]['capacity'])
addition = size * units.GiB
self._volumes_list[vol_name]['capacity'] = str(curr_size + addition)
return ('', '')
def _get_fcmap_info(self, vol_name):
ret_vals = {
'fc_id': '',
'fc_name': '',
'fc_map_count': '0',
}
for fcmap in self._fcmappings_list.itervalues():
if ((fcmap['source'] == vol_name) or
(fcmap['target'] == vol_name)):
ret_vals['fc_id'] = fcmap['id']
ret_vals['fc_name'] = fcmap['name']
ret_vals['fc_map_count'] = '1'
return ret_vals
# List information about vdisks
def _cmd_lsvdisk(self, **kwargs):
rows = []
rows.append(['id', 'name', 'IO_group_id', 'IO_group_name',
'status', 'mdisk_grp_id', 'mdisk_grp_name',
'capacity', 'type', 'FC_id', 'FC_name', 'RC_id',
'RC_name', 'vdisk_UID', 'fc_map_count', 'copy_count',
'fast_write_state', 'se_copy_count', 'RC_change'])
for vol in self._volumes_list.itervalues():
if (('filtervalue' not in kwargs) or
(kwargs['filtervalue'] == 'name=' + vol['name']) or
(kwargs['filtervalue'] == 'vdisk_UID=' + vol['uid'])):
fcmap_info = self._get_fcmap_info(vol['name'])
if 'bytes' in kwargs:
cap = self._convert_bytes_units(vol['capacity'])
else:
cap = vol['capacity']
rows.append([str(vol['id']), vol['name'], vol['IO_group_id'],
vol['IO_group_name'], 'online', '0',
self._flags['storwize_svc_volpool_name'],
cap, 'striped',
fcmap_info['fc_id'], fcmap_info['fc_name'],
'', '', vol['uid'],
fcmap_info['fc_map_count'], '1', 'empty',
'1', 'no'])
if 'obj' not in kwargs:
return self._print_info_cmd(rows=rows, **kwargs)
else:
if kwargs['obj'] not in self._volumes_list:
return self._errors['CMMVC5754E']
vol = self._volumes_list[kwargs['obj']]
fcmap_info = self._get_fcmap_info(vol['name'])
cap = vol['capacity']
cap_u = vol['used_capacity']
cap_r = vol['real_capacity']
cap_f = vol['free_capacity']
if 'bytes' not in kwargs:
for item in [cap, cap_u, cap_r, cap_f]:
item = self._convert_bytes_units(item)
rows = []
rows.append(['id', str(vol['id'])])
rows.append(['name', vol['name']])
rows.append(['IO_group_id', vol['IO_group_id']])
rows.append(['IO_group_name', vol['IO_group_name']])
rows.append(['status', 'online'])
rows.append(['capacity', cap])
rows.append(['formatted', 'no'])
rows.append(['mdisk_id', ''])
rows.append(['mdisk_name', ''])
rows.append(['FC_id', fcmap_info['fc_id']])
rows.append(['FC_name', fcmap_info['fc_name']])
rows.append(['RC_id', ''])
rows.append(['RC_name', ''])
rows.append(['vdisk_UID', vol['uid']])
rows.append(['throttling', '0'])
if self._next_cmd_error['lsvdisk'] == 'blank_pref_node':
rows.append(['preferred_node_id', ''])
self._next_cmd_error['lsvdisk'] = ''
elif self._next_cmd_error['lsvdisk'] == 'no_pref_node':
self._next_cmd_error['lsvdisk'] = ''
else:
rows.append(['preferred_node_id', '1'])
rows.append(['fast_write_state', 'empty'])
rows.append(['cache', 'readwrite'])
rows.append(['udid', ''])
rows.append(['fc_map_count', fcmap_info['fc_map_count']])
rows.append(['sync_rate', '50'])
rows.append(['copy_count', '1'])
rows.append(['se_copy_count', '0'])
rows.append(['mirror_write_priority', 'latency'])
rows.append(['RC_change', 'no'])
for copy in vol['copies'].itervalues():
rows.append(['copy_id', copy['id']])
rows.append(['status', copy['status']])
rows.append(['primary', copy['primary']])
rows.append(['mdisk_grp_id', copy['mdisk_grp_id']])
rows.append(['mdisk_grp_name', copy['mdisk_grp_name']])
rows.append(['type', 'striped'])
rows.append(['used_capacity', cap_u])
rows.append(['real_capacity', cap_r])
rows.append(['free_capacity', cap_f])
rows.append(['easy_tier', copy['easy_tier']])
rows.append(['compressed_copy', copy['compressed_copy']])
rows.append(['autoexpand', vol['autoexpand']])
rows.append(['warning', vol['warning']])
rows.append(['grainsize', vol['grainsize']])
if 'nohdr' in kwargs:
for index in range(len(rows)):
rows[index] = ' '.join(rows[index][1:])
if 'delim' in kwargs:
for index in range(len(rows)):
rows[index] = kwargs['delim'].join(rows[index])
return ('%s' % '\n'.join(rows), '')
def _cmd_lsiogrp(self, **kwargs):
rows = [None] * 6
rows[0] = ['id', 'name', 'node_count', 'vdisk_count', 'host_count']
rows[1] = ['0', 'io_grp0', '2', '0', '4']
rows[2] = ['1', 'io_grp1', '2', '0', '4']
rows[3] = ['2', 'io_grp2', '0', '0', '4']
rows[4] = ['3', 'io_grp3', '0', '0', '4']
rows[5] = ['4', 'recovery_io_grp', '0', '0', '0']
return self._print_info_cmd(rows=rows, **kwargs)
def _add_port_to_host(self, host_info, **kwargs):
if 'iscsiname' in kwargs:
added_key = 'iscsi_names'
added_val = kwargs['iscsiname'].strip('\'\"')
elif 'hbawwpn' in kwargs:
added_key = 'wwpns'
added_val = kwargs['hbawwpn'].strip('\'\"')
else:
return self._errors['CMMVC5707E']
host_info[added_key].append(added_val)
for v in self._hosts_list.itervalues():
if v['id'] == host_info['id']:
continue
for port in v[added_key]:
if port == added_val:
return self._errors['CMMVC6581E']
return ('', '')
# Make a host
def _cmd_mkhost(self, **kwargs):
host_info = {}
host_info['id'] = self._find_unused_id(self._hosts_list)
if 'name' in kwargs:
host_name = kwargs['name'].strip('\'\"')
else:
host_name = 'host' + str(host_info['id'])
if self._is_invalid_name(host_name):
return self._errors['CMMVC6527E']
if host_name in self._hosts_list:
return self._errors['CMMVC6035E']
host_info['host_name'] = host_name
host_info['iscsi_names'] = []
host_info['wwpns'] = []
out, err = self._add_port_to_host(host_info, **kwargs)
if not len(err):
self._hosts_list[host_name] = host_info
return ('Host, id [%s], successfully created' %
(host_info['id']), '')
else:
return (out, err)
# Add ports to an existing host
def _cmd_addhostport(self, **kwargs):
if 'obj' not in kwargs:
return self._errors['CMMVC5701E']
host_name = kwargs['obj'].strip('\'\"')
if host_name not in self._hosts_list:
return self._errors['CMMVC5753E']
host_info = self._hosts_list[host_name]
return self._add_port_to_host(host_info, **kwargs)
# Change host properties
def _cmd_chhost(self, **kwargs):
if 'chapsecret' not in kwargs:
return self._errors['CMMVC5707E']
secret = kwargs['obj'].strip('\'\"')
if 'obj' not in kwargs:
return self._errors['CMMVC5701E']
host_name = kwargs['obj'].strip('\'\"')
if host_name not in self._hosts_list:
return self._errors['CMMVC5753E']
self._hosts_list[host_name]['chapsecret'] = secret
return ('', '')
# Remove a host
def _cmd_rmhost(self, **kwargs):
if 'obj' not in kwargs:
return self._errors['CMMVC5701E']
host_name = kwargs['obj'].strip('\'\"')
if host_name not in self._hosts_list:
return self._errors['CMMVC5753E']
for v in self._mappings_list.itervalues():
if (v['host'] == host_name):
return self._errors['CMMVC5871E']
del self._hosts_list[host_name]
return ('', '')
# List information about hosts
def _cmd_lshost(self, **kwargs):
if 'obj' not in kwargs:
rows = []
rows.append(['id', 'name', 'port_count', 'iogrp_count', 'status'])
found = False
for host in self._hosts_list.itervalues():
filterstr = 'name=' + host['host_name']
if (('filtervalue' not in kwargs) or
(kwargs['filtervalue'] == filterstr)):
rows.append([host['id'], host['host_name'], '1', '4',
'offline'])
found = True
if found:
return self._print_info_cmd(rows=rows, **kwargs)
else:
return ('', '')
else:
host_name = kwargs['obj'].strip('\'\"')
if host_name not in self._hosts_list:
return self._errors['CMMVC5754E']
host = self._hosts_list[host_name]
rows = []
rows.append(['id', host['id']])
rows.append(['name', host['host_name']])
rows.append(['port_count', '1'])
rows.append(['type', 'generic'])
rows.append(['mask', '1111'])
rows.append(['iogrp_count', '4'])
rows.append(['status', 'online'])
for port in host['iscsi_names']:
rows.append(['iscsi_name', port])
rows.append(['node_logged_in_count', '0'])
rows.append(['state', 'offline'])
for port in host['wwpns']:
rows.append(['WWPN', port])
rows.append(['node_logged_in_count', '0'])
rows.append(['state', 'active'])
if 'nohdr' in kwargs:
for index in range(len(rows)):
rows[index] = ' '.join(rows[index][1:])
if 'delim' in kwargs:
for index in range(len(rows)):
rows[index] = kwargs['delim'].join(rows[index])
return ('%s' % '\n'.join(rows), '')
# List iSCSI authorization information about hosts
def _cmd_lsiscsiauth(self, **kwargs):
if self._next_cmd_error['lsiscsiauth'] == 'no_info':
self._next_cmd_error['lsiscsiauth'] = ''
return ('', '')
rows = []
rows.append(['type', 'id', 'name', 'iscsi_auth_method',
'iscsi_chap_secret'])
for host in self._hosts_list.itervalues():
method = 'none'
secret = ''
if 'chapsecret' in host:
method = 'chap'
secret = host['chapsecret']
rows.append(['host', host['id'], host['host_name'], method,
secret])
return self._print_info_cmd(rows=rows, **kwargs)
# Create a vdisk-host mapping
def _cmd_mkvdiskhostmap(self, **kwargs):
mapping_info = {}
mapping_info['id'] = self._find_unused_id(self._mappings_list)
if 'host' not in kwargs:
return self._errors['CMMVC5707E']
mapping_info['host'] = kwargs['host'].strip('\'\"')
if 'scsi' not in kwargs:
return self._errors['CMMVC5707E']
mapping_info['lun'] = kwargs['scsi'].strip('\'\"')
if 'obj' not in kwargs:
return self._errors['CMMVC5707E']
mapping_info['vol'] = kwargs['obj'].strip('\'\"')
if mapping_info['vol'] not in self._volumes_list:
return self._errors['CMMVC5753E']
if mapping_info['host'] not in self._hosts_list:
return self._errors['CMMVC5754E']
if mapping_info['vol'] in self._mappings_list:
return self._errors['CMMVC6071E']
for v in self._mappings_list.itervalues():
if ((v['host'] == mapping_info['host']) and
(v['lun'] == mapping_info['lun'])):
return self._errors['CMMVC5879E']
for v in self._mappings_list.itervalues():
if (v['lun'] == mapping_info['lun']) and ('force' not in kwargs):
return self._errors['CMMVC6071E']
self._mappings_list[mapping_info['id']] = mapping_info
return ('Virtual Disk to Host map, id [%s], successfully created'
% (mapping_info['id']), '')
# Delete a vdisk-host mapping
def _cmd_rmvdiskhostmap(self, **kwargs):
if 'host' not in kwargs:
return self._errors['CMMVC5707E']
host = kwargs['host'].strip('\'\"')
if 'obj' not in kwargs:
return self._errors['CMMVC5701E']
vol = kwargs['obj'].strip('\'\"')
mapping_ids = []
for v in self._mappings_list.itervalues():
if v['vol'] == vol:
mapping_ids.append(v['id'])
if not mapping_ids:
return self._errors['CMMVC5753E']
this_mapping = None
for mapping_id in mapping_ids:
if self._mappings_list[mapping_id]['host'] == host:
this_mapping = mapping_id
if this_mapping is None:
return self._errors['CMMVC5753E']
del self._mappings_list[this_mapping]
return ('', '')
# List information about host->vdisk mappings
def _cmd_lshostvdiskmap(self, **kwargs):
host_name = kwargs['obj'].strip('\'\"')
if host_name not in self._hosts_list:
return self._errors['CMMVC5754E']
rows = []
rows.append(['id', 'name', 'SCSI_id', 'vdisk_id', 'vdisk_name',
'vdisk_UID'])
for mapping in self._mappings_list.itervalues():
if (host_name == '') or (mapping['host'] == host_name):
volume = self._volumes_list[mapping['vol']]
rows.append([mapping['id'], mapping['host'],
mapping['lun'], volume['id'],
volume['name'], volume['uid']])
return self._print_info_cmd(rows=rows, **kwargs)
# List information about vdisk->host mappings
def _cmd_lsvdiskhostmap(self, **kwargs):
mappings_found = 0
vdisk_name = kwargs['obj']
if vdisk_name not in self._volumes_list:
return self._errors['CMMVC5753E']
rows = []
rows.append(['id name', 'SCSI_id', 'host_id', 'host_name', 'vdisk_UID',
'IO_group_id', 'IO_group_name'])
for mapping in self._mappings_list.itervalues():
if (mapping['vol'] == vdisk_name):
mappings_found += 1
volume = self._volumes_list[mapping['vol']]
host = self._hosts_list[mapping['host']]
rows.append([volume['id'], volume['name'], host['id'],
host['host_name'], volume['uid'],
volume['IO_group_id'], volume['IO_group_name']])
if mappings_found:
return self._print_info_cmd(rows=rows, **kwargs)
else:
return ('', '')
# Create a FlashCopy mapping
def _cmd_mkfcmap(self, **kwargs):
source = ''
target = ''
copyrate = kwargs['copyrate'] if 'copyrate' in kwargs else '50'
if 'source' not in kwargs:
return self._errors['CMMVC5707E']
source = kwargs['source'].strip('\'\"')
if source not in self._volumes_list:
return self._errors['CMMVC5754E']
if 'target' not in kwargs:
return self._errors['CMMVC5707E']
target = kwargs['target'].strip('\'\"')
if target not in self._volumes_list:
return self._errors['CMMVC5754E']
if source == target:
return self._errors['CMMVC6303E']
if (self._volumes_list[source]['capacity'] !=
self._volumes_list[target]['capacity']):
return self._errors['CMMVC5924E']
fcmap_info = {}
fcmap_info['source'] = source
fcmap_info['target'] = target
fcmap_info['id'] = self._find_unused_id(self._fcmappings_list)
fcmap_info['name'] = 'fcmap' + fcmap_info['id']
fcmap_info['copyrate'] = copyrate
fcmap_info['progress'] = '0'
fcmap_info['autodelete'] = True if 'autodelete' in kwargs else False
fcmap_info['status'] = 'idle_or_copied'
self._fcmappings_list[fcmap_info['id']] = fcmap_info
return('FlashCopy Mapping, id [' + fcmap_info['id'] +
'], successfully created', '')
def _cmd_prestartfcmap(self, **kwargs):
if 'obj' not in kwargs:
return self._errors['CMMVC5701E']
id_num = kwargs['obj']
if self._next_cmd_error['prestartfcmap'] == 'bad_id':
id_num = -1
self._next_cmd_error['prestartfcmap'] = ''
try:
fcmap = self._fcmappings_list[id_num]
except KeyError:
return self._errors['CMMVC5753E']
return self._state_transition('prepare', fcmap)
def _cmd_startfcmap(self, **kwargs):
if 'obj' not in kwargs:
return self._errors['CMMVC5701E']
id_num = kwargs['obj']
if self._next_cmd_error['startfcmap'] == 'bad_id':
id_num = -1
self._next_cmd_error['startfcmap'] = ''
try:
fcmap = self._fcmappings_list[id_num]
except KeyError:
return self._errors['CMMVC5753E']
return self._state_transition('start', fcmap)
def _cmd_stopfcmap(self, **kwargs):
if 'obj' not in kwargs:
return self._errors['CMMVC5701E']
id_num = kwargs['obj']
try:
fcmap = self._fcmappings_list[id_num]
except KeyError:
return self._errors['CMMVC5753E']
return self._state_transition('stop', fcmap)
def _cmd_rmfcmap(self, **kwargs):
if 'obj' not in kwargs:
return self._errors['CMMVC5701E']
id_num = kwargs['obj']
force = True if 'force' in kwargs else False
if self._next_cmd_error['rmfcmap'] == 'bad_id':
id_num = -1
self._next_cmd_error['rmfcmap'] = ''
try:
fcmap = self._fcmappings_list[id_num]
except KeyError:
return self._errors['CMMVC5753E']
function = 'delete_force' if force else 'delete'
ret = self._state_transition(function, fcmap)
if fcmap['status'] == 'end':
del self._fcmappings_list[id_num]
return ret
def _cmd_lsvdiskfcmappings(self, **kwargs):
if 'obj' not in kwargs:
return self._errors['CMMVC5707E']
vdisk = kwargs['obj']
rows = []
rows.append(['id', 'name'])
for v in self._fcmappings_list.itervalues():
if v['source'] == vdisk or v['target'] == vdisk:
rows.append([v['id'], v['name']])
return self._print_info_cmd(rows=rows, **kwargs)
def _cmd_chfcmap(self, **kwargs):
if 'obj' not in kwargs:
return self._errors['CMMVC5707E']
id_num = kwargs['obj']
try:
fcmap = self._fcmappings_list[id_num]
except KeyError:
return self._errors['CMMVC5753E']
for key in ['name', 'copyrate', 'autodelete']:
if key in kwargs:
fcmap[key] = kwargs[key]
return ('', '')
def _cmd_lsfcmap(self, **kwargs):
rows = []
rows.append(['id', 'name', 'source_vdisk_id', 'source_vdisk_name',
'target_vdisk_id', 'target_vdisk_name', 'group_id',
'group_name', 'status', 'progress', 'copy_rate',
'clean_progress', 'incremental', 'partner_FC_id',
'partner_FC_name', 'restoring', 'start_time',
'rc_controlled'])
# Assume we always get a filtervalue argument
filter_key = kwargs['filtervalue'].split('=')[0]
filter_value = kwargs['filtervalue'].split('=')[1]
to_delete = []
for k, v in self._fcmappings_list.iteritems():
if str(v[filter_key]) == filter_value:
source = self._volumes_list[v['source']]
target = self._volumes_list[v['target']]
self._state_transition('wait', v)
if self._next_cmd_error['lsfcmap'] == 'speed_up':
self._next_cmd_error['lsfcmap'] = ''
curr_state = v['status']
while self._state_transition('wait', v) == ("", ""):
if curr_state == v['status']:
break
curr_state = v['status']
if ((v['status'] == 'idle_or_copied' and v['autodelete'] and
v['progress'] == '100') or (v['status'] == 'end')):
to_delete.append(k)
else:
rows.append([v['id'], v['name'], source['id'],
source['name'], target['id'], target['name'],
'', '', v['status'], v['progress'],
v['copyrate'], '100', 'off', '', '', 'no', '',
'no'])
for d in to_delete:
del self._fcmappings_list[d]
return self._print_info_cmd(rows=rows, **kwargs)
def _cmd_migratevdisk(self, **kwargs):
if 'mdiskgrp' not in kwargs or 'vdisk' not in kwargs:
return self._errors['CMMVC5707E']
mdiskgrp = kwargs['mdiskgrp'].strip('\'\"')
vdisk = kwargs['vdisk'].strip('\'\"')
if vdisk in self._volumes_list:
curr_mdiskgrp = self._volumes_list
else:
for pool in self._other_pools:
if vdisk in pool:
curr_mdiskgrp = pool
break
else:
return self._errors['CMMVC5754E']
if mdiskgrp == self._flags['storwize_svc_volpool_name']:
tgt_mdiskgrp = self._volumes_list
elif mdiskgrp == 'openstack2':
tgt_mdiskgrp = self._other_pools['openstack2']
elif mdiskgrp == 'openstack3':
tgt_mdiskgrp = self._other_pools['openstack3']
else:
return self._errors['CMMVC5754E']
if curr_mdiskgrp == tgt_mdiskgrp:
return self._errors['CMMVC6430E']
vol = curr_mdiskgrp[vdisk]
tgt_mdiskgrp[vdisk] = vol
del curr_mdiskgrp[vdisk]
return ('', '')
def _cmd_addvdiskcopy(self, **kwargs):
if 'obj' not in kwargs:
return self._errors['CMMVC5701E']
vol_name = kwargs['obj'].strip('\'\"')
if vol_name not in self._volumes_list:
return self._errors['CMMVC5753E']
vol = self._volumes_list[vol_name]
if 'mdiskgrp' not in kwargs:
return self._errors['CMMVC5707E']
mdiskgrp = kwargs['mdiskgrp'].strip('\'\"')
copy_info = {}
copy_info['id'] = self._find_unused_id(vol['copies'])
copy_info['status'] = 'online'
copy_info['sync'] = 'no'
copy_info['primary'] = 'no'
copy_info['mdisk_grp_name'] = mdiskgrp
if mdiskgrp == self._flags['storwize_svc_volpool_name']:
copy_info['mdisk_grp_id'] = '1'
elif mdiskgrp == 'openstack2':
copy_info['mdisk_grp_id'] = '2'
elif mdiskgrp == 'openstack3':
copy_info['mdisk_grp_id'] = '3'
if 'easytier' in kwargs:
if kwargs['easytier'] == 'on':
copy_info['easy_tier'] = 'on'
else:
copy_info['easy_tier'] = 'off'
if 'rsize' in kwargs:
if 'compressed' in kwargs:
copy_info['compressed_copy'] = 'yes'
else:
copy_info['compressed_copy'] = 'no'
vol['copies'][copy_info['id']] = copy_info
return ('Vdisk [%(vid)s] copy [%(cid)s] successfully created' %
{'vid': vol['id'], 'cid': copy_info['id']}, '')
def _cmd_lsvdiskcopy(self, **kwargs):
if 'obj' not in kwargs:
return self._errors['CMMVC5804E']
name = kwargs['obj']
vol = self._volumes_list[name]
rows = []
rows.append(['vdisk_id', 'vdisk_name', 'copy_id', 'status', 'sync',
'primary', 'mdisk_grp_id', 'mdisk_grp_name', 'capacity',
'type', 'se_copy', 'easy_tier', 'easy_tier_status',
'compressed_copy'])
for copy in vol['copies'].itervalues():
rows.append([vol['id'], vol['name'], copy['id'],
copy['status'], copy['sync'], copy['primary'],
copy['mdisk_grp_id'], copy['mdisk_grp_name'],
vol['capacity'], 'striped', 'yes', copy['easy_tier'],
'inactive', copy['compressed_copy']])
if 'copy' not in kwargs:
return self._print_info_cmd(rows=rows, **kwargs)
else:
copy_id = kwargs['copy'].strip('\'\"')
if copy_id not in vol['copies']:
return self._errors['CMMVC6353E']
copy = vol['copies'][copy_id]
rows = []
rows.append(['vdisk_id', vol['id']])
rows.append(['vdisk_name', vol['name']])
rows.append(['capacity', vol['capacity']])
rows.append(['copy_id', copy['id']])
rows.append(['status', copy['status']])
rows.append(['sync', copy['sync']])
copy['sync'] = 'yes'
rows.append(['primary', copy['primary']])
rows.append(['mdisk_grp_id', copy['mdisk_grp_id']])
rows.append(['mdisk_grp_name', copy['mdisk_grp_name']])
rows.append(['easy_tier', copy['easy_tier']])
rows.append(['easy_tier_status', 'inactive'])
rows.append(['compressed_copy', copy['compressed_copy']])
if 'delim' in kwargs:
for index in range(len(rows)):
rows[index] = kwargs['delim'].join(rows[index])
return ('%s' % '\n'.join(rows), '')
def _cmd_rmvdiskcopy(self, **kwargs):
if 'obj' not in kwargs:
return self._errors['CMMVC5701E']
vol_name = kwargs['obj'].strip('\'\"')
if 'copy' not in kwargs:
return self._errors['CMMVC5707E']
copy_id = kwargs['copy'].strip('\'\"')
if vol_name not in self._volumes_list:
return self._errors['CMMVC5753E']
vol = self._volumes_list[vol_name]
if copy_id not in vol['copies']:
return self._errors['CMMVC6353E']
del vol['copies'][copy_id]
return ('', '')
def _cmd_chvdisk(self, **kwargs):
if 'obj' not in kwargs:
return self._errors['CMMVC5701E']
vol_name = kwargs['obj'].strip('\'\"')
vol = self._volumes_list[vol_name]
kwargs.pop('obj')
params = ['name', 'warning', 'udid', 'autoexpand', 'easytier']
for key, value in kwargs.iteritems():
if key == 'easytier':
vol['easy_tier'] = value
continue
if key == 'warning':
vol['warning'] = value.rstrip('%')
continue
if key == 'name':
vol['name'] = value
del self._volumes_list[vol_name]
self._volumes_list[value] = vol
if key in params:
vol[key] = value
else:
err = self._errors['CMMVC5709E'][1] % {'VALUE': key}
return ('', err)
return ('', '')
def _cmd_movevdisk(self, **kwargs):
if 'obj' not in kwargs:
return self._errors['CMMVC5701E']
vol_name = kwargs['obj'].strip('\'\"')
vol = self._volumes_list[vol_name]
if 'iogrp' not in kwargs:
return self._errors['CMMVC5707E']
iogrp = kwargs['iogrp']
if iogrp.isdigit():
vol['IO_group_id'] = iogrp
vol['IO_group_name'] = 'io_grp%s' % iogrp
else:
vol['IO_group_id'] = iogrp[6:]
vol['IO_group_name'] = iogrp
return ('', '')
def _cmd_addvdiskaccess(self, **kwargs):
if 'obj' not in kwargs:
return self._errors['CMMVC5701E']
return ('', '')
def _cmd_rmvdiskaccess(self, **kwargs):
if 'obj' not in kwargs:
return self._errors['CMMVC5701E']
return ('', '')
def _add_host_to_list(self, connector):
host_info = {}
host_info['id'] = self._find_unused_id(self._hosts_list)
host_info['host_name'] = connector['host']
host_info['iscsi_names'] = []
host_info['wwpns'] = []
if 'initiator' in connector:
host_info['iscsi_names'].append(connector['initiator'])
if 'wwpns' in connector:
host_info['wwpns'] = host_info['wwpns'] + connector['wwpns']
self._hosts_list[connector['host']] = host_info
def _host_in_list(self, host_name):
for k in self._hosts_list:
if k.startswith(host_name):
return k
return None
# The main function to run commands on the management simulator
def execute_command(self, cmd, check_exit_code=True):
try:
kwargs = self._cmd_to_dict(cmd)
except IndexError:
return self._errors['CMMVC5707E']
command = kwargs['cmd']
del kwargs['cmd']
func = getattr(self, '_cmd_' + command)
out, err = func(**kwargs)
if (check_exit_code) and (len(err) != 0):
raise processutils.ProcessExecutionError(exit_code=1,
stdout=out,
stderr=err,
cmd=' '.join(cmd))
return (out, err)
# After calling this function, the next call to the specified command will
# result in in the error specified
def error_injection(self, cmd, error):
self._next_cmd_error[cmd] = error
class StorwizeSVCFakeDriver(storwize_svc.StorwizeSVCDriver):
def __init__(self, *args, **kwargs):
super(StorwizeSVCFakeDriver, self).__init__(*args, **kwargs)
def set_fake_storage(self, fake):
self.fake_storage = fake
def _run_ssh(self, cmd, check_exit_code=True, attempts=1):
try:
LOG.debug(_('Run CLI command: %s') % cmd)
utils.check_ssh_injection(cmd)
ret = self.fake_storage.execute_command(cmd, check_exit_code)
(stdout, stderr) = ret
LOG.debug(_('CLI output:\n stdout: %(stdout)s\n stderr: '
'%(stderr)s') % {'stdout': stdout, 'stderr': stderr})
except processutils.ProcessExecutionError as e:
with excutils.save_and_reraise_exception():
LOG.debug(_('CLI Exception output:\n stdout: %(out)s\n '
'stderr: %(err)s') % {'out': e.stdout,
'err': e.stderr})
return ret
class StorwizeSVCDriverTestCase(test.TestCase):
def setUp(self):
super(StorwizeSVCDriverTestCase, self).setUp()
self.USESIM = True
if self.USESIM:
self.driver = StorwizeSVCFakeDriver(
configuration=conf.Configuration(None))
self._def_flags = {'san_ip': 'hostname',
'san_login': 'user',
'san_password': 'pass',
'storwize_svc_volpool_name': 'openstack',
'storwize_svc_flashcopy_timeout': 20,
# Test ignore capitalization
'storwize_svc_connection_protocol': 'iScSi',
'storwize_svc_multipath_enabled': False}
wwpns = [str(random.randint(0, 9999999999999999)).zfill(16),
str(random.randint(0, 9999999999999999)).zfill(16)]
initiator = 'test.initiator.%s' % str(random.randint(10000, 99999))
self._connector = {'ip': '1.234.56.78',
'host': 'storwize-svc-test',
'wwpns': wwpns,
'initiator': initiator}
self.sim = StorwizeSVCManagementSimulator('openstack')
self.driver.set_fake_storage(self.sim)
else:
self.driver = storwize_svc.StorwizeSVCDriver(
configuration=conf.Configuration(None))
self._def_flags = {'san_ip': '1.111.11.11',
'san_login': 'user',
'san_password': 'password',
'storwize_svc_volpool_name': 'openstack',
# Test ignore capitalization
'storwize_svc_connection_protocol': 'iScSi',
'storwize_svc_multipath_enabled': False,
'ssh_conn_timeout': 0}
config_group = self.driver.configuration.config_group
self.driver.configuration.set_override('rootwrap_config',
'/etc/cinder/rootwrap.conf',
config_group)
self._connector = utils.brick_get_connector_properties()
self._reset_flags()
self.ctxt = context.get_admin_context()
db_driver = self.driver.configuration.db_driver
self.db = importutils.import_module(db_driver)
self.driver.db = self.db
self.driver.do_setup(None)
self.driver.check_for_setup_error()
self.sleeppatch = mock.patch('eventlet.greenthread.sleep')
self.sleeppatch.start()
self.driver._helpers.check_fcmapping_interval = 0
def tearDown(self):
if self.USESIM:
self.sleeppatch.stop()
super(StorwizeSVCDriverTestCase, self).tearDown()
def _set_flag(self, flag, value):
group = self.driver.configuration.config_group
self.driver.configuration.set_override(flag, value, group)
def _reset_flags(self):
self.driver.configuration.local_conf.reset()
for k, v in self._def_flags.iteritems():
self._set_flag(k, v)
def _assert_vol_exists(self, name, exists):
is_vol_defined = self.driver._helpers.is_vdisk_defined(name)
self.assertEqual(is_vol_defined, exists)
def test_storwize_svc_connectivity(self):
# Make sure we detect if the pool doesn't exist
no_exist_pool = 'i-dont-exist-%s' % random.randint(10000, 99999)
self._set_flag('storwize_svc_volpool_name', no_exist_pool)
self.assertRaises(exception.InvalidInput,
self.driver.do_setup, None)
self._reset_flags()
# Check the case where the user didn't configure IP addresses
# as well as receiving unexpected results from the storage
if self.USESIM:
self.sim.error_injection('lsnodecanister', 'header_mismatch')
self.assertRaises(exception.VolumeBackendAPIException,
self.driver.do_setup, None)
self.sim.error_injection('lsnodecanister', 'remove_field')
self.assertRaises(exception.VolumeBackendAPIException,
self.driver.do_setup, None)
self.sim.error_injection('lsportip', 'header_mismatch')
self.assertRaises(exception.VolumeBackendAPIException,
self.driver.do_setup, None)
self.sim.error_injection('lsportip', 'remove_field')
self.assertRaises(exception.VolumeBackendAPIException,
self.driver.do_setup, None)
# Check with bad parameters
self._set_flag('san_ip', '')
self.assertRaises(exception.InvalidInput,
self.driver.check_for_setup_error)
self._reset_flags()
self._set_flag('san_password', None)
self._set_flag('san_private_key', None)
self.assertRaises(exception.InvalidInput,
self.driver.check_for_setup_error)
self._reset_flags()
self._set_flag('storwize_svc_vol_rsize', 101)
self.assertRaises(exception.InvalidInput,
self.driver.check_for_setup_error)
self._reset_flags()
self._set_flag('storwize_svc_vol_warning', 101)
self.assertRaises(exception.InvalidInput,
self.driver.check_for_setup_error)
self._reset_flags()
self._set_flag('storwize_svc_vol_grainsize', 42)
self.assertRaises(exception.InvalidInput,
self.driver.check_for_setup_error)
self._reset_flags()
self._set_flag('storwize_svc_flashcopy_timeout', 601)
self.assertRaises(exception.InvalidInput,
self.driver.check_for_setup_error)
self._reset_flags()
self._set_flag('storwize_svc_vol_compression', True)
self._set_flag('storwize_svc_vol_rsize', -1)
self.assertRaises(exception.InvalidInput,
self.driver.check_for_setup_error)
self._reset_flags()
self._set_flag('storwize_svc_connection_protocol', 'foo')
self.assertRaises(exception.InvalidInput,
self.driver.check_for_setup_error)
self._reset_flags()
self._set_flag('storwize_svc_vol_iogrp', 5)
self.assertRaises(exception.InvalidInput,
self.driver.check_for_setup_error)
self._reset_flags()
if self.USESIM:
self.sim.error_injection('lslicense', 'no_compression')
self._set_flag('storwize_svc_vol_compression', True)
self.driver.do_setup(None)
self.assertRaises(exception.InvalidInput,
self.driver.check_for_setup_error)
self._reset_flags()
# Finally, check with good parameters
self.driver.do_setup(None)
def _generate_vol_info(self, vol_name, vol_id):
rand_id = str(random.randint(10000, 99999))
if vol_name:
return {'name': 'snap_volume%s' % rand_id,
'volume_name': vol_name,
'id': rand_id,
'volume_id': vol_id,
'volume_size': 10,
'mdisk_grp_name': 'openstack'}
else:
return {'name': 'test_volume%s' % rand_id,
'size': 10,
'id': '%s' % rand_id,
'volume_type_id': None,
'mdisk_grp_name': 'openstack'}
def _create_volume(self, **kwargs):
vol = testutils.create_volume(self.ctxt, **kwargs)
self.driver.create_volume(vol)
return vol
def _delete_volume(self, volume):
self.driver.delete_volume(volume)
self.db.volume_destroy(self.ctxt, volume['id'])
def _create_test_vol(self, opts):
ctxt = testutils.get_test_admin_context()
type_ref = volume_types.create(ctxt, 'testtype', opts)
volume = self._generate_vol_info(None, None)
type_id = type_ref['id']
type_ref = volume_types.get_volume_type(ctxt, type_id)
volume['volume_type_id'] = type_id
volume['volume_type'] = type_ref
self.driver.create_volume(volume)
attrs = self.driver._helpers.get_vdisk_attributes(volume['name'])
self.driver.delete_volume(volume)
volume_types.destroy(ctxt, type_ref['id'])
return attrs
def test_storwize_svc_snapshots(self):
vol1 = self._create_volume()
snap1 = self._generate_vol_info(vol1['name'], vol1['id'])
# Test timeout and volume cleanup
self._set_flag('storwize_svc_flashcopy_timeout', 1)
self.assertRaises(exception.VolumeDriverException,
self.driver.create_snapshot, snap1)
self._assert_vol_exists(snap1['name'], False)
self._reset_flags()
# Test prestartfcmap failing
with mock.patch.object(ssh.StorwizeSSH, 'prestartfcmap') as prestart:
prestart.side_effect = exception.VolumeBackendAPIException
self.assertRaises(exception.VolumeBackendAPIException,
self.driver.create_snapshot, snap1)
if self.USESIM:
self.sim.error_injection('lsfcmap', 'speed_up')
self.sim.error_injection('startfcmap', 'bad_id')
self.assertRaises(exception.VolumeBackendAPIException,
self.driver.create_snapshot, snap1)
self._assert_vol_exists(snap1['name'], False)
self.sim.error_injection('prestartfcmap', 'bad_id')
self.assertRaises(exception.VolumeBackendAPIException,
self.driver.create_snapshot, snap1)
self._assert_vol_exists(snap1['name'], False)
# Test successful snapshot
self.driver.create_snapshot(snap1)
self._assert_vol_exists(snap1['name'], True)
# Try to create a snapshot from an non-existing volume - should fail
snap_novol = self._generate_vol_info('undefined-vol', '12345')
self.assertRaises(exception.VolumeDriverException,
self.driver.create_snapshot,
snap_novol)
# We support deleting a volume that has snapshots, so delete the volume
# first
self.driver.delete_volume(vol1)
self.driver.delete_snapshot(snap1)
def test_storwize_svc_create_volfromsnap_clone(self):
vol1 = self._create_volume()
snap1 = self._generate_vol_info(vol1['name'], vol1['id'])
self.driver.create_snapshot(snap1)
vol2 = self._generate_vol_info(None, None)
vol3 = self._generate_vol_info(None, None)
# Try to create a volume from a non-existing snapshot
snap_novol = self._generate_vol_info('undefined-vol', '12345')
vol_novol = self._generate_vol_info(None, None)
self.assertRaises(exception.VolumeDriverException,
self.driver.create_volume_from_snapshot,
vol_novol,
snap_novol)
# Fail the snapshot
with mock.patch.object(ssh.StorwizeSSH, 'prestartfcmap') as prestart:
prestart.side_effect = exception.VolumeBackendAPIException
self.assertRaises(exception.VolumeBackendAPIException,
self.driver.create_volume_from_snapshot,
vol2, snap1)
self._assert_vol_exists(vol2['name'], False)
# Try to create where source size != target size
vol2['size'] += 1
self.assertRaises(exception.VolumeDriverException,
self.driver.create_volume_from_snapshot,
vol2, snap1)
self._assert_vol_exists(vol2['name'], False)
vol2['size'] -= 1
# Succeed
if self.USESIM:
self.sim.error_injection('lsfcmap', 'speed_up')
self.driver.create_volume_from_snapshot(vol2, snap1)
self._assert_vol_exists(vol2['name'], True)
# Try to clone where source size != target size
vol3['size'] += 1
self.assertRaises(exception.VolumeDriverException,
self.driver.create_cloned_volume,
vol3, vol2)
self._assert_vol_exists(vol3['name'], False)
vol3['size'] -= 1
if self.USESIM:
self.sim.error_injection('lsfcmap', 'speed_up')
self.driver.create_cloned_volume(vol3, vol2)
self._assert_vol_exists(vol3['name'], True)
# Delete in the 'opposite' order to make sure it works
self.driver.delete_volume(vol3)
self._assert_vol_exists(vol3['name'], False)
self.driver.delete_volume(vol2)
self._assert_vol_exists(vol2['name'], False)
self.driver.delete_snapshot(snap1)
self._assert_vol_exists(snap1['name'], False)
self.driver.delete_volume(vol1)
self._assert_vol_exists(vol1['name'], False)
def test_storwize_svc_volumes(self):
# Create a first volume
volume = self._generate_vol_info(None, None)
self.driver.create_volume(volume)
self.driver.ensure_export(None, volume)
# Do nothing
self.driver.create_export(None, volume)
self.driver.remove_export(None, volume)
# Make sure volume attributes are as they should be
attributes = self.driver._helpers.get_vdisk_attributes(volume['name'])
attr_size = float(attributes['capacity']) / units.GiB # bytes to GB
self.assertEqual(attr_size, float(volume['size']))
pool = self.driver.configuration.local_conf.storwize_svc_volpool_name
self.assertEqual(attributes['mdisk_grp_name'], pool)
# Try to create the volume again (should fail)
self.assertRaises(exception.VolumeBackendAPIException,
self.driver.create_volume,
volume)
# Try to delete a volume that doesn't exist (should not fail)
vol_no_exist = {'name': 'i_dont_exist'}
self.driver.delete_volume(vol_no_exist)
# Ensure export for volume that doesn't exist (should not fail)
self.driver.ensure_export(None, vol_no_exist)
# Delete the volume
self.driver.delete_volume(volume)
def test_storwize_svc_volume_params(self):
# Option test matrix
# Option Value Covered by test #
# rsize -1 1
# rsize 2 2,3
# warning 0 2
# warning 80 3
# autoexpand True 2
# autoexpand False 3
# grainsize 32 2
# grainsize 256 3
# compression True 4
# compression False 2,3
# easytier True 1,3
# easytier False 2
# iogrp 0 1
# iogrp 1 2
opts_list = []
chck_list = []
opts_list.append({'rsize': -1, 'easytier': True, 'iogrp': 0})
chck_list.append({'free_capacity': '0', 'easy_tier': 'on',
'IO_group_id': '0'})
test_iogrp = 1 if self.USESIM else 0
opts_list.append({'rsize': 2, 'compression': False, 'warning': 0,
'autoexpand': True, 'grainsize': 32,
'easytier': False, 'iogrp': test_iogrp})
chck_list.append({'-free_capacity': '0', 'compressed_copy': 'no',
'warning': '0', 'autoexpand': 'on',
'grainsize': '32', 'easy_tier': 'off',
'IO_group_id': str(test_iogrp)})
opts_list.append({'rsize': 2, 'compression': False, 'warning': 80,
'autoexpand': False, 'grainsize': 256,
'easytier': True})
chck_list.append({'-free_capacity': '0', 'compressed_copy': 'no',
'warning': '80', 'autoexpand': 'off',
'grainsize': '256', 'easy_tier': 'on'})
opts_list.append({'rsize': 2, 'compression': True})
chck_list.append({'-free_capacity': '0',
'compressed_copy': 'yes'})
for idx in range(len(opts_list)):
attrs = self._create_test_vol(opts_list[idx])
for k, v in chck_list[idx].iteritems():
try:
if k[0] == '-':
k = k[1:]
self.assertNotEqual(attrs[k], v)
else:
self.assertEqual(attrs[k], v)
except processutils.ProcessExecutionError as e:
if 'CMMVC7050E' not in e.stderr:
raise
def test_storwize_svc_unicode_host_and_volume_names(self):
# We'll check with iSCSI only - nothing protocol-dependednt here
self._set_flag('storwize_svc_connection_protocol', 'iSCSI')
self.driver.do_setup(None)
rand_id = random.randint(10000, 99999)
volume1 = {'name': u'unicode1_volume%s' % rand_id,
'size': 2,
'id': 1,
'volume_type_id': None}
self.driver.create_volume(volume1)
self._assert_vol_exists(volume1['name'], True)
self.assertRaises(exception.VolumeDriverException,
self.driver._helpers.create_host,
{'host': 12345})
# Add a host first to make life interesting (this host and
# conn['host'] should be translated to the same prefix, and the
# initiator should differentiate
tmpconn1 = {'initiator': u'unicode:initiator1.%s' % rand_id,
'ip': '10.10.10.10',
'host': u'unicode.foo}.bar{.baz-%s' % rand_id}
self.driver._helpers.create_host(tmpconn1)
# Add a host with a different prefix
tmpconn2 = {'initiator': u'unicode:initiator2.%s' % rand_id,
'ip': '10.10.10.11',
'host': u'unicode.hello.world-%s' % rand_id}
self.driver._helpers.create_host(tmpconn2)
conn = {'initiator': u'unicode:initiator3.%s' % rand_id,
'ip': '10.10.10.12',
'host': u'unicode.foo}.bar}.baz-%s' % rand_id}
self.driver.initialize_connection(volume1, conn)
host_name = self.driver._helpers.get_host_from_connector(conn)
self.assertIsNotNone(host_name)
self.driver.terminate_connection(volume1, conn)
host_name = self.driver._helpers.get_host_from_connector(conn)
self.assertIsNone(host_name)
self.driver.delete_volume(volume1)
# Clean up temporary hosts
for tmpconn in [tmpconn1, tmpconn2]:
host_name = self.driver._helpers.get_host_from_connector(tmpconn)
self.assertIsNotNone(host_name)
self.driver._helpers.delete_host(host_name)
def test_storwize_svc_validate_connector(self):
conn_neither = {'host': 'host'}
conn_iscsi = {'host': 'host', 'initiator': 'foo'}
conn_fc = {'host': 'host', 'wwpns': 'bar'}
conn_both = {'host': 'host', 'initiator': 'foo', 'wwpns': 'bar'}
self.driver._state['enabled_protocols'] = set(['iSCSI'])
self.driver.validate_connector(conn_iscsi)
self.driver.validate_connector(conn_both)
self.assertRaises(exception.VolumeDriverException,
self.driver.validate_connector, conn_fc)
self.assertRaises(exception.VolumeDriverException,
self.driver.validate_connector, conn_neither)
self.driver._state['enabled_protocols'] = set(['FC'])
self.driver.validate_connector(conn_fc)
self.driver.validate_connector(conn_both)
self.assertRaises(exception.VolumeDriverException,
self.driver.validate_connector, conn_iscsi)
self.assertRaises(exception.VolumeDriverException,
self.driver.validate_connector, conn_neither)
self.driver._state['enabled_protocols'] = set(['iSCSI', 'FC'])
self.driver.validate_connector(conn_iscsi)
self.driver.validate_connector(conn_fc)
self.driver.validate_connector(conn_both)
self.assertRaises(exception.VolumeDriverException,
self.driver.validate_connector, conn_neither)
def test_storwize_svc_host_maps(self):
# Create two volumes to be used in mappings
ctxt = context.get_admin_context()
volume1 = self._generate_vol_info(None, None)
self.driver.create_volume(volume1)
volume2 = self._generate_vol_info(None, None)
self.driver.create_volume(volume2)
# Create volume types that we created
types = {}
for protocol in ['FC', 'iSCSI']:
opts = {'storage_protocol': '<in> ' + protocol}
types[protocol] = volume_types.create(ctxt, protocol, opts)
expected = {'FC': {'driver_volume_type': 'fibre_channel',
'data': {'target_lun': '0',
'target_wwn': 'AABBCCDDEEFF0011',
'target_discovered': False}},
'iSCSI': {'driver_volume_type': 'iscsi',
'data': {'target_discovered': False,
'target_iqn':
'iqn.1982-01.com.ibm:1234.sim.node1',
'target_portal': '1.234.56.78:3260',
'target_lun': '0',
'auth_method': 'CHAP'}}}
for protocol in ['FC', 'iSCSI']:
volume1['volume_type_id'] = types[protocol]['id']
volume2['volume_type_id'] = types[protocol]['id']
# Check case where no hosts exist
if self.USESIM:
ret = self.driver._helpers.get_host_from_connector(
self._connector)
self.assertIsNone(ret)
# Make sure that the volumes have been created
self._assert_vol_exists(volume1['name'], True)
self._assert_vol_exists(volume2['name'], True)
# Initialize connection from the first volume to a host
ret = self.driver.initialize_connection(volume1, self._connector)
self.assertEqual(ret['driver_volume_type'],
expected[protocol]['driver_volume_type'])
for k, v in expected[protocol]['data'].iteritems():
self.assertEqual(ret['data'][k], v)
# Initialize again, should notice it and do nothing
ret = self.driver.initialize_connection(volume1, self._connector)
self.assertEqual(ret['driver_volume_type'],
expected[protocol]['driver_volume_type'])
for k, v in expected[protocol]['data'].iteritems():
self.assertEqual(ret['data'][k], v)
# Try to delete the 1st volume (should fail because it is mapped)
self.assertRaises(exception.VolumeBackendAPIException,
self.driver.delete_volume,
volume1)
# Check bad output from lsfabric for the 2nd volume
if protocol == 'FC' and self.USESIM:
for error in ['remove_field', 'header_mismatch']:
self.sim.error_injection('lsfabric', error)
self.assertRaises(exception.VolumeBackendAPIException,
self.driver.initialize_connection,
volume2, self._connector)
self.driver.terminate_connection(volume1, self._connector)
if self.USESIM:
ret = self.driver._helpers.get_host_from_connector(
self._connector)
self.assertIsNone(ret)
# Check cases with no auth set for host
if self.USESIM:
for auth_enabled in [True, False]:
for host_exists in ['yes-auth', 'yes-noauth', 'no']:
self._set_flag('storwize_svc_iscsi_chap_enabled',
auth_enabled)
case = 'en' + str(auth_enabled) + 'ex' + str(host_exists)
conn_na = {'initiator': 'test:init:%s' %
random.randint(10000, 99999),
'ip': '11.11.11.11',
'host': 'host-%s' % case}
if host_exists.startswith('yes'):
self.sim._add_host_to_list(conn_na)
if host_exists == 'yes-auth':
kwargs = {'chapsecret': 'foo',
'obj': conn_na['host']}
self.sim._cmd_chhost(**kwargs)
volume1['volume_type_id'] = types['iSCSI']['id']
init_ret = self.driver.initialize_connection(volume1,
conn_na)
host_name = self.sim._host_in_list(conn_na['host'])
chap_ret = self.driver._helpers.get_chap_secret_for_host(
host_name)
if auth_enabled or host_exists == 'yes-auth':
self.assertIn('auth_password', init_ret['data'])
self.assertIsNotNone(chap_ret)
else:
self.assertNotIn('auth_password', init_ret['data'])
self.assertIsNone(chap_ret)
self.driver.terminate_connection(volume1, conn_na)
self._set_flag('storwize_svc_iscsi_chap_enabled', True)
# Test no preferred node
if self.USESIM:
self.sim.error_injection('lsvdisk', 'no_pref_node')
self.assertRaises(exception.VolumeBackendAPIException,
self.driver.initialize_connection,
volume1, self._connector)
# Initialize connection from the second volume to the host with no
# preferred node set if in simulation mode, otherwise, just
# another initialize connection.
if self.USESIM:
self.sim.error_injection('lsvdisk', 'blank_pref_node')
self.driver.initialize_connection(volume2, self._connector)
# Try to remove connection from host that doesn't exist (should fail)
conn_no_exist = self._connector.copy()
conn_no_exist['initiator'] = 'i_dont_exist'
conn_no_exist['wwpns'] = ['0000000000000000']
self.assertRaises(exception.VolumeDriverException,
self.driver.terminate_connection,
volume1,
conn_no_exist)
# Try to remove connection from volume that isn't mapped (should print
# message but NOT fail)
unmapped_vol = self._generate_vol_info(None, None)
self.driver.create_volume(unmapped_vol)
self.driver.terminate_connection(unmapped_vol, self._connector)
self.driver.delete_volume(unmapped_vol)
# Remove the mapping from the 1st volume and delete it
self.driver.terminate_connection(volume1, self._connector)
self.driver.delete_volume(volume1)
self._assert_vol_exists(volume1['name'], False)
# Make sure our host still exists
host_name = self.driver._helpers.get_host_from_connector(
self._connector)
self.assertIsNotNone(host_name)
# Remove the mapping from the 2nd volume. The host should
# be automatically removed because there are no more mappings.
self.driver.terminate_connection(volume2, self._connector)
# Check if we successfully terminate connections when the host is not
# specified (see bug #1244257)
fake_conn = {'ip': '127.0.0.1', 'initiator': 'iqn.fake'}
self.driver.initialize_connection(volume2, self._connector)
host_name = self.driver._helpers.get_host_from_connector(
self._connector)
self.assertIsNotNone(host_name)
self.driver.terminate_connection(volume2, fake_conn)
host_name = self.driver._helpers.get_host_from_connector(
self._connector)
self.assertIsNone(host_name)
self.driver.delete_volume(volume2)
self._assert_vol_exists(volume2['name'], False)
# Delete volume types that we created
for protocol in ['FC', 'iSCSI']:
volume_types.destroy(ctxt, types[protocol]['id'])
# Check if our host still exists (it should not)
if self.USESIM:
ret = self.driver._helpers.get_host_from_connector(self._connector)
self.assertIsNone(ret)
def test_storwize_svc_multi_host_maps(self):
# We can't test connecting to multiple hosts from a single host when
# using real storage
if not self.USESIM:
return
# Create a volume to be used in mappings
ctxt = context.get_admin_context()
volume = self._generate_vol_info(None, None)
self.driver.create_volume(volume)
# Create volume types for protocols
types = {}
for protocol in ['FC', 'iSCSI']:
opts = {'storage_protocol': '<in> ' + protocol}
types[protocol] = volume_types.create(ctxt, protocol, opts)
# Create a connector for the second 'host'
wwpns = [str(random.randint(0, 9999999999999999)).zfill(16),
str(random.randint(0, 9999999999999999)).zfill(16)]
initiator = 'test.initiator.%s' % str(random.randint(10000, 99999))
conn2 = {'ip': '1.234.56.79',
'host': 'storwize-svc-test2',
'wwpns': wwpns,
'initiator': initiator}
for protocol in ['FC', 'iSCSI']:
volume['volume_type_id'] = types[protocol]['id']
# Make sure that the volume has been created
self._assert_vol_exists(volume['name'], True)
self.driver.initialize_connection(volume, self._connector)
self._set_flag('storwize_svc_multihostmap_enabled', False)
self.assertRaises(exception.CinderException,
self.driver.initialize_connection, volume, conn2)
self._set_flag('storwize_svc_multihostmap_enabled', True)
self.driver.initialize_connection(volume, conn2)
self.driver.terminate_connection(volume, conn2)
self.driver.terminate_connection(volume, self._connector)
def test_storwize_svc_delete_volume_snapshots(self):
# Create a volume with two snapshots
master = self._create_volume()
# Fail creating a snapshot - will force delete the snapshot
if self.USESIM and False:
snap = self._generate_vol_info(master['name'], master['id'])
self.sim.error_injection('startfcmap', 'bad_id')
self.assertRaises(exception.VolumeBackendAPIException,
self.driver.create_snapshot, snap)
self._assert_vol_exists(snap['name'], False)
# Delete a snapshot
snap = self._generate_vol_info(master['name'], master['id'])
self.driver.create_snapshot(snap)
self._assert_vol_exists(snap['name'], True)
self.driver.delete_snapshot(snap)
self._assert_vol_exists(snap['name'], False)
# Delete a volume with snapshots (regular)
snap = self._generate_vol_info(master['name'], master['id'])
self.driver.create_snapshot(snap)
self._assert_vol_exists(snap['name'], True)
self.driver.delete_volume(master)
self._assert_vol_exists(master['name'], False)
# Fail create volume from snapshot - will force delete the volume
if self.USESIM:
volfs = self._generate_vol_info(None, None)
self.sim.error_injection('startfcmap', 'bad_id')
self.sim.error_injection('lsfcmap', 'speed_up')
self.assertRaises(exception.VolumeBackendAPIException,
self.driver.create_volume_from_snapshot,
volfs, snap)
self._assert_vol_exists(volfs['name'], False)
# Create volume from snapshot and delete it
volfs = self._generate_vol_info(None, None)
if self.USESIM:
self.sim.error_injection('lsfcmap', 'speed_up')
self.driver.create_volume_from_snapshot(volfs, snap)
self._assert_vol_exists(volfs['name'], True)
self.driver.delete_volume(volfs)
self._assert_vol_exists(volfs['name'], False)
# Create volume from snapshot and delete the snapshot
volfs = self._generate_vol_info(None, None)
if self.USESIM:
self.sim.error_injection('lsfcmap', 'speed_up')
self.driver.create_volume_from_snapshot(volfs, snap)
self.driver.delete_snapshot(snap)
self._assert_vol_exists(snap['name'], False)
# Fail create clone - will force delete the target volume
if self.USESIM:
clone = self._generate_vol_info(None, None)
self.sim.error_injection('startfcmap', 'bad_id')
self.sim.error_injection('lsfcmap', 'speed_up')
self.assertRaises(exception.VolumeBackendAPIException,
self.driver.create_cloned_volume,
clone, volfs)
self._assert_vol_exists(clone['name'], False)
# Create the clone, delete the source and target
clone = self._generate_vol_info(None, None)
if self.USESIM:
self.sim.error_injection('lsfcmap', 'speed_up')
self.driver.create_cloned_volume(clone, volfs)
self._assert_vol_exists(clone['name'], True)
self.driver.delete_volume(volfs)
self._assert_vol_exists(volfs['name'], False)
self.driver.delete_volume(clone)
self._assert_vol_exists(clone['name'], False)
# Note defined in python 2.6, so define here...
def assertLessEqual(self, a, b, msg=None):
if not a <= b:
self.fail('%s not less than or equal to %s' % (repr(a), repr(b)))
def test_storwize_svc_get_volume_stats(self):
self._set_flag('reserved_percentage', 25)
stats = self.driver.get_volume_stats()
self.assertLessEqual(stats['free_capacity_gb'],
stats['total_capacity_gb'])
self.assertEqual(stats['reserved_percentage'], 25)
pool = self.driver.configuration.local_conf.storwize_svc_volpool_name
if self.USESIM:
expected = 'storwize-svc-sim_' + pool
self.assertEqual(stats['volume_backend_name'], expected)
self.assertAlmostEqual(stats['total_capacity_gb'], 3328.0)
self.assertAlmostEqual(stats['free_capacity_gb'], 3287.5)
def test_storwize_svc_extend_volume(self):
volume = self._create_volume()
self.driver.extend_volume(volume, '13')
attrs = self.driver._helpers.get_vdisk_attributes(volume['name'])
vol_size = int(attrs['capacity']) / units.GiB
self.assertAlmostEqual(vol_size, 13)
snap = self._generate_vol_info(volume['name'], volume['id'])
self.driver.create_snapshot(snap)
self._assert_vol_exists(snap['name'], True)
self.assertRaises(exception.VolumeDriverException,
self.driver.extend_volume, volume, '16')
self.driver.delete_snapshot(snap)
self.driver.delete_volume(volume)
def _check_loc_info(self, capabilities, expected):
host = {'host': 'foo', 'capabilities': capabilities}
vol = {'name': 'test', 'id': 1, 'size': 1}
ctxt = context.get_admin_context()
moved, model_update = self.driver.migrate_volume(ctxt, vol, host)
self.assertEqual(moved, expected['moved'])
self.assertEqual(model_update, expected['model_update'])
def test_storwize_svc_migrate_bad_loc_info(self):
self._check_loc_info({}, {'moved': False, 'model_update': None})
cap = {'location_info': 'foo'}
self._check_loc_info(cap, {'moved': False, 'model_update': None})
cap = {'location_info': 'FooDriver:foo:bar'}
self._check_loc_info(cap, {'moved': False, 'model_update': None})
cap = {'location_info': 'StorwizeSVCDriver:foo:bar'}
self._check_loc_info(cap, {'moved': False, 'model_update': None})
def test_storwize_svc_volume_migrate(self):
# Make sure we don't call migrate_volume_vdiskcopy
self.driver.do_setup(None)
loc = ('StorwizeSVCDriver:' + self.driver._state['system_id'] +
':openstack2')
cap = {'location_info': loc, 'extent_size': '256'}
host = {'host': 'foo', 'capabilities': cap}
ctxt = context.get_admin_context()
volume = self._create_volume()
volume['volume_type_id'] = None
self.driver.migrate_volume(ctxt, volume, host)
self._delete_volume(volume)
def test_storwize_svc_retype_no_copy(self):
self.driver.do_setup(None)
loc = ('StorwizeSVCDriver:' + self.driver._state['system_id'] +
':openstack')
cap = {'location_info': loc, 'extent_size': '128'}
self.driver._stats = {'location_info': loc}
host = {'host': 'foo', 'capabilities': cap}
ctxt = context.get_admin_context()
key_specs_old = {'easytier': False, 'warning': 2, 'autoexpand': True}
key_specs_new = {'easytier': True, 'warning': 5, 'autoexpand': False}
old_type_ref = volume_types.create(ctxt, 'old', key_specs_old)
new_type_ref = volume_types.create(ctxt, 'new', key_specs_new)
diff, equal = volume_types.volume_types_diff(ctxt, old_type_ref['id'],
new_type_ref['id'])
volume = self._generate_vol_info(None, None)
old_type = volume_types.get_volume_type(ctxt, old_type_ref['id'])
volume['volume_type'] = old_type
volume['host'] = host
new_type = volume_types.get_volume_type(ctxt, new_type_ref['id'])
self.driver.create_volume(volume)
self.driver.retype(ctxt, volume, new_type, diff, host)
attrs = self.driver._helpers.get_vdisk_attributes(volume['name'])
self.assertEqual('on', attrs['easy_tier'], 'Volume retype failed')
self.assertEqual('5', attrs['warning'], 'Volume retype failed')
self.assertEqual('off', attrs['autoexpand'], 'Volume retype failed')
self.driver.delete_volume(volume)
def test_storwize_svc_retype_only_change_iogrp(self):
self.driver.do_setup(None)
loc = ('StorwizeSVCDriver:' + self.driver._state['system_id'] +
':openstack')
cap = {'location_info': loc, 'extent_size': '128'}
self.driver._stats = {'location_info': loc}
host = {'host': 'foo', 'capabilities': cap}
ctxt = context.get_admin_context()
key_specs_old = {'iogrp': 0}
key_specs_new = {'iogrp': 1}
old_type_ref = volume_types.create(ctxt, 'old', key_specs_old)
new_type_ref = volume_types.create(ctxt, 'new', key_specs_new)
diff, equal = volume_types.volume_types_diff(ctxt, old_type_ref['id'],
new_type_ref['id'])
volume = self._generate_vol_info(None, None)
old_type = volume_types.get_volume_type(ctxt, old_type_ref['id'])
volume['volume_type'] = old_type
volume['host'] = host
new_type = volume_types.get_volume_type(ctxt, new_type_ref['id'])
self.driver.create_volume(volume)
self.driver.retype(ctxt, volume, new_type, diff, host)
attrs = self.driver._helpers.get_vdisk_attributes(volume['name'])
self.assertEqual('1', attrs['IO_group_id'], 'Volume retype '
'failed')
self.driver.delete_volume(volume)
def test_storwize_svc_retype_need_copy(self):
self.driver.do_setup(None)
loc = ('StorwizeSVCDriver:' + self.driver._state['system_id'] +
':openstack')
cap = {'location_info': loc, 'extent_size': '128'}
self.driver._stats = {'location_info': loc}
host = {'host': 'foo', 'capabilities': cap}
ctxt = context.get_admin_context()
key_specs_old = {'compression': True, 'iogrp': 0}
key_specs_new = {'compression': False, 'iogrp': 1}
old_type_ref = volume_types.create(ctxt, 'old', key_specs_old)
new_type_ref = volume_types.create(ctxt, 'new', key_specs_new)
diff, equal = volume_types.volume_types_diff(ctxt, old_type_ref['id'],
new_type_ref['id'])
volume = self._generate_vol_info(None, None)
old_type = volume_types.get_volume_type(ctxt, old_type_ref['id'])
volume['volume_type'] = old_type
volume['host'] = host
new_type = volume_types.get_volume_type(ctxt, new_type_ref['id'])
self.driver.create_volume(volume)
self.driver.retype(ctxt, volume, new_type, diff, host)
attrs = self.driver._helpers.get_vdisk_attributes(volume['name'])
self.assertEqual('no', attrs['compressed_copy'])
self.assertEqual('1', attrs['IO_group_id'], 'Volume retype '
'failed')
self.driver.delete_volume(volume)
def test_set_storage_code_level_success(self):
res = self.driver._helpers.get_system_info()
if self.USESIM:
self.assertEqual((7, 2, 0, 0), res['code_level'],
'Get code level error')
def test_storwize_vdisk_copy_ops(self):
ctxt = testutils.get_test_admin_context()
volume = self._create_volume()
driver = self.driver
dest_pool = self.driver.configuration.storwize_svc_volpool_name
new_ops = driver._helpers.add_vdisk_copy(volume['name'], dest_pool,
None, self.driver._state,
self.driver.configuration)
self.driver._add_vdisk_copy_op(ctxt, volume, new_ops)
admin_metadata = self.db.volume_admin_metadata_get(ctxt, volume['id'])
self.assertEqual(":".join(x for x in new_ops),
admin_metadata['vdiskcopyops'],
'Storwize driver add vdisk copy error.')
self.driver._check_volume_copy_ops()
self.driver._rm_vdisk_copy_op(ctxt, volume, new_ops[0], new_ops[1])
admin_metadata = self.db.volume_admin_metadata_get(ctxt, volume['id'])
self.assertEqual(None, admin_metadata.get('vdiskcopyops', None),
'Storwize driver delete vdisk copy error')
self._delete_volume(volume)
def test_storwize_initiator_target_map(self):
# Create two volumes to be used in mappings
ctxt = context.get_admin_context()
# Generate us a test volume
volume = self._generate_vol_info(None, None)
self.driver.create_volume(volume)
# FIbre Channel volume type
vol_type = volume_types.create(ctxt, 'FC', {'protocol': 'FC'})
volume['volume_type_id'] = vol_type['id']
# Make sure that the volumes have been created
self._assert_vol_exists(volume['name'], True)
wwpns = ['ff00000000000000', 'ff00000000000001']
connector = {'host': 'storwize-svc-test', 'wwpns': wwpns}
# Initialise the connection
init_ret = self.driver.initialize_connection(volume, connector)
# Check that the initiator_target_map is as expected
init_data = {'driver_volume_type': 'fibre_channel',
'data': {'initiator_target_map':
{'ff00000000000000': ['AABBCCDDEEFF0011'],
'ff00000000000001': ['AABBCCDDEEFF0011']},
'target_discovered': False,
'target_lun': '0',
'target_wwn': 'AABBCCDDEEFF0011',
'volume_id': volume['id']
}
}
self.assertEqual(init_data, init_ret)
# Terminate connection
term_ret = self.driver.terminate_connection(volume, connector)
# Check that the initiator_target_map is as expected
term_data = {'driver_volume_type': 'fibre_channel',
'data': {'initiator_target_map':
{'ff00000000000000': ['AABBCCDDEEFF0011'],
'ff00000000000001': ['AABBCCDDEEFF0011']}
}
}
self.assertEqual(term_data, term_ret)
def _get_vdisk_uid(self, vdisk_name):
"""Return vdisk_UID for given vdisk.
Given a vdisk by name, performs an lvdisk command that extracts
the vdisk_UID parameter and returns it.
Returns None if the specified vdisk does not exist.
"""
vdisk_properties, err = self.sim._cmd_lsvdisk(obj=vdisk_name,
delim='!')
# Iterate through each row until we find the vdisk_UID entry
for row in vdisk_properties.split('\n'):
words = row.split('!')
if words[0] == 'vdisk_UID':
return words[1]
return None
def _create_volume_and_return_uid(self, volume_name):
"""Creates a volume and returns its UID.
Creates a volume with the specified name, and returns the UID that
the Storwize controller allocated for it. We do this by executing a
create_volume and then calling into the simulator to perform an
lsvdisk directly.
"""
volume = self._generate_vol_info(None, None)
self.driver.create_volume(volume)
return (volume, self._get_vdisk_uid(volume['name']))
def test_manage_existing_bad_ref(self):
"""Error on manage with bad reference.
This test case attempts to manage an existing volume but passes in
a bad reference that the Storwize driver doesn't understand. We
expect an exception to be raised.
"""
volume = self._generate_vol_info(None, None)
ref = {}
self.assertRaises(exception.ManageExistingInvalidReference,
self.driver.manage_existing_get_size, volume, ref)
def test_manage_existing_bad_uid(self):
"""Error when the specified UUID does not exist."""
volume = self._generate_vol_info(None, None)
ref = {'vdisk_UID': 'bad_uid'}
self.assertRaises(exception.ManageExistingInvalidReference,
self.driver.manage_existing_get_size, volume, ref)
pass
def test_manage_existing_good_uid_not_mapped(self):
"""Tests managing a volume with no mappings.
This test case attempts to manage an existing volume by UID, and
we expect it to succeed. We verify that the backend volume was
renamed to have the name of the Cinder volume that we asked for it to
be associated with.
"""
# Create a volume as a way of getting a vdisk created, and find out the
# UID of that vdisk.
volume, uid = self._create_volume_and_return_uid('manage_test')
# Descriptor of the Cinder volume that we want to own the vdisk
# refrerenced by uid.
new_volume = self._generate_vol_info(None, None)
# Submit the request to manage it.
ref = {'vdisk_UID': uid}
size = self.driver.manage_existing_get_size(new_volume, ref)
self.assertEqual(size, 10)
self.driver.manage_existing(new_volume, ref)
# Assert that there is a disk named after the new volume that has the
# ID that we passed in, indicating that the disk has been renamed.
uid_of_new_volume = self._get_vdisk_uid(new_volume['name'])
self.assertEqual(uid, uid_of_new_volume)
def test_manage_existing_good_uid_mapped(self):
"""Tests managing a mapped volume with no override.
This test case attempts to manage an existing volume by UID, but
the volume is mapped to a host, so we expect to see an exception
raised.
"""
# Create a volume as a way of getting a vdisk created, and find out the
# UUID of that vdisk.
volume, uid = self._create_volume_and_return_uid('manage_test')
# Map a host to the disk
conn = {'initiator': u'unicode:initiator3',
'ip': '10.10.10.12',
'host': u'unicode.foo}.bar}.baz'}
self.driver.initialize_connection(volume, conn)
# Descriptor of the Cinder volume that we want to own the vdisk
# refrerenced by uid.
volume = self._generate_vol_info(None, None)
ref = {'vdisk_UID': uid}
# Attempt to manage this disk, and except an exception beause the
# volume is already mapped.
self.assertRaises(exception.ManageExistingInvalidReference,
self.driver.manage_existing_get_size, volume, ref)
def test_manage_existing_good_uid_mapped_with_override(self):
"""Tests managing a mapped volume with override.
This test case attempts to manage an existing volume by UID, when it
it already mapped to a host, but the ref specifies that this is OK.
We verify that the backend volume was renamed to have the name of the
Cinder volume that we asked for it to be associated with.
"""
# Create a volume as a way of getting a vdisk created, and find out the
# UUID of that vdisk.
volume, uid = self._create_volume_and_return_uid('manage_test')
# Map a host to the disk
conn = {'initiator': u'unicode:initiator3',
'ip': '10.10.10.12',
'host': u'unicode.foo}.bar}.baz'}
self.driver.initialize_connection(volume, conn)
# Descriptor of the Cinder volume that we want to own the vdisk
# refrerenced by uid.
new_volume = self._generate_vol_info(None, None)
# Submit the request to manage it, specifying that it is OK to
# manage a volume that is already attached.
ref = {'vdisk_UID': uid, 'manage_if_in_use': True}
size = self.driver.manage_existing_get_size(new_volume, ref)
self.assertEqual(size, 10)
self.driver.manage_existing(new_volume, ref)
# Assert that there is a disk named after the new volume that has the
# ID that we passed in, indicating that the disk has been renamed.
uid_of_new_volume = self._get_vdisk_uid(new_volume['name'])
self.assertEqual(uid, uid_of_new_volume)
class CLIResponseTestCase(test.TestCase):
def test_empty(self):
self.assertEqual(0, len(ssh.CLIResponse('')))
self.assertEqual(0, len(ssh.CLIResponse(('', 'stderr'))))
def test_header(self):
raw = r'''id!name
1!node1
2!node2
'''
resp = ssh.CLIResponse(raw, with_header=True)
self.assertEqual(2, len(resp))
self.assertEqual('1', resp[0]['id'])
self.assertEqual('2', resp[1]['id'])
def test_select(self):
raw = r'''id!123
name!Bill
name!Bill2
age!30
home address!s1
home address!s2
id! 7
name!John
name!John2
age!40
home address!s3
home address!s4
'''
resp = ssh.CLIResponse(raw, with_header=False)
self.assertEqual(list(resp.select('home address', 'name',
'home address')),
[('s1', 'Bill', 's1'), ('s2', 'Bill2', 's2'),
('s3', 'John', 's3'), ('s4', 'John2', 's4')])
def test_lsnode_all(self):
raw = r'''id!name!UPS_serial_number!WWNN!status
1!node1!!500507680200C744!online
2!node2!!500507680200C745!online
'''
resp = ssh.CLIResponse(raw)
self.assertEqual(2, len(resp))
self.assertEqual('1', resp[0]['id'])
self.assertEqual('500507680200C744', resp[0]['WWNN'])
self.assertEqual('2', resp[1]['id'])
self.assertEqual('500507680200C745', resp[1]['WWNN'])
def test_lsnode_single(self):
raw = r'''id!1
port_id!500507680210C744
port_status!active
port_speed!8Gb
port_id!500507680240C744
port_status!inactive
port_speed!8Gb
'''
resp = ssh.CLIResponse(raw, with_header=False)
self.assertEqual(1, len(resp))
self.assertEqual('1', resp[0]['id'])
self.assertEqual(list(resp.select('port_id', 'port_status')),
[('500507680210C744', 'active'),
('500507680240C744', 'inactive')])
class StorwizeHelpersTestCase(test.TestCase):
def setUp(self):
super(StorwizeHelpersTestCase, self).setUp()
self.helpers = helpers.StorwizeHelpers(None)
def test_compression_enabled(self):
fake_license_without_keys = {}
fake_license = {
'license_compression_enclosures': '1',
'license_compression_capacity': '1'
}
# Check when keys of return licenses do not contain
# 'license_compression_enclosures' and 'license_compression_capacity'
with mock.patch.object(ssh.StorwizeSSH, 'lslicense') as lslicense:
lslicense.return_value = fake_license_without_keys
self.assertFalse(self.helpers.compression_enabled())
with mock.patch.object(ssh.StorwizeSSH, 'lslicense') as lslicense:
lslicense.return_value = fake_license
self.assertTrue(self.helpers.compression_enabled())
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