# Copyright (c) 2014 Pure Storage, Inc. # All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. """ Volume driver for Pure Storage FlashArray storage system. This driver requires Purity version 4.0.0 or later. """ import functools import math import platform import re import uuid from oslo_config import cfg from oslo_log import log as logging from oslo_utils import excutils from oslo_utils import units import six from cinder import context from cinder import exception from cinder.i18n import _ from cinder import interface from cinder.objects import fields from cinder import utils from cinder.volume import configuration from cinder.volume import driver from cinder.volume.drivers.san import san from cinder.volume import utils as volume_utils from cinder.volume import volume_types from cinder.zonemanager import utils as fczm_utils try: from purestorage import purestorage except ImportError: purestorage = None LOG = logging.getLogger(__name__) PURE_OPTS = [ cfg.StrOpt("pure_api_token", help="REST API authorization token."), cfg.BoolOpt("pure_automatic_max_oversubscription_ratio", default=True, help="Automatically determine an oversubscription ratio based " "on the current total data reduction values. If used " "this calculated value will override the " "max_over_subscription_ratio config option."), # These are used as default settings. In future these can be overridden # by settings in volume-type. cfg.IntOpt("pure_replica_interval_default", default=3600, help="Snapshot replication interval in seconds."), cfg.IntOpt("pure_replica_retention_short_term_default", default=14400, help="Retain all snapshots on target for this " "time (in seconds.)"), cfg.IntOpt("pure_replica_retention_long_term_per_day_default", default=3, help="Retain how many snapshots for each day."), cfg.IntOpt("pure_replica_retention_long_term_default", default=7, help="Retain snapshots per day on target for this time " "(in days.)"), cfg.BoolOpt("pure_eradicate_on_delete", default=False, help="When enabled, all Pure volumes, snapshots, and " "protection groups will be eradicated at the time of " "deletion in Cinder. Data will NOT be recoverable after " "a delete with this set to True! When disabled, volumes " "and snapshots will go into pending eradication state " "and can be recovered." ) ] CONF = cfg.CONF CONF.register_opts(PURE_OPTS, group=configuration.SHARED_CONF_GROUP) INVALID_CHARACTERS = re.compile(r"[^-a-zA-Z0-9]") GENERATED_NAME = re.compile(r".*-[a-f0-9]{32}-cinder$") REPLICATION_CG_NAME = "cinder-group" CHAP_SECRET_KEY = "PURE_TARGET_CHAP_SECRET" ERR_MSG_NOT_EXIST = "does not exist" ERR_MSG_HOST_NOT_EXIST = "Host " + ERR_MSG_NOT_EXIST ERR_MSG_NO_SUCH_SNAPSHOT = "No such volume or snapshot" ERR_MSG_PENDING_ERADICATION = "has been destroyed" ERR_MSG_ALREADY_EXISTS = "already exists" ERR_MSG_COULD_NOT_BE_FOUND = "could not be found" ERR_MSG_ALREADY_INCLUDES = "already includes" ERR_MSG_ALREADY_ALLOWED = "already allowed on" ERR_MSG_NOT_CONNECTED = "is not connected" ERR_MSG_ALREADY_BELONGS = "already belongs to" ERR_MSG_EXISTING_CONNECTIONS = "cannot be deleted due to existing connections" ERR_MSG_ALREADY_IN_USE = "already in use" EXTRA_SPECS_REPL_ENABLED = "replication_enabled" UNMANAGED_SUFFIX = '-unmanaged' MANAGE_SNAP_REQUIRED_API_VERSIONS = ['1.4', '1.5'] REPLICATION_REQUIRED_API_VERSIONS = ['1.3', '1.4', '1.5'] REPL_SETTINGS_PROPAGATE_RETRY_INTERVAL = 5 # 5 seconds REPL_SETTINGS_PROPAGATE_MAX_RETRIES = 36 # 36 * 5 = 180 seconds HOST_CREATE_MAX_RETRIES = 5 USER_AGENT_BASE = 'OpenStack Cinder' def pure_driver_debug_trace(f): """Log the method entrance and exit including active backend name. This should only be used on VolumeDriver class methods. It depends on having a 'self' argument that is a PureBaseVolumeDriver. """ @functools.wraps(f) def wrapper(*args, **kwargs): driver = args[0] # self cls_name = driver.__class__.__name__ method_name = "%(cls_name)s.%(method)s" % {"cls_name": cls_name, "method": f.__name__} backend_name = driver._get_current_array()._backend_id LOG.debug("[%(backend_name)s] Enter %(method_name)s", {"method_name": method_name, "backend_name": backend_name}) result = f(*args, **kwargs) LOG.debug("[%(backend_name)s] Leave %(method_name)s", {"method_name": method_name, "backend_name": backend_name}) return result return wrapper class PureBaseVolumeDriver(san.SanDriver): """Performs volume management on Pure Storage FlashArray.""" SUPPORTED_REST_API_VERSIONS = ['1.2', '1.3', '1.4', '1.5'] # ThirdPartySystems wiki page CI_WIKI_NAME = "Pure_Storage_CI" def __init__(self, *args, **kwargs): execute = kwargs.pop("execute", utils.execute) super(PureBaseVolumeDriver, self).__init__(execute=execute, *args, **kwargs) self.configuration.append_config_values(PURE_OPTS) self._array = None self._storage_protocol = None self._backend_name = (self.configuration.volume_backend_name or self.__class__.__name__) self._replication_target_arrays = [] self._replication_pg_name = REPLICATION_CG_NAME self._replication_interval = None self._replication_retention_short_term = None self._replication_retention_long_term = None self._replication_retention_long_term_per_day = None self._is_replication_enabled = False self._active_backend_id = kwargs.get('active_backend_id', None) self._failed_over_primary_array = None self._user_agent = '%(base)s %(class)s/%(version)s (%(platform)s)' % { 'base': USER_AGENT_BASE, 'class': self.__class__.__name__, 'version': self.VERSION, 'platform': platform.platform() } def parse_replication_configs(self): self._replication_interval = ( self.configuration.pure_replica_interval_default) self._replication_retention_short_term = ( self.configuration.pure_replica_retention_short_term_default) self._replication_retention_long_term = ( self.configuration.pure_replica_retention_long_term_default) self._replication_retention_long_term_per_day = ( self.configuration. pure_replica_retention_long_term_per_day_default) retention_policy = self._generate_replication_retention() replication_devices = self.configuration.safe_get( 'replication_device') primary_array = self._get_current_array() if replication_devices: for replication_device in replication_devices: backend_id = replication_device["backend_id"] san_ip = replication_device["san_ip"] api_token = replication_device["api_token"] verify_https = replication_device.get("ssl_cert_verify", False) ssl_cert_path = replication_device.get("ssl_cert_path", None) target_array = self._get_flasharray( san_ip, api_token, verify_https=verify_https, ssl_cert_path=ssl_cert_path ) target_array._backend_id = backend_id LOG.debug("Adding san_ip %(san_ip)s to replication_targets.", {"san_ip": san_ip}) api_version = target_array.get_rest_version() if api_version not in REPLICATION_REQUIRED_API_VERSIONS: msg = _('Unable to do replication with Purity REST ' 'API version %(api_version)s, requires one of ' '%(required_versions)s.') % { 'api_version': api_version, 'required_versions': REPLICATION_REQUIRED_API_VERSIONS } raise exception.PureDriverException(reason=msg) target_array_info = target_array.get() target_array.array_name = target_array_info["array_name"] target_array.array_id = target_array_info["id"] LOG.debug("secondary array name: %s", target_array.array_name) LOG.debug("secondary array id: %s", target_array.array_id) self._replication_target_arrays.append(target_array) self._setup_replicated_pgroups(primary_array, self._replication_target_arrays, self._replication_pg_name, self._replication_interval, retention_policy) def do_setup(self, context): """Performs driver initialization steps that could raise exceptions.""" if purestorage is None: msg = _("Missing 'purestorage' python module, ensure the library" " is installed and available.") raise exception.PureDriverException(msg) # Raises PureDriverException if unable to connect and PureHTTPError # if unable to authenticate. purestorage.FlashArray.supported_rest_versions = \ self.SUPPORTED_REST_API_VERSIONS self._array = self._get_flasharray( self.configuration.san_ip, api_token=self.configuration.pure_api_token, verify_https=self.configuration.driver_ssl_cert_verify, ssl_cert_path=self.configuration.driver_ssl_cert_path ) self._array._backend_id = self._backend_name LOG.debug("Primary array backend_id: %s", self.configuration.config_group) LOG.debug("Primary array name: %s", self._array.array_name) LOG.debug("Primary array id: %s", self._array.array_id) self.do_setup_replication() # If we have failed over at some point we need to adjust our current # array based on the one that we have failed over to if (self._active_backend_id is not None and self._active_backend_id != self._array._backend_id): for array in self._replication_target_arrays: if array._backend_id == self._active_backend_id: self._failed_over_primary_array = self._array self._array = array break def do_setup_replication(self): replication_devices = self.configuration.safe_get( 'replication_device') if replication_devices: self.parse_replication_configs() self._is_replication_enabled = True def check_for_setup_error(self): # Avoid inheriting check_for_setup_error from SanDriver, which checks # for san_password or san_private_key, not relevant to our driver. pass @pure_driver_debug_trace def create_volume(self, volume): """Creates a volume.""" vol_name = self._get_vol_name(volume) vol_size = volume["size"] * units.Gi current_array = self._get_current_array() current_array.create_volume(vol_name, vol_size) self._add_to_group_if_needed(volume, vol_name) self._enable_replication_if_needed(current_array, volume) @pure_driver_debug_trace def create_volume_from_snapshot(self, volume, snapshot): """Creates a volume from a snapshot.""" vol_name = self._get_vol_name(volume) if snapshot['group_snapshot'] or snapshot['cgsnapshot']: snap_name = self._get_pgroup_snap_name_from_snapshot(snapshot) else: snap_name = self._get_snap_name(snapshot) if not snap_name: msg = _('Unable to determine snapshot name in Purity for snapshot ' '%(id)s.') % {'id': snapshot['id']} raise exception.PureDriverException(reason=msg) current_array = self._get_current_array() current_array.copy_volume(snap_name, vol_name) self._extend_if_needed(current_array, vol_name, snapshot["volume_size"], volume["size"]) self._add_to_group_if_needed(volume, vol_name) self._enable_replication_if_needed(current_array, volume) def _enable_replication_if_needed(self, array, volume): if self._is_volume_replicated_type(volume): self._enable_replication(array, volume) def _enable_replication(self, array, volume): """Add volume to replicated protection group.""" try: array.set_pgroup(self._replication_pg_name, addvollist=[self._get_vol_name(volume)]) except purestorage.PureHTTPError as err: with excutils.save_and_reraise_exception() as ctxt: if (err.code == 400 and ERR_MSG_ALREADY_BELONGS in err.text): # Happens if the volume already added to PG. ctxt.reraise = False LOG.warning("Adding Volume to Protection Group " "failed with message: %s", err.text) @pure_driver_debug_trace def create_cloned_volume(self, volume, src_vref): """Creates a clone of the specified volume.""" vol_name = self._get_vol_name(volume) src_name = self._get_vol_name(src_vref) # Check which backend the source volume is on. In case of failover # the source volume may be on the secondary array. current_array = self._get_current_array() current_array.copy_volume(src_name, vol_name) self._extend_if_needed(current_array, vol_name, src_vref["size"], volume["size"]) self._add_to_group_if_needed(volume, vol_name) self._enable_replication_if_needed(current_array, volume) def _extend_if_needed(self, array, vol_name, src_size, vol_size): """Extend the volume from size src_size to size vol_size.""" if vol_size > src_size: vol_size = vol_size * units.Gi array.extend_volume(vol_name, vol_size) @pure_driver_debug_trace def delete_volume(self, volume): """Disconnect all hosts and delete the volume""" vol_name = self._get_vol_name(volume) current_array = self._get_current_array() try: connected_hosts = current_array.list_volume_private_connections( vol_name) for host_info in connected_hosts: host_name = host_info["host"] self._disconnect_host(current_array, host_name, vol_name) current_array.destroy_volume(vol_name) if self.configuration.pure_eradicate_on_delete: current_array.eradicate_volume(vol_name) except purestorage.PureHTTPError as err: with excutils.save_and_reraise_exception() as ctxt: if (err.code == 400 and ERR_MSG_NOT_EXIST in err.text): # Happens if the volume does not exist. ctxt.reraise = False LOG.warning("Volume deletion failed with message: %s", err.text) @pure_driver_debug_trace def create_snapshot(self, snapshot): """Creates a snapshot.""" # Get current array in case we have failed over via replication. current_array = self._get_current_array() vol_name, snap_suff = self._get_snap_name(snapshot).split(".") current_array.create_snapshot(vol_name, suffix=snap_suff) @pure_driver_debug_trace def delete_snapshot(self, snapshot): """Deletes a snapshot.""" # Get current array in case we have failed over via replication. current_array = self._get_current_array() snap_name = self._get_snap_name(snapshot) try: current_array.destroy_volume(snap_name) if self.configuration.pure_eradicate_on_delete: current_array.eradicate_volume(snap_name) except purestorage.PureHTTPError as err: with excutils.save_and_reraise_exception() as ctxt: if err.code == 400 and ( ERR_MSG_NOT_EXIST in err.text or ERR_MSG_NO_SUCH_SNAPSHOT in err.text or ERR_MSG_PENDING_ERADICATION in err.text): # Happens if the snapshot does not exist. ctxt.reraise = False LOG.warning("Unable to delete snapshot, assuming " "already deleted. Error: %s", err.text) def ensure_export(self, context, volume): pass def create_export(self, context, volume, connector): pass def initialize_connection(self, volume, connector): """Connect the volume to the specified initiator in Purity. This implementation is specific to the host type (iSCSI, FC, etc). """ raise NotImplementedError def _get_host(self, array, connector): """Get a Purity Host that corresponds to the host in the connector. This implementation is specific to the host type (iSCSI, FC, etc). """ raise NotImplementedError def _disconnect(self, array, volume, connector, **kwargs): """Disconnect the volume from the host described by the connector. If no connector is specified it will remove *all* attachments for the volume. Returns True if it was the hosts last connection. """ vol_name = self._get_vol_name(volume) if connector is None: # If no connector was provided it is a force-detach, remove all # host connections for the volume LOG.warning("Removing ALL host connections for volume %s", vol_name) connections = array.list_volume_private_connections(vol_name) for connection in connections: self._disconnect_host(array, connection['host'], vol_name) return False else: # Normal case with a specific initiator to detach it from host = self._get_host(array, connector) if host: host_name = host["name"] return self._disconnect_host(array, host_name, vol_name) else: LOG.error("Unable to disconnect host from volume, could not " "determine Purity host") return False @pure_driver_debug_trace def terminate_connection(self, volume, connector, **kwargs): """Terminate connection.""" # Get current array in case we have failed over via replication. current_array = self._get_current_array() self._disconnect(current_array, volume, connector, **kwargs) @pure_driver_debug_trace def _disconnect_host(self, array, host_name, vol_name): """Return value indicates if host should be cleaned up.""" try: array.disconnect_host(host_name, vol_name) except purestorage.PureHTTPError as err: with excutils.save_and_reraise_exception() as ctxt: if err.code == 400 and ERR_MSG_NOT_CONNECTED in err.text: # Happens if the host and volume are not connected. ctxt.reraise = False LOG.error("Disconnection failed with message: " "%(msg)s.", {"msg": err.text}) connections = None try: connections = array.list_host_connections(host_name, private=True) except purestorage.PureHTTPError as err: with excutils.save_and_reraise_exception() as ctxt: if err.code == 400 and ERR_MSG_NOT_EXIST in err.text: ctxt.reraise = False # Assume still used if volumes are attached host_still_used = bool(connections) if GENERATED_NAME.match(host_name) and not host_still_used: LOG.info("Attempting to delete unneeded host %(host_name)r.", {"host_name": host_name}) try: array.delete_host(host_name) host_still_used = False except purestorage.PureHTTPError as err: with excutils.save_and_reraise_exception() as ctxt: if err.code == 400: if ERR_MSG_NOT_EXIST in err.text: # Happens if the host is already deleted. # This is fine though, just log so we know what # happened. ctxt.reraise = False host_still_used = False LOG.debug("Purity host deletion failed: " "%(msg)s.", {"msg": err.text}) if ERR_MSG_EXISTING_CONNECTIONS in err.text: # If someone added a connection underneath us # that's ok, just keep going. ctxt.reraise = False host_still_used = True LOG.debug("Purity host deletion ignored: %(msg)s", {"msg": err.text}) return not host_still_used @pure_driver_debug_trace def get_volume_stats(self, refresh=False): """Return the current state of the volume service. If 'refresh' is True, run the update first. """ if refresh: LOG.debug("Updating volume stats.") self._update_stats() return self._stats def _update_stats(self): """Set self._stats with relevant information.""" current_array = self._get_current_array() # Collect info from the array space_info = current_array.get(space=True) perf_info = current_array.get(action='monitor')[0] # Always index 0 hosts = current_array.list_hosts() snaps = current_array.list_volumes(snap=True, pending=True) pgroups = current_array.list_pgroups(pending=True) # Perform some translations and calculations total_capacity = float(space_info["capacity"]) / units.Gi used_space = float(space_info["total"]) / units.Gi free_space = float(total_capacity - used_space) prov_space, total_vols = self._get_provisioned_space() total_hosts = len(hosts) total_snaps = len(snaps) total_pgroups = len(pgroups) provisioned_space = float(prov_space) / units.Gi thin_provisioning = self._get_thin_provisioning(provisioned_space, used_space) # Start with some required info data = dict( volume_backend_name=self._backend_name, vendor_name='Pure Storage', driver_version=self.VERSION, storage_protocol=self._storage_protocol, ) # Add flags for supported features data['consistencygroup_support'] = True data['thin_provisioning_support'] = True data['multiattach'] = False data['QoS_support'] = False # Add capacity info for scheduler data['total_capacity_gb'] = total_capacity data['free_capacity_gb'] = free_space data['reserved_percentage'] = self.configuration.reserved_percentage data['provisioned_capacity'] = provisioned_space data['max_over_subscription_ratio'] = thin_provisioning # Add the filtering/goodness functions data['filter_function'] = self.get_filter_function() data['goodness_function'] = self.get_goodness_function() # Add array metadata counts for filtering and weighing functions data['total_volumes'] = total_vols data['total_snapshots'] = total_snaps data['total_hosts'] = total_hosts data['total_pgroups'] = total_pgroups # Add performance stats for filtering and weighing functions # IOPS data['writes_per_sec'] = perf_info['writes_per_sec'] data['reads_per_sec'] = perf_info['reads_per_sec'] # Bandwidth data['input_per_sec'] = perf_info['input_per_sec'] data['output_per_sec'] = perf_info['output_per_sec'] # Latency data['usec_per_read_op'] = perf_info['usec_per_read_op'] data['usec_per_write_op'] = perf_info['usec_per_write_op'] data['queue_depth'] = perf_info['queue_depth'] # Replication data["replication_enabled"] = self._is_replication_enabled data["replication_type"] = ["async"] data["replication_count"] = len(self._replication_target_arrays) data["replication_targets"] = [array._backend_id for array in self._replication_target_arrays] self._stats = data def _get_provisioned_space(self): """Sum up provisioned size of all volumes on array""" volumes = self._get_current_array().list_volumes(pending=True) return sum(item["size"] for item in volumes), len(volumes) def _get_thin_provisioning(self, provisioned_space, used_space): """Get the current value for the thin provisioning ratio. If pure_automatic_max_oversubscription_ratio is True we will calculate a value, if not we will respect the configuration option for the max_over_subscription_ratio. """ if (self.configuration.pure_automatic_max_oversubscription_ratio and used_space != 0 and provisioned_space != 0): # If array is empty we can not calculate a max oversubscription # ratio. In this case we look to the config option as a starting # point. Once some volumes are actually created and some data is # stored on the array a much more accurate number will be # presented based on current usage. thin_provisioning = provisioned_space / used_space else: thin_provisioning = volume_utils.get_max_over_subscription_ratio( self.configuration.max_over_subscription_ratio, supports_auto=True) return thin_provisioning @pure_driver_debug_trace def extend_volume(self, volume, new_size): """Extend volume to new_size.""" # Get current array in case we have failed over via replication. current_array = self._get_current_array() vol_name = self._get_vol_name(volume) new_size = new_size * units.Gi current_array.extend_volume(vol_name, new_size) def _add_volume_to_consistency_group(self, group_id, vol_name): pgroup_name = self._get_pgroup_name_from_id(group_id) current_array = self._get_current_array() current_array.set_pgroup(pgroup_name, addvollist=[vol_name]) @pure_driver_debug_trace def create_consistencygroup(self, context, group): """Creates a consistencygroup.""" current_array = self._get_current_array() current_array.create_pgroup(self._get_pgroup_name_from_id(group.id)) model_update = {'status': fields.ConsistencyGroupStatus.AVAILABLE} return model_update def _create_cg_from_cgsnap(self, volumes, snapshots): """Creates a new consistency group from a cgsnapshot. The new volumes will be consistent with the snapshot. """ for volume, snapshot in zip(volumes, snapshots): self.create_volume_from_snapshot(volume, snapshot) def _create_cg_from_cg(self, group, source_group, volumes, source_vols): """Creates a new consistency group from an existing cg. The new volumes will be in a consistent state, but this requires taking a new temporary group snapshot and cloning from that. """ pgroup_name = self._get_pgroup_name_from_id(source_group.id) tmp_suffix = '%s-tmp' % uuid.uuid4() tmp_pgsnap_name = '%(pgroup_name)s.%(pgsnap_suffix)s' % { 'pgroup_name': pgroup_name, 'pgsnap_suffix': tmp_suffix, } LOG.debug('Creating temporary Protection Group snapshot %(snap_name)s ' 'while cloning Consistency Group %(source_group)s.', {'snap_name': tmp_pgsnap_name, 'source_group': source_group.id}) current_array = self._get_current_array() current_array.create_pgroup_snapshot(pgroup_name, suffix=tmp_suffix) try: for source_vol, cloned_vol in zip(source_vols, volumes): source_snap_name = self._get_pgroup_vol_snap_name( pgroup_name, tmp_suffix, self._get_vol_name(source_vol) ) cloned_vol_name = self._get_vol_name(cloned_vol) current_array.copy_volume(source_snap_name, cloned_vol_name) self._add_volume_to_consistency_group( group.id, cloned_vol_name ) finally: self._delete_pgsnapshot(tmp_pgsnap_name) @pure_driver_debug_trace def create_consistencygroup_from_src(self, context, group, volumes, cgsnapshot=None, snapshots=None, source_cg=None, source_vols=None): self.create_consistencygroup(context, group) if cgsnapshot and snapshots: self._create_cg_from_cgsnap(volumes, snapshots) elif source_cg: self._create_cg_from_cg(group, source_cg, volumes, source_vols) return None, None @pure_driver_debug_trace def delete_consistencygroup(self, context, group, volumes): """Deletes a consistency group.""" try: pgroup_name = self._get_pgroup_name_from_id(group.id) current_array = self._get_current_array() current_array.destroy_pgroup(pgroup_name) if self.configuration.pure_eradicate_on_delete: current_array.eradicate_pgroup(pgroup_name) except purestorage.PureHTTPError as err: with excutils.save_and_reraise_exception() as ctxt: if (err.code == 400 and (ERR_MSG_PENDING_ERADICATION in err.text or ERR_MSG_NOT_EXIST in err.text)): # Treat these as a "success" case since we are trying # to delete them anyway. ctxt.reraise = False LOG.warning("Unable to delete Protection Group: %s", err.text) for volume in volumes: self.delete_volume(volume) return None, None @pure_driver_debug_trace def update_consistencygroup(self, context, group, add_volumes=None, remove_volumes=None): pgroup_name = self._get_pgroup_name_from_id(group.id) if add_volumes: addvollist = [self._get_vol_name(vol) for vol in add_volumes] else: addvollist = [] if remove_volumes: remvollist = [self._get_vol_name(vol) for vol in remove_volumes] else: remvollist = [] current_array = self._get_current_array() current_array.set_pgroup(pgroup_name, addvollist=addvollist, remvollist=remvollist) return None, None, None @pure_driver_debug_trace def create_cgsnapshot(self, context, cgsnapshot, snapshots): """Creates a cgsnapshot.""" cg_id = self._get_group_id_from_snap(cgsnapshot) pgroup_name = self._get_pgroup_name_from_id(cg_id) pgsnap_suffix = self._get_pgroup_snap_suffix(cgsnapshot) current_array = self._get_current_array() current_array.create_pgroup_snapshot(pgroup_name, suffix=pgsnap_suffix) return None, None def _delete_pgsnapshot(self, pgsnap_name): current_array = self._get_current_array() try: # FlashArray.destroy_pgroup is also used for deleting # pgroup snapshots. The underlying REST API is identical. current_array.destroy_pgroup(pgsnap_name) if self.configuration.pure_eradicate_on_delete: current_array.eradicate_pgroup(pgsnap_name) except purestorage.PureHTTPError as err: with excutils.save_and_reraise_exception() as ctxt: if (err.code == 400 and (ERR_MSG_PENDING_ERADICATION in err.text or ERR_MSG_NOT_EXIST in err.text)): # Treat these as a "success" case since we are trying # to delete them anyway. ctxt.reraise = False LOG.warning("Unable to delete Protection Group " "Snapshot: %s", err.text) @pure_driver_debug_trace def delete_cgsnapshot(self, context, cgsnapshot, snapshots): """Deletes a cgsnapshot.""" pgsnap_name = self._get_pgroup_snap_name(cgsnapshot) self._delete_pgsnapshot(pgsnap_name) return None, None def _validate_manage_existing_ref(self, existing_ref, is_snap=False): """Ensure that an existing_ref is valid and return volume info If the ref is not valid throw a ManageExistingInvalidReference exception with an appropriate error. Will return volume or snapshot information from the array for the object specified by existing_ref. """ if "name" not in existing_ref or not existing_ref["name"]: raise exception.ManageExistingInvalidReference( existing_ref=existing_ref, reason=_("manage_existing requires a 'name'" " key to identify an existing volume.")) if is_snap: # Purity snapshot names are prefixed with the source volume name. ref_vol_name, ref_snap_suffix = existing_ref['name'].split('.') else: ref_vol_name = existing_ref['name'] current_array = self._get_current_array() try: volume_info = current_array.get_volume(ref_vol_name, snap=is_snap) if volume_info: if is_snap: for snap in volume_info: if snap['name'] == existing_ref['name']: return snap else: return volume_info except purestorage.PureHTTPError as err: with excutils.save_and_reraise_exception() as ctxt: if (err.code == 400 and ERR_MSG_NOT_EXIST in err.text): ctxt.reraise = False # If volume information was unable to be retrieved we need # to throw an Invalid Reference exception. raise exception.ManageExistingInvalidReference( existing_ref=existing_ref, reason=_("Unable to find Purity ref with name=%s") % ref_vol_name) def _add_to_group_if_needed(self, volume, vol_name): if volume['group_id']: # If the query blows up just let it raise up the stack, the volume # should be put into an error state group = volume_utils.group_get_by_id(volume['group_id']) if volume_utils.is_group_a_cg_snapshot_type(group): self._add_volume_to_consistency_group( volume['group_id'], vol_name ) elif volume['consistencygroup_id']: self._add_volume_to_consistency_group( volume['consistencygroup_id'], vol_name ) def create_group(self, ctxt, group): """Creates a group. :param ctxt: the context of the caller. :param group: the Group object of the group to be created. :returns: model_update """ if volume_utils.is_group_a_cg_snapshot_type(group): return self.create_consistencygroup(ctxt, group) # If it wasn't a consistency group request ignore it and we'll rely on # the generic group implementation. raise NotImplementedError() def delete_group(self, ctxt, group, volumes): """Deletes a group. :param ctxt: the context of the caller. :param group: the Group object of the group to be deleted. :param volumes: a list of Volume objects in the group. :returns: model_update, volumes_model_update """ if volume_utils.is_group_a_cg_snapshot_type(group): return self.delete_consistencygroup(ctxt, group, volumes) # If it wasn't a consistency group request ignore it and we'll rely on # the generic group implementation. raise NotImplementedError() def update_group(self, ctxt, group, add_volumes=None, remove_volumes=None): """Updates a group. :param ctxt: the context of the caller. :param group: the Group object of the group to be updated. :param add_volumes: a list of Volume objects to be added. :param remove_volumes: a list of Volume objects to be removed. :returns: model_update, add_volumes_update, remove_volumes_update """ if volume_utils.is_group_a_cg_snapshot_type(group): return self.update_consistencygroup(ctxt, group, add_volumes, remove_volumes) # If it wasn't a consistency group request ignore it and we'll rely on # the generic group implementation. raise NotImplementedError() def create_group_from_src(self, ctxt, group, volumes, group_snapshot=None, snapshots=None, source_group=None, source_vols=None): """Creates a group from source. :param ctxt: the context of the caller. :param group: the Group object to be created. :param volumes: a list of Volume objects in the group. :param group_snapshot: the GroupSnapshot object as source. :param snapshots: a list of snapshot objects in group_snapshot. :param source_group: the Group object as source. :param source_vols: a list of volume objects in the source_group. :returns: model_update, volumes_model_update """ if volume_utils.is_group_a_cg_snapshot_type(group): return self.create_consistencygroup_from_src(ctxt, group, volumes, group_snapshot, snapshots, source_group, source_vols) # If it wasn't a consistency group request ignore it and we'll rely on # the generic group implementation. raise NotImplementedError() def create_group_snapshot(self, ctxt, group_snapshot, snapshots): """Creates a group_snapshot. :param ctxt: the context of the caller. :param group_snapshot: the GroupSnapshot object to be created. :param snapshots: a list of Snapshot objects in the group_snapshot. :returns: model_update, snapshots_model_update """ if volume_utils.is_group_a_cg_snapshot_type(group_snapshot): return self.create_cgsnapshot(ctxt, group_snapshot, snapshots) # If it wasn't a consistency group request ignore it and we'll rely on # the generic group implementation. raise NotImplementedError() def delete_group_snapshot(self, ctxt, group_snapshot, snapshots): """Deletes a group_snapshot. :param ctxt: the context of the caller. :param group_snapshot: the GroupSnapshot object to be deleted. :param snapshots: a list of snapshot objects in the group_snapshot. :returns: model_update, snapshots_model_update """ if volume_utils.is_group_a_cg_snapshot_type(group_snapshot): return self.delete_cgsnapshot(ctxt, group_snapshot, snapshots) # If it wasn't a consistency group request ignore it and we'll rely on # the generic group implementation. raise NotImplementedError() @pure_driver_debug_trace def manage_existing(self, volume, existing_ref): """Brings an existing backend storage object under Cinder management. We expect a volume name in the existing_ref that matches one in Purity. """ self._validate_manage_existing_ref(existing_ref) ref_vol_name = existing_ref['name'] current_array = self._get_current_array() connected_hosts = \ current_array.list_volume_private_connections(ref_vol_name) if len(connected_hosts) > 0: raise exception.ManageExistingInvalidReference( existing_ref=existing_ref, reason=_("%(driver)s manage_existing cannot manage a volume " "connected to hosts. Please disconnect this volume " "from existing hosts before importing" ) % {'driver': self.__class__.__name__}) new_vol_name = self._get_vol_name(volume) LOG.info("Renaming existing volume %(ref_name)s to %(new_name)s", {"ref_name": ref_vol_name, "new_name": new_vol_name}) self._rename_volume_object(ref_vol_name, new_vol_name, raise_not_exist=True) return None @pure_driver_debug_trace def manage_existing_get_size(self, volume, existing_ref): """Return size of volume to be managed by manage_existing. We expect a volume name in the existing_ref that matches one in Purity. """ volume_info = self._validate_manage_existing_ref(existing_ref) size = self._round_bytes_to_gib(volume_info['size']) return size def _rename_volume_object(self, old_name, new_name, raise_not_exist=False): """Rename a volume object (could be snapshot) in Purity. This will not raise an exception if the object does not exist """ current_array = self._get_current_array() try: current_array.rename_volume(old_name, new_name) except purestorage.PureHTTPError as err: with excutils.save_and_reraise_exception() as ctxt: if (err.code == 400 and ERR_MSG_NOT_EXIST in err.text): ctxt.reraise = raise_not_exist LOG.warning("Unable to rename %(old_name)s, error " "message: %(error)s", {"old_name": old_name, "error": err.text}) return new_name @pure_driver_debug_trace def unmanage(self, volume): """Removes the specified volume from Cinder management. Does not delete the underlying backend storage object. The volume will be renamed with "-unmanaged" as a suffix """ vol_name = self._get_vol_name(volume) unmanaged_vol_name = vol_name + UNMANAGED_SUFFIX LOG.info("Renaming existing volume %(ref_name)s to %(new_name)s", {"ref_name": vol_name, "new_name": unmanaged_vol_name}) self._rename_volume_object(vol_name, unmanaged_vol_name) def _verify_manage_snap_api_requirements(self): current_array = self._get_current_array() api_version = current_array.get_rest_version() if api_version not in MANAGE_SNAP_REQUIRED_API_VERSIONS: msg = _('Unable to do manage snapshot operations with Purity REST ' 'API version %(api_version)s, requires ' '%(required_versions)s.') % { 'api_version': api_version, 'required_versions': MANAGE_SNAP_REQUIRED_API_VERSIONS } raise exception.PureDriverException(reason=msg) def manage_existing_snapshot(self, snapshot, existing_ref): """Brings an existing backend storage object under Cinder management. We expect a snapshot name in the existing_ref that matches one in Purity. """ self._verify_manage_snap_api_requirements() self._validate_manage_existing_ref(existing_ref, is_snap=True) ref_snap_name = existing_ref['name'] new_snap_name = self._get_snap_name(snapshot) LOG.info("Renaming existing snapshot %(ref_name)s to " "%(new_name)s", {"ref_name": ref_snap_name, "new_name": new_snap_name}) self._rename_volume_object(ref_snap_name, new_snap_name, raise_not_exist=True) return None def manage_existing_snapshot_get_size(self, snapshot, existing_ref): """Return size of snapshot to be managed by manage_existing. We expect a snapshot name in the existing_ref that matches one in Purity. """ self._verify_manage_snap_api_requirements() snap_info = self._validate_manage_existing_ref(existing_ref, is_snap=True) size = self._round_bytes_to_gib(snap_info['size']) return size def unmanage_snapshot(self, snapshot): """Removes the specified snapshot from Cinder management. Does not delete the underlying backend storage object. We expect a snapshot name in the existing_ref that matches one in Purity. """ self._verify_manage_snap_api_requirements() snap_name = self._get_snap_name(snapshot) unmanaged_snap_name = snap_name + UNMANAGED_SUFFIX LOG.info("Renaming existing snapshot %(ref_name)s to " "%(new_name)s", {"ref_name": snap_name, "new_name": unmanaged_snap_name}) self._rename_volume_object(snap_name, unmanaged_snap_name) def get_manageable_volumes(self, cinder_volumes, marker, limit, offset, sort_keys, sort_dirs): """List volumes on the backend available for management by Cinder. Rule out volumes that are attached to a Purity host or that are already in the list of cinder_volumes. We return references of the volume names for any others. """ array = self._get_current_array() pure_vols = array.list_volumes() hosts_with_connections = array.list_hosts(all=True) # Put together a map of volumes that are connected to hosts connected_vols = {} for host in hosts_with_connections: vol = host.get('vol') if vol: connected_vols[vol] = host['name'] # Put together a map of existing cinder volumes on the array # so we can lookup cinder id's by purity volume names existing_vols = {} for cinder_vol in cinder_volumes: existing_vols[self._get_vol_name(cinder_vol)] = cinder_vol.name_id manageable_vols = [] for pure_vol in pure_vols: vol_name = pure_vol['name'] cinder_id = existing_vols.get(vol_name) is_safe = True reason_not_safe = None host = connected_vols.get(vol_name) if host: is_safe = False reason_not_safe = _('Volume connected to host %s.') % host if cinder_id: is_safe = False reason_not_safe = _('Volume already managed.') manageable_vols.append({ 'reference': {'name': vol_name}, 'size': self._round_bytes_to_gib(pure_vol['size']), 'safe_to_manage': is_safe, 'reason_not_safe': reason_not_safe, 'cinder_id': cinder_id, 'extra_info': None, }) return volume_utils.paginate_entries_list( manageable_vols, marker, limit, offset, sort_keys, sort_dirs) def get_manageable_snapshots(self, cinder_snapshots, marker, limit, offset, sort_keys, sort_dirs): """List snapshots on the backend available for management by Cinder.""" array = self._get_current_array() pure_snapshots = array.list_volumes(snap=True) # Put together a map of existing cinder snapshots on the array # so we can lookup cinder id's by purity snapshot names existing_snapshots = {} for cinder_snap in cinder_snapshots: name = self._get_snap_name(cinder_snap) existing_snapshots[name] = cinder_snap.id manageable_snaps = [] for pure_snap in pure_snapshots: snap_name = pure_snap['name'] cinder_id = existing_snapshots.get(snap_name) is_safe = True reason_not_safe = None if cinder_id: is_safe = False reason_not_safe = _("Snapshot already managed.") manageable_snaps.append({ 'reference': {'name': snap_name}, 'size': self._round_bytes_to_gib(pure_snap['size']), 'safe_to_manage': is_safe, 'reason_not_safe': reason_not_safe, 'cinder_id': cinder_id, 'extra_info': None, 'source_reference': {'name': pure_snap['source']}, }) return volume_utils.paginate_entries_list( manageable_snaps, marker, limit, offset, sort_keys, sort_dirs) @staticmethod def _round_bytes_to_gib(size): return int(math.ceil(float(size) / units.Gi)) def _get_flasharray(self, san_ip, api_token, rest_version=None, verify_https=None, ssl_cert_path=None): array = purestorage.FlashArray(san_ip, api_token=api_token, rest_version=rest_version, verify_https=verify_https, ssl_cert=ssl_cert_path, user_agent=self._user_agent) array_info = array.get() array.array_name = array_info["array_name"] array.array_id = array_info["id"] LOG.debug("connected to %(array_name)s with REST API %(api_version)s", {"array_name": array.array_name, "api_version": array._rest_version}) return array @staticmethod def _client_version_greater_than(version): module_version = [int(v) for v in purestorage.VERSION.split('.')] for limit_version, actual_version in zip(version, module_version): if actual_version > limit_version: return True return False @staticmethod def _get_vol_name(volume): """Return the name of the volume Purity will use.""" return volume["name"] + "-cinder" @staticmethod def _get_snap_name(snapshot): """Return the name of the snapshot that Purity will use.""" return "%s-cinder.%s" % (snapshot["volume_name"], snapshot["name"]) @staticmethod def _get_pgroup_name_from_id(id): return "consisgroup-%s-cinder" % id @staticmethod def _get_pgroup_snap_suffix(group_snapshot): return "cgsnapshot-%s-cinder" % group_snapshot['id'] @staticmethod def _get_group_id_from_snap(group_snap): # We don't really care what kind of group it is, if we are calling # this look for a group_id and fall back to using a consistencygroup_id id = None try: id = group_snap['group_id'] except AttributeError: pass if id is None: try: id = group_snap['consistencygroup_id'] except AttributeError: pass return id @classmethod def _get_pgroup_snap_name(cls, group_snapshot): """Return the name of the pgroup snapshot that Purity will use""" group_id = cls._get_group_id_from_snap(group_snapshot) return "%s.%s" % (cls._get_pgroup_name_from_id(group_id), cls._get_pgroup_snap_suffix(group_snapshot)) @staticmethod def _get_pgroup_vol_snap_name(pg_name, pgsnap_suffix, volume_name): return "%(pgroup_name)s.%(pgsnap_suffix)s.%(volume_name)s" % { 'pgroup_name': pg_name, 'pgsnap_suffix': pgsnap_suffix, 'volume_name': volume_name, } def _get_pgroup_snap_name_from_snapshot(self, snapshot): """Return the name of the snapshot that Purity will use.""" group_snap = None if snapshot.group_snapshot: group_snap = snapshot.group_snapshot elif snapshot.cgsnapshot: group_snap = snapshot.cgsnapshot pg_vol_snap_name = "%(group_snap)s.%(volume_name)s-cinder" % { 'group_snap': self._get_pgroup_snap_name(group_snap), 'volume_name': snapshot.volume_name } return pg_vol_snap_name @staticmethod def _generate_purity_host_name(name): """Return a valid Purity host name based on the name passed in.""" if len(name) > 23: name = name[0:23] name = INVALID_CHARACTERS.sub("-", name) name = name.lstrip("-") return "{name}-{uuid}-cinder".format(name=name, uuid=uuid.uuid4().hex) @staticmethod def _connect_host_to_vol(array, host_name, vol_name): connection = None try: connection = array.connect_host(host_name, vol_name) except purestorage.PureHTTPError as err: if err.code == 400 and ERR_MSG_HOST_NOT_EXIST in err.text: LOG.debug('Unable to attach volume to host: %s', err.text) raise exception.PureRetryableException() with excutils.save_and_reraise_exception() as ctxt: if (err.code == 400 and ERR_MSG_ALREADY_EXISTS in err.text): # Happens if the volume is already connected to the host. # Treat this as a success. ctxt.reraise = False LOG.debug("Volume connection already exists for Purity " "host with message: %s", err.text) # Get the info for the existing connection. connected_hosts = ( array.list_volume_private_connections(vol_name)) for host_info in connected_hosts: if host_info["host"] == host_name: connection = host_info break if not connection: raise exception.PureDriverException( reason=_("Unable to connect or find connection to host")) return connection def retype(self, context, volume, new_type, diff, host): """Retype from one volume type to another on the same backend. For a Pure Array there is currently no differentiation between types of volumes other than some being part of a protection group to be replicated. """ previous_vol_replicated = self._is_volume_replicated_type(volume) new_vol_replicated = False if new_type: specs = new_type.get("extra_specs") if specs and EXTRA_SPECS_REPL_ENABLED in specs: replication_capability = specs[EXTRA_SPECS_REPL_ENABLED] # Do not validate settings, ignore invalid. new_vol_replicated = (replication_capability == " True") if previous_vol_replicated and not new_vol_replicated: # Remove from protection group. self._disable_replication(volume) elif not previous_vol_replicated and new_vol_replicated: # Add to protection group. self._enable_replication(self._get_current_array(), volume) return True, None @pure_driver_debug_trace def _disable_replication(self, volume): """Disable replication on the given volume.""" current_array = self._get_current_array() LOG.debug("Disabling replication for volume %(id)s residing on " "array %(backend_id)s.", {"id": volume["id"], "backend_id": current_array._backend_id}) try: current_array.set_pgroup(self._replication_pg_name, remvollist=([self._get_vol_name(volume)])) except purestorage.PureHTTPError as err: with excutils.save_and_reraise_exception() as ctxt: if (err.code == 400 and ERR_MSG_COULD_NOT_BE_FOUND in err.text): ctxt.reraise = False LOG.warning("Disable replication on volume failed: " "already disabled: %s", err.text) else: LOG.error("Disable replication on volume failed with " "message: %s", err.text) @pure_driver_debug_trace def failover_host(self, context, volumes, secondary_id=None, groups=None): """Failover backend to a secondary array This action will not affect the original volumes in any way and it will stay as is. If a subsequent failover is performed we will simply overwrite the original (now unmanaged) volumes. """ if secondary_id == 'default': # We are going back to the 'original' driver config, just put # our current array back to the primary. if self._failed_over_primary_array: self._set_current_array(self._failed_over_primary_array) return secondary_id, [], [] else: msg = _('Unable to failback to "default", this can only be ' 'done after a failover has completed.') raise exception.InvalidReplicationTarget(message=msg) current_array = self._get_current_array() LOG.debug("Failover replication for array %(primary)s to " "%(secondary)s.", {"primary": current_array._backend_id, "secondary": secondary_id}) if secondary_id == current_array._backend_id: raise exception.InvalidReplicationTarget( reason=_("Secondary id can not be the same as primary array, " "backend_id = %(secondary)s.") % {"secondary": secondary_id} ) secondary_array, pg_snap = self._find_failover_target(secondary_id) LOG.debug("Starting failover from %(primary)s to %(secondary)s", {"primary": current_array.array_name, "secondary": secondary_array.array_name}) # NOTE(patrickeast): This currently requires a call with REST API 1.3. # If we need to, create a temporary FlashArray for this operation. api_version = secondary_array.get_rest_version() LOG.debug("Current REST API for array id %(id)s is %(api_version)s", {"id": secondary_array.array_id, "api_version": api_version}) if api_version != '1.3': target_array = self._get_flasharray( secondary_array._target, api_token=secondary_array._api_token, rest_version='1.3', verify_https=secondary_array._verify_https, ssl_cert_path=secondary_array._ssl_cert ) else: target_array = secondary_array volume_snaps = target_array.get_volume(pg_snap['name'], snap=True, pgroup=True) # We only care about volumes that are in the list we are given. vol_names = set() for vol in volumes: vol_names.add(self._get_vol_name(vol)) for snap in volume_snaps: vol_name = snap['name'].split('.')[-1] if vol_name in vol_names: vol_names.remove(vol_name) LOG.debug('Creating volume %(vol)s from replicated snapshot ' '%(snap)s', {'vol': vol_name, 'snap': snap['name']}) secondary_array.copy_volume(snap['name'], vol_name, overwrite=True) else: LOG.debug('Ignoring unmanaged volume %(vol)s from replicated ' 'snapshot %(snap)s.', {'vol': vol_name, 'snap': snap['name']}) # The only volumes remaining in the vol_names set have been left behind # on the array and should be considered as being in an error state. model_updates = [] for vol in volumes: if self._get_vol_name(vol) in vol_names: model_updates.append({ 'volume_id': vol['id'], 'updates': { 'status': 'error', } }) # After failover we want our current array to be swapped for the # secondary array we just failed over to. self._failed_over_primary_array = self._get_current_array() self._set_current_array(secondary_array) return secondary_array._backend_id, model_updates, [] def _does_pgroup_exist(self, array, pgroup_name): """Return True/False""" try: array.get_pgroup(pgroup_name) return True except purestorage.PureHTTPError as err: with excutils.save_and_reraise_exception() as ctxt: if err.code == 400 and ERR_MSG_NOT_EXIST in err.text: ctxt.reraise = False return False # Any unexpected exception to be handled by caller. @pure_driver_debug_trace @utils.retry(exception.PureDriverException, REPL_SETTINGS_PROPAGATE_RETRY_INTERVAL, REPL_SETTINGS_PROPAGATE_MAX_RETRIES) def _wait_until_target_group_setting_propagates( self, target_array, pgroup_name_on_target): # Wait for pgroup to show up on target array. if self._does_pgroup_exist(target_array, pgroup_name_on_target): return else: raise exception.PureDriverException(message= _('Protection Group not ' 'ready.')) @pure_driver_debug_trace @utils.retry(exception.PureDriverException, REPL_SETTINGS_PROPAGATE_RETRY_INTERVAL, REPL_SETTINGS_PROPAGATE_MAX_RETRIES) def _wait_until_source_array_allowed(self, source_array, pgroup_name): result = source_array.get_pgroup(pgroup_name) if result["targets"][0]["allowed"]: return else: raise exception.PureDriverException(message=_('Replication not ' 'allowed yet.')) def _get_pgroup_name_on_target(self, source_array_name, pgroup_name): return "%s:%s" % (source_array_name, pgroup_name) @pure_driver_debug_trace def _setup_replicated_pgroups(self, primary, secondaries, pg_name, replication_interval, retention_policy): self._create_protection_group_if_not_exist( primary, pg_name) # Apply retention policies to a protection group. # These retention policies will be applied on the replicated # snapshots on the target array. primary.set_pgroup(pg_name, **retention_policy) # Configure replication propagation frequency on a # protection group. primary.set_pgroup(pg_name, replicate_frequency=replication_interval) for target_array in secondaries: try: # Configure PG to replicate to target_array. primary.set_pgroup(pg_name, addtargetlist=[target_array.array_name]) except purestorage.PureHTTPError as err: with excutils.save_and_reraise_exception() as ctxt: if err.code == 400 and ( ERR_MSG_ALREADY_INCLUDES in err.text): ctxt.reraise = False LOG.info("Skipping add target %(target_array)s" " to protection group %(pgname)s" " since it's already added.", {"target_array": target_array.array_name, "pgname": pg_name}) # Wait until "Target Group" setting propagates to target_array. pgroup_name_on_target = self._get_pgroup_name_on_target( primary.array_name, pg_name) for target_array in secondaries: self._wait_until_target_group_setting_propagates( target_array, pgroup_name_on_target) try: # Configure the target_array to allow replication from the # PG on source_array. target_array.set_pgroup(pgroup_name_on_target, allowed=True) except purestorage.PureHTTPError as err: with excutils.save_and_reraise_exception() as ctxt: if (err.code == 400 and ERR_MSG_ALREADY_ALLOWED in err.text): ctxt.reraise = False LOG.info("Skipping allow pgroup %(pgname)s on " "target array %(target_array)s since " "it is already allowed.", {"pgname": pg_name, "target_array": target_array.array_name}) # Wait until source array acknowledges previous operation. self._wait_until_source_array_allowed(primary, pg_name) # Start replication on the PG. primary.set_pgroup(pg_name, replicate_enabled=True) @pure_driver_debug_trace def _generate_replication_retention(self): """Generates replication retention settings in Purity compatible format An example of the settings: target_all_for = 14400 (i.e. 4 hours) target_per_day = 6 target_days = 4 The settings above configure the target array to retain 4 hours of the most recent snapshots. After the most recent 4 hours, the target will choose 4 snapshots per day from the previous 6 days for retention :return: a dictionary representing replication retention settings """ replication_retention = dict( target_all_for=self._replication_retention_short_term, target_per_day=self._replication_retention_long_term_per_day, target_days=self._replication_retention_long_term ) return replication_retention @pure_driver_debug_trace def _get_latest_replicated_pg_snap(self, target_array, source_array_name, pgroup_name): # Get all protection group snapshots. snap_name = "%s:%s" % (source_array_name, pgroup_name) LOG.debug("Looking for snap %(snap)s on array id %(array_id)s", {"snap": snap_name, "array_id": target_array.array_id}) pg_snaps = target_array.get_pgroup(snap_name, snap=True, transfer=True) LOG.debug("Retrieved snapshots on target %(pg_snaps)s", {"pg_snaps": pg_snaps}) # Only use snapshots that are replicated completely. pg_snaps_filtered = [s for s in pg_snaps if s["progress"] == 1] LOG.debug("Filtered list of snapshots %(pg_snaps_filtered)s", {"pg_snaps_filtered": pg_snaps_filtered}) # Go through the protection group snapshots, latest first .... # stop when we find required volume snapshot. pg_snaps_filtered.sort(key=lambda x: x["created"], reverse=True) LOG.debug("Sorted list of snapshots %(pg_snaps_filtered)s", {"pg_snaps_filtered": pg_snaps_filtered}) pg_snap = pg_snaps_filtered[0] if pg_snaps_filtered else None LOG.debug("Selecting snapshot %(pg_snap)s for failover.", {"pg_snap": pg_snap}) return pg_snap @pure_driver_debug_trace def _create_protection_group_if_not_exist(self, source_array, pgname): try: source_array.create_pgroup(pgname) except purestorage.PureHTTPError as err: with excutils.save_and_reraise_exception() as ctxt: if err.code == 400 and ERR_MSG_ALREADY_EXISTS in err.text: # Happens if the PG already exists ctxt.reraise = False LOG.warning("Skipping creation of PG %s since it " "already exists.", pgname) # We assume PG has already been setup with correct # replication settings. return if err.code == 400 and ( ERR_MSG_PENDING_ERADICATION in err.text): ctxt.reraise = False LOG.warning("Protection group %s is deleted but not" " eradicated - will recreate.", pgname) source_array.eradicate_pgroup(pgname) source_array.create_pgroup(pgname) def _is_volume_replicated_type(self, volume): ctxt = context.get_admin_context() replication_flag = False if volume["volume_type_id"]: volume_type = volume_types.get_volume_type( ctxt, volume["volume_type_id"]) specs = volume_type.get("extra_specs") if specs and EXTRA_SPECS_REPL_ENABLED in specs: replication_capability = specs[EXTRA_SPECS_REPL_ENABLED] # Do not validate settings, ignore invalid. replication_flag = (replication_capability == " True") return replication_flag def _find_failover_target(self, secondary): if not self._replication_target_arrays: raise exception.PureDriverException( reason=_("Unable to find failover target, no " "secondary targets configured.")) secondary_array = None pg_snap = None if secondary: for array in self._replication_target_arrays: if array._backend_id == secondary: secondary_array = array break if not secondary_array: raise exception.InvalidReplicationTarget( reason=_("Unable to determine secondary_array from" " supplied secondary: %(secondary)s.") % {"secondary": secondary} ) pg_snap = self._get_latest_replicated_pg_snap( secondary_array, self._get_current_array().array_name, self._replication_pg_name ) else: LOG.debug('No secondary array id specified, checking all targets.') for array in self._replication_target_arrays: try: secondary_array = array pg_snap = self._get_latest_replicated_pg_snap( secondary_array, self._get_current_array().array_name, self._replication_pg_name ) if pg_snap: break except Exception: LOG.exception('Error finding replicated pg snapshot ' 'on %(secondary)s.', {'secondary': array._backend_id}) if not secondary_array: raise exception.PureDriverException( reason=_("Unable to find viable secondary array from" "configured targets: %(targets)s.") % {"targets": six.text_type(self._replication_target_arrays)} ) if not pg_snap: raise exception.PureDriverException( reason=_("Unable to find viable pg snapshot to use for" "failover on selected secondary array: %(id)s.") % {"id": secondary_array._backend_id} ) return secondary_array, pg_snap def _get_current_array(self): return self._array def _set_current_array(self, array): self._array = array @interface.volumedriver class PureISCSIDriver(PureBaseVolumeDriver, san.SanISCSIDriver): """OpenStack Volume Driver to support Pure Storage FlashArray. This version of the driver enables the use of iSCSI for the underlying storage connectivity with the FlashArray. """ VERSION = "7.0.0" def __init__(self, *args, **kwargs): execute = kwargs.pop("execute", utils.execute) super(PureISCSIDriver, self).__init__(execute=execute, *args, **kwargs) self._storage_protocol = "iSCSI" def _get_host(self, array, connector): """Return dict describing existing Purity host object or None.""" hosts = array.list_hosts() for host in hosts: if connector["initiator"] in host["iqn"]: return host return None @pure_driver_debug_trace def initialize_connection(self, volume, connector): """Allow connection to connector and return connection info.""" connection = self._connect(volume, connector) target_ports = self._get_target_iscsi_ports() multipath = connector.get("multipath", False) properties = self._build_connection_properties(connection, target_ports, multipath) if self.configuration.use_chap_auth: properties["data"]["auth_method"] = "CHAP" properties["data"]["auth_username"] = connection["auth_username"] properties["data"]["auth_password"] = connection["auth_password"] initiator_update = connection.get("initiator_update", False) if initiator_update: properties["initiator_update"] = initiator_update return properties def _build_connection_properties(self, connection, target_ports, multipath): props = { "driver_volume_type": "iscsi", "data": { "target_discovered": False, "discard": True, }, } port_iter = iter(target_ports) target_luns = [] target_iqns = [] target_portals = [] for port in port_iter: target_luns.append(connection["lun"]) target_iqns.append(port["iqn"]) target_portals.append(port["portal"]) # If we have multiple ports always report them. if target_luns and target_iqns and target_portals: props["data"]["target_luns"] = target_luns props["data"]["target_iqns"] = target_iqns props["data"]["target_portals"] = target_portals return props def _get_target_iscsi_ports(self): """Return list of iSCSI-enabled port descriptions.""" current_array = self._get_current_array() ports = current_array.list_ports() iscsi_ports = [port for port in ports if port["iqn"]] if not iscsi_ports: raise exception.PureDriverException( reason=_("No iSCSI-enabled ports on target array.")) return iscsi_ports @staticmethod def _generate_chap_secret(): return volume_utils.generate_password() def _get_chap_secret_from_init_data(self, initiator): data = self.driver_utils.get_driver_initiator_data(initiator) if data: for d in data: if d["key"] == CHAP_SECRET_KEY: return d["value"] return None def _get_chap_credentials(self, host, initiator): username = host password = self._get_chap_secret_from_init_data(initiator) if not password: password = self._generate_chap_secret() success = self.driver_utils.insert_driver_initiator_data( initiator, CHAP_SECRET_KEY, password) if not success: # The only reason the save would have failed is if someone # else (read: another thread/instance of the driver) set # one before we did. In that case just do another query. password = self._get_chap_secret_from_init_data(initiator) return username, password @utils.retry(exception.PureRetryableException, retries=HOST_CREATE_MAX_RETRIES) def _connect(self, volume, connector): """Connect the host and volume; return dict describing connection.""" iqn = connector["initiator"] if self.configuration.use_chap_auth: (chap_username, chap_password) = \ self._get_chap_credentials(connector['host'], iqn) current_array = self._get_current_array() vol_name = self._get_vol_name(volume) host = self._get_host(current_array, connector) if host: host_name = host["name"] LOG.info("Re-using existing purity host %(host_name)r", {"host_name": host_name}) if self.configuration.use_chap_auth: if not GENERATED_NAME.match(host_name): LOG.error("Purity host %(host_name)s is not managed " "by Cinder and can't have CHAP credentials " "modified. Remove IQN %(iqn)s from the host " "to resolve this issue.", {"host_name": host_name, "iqn": connector["initiator"]}) raise exception.PureDriverException( reason=_("Unable to re-use a host that is not " "managed by Cinder with use_chap_auth=True,")) elif chap_username is None or chap_password is None: LOG.error("Purity host %(host_name)s is managed by " "Cinder but CHAP credentials could not be " "retrieved from the Cinder database.", {"host_name": host_name}) raise exception.PureDriverException( reason=_("Unable to re-use host with unknown CHAP " "credentials configured.")) else: host_name = self._generate_purity_host_name(connector["host"]) LOG.info("Creating host object %(host_name)r with IQN:" " %(iqn)s.", {"host_name": host_name, "iqn": iqn}) try: current_array.create_host(host_name, iqnlist=[iqn]) except purestorage.PureHTTPError as err: if (err.code == 400 and (ERR_MSG_ALREADY_EXISTS in err.text or ERR_MSG_ALREADY_IN_USE in err.text)): # If someone created it before we could just retry, we will # pick up the new host. LOG.debug('Unable to create host: %s', err.text) raise exception.PureRetryableException() if self.configuration.use_chap_auth: try: current_array.set_host(host_name, host_user=chap_username, host_password=chap_password) except purestorage.PureHTTPError as err: if (err.code == 400 and ERR_MSG_HOST_NOT_EXIST in err.text): # If the host disappeared out from under us that's ok, # we will just retry and snag a new host. LOG.debug('Unable to set CHAP info: %s', err.text) raise exception.PureRetryableException() connection = self._connect_host_to_vol(current_array, host_name, vol_name) if self.configuration.use_chap_auth: connection["auth_username"] = chap_username connection["auth_password"] = chap_password return connection @interface.volumedriver class PureFCDriver(PureBaseVolumeDriver, driver.FibreChannelDriver): """OpenStack Volume Driver to support Pure Storage FlashArray. This version of the driver enables the use of Fibre Channel for the underlying storage connectivity with the FlashArray. It fully supports the Cinder Fibre Channel Zone Manager. """ VERSION = "5.0.0" def __init__(self, *args, **kwargs): execute = kwargs.pop("execute", utils.execute) super(PureFCDriver, self).__init__(execute=execute, *args, **kwargs) self._storage_protocol = "FC" self._lookup_service = fczm_utils.create_lookup_service() def _get_host(self, array, connector): """Return dict describing existing Purity host object or None.""" hosts = array.list_hosts() for host in hosts: for wwn in connector["wwpns"]: if wwn.lower() in str(host["wwn"]).lower(): return host @staticmethod def _get_array_wwns(array): """Return list of wwns from the array""" ports = array.list_ports() return [port["wwn"] for port in ports if port["wwn"]] @pure_driver_debug_trace def initialize_connection(self, volume, connector): """Allow connection to connector and return connection info.""" current_array = self._get_current_array() connection = self._connect(volume, connector) target_wwns = self._get_array_wwns(current_array) init_targ_map = self._build_initiator_target_map(target_wwns, connector) properties = { "driver_volume_type": "fibre_channel", "data": { 'target_discovered': True, "target_lun": connection["lun"], "target_wwn": target_wwns, 'initiator_target_map': init_targ_map, "discard": True, } } fczm_utils.add_fc_zone(properties) return properties @utils.retry(exception.PureRetryableException, retries=HOST_CREATE_MAX_RETRIES) def _connect(self, volume, connector): """Connect the host and volume; return dict describing connection.""" wwns = connector["wwpns"] current_array = self._get_current_array() vol_name = self._get_vol_name(volume) host = self._get_host(current_array, connector) if host: host_name = host["name"] LOG.info("Re-using existing purity host %(host_name)r", {"host_name": host_name}) else: host_name = self._generate_purity_host_name(connector["host"]) LOG.info("Creating host object %(host_name)r with WWN:" " %(wwn)s.", {"host_name": host_name, "wwn": wwns}) try: current_array.create_host(host_name, wwnlist=wwns) except purestorage.PureHTTPError as err: if (err.code == 400 and (ERR_MSG_ALREADY_EXISTS in err.text or ERR_MSG_ALREADY_IN_USE in err.text)): # If someone created it before we could just retry, we will # pick up the new host. LOG.debug('Unable to create host: %s', err.text) raise exception.PureRetryableException() return self._connect_host_to_vol(current_array, host_name, vol_name) def _build_initiator_target_map(self, target_wwns, connector): """Build the target_wwns and the initiator target map.""" init_targ_map = {} if self._lookup_service: # use FC san lookup to determine which NSPs to use # for the new VLUN. dev_map = self._lookup_service.get_device_mapping_from_network( connector['wwpns'], target_wwns) for fabric_name in dev_map: fabric = dev_map[fabric_name] for initiator in fabric['initiator_port_wwn_list']: if initiator not in init_targ_map: init_targ_map[initiator] = [] init_targ_map[initiator] += fabric['target_port_wwn_list'] init_targ_map[initiator] = list(set( init_targ_map[initiator])) else: init_targ_map = dict.fromkeys(connector["wwpns"], target_wwns) return init_targ_map @pure_driver_debug_trace def terminate_connection(self, volume, connector, **kwargs): """Terminate connection.""" current_array = self._get_current_array() no_more_connections = self._disconnect(current_array, volume, connector, **kwargs) properties = {"driver_volume_type": "fibre_channel", "data": {}} if no_more_connections: target_wwns = self._get_array_wwns(current_array) init_targ_map = self._build_initiator_target_map(target_wwns, connector) properties["data"] = {"target_wwn": target_wwns, "initiator_target_map": init_targ_map} fczm_utils.remove_fc_zone(properties) return properties