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//lib/python2.7/site-packages/lsm/_data.py
# Copyright (C) 2011-2016 Red Hat, Inc. # (C) Copyright 2016-2017 Hewlett Packard Enterprise Development LP # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2.1 of the License, or any later version. # # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this library; If not, see <http://www.gnu.org/licenses/>. # # Author: tasleson # Gris Ge <fge@redhat.com> # Joe Handzik <joseph.t.handzik@hpe.com> from abc import ABCMeta as _ABCMeta import re import binascii from six import with_metaclass try: import simplejson as json except ImportError: import json from json.decoder import WHITESPACE from lsm._common import get_class, default_property, ErrorNumber, LsmError import six class DataEncoder(json.JSONEncoder): """ Custom json encoder for objects derived form ILsmData """ def default(self, my_class): if not isinstance(my_class, IData): raise ValueError('incorrect class type:' + str(type(my_class))) else: return my_class._to_dict() class DataDecoder(json.JSONDecoder): """ Custom json decoder for objects derived from ILsmData """ @staticmethod def __process_dict(d): """ Processes a dictionary """ rc = {} if 'class' in d: rc = IData._factory(d) else: for (k, v) in d.items(): rc[k] = DataDecoder.__decode(v) return rc @staticmethod def __process_list(l): """ Processes a list """ rc = [] for elem, value in enumerate(l): if type(value) is list: rc.append(DataDecoder.__process_list(value)) elif type(value) is dict: rc.append(DataDecoder.__process_dict(value)) else: rc.append(value) return rc @staticmethod def __decode(e): """ Decodes the parsed json """ if type(e) is dict: return DataDecoder.__process_dict(e) elif type(e) is list: return DataDecoder.__process_list(e) else: return e def decode(self, json_string, _w=WHITESPACE.match): return DataDecoder.__decode(json.loads(json_string)) class IData(with_metaclass(_ABCMeta, object)): """ Base class functionality of serializable classes. """ def _to_dict(self): """ Represent the class as a dictionary """ rc = {'class': self.__class__.__name__} # If one of the attributes is another IData we will # process that too, is there a better way to handle this? for (k, v) in list(self.__dict__.items()): if isinstance(v, IData): rc[k[1:]] = v._to_dict() else: rc[k[1:]] = v return rc @staticmethod def _factory(d): """ Factory for creating the appropriate class given a dictionary. This only works for objects that inherit from IData """ if 'class' in d: class_name = d['class'] del d['class'] c = get_class(__name__ + '.' + class_name) # If any of the parameters are themselves an IData process them for k, v in list(d.items()): if isinstance(v, dict) and 'class' in v: d['_' + k] = IData._factory(d.pop(k)) else: d['_' + k] = d.pop(k) return c(**d) def __str__(self): """ Used for human string representation. """ return str(self._to_dict()) @default_property('id', doc="Unique identifier") @default_property('name', doc="Disk name (aka. vendor)") @default_property('disk_type', doc="Enumerated type of disk") @default_property('block_size', doc="Size of each block") @default_property('num_of_blocks', doc="Total number of blocks") @default_property('status', doc="Enumerated status") @default_property('system_id', doc="System identifier") @default_property("plugin_data", doc="Private plugin data") class Disk(IData): """ Represents a disk. """ SUPPORTED_SEARCH_KEYS = ['id', 'system_id'] # We use '-1' to indicate we failed to get the requested number. # For example, when block found is undetectable, we use '-1' instead of # confusing 0. BLOCK_COUNT_NOT_FOUND = -1 BLOCK_SIZE_NOT_FOUND = -1 TYPE_UNKNOWN = 0 TYPE_OTHER = 1 TYPE_ATA = 3 # IDE disk which is seldomly used. TYPE_SATA = 4 TYPE_SAS = 5 TYPE_FC = 6 TYPE_SOP = 7 # SCSI over PCIe(SSD) TYPE_SCSI = 8 TYPE_LUN = 9 # Remote LUN was treated as a disk. # Due to complexity of disk types, we are defining these beside DMTF # standards: TYPE_NL_SAS = 51 # Near-Line SAS==SATA disk + SAS port. # in DMTF CIM 2.34.0+ CIM_DiskDrive['DiskType'], they also defined # SSD and HYBRID disk type. We use it as fallback. TYPE_HDD = 52 # Normal HDD TYPE_SSD = 53 # Solid State Drive TYPE_HYBRID = 54 # uses a combination of HDD and SSD STATUS_UNKNOWN = 1 << 0 STATUS_OK = 1 << 1 STATUS_OTHER = 1 << 2 STATUS_PREDICTIVE_FAILURE = 1 << 3 STATUS_ERROR = 1 << 4 STATUS_REMOVED = 1 << 5 STATUS_STARTING = 1 << 6 STATUS_STOPPING = 1 << 7 STATUS_STOPPED = 1 << 8 STATUS_INITIALIZING = 1 << 9 STATUS_MAINTENANCE_MODE = 1 << 10 # In maintenance for bad sector scan, integrity check and etc # It might be combined with STATUS_OK or # STATUS_STOPPED for online maintenance or offline maintenance. STATUS_SPARE_DISK = 1 << 11 # Indicate disk is a spare disk. STATUS_RECONSTRUCT = 1 << 12 # Indicate disk is reconstructing data. STATUS_FREE = 1 << 13 # New in version 1.2, indicate the whole disk is not holding any data or # acting as a dedicate spare disk. # This disk could be assigned as a dedicated spare disk or used for # creating pool. # If any spare disk(like those on NetApp ONTAP) does not require # any explicit action when assigning to pool, it should be treated as # free disk and marked as STATUS_FREE|STATUS_SPARE_DISK. RPM_NO_SUPPORT = -2 RPM_UNKNOWN = -1 RPM_NON_ROTATING_MEDIUM = 0 RPM_ROTATING_UNKNOWN_SPEED = 1 LINK_TYPE_NO_SUPPORT = -2 LINK_TYPE_UNKNOWN = -1 LINK_TYPE_FC = 0 LINK_TYPE_SSA = 2 LINK_TYPE_SBP = 3 LINK_TYPE_SRP = 4 LINK_TYPE_ISCSI = 5 LINK_TYPE_SAS = 6 LINK_TYPE_ADT = 7 LINK_TYPE_ATA = 8 LINK_TYPE_USB = 9 LINK_TYPE_SOP = 10 LINK_TYPE_PCIE = 11 LED_STATUS_UNKNOWN = 1 << 0 LED_STATUS_IDENT_ON = 1 << 1 LED_STATUS_IDENT_OFF = 1 << 2 LED_STATUS_IDENT_UNKNOWN = 1 << 3 LED_STATUS_FAULT_ON = 1 << 4 LED_STATUS_FAULT_OFF = 1 << 5 LED_STATUS_FAULT_UNKNOWN = 1 << 6 LINK_SPEED_UNKNOWN = 0 HEALTH_STATUS_UNKNOWN = -1 HEALTH_STATUS_FAIL = 0 HEALTH_STATUS_WARN = 1 HEALTH_STATUS_GOOD = 2 def __init__(self, _id, _name, _disk_type, _block_size, _num_of_blocks, _status, _system_id, _plugin_data=None, _vpd83='', _location='', _rpm=RPM_NO_SUPPORT, _link_type=LINK_TYPE_NO_SUPPORT): self._id = _id self._name = _name self._disk_type = _disk_type self._block_size = _block_size self._num_of_blocks = _num_of_blocks self._status = _status self._system_id = _system_id self._plugin_data = _plugin_data if _vpd83 and not Volume.vpd83_verify(_vpd83): raise LsmError(ErrorNumber.INVALID_ARGUMENT, "Incorrect format of VPD 0x83 NAA(3) string: '%s', " "expecting 32 or 16 lower case hex characters" % _vpd83) self._vpd83 = _vpd83 self._location = _location self._rpm = _rpm self._link_type = _link_type @property def size_bytes(self): """ Disk size in bytes. """ return self.block_size * self.num_of_blocks @property def vpd83(self): """ String. SCSI VPD83 ID. New in version 1.3. Only available for DAS(direct attached storage) systems. The VPD83 ID could be used in 'lsm.SCSI.disk_paths_of_vpd83()' when physical disk is exposed to OS directly. """ if self._vpd83 == '': raise LsmError( ErrorNumber.NO_SUPPORT, "Disk.vpd83 is not supported by current disk or plugin") return self._vpd83 @property def location(self): """ String. Disk location in storage topology. New in version 1.3. """ if self._location == '': raise LsmError(ErrorNumber.NO_SUPPORT, "Disk.location property is not supported by this " "plugin yet") return self._location @property def rpm(self): """ Integer. New in version 1.3. Disk rotation speed - revolutions per minute(RPM): -1 (LSM_DISK_RPM_UNKNOWN): Unknown RPM 0 (LSM_DISK_RPM_NON_ROTATING_MEDIUM): Non-rotating medium (e.g., SSD) 1 (LSM_DISK_RPM_ROTATING_UNKNOWN_SPEED): Rotational disk with unknown speed >1: Normal rotational disk (e.g., HDD) """ if self._rpm == Disk.RPM_NO_SUPPORT: raise LsmError(ErrorNumber.NO_SUPPORT, "Disk.rpm is not supported by this plugin yet") return self._rpm @property def link_type(self): """ Integer. New in version 1.3. Link type, possible values are: lsm.Disk.LINK_TYPE_UNKNOWN Failed to detect link type lsm.Disk.LINK_TYPE_FC Fibre Channel lsm.Disk.LINK_TYPE_SSA Serial Storage Architecture, Old IBM tech. lsm.Disk.LINK_TYPE_SBP Serial Bus Protocol, used by IEEE 1394. lsm.Disk.LINK_TYPE_SRP SCSI RDMA Protocol lsm.Disk.LINK_TYPE_ISCSI Internet Small Computer System Interface lsm.Disk.LINK_TYPE_SAS Serial Attached SCSI lsm.Disk.LINK_TYPE_ADT Automation/Drive Interface Transport Protocol, often used by Tape. lsm.Disk.LINK_TYPE_ATA PATA/IDE or SATA. lsm.Disk.LINK_TYPE_USB USB disk. lsm.Disk.LINK_TYPE_SOP SCSI over PCI-E lsm.Disk.LINK_TYPE_PCIE PCI-E, e.g. NVMe """ if self._link_type == Disk.LINK_TYPE_NO_SUPPORT: raise LsmError(ErrorNumber.NO_SUPPORT, "Disk.link_type is not supported by this plugin " "yet") return self._link_type def __str__(self): return self.name # Lets do this once outside of the class to minimize the number of # times it needs to be compiled. _vol_regex_vpd83 = re.compile('(?:^6[0-9a-f]{31})|(?:^[235][0-9a-f]{15})$') @default_property('id', doc="Unique identifier") @default_property('name', doc="User given name") @default_property('vpd83', doc="Vital product page 0x83 identifier") @default_property('block_size', doc="Volume block size") @default_property('num_of_blocks', doc="Number of blocks") @default_property('admin_state', doc="Enabled or disabled by administrator") @default_property('system_id', doc="System identifier") @default_property('pool_id', doc="Pool identifier") @default_property("plugin_data", doc="Private plugin data") class Volume(IData): """ Represents a volume. """ SUPPORTED_SEARCH_KEYS = ['id', 'system_id', 'pool_id'] # Replication types REPLICATE_UNKNOWN = -1 REPLICATE_CLONE = 2 REPLICATE_COPY = 3 REPLICATE_MIRROR_SYNC = 4 REPLICATE_MIRROR_ASYNC = 5 # Provisioning types PROVISION_UNKNOWN = -1 PROVISION_THIN = 1 PROVISION_FULL = 2 PROVISION_DEFAULT = 3 ADMIN_STATE_DISABLED = 0 ADMIN_STATE_ENABLED = 1 RAID_TYPE_UNKNOWN = -1 # The plugin failed to detect the volume's RAID type. RAID_TYPE_RAID0 = 0 # Stripe RAID_TYPE_RAID1 = 1 # Mirror for two disks. For 4 disks or more, they are RAID10. RAID_TYPE_RAID3 = 3 # Byte-level striping with dedicated parity RAID_TYPE_RAID4 = 4 # Block-level striping with dedicated parity RAID_TYPE_RAID5 = 5 # Block-level striping with distributed parity RAID_TYPE_RAID6 = 6 # Block-level striping with two distributed parities, aka, RAID-DP RAID_TYPE_RAID10 = 10 # Stripe of mirrors RAID_TYPE_RAID15 = 15 # Parity of mirrors RAID_TYPE_RAID16 = 16 # Dual parity of mirrors RAID_TYPE_RAID50 = 50 # Stripe of parities RAID_TYPE_RAID60 = 60 # Stripe of dual parities RAID_TYPE_RAID51 = 51 # Mirror of parities RAID_TYPE_RAID61 = 61 # Mirror of dual parities RAID_TYPE_JBOD = 20 # Just bunch of disks, no parity, no striping. RAID_TYPE_MIXED = 21 # This volume contains multiple RAID settings. RAID_TYPE_OTHER = 22 # Vendor specific RAID type STRIP_SIZE_UNKNOWN = 0 DISK_COUNT_UNKNOWN = 0 MIN_IO_SIZE_UNKNOWN = 0 OPT_IO_SIZE_UNKNOWN = 0 VCR_STRIP_SIZE_DEFAULT = 0 WRITE_CACHE_POLICY_UNKNOWN = 1 WRITE_CACHE_POLICY_WRITE_BACK = 2 WRITE_CACHE_POLICY_AUTO = 3 WRITE_CACHE_POLICY_WRITE_THROUGH = 4 WRITE_CACHE_STATUS_UNKNOWN = 1 WRITE_CACHE_STATUS_WRITE_BACK = 2 WRITE_CACHE_STATUS_WRITE_THROUGH = 3 READ_CACHE_POLICY_UNKNOWN = 1 READ_CACHE_POLICY_ENABLED = 2 READ_CACHE_POLICY_DISABLED = 3 READ_CACHE_STATUS_UNKNOWN = 1 READ_CACHE_STATUS_ENABLED = 2 READ_CACHE_STATUS_DISABLED = 3 PHYSICAL_DISK_CACHE_UNKNOWN = 1 PHYSICAL_DISK_CACHE_ENABLED = 2 PHYSICAL_DISK_CACHE_DISABLED = 3 PHYSICAL_DISK_CACHE_USE_DISK_SETTING = 4 def __init__(self, _id, _name, _vpd83, _block_size, _num_of_blocks, _admin_state, _system_id, _pool_id, _plugin_data=None): self._id = _id # Identifier self._name = _name # Human recognisable name if _vpd83 and not Volume.vpd83_verify(_vpd83): raise LsmError(ErrorNumber.INVALID_ARGUMENT, "Incorrect format of VPD 0x83 NAA(3) string: '%s', " "expecting 32 or 16 lower case hex characters" % _vpd83) self._vpd83 = _vpd83 # SCSI page 83 unique ID self._block_size = _block_size # Block size self._num_of_blocks = _num_of_blocks # Number of blocks self._admin_state = _admin_state # enable or disabled by admin self._system_id = _system_id # System id this volume belongs self._pool_id = _pool_id # Pool id this volume belongs self._plugin_data = _plugin_data @property def size_bytes(self): """ Volume size in bytes. """ return self.block_size * self.num_of_blocks def __str__(self): return self.name @staticmethod def vpd83_verify(vpd): """ Returns True if string is valid vpd 0x83 representation """ if vpd and _vol_regex_vpd83.match(vpd): return True return False @default_property('id', doc="Unique identifier") @default_property('name', doc="User defined system name") @default_property('status', doc="Enumerated status of system") @default_property('status_info', doc="Detail status information of system") @default_property("plugin_data", doc="Private plugin data") class System(IData): STATUS_UNKNOWN = 1 << 0 STATUS_OK = 1 << 1 STATUS_ERROR = 1 << 2 STATUS_DEGRADED = 1 << 3 STATUS_PREDICTIVE_FAILURE = 1 << 4 STATUS_OTHER = 1 << 5 MODE_NO_SUPPORT = -2 MODE_UNKNOWN = -1 MODE_HARDWARE_RAID = 0 MODE_HBA = 1 READ_CACHE_PCT_NO_SUPPORT = -2 READ_CACHE_PCT_UNKNOWN = -1 def __init__(self, _id, _name, _status, _status_info, _plugin_data=None, _fw_version='', _mode=None, _read_cache_pct=None): self._id = _id self._name = _name self._status = _status self._status_info = _status_info self._plugin_data = _plugin_data self._fw_version = _fw_version if _read_cache_pct is None: self._read_cache_pct = System.READ_CACHE_PCT_NO_SUPPORT else: self._read_cache_pct = _read_cache_pct if _mode is None: self._mode = System.MODE_NO_SUPPORT else: self._mode = _mode @property def fw_version(self): """ String. Firmware version string. New in version 1.3. On some system, it might contain multiple version strings, example: "Package: 23.32.0-0009, FW: 3.440.05-3712" """ if self._fw_version == '': raise LsmError(ErrorNumber.NO_SUPPORT, "System.fw_version() is not supported by this " "plugin yet") return self._fw_version @property def mode(self): """ Integer(enumerated value). System mode. New in version 1.3. Only available for HW RAID systems at this time. Possible values: * lsm.System.MODE_HARDWARE_RAID The logical volume(aka, RAIDed virtual disk) can be exposed to OS while hardware RAID card is handling the RAID algorithm. Physical disk can not be exposed to OS directly. * lsm.System.MODE_HBA The physical disks can be exposed to OS directly. SCSI enclosure service might be exposed to OS also. """ if self._mode == System.MODE_NO_SUPPORT: raise LsmError(ErrorNumber.NO_SUPPORT, "System.mode is not supported by this plugin yet") return self._mode @property def read_cache_pct(self): """ Integer. Read cache percentage. New in version 1.3. Possible values: * 0-100 The read cache percentage. The write cache percentage will then be 100 - read_cache_pct """ if self._read_cache_pct == System.READ_CACHE_PCT_NO_SUPPORT: raise LsmError(ErrorNumber.NO_SUPPORT, "System.read_cache_pct is not supported by this " "plugin yet") return self._read_cache_pct @default_property('id', doc="Unique identifier") @default_property('name', doc="User supplied name") @default_property('total_space', doc="Total space in bytes") @default_property('free_space', doc="Free space in bytes") @default_property('status', doc="Enumerated status") @default_property('status_info', doc="Text explaining status") @default_property('system_id', doc="System identifier") @default_property("plugin_data", doc="Plug-in private data") @default_property("element_type", doc="What pool can be used for") @default_property("unsupported_actions", doc="What cannot be done with this pool") class Pool(IData): """ Pool specific information """ SUPPORTED_SEARCH_KEYS = ['id', 'system_id'] TOTAL_SPACE_NOT_FOUND = -1 FREE_SPACE_NOT_FOUND = -1 # Element Type indicate what kind of element could this pool create: # * Another Pool # * Volume (aka, LUN) # * System Reserved Pool. ELEMENT_TYPE_POOL = 1 << 1 ELEMENT_TYPE_VOLUME = 1 << 2 ELEMENT_TYPE_FS = 1 << 3 ELEMENT_TYPE_DELTA = 1 << 4 ELEMENT_TYPE_VOLUME_FULL = 1 << 5 ELEMENT_TYPE_VOLUME_THIN = 1 << 6 ELEMENT_TYPE_SYS_RESERVED = 1 << 10 # Reserved for system use # Unsupported actions, what pool cannot be used for UNSUPPORTED_VOLUME_GROW = 1 << 0 UNSUPPORTED_VOLUME_SHRINK = 1 << 1 # Pool status could be any combination of these status. STATUS_UNKNOWN = 1 << 0 STATUS_OK = 1 << 1 STATUS_OTHER = 1 << 2 STATUS_DEGRADED = 1 << 4 STATUS_ERROR = 1 << 5 STATUS_STOPPED = 1 << 9 STATUS_RECONSTRUCTING = 1 << 12 STATUS_VERIFYING = 1 << 13 STATUS_INITIALIZING = 1 << 14 STATUS_GROWING = 1 << 15 MEMBER_TYPE_UNKNOWN = 0 MEMBER_TYPE_OTHER = 1 MEMBER_TYPE_DISK = 2 MEMBER_TYPE_POOL = 3 def __init__(self, _id, _name, _element_type, _unsupported_actions, _total_space, _free_space, _status, _status_info, _system_id, _plugin_data=None): self._id = _id # Identifier self._name = _name # Human recognisable name self._element_type = _element_type # What pool can be used to create # What pool cannot be used for self._unsupported_actions = _unsupported_actions self._total_space = _total_space # Total size self._free_space = _free_space # Free space available self._status = _status # Status of pool. self._status_info = _status_info # Additional status text of pool self._system_id = _system_id # System id this pool belongs self._plugin_data = _plugin_data # Plugin private data @default_property('id', doc="Unique identifier") @default_property('name', doc="File system name") @default_property('total_space', doc="Total space in bytes") @default_property('free_space', doc="Free space available") @default_property('pool_id', doc="What pool the file system resides on") @default_property('system_id', doc="System ID") @default_property("plugin_data", doc="Private plugin data") class FileSystem(IData): SUPPORTED_SEARCH_KEYS = ['id', 'system_id', 'pool_id'] def __init__(self, _id, _name, _total_space, _free_space, _pool_id, _system_id, _plugin_data=None): self._id = _id self._name = _name self._total_space = _total_space self._free_space = _free_space self._pool_id = _pool_id self._system_id = _system_id self._plugin_data = _plugin_data @default_property('id', doc="Unique identifier") @default_property('name', doc="Snapshot name") @default_property('ts', doc="Time stamp the snapshot was created") @default_property("plugin_data", doc="Private plugin data") class FsSnapshot(IData): def __init__(self, _id, _name, _ts, _plugin_data=None): self._id = _id self._name = _name self._ts = int(_ts) self._plugin_data = _plugin_data @default_property('id', doc="Unique identifier") @default_property('fs_id', doc="Filesystem that is exported") @default_property('export_path', doc="Export path") @default_property('auth', doc="Authentication type") @default_property('root', doc="List of hosts with no_root_squash") @default_property('rw', doc="List of hosts with Read & Write privileges") @default_property('ro', doc="List of hosts with Read only privileges") @default_property('anonuid', doc="UID for anonymous user id") @default_property('anongid', doc="GID for anonymous group id") @default_property('options', doc="String containing advanced options") @default_property('plugin_data', doc="Plugin private data") class NfsExport(IData): SUPPORTED_SEARCH_KEYS = ['id', 'fs_id'] ANON_UID_GID_NA = -1 ANON_UID_GID_ERROR = -2 def __init__(self, _id, _fs_id, _export_path, _auth, _root, _rw, _ro, _anonuid, _anongid, _options, _plugin_data=None): assert (_fs_id is not None) assert (_export_path is not None) self._id = _id self._fs_id = _fs_id # File system exported self._export_path = _export_path # Export path self._auth = _auth # Authentication type self._root = _root # List of hosts with no_root_squash self._rw = _rw # List of hosts with read/write self._ro = _ro # List of hosts with read/only self._anonuid = _anonuid # uid for anonymous user id self._anongid = _anongid # gid for anonymous group id self._options = _options # NFS options self._plugin_data = _plugin_data @default_property('src_block', doc="Source logical block address") @default_property('dest_block', doc="Destination logical block address") @default_property('block_count', doc="Number of blocks") class BlockRange(IData): def __init__(self, _src_block, _dest_block, _block_count): self._src_block = _src_block self._dest_block = _dest_block self._block_count = _block_count @default_property('id', doc="Unique instance identifier") @default_property('name', doc="Access group name") @default_property('init_ids', doc="List of initiator IDs") @default_property('init_type', doc="Initiator type") @default_property('system_id', doc="System identifier") @default_property('plugin_data', doc="Plugin private data") class AccessGroup(IData): SUPPORTED_SEARCH_KEYS = ['id', 'system_id'] INIT_TYPE_UNKNOWN = 0 INIT_TYPE_OTHER = 1 INIT_TYPE_WWPN = 2 INIT_TYPE_ISCSI_IQN = 5 INIT_TYPE_ISCSI_WWPN_MIXED = 7 def __init__(self, _id, _name, _init_ids, _init_type, _system_id, _plugin_data=None): self._id = _id self._name = _name # AccessGroup name # A list of Initiator ID strings. self._init_ids = AccessGroup._standardize_init_list(_init_ids) self._init_type = _init_type self._system_id = _system_id # System id this group belongs self._plugin_data = _plugin_data @staticmethod def _standardize_init_list(init_ids): rc = [] for i in init_ids: valid, init_type, init_id = AccessGroup.initiator_id_verify(i) if valid: rc.append(init_id) else: raise LsmError(ErrorNumber.INVALID_ARGUMENT, "Invalid initiator ID %s" % i) return rc _regex_wwpn = re.compile(r""" ^(0x|0X)?([0-9A-Fa-f]{2}) (([\.:\-])?[0-9A-Fa-f]{2}){7}$ """, re.X) @staticmethod def initiator_id_verify(init_id, init_type=None, raise_exception=False): """ Public method which can be used to verify an initiator id :param init_id: :param init_type: :param raise_exception: Will throw a LsmError INVALID_ARGUMENT if not a valid initiator address :return:(Bool, init_type, init_id) Note: init_id will be returned in normalized format if it's a WWPN """ if init_id.startswith('iqn') or init_id.startswith('eui') or\ init_id.startswith('naa'): if init_type is None or \ init_type == AccessGroup.INIT_TYPE_ISCSI_IQN: return True, AccessGroup.INIT_TYPE_ISCSI_IQN, init_id if AccessGroup._regex_wwpn.match(str(init_id)): if init_type is None or \ init_type == AccessGroup.INIT_TYPE_WWPN: return (True, AccessGroup.INIT_TYPE_WWPN, AccessGroup._wwpn_to_lsm_type(init_id)) if raise_exception: raise LsmError(ErrorNumber.INVALID_ARGUMENT, "Initiator id '%s' is invalid" % init_id) return False, None, None @staticmethod def _wwpn_to_lsm_type(wwpn, raise_error=True): """ Convert provided WWPN string into LSM standard one: LSM WWPN format: ^(?:[0-9a-f]{2}:){7}[0-9a-f]{2}$ LSM WWPN Example: 10:00:00:00:c9:95:2f:de Acceptable WWPN format is: ^[0x|0X]{0,1}(:?[0-9A-Fa-f]{2}[\.\-:]{0,1}){7}[0-9A-Fa-f]{2}$ Acceptable WWPN example: 10:00:00:00:c9:95:2f:de 10:00:00:00:C9:95:2F:DE 10-00-00-00-C9-95-2F-DE 10-00-00-00-c9-95-2f-de 10.00.00.00.C9.95.2F.DE 10.00.00.00.c9.95.2f.de 0x10000000c9952fde 0X10000000C9952FDE 10000000c9952fde 10000000C9952FDE Return the LSM WWPN Return None if raise_error is False and not a valid WWPN. """ if AccessGroup._regex_wwpn.match(str(wwpn)): s = str(wwpn) s = s.lower() s = re.sub(r'0x', '', s) s = re.sub(r'[^0-9a-f]', '', s) s = ":".join(re.findall(r'..', s)) return s if raise_error: raise LsmError(ErrorNumber.INVALID_ARGUMENT, "Invalid WWPN Initiator: %s" % wwpn) return None @default_property('id', doc="Unique instance identifier") @default_property('port_type', doc="Target port type") @default_property('service_address', doc="Target port service address") @default_property('network_address', doc="Target port network address") @default_property('physical_address', doc="Target port physical address") @default_property('physical_name', doc="Target port physical port name") @default_property('system_id', doc="System identifier") @default_property('plugin_data', doc="Plugin private data") class TargetPort(IData): SUPPORTED_SEARCH_KEYS = ['id', 'system_id'] TYPE_OTHER = 1 TYPE_FC = 2 TYPE_FCOE = 3 TYPE_ISCSI = 4 def __init__(self, _id, _port_type, _service_address, _network_address, _physical_address, _physical_name, _system_id, _plugin_data=None): self._id = _id self._port_type = _port_type self._service_address = _service_address # service_address: # The address used by upper layer like FC and iSCSI: # FC and FCoE: WWPN # iSCSI: IQN # String. Lower case, split with : every two digits if WWPN. self._network_address = _network_address # network_address: # The address used by network layer like FC and TCP/IP: # FC/FCoE: WWPN # iSCSI: IPv4:Port # [IPv6]:Port # String. Lower case, split with : every two digits if WWPN. self._physical_address = _physical_address # physical_address: # The address used by physical layer like FC-0 and MAC: # FC: WWPN # FCoE: WWPN # iSCSI: MAC # String. Lower case, split with : every two digits. self._physical_name = _physical_name # physical_name # The name of physical port. Administrator could use this name to # locate the port on storage system. # String. self._system_id = _system_id self._plugin_data = _plugin_data class Capabilities(IData): UNSUPPORTED = 0 SUPPORTED = 1 _NUM = 512 # Indicate the maximum capability integer _CAP_NUM_BEGIN = 20 # Indicate the first capability integer # Block operations VOLUMES = 20 VOLUME_CREATE = 21 VOLUME_RESIZE = 22 VOLUME_REPLICATE = 23 VOLUME_REPLICATE_CLONE = 24 VOLUME_REPLICATE_COPY = 25 VOLUME_REPLICATE_MIRROR_ASYNC = 26 VOLUME_REPLICATE_MIRROR_SYNC = 27 VOLUME_COPY_RANGE_BLOCK_SIZE = 28 VOLUME_COPY_RANGE = 29 VOLUME_COPY_RANGE_CLONE = 30 VOLUME_COPY_RANGE_COPY = 31 VOLUME_DELETE = 33 VOLUME_ENABLE = 34 VOLUME_DISABLE = 35 VOLUME_MASK = 36 VOLUME_UNMASK = 37 ACCESS_GROUPS = 38 ACCESS_GROUP_CREATE_WWPN = 39 ACCESS_GROUP_DELETE = 40 ACCESS_GROUP_INITIATOR_ADD_WWPN = 41 # For empty access group, this indicate it can add WWPN into it. ACCESS_GROUP_INITIATOR_DELETE = 42 VOLUMES_ACCESSIBLE_BY_ACCESS_GROUP = 43 ACCESS_GROUPS_GRANTED_TO_VOLUME = 44 VOLUME_CHILD_DEPENDENCY = 45 VOLUME_CHILD_DEPENDENCY_RM = 46 ACCESS_GROUP_CREATE_ISCSI_IQN = 47 ACCESS_GROUP_INITIATOR_ADD_ISCSI_IQN = 48 # For empty access group, this indicate it can add iSCSI IQN into it. VOLUME_ISCSI_CHAP_AUTHENTICATION = 53 VOLUME_RAID_INFO = 54 VOLUME_THIN = 55 BATTERIES = 56 VOLUME_CACHE_INFO = 57 VOLUME_PHYSICAL_DISK_CACHE_UPDATE = 58 VOLUME_PHYSICAL_DISK_CACHE_UPDATE_SYSTEM_LEVEL = 59 VOLUME_WRITE_CACHE_POLICY_UPDATE_WRITE_BACK = 60 VOLUME_WRITE_CACHE_POLICY_UPDATE_AUTO = 61 VOLUME_WRITE_CACHE_POLICY_UPDATE_WRITE_THROUGH = 62 VOLUME_WRITE_CACHE_POLICY_UPDATE_IMPACT_READ = 63 VOLUME_WRITE_CACHE_POLICY_UPDATE_WB_IMPACT_OTHER = 64 VOLUME_READ_CACHE_POLICY_UPDATE = 65 VOLUME_READ_CACHE_POLICY_UPDATE_IMPACT_WRITE = 66 # File system FS = 100 FS_DELETE = 101 FS_RESIZE = 102 FS_CREATE = 103 FS_CLONE = 104 FILE_CLONE = 105 FS_SNAPSHOTS = 106 FS_SNAPSHOT_CREATE = 107 FS_SNAPSHOT_DELETE = 109 FS_SNAPSHOT_RESTORE = 110 FS_SNAPSHOT_RESTORE_SPECIFIC_FILES = 111 FS_CHILD_DEPENDENCY = 112 FS_CHILD_DEPENDENCY_RM = 113 FS_CHILD_DEPENDENCY_RM_SPECIFIC_FILES = 114 # NFS EXPORT_AUTH = 120 EXPORTS = 121 EXPORT_FS = 122 EXPORT_REMOVE = 123 EXPORT_CUSTOM_PATH = 124 SYS_READ_CACHE_PCT_UPDATE = 158 SYS_READ_CACHE_PCT_GET = 159 SYS_FW_VERSION_GET = 160 SYS_MODE_GET = 161 DISK_LOCATION = 163 DISK_RPM = 164 DISK_LINK_TYPE = 165 VOLUME_LED = 171 POOLS_QUICK_SEARCH = 210 VOLUMES_QUICK_SEARCH = 211 DISKS_QUICK_SEARCH = 212 ACCESS_GROUPS_QUICK_SEARCH = 213 FS_QUICK_SEARCH = 214 NFS_EXPORTS_QUICK_SEARCH = 215 TARGET_PORTS = 216 TARGET_PORTS_QUICK_SEARCH = 217 DISKS = 220 POOL_MEMBER_INFO = 221 VOLUME_RAID_CREATE = 222 DISK_VPD83_GET = 223 def _to_dict(self): return {'class': self.__class__.__name__, 'cap': ''.join(['%02x' % b for b in self._cap])} def __init__(self, _cap=None): if _cap is not None: self._cap = bytearray(binascii.unhexlify(_cap)) else: self._cap = bytearray(Capabilities._NUM) def supported(self, capability): return self.get(capability) == Capabilities.SUPPORTED def get(self, capability): if capability >= len(self._cap): return Capabilities.UNSUPPORTED return self._cap[capability] @staticmethod def _lsm_cap_to_str_dict(): """ Return a dict containing all valid capability: integer => string name """ lsm_cap_to_str_conv = dict() for c_str, c_int in list(Capabilities.__dict__.items()): if isinstance(c_str, six.string_types) and type(c_int) == int and \ c_str[0] != '_' and \ Capabilities._CAP_NUM_BEGIN <= c_int <= Capabilities._NUM: lsm_cap_to_str_conv[c_int] = c_str return lsm_cap_to_str_conv def get_supported(self, all_cap=False): """ Returns a hash of the supported capabilities in the form constant, name """ all_caps = Capabilities._lsm_cap_to_str_dict() if all_cap: return all_caps rc = {} for i in list(all_caps.keys()): if self._cap[i] == Capabilities.SUPPORTED: if i in all_caps: rc[i] = all_caps[i] return rc def set(self, capability, value=SUPPORTED): self._cap[capability] = value def enable_all(self): for i in range(len(self._cap)): self._cap[i] = Capabilities.SUPPORTED @default_property('id', doc="Unique identifier") @default_property('name', doc="User given name") @default_property('type', doc="Cache hardware type") @default_property('status', doc='Battery status') @default_property('system_id', doc="System identifier") @default_property("plugin_data", doc="Private plugin data") class Battery(IData): SUPPORTED_SEARCH_KEYS = ['id', 'system_id'] TYPE_UNKNOWN = 1 TYPE_OTHER = 2 TYPE_CHEMICAL = 3 TYPE_CAPACITOR = 4 STATUS_UNKNOWN = 1 << 0 STATUS_OTHER = 1 << 1 STATUS_OK = 1 << 2 STATUS_DISCHARGING = 1 << 3 STATUS_CHARGING = 1 << 4 STATUS_LEARNING = 1 << 5 STATUS_DEGRADED = 1 << 6 STATUS_ERROR = 1 << 7 def __init__(self, _id, _name, _type, _status, _system_id, _plugin_data=None): self._id = _id self._name = _name self._type = _type self._status = _status self._system_id = _system_id self._plugin_data = _plugin_data if __name__ == '__main__': # TODO Need some unit tests that encode/decode all the types with nested pass