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//lib/python2.7/site-packages/lsm/lsmcli/data_display.py
# Copyright (C) 2014 Red Hat, Inc. # (C) Copyright 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: Gris Ge <fge@redhat.com> import sys from datetime import datetime from lsm import (size_bytes_2_size_human, LsmError, ErrorNumber, Battery, System, Pool, Disk, Volume, AccessGroup, FileSystem, FsSnapshot, NfsExport, TargetPort, LocalDisk) try: from collections import OrderedDict except ImportError: # python 2.6 or earlier, use backport from ordereddict import OrderedDict BIT_MAP_STRING_SPLITTER = ',' # Users are reporting errors with broken pipe when piping output # to another program. This appears to be related to this issue: # http://bugs.python.org/issue11380 # Unable to reproduce, but hopefully this will address it. # @param msg The message to be written to stdout def out(msg): try: sys.stdout.write(str(msg)) sys.stdout.write("\n") sys.stdout.flush() except IOError: sys.exit(1) def _bit_map_to_str(bit_map, conv_dict): rc = [] bit_map = int(bit_map) for cur_enum in list(conv_dict.keys()): if cur_enum & bit_map: rc.append(conv_dict[cur_enum]) # If there are no bits set we really don't need a string if bit_map != 0 and len(rc) == 0: return 'Unknown(%s)' % hex(bit_map) return BIT_MAP_STRING_SPLITTER.join(rc) def _enum_type_to_str(int_type, conv_dict): int_type = int(int_type) if int_type in list(conv_dict.keys()): return conv_dict[int_type] return 'Unknown(%d)' % int_type def _str_to_enum(type_str, conv_dict): keys = [k for k, v in list(conv_dict.items()) if v.lower() == type_str.lower()] if len(keys) > 0: return keys[0] raise LsmError(ErrorNumber.INVALID_ARGUMENT, "Failed to convert %s to lsm type" % type_str) _SYSTEM_STATUS_CONV = { System.STATUS_UNKNOWN: 'Unknown', System.STATUS_OK: 'OK', System.STATUS_ERROR: 'Error', System.STATUS_DEGRADED: 'Degraded', System.STATUS_PREDICTIVE_FAILURE: 'Predictive failure', System.STATUS_OTHER: 'Other', } def system_status_to_str(system_status): return _bit_map_to_str(system_status, _SYSTEM_STATUS_CONV) _SYSTEM_MODE_CONV = { System.MODE_HARDWARE_RAID: "HW RAID", System.MODE_HBA: "HBA", } def system_mode_to_str(system_mode): return _SYSTEM_MODE_CONV.get(system_mode, "") _POOL_STATUS_CONV = { Pool.STATUS_UNKNOWN: 'Unknown', Pool.STATUS_OK: 'OK', Pool.STATUS_OTHER: 'Other', Pool.STATUS_DEGRADED: 'Degraded', Pool.STATUS_ERROR: 'Error', Pool.STATUS_STOPPED: 'Stopped', Pool.STATUS_RECONSTRUCTING: 'Reconstructing', Pool.STATUS_VERIFYING: 'Verifying', Pool.STATUS_INITIALIZING: 'Initializing', Pool.STATUS_GROWING: 'Growing', } def pool_status_to_str(pool_status): return _bit_map_to_str(pool_status, _POOL_STATUS_CONV) _POOL_ELEMENT_TYPE_CONV = { Pool.ELEMENT_TYPE_POOL: 'POOL', Pool.ELEMENT_TYPE_VOLUME: 'VOLUME', Pool.ELEMENT_TYPE_VOLUME_THIN: 'VOLUME_THIN', Pool.ELEMENT_TYPE_VOLUME_FULL: 'VOLUME_FULL', Pool.ELEMENT_TYPE_FS: 'FS', Pool.ELEMENT_TYPE_SYS_RESERVED: 'SYSTEM_RESERVED', Pool.ELEMENT_TYPE_DELTA: "DELTA", } _POOL_UNSUPPORTED_ACTION_CONV = { Pool.UNSUPPORTED_VOLUME_GROW: "Volume Grow", Pool.UNSUPPORTED_VOLUME_SHRINK: "Volume Shrink" } def pool_element_type_to_str(element_type): return _bit_map_to_str(element_type, _POOL_ELEMENT_TYPE_CONV) def pool_unsupported_actions_to_str(unsupported_actions): return _bit_map_to_str(unsupported_actions, _POOL_UNSUPPORTED_ACTION_CONV) _VOL_PROVISION_CONV = { Volume.PROVISION_DEFAULT: 'DEFAULT', Volume.PROVISION_FULL: 'FULL', Volume.PROVISION_THIN: 'THIN', Volume.PROVISION_UNKNOWN: 'UNKNOWN', } def vol_provision_str_to_type(vol_provision_str): return _str_to_enum(vol_provision_str, _VOL_PROVISION_CONV) _VOL_ADMIN_STATE_CONV = { Volume.ADMIN_STATE_DISABLED: 'Yes', Volume.ADMIN_STATE_ENABLED: 'No', } def vol_admin_state_to_str(vol_admin_state): return _enum_type_to_str(vol_admin_state, _VOL_ADMIN_STATE_CONV) _VOL_REP_TYPE_CONV = { Volume.REPLICATE_CLONE: 'CLONE', Volume.REPLICATE_COPY: 'COPY', Volume.REPLICATE_MIRROR_SYNC: 'MIRROR_SYNC', Volume.REPLICATE_MIRROR_ASYNC: 'MIRROR_ASYNC', Volume.REPLICATE_UNKNOWN: 'UNKNOWN', } def vol_rep_type_str_to_type(vol_rep_type_str): return _str_to_enum(vol_rep_type_str, _VOL_REP_TYPE_CONV) _DISK_TYPE_CONV = { Disk.TYPE_UNKNOWN: 'UNKNOWN', Disk.TYPE_OTHER: 'Other', Disk.TYPE_ATA: 'ATA', Disk.TYPE_SATA: 'SATA', Disk.TYPE_SAS: 'SAS', Disk.TYPE_FC: 'FC', Disk.TYPE_SOP: 'SCSI Over PCI-E(SSD)', Disk.TYPE_SCSI: 'SCSI', Disk.TYPE_NL_SAS: 'NL_SAS', Disk.TYPE_HDD: 'HDD', Disk.TYPE_SSD: 'SSD', Disk.TYPE_HYBRID: 'Hybrid', Disk.TYPE_LUN: 'Remote LUN', } def disk_type_to_str(disk_type): return _enum_type_to_str(disk_type, _DISK_TYPE_CONV) _DISK_STATUS_CONV = { Disk.STATUS_UNKNOWN: 'Unknown', Disk.STATUS_OK: 'OK', Disk.STATUS_OTHER: 'Other', Disk.STATUS_PREDICTIVE_FAILURE: 'Predictive failure', Disk.STATUS_ERROR: 'Error', Disk.STATUS_REMOVED: 'Removed', Disk.STATUS_STARTING: 'Starting', Disk.STATUS_STOPPING: 'Stopping', Disk.STATUS_STOPPED: 'Stopped', Disk.STATUS_INITIALIZING: 'Initializing', Disk.STATUS_MAINTENANCE_MODE: 'Maintenance', Disk.STATUS_SPARE_DISK: 'Spare', Disk.STATUS_RECONSTRUCT: 'Reconstruct', Disk.STATUS_FREE: 'Free', } def disk_status_to_str(disk_status): return _bit_map_to_str(disk_status, _DISK_STATUS_CONV) _AG_INIT_TYPE_CONV = { AccessGroup.INIT_TYPE_UNKNOWN: 'Unknown', AccessGroup.INIT_TYPE_OTHER: 'Other', AccessGroup.INIT_TYPE_WWPN: 'WWPN', AccessGroup.INIT_TYPE_ISCSI_IQN: 'iSCSI', AccessGroup.INIT_TYPE_ISCSI_WWPN_MIXED: 'iSCSI/WWPN Mixed', } def ag_init_type_to_str(init_type): return _enum_type_to_str(init_type, _AG_INIT_TYPE_CONV) def ag_init_type_str_to_lsm(init_type_str): return _str_to_enum(init_type_str, _AG_INIT_TYPE_CONV) _TGT_PORT_TYPE_CONV = { TargetPort.TYPE_OTHER: 'Other', TargetPort.TYPE_FC: 'FC', TargetPort.TYPE_FCOE: 'FCoE', TargetPort.TYPE_ISCSI: 'iSCSI', } def tgt_port_type_to_str(port_type): return _enum_type_to_str(port_type, _TGT_PORT_TYPE_CONV) def disk_rpm_to_str(rpm): if rpm == '': return "No Support" if rpm == Disk.RPM_NO_SUPPORT: return "No Support" if rpm == Disk.RPM_UNKNOWN: return "Unknown" if rpm == Disk.RPM_NON_ROTATING_MEDIUM: return "Non-Rotating Medium" if rpm == Disk.RPM_ROTATING_UNKNOWN_SPEED: return "Rotating Medium Unknown Speed" return str(rpm) def disk_link_type_to_str(link_type): if link_type == '': return "No Support" return _enum_type_to_str(link_type, LocalDiskInfo._LINK_TYPE_MAP) def disk_health_status_to_str(health_status): if health_status == '': return "No Support" if health_status == Disk.HEALTH_STATUS_UNKNOWN: return "Unknown" if health_status == Disk.HEALTH_STATUS_FAIL: return "Failure" if health_status == Disk.HEALTH_STATUS_WARN: return "Warning" if health_status == Disk.HEALTH_STATUS_GOOD: return "Good" _BATTERY_TYPE_CONV = { Battery.TYPE_UNKNOWN: "Unknown", Battery.TYPE_OTHER: "Other", Battery.TYPE_CHEMICAL: "Chemical", Battery.TYPE_CAPACITOR: "Capacitor", } def battery_type_to_str(battery_type): return _enum_type_to_str(battery_type, _BATTERY_TYPE_CONV) _BATTERY_STATUS_CONV = { Battery.STATUS_UNKNOWN: "Unknown", Battery.STATUS_OTHER: "Other", Battery.STATUS_OK: "OK", Battery.STATUS_DISCHARGING: "Discharging", Battery.STATUS_CHARGING: "Charging", Battery.STATUS_LEARNING: "Learning", Battery.STATUS_DEGRADED: "Degraded", Battery.STATUS_ERROR: "Error", } def battery_status_to_str(battery_status): return _bit_map_to_str(battery_status, _BATTERY_STATUS_CONV) _DISK_LED_STATUS_CONV = { Disk.LED_STATUS_UNKNOWN: 'Unknown', Disk.LED_STATUS_IDENT_ON: 'IDENT_ON', Disk.LED_STATUS_IDENT_OFF: 'IDENT_OFF', Disk.LED_STATUS_IDENT_UNKNOWN: 'IDENT_UNKNOWN', Disk.LED_STATUS_FAULT_ON: 'FAULT_ON', Disk.LED_STATUS_FAULT_OFF: 'FAULT_OFF', Disk.LED_STATUS_FAULT_UNKNOWN: 'FAULT_UNKNOWN', } def disk_led_status_to_str(led_status): return _bit_map_to_str(led_status, _DISK_LED_STATUS_CONV) def disk_link_speed_to_str(link_speed): if link_speed == Disk.LINK_SPEED_UNKNOWN: return "Unknown" return "%.1f Gbps" % float(link_speed / 1000.0) class PlugData(object): def __init__(self, description, plugin_version): self.desc = description self.version = plugin_version class VolumeRAIDInfo(object): _RAID_TYPE_MAP = { Volume.RAID_TYPE_RAID0: 'RAID0', Volume.RAID_TYPE_RAID1: 'RAID1', Volume.RAID_TYPE_RAID3: 'RAID3', Volume.RAID_TYPE_RAID4: 'RAID4', Volume.RAID_TYPE_RAID5: 'RAID5', Volume.RAID_TYPE_RAID6: 'RAID6', Volume.RAID_TYPE_RAID10: 'RAID10', Volume.RAID_TYPE_RAID15: 'RAID15', Volume.RAID_TYPE_RAID16: 'RAID16', Volume.RAID_TYPE_RAID50: 'RAID50', Volume.RAID_TYPE_RAID60: 'RAID60', Volume.RAID_TYPE_RAID51: 'RAID51', Volume.RAID_TYPE_RAID61: 'RAID61', Volume.RAID_TYPE_JBOD: 'JBOD', Volume.RAID_TYPE_MIXED: 'MIXED', Volume.RAID_TYPE_OTHER: 'OTHER', Volume.RAID_TYPE_UNKNOWN: 'UNKNOWN', } VOL_CREATE_RAID_TYPES_STR = [ 'RAID0', 'RAID1', 'RAID5', 'RAID6', 'RAID10', 'RAID50', 'RAID60'] def __init__(self, vol_id, raid_type, strip_size, disk_count, min_io_size, opt_io_size): self.vol_id = vol_id self.raid_type = raid_type self.strip_size = strip_size self.disk_count = disk_count self.min_io_size = min_io_size self.opt_io_size = opt_io_size @staticmethod def raid_type_to_str(raid_type): return _enum_type_to_str(raid_type, VolumeRAIDInfo._RAID_TYPE_MAP) @staticmethod def raid_type_str_to_lsm(raid_type_str): return _str_to_enum(raid_type_str, VolumeRAIDInfo._RAID_TYPE_MAP) class PoolRAIDInfo(object): _MEMBER_TYPE_MAP = { Pool.MEMBER_TYPE_UNKNOWN: 'Unknown', Pool.MEMBER_TYPE_OTHER: 'Unknown', Pool.MEMBER_TYPE_POOL: 'Pool', Pool.MEMBER_TYPE_DISK: 'Disk', } def __init__(self, pool_id, raid_type, member_type, member_ids): self.pool_id = pool_id self.raid_type = raid_type self.member_type = member_type self.member_ids = member_ids @staticmethod def member_type_to_str(member_type): return _enum_type_to_str( member_type, PoolRAIDInfo._MEMBER_TYPE_MAP) class VcrCap(object): def __init__(self, system_id, raid_types, strip_sizes): self.system_id = system_id self.raid_types = raid_types self.strip_sizes = strip_sizes class LocalDiskInfo(object): _LINK_TYPE_MAP = { Disk.LINK_TYPE_NO_SUPPORT: "No Support", Disk.LINK_TYPE_UNKNOWN: "Unknown", Disk.LINK_TYPE_FC: "FC", Disk.LINK_TYPE_SSA: "SSA", Disk.LINK_TYPE_SBP: "SBP", Disk.LINK_TYPE_SRP: "SRP", Disk.LINK_TYPE_ISCSI: "iSCSI", Disk.LINK_TYPE_SAS: "SAS", Disk.LINK_TYPE_ADT: "ADT", Disk.LINK_TYPE_ATA: "PATA/SATA", Disk.LINK_TYPE_USB: "USB", Disk.LINK_TYPE_SOP: "SCSI over PCIE", Disk.LINK_TYPE_PCIE: "PCI-E", } def __init__(self, sd_path, vpd83, rpm, link_type, serial_num, led_status, link_speed, health_status): self.sd_path = sd_path self.vpd83 = vpd83 self.rpm = rpm self.link_type = link_type self.serial_num = serial_num self.led_status = led_status self.link_speed = link_speed self.health_status = health_status class VolumeRAMCacheInfo(object): _PHY_DISK_CACHE_STATUS_MAP = { Volume.PHYSICAL_DISK_CACHE_USE_DISK_SETTING: "Use Disk Setting", Volume.PHYSICAL_DISK_CACHE_ENABLED: "Enabled", Volume.PHYSICAL_DISK_CACHE_DISABLED: "Disabled", Volume.PHYSICAL_DISK_CACHE_UNKNOWN: "Unknown", } _W_CACHE_POLICY_MAP = { Volume.WRITE_CACHE_POLICY_UNKNOWN: "Unknown", Volume.WRITE_CACHE_POLICY_WRITE_BACK: "Write Back", Volume.WRITE_CACHE_POLICY_AUTO: "Auto", Volume.WRITE_CACHE_POLICY_WRITE_THROUGH: "Write Through", } _W_CACHE_STATUS_MAP = { Volume.WRITE_CACHE_STATUS_UNKNOWN: "Unknown", Volume.WRITE_CACHE_STATUS_WRITE_BACK: "Write Back", Volume.WRITE_CACHE_STATUS_WRITE_THROUGH: "Write Through", } _R_CACHE_POLICY_MAP = { Volume.READ_CACHE_POLICY_UNKNOWN: "Unknown", Volume.READ_CACHE_POLICY_ENABLED: "Enabled", Volume.READ_CACHE_POLICY_DISABLED: "Disabled", } _R_CACHE_STATUS_MAP = { Volume.READ_CACHE_STATUS_UNKNOWN: "Unknown", Volume.READ_CACHE_STATUS_ENABLED: "Enabled", Volume.READ_CACHE_STATUS_DISABLED: "Disabled", } def __init__(self, vol_id, write_cache_policy, write_cache_status, read_cache_policy, read_cache_status, phy_disk_cache): self.vol_id = vol_id self.write_cache_policy = write_cache_policy self.write_cache_status = write_cache_status self.read_cache_policy = read_cache_policy self.read_cache_status = read_cache_status self.phy_disk_cache = phy_disk_cache @staticmethod def phy_disk_cache_status_to_str(phy_disk_cache): return _enum_type_to_str( phy_disk_cache, VolumeRAMCacheInfo._PHY_DISK_CACHE_STATUS_MAP) @staticmethod def w_cache_policy_to_str(w_cache_p): return _enum_type_to_str( w_cache_p, VolumeRAMCacheInfo._W_CACHE_POLICY_MAP) @staticmethod def w_cache_status_to_str(w_cache_status): return _enum_type_to_str( w_cache_status, VolumeRAMCacheInfo._W_CACHE_STATUS_MAP) @staticmethod def r_cache_policy_to_str(r_cache_p): return _enum_type_to_str( r_cache_p, VolumeRAMCacheInfo._R_CACHE_POLICY_MAP) @staticmethod def r_cache_status_to_str(r_cache_status): return _enum_type_to_str( r_cache_status, VolumeRAMCacheInfo._R_CACHE_STATUS_MAP) class DisplayData(object): def __init__(self): pass DISPLAY_WAY_COLUMN = 0 DISPLAY_WAY_SCRIPT = 1 DISPLAY_WAY_DEFAULT = DISPLAY_WAY_COLUMN DEFAULT_SPLITTER = ' | ' VALUE_CONVERT = {} # lsm.System SYSTEM_HEADER = OrderedDict() SYSTEM_HEADER['id'] = 'ID' SYSTEM_HEADER['name'] = 'Name' SYSTEM_HEADER['status'] = 'Status' SYSTEM_HEADER['status_info'] = 'Info' SYSTEM_HEADER['fw_version'] = "FW Ver" SYSTEM_HEADER['mode'] = "Mode" SYSTEM_HEADER['read_cache_pct'] = "Read Cache Percentage" SYSTEM_COLUMN_SKIP_KEYS = [] # XXX_COLUMN_SKIP_KEYS contain a list of property should be skipped when # displaying in column way. SYSTEM_VALUE_CONV_ENUM = { 'status': system_status_to_str, 'mode': system_mode_to_str, } SYSTEM_VALUE_CONV_HUMAN = [] VALUE_CONVERT[System] = { 'headers': SYSTEM_HEADER, 'column_skip_keys': SYSTEM_COLUMN_SKIP_KEYS, 'value_conv_enum': SYSTEM_VALUE_CONV_ENUM, 'value_conv_human': SYSTEM_VALUE_CONV_HUMAN, } PLUG_DATA_HEADER = OrderedDict() PLUG_DATA_HEADER['desc'] = 'Description' PLUG_DATA_HEADER['version'] = 'Version' PLUG_DATA_COLUMN_SKIP_KEYS = [] PLUG_DATA_VALUE_CONV_ENUM = {} PLUG_DATA_VALUE_CONV_HUMAN = [] VALUE_CONVERT[PlugData] = { 'headers': PLUG_DATA_HEADER, 'column_skip_keys': PLUG_DATA_COLUMN_SKIP_KEYS, 'value_conv_enum': PLUG_DATA_VALUE_CONV_ENUM, 'value_conv_human': PLUG_DATA_VALUE_CONV_HUMAN, } # lsm.Pool POOL_HEADER = OrderedDict() POOL_HEADER['id'] = 'ID' POOL_HEADER['name'] = 'Name' POOL_HEADER['element_type'] = 'Element Type' POOL_HEADER['unsupported_actions'] = 'Does not support' POOL_HEADER['total_space'] = 'Total Space' POOL_HEADER['free_space'] = 'Free Space' POOL_HEADER['status'] = 'Status' POOL_HEADER['status_info'] = 'Info' POOL_HEADER['system_id'] = 'System ID' POOL_COLUMN_SKIP_KEYS = ['unsupported_actions'] POOL_VALUE_CONV_ENUM = { 'status': pool_status_to_str, 'element_type': pool_element_type_to_str, 'unsupported_actions': pool_unsupported_actions_to_str } POOL_VALUE_CONV_HUMAN = ['total_space', 'free_space'] VALUE_CONVERT[Pool] = { 'headers': POOL_HEADER, 'column_skip_keys': POOL_COLUMN_SKIP_KEYS, 'value_conv_enum': POOL_VALUE_CONV_ENUM, 'value_conv_human': POOL_VALUE_CONV_HUMAN, } # lsm.Volume VOL_HEADER = OrderedDict() VOL_HEADER['id'] = 'ID' VOL_HEADER['name'] = 'Name' VOL_HEADER['vpd83'] = 'SCSI VPD 0x83' VOL_HEADER['block_size'] = 'Block Size' VOL_HEADER['num_of_blocks'] = 'Block Count' VOL_HEADER['size_bytes'] = 'Size' VOL_HEADER['admin_state'] = 'Disabled' VOL_HEADER['pool_id'] = 'Pool ID' VOL_HEADER['system_id'] = 'System ID' VOL_HEADER['sd_paths'] = 'Disk Paths' # This is appended by cmdline.py VOL_COLUMN_SKIP_KEYS = ['block_size', 'num_of_blocks'] VOL_VALUE_CONV_ENUM = { 'admin_state': vol_admin_state_to_str } VOL_VALUE_CONV_HUMAN = ['size_bytes', 'block_size'] VALUE_CONVERT[Volume] = { 'headers': VOL_HEADER, 'column_skip_keys': VOL_COLUMN_SKIP_KEYS, 'value_conv_enum': VOL_VALUE_CONV_ENUM, 'value_conv_human': VOL_VALUE_CONV_HUMAN, } # lsm.Disk DISK_HEADER = OrderedDict() DISK_HEADER['id'] = 'ID' DISK_HEADER['name'] = 'Name' DISK_HEADER['disk_type'] = 'Type' DISK_HEADER['block_size'] = 'Block Size' DISK_HEADER['num_of_blocks'] = 'Block Count' DISK_HEADER['size_bytes'] = 'Size' DISK_HEADER['status'] = 'Status' DISK_HEADER['system_id'] = 'System ID' DISK_HEADER['vpd83'] = 'SCSI VPD 0x83' DISK_HEADER['sd_paths'] = 'Disk Paths' # This is appended by cmdline.py DISK_HEADER['rpm'] = 'Revolutions Per Minute' DISK_HEADER['link_type'] = 'Link Type' DISK_HEADER['location'] = 'Location' DISK_COLUMN_SKIP_KEYS = ['block_size', 'num_of_blocks', 'location'] DISK_VALUE_CONV_ENUM = { 'status': disk_status_to_str, 'disk_type': disk_type_to_str, 'rpm': disk_rpm_to_str, 'link_type': disk_link_type_to_str, } DISK_VALUE_CONV_HUMAN = ['size_bytes', 'block_size'] VALUE_CONVERT[Disk] = { 'headers': DISK_HEADER, 'column_skip_keys': DISK_COLUMN_SKIP_KEYS, 'value_conv_enum': DISK_VALUE_CONV_ENUM, 'value_conv_human': DISK_VALUE_CONV_HUMAN, } # lsm.AccessGroup AG_HEADER = OrderedDict() AG_HEADER['id'] = 'ID' AG_HEADER['name'] = 'Name' AG_HEADER['init_ids'] = 'Initiator IDs' AG_HEADER['init_type'] = 'Type' AG_HEADER['system_id'] = 'System ID' AG_COLUMN_SKIP_KEYS = ['init_type'] AG_VALUE_CONV_ENUM = { 'init_type': ag_init_type_to_str, } AG_VALUE_CONV_HUMAN = [] VALUE_CONVERT[AccessGroup] = { 'headers': AG_HEADER, 'column_skip_keys': AG_COLUMN_SKIP_KEYS, 'value_conv_enum': AG_VALUE_CONV_ENUM, 'value_conv_human': AG_VALUE_CONV_HUMAN, } # lsm.FileSystem FS_HEADER = OrderedDict() FS_HEADER['id'] = 'ID' FS_HEADER['name'] = 'Name' FS_HEADER['total_space'] = 'Total Space' FS_HEADER['free_space'] = 'Free Space' FS_HEADER['pool_id'] = 'Pool ID' FS_HEADER['system_id'] = 'System ID' FS_COLUMN_SKIP_KEYS = [] FS_VALUE_CONV_ENUM = { } FS_VALUE_CONV_HUMAN = ['total_space', 'free_space'] VALUE_CONVERT[FileSystem] = { 'headers': FS_HEADER, 'column_skip_keys': FS_COLUMN_SKIP_KEYS, 'value_conv_enum': FS_VALUE_CONV_ENUM, 'value_conv_human': FS_VALUE_CONV_HUMAN, } # lsm.FsSnapshot FS_SNAP_HEADER = OrderedDict() FS_SNAP_HEADER['id'] = 'ID' FS_SNAP_HEADER['name'] = 'Name' FS_SNAP_HEADER['ts'] = 'Time Stamp' FS_SNAP_COLUMN_SKIP_KEYS = [] FS_SNAP_VALUE_CONV_ENUM = { 'ts': datetime.fromtimestamp } FS_SNAP_VALUE_CONV_HUMAN = [] VALUE_CONVERT[FsSnapshot] = { 'headers': FS_SNAP_HEADER, 'column_skip_keys': FS_SNAP_COLUMN_SKIP_KEYS, 'value_conv_enum': FS_SNAP_VALUE_CONV_ENUM, 'value_conv_human': FS_SNAP_VALUE_CONV_HUMAN, } # lsm.NfsExport NFS_EXPORT_HEADER = OrderedDict() NFS_EXPORT_HEADER['id'] = 'ID' NFS_EXPORT_HEADER['fs_id'] = 'FileSystem ID' NFS_EXPORT_HEADER['export_path'] = 'Export Path' NFS_EXPORT_HEADER['auth'] = 'Auth Type' NFS_EXPORT_HEADER['root'] = 'Root Hosts' NFS_EXPORT_HEADER['rw'] = 'RW Hosts' NFS_EXPORT_HEADER['ro'] = 'RO Hosts' NFS_EXPORT_HEADER['anonuid'] = 'Anonymous UID' NFS_EXPORT_HEADER['anongid'] = 'Anonymous GID' NFS_EXPORT_HEADER['options'] = 'Options' NFS_EXPORT_COLUMN_SKIP_KEYS = ['anonuid', 'anongid', 'auth'] NFS_EXPORT_VALUE_CONV_ENUM = {} NFS_EXPORT_VALUE_CONV_HUMAN = [] VALUE_CONVERT[NfsExport] = { 'headers': NFS_EXPORT_HEADER, 'column_skip_keys': NFS_EXPORT_COLUMN_SKIP_KEYS, 'value_conv_enum': NFS_EXPORT_VALUE_CONV_ENUM, 'value_conv_human': NFS_EXPORT_VALUE_CONV_HUMAN, } # lsm.TargetPort TGT_PORT_HEADER = OrderedDict() TGT_PORT_HEADER['id'] = 'ID' TGT_PORT_HEADER['port_type'] = 'Type' TGT_PORT_HEADER['physical_name'] = 'Physical Name' TGT_PORT_HEADER['service_address'] = 'Address' TGT_PORT_HEADER['network_address'] = 'Network Address' TGT_PORT_HEADER['physical_address'] = 'Physical Address' TGT_PORT_HEADER['system_id'] = 'System ID' TGT_PORT_COLUMN_SKIP_KEYS = ['physical_address', 'physical_name'] TGT_PORT_VALUE_CONV_ENUM = { 'port_type': tgt_port_type_to_str, } TGT_PORT_VALUE_CONV_HUMAN = [] VALUE_CONVERT[TargetPort] = { 'headers': TGT_PORT_HEADER, 'column_skip_keys': TGT_PORT_COLUMN_SKIP_KEYS, 'value_conv_enum': TGT_PORT_VALUE_CONV_ENUM, 'value_conv_human': TGT_PORT_VALUE_CONV_HUMAN, } VOL_RAID_INFO_HEADER = OrderedDict() VOL_RAID_INFO_HEADER['vol_id'] = 'Volume ID' VOL_RAID_INFO_HEADER['raid_type'] = 'RAID Type' VOL_RAID_INFO_HEADER['strip_size'] = 'Strip Size' VOL_RAID_INFO_HEADER['disk_count'] = 'Disk Count' VOL_RAID_INFO_HEADER['min_io_size'] = 'Minimum I/O Size' VOL_RAID_INFO_HEADER['opt_io_size'] = 'Optimal I/O Size' VOL_RAID_INFO_COLUMN_SKIP_KEYS = [] VOL_RAID_INFO_VALUE_CONV_ENUM = { 'raid_type': VolumeRAIDInfo.raid_type_to_str, } VOL_RAID_INFO_VALUE_CONV_HUMAN = [ 'strip_size', 'min_io_size', 'opt_io_size'] VALUE_CONVERT[VolumeRAIDInfo] = { 'headers': VOL_RAID_INFO_HEADER, 'column_skip_keys': VOL_RAID_INFO_COLUMN_SKIP_KEYS, 'value_conv_enum': VOL_RAID_INFO_VALUE_CONV_ENUM, 'value_conv_human': VOL_RAID_INFO_VALUE_CONV_HUMAN, } POOL_RAID_INFO_HEADER = OrderedDict() POOL_RAID_INFO_HEADER['pool_id'] = 'Pool ID' POOL_RAID_INFO_HEADER['raid_type'] = 'RAID Type' POOL_RAID_INFO_HEADER['member_type'] = 'Member Type' POOL_RAID_INFO_HEADER['member_ids'] = 'Member IDs' POOL_RAID_INFO_COLUMN_SKIP_KEYS = [] POOL_RAID_INFO_VALUE_CONV_ENUM = { 'raid_type': VolumeRAIDInfo.raid_type_to_str, 'member_type': PoolRAIDInfo.member_type_to_str, } POOL_RAID_INFO_VALUE_CONV_HUMAN = [] VALUE_CONVERT[PoolRAIDInfo] = { 'headers': POOL_RAID_INFO_HEADER, 'column_skip_keys': POOL_RAID_INFO_COLUMN_SKIP_KEYS, 'value_conv_enum': POOL_RAID_INFO_VALUE_CONV_ENUM, 'value_conv_human': POOL_RAID_INFO_VALUE_CONV_HUMAN, } VCR_CAP_HEADER = OrderedDict() VCR_CAP_HEADER['system_id'] = 'System ID' VCR_CAP_HEADER['raid_types'] = 'Supported RAID Types' VCR_CAP_HEADER['strip_sizes'] = 'Supported Strip Sizes' VCR_CAP_COLUMN_SKIP_KEYS = [] VCR_CAP_VALUE_CONV_ENUM = { 'raid_types': lambda i: [VolumeRAIDInfo.raid_type_to_str(x) for x in i] } VCR_CAP_VALUE_CONV_HUMAN = ['strip_sizes'] VALUE_CONVERT[VcrCap] = { 'headers': VCR_CAP_HEADER, 'column_skip_keys': VCR_CAP_COLUMN_SKIP_KEYS, 'value_conv_enum': VCR_CAP_VALUE_CONV_ENUM, 'value_conv_human': VCR_CAP_VALUE_CONV_HUMAN, } LOCAL_DISK_HEADER = OrderedDict() LOCAL_DISK_HEADER['sd_path'] = 'Path' LOCAL_DISK_HEADER['vpd83'] = 'SCSI VPD 0x83' LOCAL_DISK_HEADER['rpm'] = 'Revolutions Per Minute' LOCAL_DISK_HEADER['link_type'] = 'Link Type' LOCAL_DISK_HEADER['serial_num'] = 'Serial Number' LOCAL_DISK_HEADER['led_status'] = 'LED Status' LOCAL_DISK_HEADER['link_speed'] = 'Link Speed' LOCAL_DISK_HEADER['health_status'] = 'Health Status' LOCAL_DISK_COLUMN_SKIP_KEYS = ['rpm', 'led_status', 'link_speed'] LOCAL_DISK_VALUE_CONV_ENUM = { 'rpm': disk_rpm_to_str, 'link_type': disk_link_type_to_str, 'led_status': disk_led_status_to_str, 'link_speed': disk_link_speed_to_str, 'health_status': disk_health_status_to_str, } LOCAL_DISK_VALUE_CONV_HUMAN = [] VALUE_CONVERT[LocalDiskInfo] = { 'headers': LOCAL_DISK_HEADER, 'column_skip_keys': LOCAL_DISK_COLUMN_SKIP_KEYS, 'value_conv_enum': LOCAL_DISK_VALUE_CONV_ENUM, 'value_conv_human': LOCAL_DISK_VALUE_CONV_HUMAN, } BATTERY_HEADER = OrderedDict() BATTERY_HEADER['id'] = 'ID' BATTERY_HEADER['name'] = 'Name' BATTERY_HEADER['type'] = 'Type' BATTERY_HEADER['status'] = 'Status' BATTERY_HEADER['system_id'] = 'System ID' BATTERY_COLUMN_SKIP_KEYS = [] BATTERY_VALUE_CONV_ENUM = { 'type': battery_type_to_str, 'status': battery_status_to_str, } BATTERY_VALUE_CONV_HUMAN = [''] VALUE_CONVERT[Battery] = { 'headers': BATTERY_HEADER, 'column_skip_keys': BATTERY_COLUMN_SKIP_KEYS, 'value_conv_enum': BATTERY_VALUE_CONV_ENUM, 'value_conv_human': BATTERY_VALUE_CONV_HUMAN, } VOL_CACHE_INFO_HEADER = OrderedDict() VOL_CACHE_INFO_HEADER['vol_id'] = 'Volume ID' VOL_CACHE_INFO_HEADER['write_cache_policy'] = 'Write Cache Policy' VOL_CACHE_INFO_HEADER['write_cache_status'] = 'Write Cache' VOL_CACHE_INFO_HEADER['read_cache_policy'] = 'Read Cache Policy' VOL_CACHE_INFO_HEADER['read_cache_status'] = 'Read Cache' VOL_CACHE_INFO_HEADER['phy_disk_cache'] = 'Physical Disk Cache' VOL_CACHE_INFO_COLUMN_SKIP_KEYS = [] VOL_CACHE_INFO_VALUE_CONV_ENUM = { 'write_cache_policy': VolumeRAMCacheInfo.w_cache_policy_to_str, 'write_cache_status': VolumeRAMCacheInfo.w_cache_status_to_str, 'read_cache_policy': VolumeRAMCacheInfo.r_cache_policy_to_str, 'read_cache_status': VolumeRAMCacheInfo.r_cache_status_to_str, 'phy_disk_cache': VolumeRAMCacheInfo.phy_disk_cache_status_to_str, } VOL_CACHE_INFO_VALUE_CONV_HUMAN = [] VALUE_CONVERT[VolumeRAMCacheInfo] = { 'headers': VOL_CACHE_INFO_HEADER, 'column_skip_keys': VOL_CACHE_INFO_COLUMN_SKIP_KEYS, 'value_conv_enum': VOL_CACHE_INFO_VALUE_CONV_ENUM, 'value_conv_human': VOL_CACHE_INFO_VALUE_CONV_HUMAN, } @staticmethod def _get_man_pro_value(obj, key, value_conv_enum, value_conv_human, flag_human, flag_enum): try: value = getattr(obj, key) except LsmError as lsm_err: if lsm_err.code == ErrorNumber.NO_SUPPORT: value = '' else: raise lsm_err if not flag_enum: if key in list(value_conv_enum.keys()): value = value_conv_enum[key](value) if flag_human: if key in value_conv_human: if type(value) is list: value = list(size_bytes_2_size_human(s) for s in value) else: value = size_bytes_2_size_human(value) return value @staticmethod def _find_max_width(two_d_list, column_index): max_width = 1 for row_index in range(0, len(two_d_list)): row_data = two_d_list[row_index] if len(row_data[column_index]) > max_width: max_width = len(row_data[column_index]) return max_width @staticmethod def _data_dict_gen(obj, flag_human, flag_enum, display_way, extra_properties=None, flag_dsp_all_data=False): data_dict = OrderedDict() value_convert = DisplayData.VALUE_CONVERT[type(obj)] headers = value_convert['headers'] value_conv_enum = value_convert['value_conv_enum'] value_conv_human = value_convert['value_conv_human'] if flag_dsp_all_data: display_way = DisplayData.DISPLAY_WAY_SCRIPT display_keys = [] if display_way == DisplayData.DISPLAY_WAY_COLUMN: for key_name in list(headers.keys()): if key_name not in value_convert['column_skip_keys']: display_keys.append(key_name) elif display_way == DisplayData.DISPLAY_WAY_SCRIPT: display_keys = list(headers.keys()) if extra_properties: for extra_key_name in extra_properties: if extra_key_name not in display_keys: display_keys.append(extra_key_name) for key in display_keys: key_str = headers[key] value = DisplayData._get_man_pro_value( obj, key, value_conv_enum, value_conv_human, flag_human, flag_enum) data_dict[key_str] = value return data_dict @staticmethod def display_data(objs, display_way=None, flag_human=True, flag_enum=False, extra_properties=None, splitter=None, flag_with_header=True, flag_dsp_all_data=False): if len(objs) == 0: return None if display_way is None: display_way = DisplayData.DISPLAY_WAY_DEFAULT if splitter is None: splitter = DisplayData.DEFAULT_SPLITTER data_dict_list = [] if type(objs[0]) in list(DisplayData.VALUE_CONVERT.keys()): for obj in objs: data_dict = DisplayData._data_dict_gen( obj, flag_human, flag_enum, display_way, extra_properties, flag_dsp_all_data) data_dict_list.extend([data_dict]) else: return None if display_way == DisplayData.DISPLAY_WAY_SCRIPT: DisplayData.display_data_script_way(data_dict_list, splitter) elif display_way == DisplayData.DISPLAY_WAY_COLUMN: DisplayData._display_data_column_way( data_dict_list, splitter, flag_with_header) return True @staticmethod def display_data_script_way(data_dict_list, splitter): key_column_width = 1 value_column_width = 1 for data_dict in data_dict_list: for key_name in list(data_dict.keys()): # find the max column width of key cur_key_width = len(key_name) if cur_key_width > key_column_width: key_column_width = cur_key_width # find the max column width of value cur_value = data_dict[key_name] if isinstance(cur_value, list): if len(cur_value) == 0: continue cur_value_width = len(str(cur_value[0])) else: cur_value_width = len(str(cur_value)) if cur_value_width > value_column_width: value_column_width = cur_value_width row_format = '%%-%ds%s%%-%ds' % (key_column_width, splitter, value_column_width) sub_row_format = '%s%s%%-%ds' % (' ' * key_column_width, splitter, value_column_width) obj_splitter = '%s%s%s' % ('-' * key_column_width, '-' * len(splitter), '-' * value_column_width) for data_dict in data_dict_list: out(obj_splitter) for key_name in data_dict: value = data_dict[key_name] if isinstance(value, list): flag_first_data = True for sub_value in value: if flag_first_data: out(row_format % (key_name, str(sub_value))) flag_first_data = False else: out(sub_row_format % str(sub_value)) else: out(row_format % (key_name, str(value))) out(obj_splitter) @staticmethod def _display_data_column_way(data_dict_list, splitter, flag_with_header): if len(data_dict_list) == 0: return two_d_list = [] item_count = len(list(data_dict_list[0].keys())) # determine how many lines we will print row_width = 0 for data_dict in data_dict_list: cur_max_wd = 0 for key_name in list(data_dict.keys()): if isinstance(data_dict[key_name], list): cur_row_width = len(data_dict[key_name]) if cur_row_width > cur_max_wd: cur_max_wd = cur_row_width else: pass if cur_max_wd == 0: cur_max_wd = 1 row_width += cur_max_wd if flag_with_header: # first line for header row_width += 1 # init 2D list for raw in range(0, row_width): new = [] for column in range(0, item_count): new.append('') two_d_list.append(new) # header current_row_num = -1 if flag_with_header: two_d_list[0] = list(data_dict_list[0].keys()) current_row_num = 0 # Fill the 2D list with data_dict_list for data_dict in data_dict_list: current_row_num += 1 save_row_num = current_row_num values = list(data_dict.values()) for index in range(0, len(values)): value = values[index] if isinstance(value, list): for sub_index in range(0, len(value)): tmp_row_num = save_row_num + sub_index two_d_list[tmp_row_num][index] = str(value[sub_index]) if save_row_num + len(value) > current_row_num: current_row_num = save_row_num + len(value) - 1 else: two_d_list[save_row_num][index] = str(value) # display two_list row_formats = [] header_splitter = '' for column_index in range(0, len(two_d_list[0])): max_width = DisplayData._find_max_width(two_d_list, column_index) row_formats.extend(['%%-%ds' % max_width]) header_splitter += '-' * max_width if column_index != (len(two_d_list[0]) - 1): header_splitter += '-' * len(splitter) row_format = splitter.join(row_formats) for row_index in range(0, len(two_d_list)): out(row_format % tuple(two_d_list[row_index])) if row_index == 0 and flag_with_header: out(header_splitter)