Native 802.11 Operational MIB objects

Important

The Native 802.11 Wireless LAN interface is deprecated in Windows 10 and later. Please use the WLAN Device Driver Interface (WDI) instead. For more information about WDI, see WLAN Universal Windows driver model.

Native 802.11 MIB OIDs are used to reference IEEE 802.11 management information base (MIB) objects.

The following table lists the Native 802.11 IEEE OID name, the corresponding IEEE 802.11 MIB object name, and the IEEE 802.11 standard that defines the MIB object. For more information about a MIB object, refer to Annex D of the specified IEEE 802.11 standard.

Native 802.11 IEEE OID name IEEE 802.11 MIB object name IEEE 802.11 standard
OID_DOT11_BEACON_PERIOD dot11BeaconPeriod IEEE 802.11-2012
OID_DOT11_CCA_MODE_SUPPORTED dot11CCAModeSupported IEEE 802.11b-1999
OID_DOT11_CCA_WATCHDOG_COUNT_MAX dot11CCAWatchdogCountMax IEEE 802.11-2012
OID_DOT11_CCA_WATCHDOG_COUNT_MIN dot11CCAWatchdogCountMin IEEE 802.11-2012
OID_DOT11_CCA_WATCHDOG_TIMER_MAX dot11CCAWatchdogTimerMax IEEE 802.11-2012
OID_DOT11_CCA_WATCHDOG_TIMER_MIN dot11CCAWatchdogTimerMin IEEE 802.11-2012
OID_DOT11_CF_POLLABLE dot11CFPollable IEEE 802.11-2012
OID_DOT11_CHANNEL_AGILITY_ENABLED dot11ChannelAgilityEnabled IEEE 802.11-1999/Corrigendum 1-2001
OID_DOT11_CHANNEL_AGILITY_PRESENT dot11ChannelAgilityPresent IEEE 802.11-1999/Corrigendum 1-2001
OID_DOT11_COUNTRY_STRING dot11CountryString IEEE 802.11d-2001
OID_DOT11_CURRENT_CCA_MODE dot11CurrentCCAMode IEEE 802.11-2012
OID_DOT11_CURRENT_CHANNEL dot11CurrentChannel IEEE 802.11-2012
OID_DOT11_CURRENT_CHANNEL_NUMBER dot11CurrentChannelNumber IEEE 802.11-2012
OID_DOT11_CURRENT_DWELL_TIME dot11CurrentDwellTime IEEE 802.11-2012
OID_DOT11_CURRENT_FREQUENCY dot11CurrentFrequency IEEE 802.11a-1999
OID_DOT11_CURRENT_INDEX dot11CurrentIndex IEEE 802.11-2012
OID_DOT11_CURRENT_PATTERN dot11CurrentPattern IEEE 802.11-2012
OID_DOT11_CURRENT_REG_DOMAIN dot11CurrentRegDomain IEEE 802.11-2012
OID_DOT11_CURRENT_SET dot11CurrentSet IEEE 802.11-2012
OID_DOT11_CURRENT_TX_POWER_LEVEL dot11CurrentTxPowerLevel IEEE 802.11-2012
OID_DOT11_DIVERSITY_SELECTION_RX dot11DiversitySelectionRx IEEE 802.11-2012
OID_DOT11_DIVERSITY_SUPPORT dot11DiversitySupport IEEE 802.11-2012
OID_DOT11_DSS_OFDM_OPTION_ENABLED dot11DSSSOFDMOptionEnabled IEEE 802.11g-2003
OID_DOT11_DSS_OFDM_OPTION_IMPLEMENTED dot11DSSSOFDMOptionImplemented IEEE 802.11g-2003
OID_DOT11_DTIM_PERIOD dot11DTIMPeriod IEEE 802.11-2012
OID_DOT11_ED_THRESHOLD dot11EDThreshold IEEE 802.11-2012
OID_DOT11_EHCC_CAPABILITY_ENABLED dot11EHCCCapabilityEnabled IEEE 802.11d-2001
OID_DOT11_EHCC_CAPABILITY_IMPLEMENTED dot11EHCCCapabilityImplemented IEEE 802.11d-2001
OID_DOT11_EHCC_NUMBER_OF_CHANNELS_FAMILY_INDEX dot11EHCCNumberOfChannelsFamilyIndex IEEE 802.11d-2001
OID_DOT11_EHCC_PRIME_RADIX dot11EHCCPrimeRadix IEEE 802.11d-2001
OID_DOT11_ERP_PBCC_OPTION_ENABLED dot11ERPPBCCOptionEnabled IEEE 802.11g-2003
OID_DOT11_ERP_PBCC_OPTION_IMPLEMENTED dot11ERPPBCCOptionImplemented IEEE 802.11g-2003
OID_DOT11_FRAGMENTATION_THRESHOLD dot11FragmentationThreshold IEEE 802.11-2012
OID_DOT11_FREQUENCY_BANDS_SUPPORTED dot11FrequencyBandsSupported IEEE 802.11a-1999
OID_DOT11_HOP_ALGORITHM_ADOPTED dot11HopAlgorithmAdopted IEEE 802.11d-2001
OID_DOT11_HOP_MODULUS dot11HopModulus IEEE 802.11d-2001
OID_DOT11_HOP_OFFSET dot11HopOffset IEEE 802.11d-2001
OID_DOT11_HOP_TIME dot11HopTime IEEE 802.11-2012
OID_DOT11_HOPPING_PATTERN dot11HoppingPatternEntry IEEE 802.11d-2001
OID_DOT11_HR_CCA_MODE_SUPPORTED dot11HRCCAModeSupported IEEE 802.11-2012/Corrigendum 1-2001
OID_DOT11_LONG_RETRY_LIMIT dot11LongRetryLimit IEEE 802.11-2012
OID_DOT11_MAC_ADDRESS dot11MACAddress IEEE 802.11-2012
OID_DOT11_MAX_DWELL_TIME dot11MaxDwellTime IEEE 802.11-2012
OID_DOT11_MAX_RECEIVE_LIFETIME dot11MaxReceiveLifetime IEEE 802.11-2012
OID_DOT11_MAX_TRANSMIT_MSDU_LIFETIME dot11MaxTransmitMSDULifetime IEEE 802.11-2012
OID_DOT11_MULTI_DOMAIN_CAPABILITY dot11MultiDomainCapabilityEntry IEEE 802.11d-2001
OID_DOT11_MULTI_DOMAIN_CAPABILITY_ENABLED dot11MultiDomainCapabilityEnabled IEEE 802.11d-2001
OID_DOT11_MULTI_DOMAIN_CAPABILITY_IMPLEMENTED dot11MultiDomainCapabilityImplemented IEEE 802.11d-2001
OID_DOT11_NUMBER_OF_HOPPING_SETS dot11NumberOfHoppingSets IEEE 802.11d-2001
OID_DOT11_OPERATIONAL_RATE_SET dot11OperationalRateSet IEEE 802.11-2012
OID_DOT11_PBCC_OPTION_IMPLEMENTED dot11PBCCOptionImplemented IEEE 802.11b-1999
OID_DOT11_RANDOM_TABLE_FLAG dot11RandomTableFlag IEEE 802.11d-2001
OID_DOT11_REG_DOMAINS_SUPPORT_VALUE dot11RegDomainsSupportEntry IEEE 802.11-2012
OID_DOT11_RTS_THRESHOLD dot11RTSThreshold IEEE 802.11-2012
OID_DOT11_SHORT_PREAMBLE_OPTION_IMPLEMENTED dot11ShortPreambleOptionImplemented IEEE 802.11b-1999
OID_DOT11_SHORT_RETRY_LIMIT dot11ShortRetryLimit IEEE 802.11-2012
OID_DOT11_SHORT_SLOT_TIME_OPTION_ENABLED dot11ShortSlotTimeOptionEnabled IEEE 802.11g-2003
OID_DOT11_SHORT_SLOT_TIME_OPTION_IMPLEMENTED dot11ShortSlotTimeOptionImplemented IEEE 802.11g-2003
OID_DOT11_STATION_ID dot11StationID IEEE 802.11-2012
OID_DOT11_TEMP_TYPE dot11TempType IEEE 802.11-2012
OID_DOT11_TI_THRESHOLD dot11TIThreshold IEEE 802.11a-1999

If the IEEE 802.11 standard that defines the IEEE 802.11 MIB object also defines a default value for the MIB object, the Native 802.11 miniport driver must use the specified default value. Otherwise, the Native 802.11 miniport driver defines its own default value for the MIB object.

Note

When the miniport driver receives an OID_DOT11_RESET_REQUEST method request, the miniport driver must reset an IEEE MIB object to its default value under the following conditions:

  • When MIB values for the MAC and/or PHY are reset to their default values only if bSetDefaultMIB is set to TRUE.
  • When MAC or PHY values are affected by the value of the dot11ResetType member. For more information, refer to the topic for the specific Native 802.11 MIB OID.