-- *****************************************************************
-- CISCO-DOT11-IF-MIB.my: CISCO IEEE 802.11 INTERFACE MIB file
--
-- April 2002, Francis Pang
--
-- Copyright (c) 2002-2007 by Cisco Systems, Inc.
-- All rights reserved.
-- *****************************************************************
--CISCO-DOT11-IF-MIB DEFINITIONS::=BEGINIMPORTSMODULE-IDENTITY,OBJECT-TYPE,NOTIFICATION-TYPE,Integer32,Unsigned32,Counter32FROM SNMPv2-SMI
MODULE-COMPLIANCE,OBJECT-GROUP,NOTIFICATION-GROUPFROM SNMPv2-CONF
TEXTUAL-CONVENTION,MacAddress,RowStatus,TruthValueFROM SNMPv2-TC
SnmpAdminStringFROM SNMP-FRAMEWORK-MIB
ifIndex
FROM IF-MIB
dot11AuthenticationAlgorithmsIndex,dot11SupportedDataRatesRxIndex
FROM IEEE802dot11-MIB
ciscoMgmt
FROM CISCO-SMI;-- ********************************************************************
-- * MODULE IDENTITY
-- ********************************************************************ciscoDot11IfMIB MODULE-IDENTITYLAST-UPDATED"200612200000Z"ORGANIZATION"Cisco System Inc."CONTACT-INFO" Cisco Systems
Customer Service
Postal: 170 West Tasman Drive,
San Jose CA 95134-1706.
USA
Tel: +1 800 553-NETS
E-mail: cs-dot11@cisco.com"DESCRIPTION"This MIB module provides network management
support for Cisco IEEE 802.11 Wireless LAN
type device (Access Point) radio interfaces.
ACRONYMS
AES
Advanced Encryption Standard
AP
Access point
AID
Association IDentifier for wireless stations.
BSS
IEEE 802.11 Basic Service Set.
CCMP
Code Mode/CBC Mac Protocol
CEPT
European Conference of Postal and
Telecommunications Administrations.
CRC
Cyclic Redundancy Check.
DSSS
Direct-Sequence Spread Spectrum.
EAP
Extensible Authentication Protocol.
ERP
Extended Rate PHY
FHSS
Frequency-Hopping Spread Spectrum.
IAPP
Inter-Access-Point Protocol.
ICV
Integrity Check Value.
ISM
Industrial, Scientific, and Medical.
MBSSID
Multiple Broadcast SSID
MIC
Message Integrity Check.
MMH
Multi-Modal Hashing.
OFDM
Orthogonal Frequency Division Multiplexing.
PHY
Physical Layer (Layer 1 in network model).
PLCP
Physical Layer Convergence Procedure.
PMD
Physical Medium Dependent.
PSPF
Public Secure Packet Forwarding.
RF
Radio Frequency.
SS
Spread-spectrum.
SSID
Radio Service Set ID.
STA
IEEE 802.11 wireless station.
U-NII
Unlicensed National information Infrastructure
VLAN
Virtual LAN.
WEP
Wired Equivalent Privacy.
WGB
Work-group Bridge
WPA
WiFi Protected Access
GLOSSARY
Access point
Transmitter/receiver (transceiver) device
that commonly connects and transports data
between a wireless network and a wired network.
Association
The service used to establish access point
or station mapping and enable STA invocation
of the distribution system services.
(Wireless clients attempt to connect to
access points.)
Basic Rate
A data rate that is mandatory for client
devices to support in order for them to achieve
successful association.
Basic Service Set
The IEEE 802.11 BSS of an AP comprises of the
stations directly associating with the AP.
Bridge
Device that connects two or more segments
and reduces traffic by analyzing the
destination address, filtering the frame,
and forwarding the frame to all connected
segments.
Bridge AP
It is an AP that functions as a transparent
bridge between 2 wired LAN segments.
Broadcast SSID
Clients can send out Broadcast SSID Probe
Requests to a nearby AP, and the AP will
broadcast its own SSID within its beacons
to response to the clients. Clients can use
this Broadcast SSID to associate and
communicate with the AP.
Cyclic Redundancy Check
CRC is an error detect mechanism that applies
to frame transmission.
Direct-Sequence Spread Spectrum
DSSS combines a data signal at the sending
station with a higher data rate bit sequence,
which many refer to as a chipping code (also
known as processing gain). A high processing gain
increases the signals resistance to interference.
DSSS sends a specific string of bits for each data
bit sent.
ERP-CCK Modulation
This signal modulation technique is supported in
PHY implementing IEEE 802.11b/g Protocol.
ERP-OFDM Modulation
This signal modulation technique is supported in
PHY implementing IEEE 802.11g Protocol.
Extensible Authentication Protocol
EAP acts as the interface between a wireless
client and an authentication server, such as a
RADIUS server, to which the access point
communicates over the wired network.
Extended Rate PHY
This PHY implements the IEEE 802.11g Protocol.
Frequency-Hopping Spread Spectrum
In FHSS, a hopping code determines the frequencies
the radio will transmit and in which order. To
properly receive the signal, the receiver must be
set to same hopping code and listen to the
incoming signal at the right time and correct
frequency. The code pattern maintains a single
logical channel.
IEEE 802.11
Standard to encourage interoperability among
wireless networking equipment.
IEEE 802.11b
High-rate wireless LAN standard for wireless
data transfer at up to 11 Mbps.
IEEE P802.11g
Higher Speed Physical Layer (PHY) Extension to
IEEE 802.11b, will boost wireless LAN speed to 54
Mbps by using OFDM (orthogonal frequency division
multiplexing). The IEEE 802.11g specification is
backward compatible with the widely deployed IEEE
802.11b standard.
Inter-Access-Point Protocol
The IEEE 802.11 standard does not define how
access points track moving users or how to
negotiate a handoff from one access point to the
next, a process referred to as roaming. IAPP is
a Cisco proprietary protocol to support roaming.
However, IAPP does not address how the wireless
system tracks users moving from one subnet to
another.
Independent network
Network that provides peer-to-peer connectivity
without relying on a complete network
infrastructure.
Integrity Check Value
The WEP ICV shall be a 32-bit value containing
the 32-bit cyclic redundancy code designed for
verifying wireless data frame integrity.
Message Integrity Check
A MIC can, optionally, be added to WEP-encrypted
802.11 frames. MIC prevents attacks on encrypted
packets. MIC, implemented on both the access point
and all associated client devices, adds a few bytes
to each packet to make the packets tamper-proof.
Native VLAN ID
A switch port and/or AP can be configured with a
'native VLAN ID'. Untagged or priority-tagged
frames are implicitly associated with the native
VLAN ID. The default native VLAN ID is '1' if
VLAN tagging is enabled. The native VLAN ID is '0'
or 'no VLAN ID' if VLAN tagging is not enabled.
Node
Device on a network; has its own unique network
address and name.
Non-Root Bridge
This wireless bridge does not connect to the main
wired LAN segment. It connects to a remote wired
LAN segment and can associate with root bridges and
other non-root bridges that accept client
associations. It also can accept associations from
other non-root bridges, repeater access points,
and client devices.
Physical Layer Convergence Procedure
In IEEE 802.11 wireless LANs, PLCP defines a method
of mapping the IEEE 802.11 MAC sublayer protocol
data units into a framing format suitable for
sending and receiving user data and management
information between two or more wireless stations
using the associated PMD system.
Physical Medium Dependent
In IEEE 802.11 wireless LANs, a PMD system, whose
function defines the characteristics of, and method
of transmitting and receiving data through, a
wireless medium between two or more wireless
stations each using the DSSS.
Preamble
The radio preamble are data at the head of a
packet that contains information access points
and client devices required by IEEE 802.11 when
sending and receiving packets.
Primary LAN
In an AP, if the destinations of inbound unicast
frames are unknown, the frames are sent toward
the primary LAN defined on the device.
Radio carrier
Radio waves that deliver energy to a remote
receiver; in other words, radio waves in a
wireless LAN environment.
Repeater
Device that connects multiple segments,
listening to each and regenerating the signal
on one to every other connected one; so that
the signal can travel further.
Repeater or Non-root Access Point
The repeater access point is not connected
to the wired LAN. The Repeater is a wireless
LAN transceiver that transfers data between
a client and another access point, another
repeater, or between two bridges. The repeater
is placed within radio range of an access point
connected to the wired LAN, another repeater, or
an non-root bridge to extend the range of the
infrastructure.
Radio Frequency
Radio wave and modulation process or operation.
Root Access Point
This access point connects clients to the main
wired LAN.
Root (Wireless) Bridge
This wireless bridge connects to the main wired
LAN. It can communicate with non-root wireless
bridges, repeater access points, and client
devices but not with another wireless root
bridge. Only one wireless bridge in a wireless
LAN can be set as the wireless root bridge.
Spread-spectrum
Wideband radio frequency technique that
consumes more bandwidth than the narrow-band
alternative but produces a signal that is louder
and easier to detect. There are two types of
spread-spectrum radio: frequency hopping and
direct sequence.
Radio Service Set ID
SSID is a unique identifier that APs and clients
use to identify with each other. SSID is a simple
means of access control and is not for security.
The SSID can be any alphanumeric entry up to 32
characters.
Tag header
A 'tag header' is as defined in the IEEE 802.1Q
standard. An 802.1Q tag header contains a 3-bit
priority field and a 12-bit VLAN ID field.
A 'priority tag' has a VLAN ID of 0, to indicate
'no VLAN ID'. A 'VLAN tag' has a non-zero
VLAN ID.
Virtual LAN
VLAN defined in the IEEE 802.1Q VLAN standard
supports logically segmenting of LAN
infrastructure into different subnets or
workgroups so that packets are switched only
between ports within the same VLAN.
VLAN ID
Each VLAN is identified by a 12-bit 'VLAN ID'.
A VLAN ID of '0' is used to indicate
'no VLAN ID'. Valid VLAN IDs range from '1' to
'4095'. VLAN of ID '4095' is the default VLAN
for Cisco VoIP Phones.
Wired Equivalent Privacy
WEP is generally used to refer to 802.11
encryption.
Work-group Bridge
It is a client to APs or wireless root bridges.
The radio port of a WGB serves as the uplink to
the main network and the Ethernet port provides
network access for devices like PC or IP phone.
Upgrade of Frequencies
As per the latest regulations proposed by the
Japanese Government, the four channels 34
( 5170 GHz ), 38 ( 5190 GHz), 42 ( 5210 ) and
44 ( 5230 ) in the 5150-5250 MHz band has been
shifted by 10 MHz. Thus, the new channels in the
5150-5250 MHz band are 36 ( 5180 ), 40 ( 5200 )
and 44 ( 5220 ) and 48 ( 5240 )."REVISION"200612200000Z"DESCRIPTION"- Added following objects in cd11IfStationConfigTable
cd11IfMobileStationListIgnore
cd11IfMobileStationScanChannel.
- Added cd11Ifdot11MobileStationScanGroup OBJECT-GROUP
- Added ciscoDot11IfComplianceRev4 MODULE-COMPLIANCE."REVISION"200503100000Z"DESCRIPTION"Updated the cd11IfCurrentCarrierSet to define new
carrier types."REVISION"200406060000Z"DESCRIPTION"Modified the cd11IfPhyNativePowerUseStandard to
read-write and updated cd11IfNativeTxPowerSupportTable
and cd11IfRfNativePowerTable to add the object
cd11IfRadioModulationClass as indices."REVISION"200405060000Z"DESCRIPTION"Added cd11IfStationSwitchOverNotif and
cd11IfRogueApDetectedNotif notifications"REVISION"200404170000Z"DESCRIPTION"Added cd11IfVlanPsPacketForwardEnable and
cd11IfPsPacketForwardEnable for PSPF support.
Added cd11IfMultipleBssidEnable for MBSSID support.
Modified Cd11IfVlanEncryptKeyEntry to add objects
for WEP encryption support. Added
cd11IfRogueApDetectedTable for rogue AP detection
information. Added cd11IfFrequencyBandTable,
cd11IfRfNativePowerTable, and
cd11IfNativeTxPowerSupportTable to support per
radio frequency band power configuration. Added
cd11IfDataRatesSensitivityTable for receive
sensitivity specifications of IEEE 802.11 radio."REVISION"200402270000Z"DESCRIPTION"Updated the cd11IfStationRole object description.
Modified CDot11IfCipherType textual convention to
match the latest design. Updated
cd11IfClientTxPowerTable power levels to allow
negative dBm power. Modified the
MODULE-COMPLIANCE for this MIB."REVISION"200311170000Z"DESCRIPTION"Added cd11IfWorldModeCountry, cd11IfWorldMode, and
cd11IfMobileStationScanParent to
cd11IfStationConfigEntry. Added cd11IfPhyConcatenation
to cd11IfPhyOperationEntry. Added
cd11IfVlanEncryptKeyTransmit to
Cd11IfVlanEncryptKeyEntry. Added
cd11IfClientTxPowerTable, cd11IfOfdmTxPowerTable,
cd11IfRadioMonitoringTable, and
cd11IfVlanSecurityTable. Modified the
MODULE-COMPLIANCE for this MIB."REVISION"200307130000Z"
DESCRIPTION"Added cd11IfPhyBasicRateSet to identify if a rate
in the dot11OperationalRateSet is a Basic Rate, added
cd11IfPhyMacSpecification to identify the IEEE 802.11
Standard being applied to the radio, modified the
cd11IfPhyDsssCurrentChannel and cd11IfChanSelectChannel
ranges to support 802.11A radio, and added new device
types to cd11IfStationRole.
Added cd11IfAuxSsidAuthAlgEapMethod,
cd11IfAuxSsidAuthAlgMacMethod, cd11IfAuthAlgEapMethod,
and cd11IfAuthAlgMacAddrMethod to specify the
authentication method list."REVISION"200212290000Z"DESCRIPTION"Added a new cd11IfVlanEncryptKeyTable to support
per interface and VLAN encryption key and
cd11IfDomainCapabilitySet to support the
IEEE 802.11 dot11MultiDomainCapabilityTable."REVISION"200208010000Z"DESCRIPTION"Corrected the description of roleBridge(2) of
the cd11IfStationRole object and changed the roleAP(1)
to roleWgb(1)."REVISION"200207040000Z"DESCRIPTION"Changed cd11IfAuxSsidBroadcastSsid from read-only
to read-write."REVISION"200205100000Z"DESCRIPTION"The maximum value for cd11IfAuxiliarySsidLength is
changed to '4095'. The new cd11IfAuxSsidIndex replaces
cd11IfAuxSsid as the cd11IfAuxSsidTable index. New
enumerate values are added to cd11IfStationRole. New
MAC address authentication cd11IfAuthAlgRequireMacAddr
and cd11IfAuxSsidAuthAlgRequireMac objects are added to
the authentication algorithm tables."REVISION"200204110000Z"DESCRIPTION"This is the initial version of this MIB module."::={ ciscoMgmt 272}ciscoDot11IfMIBNotifications OBJECTIDENTIFIER::={ ciscoDot11IfMIB 0}ciscoDot11IfMIBObjects OBJECTIDENTIFIER::={ ciscoDot11IfMIB 1}cd11IfConfigurations OBJECTIDENTIFIER::={ ciscoDot11IfMIBObjects 1}cd11IfStatistics OBJECTIDENTIFIER::={ ciscoDot11IfMIBObjects 2}cd11IfManagement OBJECTIDENTIFIER::={ cd11IfConfigurations 1}
cd11IfPhyConfig OBJECTIDENTIFIER::={ cd11IfConfigurations 2}cd11IfMacStatistics OBJECTIDENTIFIER::={ cd11IfStatistics 1}-- Textual ConventionsCDot11IfVlanIdOrZero ::=TEXTUAL-CONVENTIONSTATUScurrentDESCRIPTION"This is a 12-bit VLAN ID used in the VLAN Tag
header. A value of '0' indicates NULL or no VLAN ID.
and '4095' is the default VLAN for Cisco VoIP Phones.
This textual convention differs from the VlanId
textual convention, defined by the Q-BRIDGE-MIB
in RFC-2674, because VlanId does not permit the
value '0' and '4095'."REFERENCE"RFC-2674, Bridge MIB Extensions, August 1999,
Q-BRIDGE-MIB, E. Bell."SYNTAXUnsigned32(0..4095)WepKeyType128 ::=TEXTUAL-CONVENTIONSTATUScurrentDESCRIPTION"WEP shared secret encryption key, 128-bits or 16
octets. Only the first 13 octets are accessible to
users among the total 16 octets."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, Section 8.3.2."SYNTAXOCTETSTRING(SIZE(5..13))CDot11IfMicAlgorithm ::=TEXTUAL-CONVENTIONSTATUScurrentDESCRIPTION"Auxiliary MIC calculated on WEP-encoded packets
to validate that they have not been modified.
This is in addition to the standard 802.11 ICV.
The two options are:
micNone(1) - do not apply MIC,
micMXX(2) - apply MMH MIC,
micMichael(3) - Michael MIC."SYNTAXINTEGER{micNone(1),micMXX(2),micMichael(3)}CDot11IfWepKeyPermuteAlgorithm ::=TEXTUAL-CONVENTION
STATUScurrentDESCRIPTION"This defines the function through which the WEP
encryption key is permuted between key renewal
periods.
wepPermuteNone(1) - no WEP key permutation,
wepPermuteIV(2) - WEP key permutation with
initialization vector."SYNTAXINTEGER{wepPermuteNone(1),wepPermuteIV(2)}CDot11IfCipherType ::=TEXTUAL-CONVENTIONSTATUScurrentDESCRIPTION"These are the frame encryption cipher types for
frames on IEEE 802.11 radio interfaces.
ckip Cisco Per packet key hashing,
cmic Cisco MMH MIC,
tkip WPA Temporal Key encryption,
wep40 40-bit WEP key,
wep128 128-bit WEP key,
aesccm WPA AES CCMP encryption."SYNTAXBITS{ckip(0),cmic(1),tkip(2),wep40(3),wep128(4),aesccm(5)}CDot11RadioFrequencyBandType ::=TEXTUAL-CONVENTIONSTATUScurrentDESCRIPTION"These are the radio frequency band names
the IEEE 802.11 radio is operating on:
ism24G(0) - ISM 2.4 GHz band,
unii1(1) - U-NII-1 band (5.15-5.25 GHz),
unii2(2) - U-NII-2 band (5.25-5.35 GHz),
unii3(3) - U-NII-3 band (5.725-5.825 GHz),
cept(4) - CEPT band B (5.47-5.725 GHz),
japan49G(5) - Japan 4.9 band (4.9-5.0 GHz),
japan50G(6) - Japan 5.0 band (5.03-5.091 GHz)."SYNTAXBITS{ism24G(0),unii1(1),unii2(2),
unii3(3),cept(4),japan49G(5),japan50G(6)}CDot11RadioModulationClass ::=TEXTUAL-CONVENTIONSTATUScurrentDESCRIPTION"These are classifications of radio modulation
techniques used by the various Physical Layers
of IEEE 802.11 radios:
dsss(1) - modulation schemes associated
with DSSS type PHYs,
ofdm(2) - modulation schemes associated
with OFDM type PHYs."SYNTAXINTEGER{dsss(1),ofdm(2)}Cd11IfDot11UpgradeStatus ::=TEXTUAL-CONVENTIONSTATUScurrentDESCRIPTION"These are the various status on the
Radio Upgrade:
unknown(1) - upgrade status unknown,
upgradeNotApplicable(2) - Regulatory domain upgrade
is not applicable for 11b/g
radios and 11a radios not in
Japan regulatory domain,
upgradeNotDone(3) - 11a radio is in Japan domain but
yet to be upgraded,
upgradeNotNeeded(4) - 11a radio is already configured to
operate in the W52 domain and that
the upgrade is not needed,
upgradeDone(5) - upgrade has been done from J52 to W52."SYNTAXINTEGER{unknown(1),upgradeNotApplicable(2),upgradeNotDone(3),upgradeNotNeeded(4),upgradeDone(5)}-- ********************************************************************
-- * Cisco IEEE 802.11 Interface Extension
-- ********************************************************************-- Configuration Objectscd11IfStationConfigTable OBJECT-TYPE
SYNTAXSEQUENCEOF Cd11IfStationConfigEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table contains attributes to configure radio
interfaces managed by this agent. The attributes
are extensions to the configuration parameters in
the dot11StationConfigTable defined in the
IEEE802dot11-MIB. This table configures the station
role of the interface, proprietary extensions,
hierarchy, security option and parameters, and
communication settings. This table has a sparse
dependent relationship on the ifTable.
For each entry in this table, there exists an entry
in the ifTable of ifType ieee80211(71).
Entries in this table cannot be created or deleted
by the network management system. All entries are
created or deleted by the agent."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."::={ cd11IfManagement 1}cd11IfStationConfigEntry OBJECT-TYPESYNTAX Cd11IfStationConfigEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"A collection of configuration attributes for
an IEEE 802.11 radio interface. These attributes
are supplements to attributes defined in the
dot11StationConfigTable in IEEE802dot11-MIB."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."INDEX{ ifIndex }::={ cd11IfStationConfigTable 1}
Cd11IfStationConfigEntry ::=SEQUENCE{
cd11IfStationRole INTEGER,
cd11IfCiscoExtensionsEnable TruthValue,
cd11IfAllowBroadcastSsidAssoc TruthValue,
cd11IfPrivacyOptionMaxRate Integer32,
cd11IfEthernetEncapsulDefault INTEGER,
cd11IfBridgeSpacing Unsigned32,
cd11IfDesiredSsidMaxAssocSta Unsigned32,
cd11IfAuxiliarySsidLength Unsigned32,
cd11IfVoipExtensionsEnable TruthValue,
cd11IfDesiredSsidMicAlgorithm CDot11IfMicAlgorithm,
cd11IfDesiredSsidWepPermuteAlg
CDot11IfWepKeyPermuteAlgorithm,
cd11IfWorldMode INTEGER,
cd11IfWorldModeCountry OCTETSTRING,
cd11IfMobileStationScanParent TruthValue,
cd11IfPsPacketForwardEnable TruthValue,
cd11IfMultipleBssidEnable TruthValue,
cd11IfMobileStationListIgnore TruthValue,
cd11IfMobileStationScanChannel OCTETSTRING}cd11IfStationRole OBJECT-TYPESYNTAXINTEGER{roleWgb(1),roleBridge(2),roleClient(3),roleRoot(4),roleRepeater(5),roleApBridge(6),roleApRepeater(7),roleIBSS(8),roleNrBridge(9),roleApNrBridge(10),roleScanner(11)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This defines the role of this station itself within
the 802.11 BSS of which it is a member. The roles are:
roleWgb(1) - infrastructure type WGB
client,
roleBridge(2) - root bridge,
roleClient(3) - independent BBS type
WGB client,
roleRoot(4) - root access point,
roleRepeater(5) - repeater,
roleApBridge(6) - AP and root bridge,
roleApRepeater(7) - AP and repeater,
roleIBSS(8) - independent BSS,
roleNrBridge(9) - non-root bridge,
roleApNrBridge(10) - AP and non-root bridge,
roleScanner(11) - scanner for rogue APs
and clients.
The default role is roleRoot(4)."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 3."::={ cd11IfStationConfigEntry 1}cd11IfCiscoExtensionsEnable OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"Cisco Aironet extensions to the basic IEEE
802.11 protocols are enabled if the value is
'true'. The extension enables better BSS
performance and faster roaming. If the value
is 'false', only the basic IEEE 802.11 protocols
are used. This ensures maximum compatibility
with non-Cisco equipment. The default value is
'true'."::={ cd11IfStationConfigEntry 2}cd11IfAllowBroadcastSsidAssoc OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If the value of cd11IfStationRole is either
'roleRoot' or 'roleRepeater', and if
cd11IfAllowBroadcastSsidAssoc is 'true',
the device radio driver will respond
to Broadcast SSID Probe Requests and will
broadcast its own SSID within its beacons.
If cd11IfAllowBroadcastSsidAssoc is 'false',
the radio will not respond to the Broadcast
SSID and will not broadcast its SSID within
beacons. The default value is 'true'."::={ cd11IfStationConfigEntry 3}cd11IfPrivacyOptionMaxRate OBJECT-TYPESYNTAXInteger32(2..127)UNITS"500 Kb per second"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This object specifies the maximum transmit bit
rate supported by the radio when using, for example,
WEP encryption. The rate is expressed in standard
IEEE 802.11 increments of 500Kb/sec."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 8.1.2."::={ cd11IfStationConfigEntry 4}
cd11IfEthernetEncapsulDefault OBJECT-TYPESYNTAXINTEGER{encap802dot1H(1),encapRfc1042(2)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the Ethernet encapsulation
transform type used within the BSS. The encapsulations
allowed are either IEEE 802.1H type or RFC-1042 type.
IEEE 802.1H designates the Subnetwork Access Protocol
(SNAP) mechanism as the Ethernet encapsulation protocol.
Subsequently, other (non-IP) uses of the RFC-1042
mechanism. RFC-1042 specifies a translation for
Ethernet frames, such that they can be exchanged with
end stations on LANs that do not provide an Ethernet
service.
encap802dot1H(1) - IEEE 802.1H SNAP encapsulation
encapRfc1042(2) - RFC-1042 encapsulation.
The default encapsulation type is encap802dot1H(1)."REFERENCE"IEEE Std 802.1H-1997, Media Access Control
Bridging of Ethernet V2.0 in Local Area
Networks. RFC-1042, February 1988, A Standard for
the Transmission of IP Datagrams over IEEE 802
Networks, J. Postel and J. Reynolds."::={ cd11IfStationConfigEntry 5}cd11IfBridgeSpacing OBJECT-TYPESYNTAXUnsigned32(0..38640)UNITS"Kilometers"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If this device is a root wireless bridge,
this value is the distance in kilometers
reported between this device and its
farthest non-root bridge client."::={ cd11IfStationConfigEntry 6}cd11IfDesiredSsidMaxAssocSta OBJECT-TYPESYNTAXUnsigned32(0..2007)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object defines the maximum number of IEEE
802.11 stations which may associate with this radio
interface through IEEE802dot11-MIB dot11DesiredSSID.
If this value is '0', the maximum number is limited
only by the IEEE 802.11 standard and any hardware or
radio firmware limitations of the access point. The
default value is '0'."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 5.7."::={ cd11IfStationConfigEntry 7}cd11IfAuxiliarySsidLength OBJECT-TYPESYNTAXUnsigned32(0..4095)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This object specifies the maximum number of SSIDs
allowed for a radio interface or the number of SSID
entries per radio interface in the cd11IfAuxSsidTable.
The default value is '25'."::={ cd11IfStationConfigEntry 8}cd11IfVoipExtensionsEnable OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object enables the radio generate proprietary
elements in its beacons and probe responses to support
Voice-over-IP (VoIP) phones. The default value is
'true'."::={ cd11IfStationConfigEntry 9}cd11IfDesiredSsidMicAlgorithm OBJECT-TYPESYNTAX CDot11IfMicAlgorithm
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object defines the auxiliary MIC calculated
on WEP-encoded packets of stations associated with
this radio interface through IEEE802dot11-MIB
dot11DesiredSSID. The default value is micNone(1)."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 8.2.3."::={ cd11IfStationConfigEntry 10}cd11IfDesiredSsidWepPermuteAlg OBJECT-TYPESYNTAX CDot11IfWepKeyPermuteAlgorithm
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object defines the function through which
the WEP encryption key is permuted between key
renewal periods for stations associated with this
radio interface through IEEE802dot11-MIB
dot11DesiredSSID. The default value is
wepPermuteNone(1)."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 8.2.3."::={ cd11IfStationConfigEntry 11}cd11IfWorldMode OBJECT-TYPESYNTAXINTEGER{none(1),legacy(2),dot11d(3)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object sets the World-Mode function of the
radio to allow it to function in countries other
than it was manufactured for.
none(1) - No world mode setting,
legacy(2) - compatible with legacy hardware,
dot11d(3) - use IEEE 802.11d mechanism."DEFVAL{ none }::={ cd11IfStationConfigEntry 12}cd11IfWorldModeCountry OBJECT-TYPESYNTAXOCTETSTRING(SIZE(3))MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object sets the dot11CountryString in the
IEEE802dot11-MIB identifying the country in which
the radio is operating. When cd11IfWorldMode is
either legacy(2) or dot11d(3), this object value
will be sent in the radio management frame.
The first two octets of this string is the two
character country code as described in document
ISO/IEC 3166-1. The third octet shall be one of
the following:
1. an ASCII space character, if the regulations under
which the station is operating encompass all
environments in the country,
2. an ASCII 'O' character, if the regulations under
which the station is operating are for an Outdoor
environment only, or
3. an ASCII 'I' character, if the regulations under
which the station is operating are for an Indoor
environment only."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."::={ cd11IfStationConfigEntry 13}cd11IfMobileStationScanParent OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object enables the radio to scan for a better
parent when it is a mobile non-root device, for
example, the value of cd11IfStationRole is roleWgb(1)."DEFVAL{ false }::={ cd11IfStationConfigEntry 14}cd11IfPsPacketForwardEnable OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If no VLAN is configured on the radio interface,
this object configures the PSPF feature. Otherwise,
cd11IfVlanPsPacketForwardEnable is used to configure
the PSPF feature per VLAN. If it is 'true', PSPF is
on the radio interface and direct traffic between
wireless clients of the interface is not allowed.
If it is 'false', PSPF is disabled on the VLAN and
direct traffic between wireless clients of the
interface is allowed."DEFVAL{ false }::={ cd11IfStationConfigEntry 15}cd11IfMultipleBssidEnable OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If it is 'true', multiple broadcast SSID is
enabled on the radio. To a wireless client, a
MBSSID AP appears to be several distinct co-located
APs, and it transmits a beacon for each broadcast
SSID or SSID. This allows all of the SSIDs visible
for passive scanning."DEFVAL{ false }::={ cd11IfStationConfigEntry 16}cd11IfMobileStationListIgnore OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object indicates whether the radio should
process the AP adjacency and Enhanced Neighbor
List reports specified in the CCX Specification.
AP adjacency and Enhanced Neighbor List provide
information about the infrastructure wireless
devices found in the near vicinity of this
radio.
This object is applicable only when the radio's
role as represented by the object cd11IfStationRole
is one of roleWgb(1), roleRepeater(5) or
roleNrbridge(9).
Agent will populate a value of 'false', when the
radio's role as represented by cd11IfStationRole
is one of roleRoot(4) ,roleBridge(2) or
roleApBridge(6), to indicate that the object is
not applicable for the radio in these roles. Set
requests will be rejected when the radio is
configured to be in one of these roles.
User can configure this object only when
cd11IfMobileStationScanChannel is configured with
a valid set of channels. When
cd11IfMobileStationScanChannel is configured with
a value of 0, the agent will automatically
populate a value of 'false'. "DEFVAL{ false }::={ cd11IfStationConfigEntry 17}cd11IfMobileStationScanChannel OBJECT-TYPESYNTAXOCTETSTRING(SIZE(1..64))MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the channels to be used by
the infractructure clients for scanning purposes.
This object is applicable only when the radio's
role as represented by the object cd11IfStationRole
is one of roleWgb(1), roleRepeater(5) or
roleNrbridge(9). Agent will reject the request
to set this object when the cd11IfStationRole doesn't
populate one of the values mentioned above.
Each octet carries the channel number. To configure
the radio to scan all the channels applicable to a
particular regulatory domain, this object should be
configured with only one octet of value 0. "::={ cd11IfStationConfigEntry 18}cd11IfAuthAlgorithmTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfAuthAlgorithmEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table contains attributes to configure
authentication algorithm parameters for associations
through the SSID defined by IEEE802dot11-MIB
dot11DesiredSSID object. It defines attributes
additional to those defined in the IEEE802dot11-MIB
dot11AuthenticationAlgorithmsTable. An interface
may support multiple authentication algorithms.
This table has an expansion dependent relationship
on the ifTable. For each entry in this table,
there exists at least an entry in the ifTable of
ifType ieee80211(71). This table uses the
dot11AuthenticationAlgorithmsIndex of the
dot11AuthenticationAlgorithmsTable defined in the
IEEE802dot11-MIB as the expansion index.
Entries in this table cannot be created or deleted
by the network management system. All entries are
created or deleted by the agent."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 5.7.6 and IEEE802dot11-MIB."::={ cd11IfManagement 2}cd11IfAuthAlgorithmEntry OBJECT-TYPESYNTAX Cd11IfAuthAlgorithmEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry specifies authentication algorithm
configuration attributes of a VLAN for the
dot11DesiredSSID on a radio interface."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 8.2 and IEEE802dot11-MIB."INDEX{
ifIndex,
dot11AuthenticationAlgorithmsIndex
}::={ cd11IfAuthAlgorithmTable 1}
Cd11IfAuthAlgorithmEntry ::=SEQUENCE{
cd11IfAuthAlgRequireEap TruthValue,
cd11IfAuthAlgRequireMacAddr TruthValue,
cd11IfAuthAlgDefaultVlan CDot11IfVlanIdOrZero,
cd11IfAuthAlgEapMethod SnmpAdminString,
cd11IfAuthAlgMacAddrMethod SnmpAdminString}cd11IfAuthAlgRequireEap OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If the value is 'true', stations authenticating
with the corresponding IEEE802dot11-MIB
dot11AuthenticationAlgorithm must complete
network-level EAP authentication before their
association attempts will be unblocked. If the
value is 'false', stations authenticating with
the corresponding dot11AuthenticationAlgorithm
will be unblocked as soon as they complete the
802.11 authentication. The default value is
'true'."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 8.2 and IEEE802dot11-MIB."::={ cd11IfAuthAlgorithmEntry 1}cd11IfAuthAlgRequireMacAddr OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If the value is 'true', stations authenticating
with the corresponding IEEE802dot11-MIB
dot11AuthenticationAlgorithm must complete
additional MAC address authentication before their
association attempts will be unblocked. If the
value is 'false', stations authenticating with
the corresponding dot11AuthenticationAlgorithm
will be unblocked as soon as they complete the
802.11 authentication. The default value is
'true'."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 8.2 and IEEE802dot11-MIB."::={ cd11IfAuthAlgorithmEntry 2}cd11IfAuthAlgDefaultVlan OBJECT-TYPESYNTAX CDot11IfVlanIdOrZero
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object defines the default VLAN identifier
for stations associated with this radio interface
with this authentication and through
IEEE802dot11-MIB dot11DesiredSSID. If the value
of this object is '0', it indicates that either the
default VLAN are not defined for this authentication
on this radio interface or the default VLAN is the
native VLAN ID. The default value is '0'."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 8.2 and IEEE802dot11-MIB."::={ cd11IfAuthAlgorithmEntry 3}cd11IfAuthAlgEapMethod OBJECT-TYPESYNTAXSnmpAdminStringMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If the value of cd11IfAuthAlgRequireEap is 'true'
or dot11AuthenticationAlgorithm is Network-EAP,
this is the EAP method list to used for the EAP
authentication."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."::={ cd11IfAuthAlgorithmEntry 4}cd11IfAuthAlgMacAddrMethod OBJECT-TYPESYNTAXSnmpAdminStringMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If the value of cd11IfAuthAlgRequireMacAddr
is 'true', this is the MAC address method list to
used for the MAC authentication."::={ cd11IfAuthAlgorithmEntry 5}cd11IfWepDefaultKeysTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfWepDefaultKeysEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"The dot11WEPDefaultKeysTable defined by the
IEEE802dot11-MIB allows only WEP keys of length
up to 40 bits. This table overrides the the
dot11WEPDefaultKeysTable and supports keys of
from 40 to 128 bits. A maximum of four keys can
associate with any IEEE 802.11 radio interface.
For devices implementing this table, they should
not implement the dot11WEPDefaultKeysTable.
This table has an expansion dependent relationship
on the ifTable. For each entry in this table,
there exists at least an entry in the ifTable of
ifType ieee80211(71). Entries in this table
cannot be created or deleted by the network
management system. All entries are created or
deleted by the agent."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."::={ cd11IfManagement 3}cd11IfWepDefaultKeysEntry OBJECT-TYPESYNTAX Cd11IfWepDefaultKeysEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"A collection of attributes defining a WEP key for
a radio interface."INDEX{
ifIndex,
cd11IfWepDefaultKeyIndex
}::={ cd11IfWepDefaultKeysTable 1}
Cd11IfWepDefaultKeysEntry ::=SEQUENCE{
cd11IfWepDefaultKeyIndex Unsigned32,
cd11IfWepDefaultKeyLen Unsigned32,
cd11IfWepDefaultKeyValue WepKeyType128
}cd11IfWepDefaultKeyIndex OBJECT-TYPESYNTAXUnsigned32(1..4)MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This object identifies a WEP key instance for
a radio interface."::={ cd11IfWepDefaultKeysEntry 1}cd11IfWepDefaultKeyLen OBJECT-TYPESYNTAXUnsigned32(5..13)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the length in octets of
the WEP key cd11IfWepDefaultKeyValue. The
default key length is '13'."::={ cd11IfWepDefaultKeysEntry 2}cd11IfWepDefaultKeyValue OBJECT-TYPESYNTAX WepKeyType128
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This is the WEP default secret key value. Any
attempt to read this object by the NMS will
result in return of a zero-length string. The
default value is a NULL string."::={ cd11IfWepDefaultKeysEntry 3}cd11IfDesiredBssTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfDesiredBssEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"When the radio is not functioning as an access
point (i.e., cd11IfStationRole is not 'roleRoot'),
and for example, this radio is a repeater or
bridge, this table will contain a list of preferred
access points with which the radio interface should
associate with. This table has an expansion
dependent relationship on the ifTable. For each
entry in this table, there exists at least an entry
in the ifTable of ifType ieee80211(71).
Entries in this table cannot be created or deleted
by the network management system. All entries are
created or deleted by the agent."::={ cd11IfManagement 5}
cd11IfDesiredBssEntry OBJECT-TYPESYNTAX Cd11IfDesiredBssEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry provides the MAC address of a preferred
access point. A maximum of 4 BSS addresses can be
configured to an interface."INDEX{
ifIndex,
cd11IfDesiredBssIndex
}::={ cd11IfDesiredBssTable 1}
Cd11IfDesiredBssEntry ::=SEQUENCE{
cd11IfDesiredBssIndex Unsigned32,
cd11IfDesiredBssAddr MacAddress}cd11IfDesiredBssIndex OBJECT-TYPESYNTAXUnsigned32(1..4)MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This object defines the priority order in which
preferred access points should be probed. Lower
index values indicate higher priority."::={ cd11IfDesiredBssEntry 1}cd11IfDesiredBssAddr OBJECT-TYPESYNTAXMacAddressMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object defines the BSS identifier (MAC
address) of the access point with which the radio
should try to associate with. The value of this
object is '00:00:00:00:00:00' if the BSS
identifier for this priority is not specified
or configured. The default value is
'000000000000'H."::={ cd11IfDesiredBssEntry 2}cd11IfAuxSsidTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfAuxSsidEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"When the radio is not functioning as a client
station (i.e., cd11IfStationRole is not
'roleClient'), and for example, this is a access
point or independent BSS, this table will contain
a list of SSIDs which stations must be used to
associate with this radio. This table has an
expansion dependent relationship on the ifTable.
For each entry in this table, there exists at least
an entry in the ifTable of ifType ieee80211(71).
Entries in this table cannot be created or deleted
by the network management system. All entries are
created or deleted by the agent."::={ cd11IfManagement 6}cd11IfAuxSsidEntry OBJECT-TYPESYNTAX Cd11IfAuxSsidEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"A collection of attributes defining an auxiliary
service set which client stations can associate on
the specific interface. An interface can have
multiple auxiliary service sets while IEEE 802.11
defines only one desired service set for each
interface. Each radio interface currently supports
up to 25 SSIDs, and the cd11IfAuxiliarySsidLength
object specifies the configured maximum."INDEX{
ifIndex,
cd11IfAuxSsidIndex
}::={ cd11IfAuxSsidTable 1}
Cd11IfAuxSsidEntry ::=SEQUENCE{
cd11IfAuxSsidIndex Unsigned32,
cd11IfAuxSsid OCTETSTRING,
cd11IfAuxSsidBroadcastSsid TruthValue,
cd11IfAuxSsidMaxAssocSta Unsigned32,
cd11IfAuxSsidMicAlgorithm CDot11IfMicAlgorithm,
cd11IfAuxSsidWepPermuteAlg
CDot11IfWepKeyPermuteAlgorithm
}cd11IfAuxSsidIndex OBJECT-TYPESYNTAXUnsigned32(1..4095)MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This object identifies a SSID defined on a radio."::={ cd11IfAuxSsidEntry 1}cd11IfAuxSsid OBJECT-TYPESYNTAXOCTETSTRING(SIZE(0..32))MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies a SSID recognized by this
radio interface. The radio interface shall respond
to probe requests using this SSID, but it does not
advertise this SSID in its beacons."
::={ cd11IfAuxSsidEntry 2}cd11IfAuxSsidBroadcastSsid OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object indicates if an auxiliary SSID
is the Broadcast SSID. There is only one Broadcast
SSID per IEEE 802.11 radio interface."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 7.3.2.1."::={ cd11IfAuxSsidEntry 3}cd11IfAuxSsidMaxAssocSta OBJECT-TYPESYNTAXUnsigned32(0..2007)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object defines the maximum number of IEEE
802.11 stations which may associate with this radio
interface through the cd11IfAuxSsid. If the value
is '0', the maximum number is limited only by the
IEEE 802.11 standard and any hardware or radio
firmware limitations of the access point. The
default value is '0'."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 5.7."::={ cd11IfAuxSsidEntry 4}cd11IfAuxSsidMicAlgorithm OBJECT-TYPESYNTAX CDot11IfMicAlgorithm
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object defines the auxiliary MIC algorithm
applied to WEP-encoded packets of stations associated
with this radio interface through the cd11IfAuxSsid.
The default value is micNone(1)."::={ cd11IfAuxSsidEntry 5}cd11IfAuxSsidWepPermuteAlg OBJECT-TYPESYNTAX CDot11IfWepKeyPermuteAlgorithm
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object defines the function through which
the WEP encryption key is permuted between key renewal
periods for stations associated with this radio
interface through the cd11IfAuxSsid. The default value
is wepPermuteNone(1)."::={ cd11IfAuxSsidEntry 6}cd11IfAuxSsidAuthAlgTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfAuxSsidAuthAlgEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table contains attributes to configure
authentication algorithms for SSIDs listed in the
cd11IfAuxSsidTable. This table extends the
IEEE802dot11-MIB dot11AuthenticationAlgorithmsTable
for multiple SSIDs support. Multiple SSIDs
can associate with an interface and multiple
authentication algorithms can apply to an auxiliary
SSID.
This table has an expansion dependent relationship
on the ifTable. For each entry in this table,
there exists at least an entry in the ifTable of
ifType ieee80211(71). Entries in this table cannot
be created or deleted by the network management
system. All entries are created or deleted by
the agent."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 5.7.6."::={ cd11IfManagement 7}cd11IfAuxSsidAuthAlgEntry OBJECT-TYPESYNTAX Cd11IfAuxSsidAuthAlgEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry specifies authentication algorithm
configuration attributes of a VLAN for an auxiliary
SSID on a radio interface."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."INDEX{
ifIndex,
cd11IfAuxSsidIndex,
dot11AuthenticationAlgorithmsIndex
}::={ cd11IfAuxSsidAuthAlgTable 1}
Cd11IfAuxSsidAuthAlgEntry ::=SEQUENCE{
cd11IfAuxSsidAuthAlgEnable TruthValue,
cd11IfAuxSsidAuthAlgRequireEap TruthValue,
cd11IfAuxSsidAuthAlgRequireMac TruthValue,
cd11IfAuxSsidAuthAlgDefaultVlan CDot11IfVlanIdOrZero,
cd11IfAuxSsidAuthAlgEapMethod SnmpAdminString,
cd11IfAuxSsidAuthAlgMacMethod SnmpAdminString}cd11IfAuxSsidAuthAlgEnable OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If the value is 'true', this device may
authenticate an association using SSID (specified
by cd11IfAuxiliarySSIDIndex) with the algorithm
identified by IEEE802dot11-MIB
dot11AuthenticationAlgorithmsIndex. The default
value is 'true'."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."::={ cd11IfAuxSsidAuthAlgEntry 1}cd11IfAuxSsidAuthAlgRequireEap OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If both the values of this object and
cd11IfAuxSsidAuthAlgEnable are 'true', the
association authentication must complete additional
network-level EAP authentication before client
stations will be unblocked from their association
attempts. If the value of this object is 'false'
while cd11IfAuxSsidAuthAlgEnable is 'true', client
stations will be unblocked as soon as they
complete this enabled IEEE 802.11 authentication.
The default value is 'true'."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."::={ cd11IfAuxSsidAuthAlgEntry 2}cd11IfAuxSsidAuthAlgRequireMac OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If both the values of this object and
cd11IfAuxSsidAuthAlgEnable are 'true', the
association authentication must complete additional
MAC address authentication before client stations
will be unblocked from their association
attempts. If the value of this object is 'false'
while cd11IfAuxSsidAuthAlgEnable is 'true', client
stations will be unblocked as soon as they
complete this enabled IEEE 802.11 authentication.
The default value is 'true'."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."::={ cd11IfAuxSsidAuthAlgEntry 3}cd11IfAuxSsidAuthAlgDefaultVlan OBJECT-TYPESYNTAX CDot11IfVlanIdOrZero
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object defines the default VLAN identifier
for stations associated with this radio interface
with the dot11AuthenticationAlgorithmsIndex
authentication defined in IEEE802dot11-MIB and
through the cd11IfAuxSsid. If the value
of this object is '0', it indicates that either the
default VLAN are not defined for that authentication
on this radio interface or the default VLAN is the
native VLAN ID. The default value is '0'."::={ cd11IfAuxSsidAuthAlgEntry 4}cd11IfAuxSsidAuthAlgEapMethod OBJECT-TYPESYNTAXSnmpAdminStringMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If the value of cd11IfAuxSsidAuthAlgRequireEap
is 'true' or dot11AuthenticationAlgorithm is
Network-EAP, this is the EAP method list to used
for the EAP authentication."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."::={ cd11IfAuxSsidAuthAlgEntry 5}cd11IfAuxSsidAuthAlgMacMethod OBJECT-TYPESYNTAXSnmpAdminStringMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If the value of cd11IfAuxSsidAuthAlgRequireMac
is 'true', this is the MAC address method list to
used for the MAC authentication."::={ cd11IfAuxSsidAuthAlgEntry 6}cd11IfAssignedAidTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfAssignedAidEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"When the radio is not functioning as a client
station (i.e., cd11IfStationRole is not
'roleClient'), this is the list of AIDs which this
agent will assign to the clients associating with
it. An AID is assigned if the corresponding MAC
address matches that of the client. This table has
an expansion dependent relationship on the ifTable.
For each entry in this table, there exists at least
an entry in the ifTable of ifType ieee80211(71).
Entries in this table cannot be created or deleted
by the network management system. All entries are
created or deleted by the agent."::={ cd11IfManagement 8}cd11IfAssignedAidEntry OBJECT-TYPESYNTAX Cd11IfAssignedAidEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry associates an AID with a client MAC
address. The relationship between AID and client
MAC address is one to one."INDEX{
ifIndex,
cd11IfAssignedAid
}::={ cd11IfAssignedAidTable 1}
Cd11IfAssignedAidEntry ::=SEQUENCE{
cd11IfAssignedAid Unsigned32,
cd11IfAssignedSta MacAddress}cd11IfAssignedAid OBJECT-TYPESYNTAXUnsigned32(2..2007)MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This object specifies the AID for a client
station to the radio interface."::={ cd11IfAssignedAidEntry 1}cd11IfAssignedSta OBJECT-TYPESYNTAXMacAddressMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object defines the client station MAC
address. When a client associates with this
radio interface, it shall always be assigned with
the cd11IfAssignedAid as its IEEE 802.11 AID.
The default value is '000000000000'H."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 5.7.2."::={ cd11IfAssignedAidEntry 2}cd11IfVlanEncryptKeyTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfVlanEncryptKeyEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table contains shared WEP keys for all IEEE
802.11 packets transmitted and received frames over
a VLAN identified by the cwvlWlanVlanId if both VLAN
and encryption are enabled (i.e., the
cwvlWlanEncryptionMode is wep(2) or aes(3)) on the
radio interface.
If WEP encryption is enabled for the transmitted
IEEE 802.11 frames, then the Default Shared WEP
key in the set is used to encrypt the transmitted
broadcast and multicast frames associated with
the cwvlWlanVlanId. Key '1' in the set is the
default key. If an individual session key is not
defined for the target station address, then the
Default Shared WEP key will also be used to encrypt
or decrypt unicast frames associated with the
cwvlWlanVlanId."REFERENCE"CISCO-WLAN-VLAN-MIB, June 2002, Cisco Systems
Wireless Virtual LAN MIB."::={ cd11IfManagement 9}cd11IfVlanEncryptKeyEntry OBJECT-TYPESYNTAX Cd11IfVlanEncryptKeyEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry contains the key index, key length, and
key value. There is a maximum of 4 keys per VLAN or
key set. Each key set exists only if the
corresponding VLAN is enabled on the interface, and
it is indexed by the VLAN ID."INDEX{
ifIndex,
cd11IfVlanId,
cd11IfVlanEncryptKeyIndex
}::={ cd11IfVlanEncryptKeyTable 1}
Cd11IfVlanEncryptKeyEntry
::=SEQUENCE{
cd11IfVlanId CDot11IfVlanIdOrZero,
cd11IfVlanEncryptKeyIndex Unsigned32,
cd11IfVlanEncryptKeyLen Unsigned32,
cd11IfVlanEncryptKeyValue WepKeyType128,
cd11IfVlanEncryptKeyStatus RowStatus,
cd11IfVlanEncryptKeyTransmit TruthValue}cd11IfVlanId OBJECT-TYPESYNTAX CDot11IfVlanIdOrZero
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This object identifies the VLAN (1 to 4095) on
this radio interface. The object value should
match the corresponding cwvlWlanVlanId in the
cwvlWlanVlanTable or cd11IfVlanSecurityVlanId
object in the cd11IfVlanSecurityTable. When
the value is '0', the encryption keys are applied
to the non-VLAN configuration."REFERENCE"CISCO-WLAN-VLAN-MIB, June 2002, Cisco Systems
Wireless Virtual LAN MIB."::={ cd11IfVlanEncryptKeyEntry 1}cd11IfVlanEncryptKeyIndex OBJECT-TYPESYNTAXUnsigned32(1..4)MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This object is a representative of the
corresponding 802.11 WEP Key Index used when
transmitting or receiving frames with this key.
SNMP table indexing conventions require table
index to be non-zero. Therefore, this object has
to be one greater than the actual 802.11 WEP key
index. A value of '1' for this object corresponds
to a value of '0' for the 802.11 WEP key index."::={ cd11IfVlanEncryptKeyEntry 2}cd11IfVlanEncryptKeyLen OBJECT-TYPESYNTAXUnsigned32(0..13)MAX-ACCESSread-createSTATUScurrentDESCRIPTION"This object specifies the length in octets of
cd11IfVlanEncryptKeyValue. Common values are 5 for
40-bit WEP key and 13 for 128-bit WEP key. A value
of '0' means that the key is not set but the VLAN
is enabled."DEFVAL{0}::={ cd11IfVlanEncryptKeyEntry 3}cd11IfVlanEncryptKeyValue OBJECT-TYPESYNTAX WepKeyType128
MAX-ACCESSread-createSTATUScurrentDESCRIPTION"This is the WEP secret key value. The agent
always returns a zero-length string when this
object is read for security reason."::={ cd11IfVlanEncryptKeyEntry 4}cd11IfVlanEncryptKeyStatus OBJECT-TYPESYNTAXRowStatusMAX-ACCESSread-createSTATUScurrentDESCRIPTION
"This object controls and reflects the status of
rows in this table.
When the row in 'active' state, the NMS can modify
both key length and value. To delete a row, set this
object value to 'destroy'."::={ cd11IfVlanEncryptKeyEntry 5}cd11IfVlanEncryptKeyTransmit OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-createSTATUScurrentDESCRIPTION"Only one of the 4 keys of a VLAN can be the transmit
key. Setting any one of the 4 keys to 'true', the
agent will automatically change the value of
cd11IfVlanEncryptKeyTransmit of the other 3 keys to
'false' if they exist."::={ cd11IfVlanEncryptKeyEntry 6}cd11IfVlanSecurityTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfVlanSecurityEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table contains encryption method and key
rotation configurations for all VLANs on all
IEEE 802.11 radio interfaces. This table has an
expansion dependent relationship on the ifTable.
For each entry in this table, there exists at least
an entry in the ifTable of ifType ieee80211(71).
VLANs are identified by the cd11IfVlanSecurityVlanId,
and the actual VLAN does not have to exist or be
enabled for the encryption configuration to exist."::={ cd11IfManagement 10}cd11IfVlanSecurityEntry OBJECT-TYPESYNTAX Cd11IfVlanSecurityEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry is a set of encryption configurations
for traffic on a VLAN of a IEEE 802.11 radio
interface."INDEX{
ifIndex,
cd11IfVlanSecurityVlanId
}::={ cd11IfVlanSecurityTable 1}
Cd11IfVlanSecurityEntry
::=SEQUENCE{
cd11IfVlanSecurityVlanId CDot11IfVlanIdOrZero,
cd11IfVlanSecurityVlanEnabled TruthValue,
cd11IfVlanBcastKeyChangeInterval Unsigned32,
cd11IfVlanBcastKeyCapabilChange TruthValue,
cd11IfVlanBcastKeyClientLeave TruthValue,
cd11IfVlanSecurityCiphers CDot11IfCipherType,
cd11IfVlanSecurityRowStatus RowStatus,
cd11IfVlanEncryptionMode INTEGER,
cd11IfVlanWepEncryptOptions INTEGER,
cd11IfVlanWepEncryptMic TruthValue,
cd11IfVlanWepEncryptKeyHashing TruthValue,
cd11IfVlanPsPacketForwardEnable TruthValue}cd11IfVlanSecurityVlanId OBJECT-TYPESYNTAX CDot11IfVlanIdOrZero
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This is the VLAN ID (1-4095) to which the
parameters in each conceptual row shall be
applied. If the value is '0', these parameters
apply to the non-VLAN configuration."::={ cd11IfVlanSecurityEntry 1}cd11IfVlanSecurityVlanEnabled OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-createSTATUScurrentDESCRIPTION"If the value is 'true', this VLAN sub-interface is
enabled on all trunk and hybrid ports. If the value
is 'false', this VLAN is disabled on all ports. For
platforms supporting NMS to create VLAN sub-interfaces,
setting this object to 'true' will create the
corresponding VLAN sub-interfaces on all ports and
'false' will remove the the corresponding VLAN."::={ cd11IfVlanSecurityEntry 2}cd11IfVlanBcastKeyChangeInterval OBJECT-TYPESYNTAXUnsigned32(0|10..10000000)MAX-ACCESSread-createSTATUScurrentDESCRIPTION"This is the broadcast key rotation period. If the
value is '0', there is no key rotation."::={ cd11IfVlanSecurityEntry 3}cd11IfVlanBcastKeyCapabilChange OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-createSTATUScurrentDESCRIPTION"If it is 'true', a new key will be used every time
when the common set of encryption capability among
clients of this radio on this VLAN is changed."DEFVAL{ false }::={ cd11IfVlanSecurityEntry 4}cd11IfVlanBcastKeyClientLeave OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-createSTATUScurrentDESCRIPTION"If it is 'true', a new key will be used every time
when a client of the radio on this VLAN disassociates."DEFVAL{ false }::={ cd11IfVlanSecurityEntry 5}cd11IfVlanSecurityCiphers OBJECT-TYPESYNTAX CDot11IfCipherType
MAX-ACCESSread-createSTATUScurrentDESCRIPTION"If cd11IfVlanEncryptionMode is cipher(1), these
are all the possible cipher type combinations
currently supported for data frame encryption from
different IEEE 802.11 radio interface implementations.
Some platform may support only a subset of the
combinations. Agent will not honor invalid
combinations. If none of the bits are set, no
encryption will be done.
aesccm WPA AES CCMP encryption,
ckip Cisco Per packet key hashing,
cmic Cisco MMH MIC,
ckip|cmic Cisco Per packet key hashing and MIC,
tkip WPA Temporal Key encryption,
wep128 128-bit WEP key,
wep40 40-bit WEP key.
tkip|wep128 WPA Temporal Key and 128-bit WEP,
tkip|wep40 WPA Temporal Key and 40-bit WEP."::={ cd11IfVlanSecurityEntry 6}cd11IfVlanSecurityRowStatus OBJECT-TYPESYNTAXRowStatusMAX-ACCESSread-createSTATUScurrentDESCRIPTION"This is used to create a new row, modify or
delete an existing VLAN encryption configuration
in this table.
Creation of rows must be done via 'createAndGo' and
cd11IfVlanSecurityVlanEnabled and
cd11IfVlanSecurityCiphers columns are mandatory.
This object will become 'active' if the NMS performs
a multivarbind set including this object and
successfully creates the encryption configuration.
Modification and deletion of rows can be done via
'createAndGo' and 'delete' respectively when this
object is 'active'. Any encryption configurations
of a VLAN should only be deleted when it is not
being used for any client association."
::={ cd11IfVlanSecurityEntry 7}cd11IfVlanEncryptionMode OBJECT-TYPESYNTAXINTEGER{cipher(1),wep(2)}MAX-ACCESSread-createSTATUScurrentDESCRIPTION"Encryption mode this VLANs are:
cipher(1) - WPA and Cisco encryptions,
wep(2) - WEP Only encryption"DEFVAL{ cipher }::={ cd11IfVlanSecurityEntry 8}cd11IfVlanWepEncryptOptions OBJECT-TYPESYNTAXINTEGER{mandatory(1),optional(2)}MAX-ACCESSread-createSTATUScurrentDESCRIPTION"If cd11IfVlanEncryptionMode is wep(2),
mandatory(1) - WEP encryption is mandatory,
optional(2) - WEP encryption is option.
for all data frames on this VLAN."DEFVAL{mandatory}::={ cd11IfVlanSecurityEntry 9}cd11IfVlanWepEncryptMic OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-createSTATUScurrentDESCRIPTION"If cd11IfVlanEncryptionMode is wep(2) and
this object is 'true', MIC will be performed
on all data frames on this VLAN. Otherwise,
no MIC will be done."DEFVAL{ false }::={ cd11IfVlanSecurityEntry 10}cd11IfVlanWepEncryptKeyHashing OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-createSTATUScurrentDESCRIPTION"If cd11IfVlanEncryptionMode is wep(2) and
this object is 'true', key hashing will be
used for encryption. Otherwise, no key
hashing will be done."DEFVAL{ false }::={ cd11IfVlanSecurityEntry 11}cd11IfVlanPsPacketForwardEnable OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-createSTATUScurrentDESCRIPTION"If both cd11IfVlanSecurityVlanEnabled and this
object are 'true', PSPF is enabled on VLAN
cd11IfVlanSecurityVlanId of this radio interface
and direct traffic between wireless clients of the
VLAn is not allowed. Otherwise, PSPF is disabled
on the VLAN and direct traffic between wireless
clients of the VLAN is allowed."DEFVAL{ false }::={ cd11IfVlanSecurityEntry 12}cd11IfRadioMonitoringTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfRadioMonitoringEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table is for monitoring of remote active
IEEE 802.11 radio devices on the network.
Each table entry shows an active radio being
monitored by a hot standby radio on this
monitoring unit.
This table has a sparse dependent relationship
on the ifTable. For each entry in this table,
there exists an entry in the ifTable of ifType
ieee80211(71). Entries on this table can be
added, deleted, and modified by the NMS."::={ cd11IfManagement 11}cd11IfRadioMonitoringEntry OBJECT-TYPESYNTAX Cd11IfRadioMonitoringEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry specifies the MAC address of the remote
radio and the monitoring configuration and status
of the local radio. Most platforms supporting this
table only support one entry per ifIndex."INDEX{
ifIndex,
cd11IfRemoteRadioMacAddr
}::={ cd11IfRadioMonitoringTable 1}
Cd11IfRadioMonitoringEntry
::=SEQUENCE{
cd11IfRemoteRadioMacAddr MacAddress,
cd11IfRadioMonitorPollingFreq Unsigned32,
cd11IfRadioMonitorPollingTimeOut Unsigned32,
cd11IfLocalRadioMonitorStatus INTEGER,
cd11IfRadioMonitorRowStatus RowStatus}cd11IfRemoteRadioMacAddr OBJECT-TYPESYNTAXMacAddressMAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Mac address of the active IEEE 802.11 radio device
to be monitored by this hot standby monitoring radio.
The cd11IfPhyMacSpecification of the local and remote
radios must be the same in order for the monitoring to
happen."::={ cd11IfRadioMonitoringEntry 1}cd11IfRadioMonitorPollingFreq OBJECT-TYPESYNTAXUnsigned32(1..30)UNITS"seconds"MAX-ACCESSread-createSTATUScurrentDESCRIPTION"The frequency, in seconds, the remote active radio
specified by cd11IfRemoteRadioMacAddr is polled
for its health."DEFVAL{5}::={ cd11IfRadioMonitoringEntry 2}cd11IfRadioMonitorPollingTimeOut OBJECT-TYPESYNTAXUnsigned32(1..600)UNITS"seconds"MAX-ACCESSread-createSTATUScurrentDESCRIPTION"The total time, in seconds, this standby monitoring
radio unit can tolerate the failure of polling
of the active radio unit. After this duration, one
more failure of the polling will trigger this hot
standby monitoring radio to take over and become an
active radio. It will then stop all monitoring
activity and set the instance of
cd11IfLocalRadioMonitorStatus indexed by the
failed radio cd11IfRemoteRadioMacAddr to 'active'."DEFVAL{5}::={ cd11IfRadioMonitoringEntry 3}cd11IfLocalRadioMonitorStatus OBJECT-TYPESYNTAXINTEGER{active(1),
monitor(2),inactive(3)}MAX-ACCESSread-createSTATUScurrentDESCRIPTION"NMS can only set this object to monitor(2). In
the monitor(2) state, this local radio will monitor
the remote radio specified in the
cd11IfRemoteRadioMacAddr.
When the remote radio fails or goes down, this local
radio will takeover the functions and became active.
The agent will set the instance of
cd11IfLocalRadioMonitorStatus indexed by the
failed radio cd11IfRemoteRadioMacAddr to 'active'.
This local radio will not monitor any other radios
when it is active, therefore, all other instances of
cd11IfLocalRadioMonitorStatus indexed by the same
ifIndex but different cd11IfRemoteRadioMacAddr
will be set to 'inactive'."::={ cd11IfRadioMonitoringEntry 4}cd11IfRadioMonitorRowStatus OBJECT-TYPESYNTAXRowStatusMAX-ACCESSread-createSTATUScurrentDESCRIPTION"This object is used for creating, modifying, and
deleting rows in this table.
Creation of rows must be done via 'createAndGo'.
This object will become 'active' if the NMS performs
a multivarbind set including this object.
Any object in a row can be modified any time when
the row is in the 'active' state via 'createAndGo'.
Removal of a row can be done via setting this
object to 'destroy'."::={ cd11IfRadioMonitoringEntry 5}cd11IfDot11UpgradeStatusTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfDot11UpgradeStatusEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table represents the status of upgrade of
the radios to the newer frequencies of the 5150-5250
MHz band.
This table has a sparse dependent relationship on the
ifTable. For each entry in this table, there exists
an entry in the ifTable of ifType ieee80211(71).
Entries in this table cannot be created or deleted
by the network management system. All entries are
created or deleted by the agent. "::={ cd11IfManagement 12}cd11IfDot11UpgradeStatusEntry OBJECT-TYPESYNTAX Cd11IfDot11UpgradeStatusEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry corresponds to one conceptual row in
cd11IfDot11UpgradeStatusTable and represents the
status of upgrade of a dot11 radio interface. "INDEX{ ifIndex }::={ cd11IfDot11UpgradeStatusTable 1}
Cd11IfDot11UpgradeStatusEntry ::=SEQUENCE{
cd11IfDot11UpgradeStatus Cd11IfDot11UpgradeStatus
}cd11IfDot11UpgradeStatus OBJECT-TYPESYNTAX Cd11IfDot11UpgradeStatus
MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This object represents the status of upgrade of
a dot11 radio interface. "::={cd11IfDot11UpgradeStatusEntry 1}cd11IfPhyOperationTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfPhyOperationEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table contains the IEEE 802.11 Physical
Layer operation configuration parameters for
each radio interface. This table has a sparse
dependent relationship on the ifTable.
For each entry in this table, there exists an
entry in the ifTable of ifType ieee80211(71).
Entries in this table cannot be created or deleted
by the network management system. All entries are
created or deleted by the agent."::={ cd11IfPhyConfig 1}cd11IfPhyOperationEntry OBJECT-TYPESYNTAX Cd11IfPhyOperationEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"A collection of attributes defining the physical
characteristics and behaviors of an IEEE 802.11 PHY."INDEX{ ifIndex }::={ cd11IfPhyOperationTable 1}
Cd11IfPhyOperationEntry ::=SEQUENCE{
cd11IfCurrentCarrierSet INTEGER,
cd11IfModulationType INTEGER,
cd11IfPreambleType INTEGER,
cd11IfDomainCapabilitySet Integer32,
cd11IfPhyBasicRateSet OCTETSTRING,
cd11IfPhyMacSpecification INTEGER,
cd11IfPhyConcatenation Integer32,
cd11IfPhyNativePowerUseStandard
TruthValue}cd11IfCurrentCarrierSet OBJECT-TYPESYNTAXINTEGER{usa(0),europe(1),japan(2),spain(3),france(4),belgium(5),israel(6),canada(7),australia(8),japanWide(9),world(10),usa5GHz(11),europe5GHz(12),japan5GHz(13),singapore5GHz(14),taiwan5GHz(15),china(16),northAmer5GHzUNI3(17),chnIreAus5GHzUNI3(18),hkNZ5GHzUNI3(19),korea5GHzUNI3(20),mexAusNZ5GHz(21),china5GHz(22),korea5GHzUNI123E(23),japan5GHzUNI12(24),taiwan5GHzUNI23E(25),israel5GhzUNI12(26),usaFCC49PS(27),japan5GHzUNI1(28)}MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This object defines the carrier set of the radio.
The carrier set implies a regulatory domain, but
geographic-specific restrictions within a regulatory
domain may necessitate several carrier sets within
the regulatory domain.
usa(0) - ISM 2.4 GHz America
europe(1) - ISM 2.4 GHz Europe
japan(2) - ISM 2.4 GHz Japan
spain(3) - ISM 2.4 GHz Spain
france(4) - ISM 2.4 GHz France
belgium(5) - ISM 2.4 GHz Belgium
israel(6) - ISM 2.4 GHz Israel
canada(7) - ISM 2.4 GHz Canada
australia(8) - ISM 2.4 GHz Australia
japanWide(9) - ISM 2.4 GHz JapanWide
world(10) - ISM 2.4 GHz World
usa5GHz(11) - OFDM UNII 2 America
europe5GHz(12) - OFDM UNII 2 Europe
japan5GHz(13) - OFDM UNII 2 Japan
singapore5GHz(14) - OFDM UNII 2 Singapore
taiwan5GHz(15) - OFDM UNII 2 Taiwan
china(16) - ISM 2.4 GHz China
northAmer5GHzUNI3(17)
- OFDM UNII 3 North America
chnIreAus5GHzUNI3(18)
- OFDM UNII 3 China, Ireland, Austrialia
hkNZ5GHzUNI3(19)
- OFDM UNII 3 Hong Kong, New Zealand
korea5GHzUNI3(20)
- OFDM UNII 3 Korea
mexAusNZ5GHzUNI3(21)
- OFDM UNII 3 Mexical, Australia,
New Zealand (North America without
ETSI Channels)
china5GHzUNI2(22)
- OFDM UNII 2 China
korea5GHzUNI123E(23)
- OFDM UNII 1,2,3,ETSI Korea
japan5GHzUNI12(24)
- OFDM UNII 1,2 Japan
taiwan5GHzUNI23E(25)
- OFDM UNII 2,3,ETSI Taiwan
israel5GhzUNI12(26)
- OFDM UNII 1,2 Israel
usaFCC49PS(27)
- OFDM FCC49 USA Public Safety
japan5GHzUNI1(28)
- OFDM UNII 1 Japan"REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 14.6.10."::={ cd11IfPhyOperationEntry 1}
cd11IfModulationType OBJECT-TYPESYNTAXINTEGER{standard(1),mok(2)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the RF modulation type of
the radio.
standard(1) - Standard, this is the default
setting currently defined in the
IEEE 802.11 standard.
mok(2) - MOK, this modulation was used
before the IEEE finished the
high-speed 802.11 standard.
The default modulation type is standard(1)."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 14.6.10."::={ cd11IfPhyOperationEntry 2}cd11IfPreambleType OBJECT-TYPESYNTAXINTEGER{long(1),short(2)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the current radio preamble
type in use by the station. Possible values:
long(1) - long preambles
short(2) - short preambles.
A long preamble ensures compatibility between
access point and all early models of Cisco
Aironet Wireless LAN adapters (client devices).
A short preamble improves throughput performance.
The default preamble type is short(2)."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 14.6.10."::={ cd11IfPhyOperationEntry 3}cd11IfDomainCapabilitySet OBJECT-TYPESYNTAXInteger32MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the current multi-domain
capability setting of this radio. This object
takes one of the dot11MultiDomainCapabilityIndex
values on the dot11MultiDomainCapabilityTable.
The setting controls the first working radio channel
number, the number of working channels, and the
maximum transmit power level of the radio. The
setting must match the corresponding value of the
cd11IfCurrentCarrierSet set for this radio. This
object is writable only if the IEEE 802.11
multi-domain capability option is implemented
and enabled via dot11MultiDomainCapabilityImplemented
and dot11MultiDomainCapabilityEnabled."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."::={ cd11IfPhyOperationEntry 4}cd11IfPhyBasicRateSet OBJECT-TYPESYNTAXOCTETSTRING(SIZE(1..126))MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This attribute specifies if a data rate in the
dot11OperationalRateSet of the IEEE802dot11-MIB
is a Basic Rate for this radio interface.
If a data rate is a Basic Rate, the corresponding
octet of this attribute will contain a value of
128 (or the most significant bit is set). Otherwise,
the corresponding octet of this attribute will
be 0."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."::={ cd11IfPhyOperationEntry 5}cd11IfPhyMacSpecification OBJECT-TYPESYNTAXINTEGER{ieee802dot11a(1),ieee802dot11b(2),ieee802dot11g(3)}MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This object specifies which IEEE 802.11 Standard
applies to this radio interface.
ieee802dot11a(1) - IEEE 802.11a Standard,
ieee802dot11b(2) - IEEE 802.11b Standard,
ieee802dot11g(3) - IEEE 802.11g Standard."
REFERENCE"IEEE P802.11g (expected June 2003), Wireless LAN
Medium Access Control (MAC) and Physical Layer (PHY)
Specifications: Higher Speed Physical Layer (PHY)
Extension to IEEE 802.11b."::={ cd11IfPhyOperationEntry 6}cd11IfPhyConcatenation OBJECT-TYPESYNTAXInteger32MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If the value of cd11IfStationRole is 'roleBridge'
or 'roleNrBridge', this object sets the maximum
packet concatenation size in bytes for all
outbound packets. For our current 5 GHz product,
the maximum value range is from 1600 to 4000."::={ cd11IfPhyOperationEntry 7}cd11IfPhyNativePowerUseStandard OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object indicates if queries for current
transmit power and number of transmit power levels
of the radio for the frequency band shall be via
the Standard IEEE802dot11-MIB dot11PhyTxPowerTable
dot11CurrentTxPowerLevel and
dot11NumberSupportedPowerLevels objects or
corresponding cd11IfNativeCurrentPowerLevel
and cd11IfNativeNumberPowerLevels objects
in the cd11IfRfNativePowerTable.
If the value is 'true', the dot11CurrentTxPowerLevel
is used to configure the current radio transmit
power level. If the value is 'false', the
cd11IfNativeCurrentPowerLevel object shall be used
to configure the current radio transmit power level."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."DEFVAL{ true }::={ cd11IfPhyOperationEntry 8}cd11IfPhyFhssTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfPhyFhssEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table contains the Physical Layer
Frequency Hopping Spread Spectrum configuration
parameters for each radio interface. This table
has a sparse dependent relationship on the ifTable.
For each entry in this table, there exists an
entry in the ifTable of ifType ieee80211(71).
Entries in this table cannot be created or deleted
by the network management system. All entries are
created or deleted by the agent."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 14.1.2."::={ cd11IfPhyConfig 4}cd11IfPhyFhssEntry OBJECT-TYPESYNTAX Cd11IfPhyFhssEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"A collection of attributes defining the FHSS
configuration parameters of a radio interface."INDEX{ ifIndex }::={ cd11IfPhyFhssTable 1}
Cd11IfPhyFhssEntry ::=SEQUENCE{
cd11IfPhyFhssMaxCompatibleRate Integer32}cd11IfPhyFhssMaxCompatibleRate OBJECT-TYPESYNTAXInteger32(2..127)UNITS"500 Kb per second"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the of maximum data
rate at which the station may transmit data.
The octet contains a value representing a rate.
The rate should be within the range from '2' to
'127', corresponding to data rates in increments
of 500 kb/s from 1 Mb/s to 63.5 Mb/s. It should be
one of the rates in the IEEE802dot11-MIB
dot11OperationalRateSet. The default value is
'127'."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."::={ cd11IfPhyFhssEntry 1}cd11IfPhyDsssTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfPhyDsssEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table contains the Physical Layer
Direct Sequence Spread Spectrum configuration
parameters for each radio interface. This table
has a sparse dependent relationship on the ifTable.
For each entry in this table, there exists an
entry in the ifTable of ifType ieee80211(71).
Entries in this table cannot be created or deleted
by the network management system. All entries are
created or deleted by the agent."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 15.1."::={ cd11IfPhyConfig 5}cd11IfPhyDsssEntry OBJECT-TYPESYNTAX Cd11IfPhyDsssEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"A collection of attributes defining the DSSS
configuration parameters of a radio interface."INDEX{ ifIndex }::={ cd11IfPhyDsssTable 1}
Cd11IfPhyDsssEntry ::=SEQUENCE{
cd11IfPhyDsssMaxCompatibleRate Integer32,
cd11IfPhyDsssChannelAutoEnable TruthValue,
cd11IfPhyDsssCurrentChannel INTEGER}cd11IfPhyDsssMaxCompatibleRate OBJECT-TYPESYNTAXInteger32(2..127)UNITS"500 Kb per second"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the of maximum data
rate at which the station may transmit data.
The octet contains a value representing a rate.
The rate should be within the range from '2' to
'127', corresponding to data rates in increments
of 500 kb/s from 1 Mb/s to 63.5 Mb/s. It should
be one of the rates in the IEEE802dot11-MIB
dot11OperationalRateSet. The default value is
'127'."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."::={ cd11IfPhyDsssEntry 1}cd11IfPhyDsssChannelAutoEnable OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If the value is 'true' and the radio is function
as an access point device (i.e., cd11IfStationRole
is 'roleRoot', the radio will scan for other BSS
activity on all channels available in the current
cd11IfCurrentCarrierSet before establishing its
own BSS. After the scan, this station will
establish its own BSS on the channel with the
least probability of radio signal congestion.
If the value is 'false', this station always
establishes its BSS on IEEE802dot11-MIB
dot11CurrentChannel. The default value is 'true'."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."::={ cd11IfPhyDsssEntry 2}cd11IfPhyDsssCurrentChannel OBJECT-TYPESYNTAXINTEGER(1..14 |
34|36|38|40|42|44|46|48|52|56|60|64 |
149|153|157|161)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The current operating frequency channel of
the DSSS PHY, as selected either by selective
scanning or via IEEE802dot11-MIB dot11CurrentChannel.
Valid channel numbers are defined in the
IEEE 802.11 Standard.
For North America, 802.11b channels allowed are 1 to
11 and 802.11a channels allowed are 36,40,44,48,52,56,
60, and 64."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 15.4.6.2."::={ cd11IfPhyDsssEntry 3}cd11IfSuppDataRatesPrivacyTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfSuppDataRatesPrivacyEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table defines the transmit and receive bit
rate of the radio on each IEEE 802.11 interface
and the WEP encryption support at those rates.
This table has an expansion dependent relationship
on the ifTable. For each entry in this table,
there exists at least an entry in the ifTable of
ifType ieee80211(71). Entries in this table
cannot be created or deleted by the network
management system. All entries are created or
deleted by the agent."::={ cd11IfPhyConfig 11}cd11IfSuppDataRatesPrivacyEntry OBJECT-TYPESYNTAX Cd11IfSuppDataRatesPrivacyEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry specifies the encryption support for
a particular data rate on a radio interface."INDEX{
ifIndex,
cd11IfSuppDataRatesPrivacyIndex
}::={ cd11IfSuppDataRatesPrivacyTable 1}
Cd11IfSuppDataRatesPrivacyEntry ::=SEQUENCE{
cd11IfSuppDataRatesPrivacyIndex Integer32,
cd11IfSuppDataRatesPrivacyValue Integer32,
cd11IfSuppDataRatesPrivacyEnabl TruthValue}cd11IfSuppDataRatesPrivacyIndex OBJECT-TYPESYNTAXInteger32(1..8)MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This object identifies a data rate supported
on a radio. Each radio can support up to 8
different rates."::={ cd11IfSuppDataRatesPrivacyEntry 1}cd11IfSuppDataRatesPrivacyValue OBJECT-TYPESYNTAXInteger32(2..127)UNITS"500 Kb per second"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This object defines the receiving or transmission
bit rates supported by the PLCP and PMD, represented
by a count from 0x02-0x7f, corresponding to
data rates in increments of 500Kb/s from 1 Mb/s to
63.5 Mb/s."::={ cd11IfSuppDataRatesPrivacyEntry 2}cd11IfSuppDataRatesPrivacyEnabl OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-onlySTATUScurrent
DESCRIPTION"This object indicates whether WEP encryption is
supported by the radio for both transmit and receive
operations at the corresponding bit rate specified
by the cd11IfSuppDataRatesPrivacyValue."::={ cd11IfSuppDataRatesPrivacyEntry 3}cd11IfChanSelectTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfChanSelectEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table specifies for each 802.11 channel,
whether the scanning process controlled by the
cd11IfPhyDsssChannelAutoEnable can select a
particular channel for use. This table has an
expansion dependent relationship on the ifTable.
For each entry in this table, there exists at least
an entry in the ifTable of ifType ieee80211(71).
Entries in this table cannot be created or deleted
by the network management system. All entries are
created or deleted by the agent."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 15.4.6.2."::={ cd11IfPhyConfig 12}cd11IfChanSelectEntry OBJECT-TYPESYNTAX Cd11IfChanSelectEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry specifies if a particular radio channel
is enabled on a radio interface."INDEX{
ifIndex,
cd11IfChanSelectChannel
}::={ cd11IfChanSelectTable 1}
Cd11IfChanSelectEntry ::=SEQUENCE{
cd11IfChanSelectChannel INTEGER,
cd11IfChanSelectEnable TruthValue}cd11IfChanSelectChannel OBJECT-TYPESYNTAXINTEGER(1..14 |
34|36|38|40|42|44|46|48|52|56|60|64 |
149|153|157|161)
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This object specifies an IEEE 802.11 channel
number which is a candidate for low-occupancy
scanning."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, section 15.4.6.2."::={ cd11IfChanSelectEntry 1}cd11IfChanSelectEnable OBJECT-TYPESYNTAXTruthValueMAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If the value is 'true', cd11IfChanSelectChannel
is available for the system to use as its
cd11IfPhyDsssCurrentChannel after scanning for
channel occupancy. If the value is 'false',
cd11IfChanSelectChannel is not available. The
default value is 'true'."::={ cd11IfChanSelectEntry 2}cd11IfClientTxPowerTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfClientTxPowerEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table shows the recommended client
transmit power level for the radio and selects
one of the levels as the desired transmit power
level to be used by the client of the radio. By
adjusting the transmit power, the radio can limit
the interference caused by adjacent clients using
the same or adjacent channels."::={ cd11IfPhyConfig 13}cd11IfClientTxPowerEntry OBJECT-TYPESYNTAX Cd11IfClientTxPowerEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry specifies the number of available
transmit power levels, the values of all the
levels, and the selected level for a radio
interface."INDEX{ ifIndex }::={ cd11IfClientTxPowerTable 1}
Cd11IfClientTxPowerEntry ::=SEQUENCE{
cd11IfClientNumberTxPowerLevels Integer32,
cd11IfClientTxPowerLevel1 Integer32,
cd11IfClientTxPowerLevel2 Integer32,
cd11IfClientTxPowerLevel3 Integer32,
cd11IfClientTxPowerLevel4 Integer32,
cd11IfClientTxPowerLevel5 Integer32,
cd11IfClientTxPowerLevel6 Integer32,
cd11IfClientTxPowerLevel7 Integer32,
cd11IfClientTxPowerLevel8 Integer32,
cd11IfClientCurrentTxPowerLevel Integer32}cd11IfClientNumberTxPowerLevels OBJECT-TYPESYNTAXInteger32(1..8)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of power levels available for the
clients. This attribute can have a value of
1 to 8."::={ cd11IfClientTxPowerEntry 1}cd11IfClientTxPowerLevel1 OBJECT-TYPESYNTAXInteger32(-10000..10000)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The client transmit output power for LEVEL1
in mW or dBm."::={ cd11IfClientTxPowerEntry 2}cd11IfClientTxPowerLevel2 OBJECT-TYPESYNTAXInteger32(-10000..10000)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The client transmit output power for LEVEL2
in mW or dBm."::={ cd11IfClientTxPowerEntry 3}cd11IfClientTxPowerLevel3 OBJECT-TYPESYNTAXInteger32(-10000..10000)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The client transmit output power for LEVEL3
in mW or dBm."::={ cd11IfClientTxPowerEntry 4}
cd11IfClientTxPowerLevel4 OBJECT-TYPESYNTAXInteger32(-10000..10000)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The client transmit output power for LEVEL4
in mW or dBm."::={ cd11IfClientTxPowerEntry 5}cd11IfClientTxPowerLevel5 OBJECT-TYPESYNTAXInteger32(-10000..10000)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The client transmit output power for LEVEL5
in mW or dBm."::={ cd11IfClientTxPowerEntry 6}cd11IfClientTxPowerLevel6 OBJECT-TYPESYNTAXInteger32(-10000..10000)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The client transmit output power for LEVEL6
in mW or dBm."::={ cd11IfClientTxPowerEntry 7}cd11IfClientTxPowerLevel7 OBJECT-TYPESYNTAXInteger32(-10000..10000)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The client transmit output power for LEVEL7
in mW or dBm."::={ cd11IfClientTxPowerEntry 8}cd11IfClientTxPowerLevel8 OBJECT-TYPESYNTAXInteger32(-10000..10000)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The client transmit output power for LEVEL8
in mW or dBm."::={ cd11IfClientTxPowerEntry 9}cd11IfClientCurrentTxPowerLevel OBJECT-TYPESYNTAXInteger32(1..8)
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The TxPowerLevel N currently selected for client
to transmit data. It is up to the clients to honor
this transmit power setting."::={ cd11IfClientTxPowerEntry 10}cd11IfErpOfdmTxPowerTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfErpOfdmTxPowerEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table shows the available ERP-OFDM
transmit power levels for radios implementing
IEEE 802.11g Protocol and configures one of the
levels as the transmit power level.
This table has a sparse dependent relationship
on the ifTable. For each entry in this table,
there exists an entry in the ifTable of ifType
ieee80211(71) and the corresponding
cd11IfPhyMacSpecification is ieee802dot11g(3).
For all IEEE802.11g radios with an entry in this
table, the IEEE802dot11-MIB dot11PhyTxPowerTable
will be used to configure ERP-CCK transmit power
levels."::={ cd11IfPhyConfig 14}cd11IfErpOfdmTxPowerEntry OBJECT-TYPESYNTAX Cd11IfErpOfdmTxPowerEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry specifies the number of available
transmit power levels, the values of all the
levels, and the configured transmit power level
for an IEEE 802.11g radio interface."INDEX{ ifIndex }::={ cd11IfErpOfdmTxPowerTable 1}
Cd11IfErpOfdmTxPowerEntry ::=SEQUENCE{
cd11IfErpOfdmNumberTxPowerLevels Integer32,
cd11IfErpOfdmTxPowerLevel1 Integer32,
cd11IfErpOfdmTxPowerLevel2 Integer32,
cd11IfErpOfdmTxPowerLevel3 Integer32,
cd11IfErpOfdmTxPowerLevel4 Integer32,
cd11IfErpOfdmTxPowerLevel5 Integer32,
cd11IfErpOfdmTxPowerLevel6 Integer32,
cd11IfErpOfdmTxPowerLevel7 Integer32,
cd11IfErpOfdmTxPowerLevel8 Integer32,
cd11IfErpOfdmCurrentTxPowerLevel Integer32}cd11IfErpOfdmNumberTxPowerLevels OBJECT-TYPESYNTAXInteger32(1..8)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of power levels available for this
radio. This attribute can have a value of
1 to 8."::={ cd11IfErpOfdmTxPowerEntry 1}cd11IfErpOfdmTxPowerLevel1 OBJECT-TYPESYNTAXInteger32(0..10000)UNITS"mW"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The ERP-OFDM transmit output power for LEVEL1."::={ cd11IfErpOfdmTxPowerEntry 2}cd11IfErpOfdmTxPowerLevel2 OBJECT-TYPESYNTAXInteger32(0..10000)UNITS"mW"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The ERP-OFDM transmit output power for LEVEL2."::={ cd11IfErpOfdmTxPowerEntry 3}cd11IfErpOfdmTxPowerLevel3 OBJECT-TYPESYNTAXInteger32(0..10000)UNITS"mW"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The ERP-OFDM transmit output power for LEVEL3."::={ cd11IfErpOfdmTxPowerEntry 4}cd11IfErpOfdmTxPowerLevel4 OBJECT-TYPESYNTAXInteger32(0..10000)UNITS"mW"MAX-ACCESSread-onlySTATUScurrent
DESCRIPTION"The ERP-OFDM transmit output power for LEVEL4."::={ cd11IfErpOfdmTxPowerEntry 5}cd11IfErpOfdmTxPowerLevel5 OBJECT-TYPESYNTAXInteger32(0..10000)UNITS"mW"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The ERP-OFDM transmit output power for LEVEL5."::={ cd11IfErpOfdmTxPowerEntry 6}cd11IfErpOfdmTxPowerLevel6 OBJECT-TYPESYNTAXInteger32(0..10000)UNITS"mW"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The ERP-OFDM transmit output power for LEVEL6."::={ cd11IfErpOfdmTxPowerEntry 7}cd11IfErpOfdmTxPowerLevel7 OBJECT-TYPESYNTAXInteger32(0..10000)UNITS"mW"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The ERP-OFDM transmit output power for LEVEL7."::={ cd11IfErpOfdmTxPowerEntry 8}cd11IfErpOfdmTxPowerLevel8 OBJECT-TYPESYNTAXInteger32(0..10000)UNITS"mW"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The ERP-OFDM transmit output power for LEVEL8."::={ cd11IfErpOfdmTxPowerEntry 9}cd11IfErpOfdmCurrentTxPowerLevel OBJECT-TYPESYNTAXInteger32(1..8)MAX-ACCESSread-writeSTATUScurrentDESCRIPTION
"The TxPowerLevel N currently configured
to transmit data."::={ cd11IfErpOfdmTxPowerEntry 10}cd11IfFrequencyBandTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfFrequencyBandEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table identifies the radio frequency
(sub)bands supported on the IEEE 802.11 radio
interfaces while operating per the regulations
imposed by the cd11IfCurrentCarrierSet.
This table has an expansion dependent relationship
on the ifTable. For each entry in this table,
there exists at least an entry in the ifTable of
ifType ieee80211(71). This table uses the
cd11IfRfFrequencyBand as the expansion index.
All entries in this table are created or deleted
only by the agent."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."::={ cd11IfPhyConfig 15}cd11IfFrequencyBandEntry OBJECT-TYPESYNTAX Cd11IfFrequencyBandEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry defines a supported radio frequency
band for an IEEE 802.11 radio interface."INDEX{
ifIndex,
cd11IfRfFrequencyBand
}::={ cd11IfFrequencyBandTable 1}
Cd11IfFrequencyBandEntry ::=SEQUENCE{
cd11IfRfFrequencyBand Unsigned32,
cd11IfRfFrequencyUnits INTEGER,
cd11IfRfStartChannelNumber Unsigned32,
cd11IfRfEndChannelNumber Unsigned32,
cd11IfRfChannelSpacingNumber Unsigned32,
cd11IfRfStartChannelFrequency Unsigned32,
cd11IfRfFrequencySpacing Unsigned32,
cd11IfRfFrequencyBandType
CDot11RadioFrequencyBandType,
cd11IfMaxChannelSwitchTime Unsigned32}cd11IfRfFrequencyBand OBJECT-TYPE
SYNTAXUnsigned32MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This object identifies radio frequency bands
supported on the radio."::={ cd11IfFrequencyBandEntry 1}cd11IfRfFrequencyUnits OBJECT-TYPESYNTAXINTEGER{mHz(1)}MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This base frequency units combines with the
cd11IfRfStartChannelFrequency to define the
actual frequency of the channel and combines
with the cd11IfRfFrequencySpacing to define the
minimum frequency spacing between two adjacent
frequency channels.
For example, frequency spacing of 5 MHz is
'mHz' in cd11IfRfFrequencyUnits and 5 in
cd11IfRfFrequencySpacing."DEFVAL{ mHz }::={ cd11IfFrequencyBandEntry 2}cd11IfRfStartChannelNumber OBJECT-TYPESYNTAXUnsigned32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"Numeric identifier of the first channel supported
in this radio frequency band. For example,
currently at the 2.4 GHz ISM band, the first channel
number is 1, while for the U-NII-1 band in the FCC
regulatory domain, the first supported channel is
number 36 at frequency 5180 MHz."::={ cd11IfFrequencyBandEntry 3}cd11IfRfEndChannelNumber OBJECT-TYPESYNTAXUnsigned32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"Numeric identifier of the last channel supported
in this radio frequency band. For example, in the
FCC regulatory domain, the last channel of the 2.4
GHz ISM band is number 11 and the last channel of
the U-NII-1 band is number 48 at frequency 5240 MHz."::={ cd11IfFrequencyBandEntry 4}cd11IfRfChannelSpacingNumber OBJECT-TYPESYNTAXUnsigned32MAX-ACCESSread-only
STATUScurrentDESCRIPTION"Numeric spacing between the identifiers of two
adjacent supported channels in this band. For
example, currently at the 2.4 GHz ISM band, the
numeric channel spacing is 1, resulting in a channel
identifier sequence of 1, 2, 3, etc. In the
U-NII-1 band, the numeric channel spacing is 4,
resulting in a channel identifier sequence
of 36, 40, 44, etc."::={ cd11IfFrequencyBandEntry 5}cd11IfRfStartChannelFrequency OBJECT-TYPESYNTAXUnsigned32(0..10000)MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This is the base channel frequency of the
cd11IfRfStartChannelNumber channel from which
subsequent channels of this frequency band are
defined. The actual frequency value is defined
and calculated by multiplying this object with the
cd11IfRfFrequencyUnits. The subsequent channels
in the band are calculated by adding the
cd11IfRfChannelSpacingNumber multiplied by the
cd11IfRfFrequencySpacing to this object value.
For example, the first channel of U-NII-1 band is
channel 36, the cd11IfRfFrequencyUnits is 'mHz',
the cd11IfRfStartChannelFrequency is '5180', and
the cd11IfRfChannelSpacingNumber is 4. If the
cd11IfRfFrequencySpacing is 5 MHz, the second
supported channel of the U-NII-1 band will be
channel 40 at frequency 5200 MHz."::={ cd11IfFrequencyBandEntry 6}cd11IfRfFrequencySpacing OBJECT-TYPESYNTAXUnsigned32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This is the frequency separation between two
adjacent radio frequency channels. The actual
frequency value is calculated by multiplying this
object with the cd11IfRfFrequencyUnits. For
example, for a frequency spacing of 5 MHz, the
value of cd11IfRfFrequencyUnits is 'mHz' and
the value of this object is 5."::={ cd11IfFrequencyBandEntry 7}cd11IfRfFrequencyBandType OBJECT-TYPESYNTAX CDot11RadioFrequencyBandType
MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This is the enumerated radio frequency band name(s)
which this (sub)band occupies.
If the frequency band defined in a table row is not
included in the current CDot11RadioFrequencyBandType
definition, none of the bits are set for this object."::={ cd11IfFrequencyBandEntry 8}cd11IfMaxChannelSwitchTime OBJECT-TYPESYNTAXUnsigned32UNITS"milliseconds"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The maximum time required for the radio interface
to switch its transceiver from one channel to any
other supported channel in any supported band."::={ cd11IfFrequencyBandEntry 9}cd11IfNativeTxPowerSupportTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfNativeTxPowerSupportEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table shows the transmit powers supported for
all the radio frequency bands on the IEEE 802.11
radios.
This table has an expansion dependent relationship
on the ifTable. For each entry in this table,
there exists at least an entry in the ifTable of
ifType ieee80211(71). This table uses the
cd11IfRfFrequencyBand of cd11IfFrequencyBandTable,
cd11IfRadioModulationClass, and
cd11IfNativeTxPowerLevel as the expansion indices.
All entries in this table can only be created or
deleted by the agent."::={ cd11IfPhyConfig 16}cd11IfNativeTxPowerSupportEntry OBJECT-TYPESYNTAX Cd11IfNativeTxPowerSupportEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry specifies a supported transmit power
level for a frequency band, with a specified
modulation technique, on the IEEE 802.11 radio
interface."INDEX{
ifIndex,
cd11IfRfFrequencyBand,
cd11IfRadioModulationClass,
cd11IfNativeTxPowerLevel
}::={ cd11IfNativeTxPowerSupportTable 1}
Cd11IfNativeTxPowerSupportEntry ::=SEQUENCE{
cd11IfRadioModulationClass CDot11RadioModulationClass,
cd11IfNativeTxPowerLevel Unsigned32,
cd11IfNativeTxPower Integer32
}cd11IfRadioModulationClass OBJECT-TYPESYNTAX CDot11RadioModulationClass
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This identifies a radio modulation technique
used by the 802.11 radio interface."::={ cd11IfNativeTxPowerSupportEntry 1}cd11IfNativeTxPowerLevel OBJECT-TYPESYNTAXUnsigned32MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This is the unique index for a transmit power of a
radio frequency band for the radio."::={ cd11IfNativeTxPowerSupportEntry 2}cd11IfNativeTxPower OBJECT-TYPESYNTAXInteger32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This is a transmit power available at a radio
frequency band for the radio, when using the
modulation technique specified by the
cd11IfRadioModulationClass. The value of the
cd11IfNativeTxPowerUnits defines the units of this
transmit power. The value can be negative if the
units is 'dBm'."::={ cd11IfNativeTxPowerSupportEntry 3}cd11IfRfNativePowerTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfRfNativePowerEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table configures the radio power settings
for frequency bands supported on the IEEE 802.11
radios. This table serves as an alternative for
the IEEE802dot11-MIB dot11PhyTxPowerTable. This
table allows different transmit powers to be used
on different radio frequency bands.
This table has an expansion dependent relationship
on the ifTable. For each entry in this table,
there exists at least an entry in the ifTable of
ifType ieee80211(71). This table uses the
cd11IfRfFrequencyBand and cd11IfRadioModulationClass
as the expansion indices.
All entries in this table are created or deleted
only by the agent."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."::={ cd11IfPhyConfig 17}cd11IfRfNativePowerEntry OBJECT-TYPESYNTAX Cd11IfRfNativePowerEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry specifies the transmit power
settings of a particular radio frequency band,
with a specified modulation technique, for
an IEEE 802.11 radio interface."INDEX{
ifIndex,
cd11IfRfFrequencyBand,
cd11IfRadioModulationClass
}::={ cd11IfRfNativePowerTable 1}
Cd11IfRfNativePowerEntry ::=SEQUENCE{
cd11IfNativeNumberPowerLevels Unsigned32,
cd11IfNativeCurrentPowerLevel Unsigned32,
cd11IfNativePowerUnits INTEGER}cd11IfNativeNumberPowerLevels OBJECT-TYPESYNTAXUnsigned32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The number of transmit power levels of a radio
frequency band for the radio. The value of this
object should be the same as the maximum
cd11IfNativeTxPowerLevel of the same ifIndex,
cd11IfRadioFrequencyBand, and
cd11IfRadioModulationClass.
If the value of this object is 0, the radio can
only receive, not transmit, on this frequency
band and modulation technique."::={ cd11IfRfNativePowerEntry 1}cd11IfNativeCurrentPowerLevel OBJECT-TYPESYNTAXUnsigned32MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"If cd11IfPhyNativePowerUseStandard is 'false',
this object configures the current transmit power
level of a radio frequency band for the radio.
The value shall be one of the supported
cd11IfNativeTxPowerLevel for the radio of the
the same frequency band and modulation technique.
For any radio does not transmit power in the
specified radio frequency band and modulation
technique, the value of this object is 0."::={ cd11IfRfNativePowerEntry 2}cd11IfNativePowerUnits OBJECT-TYPESYNTAXINTEGER{mW(1),dBm(2)}MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The native transmit power units implemented on the
radio. It is the units for the cd11IfNativeTxPower.
For the IEEE802dot11-MIB dot11PhyTxPowerTable,
'mW' is the only supported units."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."DEFVAL{ mW }::={ cd11IfRfNativePowerEntry 3}cd11IfDataRatesSensitivityTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfDataRatesSensitivityEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table specifies the receive sensitivity
specifications of IEEE 802.11 radio interfaces.
This table has an expansion dependent relationship
on the ifTable. For each entry in this table,
there exists at least an entry in the ifTable of
ifType ieee80211(71). This table uses the
cd11IfRadioModulationClass and IEEE802dot11-MIB
dot11SupportedDataRatesRxIndex as the expansion
indices.
Entries in this table cannot be created or deleted
by the network management system. All entries are
created or deleted by the agent."::={ cd11IfPhyConfig 18}cd11IfDataRatesSensitivityEntry OBJECT-TYPESYNTAX Cd11IfDataRatesSensitivityEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry specifies the receive sensitivity of an
IEEE 802.11 radio interface, with a specified
modulation technique, for each supported data
rate identified by the dot11SupportedDataRatesRxIndex."INDEX{
ifIndex,
cd11IfRadioModulationClass,
dot11SupportedDataRatesRxIndex
}::={ cd11IfDataRatesSensitivityTable 1}
Cd11IfDataRatesSensitivityEntry ::=SEQUENCE{
cd11IfRatesSensRequiredSnr Integer32,
cd11IfRatesSensContention Integer32}cd11IfRatesSensRequiredSnr OBJECT-TYPESYNTAXInteger32UNITS"dB"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The minimum SNR requirement for each data rate
supported by a radio interface, when using the
modulation technique specified by
cd11IfRadioModulationClass. This is the required
carrier to noise difference."::={ cd11IfDataRatesSensitivityEntry 1}cd11IfRatesSensContention OBJECT-TYPESYNTAXInteger32UNITS"dBm"MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"The average contention sensitivity level for each
data rate supported by a radio interface, when using
the modulation technique specified by
cd11IfRadioModulationClass. This is the value where
50% of the packets are received successfully."::={ cd11IfDataRatesSensitivityEntry 2}-- Statistics Objectscd11IfMacLayerCountersTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfMacLayerCountersEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table includes MAC layer statistics collected
by the IEEE 802.11 radio interface. This table has
a sparse dependent relationship on the ifTable.
For each entry in this table, there exists an entry
in the ifTable of ifType ieee80211(71)."::={ cd11IfMacStatistics 1}cd11IfMacLayerCountersEntry OBJECT-TYPESYNTAX Cd11IfMacLayerCountersEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"Each entry contains counters of frame transmissions
for a radio interface."INDEX{ ifIndex }::={ cd11IfMacLayerCountersTable 1}
Cd11IfMacLayerCountersEntry ::=SEQUENCE{
cd11IfTransDeferEnerDetects Counter32,
cd11IfRecFrameMacCrcErrors Counter32,
cd11IfSsidMismatches Counter32}cd11IfTransDeferEnerDetects OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This counter shall increment when a frame transmission
is deferred due to energy detection."::={ cd11IfMacLayerCountersEntry 1}cd11IfRecFrameMacCrcErrors OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This counter shall increment when a frame received has
any MAC CRC error."::={ cd11IfMacLayerCountersEntry 2}cd11IfSsidMismatches OBJECT-TYPESYNTAXCounter32MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This counter shall increment when a beacon or probe
response frame received for which the SSIDs in the
frame do not match the IEEE802dot11-MIB
dot11DesiredSSID object."REFERENCE"IEEE Std 802.11-Jan 14 1999, Wireless LAN Medium
Access Control and Physical Layer Specifications,
LAN MAN Standards Committee of the IEEE Computer
Society, IEEE802dot11-MIB."::={ cd11IfMacLayerCountersEntry 3}cd11IfRogueApDetectedTable OBJECT-TYPESYNTAXSEQUENCEOF Cd11IfRogueApDetectedEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table includes rogue AP detected
information collected by the IEEE 802.11 radio
interface and 802.11 system management. This
table has a sparse dependent relationship on
the ifTable. For each entry in this table,
there exists an entry in the ifTable of ifType
ieee80211(71)."::={ cd11IfMacStatistics 2}cd11IfRogueApDetectedEntry OBJECT-TYPESYNTAX Cd11IfRogueApDetectedEntry
MAX-ACCESSnot-accessibleSTATUScurrent
DESCRIPTION"Each entry contains information of a rogue AP
detected by a radio interface."INDEX{
ifIndex,
cd11IfRogueApMacAddr
}::={ cd11IfRogueApDetectedTable 1}
Cd11IfRogueApDetectedEntry ::=SEQUENCE{
cd11IfRogueApMacAddr MacAddress,
cd11IfRogueApName SnmpAdminString}cd11IfRogueApMacAddr OBJECT-TYPESYNTAXMacAddressMAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This is the MAC address of a rogue access point
detected by this radio."::={ cd11IfRogueApDetectedEntry 1}cd11IfRogueApName OBJECT-TYPESYNTAXSnmpAdminStringMAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This is the name of the rogue access point."::={ cd11IfRogueApDetectedEntry 2}-- ********************************************************************
-- * Notifications
-- ********************************************************************cd11IfStationSwitchOverNotif NOTIFICATION-TYPEOBJECTS{
cd11IfLocalRadioMonitorStatus
}STATUScurrentDESCRIPTION"This notification will be sent when a radio
interface changes the cd11IfLocalRadioMonitorStatus
from 'monitor' to 'active'."::={ ciscoDot11IfMIBNotifications 1}cd11IfRogueApDetectedNotif NOTIFICATION-TYPEOBJECTS{
cd11IfRogueApName
}STATUScurrentDESCRIPTION"This notification will be sent when a radio
interface detects a new rogue AP and causes
a new row to be added to the
cd11IfRogueApDetectedTable."::={ ciscoDot11IfMIBNotifications 2}-- ********************************************************************
-- * Conformance information
-- ********************************************************************ciscoDot11IfMIBConformance
OBJECTIDENTIFIER::={ ciscoDot11IfMIB 3}ciscoDot11IfMIBCompliances
OBJECTIDENTIFIER::={ ciscoDot11IfMIBConformance 1}ciscoDot11IfMIBGroups
OBJECTIDENTIFIER::={ ciscoDot11IfMIBConformance 2}-- *****************************************************************
-- Compliance statements
-- *****************************************************************ciscoDot11IfCompliance MODULE-COMPLIANCESTATUSdeprecatedDESCRIPTION"The compliance statement for the cd11IfManagement,
cd11IfPhyConfig, cd11IfMacStatisticsGroup, and
cd11IfDomainCapabilityGroup groups."MODULEMANDATORY-GROUPS{
cd11IfManagementGroup,
cd11IfPhyConfigGroup,
cd11IfMacStatisticsGroup,
cd11IfDomainCapabilityGroup
}OBJECT cd11IfVlanEncryptKeyStatus
DESCRIPTION"Creation of rows must be done via
'createAndGo' for all keys. When the
agent successfully creates the encryption
key, this object is set to 'active' by the
agent."GROUP cd11IfVlanEncryptKeyConfigGroup
DESCRIPTION"This group is required only if different
WEP keys are configured for the same VLAN
on different IEEE 802.11 radio interfaces.
The CISCO-WLAN-VLAN-MIB cwvlWlanNUcastKeyTable
should be used otherwise."::={ ciscoDot11IfMIBCompliances 1}ciscoDot11IfComplianceRev1 MODULE-COMPLIANCESTATUSdeprecatedDESCRIPTION"The compliance statement of the ciscoDot11IfMIB
module."MODULEMANDATORY-GROUPS{
cd11IfRadioManageGroup,
cd11IfAssociationManageGroup,
cd11IfPhyConfigGroupRev1,
cd11IfMacStatisticsGroup
}GROUP cd11IfSsidAssociationGroup
DESCRIPTION
"This group is required only if the platform
implementing this MIB does not support
CISCO-DOT11-SSID-SECURITY-MIB."GROUP cd11IfVlanManageGroup
DESCRIPTION"This group is required only if different
WEP keys are configured for the same VLAN
on different IEEE 802.11 radio interfaces
or if the CISCO-WLAN-VLAN-MIB is not
supported on the platform implementing
this MIB."GROUP cd11IfRemoteMonitoringGroup
DESCRIPTION"This group is required only if the platform
implementing this MIB does not support
CISCO-L2-DEV-MONITORING-MIB."GROUP cd11IfPhyErpConfigGroup
DESCRIPTION"This group is required only if the platform
implementing IEEE 802.11g Protocol."OBJECT cd11IfVlanEncryptKeyStatus
DESCRIPTION"Creation of rows must be done via
'createAndGo' for all keys. When the
agent successfully creates the encryption
key, this object is set to 'active' by the
agent."OBJECT cd11IfPhyFhssMaxCompatibleRate
DESCRIPTION"This object is only mandatory for devices
supporting Frequency-Hopping Spread Spectrum."::={ ciscoDot11IfMIBCompliances 2}ciscoDot11IfComplianceRev2 MODULE-COMPLIANCESTATUSdeprecatedDESCRIPTION"The compliance statement of the ciscoDot11IfMIB
module."MODULEMANDATORY-GROUPS{
cd11IfStationManageGroup,
cd11IfAssociationManageGroup,
cd11IfPhyConfigGroupRev1,
cd11IfMacStatisticsGroup,
cd11IfNativeRadioManageGroup,
cd11IfDataRatesSensitivityGroup
}GROUP cd11IfSsidAssociationGroup
DESCRIPTION"This group is required only if the platform
implementing this MIB does not support
CISCO-DOT11-SSID-SECURITY-MIB."GROUP cd11IfVlanManageGroup
DESCRIPTION"This group is required only if different
encryption cipher types are configured for
the same VLAN on different IEEE 802.11 radio
interfaces or if the CISCO-WLAN-VLAN-MIB is
not supported on the platform implementing
this MIB."GROUP cd11IfVlanWepManageGroup
DESCRIPTION"This group is required only if different
WEP keys are configured for the same VLAN
on different IEEE 802.11 radio interfaces
or if the CISCO-WLAN-VLAN-MIB is not
supported on the platform implementing
this MIB."GROUP cd11IfRemoteMonitoringGroup
DESCRIPTION"This group is required only if the platform
implementing this MIB does not support
CISCO-L2-DEV-MONITORING-MIB."GROUP cd11IfPhyErpConfigGroup
DESCRIPTION"This group is required only if the platform
implementing IEEE 802.11g Protocol."GROUP cd11IfRogueApDetectedGroup
DESCRIPTION"This group is required only if the platform
implementing this MIB does not support
ciscoDdpIappRogueApInfoGroup objects in
CISCO-DDP-IAPP-MIB."GROUP cd11IfMonitorNotificationGroup
DESCRIPTION"This group is required only if the platform
implementing this MIB does not support
CISCO-DDP-IAPP-MIB ciscoDdpIappNotificationGroup
and CISCO-L2-DEV-MONITORING-MIB
ciscoL2DevMonNotificationGroup."OBJECT cd11IfVlanEncryptKeyStatus
DESCRIPTION"Creation of rows must be done via
'createAndGo' for all keys. When the
agent successfully creates the encryption
key, this object is set to 'active' by the
agent."OBJECT cd11IfPhyFhssMaxCompatibleRate
DESCRIPTION"This object is only mandatory for devices
supporting Frequency-Hopping Spread Spectrum."::={ ciscoDot11IfMIBCompliances 3}ciscoDot11IfComplianceRev3 MODULE-COMPLIANCESTATUSdeprecatedDESCRIPTION"The compliance statement of the ciscoDot11IfMIB
module."MODULEMANDATORY-GROUPS{
cd11IfStationManageGroup,
cd11IfAssociationManageGroup,
cd11IfPhyConfigGroupRev1,
cd11IfMacStatisticsGroup,
cd11IfNativeRadioManageGroup,
cd11IfDataRatesSensitivityGroup,
cd11Ifdot11UpgradeStatusGroup
}GROUP cd11IfSsidAssociationGroup
DESCRIPTION"This group is required only if the platform
implementing this MIB does not support
CISCO-DOT11-SSID-SECURITY-MIB."GROUP cd11IfVlanManageGroup
DESCRIPTION"This group is required only if different
encryption cipher types are configured for
the same VLAN on different IEEE 802.11 radio
interfaces or if the CISCO-WLAN-VLAN-MIB is
not supported on the platform implementing
this MIB."GROUP cd11IfVlanWepManageGroup
DESCRIPTION"This group is required only if different
WEP keys are configured for the same VLAN
on different IEEE 802.11 radio interfaces
or if the CISCO-WLAN-VLAN-MIB is not
supported on the platform implementing
this MIB."GROUP cd11IfRemoteMonitoringGroup
DESCRIPTION"This group is required only if the platform
implementing this MIB does not support
CISCO-L2-DEV-MONITORING-MIB."GROUP cd11IfPhyErpConfigGroup
DESCRIPTION"This group is required only if the platform
implementing IEEE 802.11g Protocol."GROUP cd11IfRogueApDetectedGroup
DESCRIPTION"This group is required only if the platform
implementing this MIB does not support
ciscoDdpIappRogueApInfoGroup objects in
CISCO-DDP-IAPP-MIB."GROUP cd11IfMonitorNotificationGroup
DESCRIPTION"This group is required only if the platform
implementing this MIB does not support
CISCO-DDP-IAPP-MIB ciscoDdpIappNotificationGroup
and CISCO-L2-DEV-MONITORING-MIB
ciscoL2DevMonNotificationGroup."OBJECT cd11IfVlanEncryptKeyStatus
DESCRIPTION"Creation of rows must be done via
'createAndGo' for all keys. When the
agent successfully creates the encryption
key, this object is set to 'active' by the
agent."OBJECT cd11IfPhyFhssMaxCompatibleRate
DESCRIPTION"This object is only mandatory for devices
supporting Frequency-Hopping Spread Spectrum."::={ ciscoDot11IfMIBCompliances 4}
ciscoDot11IfComplianceRev4 MODULE-COMPLIANCESTATUScurrentDESCRIPTION"The compliance statement of the ciscoDot11IfMIB
module."MODULEMANDATORY-GROUPS{
cd11IfStationManageGroup,
cd11IfAssociationManageGroup,
cd11IfPhyConfigGroupRev1,
cd11IfMacStatisticsGroup,
cd11IfNativeRadioManageGroup,
cd11IfDataRatesSensitivityGroup,
cd11Ifdot11UpgradeStatusGroup,
cd11Ifdot11MobileStationScanGroup
}GROUP cd11IfSsidAssociationGroup
DESCRIPTION"This group is required only if the platform
implementing this MIB does not support
CISCO-DOT11-SSID-SECURITY-MIB."GROUP cd11IfVlanManageGroup
DESCRIPTION"This group is required only if different
encryption cipher types are configured for
the same VLAN on different IEEE 802.11 radio
interfaces or if the CISCO-WLAN-VLAN-MIB is
not supported on the platform implementing
this MIB."GROUP cd11IfVlanWepManageGroup
DESCRIPTION"This group is required only if different
WEP keys are configured for the same VLAN
on different IEEE 802.11 radio interfaces
or if the CISCO-WLAN-VLAN-MIB is not
supported on the platform implementing
this MIB."GROUP cd11IfRemoteMonitoringGroup
DESCRIPTION"This group is required only if the platform
implementing this MIB does not support
CISCO-L2-DEV-MONITORING-MIB."GROUP cd11IfPhyErpConfigGroup
DESCRIPTION"This group is required only if the platform
implementing IEEE 802.11g Protocol."GROUP cd11IfRogueApDetectedGroup
DESCRIPTION"This group is required only if the platform
implementing this MIB does not support
ciscoDdpIappRogueApInfoGroup objects in
CISCO-DDP-IAPP-MIB."GROUP cd11IfMonitorNotificationGroup
DESCRIPTION"This group is required only if the platform
implementing this MIB does not support
CISCO-DDP-IAPP-MIB ciscoDdpIappNotificationGroup
and CISCO-L2-DEV-MONITORING-MIB
ciscoL2DevMonNotificationGroup."OBJECT cd11IfVlanEncryptKeyStatus
DESCRIPTION"Creation of rows must be done via
'createAndGo' for all keys. When the
agent successfully creates the encryption
key, this object is set to 'active' by the
agent."OBJECT cd11IfPhyFhssMaxCompatibleRate
DESCRIPTION"This object is only mandatory for devices
supporting Frequency-Hopping Spread Spectrum."::={ ciscoDot11IfMIBCompliances 5}-- *****************************************************************
-- Units of conformance
-- *****************************************************************cd11IfManagementGroup OBJECT-GROUPOBJECTS{
cd11IfStationRole,
cd11IfCiscoExtensionsEnable,
cd11IfAllowBroadcastSsidAssoc,
cd11IfPrivacyOptionMaxRate,
cd11IfEthernetEncapsulDefault,
cd11IfBridgeSpacing,
cd11IfDesiredSsidMaxAssocSta,
cd11IfAuxiliarySsidLength,
cd11IfVoipExtensionsEnable,
cd11IfDesiredSsidMicAlgorithm,
cd11IfDesiredSsidWepPermuteAlg,
cd11IfAuthAlgRequireEap,
cd11IfAuthAlgRequireMacAddr,
cd11IfAuthAlgDefaultVlan,
cd11IfWepDefaultKeyLen,
cd11IfWepDefaultKeyValue,
cd11IfDesiredBssAddr,
cd11IfAuxSsid,
cd11IfAuxSsidBroadcastSsid,
cd11IfAuxSsidMaxAssocSta,
cd11IfAuxSsidMicAlgorithm,
cd11IfAuxSsidWepPermuteAlg,
cd11IfAuxSsidAuthAlgEnable,
cd11IfAuxSsidAuthAlgRequireEap,
cd11IfAuxSsidAuthAlgRequireMac,
cd11IfAuxSsidAuthAlgDefaultVlan,
cd11IfAssignedSta
}STATUSdeprecatedDESCRIPTION"Information to support management of
IEEE 802.11 protocol interfaces."::={ ciscoDot11IfMIBGroups 1}cd11IfPhyConfigGroup OBJECT-GROUPOBJECTS{
cd11IfCurrentCarrierSet,
cd11IfModulationType,
cd11IfPreambleType,
cd11IfPhyFhssMaxCompatibleRate,
cd11IfPhyDsssMaxCompatibleRate,
cd11IfPhyDsssChannelAutoEnable,
cd11IfPhyDsssCurrentChannel,
cd11IfSuppDataRatesPrivacyValue,
cd11IfSuppDataRatesPrivacyEnabl,
cd11IfChanSelectEnable
}STATUSdeprecatedDESCRIPTION"Information to support configuration of
IEEE 802.11 protocol Physical layer."::={ ciscoDot11IfMIBGroups 2}cd11IfMacStatisticsGroup OBJECT-GROUPOBJECTS{
cd11IfTransDeferEnerDetects,
cd11IfRecFrameMacCrcErrors,
cd11IfSsidMismatches
}STATUScurrentDESCRIPTION"Statistics information on IEEE 802.11
radio interface MAC layer."::={ ciscoDot11IfMIBGroups 3}cd11IfVlanEncryptKeyConfigGroup OBJECT-GROUPOBJECTS{
cd11IfVlanEncryptKeyLen,
cd11IfVlanEncryptKeyValue,
cd11IfVlanEncryptKeyStatus
}STATUSdeprecatedDESCRIPTION"WEP key configuration for specific VLANs
on IEEE 802.11 radio interface."::={ ciscoDot11IfMIBGroups 4}cd11IfDomainCapabilityGroup OBJECT-GROUPOBJECTS{
cd11IfDomainCapabilitySet
}STATUSdeprecatedDESCRIPTION"This object class provides the objects necessary
to manage the channels and transmit power usable by
a radio within its regulatory domain."::={ ciscoDot11IfMIBGroups 5}cd11IfPhyMacCapabilityGroup OBJECT-GROUPOBJECTS{
cd11IfPhyBasicRateSet,
cd11IfPhyMacSpecification
}STATUSdeprecatedDESCRIPTION"This object class provides the objects necessary
to manage the Basic Rate capability applied to the
defined operational data rate and and IEEE 802.11
Standard applied to the radio."::={ ciscoDot11IfMIBGroups 6}
cd11IfAuthAlgMethodListGroup OBJECT-GROUPOBJECTS{
cd11IfAuthAlgEapMethod,
cd11IfAuthAlgMacAddrMethod,
cd11IfAuxSsidAuthAlgEapMethod,
cd11IfAuxSsidAuthAlgMacMethod
}STATUSdeprecatedDESCRIPTION"This object class provides the objects necessary
to specify the authentication method applied to
MAC address or EAP authentications."::={ ciscoDot11IfMIBGroups 7}cd11IfRadioManageGroup OBJECT-GROUPOBJECTS{
cd11IfStationRole,
cd11IfCiscoExtensionsEnable,
cd11IfPrivacyOptionMaxRate,
cd11IfEthernetEncapsulDefault,
cd11IfBridgeSpacing,
cd11IfVoipExtensionsEnable,
cd11IfAuxiliarySsidLength,
cd11IfAllowBroadcastSsidAssoc,
cd11IfDesiredBssAddr,
cd11IfAssignedSta,
cd11IfWorldMode,
cd11IfWorldModeCountry,
cd11IfMobileStationScanParent
}STATUSdeprecatedDESCRIPTION"Information to manage IEEE 802.11 protocol
radio interface settings."::={ ciscoDot11IfMIBGroups 8}cd11IfAssociationManageGroup OBJECT-GROUPOBJECTS{
cd11IfDesiredSsidMaxAssocSta,
cd11IfDesiredSsidMicAlgorithm,
cd11IfDesiredSsidWepPermuteAlg,
cd11IfAuthAlgRequireEap,
cd11IfAuthAlgRequireMacAddr,
cd11IfAuthAlgDefaultVlan,
cd11IfAuthAlgEapMethod,
cd11IfAuthAlgMacAddrMethod,
cd11IfWepDefaultKeyLen,
cd11IfWepDefaultKeyValue
}STATUScurrentDESCRIPTION"Information to manage IEEE 802.11 protocol
interface desired SSID association and
default encryption key settings."::={ ciscoDot11IfMIBGroups 9}cd11IfSsidAssociationGroup OBJECT-GROUPOBJECTS{
cd11IfAuxSsid,
cd11IfAuxSsidBroadcastSsid,
cd11IfAuxSsidMaxAssocSta,
cd11IfAuxSsidMicAlgorithm,
cd11IfAuxSsidWepPermuteAlg,
cd11IfAuxSsidAuthAlgEnable,
cd11IfAuxSsidAuthAlgRequireEap,
cd11IfAuxSsidAuthAlgRequireMac,
cd11IfAuxSsidAuthAlgDefaultVlan,
cd11IfAuxSsidAuthAlgEapMethod,
cd11IfAuxSsidAuthAlgMacMethod
}STATUScurrentDESCRIPTION"Information to manage IEEE 802.11 protocol
interface SSID association and authentication
settings."::={ ciscoDot11IfMIBGroups 10}cd11IfVlanManageGroup OBJECT-GROUPOBJECTS{
cd11IfVlanEncryptKeyLen,
cd11IfVlanEncryptKeyValue,
cd11IfVlanEncryptKeyStatus,
cd11IfVlanEncryptKeyTransmit,
cd11IfVlanSecurityVlanEnabled,
cd11IfVlanBcastKeyChangeInterval,
cd11IfVlanBcastKeyCapabilChange,
cd11IfVlanBcastKeyClientLeave,
cd11IfVlanSecurityCiphers,
cd11IfVlanSecurityRowStatus
}STATUScurrentDESCRIPTION"Information to manage IEEE 802.11 protocol
interface VLAN and encryption settings."::={ ciscoDot11IfMIBGroups 11}cd11IfRemoteMonitoringGroup OBJECT-GROUPOBJECTS{
cd11IfRadioMonitorPollingFreq,
cd11IfRadioMonitorPollingTimeOut,
cd11IfLocalRadioMonitorStatus,
cd11IfRadioMonitorRowStatus
}STATUScurrentDESCRIPTION"Information to manage IEEE 802.11 protocol
interface remote radio monitoring settings."::={ ciscoDot11IfMIBGroups 12}cd11IfPhyConfigGroupRev1 OBJECT-GROUPOBJECTS{
cd11IfCurrentCarrierSet,
cd11IfModulationType,
cd11IfPreambleType,
cd11IfDomainCapabilitySet,
cd11IfPhyBasicRateSet,
cd11IfPhyMacSpecification,
cd11IfPhyConcatenation,
cd11IfPhyDsssMaxCompatibleRate,
cd11IfPhyDsssChannelAutoEnable,
cd11IfPhyDsssCurrentChannel,
cd11IfPhyFhssMaxCompatibleRate,
cd11IfSuppDataRatesPrivacyValue,
cd11IfSuppDataRatesPrivacyEnabl,
cd11IfChanSelectEnable,
cd11IfClientNumberTxPowerLevels,
cd11IfClientTxPowerLevel1,
cd11IfClientTxPowerLevel2,
cd11IfClientTxPowerLevel3,
cd11IfClientTxPowerLevel4,
cd11IfClientTxPowerLevel5,
cd11IfClientTxPowerLevel6,
cd11IfClientTxPowerLevel7,
cd11IfClientTxPowerLevel8,
cd11IfClientCurrentTxPowerLevel
}STATUScurrentDESCRIPTION"Information to configure IEEE 802.11 protocol
Physical layer settings."::={ ciscoDot11IfMIBGroups 13}cd11IfPhyErpConfigGroup OBJECT-GROUPOBJECTS{
cd11IfErpOfdmNumberTxPowerLevels,
cd11IfErpOfdmTxPowerLevel1,
cd11IfErpOfdmTxPowerLevel2,
cd11IfErpOfdmTxPowerLevel3,
cd11IfErpOfdmTxPowerLevel4,
cd11IfErpOfdmTxPowerLevel5,
cd11IfErpOfdmTxPowerLevel6,
cd11IfErpOfdmTxPowerLevel7,
cd11IfErpOfdmTxPowerLevel8,
cd11IfErpOfdmCurrentTxPowerLevel
}STATUScurrentDESCRIPTION"Information to configure IEEE 802.11g protocol
Physical layer settings."::={ ciscoDot11IfMIBGroups 14}cd11IfVlanWepManageGroup OBJECT-GROUPOBJECTS{
cd11IfVlanEncryptionMode,
cd11IfVlanWepEncryptOptions,
cd11IfVlanWepEncryptMic,
cd11IfVlanWepEncryptKeyHashing
}STATUScurrentDESCRIPTION"Information to manage IEEE 802.11 protocol
interface VLAN WEP encryption settings."::={ ciscoDot11IfMIBGroups 15}cd11IfRogueApDetectedGroup OBJECT-GROUPOBJECTS{
cd11IfRogueApName
}STATUScurrentDESCRIPTION"Rogue AP detection information."::={ ciscoDot11IfMIBGroups 16}cd11IfStationManageGroup OBJECT-GROUPOBJECTS{
cd11IfStationRole,
cd11IfCiscoExtensionsEnable,
cd11IfPrivacyOptionMaxRate,
cd11IfEthernetEncapsulDefault,
cd11IfBridgeSpacing,
cd11IfVoipExtensionsEnable,
cd11IfAuxiliarySsidLength,
cd11IfAllowBroadcastSsidAssoc,
cd11IfDesiredBssAddr,
cd11IfAssignedSta,
cd11IfWorldMode,
cd11IfWorldModeCountry,
cd11IfMobileStationScanParent,
cd11IfPsPacketForwardEnable,
cd11IfMultipleBssidEnable,
cd11IfVlanPsPacketForwardEnable
}STATUScurrentDESCRIPTION"Information to manage IEEE 802.11 protocol
radio interface settings."::={ ciscoDot11IfMIBGroups 17}cd11IfNativeRadioManageGroup OBJECT-GROUPOBJECTS{
cd11IfPhyNativePowerUseStandard,
cd11IfRfFrequencyUnits,
cd11IfRfStartChannelNumber,
cd11IfRfEndChannelNumber,
cd11IfRfChannelSpacingNumber,
cd11IfRfStartChannelFrequency,
cd11IfRfFrequencySpacing,
cd11IfRfFrequencyBandType,
cd11IfMaxChannelSwitchTime,
cd11IfNativeNumberPowerLevels,
cd11IfNativeCurrentPowerLevel,
cd11IfNativePowerUnits,
cd11IfNativeTxPower
}STATUScurrentDESCRIPTION"Native parameters to manage IEEE 802.11
radio power and frequency bands."::={ ciscoDot11IfMIBGroups 18}cd11IfDataRatesSensitivityGroup OBJECT-GROUPOBJECTS{
cd11IfRatesSensRequiredSnr,
cd11IfRatesSensContention
}STATUScurrentDESCRIPTION
"Receive sensitivity specification for IEEE
802.11 radios."::={ ciscoDot11IfMIBGroups 19}cd11IfMonitorNotificationGroup NOTIFICATION-GROUPNOTIFICATIONS{
cd11IfStationSwitchOverNotif,
cd11IfRogueApDetectedNotif
}STATUScurrentDESCRIPTION"The notification group for this module."::={ ciscoDot11IfMIBGroups 20}cd11Ifdot11UpgradeStatusGroup OBJECT-GROUPOBJECTS{
cd11IfDot11UpgradeStatus
}STATUScurrentDESCRIPTION"This collection of objects provide information
about the status of upgrade of the dot11 radios
to operate in the new frequency set. "::={ ciscoDot11IfMIBGroups 21}cd11Ifdot11MobileStationScanGroup OBJECT-GROUPOBJECTS{
cd11IfMobileStationListIgnore,
cd11IfMobileStationScanChannel
}STATUScurrentDESCRIPTION"This collection of objects provide information
about the limited channel to scan and Ignore
List. "::={ ciscoDot11IfMIBGroups 22}END