This module defines textual conventions used
throughout the Cisco enterprise MIBs
designed for implementation on Central
Controllers that terminate the Light Weight
Access Point Protocol from LWAPP Access
Points.
The relationship between CC and the LWAPP APs
can be depicted as follows:
+......+ +......+ +......+ +......+
+ + + + + + + +
+ CC + + CC + + CC + + CC +
+ + + + + + + +
+......+ +......+ +......+ +......+
.. . . .
.. . . .
. . . . .
. . . . .
. . . . .
. . . . .
+......+ +......+ +......+ +......+ +......+
+ + + + + + + + + +
+ AP + + AP + + AP + + AP + + AP +
+ + + + + + + + + +
+......+ +......+ +......+ +......+ +......+
. . . .
. . . . .
. . . . .
. . . . .
. . . . .
+......+ +......+ +......+ +......+ +......+
+ + + + + + + + + +
+ MN + + MN + + MN + + MN + + MN +
+ + + + + + + + + +
+......+ +......+ +......+ +......+ +......+
The LWAPP tunnel exists between the controller and
the APs. The MNs communicate with the APs through
the protocol defined by the 802.11 standard.
LWAPP APs, upon bootup, discover and join one of the
controllers and the controller pushes the configuration,
that includes the WLAN parameters, to the LWAPP APs.
The APs then encapsulate all the 802.11 frames from
wireless clients inside LWAPP frames and forward
the LWAPP frames to the controller.
GLOSSARY
Access Point ( AP )
An entity that contains an 802.11 medium access
control ( MAC ) and physical layer ( PHY ) interface
and provides access to the distribution services via
the wireless medium for associated clients.
LWAPP APs encapsulate all the 802.11 frames in
LWAPP frames and sends it to the controller to which
it is logically connected.
Advanced Encryption Standard ( AES )
In cryptography, the Advanced Encryption Standard
(AES), also known as Rijndael, is a block cipher
adopted as an encryption standard by the US
government. It is expected to be used worldwide
and analysed extensively, as was the case with its
predecessor, the Data Encryption Standard (DES).
AES was adopted by National Institute of Standards
and Technology (NIST) as US FIPS PUB 197 in
November 2001 after a 5-year standardisation
process.
Central Controller ( CC )
The central entity that terminates the LWAPP protocol
tunnel from the LWAPP APs. Throughout this MIB,
this entity is also referred to as 'controller'.
Light Weight Access Point Protocol ( LWAPP )
This is a generic protocol that defines the
communication between the Access Points and the
Central Controller.
Management Frame Protection ( MFP )
A proprietary mechanism devised to integrity protect
the otherwise unprotected management frames of the
802.11 protocol specification.
Message Integrity Check ( MIC )
A checksum computed on a sequence of bytes and made
known to the receiving party in a data communication,
to let the receiving party make sure the bytes
received were not compromised enroute.
Mobile Node ( MN )
A roaming 802.11 wireless device in a wireless
network associated with an access point.
Temporal Key Integrity Protocol ( TKIP )
A security protocol defined to enhance the limitations
of WEP. Message Integrity Check and per-packet keying
on all WEP-encrypted frames are two significant
enhancements provided by TKIP to WEP.
Wired Equivalent Privacy ( WEP )
A security method defined by 802.11. WEP uses a
symmetric key stream cipher called RC4 to encrypt the
data packets.
802.11n
802.11n builds upon previous 802.11 standards by
adding MIMO (multiple-input multiple-output). MIMO
uses multiple transmitter and receiver antennas to
allow for increased data throughput through spatial
multiplexing and increased range.
Control/Extension Channel
A single 802.11 channel is 20 MHz wide. 802.11n allows
the use of channels of width 40 MHz by combining two
20 MHz channels. The channels are known as the primary
or control channel and secondary or extension channel.
Both the channels are used for transmission
and reception of data.
REFERENCE
[1] Part 11 Wireless LAN Medium Access Control ( MAC )
and Physical Layer ( PHY ) Specifications.
[2] Draft-obara-capwap-lwapp-00.txt, IETF Light
Weight Access Point Protocol.
[3] Enhanced Wireless Consortium MAC Specification,
v1.24.
[4] Enhanced Wireless Consortium PHY Specification,
v1.27.
Parsed from file CISCO-LWAPP-TC-MIB.mib
Module: CISCO-LWAPP-TC-MIB
This module defines textual conventions used
throughout the Cisco enterprise MIBs
designed for implementation on Central
Controllers that terminate the Light Weight
Access Point Protocol from LWAPP Access
Points.
The relationship between CC and the LWAPP APs
can be depicted as follows:
+......+ +......+ +......+ +......+
+ + + + + + + +
+ CC + + CC + + CC + + CC +
+ + + + + + + +
+......+ +......+ +......+ +......+
.. . . .
.. . . .
. . . . .
. . . . .
. . . . .
. . . . .
+......+ +......+ +......+ +......+ +......+
+ + + + + + + + + +
+ AP + + AP + + AP + + AP + + AP +
+ + + + + + + + + +
+......+ +......+ +......+ +......+ +......+
. . . .
. . . . .
. . . . .
. . . . .
. . . . .
+......+ +......+ +......+ +......+ +......+
+ + + + + + + + + +
+ MN + + MN + + MN + + MN + + MN +
+ + + + + + + + + +
+......+ +......+ +......+ +......+ +......+
The LWAPP tunnel exists between the controller and
the APs. The MNs communicate with the APs through
the protocol defined by the 802.11 standard.
LWAPP APs, upon bootup, discover and join one of the
controllers and the controller pushes the configuration,
that includes the WLAN parameters, to the LWAPP APs.
The APs then encapsulate all the 802.11 frames from
wireless clients inside LWAPP frames and forward
the LWAPP frames to the controller.
GLOSSARY
Access Point ( AP )
An entity that contains an 802.11 medium access
control ( MAC ) and physical layer ( PHY ) interface
and provides access to the distribution services via
the wireless medium for associated clients.
LWAPP APs encapsulate all the 802.11 frames in
LWAPP frames and sends it to the controller to which
it is logically connected.
Advanced Encryption Standard ( AES )
In cryptography, the Advanced Encryption Standard
(AES), also known as Rijndael, is a block cipher
adopted as an encryption standard by the US
government. It is expected to be used worldwide
and analysed extensively, as was the case with its
predecessor, the Data Encryption Standard (DES).
AES was adopted by National Institute of Standards
and Technology (NIST) as US FIPS PUB 197 in
November 2001 after a 5-year standardisation
process.
Central Controller ( CC )
The central entity that terminates the LWAPP protocol
tunnel from the LWAPP APs. Throughout this MIB,
this entity is also referred to as 'controller'.
Light Weight Access Point Protocol ( LWAPP )
This is a generic protocol that defines the
communication between the Access Points and the
Central Controller.
Management Frame Protection ( MFP )
A proprietary mechanism devised to integrity protect
the otherwise unprotected management frames of the
802.11 protocol specification.
Message Integrity Check ( MIC )
A checksum computed on a sequence of bytes and made
known to the receiving party in a data communication,
to let the receiving party make sure the bytes
received were not compromised enroute.
Mobile Node ( MN )
A roaming 802.11 wireless device in a wireless
network associated with an access point.
Temporal Key Integrity Protocol ( TKIP )
A security protocol defined to enhance the limitations
of WEP. Message Integrity Check and per-packet keying
on all WEP-encrypted frames are two significant
enhancements provided by TKIP to WEP.
Wired Equivalent Privacy ( WEP )
A security method defined by 802.11. WEP uses a
symmetric key stream cipher called RC4 to encrypt the
data packets.
802.11n
802.11n builds upon previous 802.11 standards by
adding MIMO (multiple-input multiple-output). MIMO
uses multiple transmitter and receiver antennas to
allow for increased data throughput through spatial
multiplexing and increased range.
Control/Extension Channel
A single 802.11 channel is 20 MHz wide. 802.11n allows
the use of channels of width 40 MHz by combining two
20 MHz channels. The channels are known as the primary
or control channel and secondary or extension channel.
Both the channels are used for transmission
and reception of data.
REFERENCE
[1] Part 11 Wireless LAN Medium Access Control ( MAC )
and Physical Layer ( PHY ) Specifications.
[2] Draft-obara-capwap-lwapp-00.txt, IETF Light
Weight Access Point Protocol.
[3] Enhanced Wireless Consortium MAC Specification,
v1.24.
[4] Enhanced Wireless Consortium PHY Specification,
v1.27.
Parsed from file CISCO-LWAPP-TC-MIB.my.txt
Company: None
Module: CISCO-LWAPP-TC-MIB
This module defines textual conventions used
throughout the Cisco enterprise MIBs
designed for implementation on Central
Controllers that terminate the Light Weight
Access Point Protocol from LWAPP Access
Points.
The relationship between CC and the LWAPP APs
can be depicted as follows:
+......+ +......+ +......+ +......+
+ + + + + + + +
+ CC + + CC + + CC + + CC +
+ + + + + + + +
+......+ +......+ +......+ +......+
.. . . .
.. . . .
. . . . .
. . . . .
. . . . .
. . . . .
+......+ +......+ +......+ +......+ +......+
+ + + + + + + + + +
+ AP + + AP + + AP + + AP + + AP +
+ + + + + + + + + +
+......+ +......+ +......+ +......+ +......+
. . . .
. . . . .
. . . . .
. . . . .
. . . . .
+......+ +......+ +......+ +......+ +......+
+ + + + + + + + + +
+ MN + + MN + + MN + + MN + + MN +
+ + + + + + + + + +
+......+ +......+ +......+ +......+ +......+
The LWAPP tunnel exists between the controller and
the APs. The MNs communicate with the APs through
the protocol defined by the 802.11 standard.
LWAPP APs, upon bootup, discover and join one of the
controllers and the controller pushes the configuration,
that includes the WLAN parameters, to the LWAPP APs.
The APs then encapsulate all the 802.11 frames from
wireless clients inside LWAPP frames and forward
the LWAPP frames to the controller.
GLOSSARY
Access Point ( AP )
An entity that contains an 802.11 medium access
control ( MAC ) and physical layer ( PHY ) interface
and provides access to the distribution services via
the wireless medium for associated clients.
LWAPP APs encapsulate all the 802.11 frames in
LWAPP frames and sends it to the controller to which
it is logically connected.
Advanced Encryption Standard ( AES )
In cryptography, the Advanced Encryption Standard
(AES), also known as Rijndael, is a block cipher
adopted as an encryption standard by the US
government. It is expected to be used worldwide
and analysed extensively, as was the case with its
predecessor, the Data Encryption Standard (DES).
AES was adopted by National Institute of Standards
and Technology (NIST) as US FIPS PUB 197 in
November 2001 after a 5-year standardisation
process.
Central Controller ( CC )
The central entity that terminates the LWAPP protocol
tunnel from the LWAPP APs. Throughout this MIB,
this entity is also referred to as 'controller'.
Light Weight Access Point Protocol ( LWAPP )
This is a generic protocol that defines the
communication between the Access Points and the
Central Controller.
Management Frame Protection ( MFP )
A proprietary mechanism devised to integrity protect
the otherwise unprotected management frames of the
802.11 protocol specification.
Message Integrity Check ( MIC )
A checksum computed on a sequence of bytes and made
known to the receiving party in a data communication,
to let the receiving party make sure the bytes
received were not compromised enroute.
Mobile Node ( MN )
A roaming 802.11 wireless device in a wireless
network associated with an access point.
Temporal Key Integrity Protocol ( TKIP )
A security protocol defined to enhance the limitations
of WEP. Message Integrity Check and per-packet keying
on all WEP-encrypted frames are two significant
enhancements provided by TKIP to WEP.
Wired Equivalent Privacy ( WEP )
A security method defined by 802.11. WEP uses a
symmetric key stream cipher called RC4 to encrypt the
data packets.
802.11n
802.11n builds upon previous 802.11 standards by
adding MIMO (multiple-input multiple-output). MIMO
uses multiple transmitter and receiver antennas to
allow for increased data throughput through spatial
multiplexing and increased range.
Control/Extension Channel
A single 802.11 channel is 20 MHz wide. 802.11n allows
the use of channels of width 40 MHz by combining two
20 MHz channels. The channels are known as the primary
or control channel and secondary or extension channel.
Both the channels are used for transmission
and reception of data.
REFERENCE
[1] Part 11 Wireless LAN Medium Access Control ( MAC )
and Physical Layer ( PHY ) Specifications.
[2] Draft-obara-capwap-lwapp-00.txt, IETF Light
Weight Access Point Protocol.
[3] Enhanced Wireless Consortium MAC Specification,
v1.24.
[4] Enhanced Wireless Consortium PHY Specification,
v1.27.
ciscoLwappTextualConventions MODULE-IDENTITY LAST-UPDATED "200702050000Z" ORGANIZATION "Cisco Systems, Inc." CONTACT-INFO "Cisco Systems, Customer Service Postal: 170 West Tasman Drive San Jose, CA 95134 USA Tel: +1 800 553-NETS Email: [email protected]" DESCRIPTION "This module defines textual conventions used throughout the Cisco enterprise MIBs designed for implementation on Central Controllers that terminate the Light Weight Access Point Protocol from LWAPP Access Points. The relationship between CC and the LWAPP APs can be depicted as follows: +......+ +......+ +......+ +......+ + + + + + + + + + CC + + CC + + CC + + CC + + + + + + + + + +......+ +......+ +......+ +......+ .. . . . .. . . . . . . . . . . . . . . . . . . . . . . . +......+ +......+ +......+ +......+ +......+ + + + + + + + + + + + AP + + AP + + AP + + AP + + AP + + + + + + + + + + + +......+ +......+ +......+ +......+ +......+ . . . . . . . . . . . . . . . . . . . . . . . . +......+ +......+ +......+ +......+ +......+ + + + + + + + + + + + MN + + MN + + MN + + MN + + MN + + + + + + + + + + + +......+ +......+ +......+ +......+ +......+ The LWAPP tunnel exists between the controller and the APs. The MNs communicate with the APs through the protocol defined by the 802.11 standard. LWAPP APs, upon bootup, discover and join one of the controllers and the controller pushes the configuration, that includes the WLAN parameters, to the LWAPP APs. The APs then encapsulate all the 802.11 frames from wireless clients inside LWAPP frames and forward the LWAPP frames to the controller. GLOSSARY Access Point ( AP ) An entity that contains an 802.11 medium access control ( MAC ) and physical layer ( PHY ) interface and provides access to the distribution services via the wireless medium for associated clients. LWAPP APs encapsulate all the 802.11 frames in LWAPP frames and sends it to the controller to which it is logically connected. Advanced Encryption Standard ( AES ) In cryptography, the Advanced Encryption Standard (AES), also known as Rijndael, is a block cipher adopted as an encryption standard by the US government. It is expected to be used worldwide and analysed extensively, as was the case with its predecessor, the Data Encryption Standard (DES). AES was adopted by National Institute of Standards and Technology (NIST) as US FIPS PUB 197 in November 2001 after a 5-year standardisation process. Central Controller ( CC ) The central entity that terminates the LWAPP protocol tunnel from the LWAPP APs. Throughout this MIB, this entity is also referred to as 'controller'. Light Weight Access Point Protocol ( LWAPP ) This is a generic protocol that defines the communication between the Access Points and the Central Controller. Management Frame Protection ( MFP ) A proprietary mechanism devised to integrity protect the otherwise unprotected management frames of the 802.11 protocol specification. Message Integrity Check ( MIC ) A checksum computed on a sequence of bytes and made known to the receiving party in a data communication, to let the receiving party make sure the bytes received were not compromised enroute. Mobile Node ( MN ) A roaming 802.11 wireless device in a wireless network associated with an access point. Temporal Key Integrity Protocol ( TKIP ) A security protocol defined to enhance the limitations of WEP. Message Integrity Check and per-packet keying on all WEP-encrypted frames are two significant enhancements provided by TKIP to WEP. Wired Equivalent Privacy ( WEP ) A security method defined by 802.11. WEP uses a symmetric key stream cipher called RC4 to encrypt the data packets. 802.11n 802.11n builds upon previous 802.11 standards by adding MIMO (multiple-input multiple-output). MIMO uses multiple transmitter and receiver antennas to allow for increased data throughput through spatial multiplexing and increased range. Control/Extension Channel A single 802.11 channel is 20 MHz wide. 802.11n allows the use of channels of width 40 MHz by combining two 20 MHz channels. The channels are known as the primary or control channel and secondary or extension channel. Both the channels are used for transmission and reception of data. REFERENCE [1] Part 11 Wireless LAN Medium Access Control ( MAC ) and Physical Layer ( PHY ) Specifications. [2] Draft-obara-capwap-lwapp-00.txt, IETF Light Weight Access Point Protocol. [3] Enhanced Wireless Consortium MAC Specification, v1.24. [4] Enhanced Wireless Consortium PHY Specification, v1.27." REVISION "200702050000Z" DESCRIPTION "Added new textual conventions CLDot11ChannelBandwidth, CLDot11Band and CLApAssocFailureReason." REVISION "200610310000Z" DESCRIPTION "Added new textual conventions CLMfpEventSource, CLCdpAdvtVersionType and CLDot11ClientStatus." REVISION "200604130000Z" DESCRIPTION "Initial version of this MIB module." ::= { ciscoMgmt 514 }
ciscoLwappTextualConventions OBJECT IDENTIFIER ::= { ciscoMgmt 514 }
Vendor: Cisco
Module: CISCO-LWAPP-TC-MIB
[Automatically extracted from oidview.com]
ciscoLwappTextualConventions MODULE-IDENTITY LAST-UPDATED "200702050000Z" ORGANIZATION "Cisco Systems, Inc." CONTACT-INFO "Cisco Systems, Customer Service Postal: 170 West Tasman Drive San Jose, CA 95134 USA Tel: +1 800 553-NETS Email: [email protected]" DESCRIPTION "This module defines textual conventions used throughout the Cisco enterprise MIBs designed for implementation on Central Controllers that terminate the Light Weight Access Point Protocol from LWAPP Access Points. The relationship between CC and the LWAPP APs can be depicted as follows: +......+ +......+ +......+ +......+ + + + + + + + + + CC + + CC + + CC + + CC + + + + + + + + + +......+ +......+ +......+ +......+ .. . . . .. . . . . . . . . . . . . . . . . . . . . . . . +......+ +......+ +......+ +......+ +......+ + + + + + + + + + + + AP + + AP + + AP + + AP + + AP + + + + + + + + + + + +......+ +......+ +......+ +......+ +......+ . . . . . . . . . . . . . . . . . . . . . . . . +......+ +......+ +......+ +......+ +......+ + + + + + + + + + + + MN + + MN + + MN + + MN + + MN + + + + + + + + + + + +......+ +......+ +......+ +......+ +......+ The LWAPP tunnel exists between the controller and the APs. The MNs communicate with the APs through the protocol defined by the 802.11 standard. LWAPP APs, upon bootup, discover and join one of the controllers and the controller pushes the configuration, that includes the WLAN parameters, to the LWAPP APs. The APs then encapsulate all the 802.11 frames from wireless clients inside LWAPP frames and forward the LWAPP frames to the controller. GLOSSARY Access Point ( AP ) An entity that contains an 802.11 medium access control ( MAC ) and physical layer ( PHY ) interface and provides access to the distribution services via the wireless medium for associated clients. LWAPP APs encapsulate all the 802.11 frames in LWAPP frames and sends it to the controller to which it is logically connected. Advanced Encryption Standard ( AES ) In cryptography, the Advanced Encryption Standard (AES), also known as Rijndael, is a block cipher adopted as an encryption standard by the US government. It is expected to be used worldwide and analysed extensively, as was the case with its predecessor, the Data Encryption Standard (DES). AES was adopted by National Institute of Standards and Technology (NIST) as US FIPS PUB 197 in November 2001 after a 5-year standardisation process. Central Controller ( CC ) The central entity that terminates the LWAPP protocol tunnel from the LWAPP APs. Throughout this MIB, this entity is also referred to as 'controller'. Light Weight Access Point Protocol ( LWAPP ) This is a generic protocol that defines the communication between the Access Points and the Central Controller. Management Frame Protection ( MFP ) A proprietary mechanism devised to integrity protect the otherwise unprotected management frames of the 802.11 protocol specification. Message Integrity Check ( MIC ) A checksum computed on a sequence of bytes and made known to the receiving party in a data communication, to let the receiving party make sure the bytes received were not compromised enroute. Mobile Node ( MN ) A roaming 802.11 wireless device in a wireless network associated with an access point. Temporal Key Integrity Protocol ( TKIP ) A security protocol defined to enhance the limitations of WEP. Message Integrity Check and per-packet keying on all WEP-encrypted frames are two significant enhancements provided by TKIP to WEP. Wired Equivalent Privacy ( WEP ) A security method defined by 802.11. WEP uses a symmetric key stream cipher called RC4 to encrypt the data packets. 802.11n 802.11n builds upon previous 802.11 standards by adding MIMO (multiple-input multiple-output). MIMO uses multiple transmitter and receiver antennas to allow for increased data throughput through spatial multiplexing and increased range. Control/Extension Channel A single 802.11 channel is 20 MHz wide. 802.11n allows the use of channels of width 40 MHz by combining two 20 MHz channels. The channels are known as the primary or control channel and secondary or extension channel. Both the channels are used for transmission and reception of data. REFERENCE [1] Part 11 Wireless LAN Medium Access Control ( MAC ) and Physical Layer ( PHY ) Specifications. [2] Draft-obara-capwap-lwapp-00.txt, IETF Light Weight Access Point Protocol. [3] Enhanced Wireless Consortium MAC Specification, v1.24. [4] Enhanced Wireless Consortium PHY Specification, v1.27." REVISION "200702050000Z" DESCRIPTION "Added new textual conventions CLDot11ChannelBandwidth, CLDot11Band and CLApAssocFailureReason." REVISION "200610310000Z" DESCRIPTION "Added new textual conventions CLMfpEventSource, CLCdpAdvtVersionType and CLDot11ClientStatus." REVISION "200604130000Z" DESCRIPTION "Initial version of this MIB module." ::= { ciscoMgmt 514 }
ciscoLwappTextualConventions MODULE-IDENTITY LAST-UPDATED "201109130000Z" ORGANIZATION "Cisco Systems, Inc." CONTACT-INFO "Cisco Systems, Customer Service Postal: 170 West Tasman Drive San Jose, CA 95134 USA Tel: +1 800 553-NETS Email: [email protected]" DESCRIPTION "This module defines textual conventions used throughout the Cisco enterprise MIBs designed for implementation on Central Controllers that terminate the Light Weight Access Point Protocol from LWAPP Access Points. The relationship between CC and the LWAPP APs can be depicted as follows: +......+ +......+ +......+ +......+ + + + + + + + + + CC + + CC + + CC + + CC + + + + + + + + + +......+ +......+ +......+ +......+ .. . . . .. . . . . . . . . . . . . . . . . . . . . . . . +......+ +......+ +......+ +......+ +......+ + + + + + + + + + + + AP + + AP + + AP + + AP + + AP + + + + + + + + + + + +......+ +......+ +......+ +......+ +......+ . . . . . . . . . . . . . . . . . . . . . . . . +......+ +......+ +......+ +......+ +......+ + + + + + + + + + + + MN + + MN + + MN + + MN + + MN + + + + + + + + + + + +......+ +......+ +......+ +......+ +......+ The LWAPP tunnel exists between the controller and the APs. The MNs communicate with the APs through the protocol defined by the 802.11 standard. LWAPP APs, upon bootup, discover and join one of the controllers and the controller pushes the configuration, that includes the WLAN parameters, to the LWAPP APs. The APs then encapsulate all the 802.11 frames from wireless clients inside LWAPP frames and forward the LWAPP frames to the controller. GLOSSARY Access Point ( AP ) An entity that contains an 802.11 medium access control ( MAC ) and physical layer ( PHY ) interface and provides access to the distribution services via the wireless medium for associated clients. LWAPP APs encapsulate all the 802.11 frames in LWAPP frames and sends it to the controller to which it is logically connected. Advanced Encryption Standard ( AES ) In cryptography, the Advanced Encryption Standard (AES), also known as Rijndael, is a block cipher adopted as an encryption standard by the US government. It is expected to be used worldwide and analysed extensively, as was the case with its predecessor, the Data Encryption Standard (DES). AES was adopted by National Institute of Standards and Technology (NIST) as US FIPS PUB 197 in November 2001 after a 5-year standardisation process. Central Controller ( CC ) The central entity that terminates the LWAPP protocol tunnel from the LWAPP APs. Throughout this MIB, this entity is also referred to as 'controller'. Light Weight Access Point Protocol ( LWAPP ) This is a generic protocol that defines the communication between the Access Points and the Central Controller. Management Frame Protection ( MFP ) A proprietary mechanism devised to integrity protect the otherwise unprotected management frames of the 802.11 protocol specification. Message Integrity Check ( MIC ) A checksum computed on a sequence of bytes and made known to the receiving party in a data communication, to let the receiving party make sure the bytes received were not compromised enroute. Mobile Node ( MN ) A roaming 802.11 wireless device in a wireless network associated with an access point. Temporal Key Integrity Protocol ( TKIP ) A security protocol defined to enhance the limitations of WEP. Message Integrity Check and per-packet keying on all WEP-encrypted frames are two significant enhancements provided by TKIP to WEP. Wired Equivalent Privacy ( WEP ) A security method defined by 802.11. WEP uses a symmetric key stream cipher called RC4 to encrypt the data packets. 802.11n 802.11n builds upon previous 802.11 standards by adding MIMO (multiple-input multiple-output). MIMO uses multiple transmitter and receiver antennas to allow for increased data throughput through spatial multiplexing and increased range. Control/Extension Channel A single 802.11 channel is 20 MHz wide. 802.11n allows the use of channels of width 40 MHz by combining two 20 MHz channels. The channels are known as the primary or control channel and secondary or extension channel. Both the channels are used for transmission and reception of data. REFERENCE [1] Part 11 Wireless LAN Medium Access Control ( MAC ) and Physical Layer ( PHY ) Specifications. [2] Draft-obara-capwap-lwapp-00.txt, IETF Light Weight Access Point Protocol. [3] Enhanced Wireless Consortium MAC Specification, v1.24. [4] Enhanced Wireless Consortium PHY Specification, v1.27." REVISION "201109130000Z" DESCRIPTION "Added new textual conventions CcxServiceVersion" REVISION "201002230000Z" DESCRIPTION "Added new textual conventions CLApDot11RadioRole, CLClientPowerSaveMode,and CLApDot11RadioSubband." REVISION "200709110000Z" DESCRIPTION "Added new textual convention CLWebAuthType." REVISION "200702050000Z" DESCRIPTION "Added new textual conventions CLDot11ChannelBandwidth, CLDot11Band and CLApAssocFailureReason." REVISION "200610310000Z" DESCRIPTION "Added new textual conventions CLMfpEventSource, CLCdpAdvtVersionType and CLDot11ClientStatus." REVISION "200604130000Z" DESCRIPTION "Initial version of this MIB module." ::= { ciscoMgmt 514 }
To many brothers! Only 100 nearest brothers are shown.
| OID | Name | Sub children | Sub Nodes Total | Description |
|---|---|---|---|---|
| ... | ||||
| 1.3.6.1.4.1.9.9.466 | ciscoEthernetAccessMIB | 2 | 20 | The tables defined by this MIB module contain a collection of managed objects that are general in nature and apply to an edge dev… |
| 1.3.6.1.4.1.9.9.467 | ciscoCryptoAcceleratorMIB | 3 | 107 | The MIB module for monitoring the identity, status, activity and faults of crypto accelerator (CA) modules used in devices implem… |
| 1.3.6.1.4.1.9.9.468 | ciscoContextMappingMIB | 2 | 35 | A single SNMP agent sometimes needs to support multiple instances of the same MIB module, and does so through the use of multiple… |
| 1.3.6.1.4.1.9.9.470 | ciscoEnhancedSlbMIB | 3 | 106 | The MIB for managing Server Load Balancing Manager(s), and products supporting Server Load Balancing(SLB) features. This MIB exten… |
| 1.3.6.1.4.1.9.9.471 | ciscoFlexLinksMIB | 3 | 36 | This MIB module is for configuration and status query of Flex Links feature on the Cisco device. Flex Links are a pair of Layer 2… |
| 1.3.6.1.4.1.9.9.472 | ciscoModuleVirtualizationMIB | 3 | 35 | This MIB provides a way to create virtual contexts, and managing them. A virtual context is logical partition of a physical devi… |
| 1.3.6.1.4.1.9.9.473 | ciscoCcaMIB | 3 | 200 | The Cisco Contact Center Applications (CCCA) Management Information Base (MIB) module defines management instrumentation for appl… |
| 1.3.6.1.4.1.9.9.474 | ciscoFilterGroupMIB | 3 | 55 | The MIB module is for creating and configuring object groups to support packet filtering and access control on IP and other proto… |
| 1.3.6.1.4.1.9.9.479 | ciscoCableWidebandMIB | 3 | 77 | This is the MIB module for the support of Channel Bonding Protocol for the Cable Modem Termination System (CMTS). Wideband DOCSIS… |
| 1.3.6.1.4.1.9.9.480 | ciscoL4L7moduleResourceLimitMIB | 4 | 100 | The MIB module for managing resource classes and configuring limits(max/min) to different resources. The resource referenced in … |
| 1.3.6.1.4.1.9.9.482 | ciscoInterfaceTopNExtMIB | 3 | 16 | This MIB module is an extension to INTERFACETOPN-MIB. It provides additional management information for sorting device interfaces. |
| 1.3.6.1.4.1.9.9.483 | ciscoIpRanBackHaulMIB | 3 | 248 | This MIB provides information on the IP-RAN traffic from cell site to aggregation site in the following situations. In an GSM en… |
| 1.3.6.1.4.1.9.9.484 | ciscoNacNadMIB | 3 | 157 | This MIB module is for the configuration of a Network Access Device (NAD) on the Cisco Network Admission Control (NAC) system. End… |
| 1.3.6.1.4.1.9.9.485 | ciscoRttMonTCMIB | 0 | 0 | This MIB contains textual conventions used by CISCO-RTTMON-MIB, CISCO-RTTMON-RTP-MIB and CISCO-RTTMON-ICMP-MIB, but they are not … |
| 1.3.6.1.4.1.9.9.486 | ciscoRttMonIcmpMIB | 3 | 7 | An extension to the CISCO-RTTMON-MIB for ICMP operations. The ICMP Jitter operation provides capability to measure metrics such a… |
| 1.3.6.1.4.1.9.9.487 | ciscoRttMonRtpMIB | 3 | 8 | An extension to the CISCO-RTTMON-MIB for Cisco IP SLA RTP operation, Real-Time Transport Protocol(RFC 1889). This operation provi… |
| 1.3.6.1.4.1.9.9.488 | ciscoFirewallTc | 0 | 0 | This MIB module defines textual conventions that are commonly used in modeling management information pertaining to configuration… |
| 1.3.6.1.4.1.9.9.490 | ciscoNetintMIB | 3 | 11 | This MIB module is for Network Interrupt information on Cisco device. |
| 1.3.6.1.4.1.9.9.491 | ciscoUnifiedFirewallMIB | 3 | 235 | Overview of Cisco Firewall MIB ============================== This MIB Module models status and performance statistics pertaining … |
| 1.3.6.1.4.1.9.9.492 | ciscoCefMIB | 3 | 192 | Cisco Express Forwarding (CEF) describes a high speed switching mechanism that a router uses to forward packets from the inbound … |
| 1.3.6.1.4.1.9.9.493 | ciscoCefTextualConventions | 0 | 0 | ciscoCeftextualConventions |
| 1.3.6.1.4.1.9.9.494 | ciscoEntityRedunTcMIB | 0 | 0 | This module defines the textual conventions used within Cisco Entity Redundancy MIBs. |
| 1.3.6.1.4.1.9.9.495 | ciscoPsdClientMIB | 3 | 44 | This MIB module manages the client side functionality of the Persistent Storage Device(PSD). This MIB instrumentation is for conf… |
| 1.3.6.1.4.1.9.9.497 | cGgsnSAMIB | 3 | 247 | This MIB module manages the service-aware feature of Gateway GPRS Support Node (GGSN). This MIB is an enhancement of the CISCO-GG… |
| 1.3.6.1.4.1.9.9.498 | ciscoEntityRedunMIB | 3 | 93 | This management information module supports configuration, control and monitoring of redundancy protection for various kinds of c… |
| 1.3.6.1.4.1.9.9.500 | ciscoStackWiseMIB | 3 | 111 | This MIB module contain a collection of managed objects that apply to network devices supporting the Cisco StackWise(TM) technolo… |
| 1.3.6.1.4.1.9.9.504 | ciscoSwitchMulticastMIB | 3 | 108 | This MIB module defines management objects for the Multicast Switching features on Cisco Layer 2/3 devices. Definition of some of … |
| 1.3.6.1.4.1.9.9.505 | cpkiMIB | 3 | 44 | A networking device may provide several security services and protocols like SSL, SSH, IPSec/IKE etc. which need identities … |
| 1.3.6.1.4.1.9.9.507 | ciscoPolicyGroupMIB | 3 | 35 | The MIB module is for configuration of policy and policy group. A policy group can be described as a set of entities identified b… |
| 1.3.6.1.4.1.9.9.508 | ciscoSlbHealthMonMIB | 3 | 62 | An extension to the CISCO-SLB-EXT-MIB for SLB health monitoring probes. SLB: Server Load Balancing. Server load balancing provides… |
| 1.3.6.1.4.1.9.9.509 | ciscoWdsInfoMIB | 3 | 141 | This MIB is intended to be implemented on all Cisco network entities that provide Wireless Domain Services (WDS). The WDS provide… |
| 1.3.6.1.4.1.9.9.510 | ciscoErmMIB, ciscoVoiceLmrMIB | 3 | 176 | This MIB module provides management of voice tone signal as static injected tone for Land Mobile Radio The tone signal includes … |
| 1.3.6.1.4.1.9.9.511 | ciscoCbpTargetTCMIB | 0 | 0 | This MIB module defines Textual Conventions for representing targets which have class based policy mappings. A target can be any … |
| 1.3.6.1.4.1.9.9.512 | ciscoLwappWlanMIB | 3 | 249 | This MIB is intended to be implemented on all those devices operating as Central Controllers (CC) that terminate the Light Weigh… |
| 1.3.6.1.4.1.9.9.513 | ciscoLwappApMIB | 4 | 386 | This MIB is intended to be implemented on all those devices operating as Central Controllers (CC) that terminate the Light Weight… |
| 1.3.6.1.4.1.9.9.515 | ciscoLwappWebAuthMIB | 4 | 43 | This MIB is intended to be implemented on all those devices operating as Central controllers, that terminate the Light Weight Acc… |
| 1.3.6.1.4.1.9.9.516 | ciscoLwappLinkTestMIB | 3 | 57 | This MIB is intended to be implemented on all those devices operating as Central controllers, that terminate the Light Weight Acc… |
| 1.3.6.1.4.1.9.9.517 | ciscoLwappReapMIB | 3 | 63 | This MIB is intended to be implemented on all those devices operating as Central Controllers (CC) that terminate the Light Weight… |
| 1.3.6.1.4.1.9.9.518 | ciscoLwappMfpMIB | 4 | 64 | This MIB is intended to be implemented on all those devices operating as Central Controllers (CC) that terminate the Light Weight… |
| 1.3.6.1.4.1.9.9.519 | ciscoLwappIdsMIB | 3 | 28 | This MIB is intended to be implemented on all those devices operating as Central Controllers (CC) that terminate the Light Weight… |
| 1.3.6.1.4.1.9.9.520 | ciscoLwappCcxRmMIB | 3 | 45 | This MIB is intended to be implemented on all those devices operating as Central controllers, that terminate the Light Weight Acc… |
| 1.3.6.1.4.1.9.9.521 | ciscoLwappWlanSecurityMIB | 3 | 51 | This MIB is intended to be implemented on all those devices operating as Central controllers, that terminate the Light Weight Acc… |
| 1.3.6.1.4.1.9.9.522 | ciscoLwappDot11ClientCalibMIB | 3 | 50 | This MIB is intended to be implemented on all those devices operating as Central controllers, that terminate the Light Weight Acc… |
| 1.3.6.1.4.1.9.9.523 | ciscoLwappClRoamMIB | 3 | 61 | This MIB is intended to be implemented on all those devices operating as Central controllers, that terminate the Light Weight Acc… |
| 1.3.6.1.4.1.9.9.524 | ciscoLwappQosMIB | 3 | 119 | This MIB is intended to be implemented on all those devices operating as Central controllers, that terminate the Light Weight Acc… |
| 1.3.6.1.4.1.9.9.525 | ciscoLwappTsmMIB | 3 | 57 | This MIB is intended to be implemented on all those devices operating as Central controllers, that terminate the Light Weight Acc… |
| 1.3.6.1.4.1.9.9.529 | ciscoItpMsuRatesMIB | 3 | 61 | This MIB provides information used to manage the number of MTP3 MSUs transmitted and received per processor. Many of the higher … |
| 1.3.6.1.4.1.9.9.530 | ciscoNacTcMIB | 0 | 0 | This module defines the textual conventions for Cisco Network Admission Control(NAC) system. The Cisco Network Admission Control … |
| 1.3.6.1.4.1.9.9.532 | ciscoNATExtMIB | 3 | 13 | This MIB is an extension to the NAT-MIB. This MIB module includes objects for providing the NAT related statistics. Acronyms: NAT… |
| 1.3.6.1.4.1.9.9.533 | ciscoCbpTargetMIB | 3 | 25 | This MIB module defines the managed objects for representing targets which have class-based policy mappings. A target can be any… |
| 1.3.6.1.4.1.9.9.543 | ciscoLicenseMgmtMIB | 3 | 131 | The MIB module for managing licenses on the system. The licensing mechanism provides flexibility to enforce licensing for various… |
| 1.3.6.1.4.1.9.9.548 | ciscoErrDisableMIB | 3 | 43 | This MIB module provides the ability for a Network Management Station (NMS) to configure and monitor the error-disable feature vi… |
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