-- *******************************************************************
-- CISCO-LWAPP-TC-MIB.my:  Cisco LWAPP MIBs Textual Conventions
-- March 2006, Prasanna Viswakumar
--
-- Copyright (c) 2006,2007 by Cisco Systems, Inc.
-- All rights reserved.
-- *******************************************************************

CISCO-LWAPP-TC-MIB DEFINITIONS ::= BEGIN
IMPORTS
        MODULE-IDENTITY,
        Unsigned32,
        Gauge32
                FROM SNMPv2-SMI
        TEXTUAL-CONVENTION
                FROM SNMPv2-TC
        ciscoMgmt
                FROM CISCO-SMI;

--********************************************************************
--*  MODULE IDENTITY
--********************************************************************

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: cs-wnbu-snmp@cisco.com"
        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      "200710300000Z"
        DESCRIPTION
                "Added new textual conventions CLApEthernetIfStatus and
                 CLApDot11RadioSubband."

        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 }

-- ********************************************************************
-- TEXTUAL CONVENTION
-- ********************************************************************

CLApIfType ::= TEXTUAL-CONVENTION
        STATUS  current
        DESCRIPTION
                "This textual convention defines the type of a
                wireless interface.

                The semantics are as follows:

                dot11bg - This value indicates that the radio
                interface follows 802.11b or 802.11g standard.

                dot11a  - This value indicates that the radio
                interface follows 802.11a standard.

                dot11abgn  - This value indicates that the radio
                interface is operating in XOR mode between 802.11a
                and 802.11bg.

                dot11ac  - This value indicates that the radio
                interface follows 802.11ac standard.

                uwb - This value indicates that this is a Ultra
                Wideband Interface. "
        SYNTAX  INTEGER {
                         dot11bg(1),
                         dot11a(2),
                         uwb(3),
                         dot11abgn(4),
                         dot11ac(5),
                         dot11b(6),
                         dot11g(7),
                         dot11n24(8),
                         dot11n5(9),
                         unknown(10)

                }

CLDot11Channel ::= TEXTUAL-CONVENTION
        STATUS  current
        DESCRIPTION
                "This textual convention defines the possible channel
                numbers in an 802.11 communication channel.  The
                802.11 radio interface of an Access Point operates
                in one of the possible channels at any point of time
                for wireless data communication with 802.11 based
                wireless clients. "
        SYNTAX  Unsigned32 ( 1..14 |
                        34 | 36 | 38 | 40 | 42 | 44 | 46 | 48 |
                        52 | 56 | 60 | 64 | 149 | 153 |
                        157 | 161 | 165 | 169 | 173)

CLDot11ClientStatus ::= TEXTUAL-CONVENTION
        STATUS  current
        DESCRIPTION
                "This textual convention defines the states 
                of an 802.11 client.

                The semantics are as follows:

                idle(1) - client is in idle mode.

                aaaPending(2) - client's authentication is pending. 
                Request has been sent to AAA server for authentication.

                authenticated(3) - client has been authenticated.

                associated(4) - client is associated, but not 
                authenticated. 

                powersave(5) - client is in powersave mode.

                disassociated(6) - client has dissociated and not in 
                any of the 802.11 networks managed by the controller.

                tobedeleted(7) - client is marked for deletion.

                probing(8) - state before association. The client 
                will be removed if it does not associate. 

                excluded(9) - client has been marked as excluded after fixed 
                number of authentication failures."

        SYNTAX  INTEGER { 
                        idle(1),
                        aaaPending(2),
                        authenticated(3),
                        associated(4),
                        powersave(5),
                        disassociated(6),
                        tobedeleted(7),
                        probing(8),
                        excluded(9)
                }


CLEventFrames ::= TEXTUAL-CONVENTION
        STATUS  current
        DESCRIPTION
                "This textual convention defines the possible
                802.11 management frame subtypes. 
                 
                cLAssocRequestFrm - 802.11 Association Request
                frame

                cLAssocResponseFrm - 802.11 Association Response
                frame

                cLReAssocRequestFrm - 802.11 Reassociation
                Request frame

                cLReAssocResponseFrm - 802.11 Reassociation
                Response frame

                cLProbeRequestFrm - 802.11 Probe Request frame

                cLProbeResponseFrm - 802.11 Probe Response 
                frame

                cLReserved1 - Reserved for future use

                cLReserved2 - Reserved for future use

                cLBeaconFrm - 802.11 Beacon frame

                cLAtimFrm - 802.11 Adhoc Traffic Indication
                Map frame

                cLDissociationFrm - 802.11 Dissociation
                frame

                cLAuthenticationFrm - 802.11 Authentication
                frame

                cLDeAuthenticationFrm - 802.11 Deauthentication
                frame "
        REFERENCE
                "Part 11 Wireless LAN Medium Access Control ( MAC )
                and Physical Layer ( PHY ) Specifications,
                Section 7.1.3.1.2 - Type and Subtype fields"
        SYNTAX     BITS {
                      cLAssocRequestFrm(0),
                      cLAssocResponseFrm(1),
                      cLReAssocRequestFrm(2),
                      cLReAssocResponseFrm(3),
                      cLProbeRequestFrm(4),
                      cLProbeResponseFrm(5),
                      cLReserved1(6),
                      cLReserved2(7),
                      cLBeaconFrm(8),
                      cLAtimFrm(9),
                      cLDissociationFrm(10),
                      cLAuthenticationFrm(11),
                      cLDeAuthenticationFrm(12)
        }

CLMfpEventType ::= TEXTUAL-CONVENTION 
        STATUS  current
        DESCRIPTION
                "The type of the MFP anomaly event. 

                invalidMic - The MFP Validation has identified
                that the MIC carried by a particular management
                frame is invalid.

                invalidSeq - The MFP validation has identified 
                that a particular management frame is carrying an
                invalid sequence number.  Note that an invalid 
                sequence number error can also be detected due to an
                incorrect timestamp in the MFP information element.
                The incorrect timestamp could possibly be due to the
                fact that the detecting AP's time window is not in
                synchronization with that of other APs in the
                MFP framework.

                noMic - The MFP validation has detected a management
                frame without the MFP information element.

                unexpectedMic - The MFP validation has detected a
                management frame as carrying a MIC value when
                protection is not enabled on the WLAN. 

                ccmpDecryptError - An MFP frame that was apparently 
                received from a client in an AES-CCMP encrypted 
                session was rejected by the Access Point because it 
                could not be decrypted.

                ccmpInvalidMhdrIe - An MFP frame that was apparently 
                received from a client in an AES-CCMP encrypted 
                session was rejected by the Access Point because it 
                contained an invalid MHDR information element, or the 
                MHDR information element was not present.

                ccmpInvalidReplayCtr - An MFP frame that was apparently 
                received from a client in an AES-CCMP encrypted session 
                was rejected by the Access Point because the replay 
                counter was not valid.

                tkipInvalidIcv - An MFP frame that was apparently 
                received from a client in a TKIP encrypted session was 
                rejected by the Access Point because it contained an 
                invalid Integrity Check Value.

                tkipInvalidMic - An MFP frame that was apparently 
                received from a client in a TKIP encrypted session was 
                rejected by the Access Point because the message 
                integrity check failed.

                tkipInvalidMhdrIe - An MFP frame that was apparently 
                received from a client in a TKIP encrypted session was 
                rejected by the Access Point because it contained an 
                invalid MHDR information element, or the MHDR 
                information element was not present.

                tkipInvalidReplayCtr - An MFP frame that was apparently 
                received from a client in a TKIP encrypted session was 
                rejected by the Access Point because it the replay 
                counter was not valid.

                bcastDisassociationFrameRcvd - The Access Point detected 
                a broadcast disassociation frame.  Broadcast 
                disassociation frames are rejected by CCXv5 compliant 
                devices.

                bcastDeauthenticationFrameRcvd - The Access Point 
                detected a broadcast deauthentication frame.  Broadcast 
                deauthentication frames are rejected by CCXv5 compliant 
                devices.

                bcastActionFrameRcvd - The Access Point detected a 
                broadcast action frame.  Broadcast action frames are 
                rejected by CCXv5 compliant devices.  "
        SYNTAX  INTEGER {
                        invalidMic(1),
                        invalidSeq(2),
                        noMic(3),
                        unexpectedMic(4),
                        ccmpNoEncryptError(16),
                        ccmpDecryptError(17),
                        ccmpInvalidReplayCtr(19),
                        tkipNoEncryptError(20),
                        tkipInvalidIcv(21),
                        tkipInvalidMic(22),
                        tkipInvalidMhdrIe(23),
                        tkipInvalidReplayCtr(24),
                        bcastDisassociationFrameRcvd(32),
                        bcastDeauthenticationFrameRcvd(33),
                        bcastActionFrameRcvd(34)
                }

CLMfpEventSource ::= TEXTUAL-CONVENTION 
        STATUS  current
        DESCRIPTION
                "The source of the MFP anomaly event. 

                infrastructureMfp - The source of the MFP event is 
                an infrastructure device that implements MFP.

                clientMfp - The source of the MFP event is a client 
                device that implements MFP."
        SYNTAX  INTEGER {
                        infrastructureMfp(1),
                        clientMfp(2)
                }

CLMfpVersion ::= TEXTUAL-CONVENTION
        STATUS  current
        DESCRIPTION
                "This textual convention lists the versions of
                the MFP protocol. "
        SYNTAX  INTEGER {
                        mfpv1(1),
                        mfpv2(2)
                }

CLTimeBaseStatus ::= TEXTUAL-CONVENTION
        STATUS  current
        DESCRIPTION
                "This textual convention is used to define the
                time synchronization of entities with their
                respective time bases.

                cTimeBaseInSync - This value indicates that the
                respective entity is in synchronization with
                its time base.

                cTimeBaseNotInSync - This value indicates that
                the respective entity is not in synchronization
                with its time base. "
        SYNTAX  INTEGER {
                        cTimeBaseInSync(1),
                        cTimeBaseNotInSync(2)
                }

CLSecEncryptType ::= TEXTUAL-CONVENTION
        STATUS  current
        DESCRIPTION
                "This textual convention defines the type of
                encryption to be applied to a WLAN.

                The semantics are as follows:

                tkip - This value indicates that TKIP encryption
                is configured for data protection.

                aes  - This value indicates that AES encryption
                is configured for data protection. "
        SYNTAX   BITS {
                        tkip(0),
                        aes(1)
                 }

CLSecKeyFormat ::= TEXTUAL-CONVENTION
        STATUS  current
        DESCRIPTION
                "This textual convention defines the type of
                the key configured for encryption. "
        SYNTAX  INTEGER {
                    default(1),
                    hex(2),
                    ascii(3)
                }

CLDot11RfParamMode ::= TEXTUAL-CONVENTION 
        STATUS  current
        DESCRIPTION
                "This textual convention defines how the RF
                parameters used to manage roaming are chosen
                by the controller.

                default - controller reverts back to the default
                values specified for the RF parameters.
                     
                auto - controller determines the RF parameters
                automatically without any input from the end user.
   
                custom - controller uses the RF parameters
                configured by the end user.  User is allowed to
                configure the parameters only if the mode is set
                to 'custom'. "
        SYNTAX  INTEGER {
                        default(1),
                        custom(2),
                        auto(3)
                }

CLTsmDot11CurrentPackets ::= TEXTUAL-CONVENTION
        STATUS  current
        DESCRIPTION
                "The number of packets received over a specified
                period of time. "
        SYNTAX  Gauge32


CLCdpAdvtVersionType ::= TEXTUAL-CONVENTION
    STATUS          current
    DESCRIPTION
            "This textual convention lists the versions of
            the CDP protocol in use in LWAPP APs and Controllers."
    SYNTAX          INTEGER 
    {
        cdpv1(1),
        cdpv2(2)
    }

CLDot11ChannelBandwidth ::= TEXTUAL-CONVENTION
        STATUS  current
        DESCRIPTION
                "This textual convention defines the channel
                bandwidth for 802.11n radio interfaces.

                The semantics are as follows:

                five - This value indicates that the bandwidth
                is 5 MHz.

                ten - This value indicates that the bandwidth
                is 10 MHz.

                twenty - This value indicates that the bandwidth
                is 20 MHz.

                aboveforty - This value indicates that the bandwidth
                is 40 MHz with the extension channel above the control
                channel.

                belowforty - This value indicates that the bandwidth
                is 40 MHz with the extension channel below the control
                channel."

        SYNTAX  INTEGER {
                   five(1),
                   ten(2),
                   twenty(3),
                   aboveforty(4),
                   belowforty(5)
                }


CLDot11Band ::= TEXTUAL-CONVENTION
        STATUS  current
        DESCRIPTION
                "This textual convention defines the 802.11 frequency
                band.

                The semantics are as follows:

                band2dot4 - This value indicates that the 
                2.4 GHz band is in use.

                band5 - This value indicates that the 
                5 GHz band is in use."

        SYNTAX  INTEGER {
                   band2dot4(1),
                   band5(2)
                }


CLApAssocFailureReason ::= TEXTUAL-CONVENTION
        STATUS     current
        DESCRIPTION
                "This textual convention defines the possible reasons 
                 for an AP's failure to get associated to a controller.

                 The semantics are as follows:  

                 unknown - The reason for the AP not being able to 
                 associate is unknown.

                 notSupported - The AP is not supported for management
                 by the controller." 

        SYNTAX     INTEGER {
                       unknown(1),
                       notSupported(2)
                   }

CLWebAuthType ::= TEXTUAL-CONVENTION
    STATUS	   current
    DESCRIPTION
	    "Represents either one of the following web auth types
		internalDefault(1) -
			The default login page will be
                presented to the client for authentication.
	 
		internalCustom(2)  -
			The administrator has created and
                uploaded a custom login page and it will be
                presented to the clients for authentication.

		external(3) -
			This value indicates that the login page
                will be served from the external web server.  Note
                that cLWAWebAuthType can be successfully set to this
                value when the cLWAExternalWebAuthURL object has been
                set to string with non-zero length."
	
    SYNTAX      INTEGER {
		    internalDefault(1),
                    internalCustom(2),
                    external(3)
                   }


CLClientPowerSaveMode ::= TEXTUAL-CONVENTION
        STATUS     current
        DESCRIPTION
                "This textual convention defines power management mode 
                of this client.
                The possible two modes are:
                active(1)    - this client is not in power-save mode 
                               and it is actively sending or receiving
                               data.
                powersave(2) - this client is in power-save mode and it
                               wakes up once a while to check for 
                               pending data." 

        SYNTAX   INTEGER {
                     active(1),
                     powersave(2)
                 }

CLApEthernetIfStatus ::= TEXTUAL-CONVENTION
        STATUS     current
        DESCRIPTION
                "This textual convention defines the status of an
                 Ethernet interface of an AP joined to a controller.

                 up(1) - The interface is operational and ready to transmit
                 packets.

                 down(2) - The interface is not operational."
        SYNTAX     INTEGER {
                       up(1),
                       down(2)
                   }

CLApDot11RadioSubband ::= TEXTUAL-CONVENTION
        STATUS     current
        DESCRIPTION
                "This textual convention defines the possible values 
                 of subbands a radio can support.
                 Currently, this information is applicable only to
                 A radios.
                 all(1) - This radio is a regular A radio that operates
                          in the full A band spectrum in the frequency
                          range 4940 Mhz - 5850 Mhz.
                 sub49(2) - This is an A radio that operates only in the
                            public safety (4.9 Ghz) sub band in the
                            frequency range 4940 Mhz - 5100 Mhz.
                 sub52(3) - This is an A radio that operates only in the
                            5.2 Ghz sub band in the frequency range
                            5250 Mhz - 5350 Mhz.
                 sub54(4) - This is an A radio that operates only in the
                            5.4 Ghz sub band in the frequency range
                            5470 Mhz - 5725 Mhz.
                 sub58(5) - This is an A radio that operates only in the
                            5.8 Ghz sub band in the frequency range
                            5725 Mhz - 5850 Mhz.
                 "
        SYNTAX     INTEGER {
                       all(1),
                       sub49(2),
                       sub52(3),
                       sub54(4),
                       sub58(5)
                   }

CLApDot11RadioRole ::= TEXTUAL-CONVENTION
        STATUS     current
        DESCRIPTION
                "This textual convention defines the possible values
                 of role a radio can support.
                 shutdown(0)         - This role states that the radio is shut.
                 updownlink(1)       - This radio will provide the both uplink and
                                       downlink access.
                 uplink(2)           - This role is applicable only for Ethernet ports.
                                       Defined here to maintain the types of role.
                 downlink(3)         - This radio will provide downlink access.
                                       downlink radio allows child APs to join.
                 access(4)           - This radio will provide the access to the clients.
                 uplinkaccess(5)     - This radio role states that the radio will
                                       provide the uplink access to the clients.
                 downlinkaccess(6)   - This radio role states that the radio will
                                       provide the downlink access to the clients.
                 updownlinkaccess(7) - This radio role states that the radio will
                                       provide both uplink and downlink access to the
                                       clients.
                 unknown(8)          - This radio does not have role.
                 "
        SYNTAX     INTEGER {
                       shutdown(0),
                       updownlink(1),
                       uplink(2),
                       downlink(3),
                       access(4),
                       uplinkaccess(5),
                       downlinkaccess(6),
                       updownlinkaccess(7),
                       unknown(8)

                   }

CcxServiceVersion ::= TEXTUAL-CONVENTION
        STATUS  current
        DESCRIPTION
                "This textual convention defines the service versions
		 supported by a CCX Next client. The supported services
		 include foundation, location, management and voice."

        SYNTAX  INTEGER {
                        none(1),
                        version1(2),
                        version2(3)
                }

CLApMode ::= TEXTUAL-CONVENTION
        STATUS  current
        DESCRIPTION
                "This textual convention defines the working 
                mode of the AP. "

        SYNTAX INTEGER  {
                        local(0),
                        monitor(1),
                        remote(2),
                        roguedetector(3),
                        sniffer(4),
                        bridge(5),
                        seConnect(6)
                    } 


END
