-- ***************************************************************** -- CISCO-IPSLA-TC-MIB.my: IP SLA Textual Conventions MIB file -- December 2006, Katherine Yang -- Copyright (c) 2006 by cisco Systems, Inc. -- All rights reserved. -- ***************************************************************** CISCO-IPSLA-TC-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY FROM SNMPv2-SMI TEXTUAL-CONVENTION FROM SNMPv2-TC ciscoMgmt FROM CISCO-SMI; ciscoIpSlaTCMIB MODULE-IDENTITY LAST-UPDATED "200703230000Z" ORGANIZATION "Cisco Systems, Inc." CONTACT-INFO "Cisco Systems, Inc. Customer Service Postal: 170 W Tasman Drive San Jose, CA 95134 Tel: +1 800 553 NETS Email: cs-ipsla@cisco.com" DESCRIPTION "This MIB contains textual conventions used by CISCO IPSLA MIBs. Acronyms: FEC: Forward Equivalence Class LPD: Label Path Discovery LSP: Label Switched Path MPLS: Multi Protocol Label Switching RTT: Round Trip Time SAA: Service Assurance Agent SLA: Service Level Agreement VPN: Virtual Private Network ICPIF: Calculated Planning Impairment Factor" REVISION "200703230000Z" DESCRIPTION "Initial version of this MIB module." ::= { ciscoMgmt 624 } -- Textual Conventions -- Operation type textual convention IpSlaOperType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "Specifies the type of IP SLA operation to be performed. icmpEcho(1) - The value 'icmpEcho' will cause the IP SLA application to perform a timed ICMP echo request/response operation. udpEcho(2) - The value 'udpEcho' will cause the IP SLA application to perform a timed udp packet send/receive operation. tcpConnect(3) - The value 'tcpConnect' will cause the IP SLA application to perform a timed TCP connect operation. udpJitter(4) - The value 'udpjitter' will cause the IP SLA application to perform delay variance analysis using UDP timestamp packets. icmpjitter(5) - The value 'icmpjitter' will cause the IP SLA application to perform delay variance analysis using ICMP timestamp packets." SYNTAX INTEGER { icmpEcho(1), udpEcho(2), tcpConnect(3), udpJitter(4), icmpJitter(5) } IpSlaCodecType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "Specifies the IP SLA codec type to be used with the UDP jitter operation. The following codec types are defined: notApplicable(0) - no CodecType is defined g711ulaw(1) - uses G.711 U Law 64000 bps g711alaw(2) - uses G.711 A Law 64000 bps g729a(3) - uses G.729 8000 bps" SYNTAX INTEGER { notApplicable(0), g711ulaw(1), g711alaw(2), g729a(3) } IpSlaReactVar ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The following are specific reaction variables for an IP SLA operation to react upon: rtt(1) - Round Trip Time jitterSDAvg(2) - Jitter average from source to destination jitterDSAvg(3) - Jitter average from destination to source packetLossSD(4) - Packet loss from source to destination packetLossDS(5) - Packet loss from destination to source mos(6) - Mean Opinion Score timeout(7) - Timeout of the operation connectionLoss(8) - Connection failed to the destination verifyError(9) - Data corruption occurs jitterAvg(10) - Jitter average in both directions icpif(11) - Calculated Planning Impairment Factor packetMIA(12) - Missed packets in operation packetLateArrival(13) - Packets arriving late packetOutOfSequence(14) - Packets arriving out of sequence maxOfPositiveSD(15) - Maximum positive jitter from source to destination maxOfNegativeSD(16) - Maximum negative jitter from source to destination maxOfPositiveDS(17) - Maximum positive jitter from destination to source maxOfNegativeDS(18) - Maximum negative jitter from destination to source. successivePacketLoss(19)- Successive packet dropped maxOfLatencyDS(20) - Maximum Latency from Destination to Source maxOfLatencySD(21) - Maximum Latency from Source to Destination latencyDSAvg(22) - Latency average from Destination to Source latencySDAvg(23) - Latency average from Source to Destination packetLoss(24) - Packets loss in both directions" SYNTAX INTEGER { rtt(1), jitterSDAvg(2), jitterDSAvg(3), packetLossSD(4), packetLossDS(5), mos(6), timeout(7), connectionLoss(8), verifyError(9), jitterAvg(10), icpif(11), packetMIA(12), packetLateArrival(13), packetOutOfSequence(14), maxOfPositiveSD(15), maxOfNegativeSD(16), maxOfPositiveDS(17), maxOfNegativeDS(18), successivePacketLoss(19), maxOfLatencyDS(20), maxOfLatencySD(21), latencyDSAvg(22), latencySDAvg(23), packetLoss(24) } END