Network Working Group K. Tesink
Request for Comments: 2558 Telcordia Technologies
Obsoletes: 1595 March 1999
Category: Standards Track
 Definitions of Managed Objects
 for the SONET/SDH Interface Type
Status of this Memo
 This document specifies an Internet standards track protocol for the
 Internet community, and requests discussion and suggestions for
 improvements. Please refer to the current edition of the "Internet
 Official Protocol Standards" (STD 1) for the standardization state
 and status of this protocol. Distribution of this memo is unlimited.
Copyright Notice
 Copyright (C) The Internet Society (1999). All Rights Reserved.
1. Abstract
 This memo defines a portion of the Management Information Base (MIB)
 for use with network management protocols in TCP/IP-based internets.
 In particular, it defines objects for managing Synchronous Optical
 Network/Synchronous Digital Hierarchy (SONET/SDH) interfaces. This
 document is a companion to the documents that define Managed Objects
 for the DS1/E1/DS2/E2 and DS3/E3 Interface Types [24][25].
 Textual Conventions used in this MIB are defined in [6] and [36].
 This memo replaces RFC 1595 [30]. Changes relative to RFC 1595 are
 summarized in the MIB module's REVISION clause.
Table of Contents
 1 Abstract .............................................. 1
 2 The SNMP Network Management Framework ................. 2
 3 Overview .............................................. 3
 3.1 Use of the ifTable .................................. 4
 3.2 Use of ifTable for SONET/SDH Medium/Section/Line
 Layer ............................................... 5
 3.3 Use of ifTable for SONET/SDH Paths .................. 6
 3.4 Use of ifTable for SONET/SDH VTs/VCs ................ 7
 3.5 SONET/SDH Terminology ............................... 8
 4 Object Definitions .................................... 16
 4.1 The SONET/SDH Medium Group .......................... 19
 4.2 The SONET/SDH Section Group ......................... 23
 4.2.1 The SONET/SDH Section Current Group ............... 23
 4.2.2 The SONET/SDH Section Interval Group .............. 26
 4.3 The SONET/SDH Line Group ............................ 28
 4.3.1 The SONET/SDH Line Current Group .................. 28
 4.3.2 The SONET/SDH Line Interval Group ................. 30
 4.4 The SONET/SDH Far End Line Group .................... 32
 4.4.1 The SONET/SDH Far End Line Current Group .......... 33
 4.4.2 The SONET/SDH Far End Line Interval Group ......... 34
 4.5 The SONET/SDH Path Group ............................ 37
 4.5.1 The SONET/SDH Path Current Group .................. 37
 4.5.2 The SONET/SDH Path Interval Group ................. 39
 4.6 The SONET/SDH Far End Path Group .................... 42
 4.6.1 The SONET/SDH Far End Path Current Group .......... 42
 4.6.2 The SONET/SDH Far End Path Interval Group ......... 44
 4.7 The SONET/SDH Virtual Tributary Group ............... 46
 4.7.1 The SONET/SDH VT Current Group .................... 46
 4.7.2 The SONET/SDH VT Interval Group ................... 49
 4.8 The SONET/SDH Far End VT Group ...................... 51
 4.8.1 The SONET/SDH Far End VT Current Group ............ 51
 4.8.2 The SONET/SDH Far End VT Interval Group ........... 53
 4.9 Conformance Information ............................. 55
 4.10 Compliance Statements .............................. 56
 5 Acknowledgments ....................................... 65
 6 Security Considerations ............................... 65
 7 References ............................................ 66
 8 Author's Address ...................................... 69
 9 Intellectual Property ................................. 69
 Appendix A .............................................. 70
 Appendix B .............................................. 72
 Full Copyright Statement ................................ 74
2. The SNMP Network Management Framework
 The SNMP Management Framework presently consists of five major
 components:
 0 An overall architecture, described in RFC 2271 [1].
 0 Mechanisms for describing and naming objects and events for the
 purpose of management. The first version of this Structure of
 Management Information (SMI) is called SMIv1 and described in
 STD 16, RFC 1155 [2], STD 16, RFC 1212 [3] and RFC 1215 [4].
 The second version, called SMIv2, is described in RFC 1902 [5],
 RFC 1903 [6] and RFC 1904 [7].
 0 Message protocols for transferring management information. The
 first version of the SNMP message protocol is called SNMPv1 and
 described in STD 15, RFC 1157 [8]. A second version of the SNMP
 message protocol, which is not an Internet standards track
 protocol, is called SNMPv2c and described in RFC 1901 [9] and
 RFC 1906 [10]. The third version of the message protocol is
 called SNMPv3 and described in RFC 1906 [10], RFC 2272 [11] and
 RFC 2274 [12].
 0 Protocol operations for accessing management information. The
 first set of protocol operations and associated PDU formats is
 described in STD 15, RFC 1157 [8]. A second set of protocol
 operations and associated PDU formats is described in RFC 1905
 [13].
 0 A set of fundamental applications described in RFC 2273 [14] and
 the view-based access control mechanism described in RFC 2275
 [15].
 Managed objects are accessed via a virtual information store, termed
 the Management Information Base or MIB. Objects in the MIB are
 defined using the mechanisms defined in the SMI.
 This memo specifies a MIB module that is compliant to the SMIv2. A
 MIB conforming to the SMIv1 can be produced through the appropriate
 translations. The resulting translated MIB must be semantically
 equivalent, except where objects or events are omitted because no
 translation is possible (e.g., use of Counter64). Some machine
 readable information in SMIv2 will be converted into textual
 descriptions in SMIv1 during the translation process. However, this
 loss of machine readable information is not considered to change the
 semantics of the MIB.
3. Overview
 These objects are used when the particular media being used to
 realize an interface is a SONET/SDH interface. At present, this
 applies to these values of the ifType variable in the Internet-
 standard MIB:
 sonet (39), sonetPath (50), sonetVT (51)
 The definitions contained herein are based on the SONET/SDH
 specifications in ANSI T1.105 and T1.106-1988 [19][20][21] and CCITT
 G.707, 708, 709, and G.783 [26][27][28][29].
3.1. Use of the ifTable
 This section specifies how the MIB II interfaces group, as defined in
 [23], is used for SONET/SDH interfaces. The SONET/SDH layers support
 several multiplexing possibilities.
 For example in SONET, an Synchronous Transport Signal 3 (STS-3) has 3
 SONET Paths, and a STS-3c has 1 SONET Path. Another example could be
 a STS-12 having 4 SONET STS-3c Paths. Similarly, a SONET Synchronous
 Payload Envelope (SPE) can carry many Virtual Tributaries (VTs), for
 example, one SONET SPE can carry 28 VT1.5s. It is important to note
 that an SPE and a VT in SONET is collectively referred to as a
 Virtual Container (VC) in SDH. Also, an STS is called Synchronous
 Transport Module (STM) in SDH.
 Not all SONET/SDH equipment terminates all SONET/SDH layers. For
 example, a SONET/SDH STE regenerator terminates SONET/SDH Sections
 only, and is transparent for all layers above that. SONET/SDH Add-
 Drop multiplexers and Digital Cross Connect Systems terminate
 SONET/SDH Lines. SONET/SDH Terminal Multiplexers may also terminate
 SONET/SDH Paths and VTs/VCs.
 MIB II [16], as extended by [23], accommodates these cases by
 appropriate use of the MIB II system group, and the interfaces group.
 The system group can name and describe the type of managed resource.
 The interfaces group defines which SONET/SDH layers apply, how these
 layers are configured and multiplexed. This is achieved by proper
 representation of SONET/SDH Layers by ifEntries as defined in [23],
 as follows:
 _____________________________
 | | | | >
 | | | | |
 | VT 1 |..........|VT K| > K ifEntries
 | | | | |
 |_____________|__________|____| >
 | | | | >
 | | | | |
 | Path 1 |......|Path L| > L ifEntries
 | | | | |
 |_______________|______|______| >
 | | >
 | | |
 | Line | |
 | | |
 |_____________________________| |
 | | |
 | | |
 | Section Layer | > 1 ifEntry
 | | |
 |_____________________________| |
 | | |
 | | |
 | Physical Medium Layer | |
 | | |
 |_____________________________| >
 Use of ifTable for a SONET/SDH port
 The exact configuration and multiplexing of the layers is maintained
 in the ifStackTable [23].
3.2. Use of ifTable for SONET/SDH Medium/Section/Line Layer
 Only the ifGeneralInformationGroup needs to be supported.
 ifTable Object Use for combined SONET/SDH
 Medium/Section/Line Layer
 ======================================================================
 ifIndex Interface index.
 ifDescr SONET/SDH Medium/Section/Line
 ifType sonet(39)
 ifSpeed Speed of line rate for SONET/SDH,
 (e.g., 155520000 bps).
 ifPhysAddress The value of the Circuit Identifier.
 If no Circuit Identifier has been assigned
 this object should have an octet string with
 zero length.
 ifAdminStatus Supports read-only access.
 The desired administrative status of the
 interface.
 ifOperStatus The value testing(3) is not used.
 This object assumes the value down(2),
 if the objects sonetSectionCurrentStatus
 and sonetLineCurrentStatus have
 any other value than sonetSectionNoDefect(1)
 and sonetLineNoDefect(1), respectively.
 ifLastChange sysUpTime at the last change in ifOperStatus.
 ifName Textual name of the interface or an OCTET STRING
 of zero length.
 ifLinkUpDownTrapEnable Default value is enabled(1).
 Just read-only access may be supported.
 ifHighSpeed Speed of line in Mega-bits per second
 (e.g., 155 Mbps)
 ifConnectorPresent Set to true(1).
 ifAlias The (non-volatile) alias name for this interface
 as assigned by the network manager.
3.3. Use of ifTable for SONET/SDH Paths
 Only the ifGeneralInformationGroup needs to be supported.
 ifTable Object Use for SONET/SDH Paths
 =========================================
 ifIndex Interface index.
 ifDescr SONET/SDH Path
 ifType sonetPath(50)
 ifSpeed set to speed of SONET/SDH path
 (e.g., an STS-1 path has a
 rate of 50112000 bps.)
 ifPhysAddress Circuit Identifier or OCTET STRING of zero length.
 ifAdminStatus Supports read-only access.
 The desired administrative status of the
 interface.
 ifOperStatus This object assumes the value down(2),
 if the object sonetPathCurrentStatus has
 any other value than sonetPathNoDefect(1).
 ifLastChange sysUpTime at the last change in ifOperStatus.
 ifName Textual name of the interface or an OCTET STRING
 of zero length.
 ifLinkUpDownTrapEnable Default value is disabled(2).
 Just read-only access may be supported.
 ifHighSpeed Set to rate of SONET/SDH path
 in Mega-bits per second.
 ifConnectorPresent Set to false(2).
 ifAlias The (non-volatile) alias name for this interface
 as assigned by the network manager.
3.4. Use of ifTable for SONET/SDH VTs/VCs
 Only the ifGeneralInformationGroup needs to be supported.
 ifTable Object Use for SONET/SDH VTs/VCs
 ===========================================
 ifIndex Interface index.
 ifDescr SONET/SDH VT/VC
 ifType sonetVT(51)
 ifSpeed Set to speed of VT/VC
 (e.g., a VT1.5 has a rate of
 1728000 bps.)
 ifPhysAddress Circuit Identifier or OCTET STRING of zero length.
 ifAdminStatus Supports read-only access.
 The desired administrative status of the
 interface.
 ifOperStatus This object assumes the value down(2),
 if the object sonetVTCurrentStatus has
 any other value than sonetVTNoDefect(1).
 ifLastChange sysUpTime at the last change in ifOperStatus.
 ifName Textual name of the interface or an OCTET STRING
 of zero length.
 ifLinkUpDownTrapEnable Default value is disabled(2).
 Just read-only access may be supported.
 ifHighSpeed Set to rate of VT in Mega-bits per second.
 ifConnectorPresent Set to false(2).
 ifAlias The (non-volatile) alias name for this interface
 as assigned by the network manager.
3.5. SONET/SDH Terminology
 The terminology used in this document to describe error conditions on
 a SONET circuit as monitored by a SONET system are from the T1.231
 [22][31][35]. The terminology used in this document to describe
 error conditions on a SDH circuit as monitored by a SDH system are
 from the CCITT G.783 [29]. Only the SONET Performance Monitoring
 terminology is defined in this document. The definitions for SDH
 Performance Monitoring terms are similar but not identical, and they
 can be found in [29]. If the definition in this document does not
 match the definition in the T1.231 document, the implementer should
 follow the definition described in this document. In some cases
 other or additional references are used as compared with the ones
 cited above. This will be indicated in the text.
 Section Loss Of Frame Failure (Out of Frame Event, Severely
 Errored Frame Defect)
 An Out of Frame (OOF) event (or Severely Errored Frame defect)
 is the occurrence of four contiguous errored frame alignment
 words. A frame alignment word occupies the A1 and A2 bytes of
 an STS frame, and is defined in T1.105. The SEF defect is
 terminated when two contiguous error-free frame words are
 detected. Any implementation of the frame recovery circuitry
 which achieves realignment following an OOF within the 250
 microsecond (two frames) interval implied by this definition is
 acceptable.
 A Loss of Frame (LOF) defect is declared when an OOF/SEF defect
 persists for a period of 3 milliseconds. The LOF defect is
 terminated when the incoming signal remains continuously in-
 frame for a period of 1 ms to 3 ms.
 A LOF failure is declared when the LOF defect persists for a
 period of 2.5 +/- 0.5 seconds, except when an LOS defect or
 failure is present. The LOF failure is cleared when the LOS
 failure is declared, or when the LOF defect is absent for 10 +/-
 0.5 seconds.
 Loss of Signal
 The Loss of Signal (LOS) defect is declared when no transitions
 are detected on the incoming signal (before descrambling). The
 LOS defect is detected upon observing 2.3 to 100 microseconds
 of no transitions. The LOS defect is cleared after a 125
 microsecond interval (one frame) during which no LOS defect is
 detected.
 The LOS failure is declared when the LOS defect persists for a
 period of 2.5 +/- 0.5 seconds, or if LOS defect is present when
 the criteria for LOF failure declaration have been met. The LOS
 failure is cleared when the LOS defect is absent for a period of
 10 +/- 0.5 seconds. Declaration of LOS failure clears any
 existing LOF failure. Clearing the LOS failure allows immediate
 declaration of the LOF failure if conditions warrant.
 STS-Path Loss of Pointer
 A Loss of Pointer (LOP) defect is declared when either a valid
 pointer is not detected in eight consecutive frames, or when
 eight consecutive frames are detected with the New Data Flag
 (NDF) set to "1001" without a valid concatenation indicator (see
 ANSI T1.105). A LOP defect is terminated when either a valid
 pointer with a normal NDF set to "0110", or a valid
 concatenation indicator is detected for three contiguous frames.
 Incoming STS-Path AIS shall not result in the declaration of a
 LOP defect.
 An STS-Path LOP failure is declared when the STS-Path LOP defect
 persists for a period of 2.5 +/- 0.5 seconds. A STS-Path LOP
 failure is cleared when the STS-Path LOP defect is absent for 10
 +/- 0.5 seconds.
 VT Loss of Pointer
 A VT LOP defect is declared when either a valid pointer is not
 detected in eight consecutive VT superframes, or when eight
 consecutive VT superframes are detected with the NDF set to
 "1001" without a valid concatenation indicator. A VT LOP defect
 is terminated when either a valid pointer with a normal NDF set
 to "0110", or a valid concatenation indicator is detected for
 three contiguous VT superframes. Incoming VT-Path AIS shall not
 result in declaring a VT LOP defect.
 A VT LOP failure is declared when the VT LOP defect persists for
 2.5 +/- 0.5 seconds. A VT LOP failure is cleared when the VT
 LOP defect is absent for 10 +/- 0.5 seconds.
 Line Alarm Indication Signal
 A Line Alarm Indication Signal (L-AIS) is defined in ANSI
 T1.105. The following criteria are specific to the L-AIS
 defect:
 -- Line AIS defect is detected as a "111" pattern in bits 6, 7,
 and 8 of the K2 byte in five consecutive frames.
 -- Line AIS defect is terminated when bits 6, 7, and 8 of the
 K2 byte do not contain the code "111" for five consecutive
 frames.
 A Line AIS failure is declared when the Line AIS defect persists
 for a period of 20.5 +/- 0.5 seconds. A Line AIS failure is
 cleared when the Line AIS defect is absent for 10 +/- 0.5
 seconds.
 STS-Path Alarm Indication Signal
 The STS-Path Alarm Indication Signal (AIS) is defined in ANSI
 T1.105 as all ones in bytes H1, H2, and H3 as well as all ones
 in the entire STS SPE. The following criteria are specific to
 the STS-Path AIS defect:
 -- STS-Path AIS defect is detected as all ones in bytes H1 and
 H2 in three contiguous frames.
 -- The STS-Path AIS defect is terminated when a valid STS
 Pointer is detected with the NDF set to "1001" (inverted) for
 one frame, or "0110" (normal) for three contiguous frames.
 An STS-Path AIS failure is declared when the STS-Path AIS defect
 persists for 2.5 +/- 0.5 seconds. An STS-Path AIS failure is
 cleared when the STS-Path AIS defect is absent for 10 +/- 0.5
 seconds.
 VT-Path Alarm Indication Signal
 The VT-Path Alarm Indication Signal (AIS) is only applicable for
 VTs in the floating mode of operation. VT-Path AIS is used to
 alert the downstream VT Path Terminating Entity (PTE) of an
 upstream failure. Upon detection of a failure, Line AIS, or
 STS-Path AIS, an STS PTE will generate downstream VT-Path AIS if
 the STS Synchronous Payload Envelope (SPE) is carrying floating
 VTs. VT-Path AIS is specified in ANSI T1.105 as all ones in
 bytes V1, V2, V3, and V4, as well as all ones in the entire VT
 SPE. The following criteria are specific to VT-Path AIS defect:
 -- VT-Path AIS defect is detected by a VT PTE as all ones in
 bytes V1 and V2 in three contiguous VT superframes.
 -- VT-Path AIS defect is terminated when valid VT pointer with
 a valid VT size is detected with the NDF set to "1001"
 (inverted) for one VT superframe, or "0110" (normal) for three
 contiguous VT superframes are detected.
 A VT-Path AIS failure is declared when the VT-Path AIS defect
 persists for 2.5 +/- 0.5 seconds. A VT-Path AIS failure is
 cleared when the VT-Path AIS defect is absent for 10 +/- 0.5
 seconds.
 Line Remote Defect Indication
 Line Remote Defect Indication (RDI) (aka Line FERF) signal is
 the occurrence of a "110" pattern in bit positions 6, 7, and 8
 of the K2 byte in STS-1 #1 of the STS-N signal. Line RDI is
 defined in ANSI T1.105. The following criteria are specific to
 Line RDI defect:
 -- Line RDI defect is a "110" code in bits 6, 7, and 8 of the
 K2 byte of in STS-1 #1 in x consecutive frames, where x = 5
 [31][35] or 10 [35].
 -- Line RDI defect is terminated when any code other than "110"
 is detected in bits 6, 7, and 8 of the K2 byte in x consecutive
 frames, where x = 5 [31][35] or 10 [35].
 A Line Remote Failure Indication (RFI) failure is declared when
 the incoming Line RDI defects lasts for 2.5 +/- 0.5 seconds.
 The Line RFI failure is cleared when no Line RDI defects are
 detected for 10 +/- 0.5 seconds.
 STS-Path Remote Defect Indication
 STS-Path RDI (aka STS-Path FERF) signal shall be generated
 within 100 milliseconds by the STS PTE upon detection of an AIS
 or LOP defect. Transmission of the STS-Path RDI signal shall
 cease within 100 milliseconds when the STS PTE no longer detects
 STS-Path AIS or STS-Path LOP defect. The STS-Path RDI shall
 accurately report the presence or absence of STS-Path AIS or
 STS-Path LOP defects. STS-Path RDI defect is defined in ANSI
 T1.105. The following requirements are specific to the STS-Path
 RDI defect:
 -- STS-Path RDI is detected by all STS PTEs. STS-Path RDI is
 detected by the upstream STS PTE as a "1" in bit five of the
 Path Status byte (G1) for x consecutive frames, where x = 5 [31]
 or 10 [35].
 -- Removal of STS-Path Remote Defect Indication is detected by
 a "0" in bit 5 of the G1 byte in x consecutive frames, where x =
 5 [31] or 10 [35].
 An STS-Path Remote Failure Indication (RFI) failure is declared
 when the incoming STS-Path RDI defects lasts for 2.5 +/- 0.5
 seconds. The STS-Path RFI failure is cleared when no STS-Path
 RDI defects are detected for 10 +/- 0.5 seconds.
 VT-Path Remote Defect Indication
 VT Path RDI (aka VT Path FERF) signal shall be generated within
 100 milliseconds by the VT PTE upon detection of a VT-Path AIS
 or LOP defect. Transmission of the VT-Path RDI signal shall
 cease within 100 milliseconds when the VT PTE no longer detects
 VT-Path AIS or VT-Path LOP defect. The VT-Path RDI shall
 accurately report the presence or absence of VT-Path AIS or VT-
 Path LOP defects. VT-Path RDI defect is defined in ANSI T1.105.
 The following requirements are specific to VT-Path RDI defect:
 -- VT-Path RDI defect is the occurrence of a "1" in bit 4 of
 the VT-Path Overhead byte (V5) in x consecutive frames, where x
 = 5 [31] or 10 [35].
 -- VT-Path RDI defect is terminated when a "0" is detected in
 bit 4 of the VT-Path Overhead byte (V5) for x consecutive
 frames, where x = 5 [31] or 10 [35].
 A VT-Path Remote Failure Indication (RFI) (derived) failure is
 declared when the incoming VT-Path RDI defects lasts for 2.5 +/-
 0.5 seconds. The VT-Path RFI failure is cleared when no VT-Path
 RDI defects are detected for 10 +/- 0.5 seconds.
 VT-Path Remote Failure Indication
 The VT-Path RFI signal is only required for the case of byte
 synch mapped DS1s where the DS1 frame bit is not mapped. The
 VT-Path RFI is specified in ANSI T1.105, where it is currently
 called VT path yellow. When provided, the VT-Path RFI signal is
 used to indicate the occurrence of far-end failures. When the
 VT-Path RFI is not provided, far-end failures are derived from
 local timing of the VT-Path RDI defect. The VT-Path RFI failure
 is declared within 5 ms of detecting the incoming VT-Path RFI
 Signal. The VT-Path Remote Failure Indication (RFI) failure is
 cleared within 50 ms of detecting the removal of the incoming
 VT-Path RFI signal.
 Coding Violation
 Coding Violations (CV) are Bit Interleaved Parity (BIP) errors
 that are detected in the incoming signal. CV counters are
 incremented for each BIP error detected. That is, each BIP-8
 can detect up to eight errors per STS-N frame, with each error
 incrementing the CV counter. Section CVs shall be collected
 using the BIP-8 in the B1 byte located in the Section Overhead
 of STS-1 #1. Line CVs shall be collected using the BIP-8s in B2
 bytes located in the Line Overhead of each STS-1 (since all CVs
 on an STS-N line are counted together, this is equivalent to
 counting each error in the BIP-8*N contained in the B2 bytes of
 the STS-N Line Overhead). Thus, on an STS-N signal, up to 8 x N
 CVs may occur in each frame. Path CVs shall be collected using
 the BIP-8 in the B3 byte of the STS-Path Overhead of the STS
 SPE. VT CVs shall be collected using the BIP-2 in the V5
 overhead byte of the floating VT.
 Errored Seconds
 At each layer, an Errored Second (ES) is a second with one or
 more Coding Violations at that layer OR one or more incoming
 defects (e.g., SEF, LOS, AIS, LOP) at that layer has occurred.
 Severely Errored Seconds
 According to [22][31][32][34][35] at each layer, an Severely
 Errored Second (SES) is a second with x or more CVs at that
 layer, or a second during which at least one or more incoming
 defects at that layer has occurred. The values of x in
 RFC1595[30] were based on [22] and [32] (see Appendix B). These
 values have subsequently been relaxed in [31][34][35]. In
 addition, according to G.826 [33] SESs are measured as a
 percentage of errored blocks.
 To deal with these sets of definitions this memo defines an
 object sonetSESThresholdSet that determines the correct
 interpretation of SES. For backward compatibility, if this
 object is not implemented the interpretation of Appendix B shall
 apply. Otherwise, a more recent interpretation is suggested.
 An agent is not required to support all sets of definitions.
 Note that if a manager changes the value of this object all SES
 statistics collected prior to this change shall be invalidated.
 Severely Errored Framing Seconds
 A Severely Errored Framing Second (SEFS) is a second containing
 one or more SEF events. This counter is only counted at the
 Section Layer.
 Unavailable Seconds
 At the Line, Path, and VT layers, an unavailable second is
 calculated by counting the number of seconds that the interface
 is unavailable. At each layer, the SONET/SDH interface is said
 to be unavailable at the onset of 10 contiguous SESs. The 10
 SESs are included in unavailable time. Once unavailable, the
 SONET/SDH interface becomes available at the onset of 10
 contiguous seconds with no SESs. The 10 seconds with no SESs
 are excluded from unavailable time. With respect to the
 SONET/SDH error counts at each layer, all counters at that layer
 are incremented while the SONET/SDH interface is deemed
 available at that layer. While the interface is deemed
 unavailable at that layer, the only count that is incremented is
 UASs at that layer.
 Note that this definition implies that the agent cannot
 determine until after a ten second interval has passed whether a
 given one-second interval belongs to available or unavailable
 time. If the agent chooses to update the various performance
 statistics in real time then it must be prepared to
 retroactively reduce the ES, SES, and SEFS counts by 10 and
 increase the UAS count by 10 when it determines that available
 time has been entered. It must also be prepared to reduce the
 CV count by the number of violations counted since the onset of
 unavailable time. The agent must be similarly prepared to
 retroactively decrease the UAS count by 10 and increase the ES
 and CV counts as necessary upon entering available time. A
 special case exists when the 10 second period leading to
 available or unavailable time crosses a 900 second statistics
 window boundary, as the foregoing description implies that the
 CV, ES, SES, SEFS, and UAS counts the PREVIOUS interval must be
 adjusted. In this case successive GETs of the affected
 sonetPathIntervalSES and sonetPathIntervalUAS objects (and the
 analogous Line and VT objects also) objects will return
 differing values if the first GET occurs during the first few
 seconds of the window.
 According to ANSI T1.231 unavailable time begins at the _onset_
 of 10 contiguous severely errored seconds -- that is,
 unavailable time starts with the _first_ of the 10 contiguous
 SESs. Also, while an interface is deemed unavailable all
 counters for that interface are frozen except for the UAS count.
 It follows that an implementation which strictly complies with
 this standard must _not_ increment any counters other than the
 UAS count -- even temporarily -- as a result of anything that
 happens during those 10 seconds. Since changes in the signal
 state lag the data to which they apply by 10 seconds, an ANSI-
 compliant implementation must pass the one-second statistics
 through a 10-second delay line prior to updating any counters.
 That can be done by performing the following steps at the end of
 each one second interval.
 i) Read near/far end CV counter and alarm status flags from the
 hardware.
 ii) Accumulate the CV counts for the preceding second and compare
 them to the ES and SES threshold for the layer in question.
 Update the signal state and shift the one-second CV counts and
 ES/SES flags into the 10-element delay line. Note that far-end
 one-second statistics are to be flagged as "absent" during any
 second in which there is an incoming defect at the layer in
 question or at any lower layer.
 iii) Update the current interval statistics using the signal state
 from the _previous_ update cycle and the one-second CV counts
 and ES/SES flags shifted out of the 10-element delay line.
 This approach is further described in Appendix A. An agent may
 choose to use this approach in lieu of retroactive adjustments
 to the counters.
 In any case, a linkDown trap shall be sent only after the agent
 has determined for certain that the unavailable state has been
 entered, but the time on the trap will be that of the first UAS
 (i.e., 10 seconds earlier). A linkUp trap shall be handled
 similarly.
 Unequipped
 If a Path or VT connection is not provisioned (idle) the SONET
 equipment will signal this state by transmitting the Path or VT
 Signal Label as follows:
 - byte C2 of the STS Path Overhead equal to 0 for an unequipped
 Path,
 - byte V5 of the VT Path Overhead equal to 0 for an unequipped
 VT.
 Signal Label Mismatch
 A Path or VT connection is not correctly provisioned if a
 received Path or VT Signal Label mismatch occurs. A received
 Signal Label is considered mismatched if it does not equal
 either the locally provisioned value or the value 'equipped
 non-specific' (1 hex). Note that any received non-zero Signal
 Label is considered a locally provisioned value of 'equipped
 non-specific'. Only in-service, provisioned Path Terminating
 equipment can detect mismatched Signal labels. It is considered
 provisioned if it has been configured for a mapping and has been
 assigned signals to and from which the mapping takes place.
 While a Path is unequipped or has mismatched signal labels
 ES/SES counts continue, but these conditions do not themselves
 contribute to ES/SES.
 Circuit Identifier
 This is a character string specified by the circuit vendor, and
 is useful when communicating with the vendor during the
 troubleshooting process.
4. Object Definitions
SONET-MIB DEFINITIONS ::= BEGIN
IMPORTS
 MODULE-IDENTITY, OBJECT-TYPE,
 Integer32, transmission
 FROM SNMPv2-SMI
 DisplayString, TruthValue
 FROM SNMPv2-TC
 MODULE-COMPLIANCE, OBJECT-GROUP
 FROM SNMPv2-CONF
 ifIndex
 FROM IF-MIB
 PerfCurrentCount, PerfIntervalCount
 FROM PerfHist-TC-MIB;
-- This is the MIB module for the SONET/SDH Interface objects.
sonetMIB MODULE-IDENTITY
 LAST-UPDATED "9810190000Z"
 ORGANIZATION "IETF AToM MIB Working Group"
 CONTACT-INFO
 "Kaj Tesink
 Telcordia Technologies
 Tel: (732) 758-5254
 Fax: (732) 758-2269
 E-mail: kaj@research.telcordia.com."
 DESCRIPTION
 "The MIB module to describe
 SONET/SDH interfaces objects."
 REVISION "9810190000Z"
 DESCRIPTION
 "The key changes made to this MIB module
 since its initial publication in RFC 1595
 are as follows.
 (1) The MODULE-IDENTITY has been updated to reflect the
 changes to the MIB.
 (2) Where applicable, the textual conventions
 PerfCurrentCount and PerfIntervalCount from
 PerfHist-TC-MIB have been used in place of Gauge32.
 (3) An agent now has the option to delay updates to
 the various performance counts in lieu of performing
 retroactive adjustments upon entering into or exiting
 from unavailable time. This implementation option is
 described in Appendix A of this memo.
 (4) In order to make the SONET-MIB more useful for
 circuit provisioning, the formerly read-only objects
 sonetMediumType, sonetMediumLineCoding,
 sonetMediumLineType, and sonetMediumCircuitIdentifier
 have been given a MAX-ACCESS of read-write. The
 MIN-ACCESS remains read-only.
 (5) The DESCRIPTION clause for sonetMediumTimeElapsed has
 been updated to describe its behaviour if the duration
 of the current interval exceeds the maximum value.
 (6) The DESCRIPTION clause for sonetMediumValidIntervals
 has been updated to describe its behaviour when some
 intervals may be unavailable, and the object
 sonetMediumInvalidIntervals has been added to keep
 count of the number of missing intervals (if any).
 (7) The object sonetMediumLoopbackConfig has been added
 to enable or disable loopback configurations.
 (8) Because the error count thresholds for declaring
 severely errored seconds that are specified in ANSI
 T1.231-1993, ITU-T G.826-1995, and ANSI T1.231-1997
 are all different from each other and from the thresholds
 specified in RFC 1595, an enumerated INTEGER object
 sonetSESthresholdSet has been added to allow an agent
 to specify which threshold set is in use. Text has
 been added to Section 3 stating that if this object is
 not implemented the thresholds specified in RFC 1595
 should be assumed, and the table containing those
 thresholds has been moved to Appendix B of this memo.
 (9) A column with SYNTAX TruthValue has been added to each
 interval table. The purpose of the additional column
 is to indicate, for each interval, whether the data
 is valid in the sense intended by ANSI T1.231 clause
 9.1.2.2 [31][35]. The objects in question are:
 sonetSectionIntervalValidData
 sonetLineIntervalValidData
 sonetFarEndLineIntervalValidData
 sonetPathIntervalValidData
 sonetFarEndPathIntervalValidData
 sonetVTIntervalValidData
 sonetFarEndVTIntervalValidData
 (10) The ranges for sonetPathCurrentStatus and
 sonetVTCurrentStatus have been made consistent
 with the DESCRIPTION clauses.
 (11) The conformance information has been updated. Previous
 conformance information from RFC 1595 has been
 deprecated. Some typographical errors in the deprecated
 section have been corrected in order to prevent
 MIB compilation errors."
 REVISION "9401030000Z"
 DESCRIPTION
 "The RFC1595 version of this MIB module."
 ::= { transmission 39 }
-- This is the MIB module for the SONET/SDH objects
sonetObjects OBJECT IDENTIFIER ::= { sonetMIB 1 }
sonetObjectsPath OBJECT IDENTIFIER ::= { sonetMIB 2 }
sonetObjectsVT OBJECT IDENTIFIER ::= { sonetMIB 3 }
-- groups in the SONET/SDH MIB module
sonetMedium OBJECT IDENTIFIER ::= { sonetObjects 1 }
sonetSection OBJECT IDENTIFIER ::= { sonetObjects 2 }
sonetLine OBJECT IDENTIFIER ::= { sonetObjects 3 }
sonetFarEndLine OBJECT IDENTIFIER ::= { sonetObjects 4 }
sonetPath OBJECT IDENTIFIER ::= { sonetObjectsPath 1 }
sonetFarEndPath OBJECT IDENTIFIER ::= { sonetObjectsPath 2 }
sonetVT OBJECT IDENTIFIER ::= { sonetObjectsVT 1 }
sonetFarEndVT OBJECT IDENTIFIER ::= { sonetObjectsVT 2 }
-- the SONET/SDH Medium group
-- SONET/SDH interfaces for some applications may be electrical
-- interfaces and not optical interfaces. This group handles
-- the configuration information for both optical SONET/SDH
-- interfaces and electrical SONET/SDH interfaces.
sonetMediumTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SonetMediumEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "The SONET/SDH Medium table."
 ::= { sonetMedium 1 }
sonetMediumEntry OBJECT-TYPE
 SYNTAX SonetMediumEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "An entry in the SONET/SDH Medium table."
 INDEX { ifIndex }
 ::= { sonetMediumTable 1 }
SonetMediumEntry ::=
 SEQUENCE {
 sonetMediumType INTEGER,
 sonetMediumTimeElapsed Integer32,
 sonetMediumValidIntervals Integer32,
 sonetMediumLineCoding INTEGER,
 sonetMediumLineType INTEGER,
 sonetMediumCircuitIdentifier DisplayString,
 sonetMediumInvalidIntervals Integer32,
 sonetMediumLoopbackConfig BITS
 }
sonetMediumType OBJECT-TYPE
 SYNTAX INTEGER {
 sonet(1),
 sdh(2)
 }
 MAX-ACCESS read-write
 STATUS current
 DESCRIPTION
 "This variable identifies whether a SONET
 or a SDH signal is used across this interface."
 ::= { sonetMediumEntry 1 }
sonetMediumTimeElapsed OBJECT-TYPE
 SYNTAX Integer32 (1..900)
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The number of seconds, including partial seconds,
 that have elapsed since the beginning of the current
 measurement period. If, for some reason, such as an
 adjustment in the system's time-of-day clock, the
 current interval exceeds the maximum value, the
 agent will return the maximum value."
 ::= { sonetMediumEntry 2 }
sonetMediumValidIntervals OBJECT-TYPE
 SYNTAX Integer32 (0..96)
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The number of previous 15-minute intervals
 for which data was collected.
 A SONET/SDH interface must be capable
 of supporting at least n intervals.
 The minimum value of n is 4.
 The default of n is 32.
 The maximum value of n is 96.
 The value will be <n> unless the measurement was
 (re-)started within the last (<n>*15) minutes, in which
 case the value will be the number of complete 15
 minute intervals for which the agent has at least
 some data. In certain cases (e.g., in the case
 where the agent is a proxy) it is possible that some
 intervals are unavailable. In this case, this
 interval is the maximum interval number for
 which data is available. "
 ::= { sonetMediumEntry 3 }
sonetMediumLineCoding OBJECT-TYPE
 SYNTAX INTEGER {
 sonetMediumOther(1),
 sonetMediumB3ZS(2),
 sonetMediumCMI(3),
 sonetMediumNRZ(4),
 sonetMediumRZ(5)
 }
 MAX-ACCESS read-write
 STATUS current
 DESCRIPTION
 "This variable describes the line coding for
 this interface. The B3ZS and CMI are used for
 electrical SONET/SDH signals (STS-1 and STS-3).
 The Non-Return to Zero (NRZ) and the Return
 to Zero are used for optical SONET/SDH signals."
 ::= { sonetMediumEntry 4 }
sonetMediumLineType OBJECT-TYPE
 SYNTAX INTEGER {
 sonetOther(1),
 sonetShortSingleMode(2),
 sonetLongSingleMode(3),
 sonetMultiMode(4),
 sonetCoax(5),
 sonetUTP(6)
 }
 MAX-ACCESS read-write
 STATUS current
 DESCRIPTION
 "This variable describes the line type for
 this interface. The line types are
 Short and Long Range
 Single Mode fiber or Multi-Mode fiber interfaces,
 and coax and UTP for electrical interfaces. The
 value sonetOther should be used when the Line Type is
 not one of the listed values."
 ::= { sonetMediumEntry 5 }
sonetMediumCircuitIdentifier OBJECT-TYPE
 SYNTAX DisplayString (SIZE (0..255))
 MAX-ACCESS read-write
 STATUS current
 DESCRIPTION
 "This variable contains the transmission
 vendor's circuit identifier, for the
 purpose of facilitating troubleshooting.
 Note that the circuit identifier, if available,
 is also represented by ifPhysAddress."
 ::= { sonetMediumEntry 6 }
sonetMediumInvalidIntervals OBJECT-TYPE
 SYNTAX Integer32 (0..96)
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The number of intervals in the range from
 0 to sonetMediumValidIntervals for which no
 data is available. This object will typically
 be zero except in cases where the data for some
 intervals are not available (e.g., in proxy
 situations)."
 ::= { sonetMediumEntry 7 }
sonetMediumLoopbackConfig OBJECT-TYPE
 SYNTAX BITS {
 sonetNoLoop(0),
 sonetFacilityLoop(1),
 sonetTerminalLoop(2),
 sonetOtherLoop(3) }
 MAX-ACCESS read-write
 STATUS current
 DESCRIPTION
 "The current loopback state of the SONET/SDH interface. The
 values mean:
 sonetNoLoop
 Not in the loopback state. A device that is not
 capable of performing a loopback on this interface
 shall always return this value.
 sonetFacilityLoop
 The received signal at this interface is looped back
 out through the corresponding transmitter in the return
 direction.
 sonetTerminalLoop
 The signal that is about to be transmitted is connected
 to the associated incoming receiver.
 sonetOtherLoop
 Loopbacks that are not defined here."
 ::= { sonetMediumEntry 8 }
sonetSESthresholdSet OBJECT-TYPE
 SYNTAX INTEGER {
 other(1),
 Bellcore1991(2),
 ansi1993(3),
 itu1995(4),
 ansi1997(5)
 }
 MAX-ACCESS read-write
 STATUS current
 DESCRIPTION
 "An enumerated integer indicating which
 recognized set of SES thresholds that
 the agent uses for determining severely
 errored seconds and unavailable time.
 other(1)
 None of the following.
 Bellcore1991(2)
 Bellcore TR-NWT-000253, 1991 [32], or
 ANSI T1M1.3/93-005R2, 1993 [22].
 See also Appendix B.
 ansi1993(3)
 ANSI T1.231, 1993 [31], or
 Bellcore GR-253-CORE, Issue 2, 1995 [34]
 itu1995(4)
 ITU Recommendation G.826, 1995 [33]
 ansi1997(5)
 ANSI T1.231, 1997 [35]
 If a manager changes the value of this
 object then the SES statistics collected
 prior to this change must be invalidated."
 ::= { sonetMedium 2 }
-- the SONET/SDH Section group
-- this group consists of 2 tables:
-- - the SONET/SDH Section Current Table
-- - the SONET/SDH Section Interval Table
-- the SONET/SDH Section Current Table
-- The SONET/SDH Section
-- current table contains various statistics
-- being collected for the current 15 minute interval.
sonetSectionCurrentTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SonetSectionCurrentEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "The SONET/SDH Section Current table."
 ::= { sonetSection 1 }
sonetSectionCurrentEntry OBJECT-TYPE
 SYNTAX SonetSectionCurrentEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "An entry in the SONET/SDH Section Current table."
 INDEX { ifIndex }
 ::= { sonetSectionCurrentTable 1 }
SonetSectionCurrentEntry ::=
 SEQUENCE {
 sonetSectionCurrentStatus Integer32,
 sonetSectionCurrentESs PerfCurrentCount,
 sonetSectionCurrentSESs PerfCurrentCount,
 sonetSectionCurrentSEFSs PerfCurrentCount,
 sonetSectionCurrentCVs PerfCurrentCount
 }
sonetSectionCurrentStatus OBJECT-TYPE
 SYNTAX Integer32 (1..6)
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "This variable indicates the
 status of the interface.
 The sonetSectionCurrentStatus
 is a bit map represented
 as a sum, therefore,
 it can represent multiple defects
 simultaneously.
 The sonetSectionNoDefect should be
 set if and only if
 no other flag is set.
 The various bit positions are:
 1 sonetSectionNoDefect
 2 sonetSectionLOS
 4 sonetSectionLOF"
 ::= { sonetSectionCurrentEntry 1 }
sonetSectionCurrentESs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of Errored
 Seconds encountered by a SONET/SDH
 Section in the current 15 minute interval."
 ::= { sonetSectionCurrentEntry 2 }
sonetSectionCurrentSESs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Severely Errored Seconds
 encountered by a SONET/SDH Section in the current 15
 minute interval."
 ::= { sonetSectionCurrentEntry 3 }
sonetSectionCurrentSEFSs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Severely Errored Framing Seconds
 encountered by a SONET/SDH Section in the current
 15 minute interval."
 ::= { sonetSectionCurrentEntry 4 }
sonetSectionCurrentCVs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of Coding
 Violations encountered by a
 SONET/SDH Section in the current 15 minute interval."
 ::= { sonetSectionCurrentEntry 5 }
-- the SONET/SDH Section Interval Table
-- The SONET/SDH Section Interval Table
-- contains various statistics
-- collected by each system over a maximum
-- of the previous 24 hours of
-- operation. The past 24 hours may be broken into 96
-- completed 15 minute intervals.
-- A system is required to store at
-- least 4 completed 15 minute interval.
-- The default value is 32 intervals.
sonetSectionIntervalTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SonetSectionIntervalEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "The SONET/SDH Section Interval table."
 ::= { sonetSection 2 }
sonetSectionIntervalEntry OBJECT-TYPE
 SYNTAX SonetSectionIntervalEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "An entry in the SONET/SDH Section Interval table."
 INDEX { ifIndex,
 sonetSectionIntervalNumber }
 ::= { sonetSectionIntervalTable 1 }
SonetSectionIntervalEntry ::=
 SEQUENCE {
 sonetSectionIntervalNumber Integer32,
 sonetSectionIntervalESs PerfIntervalCount,
 sonetSectionIntervalSESs PerfIntervalCount,
 sonetSectionIntervalSEFSs PerfIntervalCount,
 sonetSectionIntervalCVs PerfIntervalCount,
 sonetSectionIntervalValidData TruthValue
 }
sonetSectionIntervalNumber OBJECT-TYPE
 SYNTAX Integer32 (1..96)
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "A number between 1 and 96, which identifies the
 interval for which the set of statistics is available.
 The interval identified by 1 is the most recently
 completed 15 minute interval,
 and the interval identified
 by N is the interval immediately preceding the
 one identified
 by N-1."
 ::= { sonetSectionIntervalEntry 1 }
sonetSectionIntervalESs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Errored Seconds encountered
 by a SONET/SDH Section in a
 particular 15-minute interval
 in the past 24 hours."
 ::= { sonetSectionIntervalEntry 2 }
sonetSectionIntervalSESs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Severely Errored Seconds
 encountered by a SONET/SDH Section in a
 particular 15-minute interval
 in the past 24 hours."
 ::= { sonetSectionIntervalEntry 3 }
sonetSectionIntervalSEFSs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Severely Errored Framing Seconds
 encountered by a SONET/SDH Section in a
 particular 15-minute interval
 in the past 24 hours."
 ::= { sonetSectionIntervalEntry 4 }
sonetSectionIntervalCVs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of Coding
 Violations encountered by a
 SONET/SDH Section in a particular 15-minute interval
 in the past 24 hours."
 ::= { sonetSectionIntervalEntry 5 }
sonetSectionIntervalValidData OBJECT-TYPE
 SYNTAX TruthValue
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "This variable indicates if the data for this
 interval is valid."
 ::= { sonetSectionIntervalEntry 6 }
-- the SONET/SDH Line group
-- this group consists of 2 tables:
-- - the SONET/SDH Line Current Table
-- - the SONET/SDH Line Interval Table
-- the SONET/SDH Line Current Table
-- The SONET/SDH Line
-- current table contains various statistics
-- being collected for the current 15 minute interval.
sonetLineCurrentTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SonetLineCurrentEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "The SONET/SDH Line Current table."
 ::= { sonetLine 1 }
sonetLineCurrentEntry OBJECT-TYPE
 SYNTAX SonetLineCurrentEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "An entry in the SONET/SDH Line Current table."
 INDEX { ifIndex }
 ::= { sonetLineCurrentTable 1 }
SonetLineCurrentEntry ::=
 SEQUENCE {
 sonetLineCurrentStatus Integer32,
 sonetLineCurrentESs PerfCurrentCount,
 sonetLineCurrentSESs PerfCurrentCount,
 sonetLineCurrentCVs PerfCurrentCount,
 sonetLineCurrentUASs PerfCurrentCount
 }
sonetLineCurrentStatus OBJECT-TYPE
 SYNTAX Integer32 (1..6)
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "This variable indicates the
 status of the interface.
 The sonetLineCurrentStatus
 is a bit map represented
 as a sum, therefore,
 it can represent multiple defects
 simultaneously.
 The sonetLineNoDefect should be
 set if and only if
 no other flag is set.
 The various bit positions are:
 1 sonetLineNoDefect
 2 sonetLineAIS
 4 sonetLineRDI"
 ::= { sonetLineCurrentEntry 1 }
sonetLineCurrentESs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of Errored
 Seconds encountered by a SONET/SDH
 Line in the current 15 minute interval."
 ::= { sonetLineCurrentEntry 2 }
sonetLineCurrentSESs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Severely Errored Seconds
 encountered by a SONET/SDH Line in the current 15
 minute
 interval."
 ::= { sonetLineCurrentEntry 3 }
sonetLineCurrentCVs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of Coding
 Violations encountered by a
 SONET/SDH Line in the current 15 minute interval."
 ::= { sonetLineCurrentEntry 4 }
sonetLineCurrentUASs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Unavailable Seconds
 encountered by a SONET/SDH Line in the current 15
 minute
 interval."
 ::= { sonetLineCurrentEntry 5 }
-- the SONET/SDH Line Interval Table
-- The SONET/SDH Line Interval Table
-- contains various statistics
-- collected by each system over a maximum
-- of the previous 24 hours of
-- operation. The past 24 hours may be broken into 96
-- completed 15 minute intervals.
-- A system is required to store at
-- least 4 completed 15 minute interval.
-- The default value is 32 intervals.
sonetLineIntervalTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SonetLineIntervalEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "The SONET/SDH Line Interval table."
 ::= { sonetLine 2 }
sonetLineIntervalEntry OBJECT-TYPE
 SYNTAX SonetLineIntervalEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "An entry in the SONET/SDH Line Interval table."
 INDEX { ifIndex,
 sonetLineIntervalNumber }
 ::= { sonetLineIntervalTable 1 }
SonetLineIntervalEntry ::=
 SEQUENCE {
 sonetLineIntervalNumber Integer32,
 sonetLineIntervalESs PerfIntervalCount,
 sonetLineIntervalSESs PerfIntervalCount,
 sonetLineIntervalCVs PerfIntervalCount,
 sonetLineIntervalUASs PerfIntervalCount,
 sonetLineIntervalValidData TruthValue
 }
sonetLineIntervalNumber OBJECT-TYPE
 SYNTAX Integer32 (1..96)
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "A number between 1 and 96, which identifies the
 interval for which the set of statistics is available.
 The interval identified by 1 is the most recently
 completed 15 minute interval,
 and the interval identified
 by N is the interval immediately preceding the
 one identified
 by N-1."
 ::= { sonetLineIntervalEntry 1 }
sonetLineIntervalESs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Errored Seconds encountered
 by a SONET/SDH Line in a
 particular 15-minute interval
 in the past 24 hours."
 ::= { sonetLineIntervalEntry 2 }
sonetLineIntervalSESs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Severely Errored Seconds
 encountered by a SONET/SDH Line in a
 particular 15-minute interval
 in the past 24 hours."
 ::= { sonetLineIntervalEntry 3 }
sonetLineIntervalCVs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of Coding
 Violations encountered by a
 SONET/SDH Line in a
 particular 15-minute interval
 in the past 24 hours."
 ::= { sonetLineIntervalEntry 4 }
sonetLineIntervalUASs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the
 number of Unavailable Seconds
 encountered by a SONET/SDH Line in
 a particular 15-minute interval
 in the past 24 hours."
 ::= { sonetLineIntervalEntry 5 }
sonetLineIntervalValidData OBJECT-TYPE
 SYNTAX TruthValue
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "This variable indicates if the data for this
 interval is valid."
 ::= { sonetLineIntervalEntry 6 }
-- The SONET/SDH Far End Line group.
-- This group may only be implemented by SONET/SDH (LTEs)
-- systems that provide for a far end block error (FEBE)
-- information at the SONET/SDH Line Layer.
-- This group consists of two tables:
-- SONET/SDH Far End Line Current Table
-- SONET/SDH Far End Line Interval Table
-- The SONET/SDH Far End Line Current Table
-- The SONET/SDH Far End Line Current table contains
-- various statistics being
-- collected for the current 15 minute interval.
-- The statistics are collected from the far end
-- block error code (FEBE)
-- within the third Z2 byte of the Line Overhead
-- in Broadband ISDN applications.
-- The definitions are the same as described for
-- the near-end information.
sonetFarEndLineCurrentTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SonetFarEndLineCurrentEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "The SONET/SDH Far End Line Current table."
 ::= { sonetFarEndLine 1 }
sonetFarEndLineCurrentEntry OBJECT-TYPE
 SYNTAX SonetFarEndLineCurrentEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "An entry in the SONET/SDH Far End Line Current table."
 INDEX { ifIndex }
 ::= { sonetFarEndLineCurrentTable 1 }
SonetFarEndLineCurrentEntry ::=
 SEQUENCE {
 sonetFarEndLineCurrentESs PerfCurrentCount,
 sonetFarEndLineCurrentSESs PerfCurrentCount,
 sonetFarEndLineCurrentCVs PerfCurrentCount,
 sonetFarEndLineCurrentUASs PerfCurrentCount
 }
sonetFarEndLineCurrentESs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of Far
 End Errored Seconds encountered by a SONET/SDH
 interface in the current 15 minute interval."
 ::= { sonetFarEndLineCurrentEntry 1 }
sonetFarEndLineCurrentSESs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Severely Errored Seconds
 encountered by a SONET/SDH Medium/Section/Line
 interface in the current 15 minute
 interval."
 ::= { sonetFarEndLineCurrentEntry 2 }
sonetFarEndLineCurrentCVs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Coding Violations reported via
 the far end block error count
 encountered by a
 SONET/SDH Medium/Section/Line
 interface in the current 15 minute interval."
 ::= { sonetFarEndLineCurrentEntry 3 }
sonetFarEndLineCurrentUASs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Unavailable Seconds
 encountered by a
 SONET/SDH Medium/Section/Line
 interface in the current 15 minute interval."
 ::= { sonetFarEndLineCurrentEntry 4 }
-- The SONET/SDH Far End Line Interval Table
-- The SONET/SDH Far End Line Interval Table
-- contains various statistics
-- collected by each system over a maximum
-- of the previous 24 hours of
-- operation. The past 24 hours may be broken into 96
-- completed 15 minute intervals.
-- A system is required to store at
-- least 4 completed 15 minute interval.
-- The default value is 32 intervals.
sonetFarEndLineIntervalTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SonetFarEndLineIntervalEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "The SONET/SDH Far End Line Interval table."
 ::= { sonetFarEndLine 2 }
sonetFarEndLineIntervalEntry OBJECT-TYPE
 SYNTAX SonetFarEndLineIntervalEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "An entry in the SONET/SDH Far
 End Line Interval table."
 INDEX { ifIndex,
 sonetFarEndLineIntervalNumber }
 ::= { sonetFarEndLineIntervalTable 1 }
SonetFarEndLineIntervalEntry ::=
 SEQUENCE {
 sonetFarEndLineIntervalNumber Integer32,
 sonetFarEndLineIntervalESs PerfIntervalCount,
 sonetFarEndLineIntervalSESs PerfIntervalCount,
 sonetFarEndLineIntervalCVs PerfIntervalCount,
 sonetFarEndLineIntervalUASs PerfIntervalCount,
 sonetFarEndLineIntervalValidData TruthValue
 }
sonetFarEndLineIntervalNumber OBJECT-TYPE
 SYNTAX Integer32 (1..96)
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "A number between 1 and 96, which identifies the
 interval for which the set of statistics is available.
 The interval identified by 1 is the most recently
 completed 15 minute interval,
 and the interval identified
 by N is the interval immediately preceding the
 one identified
 by N-1."
 ::= { sonetFarEndLineIntervalEntry 1 }
sonetFarEndLineIntervalESs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Errored Seconds encountered
 by a SONET/SDH Line
 interface in a particular 15-minute interval
 in the past 24 hours."
 ::= { sonetFarEndLineIntervalEntry 2 }
sonetFarEndLineIntervalSESs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Severely Errored Seconds
 encountered by a SONET/SDH Line
 interface in a particular 15-minute interval
 in the past 24 hours."
 ::= { sonetFarEndLineIntervalEntry 3 }
sonetFarEndLineIntervalCVs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Coding Violations reported via
 the far end block error count
 encountered by a
 SONET/SDH Line
 interface in a particular 15-minute interval
 in the past 24 hours."
 ::= { sonetFarEndLineIntervalEntry 4 }
sonetFarEndLineIntervalUASs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Unavailable Seconds
 encountered by a
 SONET/SDH Line
 interface in a particular 15-minute interval
 in the past 24 hours."
 ::= { sonetFarEndLineIntervalEntry 5 }
sonetFarEndLineIntervalValidData OBJECT-TYPE
 SYNTAX TruthValue
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "This variable indicates if the data for this
 interval is valid."
 ::= { sonetFarEndLineIntervalEntry 6 }
-- the SONET/SDH Path group
-- this group consists of 2 tables:
-- - the SONET/SDH Path Current Table
-- - the SONET/SDH Path Interval Table
-- the SONET/SDH Path Current Table
-- The SONET/SDH Path
-- current table contains various statistics
-- being collected for the current 15 minute interval.
sonetPathCurrentTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SonetPathCurrentEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "The SONET/SDH Path Current table."
::= { sonetPath 1 }
sonetPathCurrentEntry OBJECT-TYPE
 SYNTAX SonetPathCurrentEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "An entry in the SONET/SDH Path Current table."
 INDEX { ifIndex }
::= { sonetPathCurrentTable 1 }
SonetPathCurrentEntry ::=
 SEQUENCE {
 sonetPathCurrentWidth INTEGER,
 sonetPathCurrentStatus Integer32,
 sonetPathCurrentESs PerfCurrentCount,
 sonetPathCurrentSESs PerfCurrentCount,
 sonetPathCurrentCVs PerfCurrentCount,
 sonetPathCurrentUASs PerfCurrentCount
 }
sonetPathCurrentWidth OBJECT-TYPE
 SYNTAX INTEGER {
 sts1(1),
 sts3cSTM1(2),
 sts12cSTM4(3),
 sts24c(4),
 sts48cSTM16(5)
 }
 MAX-ACCESS read-write
 STATUS current
 DESCRIPTION
 "A value that indicates the type of the SONET/SDH
 Path. For SONET, the assigned types are
 the STS-Nc SPEs, where N = 1, 3, 12, 24, and 48.
 STS-1 is equal to 51.84 Mbps. For SDH, the assigned
 types are the STM-Nc VCs, where N = 1, 4, and 16."
::= { sonetPathCurrentEntry 1 }
sonetPathCurrentStatus OBJECT-TYPE
 SYNTAX Integer32 (1..62)
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "This variable indicates the
 status of the interface.
 The sonetPathCurrentStatus
 is a bit map represented
 as a sum, therefore,
 it can represent multiple defects
 simultaneously.
 The sonetPathNoDefect should be
 set if and only if
 no other flag is set.
 The various bit positions are:
 1 sonetPathNoDefect
 2 sonetPathSTSLOP
 4 sonetPathSTSAIS
 8 sonetPathSTSRDI
 16 sonetPathUnequipped
 32 sonetPathSignalLabelMismatch"
::= { sonetPathCurrentEntry 2 }
sonetPathCurrentESs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of Errored
 Seconds encountered by a SONET/SDH
 Path in the current 15 minute interval."
::= { sonetPathCurrentEntry 3 }
sonetPathCurrentSESs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Severely Errored Seconds
 encountered by a SONET/SDH Path in the current 15
 minute
 interval."
::= { sonetPathCurrentEntry 4 }
sonetPathCurrentCVs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of Coding
 Violations encountered by a
 SONET/SDH Path in the current 15 minute interval."
::= { sonetPathCurrentEntry 5 }
sonetPathCurrentUASs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Unavailable Seconds
 encountered by a Path in the current
 15 minute interval."
::= { sonetPathCurrentEntry 6 }
-- the SONET/SDH Path Interval Table
-- The SONET/SDH Path Interval Table
-- contains various statistics
-- collected by each system over a maximum
-- of the previous 24 hours of
-- operation. The past 24 hours may be broken into 96
-- completed 15 minute intervals.
-- A system is required to store at
-- least 4 completed 15 minute interval.
-- The default value is 32 intervals.
sonetPathIntervalTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SonetPathIntervalEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "The SONET/SDH Path Interval table."
::= { sonetPath 2 }
sonetPathIntervalEntry OBJECT-TYPE
 SYNTAX SonetPathIntervalEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "An entry in the SONET/SDH Path Interval table."
 INDEX { ifIndex,
 sonetPathIntervalNumber }
::= { sonetPathIntervalTable 1 }
SonetPathIntervalEntry ::=
 SEQUENCE {
 sonetPathIntervalNumber Integer32,
 sonetPathIntervalESs PerfIntervalCount,
 sonetPathIntervalSESs PerfIntervalCount,
 sonetPathIntervalCVs PerfIntervalCount,
 sonetPathIntervalUASs PerfIntervalCount,
 sonetPathIntervalValidData TruthValue
 }
sonetPathIntervalNumber OBJECT-TYPE
 SYNTAX Integer32 (1..96)
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "A number between 1 and 96, which identifies the
 interval for which the set of statistics is available.
 The interval identified by 1 is the most recently
 completed 15 minute interval,
 and the interval identified
 by N is the interval immediately preceding the
 one identified
 by N-1."
::= { sonetPathIntervalEntry 1 }
sonetPathIntervalESs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Errored Seconds encountered
 by a SONET/SDH Path in a
 particular 15-minute interval
 in the past 24 hours."
::= { sonetPathIntervalEntry 2 }
sonetPathIntervalSESs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Severely Errored Seconds
 encountered by a SONET/SDH Path in
 a particular 15-minute interval
 in the past 24 hours."
::= { sonetPathIntervalEntry 3 }
sonetPathIntervalCVs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of Coding
 Violations encountered by a
 SONET/SDH Path in a particular 15-minute interval
 in the past 24 hours."
::= { sonetPathIntervalEntry 4 }
sonetPathIntervalUASs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Unavailable Seconds
 encountered by a Path in a
 particular 15-minute interval
 in the past 24 hours."
::= { sonetPathIntervalEntry 5 }
sonetPathIntervalValidData OBJECT-TYPE
 SYNTAX TruthValue
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "This variable indicates if the data for this
 interval is valid."
 ::= { sonetPathIntervalEntry 6 }
-- The SONET/SDH Far End Path group
-- This group consists of two tables:
-- - SONET/SDH Far End Path Current Table
-- - SONET/SDH Far End Path Interval Table
-- The SONET/SDH Far End Path Current Table
-- The SONET/SDH Far End Path Current table
-- contains various statistics
-- being collected for the current 15 minute interval.
-- The statistics are collected from
-- the far end block error code
-- (FEBE) within the G1 byte of the Path Overhead.
-- The definitions are the same as described for
-- the near-end information.
sonetFarEndPathCurrentTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SonetFarEndPathCurrentEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "The SONET/SDH Far End Path Current table."
 ::= { sonetFarEndPath 1 }
sonetFarEndPathCurrentEntry OBJECT-TYPE
 SYNTAX SonetFarEndPathCurrentEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "An entry in the SONET/SDH Far End Path Current table."
 INDEX { ifIndex }
 ::= { sonetFarEndPathCurrentTable 1 }
SonetFarEndPathCurrentEntry ::=
 SEQUENCE {
 sonetFarEndPathCurrentESs PerfCurrentCount,
 sonetFarEndPathCurrentSESs PerfCurrentCount,
 sonetFarEndPathCurrentCVs PerfCurrentCount,
 sonetFarEndPathCurrentUASs PerfCurrentCount
 }
sonetFarEndPathCurrentESs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of Far
 End Errored Seconds encountered by a SONET/SDH
 interface in the current 15 minute interval."
 ::= { sonetFarEndPathCurrentEntry 1 }
sonetFarEndPathCurrentSESs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Severely Errored Seconds
 encountered by a SONET/SDH Path
 interface in the current 15 minute
 interval."
 ::= { sonetFarEndPathCurrentEntry 2 }
sonetFarEndPathCurrentCVs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Coding Violations reported via
 the far end block error count
 encountered by a
 SONET/SDH Path interface in
 the current 15 minute interval."
 ::= { sonetFarEndPathCurrentEntry 3 }
sonetFarEndPathCurrentUASs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Unavailable Seconds
 encountered by a
 SONET/SDH Path interface in
 the current 15 minute interval."
 ::= { sonetFarEndPathCurrentEntry 4 }
-- The SONET/SDH Far End Path Interval Table
-- The SONET/SDH Far End Path Interval Table
-- contains various statistics
-- collected by each system over a maximum
-- of the previous 24 hours of
-- operation. The past 24 hours may be broken into 96
-- completed 15 minute intervals.
-- A system is required to store at
-- least 4 completed 15 minute interval.
-- The default value is 32 intervals.
sonetFarEndPathIntervalTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SonetFarEndPathIntervalEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "The SONET/SDH Far End Path Interval table."
 ::= { sonetFarEndPath 2 }
sonetFarEndPathIntervalEntry OBJECT-TYPE
 SYNTAX SonetFarEndPathIntervalEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "An entry in the SONET/SDH Far
 End Path Interval table."
 INDEX { ifIndex,
 sonetFarEndPathIntervalNumber }
 ::= { sonetFarEndPathIntervalTable 1 }
SonetFarEndPathIntervalEntry ::=
 SEQUENCE {
 sonetFarEndPathIntervalNumber Integer32,
 sonetFarEndPathIntervalESs PerfIntervalCount,
 sonetFarEndPathIntervalSESs PerfIntervalCount,
 sonetFarEndPathIntervalCVs PerfIntervalCount,
 sonetFarEndPathIntervalUASs PerfIntervalCount,
 sonetFarEndPathIntervalValidData TruthValue
 }
sonetFarEndPathIntervalNumber OBJECT-TYPE
 SYNTAX Integer32 (1..96)
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "A number between 1 and 96, which identifies the
 interval for which the set of statistics is available.
 The interval identified by 1 is the most recently
 completed 15 minute interval,
 and the interval identified
 by N is the interval immediately preceding the
 one identified
 by N-1."
 ::= { sonetFarEndPathIntervalEntry 1 }
sonetFarEndPathIntervalESs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Errored Seconds encountered
 by a SONET/SDH Path interface in a
 particular 15-minute interval
 in the past 24 hours."
 ::= { sonetFarEndPathIntervalEntry 2 }
sonetFarEndPathIntervalSESs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Severely Errored Seconds
 encountered by a SONET/SDH Path interface
 in a particular 15-minute interval
 in the past 24 hours."
 ::= { sonetFarEndPathIntervalEntry 3 }
sonetFarEndPathIntervalCVs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Coding Violations reported via
 the far end block error count
 encountered by a
 SONET/SDH Path interface
 in a particular 15-minute interval
 in the past 24 hours."
 ::= { sonetFarEndPathIntervalEntry 4 }
sonetFarEndPathIntervalUASs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Unavailable Seconds
 encountered by a
 SONET/SDH Path interface in
 a particular 15-minute interval
 in the past 24 hours."
 ::= { sonetFarEndPathIntervalEntry 5 }
sonetFarEndPathIntervalValidData OBJECT-TYPE
 SYNTAX TruthValue
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "This variable indicates if the data for this
 interval is valid."
 ::= { sonetFarEndPathIntervalEntry 6 }
-- the SONET/SDH Virtual Tributary group
-- this group consists of 2 tables:
-- - the SONET/SDH VT Current Table
-- - the SONET/SDH VT Interval Table
-- For SDH signals, virtual tributaries are
-- called VCs instead of VTs
-- A VT1.5 = VC11
-- A VT2 = VC12
-- A VT3 = none
-- A VT6 = VC3
-- the SONET/SDH VT Current Table
-- The SONET/SDH VT current table
-- contains various statistics
-- being collected for the
-- current 15 minute interval.
sonetVTCurrentTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SonetVTCurrentEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "The SONET/SDH VT Current table."
::= { sonetVT 1 }
sonetVTCurrentEntry OBJECT-TYPE
 SYNTAX SonetVTCurrentEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "An entry in the SONET/SDH VT Current table."
 INDEX { ifIndex }
::= { sonetVTCurrentTable 1 }
SonetVTCurrentEntry ::=
 SEQUENCE {
 sonetVTCurrentWidth INTEGER,
 sonetVTCurrentStatus Integer32,
 sonetVTCurrentESs PerfCurrentCount,
 sonetVTCurrentSESs PerfCurrentCount,
 sonetVTCurrentCVs PerfCurrentCount,
 sonetVTCurrentUASs PerfCurrentCount
 }
sonetVTCurrentWidth OBJECT-TYPE
 SYNTAX INTEGER {
 vtWidth15VC11(1),
 vtWidth2VC12(2),
 vtWidth3(3),
 vtWidth6VC2(4),
 vtWidth6c(5)
 }
 MAX-ACCESS read-write
 STATUS current
 DESCRIPTION
 "A value that indicates the type of the SONET
 VT and SDH VC. Assigned widths are
 VT1.5/VC11, VT2/VC12, VT3, VT6/VC2, and VT6c."
::= { sonetVTCurrentEntry 1 }
sonetVTCurrentStatus OBJECT-TYPE
 SYNTAX Integer32 (1..126)
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "This variable indicates the
 status of the interface.
 The sonetVTCurrentStatus
 is a bit map represented
 as a sum, therefore,
 it can represent multiple defects
 and failures
 simultaneously.
 The sonetVTNoDefect should be
 set if and only if
 no other flag is set.
 The various bit positions are:
 1 sonetVTNoDefect
 2 sonetVTLOP
 4 sonetVTPathAIS
 8 sonetVTPathRDI
 16 sonetVTPathRFI
 32 sonetVTUnequipped
 64 sonetVTSignalLabelMismatch"
::= { sonetVTCurrentEntry 2 }
sonetVTCurrentESs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of Errored
 Seconds encountered by a SONET/SDH
 VT in the current 15 minute interval."
::= { sonetVTCurrentEntry 3 }
sonetVTCurrentSESs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Severely Errored Seconds
 encountered by a SONET/SDH VT in the current 15 minute
 interval."
::= { sonetVTCurrentEntry 4 }
sonetVTCurrentCVs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of Coding
 Violations encountered by a
 SONET/SDH VT in the current 15 minute interval."
::= { sonetVTCurrentEntry 5 }
sonetVTCurrentUASs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Unavailable Seconds
 encountered by a VT in the current
 15 minute interval."
::= { sonetVTCurrentEntry 6 }
-- the SONET/SDH VT Interval Table
-- The SONET/SDH VT Interval Table
-- contains various statistics
-- collected by each system over a maximum
-- of the previous 24 hours of
-- operation. The past 24 hours may be broken into 96
-- completed 15 minute intervals.
-- A system is required to store at
-- least 4 completed 15 minute interval.
-- The default value is 32 intervals.
sonetVTIntervalTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SonetVTIntervalEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "The SONET/SDH VT Interval table."
::= { sonetVT 2 }
sonetVTIntervalEntry OBJECT-TYPE
 SYNTAX SonetVTIntervalEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "An entry in the SONET/SDH VT Interval table."
 INDEX { ifIndex,
 sonetVTIntervalNumber }
::= { sonetVTIntervalTable 1 }
SonetVTIntervalEntry ::=
 SEQUENCE {
 sonetVTIntervalNumber Integer32,
 sonetVTIntervalESs PerfIntervalCount,
 sonetVTIntervalSESs PerfIntervalCount,
 sonetVTIntervalCVs PerfIntervalCount,
 sonetVTIntervalUASs PerfIntervalCount,
 sonetVTIntervalValidData TruthValue
 }
sonetVTIntervalNumber OBJECT-TYPE
 SYNTAX Integer32 (1..96)
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "A number between 1 and 96, which identifies the
 interval for which the set of statistics is available.
 The interval identified by 1 is the most recently
 completed 15 minute interval,
 and the interval identified
 by N is the interval immediately preceding the
 one identified
 by N-1."
::= { sonetVTIntervalEntry 1 }
sonetVTIntervalESs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Errored Seconds encountered
 by a SONET/SDH VT in a particular 15-minute interval
 in the past 24 hours."
::= { sonetVTIntervalEntry 2 }
sonetVTIntervalSESs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Severely Errored Seconds
 encountered by a SONET/SDH VT
 in a particular 15-minute interval
 in the past 24 hours."
::= { sonetVTIntervalEntry 3 }
sonetVTIntervalCVs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of Coding
 Violations encountered by a
 SONET/SDH VT in a particular 15-minute interval
 in the past 24 hours."
::= { sonetVTIntervalEntry 4 }
sonetVTIntervalUASs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Unavailable Seconds
 encountered by a VT in a particular 15-minute interval
 in the past 24 hours."
::= { sonetVTIntervalEntry 5 }
sonetVTIntervalValidData OBJECT-TYPE
 SYNTAX TruthValue
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "This variable indicates if the data for this
 interval is valid."
 ::= { sonetVTIntervalEntry 6 }
-- The SONET/SDH Far End VT group
-- This group consists of two tables:
-- SONET/SDH Far End VT Current Table
-- SONET/SDH Far End VT Interval Table
-- The SONET/SDH Far End VT Current
-- The SONET/SDH Far End VT Current table
-- contains various statistics
-- being collected for the current 15 minute interval.
-- The statistics are collected from
-- the far end block error code
-- (FEBE) within the G1 byte of the VT Overhead.
-- The definitions are the same as described for
-- the near-end information.
sonetFarEndVTCurrentTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SonetFarEndVTCurrentEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "The SONET/SDH Far End VT Current table."
 ::= { sonetFarEndVT 1 }
sonetFarEndVTCurrentEntry OBJECT-TYPE
 SYNTAX SonetFarEndVTCurrentEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "An entry in the SONET/SDH Far End VT Current table."
 INDEX { ifIndex }
 ::= { sonetFarEndVTCurrentTable 1 }
SonetFarEndVTCurrentEntry ::=
 SEQUENCE {
 sonetFarEndVTCurrentESs PerfCurrentCount,
 sonetFarEndVTCurrentSESs PerfCurrentCount,
 sonetFarEndVTCurrentCVs PerfCurrentCount,
 sonetFarEndVTCurrentUASs PerfCurrentCount
 }
sonetFarEndVTCurrentESs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of Far
 End Errored Seconds encountered by a SONET/SDH
 interface in the current 15 minute interval."
::= { sonetFarEndVTCurrentEntry 1 }
sonetFarEndVTCurrentSESs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Severely Errored Seconds
 encountered by a SONET/SDH VT interface
 in the current 15 minute
 interval."
 ::= { sonetFarEndVTCurrentEntry 2 }
sonetFarEndVTCurrentCVs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Coding Violations reported via
 the far end block error count
 encountered by a
 SONET/SDH VT interface
 in the current 15 minute interval."
 ::= { sonetFarEndVTCurrentEntry 3 }
sonetFarEndVTCurrentUASs OBJECT-TYPE
 SYNTAX PerfCurrentCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Unavailable Seconds
 encountered by a
 SONET/SDH VT interface
 in the current 15 minute interval."
 ::= { sonetFarEndVTCurrentEntry 4 }
-- The SONET/SDH Far End VT Interval Table
-- The SONET/SDH Far End VT Interval Table
-- contains various statistics
-- collected by each system over a maximum
-- of the previous 24 hours of
-- operation. The past 24 hours may be broken into 96
-- completed 15 minute intervals.
-- A system is required to store at
-- least 4 completed 15 minute interval.
-- The default value is 32 intervals.
sonetFarEndVTIntervalTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SonetFarEndVTIntervalEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "The SONET/SDH Far End VT Interval table."
 ::= { sonetFarEndVT 2 }
sonetFarEndVTIntervalEntry OBJECT-TYPE
 SYNTAX SonetFarEndVTIntervalEntry
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "An entry in the SONET/SDH Far
 End VT Interval table."
 INDEX { ifIndex,
 sonetFarEndVTIntervalNumber }
 ::= { sonetFarEndVTIntervalTable 1 }
SonetFarEndVTIntervalEntry ::=
 SEQUENCE {
 sonetFarEndVTIntervalNumber Integer32,
 sonetFarEndVTIntervalESs PerfIntervalCount,
 sonetFarEndVTIntervalSESs PerfIntervalCount,
 sonetFarEndVTIntervalCVs PerfIntervalCount,
 sonetFarEndVTIntervalUASs PerfIntervalCount,
 sonetFarEndVTIntervalValidData TruthValue
 }
sonetFarEndVTIntervalNumber OBJECT-TYPE
 SYNTAX Integer32 (1..96)
 MAX-ACCESS not-accessible
 STATUS current
 DESCRIPTION
 "A number between 1 and 96, which identifies the
 interval for which the set of statistics is available.
 The interval identified by 1 is the most recently
 completed 15 minute interval,
 and the interval identified
 by N is the interval immediately preceding the
 one identified
 by N-1."
 ::= { sonetFarEndVTIntervalEntry 1 }
sonetFarEndVTIntervalESs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Errored Seconds encountered
 by a SONET/SDH VT interface
 in a particular 15-minute interval
 in the past 24 hours."
 ::= { sonetFarEndVTIntervalEntry 2 }
sonetFarEndVTIntervalSESs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Severely Errored Seconds
 encountered by a SONET/SDH VT interface
 in a particular 15-minute interval
 in the past 24 hours."
 ::= { sonetFarEndVTIntervalEntry 3 }
sonetFarEndVTIntervalCVs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Coding Violations reported via
 the far end block error count
 encountered by a
 SONET/SDH VT interface in a
 particular 15-minute interval
 in the past 24 hours."
 ::= { sonetFarEndVTIntervalEntry 4 }
sonetFarEndVTIntervalUASs OBJECT-TYPE
 SYNTAX PerfIntervalCount
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "The counter associated with the number of
 Far End Unavailable Seconds
 encountered by a
 SONET/SDH VT interface in a
 particular 15-minute interval
 in the past 24 hours."
 ::= { sonetFarEndVTIntervalEntry 5 }
sonetFarEndVTIntervalValidData OBJECT-TYPE
 SYNTAX TruthValue
 MAX-ACCESS read-only
 STATUS current
 DESCRIPTION
 "This variable indicates if the data for this
 interval is valid."
 ::= { sonetFarEndVTIntervalEntry 6 }
-- conformance information
sonetConformance OBJECT IDENTIFIER ::= { sonetMIB 4 }
sonetGroups OBJECT IDENTIFIER ::= { sonetConformance 1 }
sonetCompliances OBJECT IDENTIFIER ::= { sonetConformance 2 }
-- deprecated compliance statement
sonetCompliance MODULE-COMPLIANCE
 STATUS deprecated
 DESCRIPTION
 "The compliance statement for SONET/SDH interfaces."
 MODULE -- this module
 MANDATORY-GROUPS { sonetMediumStuff, sonetSectionStuff }
 GROUP sonetLineStuff
 DESCRIPTION
 "Implementation of this group is mandatory for all
 SONET/SDH systems that terminate SONET/SDH Lines,
 Paths or Virtual Tributaries."
 GROUP sonetFarEndLineStuff
 DESCRIPTION
 "Implementation of this group is optional for all
 SONET/SDH systems that terminate SONET/SDH Lines,
 Paths or Virtual Tributaries, and that
 provide for a far end block error (FEBE)
 information at the SONET/SDH Line Layer."
 GROUP sonetPathStuff
 DESCRIPTION
 "Implementation of this group is mandatory for all
 SONET/SDH systems that terminate SONET/SDH
 Paths or Virtual Tributaries."
 OBJECT sonetPathCurrentWidth
 MIN-ACCESS read-only
 DESCRIPTION
 "Write access is not required."
 GROUP sonetFarEndPathStuff
 DESCRIPTION
 "Implementation of this group is optional for all
 SONET/SDH systems that terminate SONET/SDH
 Paths or Virtual Tributaries, and that process
 Far End information."
 GROUP sonetVTStuff
 DESCRIPTION
 "Implementation of this group is mandatory for all
 SONET/SDH systems that terminate SONET/SDH Virtual
 Tributaries."
 OBJECT sonetVTCurrentWidth
 MIN-ACCESS read-only
 DESCRIPTION
 "Write access is not required."
 GROUP sonetFarEndVTStuff
 DESCRIPTION
 "Implementation of this group is optional for all
 SONET/SDH systems that terminate the SONET/SDH
 floating Virtual Tributaries, and that process
 Far End information."
 ::= { sonetCompliances 1 }
-- current compliance statements
sonetCompliance2 MODULE-COMPLIANCE
 STATUS current
 DESCRIPTION
 "The compliance statement for SONET/SDH interfaces."
 MODULE -- this module
 MANDATORY-GROUPS { sonetMediumStuff2, sonetSectionStuff2 }
 OBJECT sonetMediumType
 MIN-ACCESS read-only
 DESCRIPTION
 "Write access is not required."
 OBJECT sonetMediumLineCoding
 MIN-ACCESS read-only
 DESCRIPTION
 "Write access is not required."
 OBJECT sonetMediumLineType
 MIN-ACCESS read-only
 DESCRIPTION
 "Write access is not required."
 OBJECT sonetMediumCircuitIdentifier
 MIN-ACCESS read-only
 DESCRIPTION
 "Write access is not required."
 OBJECT sonetMediumLoopbackConfig
 MIN-ACCESS read-only
 DESCRIPTION
 "Write access is not required."
 OBJECT sonetSESthresholdSet
 MIN-ACCESS read-only
 DESCRIPTION
 "Write access is not required, and only one
 of the enumerated values need be supported."
 GROUP sonetLineStuff2
 DESCRIPTION
 "Implementation of this group is mandatory for all
 SONET/SDH systems that terminate SONET/SDH Lines,
 Paths or Virtual Tributaries."
 GROUP sonetFarEndLineStuff2
 DESCRIPTION
 "Implementation of this group is optional for all
 SONET/SDH systems that terminate SONET/SDH Lines,
 Paths or Virtual Tributaries, and that
 provide for a far end block error (FEBE)
 information at the SONET/SDH Line Layer."
 GROUP sonetPathStuff2
 DESCRIPTION
 "Implementation of this group is mandatory for all
 SONET/SDH systems that terminate SONET/SDH
 Paths or Virtual Tributaries."
 OBJECT sonetPathCurrentWidth
 MIN-ACCESS read-only
 DESCRIPTION
 "Write access is not required."
 GROUP sonetFarEndPathStuff2
 DESCRIPTION
 "Implementation of this group is optional for all
 SONET/SDH systems that terminate SONET/SDH
 Paths or Virtual Tributaries, and that process
 Far End information."
 GROUP sonetVTStuff2
 DESCRIPTION
 "Implementation of this group is mandatory for all
 SONET/SDH systems that terminate SONET/SDH Virtual
 Tributaries."
 OBJECT sonetVTCurrentWidth
 MIN-ACCESS read-only
 DESCRIPTION
 "Write access is not required."
 GROUP sonetFarEndVTStuff2
 DESCRIPTION
 "Implementation of this group is optional for all
 SONET/SDH systems that terminate the SONET/SDH
 floating Virtual Tributaries, and that process
 Far End information."
 ::= { sonetCompliances 2 }
-- units of conformance
-- deprecated groups
sonetMediumStuff OBJECT-GROUP
 OBJECTS { sonetMediumType,
 sonetMediumTimeElapsed,
 sonetMediumValidIntervals,
 sonetMediumLineCoding,
 sonetMediumLineType,
 sonetMediumCircuitIdentifier }
 STATUS deprecated
 DESCRIPTION
 "A collection of objects providing configuration
 information applicable to all SONET/SDH interfaces."
 ::= { sonetGroups 1 }
sonetSectionStuff OBJECT-GROUP
 OBJECTS { sonetSectionCurrentStatus,
 sonetSectionCurrentESs,
 sonetSectionCurrentSESs,
 sonetSectionCurrentSEFSs,
 sonetSectionCurrentCVs,
 sonetSectionIntervalESs,
 sonetSectionIntervalSESs,
 sonetSectionIntervalSEFSs,
 sonetSectionIntervalCVs
 }
 STATUS deprecated
 DESCRIPTION
 "A collection of objects providing information
 specific to SONET/SDH Section interfaces."
 ::= { sonetGroups 2 }
sonetLineStuff OBJECT-GROUP
 OBJECTS { sonetLineCurrentStatus,
 sonetLineCurrentESs,
 sonetLineCurrentSESs,
 sonetLineCurrentCVs,
 sonetLineCurrentUASs,
 sonetLineIntervalESs,
 sonetLineIntervalSESs,
 sonetLineIntervalCVs,
 sonetLineIntervalUASs }
 STATUS deprecated
 DESCRIPTION
 "A collection of objects providing information
 specific to SONET/SDH Line interfaces."
 ::= { sonetGroups 3 }
sonetFarEndLineStuff OBJECT-GROUP
 OBJECTS { sonetFarEndLineCurrentESs,
 sonetFarEndLineCurrentSESs,
 sonetFarEndLineCurrentCVs,
 sonetFarEndLineCurrentUASs,
 sonetFarEndLineIntervalESs,
 sonetFarEndLineIntervalSESs,
 sonetFarEndLineIntervalCVs,
 sonetFarEndLineIntervalUASs }
 STATUS deprecated
 DESCRIPTION
 "A collection of objects providing information
 specific to SONET/SDH Line interfaces,
 and maintaining Line Far End information."
 ::= { sonetGroups 4 }
sonetPathStuff OBJECT-GROUP
 OBJECTS { sonetPathCurrentWidth,
 sonetPathCurrentStatus,
 sonetPathCurrentESs,
 sonetPathCurrentSESs,
 sonetPathCurrentCVs,
 sonetPathCurrentUASs,
 sonetPathIntervalESs,
 sonetPathIntervalSESs,
 sonetPathIntervalCVs,
 sonetPathIntervalUASs }
 STATUS deprecated
 DESCRIPTION
 "A collection of objects providing information
 specific to SONET/SDH Path interfaces."
 ::= { sonetGroups 5 }
sonetFarEndPathStuff OBJECT-GROUP
 OBJECTS { sonetFarEndPathCurrentESs,
 sonetFarEndPathCurrentSESs,
 sonetFarEndPathCurrentCVs,
 sonetFarEndPathCurrentUASs,
 sonetFarEndPathIntervalESs,
 sonetFarEndPathIntervalSESs,
 sonetFarEndPathIntervalCVs,
 sonetFarEndPathIntervalUASs }
 STATUS deprecated
 DESCRIPTION
 "A collection of objects providing information
 specific to SONET/SDH Path interfaces,
 and maintaining Path Far End information."
 ::= { sonetGroups 6 }
sonetVTStuff OBJECT-GROUP
 OBJECTS { sonetVTCurrentWidth,
 sonetVTCurrentStatus,
 sonetVTCurrentESs,
 sonetVTCurrentSESs,
 sonetVTCurrentCVs,
 sonetVTCurrentUASs,
 sonetVTIntervalESs,
 sonetVTIntervalSESs,
 sonetVTIntervalCVs,
 sonetVTIntervalUASs }
 STATUS deprecated
 DESCRIPTION
 "A collection of objects providing information
 specific to SONET/SDH VT interfaces."
 ::= { sonetGroups 7 }
sonetFarEndVTStuff OBJECT-GROUP
 OBJECTS { sonetFarEndVTCurrentESs,
 sonetFarEndVTCurrentSESs,
 sonetFarEndVTCurrentCVs,
 sonetFarEndVTCurrentUASs,
 sonetFarEndVTIntervalESs,
 sonetFarEndVTIntervalSESs,
 sonetFarEndVTIntervalCVs,
 sonetFarEndVTIntervalUASs }
 STATUS deprecated
 DESCRIPTION
 "A collection of objects providing information
 specific to SONET/SDH VT interfaces,
 and maintaining VT Far End information."
 ::= { sonetGroups 8 }
-- current groups
sonetMediumStuff2 OBJECT-GROUP
 OBJECTS { sonetMediumType,
 sonetMediumTimeElapsed,
 sonetMediumValidIntervals,
 sonetMediumLineCoding,
 sonetMediumLineType,
 sonetMediumCircuitIdentifier,
 sonetMediumInvalidIntervals,
 sonetMediumLoopbackConfig,
 sonetSESthresholdSet }
 STATUS current
 DESCRIPTION
 "A collection of objects providing configuration
 information applicable to all SONET/SDH interfaces."
 ::= { sonetGroups 9 }
sonetSectionStuff2 OBJECT-GROUP
 OBJECTS { sonetSectionCurrentStatus,
 sonetSectionCurrentESs,
 sonetSectionCurrentSESs,
 sonetSectionCurrentSEFSs,
 sonetSectionCurrentCVs,
 sonetSectionIntervalESs,
 sonetSectionIntervalSESs,
 sonetSectionIntervalSEFSs,
 sonetSectionIntervalCVs,
 sonetSectionIntervalValidData }
 STATUS current
 DESCRIPTION
 "A collection of objects providing information
 specific to SONET/SDH Section interfaces."
 ::= { sonetGroups 10 }
sonetLineStuff2 OBJECT-GROUP
 OBJECTS { sonetLineCurrentStatus,
 sonetLineCurrentESs,
 sonetLineCurrentSESs,
 sonetLineCurrentCVs,
 sonetLineCurrentUASs,
 sonetLineIntervalESs,
 sonetLineIntervalSESs,
 sonetLineIntervalCVs,
 sonetLineIntervalUASs,
 sonetLineIntervalValidData }
 STATUS current
 DESCRIPTION
 "A collection of objects providing information
 specific to SONET/SDH Line interfaces."
 ::= { sonetGroups 11 }
sonetPathStuff2 OBJECT-GROUP
 OBJECTS { sonetPathCurrentWidth,
 sonetPathCurrentStatus,
 sonetPathCurrentESs,
 sonetPathCurrentSESs,
 sonetPathCurrentCVs,
 sonetPathCurrentUASs,
 sonetPathIntervalESs,
 sonetPathIntervalSESs,
 sonetPathIntervalCVs,
 sonetPathIntervalUASs,
 sonetPathIntervalValidData }
 STATUS current
 DESCRIPTION
 "A collection of objects providing information
 specific to SONET/SDH Path interfaces."
 ::= { sonetGroups 12 }
sonetVTStuff2 OBJECT-GROUP
 OBJECTS { sonetVTCurrentWidth,
 sonetVTCurrentStatus,
 sonetVTCurrentESs,
 sonetVTCurrentSESs,
 sonetVTCurrentCVs,
 sonetVTCurrentUASs,
 sonetVTIntervalESs,
 sonetVTIntervalSESs,
 sonetVTIntervalCVs,
 sonetVTIntervalUASs,
 sonetVTIntervalValidData }
 STATUS current
 DESCRIPTION
 "A collection of objects providing information
 specific to SONET/SDH VT interfaces."
 ::= { sonetGroups 13 }
sonetFarEndLineStuff2 OBJECT-GROUP
 OBJECTS { sonetFarEndLineCurrentESs,
 sonetFarEndLineCurrentSESs,
 sonetFarEndLineCurrentCVs,
 sonetFarEndLineCurrentUASs,
 sonetFarEndLineIntervalESs,
 sonetFarEndLineIntervalSESs,
 sonetFarEndLineIntervalCVs,
 sonetFarEndLineIntervalUASs,
 sonetFarEndLineIntervalValidData }
 STATUS current
 DESCRIPTION
 "A collection of objects providing information
 specific to SONET/SDH Line interfaces,
 and maintaining Line Far End information."
 ::= { sonetGroups 14 }
sonetFarEndPathStuff2 OBJECT-GROUP
 OBJECTS { sonetFarEndPathCurrentESs,
 sonetFarEndPathCurrentSESs,
 sonetFarEndPathCurrentCVs,
 sonetFarEndPathCurrentUASs,
 sonetFarEndPathIntervalESs,
 sonetFarEndPathIntervalSESs,
 sonetFarEndPathIntervalCVs,
 sonetFarEndPathIntervalUASs,
 sonetFarEndPathIntervalValidData }
 STATUS current
 DESCRIPTION
 "A collection of objects providing information
 specific to SONET/SDH Path interfaces,
 and maintaining Path Far End information."
 ::= { sonetGroups 15 }
sonetFarEndVTStuff2 OBJECT-GROUP
 OBJECTS { sonetFarEndVTCurrentESs,
 sonetFarEndVTCurrentSESs,
 sonetFarEndVTCurrentCVs,
 sonetFarEndVTCurrentUASs,
 sonetFarEndVTIntervalESs,
 sonetFarEndVTIntervalSESs,
 sonetFarEndVTIntervalCVs,
 sonetFarEndVTIntervalUASs,
 sonetFarEndVTIntervalValidData }
 STATUS current
 DESCRIPTION
 "A collection of objects providing information
 specific to SONET/SDH VT interfaces,
 and maintaining VT Far End information."
 ::= { sonetGroups 16 }
END
5. Acknowledgments
 This specification is a product of the AToM MIB Working Group. The
 author would like to acknowledge Mike Heard for his many valuable
 contributions to this memo.
6. Security Considerations
 There are a number of management objects defined in this MIB that
 have a MAX-ACCESS clause of read-write and/or read-create. Such
 objects may be considered sensitive or vulnerable in some network
 environments. The support for SET operations in a non-secure
 environment without proper protection can have a negative effect on
 network operations.
 The managed objects in this MIB contain sensitive information since,
 collectively, they allow influencing of interfaces in SONET/SDH
 equipment or networks and provide information of their configuration.
 It is thus important to control even GET access to these objects and
 possibly to even encrypt the values of these object when sending them
 over the network via SNMP. Not all versions of SNMP provide features
 for such a secure environment.
 SNMPv1 by itself is not a secure environment. Even if the network
 itself is secure (for example by using IPSec), even then, there is no
 control as to who on the secure network is allowed to access and
 GET/SET (read/change/create/delete) the objects in this MIB.
 It is recommended that the implementers consider the security
 features as provided by the SNMPv3 framework. Specifically, the use
 of the User-based Security Model RFC 2274 [12] and the View-based
 Access Control Model RFC 2275 [15] is recommended.
 It is then a customer/user responsibility to ensure that the SNMP
 entity giving access to an instance of this MIB, is properly
 configured to give access to the objects only to those principals
 (users) that have legitimate rights to indeed GET or SET
 (change/create/delete) them.
7. References
 [1] Harrington, D., Presuhn, R. and B. Wijnen, "An tecture for
 Describing SNMP Management Frameworks", RFC 2271, January 1998.
 [2] Rose, M. and K. McCloghrie, "Structure and Identification of
 Management Information for TCP/IP-based Internets", STD 16, RFC
 1155, May 1990.
 [3] Rose, M. and K. McCloghrie, "Concise MIB Definitions", STD 16,
 RFC 1212, March 1991.
 [4] Rose, M., "A Convention for Defining Traps for use with the
 SNMP", RFC 1215, March 1991
 [5] SNMPv2 Working Group, Case, J., McCloghrie, K., Rose, M. and S.
 Waldbusser, "Structure of Management Information for Version 2
 of the Simple Network Management Protocol (SNMPv2)", RFC 1902,
 January 1996.
 [6] SNMPv2 Working Group, Case, J., McCloghrie, K., Rose, M. and S.
 Waldbusser, "Textual Conventions for Version 2 of the Simple
 Network Management Protocol (SNMPv2)", RFC 1903, January 1996.
 [7] SNMPv2 Working Group, Case, J., McCloghrie, K., Rose, M. and S.
 Waldbusser, "Conformance Statements for Version 2 of the Simple
 Network Management Protocol (SNMPv2)", RFC 1904, January 1996.
 [8] Case, J., Fedor, M., Schoffstall, M. and J. Davin, "Simple
 Network Management Protocol", STD 15, RFC 1157, May 1990.
 [9] SNMPv2 Working Group, Case, J., McCloghrie, K., Rose, M. and S.
 Waldbusser, "Introduction to Community-based SNMPv2", RFC 1901,
 January 1996.
 [10] SNMPv2 Working Group, Case, J., McCloghrie, K., Rose, M. and S.
 Waldbusser, "Transport Mappings for Version 2 of the Simple
 Network Management Protocol (SNMPv2)", RFC 1906, January 1996.
 [11] Case, J., Harrington D., Presuhn R. and B. Wijnen, "Message
 Processing and Dispatching for the Simple Network Management
 Protocol (SNMP)", RFC 2272, January 1998.
 [12] Blumenthal, U. and B. Wijnen, "User-based Security Model (USM)
 for version 3 of the Simple Network Management Protocol
 (SNMPv3)", RFC 2274, January 1998.
 [13] SNMPv2 Working Group, Case, J., McCloghrie, K., Rose, M. and S.
 Waldbusser, "Protocol Operations for Version 2 of the Simple
 Network Management Protocol (SNMPv2)", RFC 1905, January 1996.
 [14] Levi, D., Meyer, P. and B. Stewart, SNMPv3 Applications", RFC
 2273, January 1998.
 [15] Wijnen, B., Presuhn, R. and K. McCloghrie, "View-based Access
 Control Model (VACM) for the Simple Network Management Protocol
 (SNMP)", RFC 2275, January 1998.
 [16] McCloghrie, K. and M. Rose, "Management Information Base for
 Network Management of TCP/IP-based internets - MIB-II", STD 17,
 RFC 1213, March 1991.
 [17] Information processing systems - Open Systems Interconnection -
 Specification of Abstract Syntax Notation One (ASN.1),
 International Organization for Standardization. International
 Standard 8824, (December, 1987).
 [18] Information processing systems - Open Systems Interconnection -
 Specification of Basic Encoding Rules for Abstract Notation One
 (ASN.1), International Organization for Standardization.
 International Standard 8825, (December, 1987).
 [19] American National Standard for Telecommunications - Digital
 Hierarchy - Optical Interface Rates and Formats Specification,
 ANSI T1.105-1988.
 [20] American National Standard for Telecommunications - Digital
 Hierarchy - Optical Interface Rates and Formats Specification,
 ANSI T1.105-1991.
 [21] American National Standard for Telecommunications - Digital
 Hierarchy - Optical Interface Specification (Single-Mode), ANSI
 T1.106-1988.
 [22] Draft American National Standard for Telecommunications -
 Digital Hierarchy - Layer 1 In-Service Digital Transmission
 Performance Monitoring, T1M1.3/93-005R2, July 1993.
 [23] McCloghrie, K. and F. Kastenholz, "The Interfaces Group MIB",
 RFC 2233, November 1997.
 [24] Fowler, D., "Definitions of Managed Objects for the DS3/E3
 Interface Type", RFC 2496, January 1999.
 [25] Fowler, D., "Definitions of Managed Objects for the DS1, E1, DS2
 and E2 Interface Types", RFC 2495, January 1999.
 [26] CCITT Recommendation G.707, "Synchronous Digital Hierarchy Bit
 Rates", June 1992.
 [27] CCITT Recommendation G.708, "Network Node Interface for the
 Synchronous Digital Hierarchy", June 1992.
 [28] CCITT Recommendation G.709, "Synchronous Multiplexing
 Structure", June 1992.
 [29] CCITT Recommendation G.783, "Characteristics of Synchronous
 Digital Hierarchy (SDH) Multiplexing Equipment Functional
 Blocks", November 1992.
 [30] Brown, T. and K. Tesink, "Definitions of Managed Objects for the
 SONET/SDH Interface Type", RFC 1595, March 1994.
 [31] American National Standard for Telecommunications - Digital
 Hierarchy - Layer 1 In-Service Digital Transmission Performance
 Monitoring, ANSI T1.231-1993, September 1993.
 [32] Bellcore TR-NWT-000253, Issue 1, "Synchronous Optical Network
 (SONET) Transport Systems: Common Generic Criteria", December
 1991.
 [33] ITU Recommendation G.826, "Error Performance Parameters and
 Objectives for International Constant Bit Rate Digital Paths at
 or above Primary Rate", September 1995 (COM 13-R57E).
 [34] Bellcore GR-253-CORE, Issue 2, "Synchronous Optical Network
 (SONET) Transport Systems Common Generic Criteria", December
 1995.
 [35] American National Standard for Telecommunications - Digital
 Hierarchy - Layer 1 In-Service Digital Transmission Performance
 Monitoring, ANSI T1.231-1997, September 1997.
 [36] Tesink, K., " Textual Conventions for MIB Modules Using
 Performance History Based on 15 Minute Intervals", RFC 2493,
 January 1999.
8. Author's Address
 Kaj Tesink
 Telcordia Technologies
 331 Newman Springs Road
 P.O. Box 7020
 Red Bank, NJ 07701-7020
 Phone: (732) 758-5254
 EMail: kaj@research.telcordia.com
9. Intellectual Property
 The IETF takes no position regarding the validity or scope of any
 intellectual property or other rights that might be claimed to
 pertain to the implementation or use of the technology described in
 this document or the extent to which any license under such rights
 might or might not be available; neither does it represent that it
 has made any effort to identify any such rights. Information on the
 IETF's procedures with respect to rights in standards-track and
 standards-related documentation can be found in BCP-11. Copies of
 claims of rights made available for publication and any assurances of
 licenses to be made available, or the result of an attempt made to
 obtain a general license or permission for the use of such
 proprietary rights by implementors or users of this specification can
 be obtained from the IETF Secretariat.
 The IETF invites any interested party to bring to its attention any
 copyrights, patents or patent applications, or other proprietary
 rights which may cover technology that may be required to practice
 this standard. Please address the information to the IETF Executive
 Director.
Appendix A: The delay-line approach to statistics collection.
 According to ANSI T1.231 unavailable time begins at the onset of 10
 contiguous severely errored seconds -- that is, unavailable time
 starts with the first of the 10 contiguous SESs -- and while an
 interface is deemed unavailable all counters for that interface are
 frozen except for the UAS count. Since changes in the signal state
 lag the data to which they apply by 10 seconds, an implementation
 which wishes to avoid making retroactive adjustments to the counts
 must pass the the one-second statistics through a 10-second delay
 line prior to updating any counters. That can be done by performing
 the following steps at the end of each one second interval.
 i) Read near/far end line and path CV counts and alarm status flags
 from the hardware.
 ii) Accumulate the CV counts for the preceding second and compare
 them to the ES and SES threshold for the layer in question.
 Update the signal state and shift the one-second CV counts and
 ES/SES flags into the 10-element delay line. Note that far-end
 one-second statistics are to be flagged as "absent" during any
 second in which there is an incoming defect at the layer in
 question or at any lower layer.
 iii) Update the current interval statistics using the signal state
 from the previous update cycle and the one-second CV counts and
 ES/SES flags shifted out of the 10-element delay line.
 This procedure guarantees that the statistical counters will be
 correctly updated at all times, although they lag real time by 10
 seconds. It is illustrated in the figure below. At the end of each
 15 minutes interval the current interval counts are transferred to
 the most recent interval entry and each interval is shifted up by
 one position, with the oldest being discarded if necessary in order
 to make room. The current interval counts then start over from zero.
 Note, however, that the signal state calculation does not start anew
 at each interval boundary; rather, signal state information is
 retained across interval boundaries.
 +--------------------------------------------------------------+
 | READ COUNTERS & STATUS INFO FROM HARDWARE |
 | |
 |LOS OOF/ SECT LINE LINE LINE LINE PATH PATH PATH PATH PATH |
 | LOF CV AIS CV RDI FEBE AIS LOP CV RDI CV |
 +--------------------------------------------------------------+
 | | | | | | | | | | | |
 | | | | | | | | | | | |
 V V V V V V V V V V V V
 +--------------------------------------------------------------+
 | ACCUM ONE-SEC STATS, CHK ERR THRESHOLDS, & UPDT SIGNAL STATE |
 | |
 | |
 | NEAR END/FAR END NEAR END/FAR END |
 |SECT SECT SECT LINE LINE LINE LINE PATH PATH PATH PATH |
 |CV ES SES CV ES SES AVA/UNA CV ES SES AVA/UNA |
 +--------------------------------------------------------------+
 | | | | | | | | | | |
 | | | | | | | | | | |
 V V V V V V | V V V |
 +-------------+ +-------------+ | +-------------+ |
 |ONE-SEC DELAY| |ONE-SEC DELAY| | |ONE-SEC DELAY| |
 | (1 OF 10) | | (1 OF 10) | | | (1 OF 10) | |
 |CV ES SES| |CV ES SES| | |CV ES SES| |
 +-------------+ +-------------+ | +-------------+ |
 | | | | | | | | | | |
 / / / / / / / / / / /
 / / / / / / / / / / /
 | | | | | | | | | | |
 V V V V V V | V V V |
 +-------------+ +-------------+ | +-------------+ |
 |ONE-SEC DELAY| |ONE-SEC DELAY| | |ONE-SEC DELAY| |
 | (10 OF 10) | | (10 OF 10) | | | (10 OF 10) | |
 |CV ES SES| |CV ES SES| | |CV ES SES| |
 +-------------+ +-------------+ | +-------------+ |
 | | | | | | | | | | |
 | | | | | | | | | | |
 V V V V V V V V V V V
 +--------------------------------------------------------------+
 | UPDATE STATISTICS COUNTERS |
 | |
 | NEAR END/FAR END NEAR END/FAR END |
 | SECTION LINE PATH |
 | CV ES EFS SES CV ES EFS SES AS UAS CV ES EFS SES AS UAS |
 +--------------------------------------------------------------+
 Note that if such a procedure is adopted there is no current interval
 data for the first ten seconds after a system comes up.
 noSuchInstance must be returned if a management station attempts to
 access the current interval counters during this time.
 It is an implementation-specific matter whether an agent assumes that
 the initial state of the interface is available or unavailable.
Appendix B - RFC1595 SES interpretation
 This appendix contains the values for x for the Section, Line, Path,
 and VT Layers as used in [22][30][32].
 Value for x for SONET/SDH Section SES Definition
 Rate x Minimum Bit Error Rate
 =======================================================
 OC-1 9 1.5 x 10^-7
 OC-3 16 1 x 10^-7
 OC-9 47 1 x 10^-7
 OC-12 63 1 x 10^-7
 OC-18 94 1 x 10^-7
 OC-24 125 1 x 10^-7
 OC-36 187 1 x 10^-7
 OC-48 249 1 x 10^-7
 Value for x for SONET/SDH Line SES Definition
 Rate x Minimum Bit Error Rate
 =======================================================
 OC-1 12 2 x 10^-7
 OC-3 32 2 x 10^-7
 OC-9 47 2 x 10^-7
 OC-12 124 2 x 10^-7
 OC-18 186 2 x 10^-7
 OC-24 248 2 x 10^-7
 OC-36 370 2 x 10^-7
 OC-48 494 2 x 10^-7
 Value for x for SONET/SDH STS-Path SES Definition
 Rate x Minimum Bit Error Rate
 =======================================================
 STS-1 9 1.5 x 10^-7
 STS-3 16 1 x 10^-7
 Value for x for SONET/SDH VT-Path SES Definition
 Rate x Minimum Bit Error Rate
 =======================================================
 VT1.5 4 2 x 10^-6
 VT2 6 2 x 10^-6
 VT3 8 2 x 10^-6
 VT6 14 2 x 10^-6
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