RFC 1304 - Definitions of Managed Objects for the SIP Interface Type

Network Working Group T. Cox
Request For Comments: 1304 K. Tesink
 Editors
 Bell Communications Research
 February 1992
 Definitions of Managed Objects
 for the SIP Interface Type
Status of this Memo
 This RFC specifies an IAB standards track protocol for the Internet
 community, and requests discussion and suggestions for improvements.
 Please refer to the current edition of the "IAB Official Protocol
 Standards" for the standardization state and status of this protocol.
 Distribution of this memo is unlimited.
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 SIP (SMDS Interface
 Protocol) objects.
Table of Contents
 1. The Network Management Framework ............................ 2
 2. Objects ..................................................... 2
 2.1 Format of Definitions ...................................... 3
 3. Overview .................................................... 3
 4. Object Definitions .......................................... 4
 4.1 The SIP Level 3 group ...................................... 4
 4.2 The SIP Level 2 group ...................................... 8
 4.3 The SIP PLCP group ......................................... 11
 4.3.1 The SIP DS1 PLCP group ................................... 12
 4.3.2 The SIP DS3 PLCP group ................................... 14
 4.4 The SMDS Applications group ................................ 16
 4.5 The SMDS Carrier Selection group ........................... 18
 4.6 The SIP Error Log group .................................... 18
 5. Acknowledgments ............................................. 23
 6. References .................................................. 23
 7. Security Considerations...................................... 25
 8. Authors' Addresses........................................... 25
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RFC 1304 SIP Objects February 1992
. The Network Management Framework
 The Internet-standard Network Management Framework consists of three
 components. They are:
 RFC 1155 [3] which defines the SMI, the mechanisms used for
 describing and naming objects for the purpose of management. RFC
 1212 [9] defines a more concise description mechanism, which is
 wholly consistent with the SMI.
 RFC 1156 [4] which defines MIB-I, the core set of managed objects
 for the Internet suite of protocols. RFC 1213 [6], defines MIB-
 II, an evolution of MIB-I based on implementation experience and
 new operational requirements.
 RFC 1157 [5] which defines the SNMP, the protocol used for network
 access to managed objects.
 The Framework permits new objects to be defined for the purpose of
 experimentation and evaluation.
. Objects
 Managed objects are accessed via a virtual information store, termed
 the Management Information Base or MIB. Objects in the MIB are
 defined using the subset of Abstract Syntax Notation One (ASN.1)
 International Standard 8824 [7] defined in the SMI. In particular,
 each object has a name, a syntax, and an encoding. The name is an
 object identifier, an administratively assigned name, which specifies
 an object type. The object type together with an object instance
 serves to uniquely identify a specific instantiation of the object.
 For human convenience, we often use a textual string, termed the
 OBJECT DESCRIPTOR, to also refer to the object type.
 The syntax of an object type defines the abstract data structure
 corresponding to that object type. The ASN.1 language is used for
 this purpose. However, the SMI RFC 1155 [3] purposely restricts the
 ASN.1 constructs which may be used. These restrictions are
 explicitly made for simplicity.
 The encoding of an object type is simply how that object type is
 represented using the object type's syntax. Implicitly tied to the
 notion of an object type's syntax and encoding is how the object type
 is represented when being transmitted on the network. The SMI
 specifies the use of the basic encoding rules of ASN.1 International
 Standard 8825 [8], subject to the additional requirements imposed by
 the SNMP.
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RFC 1304 SIP Objects February 1992
2.1. Format of Definitions
 Section 4 contains contains the specification of all object types
 contained in this MIB module. The object types are defined using the
 conventions defined in the SMI, as amended by the extensions
 specified in RFC 1212 [9].
. Overview
 These objects are used when the particular media being used to
 realize an interface is a SIP interface. At present, this applies to
 these values of the ifType variable in the Internet-standard MIB:
 sip (31)
 For these interfaces, the value of the ifSpecific variable in the
 MIB-II [6] has the OBJECT IDENTIFIER value:
 sip OBJECT IDENTIFIER ::= { transmission 31 }
 The definitions contained herein are based on the SIP specifications
 in Bellcore TR-TSV-000772 and TR-TSV-000773 [11,12].
 The SIP (SMDS Interface Protocol) protocol stack is defined as
 follows in TR-TSV-000772 [11]:
 ___________________
 | |
 | SIP Level 3 [11] |
 |___________________|
 | |
 | SIP Level 2 [11] |
 |___________________|
 | |
 | PLCP [12] |
 |___________________|
 | |
 | DS1 or DS3 [12] |
 |___________________|
 The PLCP (Physical Layer Convergence Procedure) adapts the
 capabilities of the transmission system (DS1 or DS3 formats) to the
 service expected by SIP Level 2. Managed objects for DS1 and DS3
 Interface Types are defined in RFC 1232 [13] and RFC 1233 [14]
 respectively (and amended in RFC 1239 [17]), and can be utilized for
 management of SIP interfaces. This document defines managed objects
 for the remaining protocol levels of the SIP Interface Type. This
 document does not specify objects for the management of subscription
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RFC 1304 SIP Objects February 1992
 or configuration of Subscriber-Network Interfaces (SNIs). Those
 objects are defined in Definitions of Managed Objects for SMDS
 Subscription [18]. Bellcore requirements on these objects are
 specified in TA-TSV-001062 [16].
. Object Definitions
 RFC1304-MIB DEFINITIONS ::= BEGIN
 IMPORTS
 Counter, TimeTicks, IpAddress
 FROM RFC1155-SMI
 transmission
 FROM RFC1213-MIB
 OBJECT-TYPE
 FROM RFC-1212;
 -- This MIB module uses the extended OBJECT-TYPE macro
 -- as defined in RFC-1212.
 -- This is the MIB module for the SIP objects.
 sip OBJECT IDENTIFIER ::= { transmission 31 }
 -- All representations of SMDS addresses in this MIB
 -- module use, as a textual convention (i.e., this
 -- convention does not affect their encoding), the
 -- data type:
 SMDSAddress ::= OCTET STRING (SIZE (8))
 -- the 60-bit SMDS address, preceded by 4 bits with the
 -- following values:
 -- "1100" when representing an individual address
 -- "1110" when representing a group address
 -- The SIP Level 3 group
 -- Implementation of the SIP Level 3 group is mandatory
 -- for all systems implementing SIP Level 3.
 sipL3Table OBJECT-TYPE
 SYNTAX SEQUENCE OF SipL3Entry
 ACCESS not-accessible
 STATUS mandatory
 DESCRIPTION
 "This table contains SIP L3 parameters and
 state variables, one entry per SIP port."
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RFC 1304 SIP Objects February 1992
 ::= { sip 1 }
 sipL3Entry OBJECT-TYPE
 SYNTAX SipL3Entry
 ACCESS not-accessible
 STATUS mandatory
 DESCRIPTION
 "This list contains SIP L3 parameters and
 state variables."
 INDEX { sipL3Index }
 ::= { sipL3Table 1 }
 SipL3Entry ::= SEQUENCE {
 sipL3Index
 INTEGER,
 sipL3ReceivedIndividualDAs
 Counter,
 sipL3ReceivedGAs
 Counter,
 sipL3UnrecognizedIndividualDAs
 Counter,
 sipL3UnrecognizedGAs
 Counter,
 sipL3SentIndividualDAs
 Counter,
 sipL3SentGAs
 Counter,
 sipL3Errors
 Counter,
 sipL3InvalidSMDSAddressTypes
 Counter,
 sipL3VersionSupport
 INTEGER
 }
 sipL3Index OBJECT-TYPE
 SYNTAX INTEGER (1..65535)
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The value of this object identifies the SIP
 port interface for which this entry contains
 management information. The value of this
 object for a particular interface has the same
 value as the ifIndex object, defined in RFC
 1156 and RFC 1213, for the same interface."
 ::= { sipL3Entry 1 }
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RFC 1304 SIP Objects February 1992
 sipL3ReceivedIndividualDAs OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The total number of individually addressed SIP
 Level 3 PDUs received from the remote system
 across the SNI. The total includes only
 unerrored L3PDUs."
 ::= { sipL3Entry 2 }
 sipL3ReceivedGAs OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The total number of group addressed SIP Level 3
 PDUs received from the remote system across the
 SNI. The total includes only unerrored L3PDUs."
 ::= { sipL3Entry 3 }
 sipL3UnrecognizedIndividualDAs OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The number of SIP Level 3 PDUs received from the
 remote system with invalid or unknown individual
 destination addresses (Destination Address
 Screening violations are not included). See SMDS
 Subscription MIB module."
 ::= { sipL3Entry 4 }
 sipL3UnrecognizedGAs OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The number of SIP Level 3 PDUs received from the
 remote system with invalid or unknown group
 addresses. (Destination Address Screening
 violations are not included). See SMDS
 Subscription MIB module."
 ::= { sipL3Entry 5 }
 sipL3SentIndividualDAs OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
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RFC 1304 SIP Objects February 1992
 STATUS mandatory
 DESCRIPTION
 "The number of individually addressed SIP Level 3
 PDUs that have been sent by this system across the
 SNI."
 ::= { sipL3Entry 6 }
 sipL3SentGAs OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The number of group addressed SIP L3PDUs that
 have been sent by this system across the SNI."
 ::= { sipL3Entry 7 }
 -- The total number of SIP L3PDU errors can be calculated as
 -- (Syntactic errors + Semantic Service errors )
 -- Syntactic errors include:
 -- sipL3Errors
 -- Latest occurrences of syntactic error types are logged in
 -- sipL3PDUErrorTable.
 -- Semantic Service errors include:
 -- sipL3UnrecognizedIndividualDAs
 -- sipL3UnrecognizedGAs
 -- sipL3InvalidSMDSAddressTypes
 -- Note that public networks supporting SMDS may discard
 -- SIP L3PDUs due to subscription violations. Related
 -- managed objects are defined in Definitions of Managed
 -- Objects for SMDS Subscription.
 sipL3Errors OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The total number of SIP Level 3 PDUs received
 from the remote system that were discovered to
 have errors (including protocol processing and bit
 errors but excluding addressing-related errors)
 and were discarded. Includes both group addressed
 L3PDUs and L3PDUs containing an individual
 destination address."
 ::= { sipL3Entry 8 }
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RFC 1304 SIP Objects February 1992
 sipL3InvalidSMDSAddressTypes OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The number of SIP Level 3 PDUs received from the
 remote system that had the Source or Destination
 Address_Type subfields, (the four most significant
 bits of the 64 bit address field), not equal to
 the value 1100 or 1110. Also, an error is
 considered to have occurred if the Address_Type
 field for a Source Address, the four most
 significant bits of the 64 bits, is equal to 1110
 (a group address)."
 ::= { sipL3Entry 9 }
 sipL3VersionSupport OBJECT-TYPE
 SYNTAX INTEGER (1..65535)
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "A value which indicates the version(s) of SIP
 that this interface supports. The value is a sum.
 This sum initially takes the value zero. For each
 version, V, that this interface supports, 2 raised
 to (V - 1) is added to the sum. For example, a
 port supporting versions 1 and 2 would have a
 value of (2^(1-1)+2^(2-1))=3. The
 sipL3VersionSupport is effectively a bit mask with
 Version 1 equal to the least significant bit
 (LSB)."
 ::= { sipL3Entry 10 }
 -- The SIP Level 2 group
 -- Implementation of the SIP Level 2 group is mandatory
 -- for all systems implementing SIP Level 2.
 sipL2Table OBJECT-TYPE
 SYNTAX SEQUENCE OF SipL2Entry
 ACCESS not-accessible
 STATUS mandatory
 DESCRIPTION
 "This table contains SIP L2PDU parameters and
 state variables, one entry per SIP port."
 ::= { sip 2 }
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RFC 1304 SIP Objects February 1992
 sipL2Entry OBJECT-TYPE
 SYNTAX SipL2Entry
 ACCESS not-accessible
 STATUS mandatory
 DESCRIPTION
 "This list contains SIP L2 parameters and state
 variables."
 INDEX { sipL2Index }
 ::= { sipL2Table 1 }
 SipL2Entry ::= SEQUENCE {
 sipL2Index
 INTEGER,
 sipL2ReceivedCounts
 Counter,
 sipL2SentCounts
 Counter,
 sipL2HcsOrCRCErrors
 Counter,
 sipL2PayloadLengthErrors
 Counter,
 sipL2SequenceNumberErrors
 Counter,
 sipL2MidCurrentlyActiveErrors
 Counter,
 sipL2BomOrSSMsMIDErrors
 Counter,
 sipL2EomsMIDErrors
 Counter
 }
 sipL2Index OBJECT-TYPE
 SYNTAX INTEGER (1..65535)
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The value of this object identifies the SIP port
 interface for which this entry contains management
 information. The value of this object for a
 particular interface has the same value as the
 ifIndex object, defined in RFC 1156 and RFC 1213,
 for the same interface."
 ::= { sipL2Entry 1 }
 sipL2ReceivedCounts OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
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RFC 1304 SIP Objects February 1992
 DESCRIPTION
 "The number of SIP Level 2 PDUs received from the
 remote system across the SNI. The total includes
 only unerrored L2PDUs."
 ::= { sipL2Entry 2 }
 sipL2SentCounts OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The number of SIP Level 2 PDUs that have been
 sent by this system across the SNI."
 ::= { sipL2Entry 3 }
 -- The total number of SIP L2PDU errors can be calculated as
 -- the sum of:
 -- sipL2HcsOrCRCErrors
 -- sipL2PayloadLengthErrors
 -- sipL2SequenceNumberErrors
 -- sipL2MidCurrentlyActiveErrors
 -- sipL2BomOrSSMsMIDErrors
 -- sipL2EomsMIDErrors
 sipL2HcsOrCRCErrors OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The number of received SIP Level 2 PDUs that were
 discovered to have either a Header Check Sequence
 error or a Payload CRC violation."
 ::= { sipL2Entry 4 }
 sipL2PayloadLengthErrors OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The number of received SIP Level 2 PDUs that had
 Payload Length errors that fall in the following
 specifications:
 - SSM L2_PDU payload length field value less
 - than 28 octets or greater than 44 octets,
 - BOM or COM L2_PDU payload length field not
 - equal to 44 octets,
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RFC 1304 SIP Objects February 1992
 - EOM L2_PDU payload length field value less
 - than 4 octets or greater than 44 octets."
 ::= { sipL2Entry 5 }
 sipL2SequenceNumberErrors OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The number of received SIP Level 2 PDUs that had
 a sequence number within the L2PDU not equal to
 the expected sequence number of the SMDS SS
 receive process."
 ::= { sipL2Entry 6 }
 sipL2MidCurrentlyActiveErrors OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The number of received SIP Level 2 PDUs that are
 BOMs for which an active receive process is
 already started."
 ::= { sipL2Entry 7 }
 sipL2BomOrSSMsMIDErrors OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The number of received SIP Level 2 PDUs that are
 SSMs with a MID not equal to zero or are BOMs with
 MIDs equal to zero."
 ::= { sipL2Entry 8 }
 sipL2EomsMIDErrors OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The number of received SIP Level 2 PDUs that are
 EOMs for which there is no active receive process
 for the MID (i.e., the receipt of an EOM which
 does not correspond to a BOM) OR the EOM has a MID
 equal to zero."
 ::= { sipL2Entry 9 }
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RFC 1304 SIP Objects February 1992
 -- The SIP PLCP group
 -- Implementation of one of these groups is mandatory
 -- if the PLCP is implemented.
 sipPLCP OBJECT IDENTIFIER ::= { sip 3 }
 -- The SIP DS1 PLCP group
 -- Implementation of this group is mandatory
 -- if the DS1 PLCP is implemented.
 sipDS1PLCPTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SipDS1PLCPEntry
 ACCESS not-accessible
 STATUS mandatory
 DESCRIPTION
 "This table contains SIP DS1 PLCP parameters and
 state variables, one entry per SIP port."
 ::= { sipPLCP 1 }
 sipDS1PLCPEntry OBJECT-TYPE
 SYNTAX SipDS1PLCPEntry
 ACCESS not-accessible
 STATUS mandatory
 DESCRIPTION
 "This list contains SIP DS1 PLCP parameters and
 state variables."
 INDEX { sipDS1PLCPIndex }
 ::= { sipDS1PLCPTable 1 }
 SipDS1PLCPEntry ::= SEQUENCE {
 sipDS1PLCPIndex
 INTEGER,
 sipDS1PLCPSEFSs
 Counter,
 sipDS1PLCPAlarmState
 INTEGER,
 sipDS1PLCPUASs
 Counter
 }
 sipDS1PLCPIndex OBJECT-TYPE
 SYNTAX INTEGER (1..65535)
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The value of this object identifies the SIP port
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RFC 1304 SIP Objects February 1992
 interface for which this entry contains management
 information. The value of this object for a
 particular interface has the same value as the
 ifIndex object, defined in RFC 1156 and RFC 1213,
 for the same interface."
 ::= { sipDS1PLCPEntry 1 }
 sipDS1PLCPSEFSs OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "A DS1 Severely Errored Framing Second (SEFS) is a
 count of one-second intervals containing one or
 more SEF events. A Severely Errored Framing (SEF)
 event is declared when an error in the A1 octet
 and an error in the A2 octet of a framing octet
 pair (i.e., errors in both framing octets), or two
 consecutive invalid and/or nonsequential Path
 Overhead Identifier octets are detected."
 ::= { sipDS1PLCPEntry 2 }
 sipDS1PLCPAlarmState OBJECT-TYPE
 SYNTAX INTEGER {
 noAlarm (1),
 receivedFarEndAlarm (2),
 incomingLOF (3)
 }
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "This variable indicates if there is an alarm
 present for the DS1 PLCP. The value
 receivedFarEndAlarm means that the DS1 PLCP has
 received an incoming Yellow Signal, the value
 incomingLOF means that the DS1 PLCP has declared a
 loss of frame (LOF) failure condition, and the
 value noAlarm means that there are no alarms
 present. See TR-TSV-000773 for a description of
 alarm states."
 ::= { sipDS1PLCPEntry 3 }
 sipDS1PLCPUASs OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
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RFC 1304 SIP Objects February 1992
 DESCRIPTION
 "The counter associated with the number of
 Unavailable Seconds, as defined by TR-TSV-000773,
 encountered by the PLCP."
 ::= { sipDS1PLCPEntry 4 }
 -- The SIP DS3 PLCP group
 -- Implementation of this group is mandatory
 -- if the DS3 PLCP is implemented.
 sipDS3PLCPTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SipDS3PLCPEntry
 ACCESS not-accessible
 STATUS mandatory
 DESCRIPTION
 "This table contains SIP DS3 PLCP parameters and
 state variables, one entry per SIP port."
 ::= { sipPLCP 2 }
 sipDS3PLCPEntry OBJECT-TYPE
 SYNTAX SipDS3PLCPEntry
 ACCESS not-accessible
 STATUS mandatory
 DESCRIPTION
 "This list contains SIP DS3 PLCP parameters and
 state variables."
 INDEX { sipDS3PLCPIndex }
 ::= { sipDS3PLCPTable 1 }
 SipDS3PLCPEntry ::= SEQUENCE {
 sipDS3PLCPIndex
 INTEGER,
 sipDS3PLCPSEFSs
 Counter,
 sipDS3PLCPAlarmState
 INTEGER,
 sipDS3PLCPUASs
 Counter
 }
 sipDS3PLCPIndex OBJECT-TYPE
 SYNTAX INTEGER (1..65535)
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The value of this object identifies the SIP port
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RFC 1304 SIP Objects February 1992
 interface for which this entry contains management
 information. The value of this object for a
 particular interface has the same value as the
 ifIndex object, defined in RFC 1156 and RFC 1213,
 for the same interface."
 ::= { sipDS3PLCPEntry 1 }
 sipDS3PLCPSEFSs OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "A DS3 Severely Errored Framing Second (SEFS) is a
 count of one-second intervals containing one or
 more SEF events. A Severely Errored Framing (SEF)
 event is declared when an error in the A1 octet
 and an error in the A2 octet of a framing octet
 pair (i.e., errors in both framing octets), or two
 consecutive invalid and/or nonsequential Path
 Overhead Identifier octets are detected."
 ::= { sipDS3PLCPEntry 2 }
 sipDS3PLCPAlarmState OBJECT-TYPE
 SYNTAX INTEGER {
 noAlarm (1),
 receivedFarEndAlarm (2),
 incomingLOF (3)
 }
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "This variable indicates if there is an alarm
 present for the DS3 PLCP. The value
 receivedFarEndAlarm means that the DS3 PLCP has
 received an incoming Yellow Signal, the value
 incomingLOF means that the DS3 PLCP has declared a
 loss of frame (LOF) failure condition, and the
 value noAlarm means that there are no alarms
 present. See TR-TSV-000773 for a description of
 alarm states."
 ::= { sipDS3PLCPEntry 3 }
 sipDS3PLCPUASs OBJECT-TYPE
 SYNTAX Counter
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
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RFC 1304 SIP Objects February 1992
 "The counter associated with the number of
 Unavailable Seconds, as defined by TR-TSV-000773,
 encountered by the PLCP."
 ::= { sipDS3PLCPEntry 4 }
 -- The SMDS Applications group
 -- Applications that have been identified for this group are:
 -- * IP-over-SMDS (details are specified in RFC 1209)
 -- Implementation of this group is mandatory for systems
 -- that implement IP-over-SMDS Interface Protocol.
 smdsApplications OBJECT IDENTIFIER ::= { sip 4 }
 ipOverSMDS OBJECT IDENTIFIER ::= { smdsApplications 1 }
 -- Although the objects in this group are read-only, at the
 -- agent's discretion they may be made read-write so that the
 -- management station, when appropriately authorized, may
 -- change the addressing information related to the
 -- configuration of a logical IP subnetwork implemented on
 -- top of SMDS.
 -- This table is necessary to support RFC1209 (IP-over-SMDS)
 -- and gives information on the Group Addresses and ARP
 -- Addresses used in the Logical IP subnetwork.
 -- One SMDS address may be associated with multiple IP
 -- addresses. One SNI may be associated with multiple LISs.
 ipOverSMDSTable OBJECT-TYPE
 SYNTAX SEQUENCE OF IpOverSMDSEntry
 ACCESS not-accessible
 STATUS mandatory
 DESCRIPTION
 "The table of addressing information relevant to
 this entity's IP addresses."
 ::= { ipOverSMDS 1 }
 ipOverSMDSEntry OBJECT-TYPE
 SYNTAX IpOverSMDSEntry
 ACCESS not-accessible
 STATUS mandatory
 DESCRIPTION
 "The addressing information for one of this
 entity's IP addresses."
 INDEX { ipOverSMDSIndex, ipOverSMDSAddress }
 ::= { ipOverSMDSTable 1 }
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RFC 1304 SIP Objects February 1992
 IpOverSMDSEntry ::=
 SEQUENCE {
 ipOverSMDSIndex
 INTEGER,
 ipOverSMDSAddress
 IpAddress,
 ipOverSMDSHA
 SMDSAddress,
 ipOverSMDSLISGA
 SMDSAddress,
 ipOverSMDSARPReq
 SMDSAddress
 }
 ipOverSMDSIndex OBJECT-TYPE
 SYNTAX INTEGER (1..65535)
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The value of this object identifies the SIP port
 interface for which this entry contains management
 information. The value of this object for a
 particular interface has the same value as the
 ifIndex object, defined in RFC 1156 and RFC 1213,
 for the same interface."
 ::= { ipOverSMDSEntry 1 }
 ipOverSMDSAddress OBJECT-TYPE
 SYNTAX IpAddress
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The IP address to which this entry's addressing
 information pertains."
 ::= { ipOverSMDSEntry 2 }
 ipOverSMDSHA OBJECT-TYPE
 SYNTAX SMDSAddress
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The SMDS Individual address of the IP station."
 ::= { ipOverSMDSEntry 3 }
 ipOverSMDSLISGA OBJECT-TYPE
 SYNTAX SMDSAddress
 ACCESS read-only
 STATUS mandatory
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RFC 1304 SIP Objects February 1992
 DESCRIPTION
 "The SMDS Group Address that has been configured
 to identify the SMDS Subscriber-Network Interfaces
 (SNIs) of all members of the Logical IP Subnetwork
 (LIS) connected to the network supporting SMDS."
 ::= { ipOverSMDSEntry 4 }
 ipOverSMDSARPReq OBJECT-TYPE
 SYNTAX SMDSAddress
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The SMDS address (individual or group) to which
 ARP Requests are to be sent."
 ::= { ipOverSMDSEntry 5 }
 -- The SMDS Carrier Selection group
 -- This group is used as a place holder
 -- for carrier selection objects.
 smdsCarrierSelection OBJECT IDENTIFIER ::= { sip 5}
 -- The SIP Error Log
 -- Implementation of this group is mandatory
 -- for all systems that implement SIP Level 3.
 sipErrorLog OBJECT IDENTIFIER ::= { sip 6 }
 sipL3PDUErrorTable OBJECT-TYPE
 SYNTAX SEQUENCE OF SipL3PDUErrorEntry
 ACCESS not-accessible
 STATUS mandatory
 DESCRIPTION
 "A table that contains the latest occurrence of
 the following syntactical SIP L3PDU errors:
 - Destination Address Field Format Error,
 The following pertains to the 60 least significant
 bits of the 64 bit address field. The 60 bits
 contained in the address subfield can be used to
 represent addresses up to 15 decimal digits. Each
 decimal digit shall be encoded into four bits
 using Binary Coded Decimal (BCD), with the most
 significant digit occurring left-most. If not all
 15 digits are required, then the remainder of this
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RFC 1304 SIP Objects February 1992
 field shall be padded on the right with bits set
 to one. An error is considered to have occurred:
 a). if the first four bits of the address
 subfield are not BCD, OR b). if the first four
 bits of the address subfield are populated with
 the country code value 0001, AND the 40 bits which
 follow are not Binary Coded Decimal (BCD) encoded
 values of the 10 digit addresses, OR the remaining
 16 least significant bits are not populated with
 1's, OR c). if the address subfield is not
 correct according to another numbering plan which
 is dependent upon the carrier assigning the
 numbers and offering SMDS.
 - Source Address Field Format Error,
 The description of this parameter is the same as
 the description of the Destination Address Field
 Format Error.
 - Invalid BAsize Field Value,
 An error is considered to have occurred when the
 BAsize field of an SIP L3PDU contains a value less
 that 32, greater than 9220 octets without the
 CRC32 field present, greater than 9224 octets with
 the CRC32 field present, or not equal to a
 multiple of 4 octets,
 - Invalid Header Extension Length Field Value,
 An error is considered to have occurred when the
 Header Extension Length field value is not equal
 3.
 - Invalid Header Extension - Element Length,
 An error is considered to have occurred when the
 Header Extension - Element Length is greater than
 12.
 - Invalid Header Extension - Version Element
 Position, Length, or Value,
 An error is considered to have occurred when a
 Version element with Length=3, Type=0, and Value=1
 does not appear first within the Header Extension,
 or an element Type=0 appears somewhere other than
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RFC 1304 SIP Objects February 1992
 within the first three octets in the Header
 Extension.
 - Invalid Header Extension - Carrier Selection
 Element Position, Length, Value or Format,
 An error is considered to have occurred when a
 Carrier Selection element does not appear second
 within the Header Extension, if the Element Type
 does not equal 1, the Element Length does not
 equal 4, 6, or 8, the Element Value field is not
 four BCD encoded decimal digits used in specifying
 the Carrier Identification Code (CIC), or the
 identified CIC code is invalid.
 - Header Extension PAD Error
 An error is considered to have occurred when the
 Header Extension PAD is 9 octets in length, or if
 the Header Extension PAD is greater than zero
 octets in length and the Header Extension PAD does
 not follow all Header Extension elements or does
 not begin with at least one octet of all zeros.
 - BEtag Mismatch Error,
 An error is considered to have occurred when the
 Beginning-End Tags in the SIP L3PDU header and
 trailer are not equal.
 - BAsize Field not equal to Length Field Error,
 An error is considered to have occurred when the
 value of the BAsize Field does not equal the value
 of the Length Field.
 - Incorrect Length Error, and
 An error is considered to have occurred when the
 the Length field value is not equal to the portion
 of the SIP L3PDU which extends from the
 Destination Address field up to and including the
 CRC32 field (if present) or up to and including
 the PAD field (if the CRC32 field is not present).
 As an optional check, an error is considered to
 have occurred when the length of a partially
 received SIP L3PDU exceeds the BAsize value.
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RFC 1304 SIP Objects February 1992
 - MRI Timeout Error.
 An error is considered to have occurred when the
 elapsed time between receipt of BOM and
 corresponding EOM exceeds the value of the MRI
 (Message Receive Interval) for a particular
 transport signal format.
 An entry is indexed by interface number and error
 type, and contains Source Address, Destination
 Address and a timestamp. All these errors are
 counted in the sipL3Errors counter. When
 sipL3PDUErrorTimeStamp is equal to zero, the
 SipL3PDUErrorEntry does not contain any valid
 information."
 ::= { sipErrorLog 1 }
 sipL3PDUErrorEntry OBJECT-TYPE
 SYNTAX SipL3PDUErrorEntry
 ACCESS not-accessible
 STATUS mandatory
 DESCRIPTION
 "An entry in the service disagreement table."
 INDEX { sipL3PDUErrorIndex, sipL3PDUErrorType }
 ::= { sipL3PDUErrorTable 1 }
 SipL3PDUErrorEntry ::= SEQUENCE {
 sipL3PDUErrorIndex
 INTEGER,
 sipL3PDUErrorType
 INTEGER,
 sipL3PDUErrorSA
 SMDSAddress,
 sipL3PDUErrorDA
 SMDSAddress,
 sipL3PDUErrorTimeStamp
 TimeTicks
 }
 sipL3PDUErrorIndex OBJECT-TYPE
 SYNTAX INTEGER (1..65535)
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The value of this object identifies the SIP port
 interface for which this entry contains management
 information. The value of this object for a
 particular interface has the same value as the
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RFC 1304 SIP Objects February 1992
 ifIndex object, defined in RFC 1156 and RFC 1213,
 for the same interface."
 ::= { sipL3PDUErrorEntry 1 }
 sipL3PDUErrorType OBJECT-TYPE
 SYNTAX INTEGER {
 erroredDAFieldFormat (1),
 erroredSAFieldFormat (2),
 invalidBAsizeFieldValue (3),
 invalidHdrExtLength (4),
 invalidHdrExtElementLength (5),
 invalidHdrExtVersionElementPositionLenthOrValue (6),
 invalidHdrExtCarSelectElementPositionLenghtValueOrFormat (7),
 hePADError (8),
 beTagMismatch (9),
 baSizeFieldNotEqualToLengthField (10),
 incorrectLength (11),
 mriTimeout (12)
 }
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The type of error."
 ::= { sipL3PDUErrorEntry 2 }
 sipL3PDUErrorSA OBJECT-TYPE
 SYNTAX SMDSAddress
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "A rejected SMDS source address."
 ::= { sipL3PDUErrorEntry 3 }
 sipL3PDUErrorDA OBJECT-TYPE
 SYNTAX SMDSAddress
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "A rejected SMDS destination address."
 ::= { sipL3PDUErrorEntry 4 }
 sipL3PDUErrorTimeStamp OBJECT-TYPE
 SYNTAX TimeTicks
 ACCESS read-only
 STATUS mandatory
 DESCRIPTION
 "The timestamp for the service disagreement. The
 timestamp contains the value of sysUpTime at the
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RFC 1304 SIP Objects February 1992
 latest occurrence of this type of service
 disagreement. See textual description under
 sipL3PDUErrorTable for boundary conditions."
 ::= { sipL3PDUErrorEntry 5 }
 END
. Acknowledgments
 This document was produced by the SNMP Working Group. In addition,
 the comments of the following individuals are also acknowledged: Ted
 Brunner, Jeff Case, Tracy Cox, Sherri Hiller, Steve Jaffe, Deirdre
 Kostick, Dave Piscitello, and Ron Reuss.
. References
 [] Cerf, V., "IAB Recommendations for the Development of Internet
 Network Management Standards", RFC 1052, NRI, April 1988.
 [] Cerf, V., "Report of the Second Ad Hoc Network Management Review
 Group", RFC 1109, NRI, August 1989.
 [] Rose M., and K. McCloghrie, "Structure and Identification of
 Management Information for TCP/IP-based internets", RFC 1155,
 Performance Systems International, Hughes LAN Systems, May 1990.
 [] McCloghrie K., and M. Rose, "Management Information Base for
 Network Management of TCP/IP-based internets", RFC 1156, Hughes
 LAN Systems, Performance Systems International, May 1990.
 [] Case, J., Fedor, M., Schoffstall, M., and J. Davin, "Simple
 Network Management Protocol", RFC 1157, SNMP Research,
 Performance Systems International, Performance Systems
 International, MIT Laboratory for Computer Science, May 1990.
 [] McCloghrie K., and M. Rose, Editors, "Management Information
 Base for Network Management of TCP/IP-based internets", RFC
 1213, Performance Systems International, March 1991.
 [] Information processing systems - Open Systems Interconnection -
 Specification of Abstract Syntax Notation One (ASN.1),
 International Organization for Standardization, International
 Standard 8824, December 1987.
 [] 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.
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RFC 1304 SIP Objects February 1992
 [] Rose, M., and K. McCloghrie, Editors, "Concise MIB Definitions",
 RFC 1212, Performance Systems International, Hughes LAN Systems,
 March 1991.
 [] Rose, M., Editor, "A Convention for Defining Traps for use with
 the SNMP", RFC 1215, Performance Systems International, March
 1991.
 [] "Generic System Requirements in Support of Switched Multi-
 megabit Data Service", Bellcore Technical Reference, TR-TSV-
 000772, Issue 1, May 1991.
 [] "Local Access System Generic Requirements, Objectives, and
 Interfaces in Support of Switched Multi-megabit Data Service",
 Bellcore Technical Reference, TR-TSV-000773, Issue 1, June 1990.
 [] Baker F., and C. Kolb, Editors, "Definitions of Managed Objects
 for the DS1 Interface Type", RFC 1232, ACC, Performance Systems
 International, Inc., May 1991.
 [] Cox, T., and K. Tesink, Editors, "Definitions of Managed Objects
 for the DS3 Interface Type", RFC 1233, Bell Communications
 Research, May 1991.
 [] Piscitello, D., and J. Lawrence, Editors, The Transmission of IP
 Datagrams over the SMDS Service", RFC 1209, Bell Communications
 Research, March 1991.
 [] "Generic Requirements For SMDS Customer Network Management
 Service", TA-TSV-001062, Issue 1, February 1991, and Supplement
 1, April 1991.
 [] Reynolds, J., "Reassignment of Experimental MIBs to Standard
 MIBs", RFC 1239, USC/Information Sciences Institute, June 1991.
 [] Tesink, K., "Definitions of Managed Objects for SMDS
 Subscription", Version 1.0, Bellcore, March 1991.
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RFC 1304 SIP Objects February 1992
. Security Considerations
 Security issues are not discussed in this memo.
. Authors' Addresses
 Tracy A. Cox
 Bell Communications Research
 331 Newman Springs Road
 Red Bank, NJ 07701
 Phone: (908) 758-2107
 EMail: tacox@sabre.bellcore.com
 Kaj Tesink
 Bell Communications Research
 331 Newman Springs Road
 Red Bank, NJ 07701
 Phone: (908) 758-5254
 EMail: kaj@nvuxr.cc.bellcore.com
SNMP Working Group [Page 25]

• Info
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