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Network Working Group                                        Greg Satz
Request for Comments: 1162                         cisco Systems, Inc.
                                                             June 1990
 
 
               Connectionless Network Protocol (ISO 8473)
                                  and
              End System to Intermediate System (ISO 9542)
                      Management Information Base
 
                           Table of Contents
 
   1. Status of this Memo ..................................    1
   2. Historical Perspective................................    2
   3. Objects ..............................................    3
   3.1 Format of Definitions ...............................    3
   4. Object Definitions ...................................    4
   4.1 The CLNP Group ......................................    5
   4.1.1 The CLNP Interfaces table .........................   14
   4.1.2 The CLNP Routing table ............................   16
   4.1.3 The CLNP Address Translation Tables ...............   22
   4.2 The CLNP Error Group ................................   30
   4.3 The ESIS Group ......................................   47
   5. Definitions ..........................................   50
   6. Identification of OBJECT instances for use with  the
      SNMP .................................................   66
   6.1 clnpAddrTable Object Type Names .....................   67
   6.2 clnpRoutingTable Object Type Names ..................   67
   6.3 clnpNetToMediaTable Object Type Names ...............   68
   6.4 clnpMediaToNetTable Object Type Names ...............   68
   7. References ...........................................   69
   8. Security Considerations...............................   70
   9. Author's Address......................................   70
 
1.  Status of this Memo
 
   This memo defines an experimental portion of the Management
   Information Base (MIB) for use with network management protocols in
   TCP/IP-based internets.
 
   This memo does not specify a standard for the Internet community.
   However, after experimentation, if sufficient consensus is reached in
   the Internet community, then a subsequent revision of this document
   may be placed in the Internet-standard MIB.
 
   Distribution of this memo is unlimited.
 
 
 
 
 
Satz                                                            [Page 1]

RFC 1162 CLNS MIB June 1990 2. Historical Perspective As reported in RFC 1052, IAB Recommendations for the Development of Internet Network Management Standards [1], a two-prong strategy for network management of TCP/IP-based internets was undertaken. In the short-term, the Simple Network Management Protocol (SNMP), defined in RFC 1067, was to be used to manage nodes in the Internet community. In the long-term, the use of the OSI network management framework was to be examined. Two documents were produced to define the management information: RFC 1065, which defined the Structure of Management Information (SMI), and RFC 1066, which defined the Management Information Base (MIB). Both of these documents were designed so as to be compatible with both the SNMP and the OSI network management framework. This strategy was quite successful in the short-term: Internet-based network management technology was fielded, by both the research and commercial communities, within a few months. As a result of this, portions of the Internet community became network manageable in a timely fashion. As reported in RFC 1109, Report of the Second Ad Hoc Network Management Review Group [2], the requirements of the SNMP and the OSI network management frameworks were more different than anticipated. As such, the requirement for compatibility between the SMI/MIB and both frameworks was suspended. This action permitted the operational network management framework, based on the SNMP, to respond to new operational needs in the Internet community by producing MIB-II. In May of 1990, the core documents were elevated to "Standard Protocols" with "Recommended" status. As such, the Internet- standard network management framework consists of: Structure and Identification of Management Information for TCP/IP-based internets, RFC 1155 [3], which describes how managed objects contained in the MIB are defined; Management Information Base for Network Management of TCP/IP-based internets, which describes the managed objects contained in the MIB, RFC 1156 [4]; and, the Simple Network Management Protocol, RFC 1157 [5], which defines the protocol used to manage these objects. Consistent with the IAB directive to produce simple, workable systems in the short-term, the list of managed objects defined in the Internet-standard MIB was derived by taking only those elements which are considered essential. However, the SMI defined three extensibility mechanisms: one, the addition of new standard objects through the definitions of new versions of the MIB; two, the addition of widely-available but non-standard objects through the experimental subtree; and three, the addition of private objects through the Satz [Page 2]
RFC 1162 CLNS MIB June 1990 enterprises subtree. Such additional objects can not only be used for vendor-specific elements, but also for experimentation as required to further the knowledge of which other objects are essential. Since the publication of the Internet-standard MIB, experience has lead to a new document, termed MIB-II [6], being defined. This memo defines extensions to the MIB using the second method. It contains definitions of managed objects used for experimentation. After experimentation, if sufficient consensus is reached in the Internet community, then a subsequent revision of this memo may be placed in the Internet-standard MIB. 3. 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) [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 [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. This SMI specifies the use of the basic encoding rules of ASN.1 [8], subject to the additional requirements imposed by the SNMP. 3.1. Format of Definitions The next section contains the specification of all object types contained in the MIB. Following the conventions of the companion memo, the object types are defined using the following fields: Satz [Page 3]
RFC 1162 CLNS MIB June 1990 OBJECT: ------- A textual name, termed the OBJECT DESCRIPTOR, for the object type, along with its corresponding OBJECT IDENTIFIER. Syntax: The abstract syntax for the object type, presented using ASN.1. This must resolve to an instance of the ASN.1 type ObjectSyntax defined in the SMI. Definition: A textual description of the semantics of the object type. Implementations should ensure that their interpretation of the object type fulfills this definition since this MIB is intended for use in multi- vendor environments. As such it is vital that object types have consistent meaning across all machines. Access: A keyword, one of read-only, read-write, write-only, or not-accessible. Note that this designation specifies the minimum level of support required. As a local matter, implementations may support other access types (e.g., an implementation may elect to permitting writing a variable marked herein as read-only). Further, protocol-specific "views" (e.g., those implied by an SNMP community) may make further restrictions on access to a variable. Status: A keyword, one of mandatory, optional, obsolete, or deprecated. Use of deprecated implies mandatory status. 4. Object Definitions CLNS-MIB DEFINITIONS ::= BEGIN IMPORTS experimental, OBJECT-TYPE, Counter FROM RFC1155-SMI; -- new type of NetworkAddress ClnpAddress ::= [APPLICATION 5] IMPLICIT OCTET STRING (SIZE (1..21)) Satz [Page 4]
RFC 1162 CLNS MIB June 1990 clns OBJECT IDENTIFIER ::= { experimental 1 } clnp OBJECT IDENTIFIER ::= { clns 1 } error OBJECT IDENTIFIER ::= { clns 2 } echo OBJECT IDENTIFIER ::= { clns 3 } es-is OBJECT IDENTIFIER ::= { clns 4 } END These objects can be used when the ISO Connectionless-mode Network Protocol [9] and End System to Intermediate System [10] protocols are present. No assumptions are made as to what underlying protocol is being used to carry the SNMP. This memo uses the string encoding of [11] to textually describe OSI addresses. The ASN.1 type ClnpAddress is used to denote an OSI address. This consists of a string of octets. The first octet of the string contains a binary value in the range of 0..20, and indicates the the length in octets of the NSAP. Following the first octet, is the NSAP, expressed in concrete binary notation, starting with the most significant octet. A zero- length NSAP is used as a "special" address meaning "the default NSAP" (analogous to the IP address of 0.0.0.0). Such an NSAP is encoded as a single octet, containing the value 0. All other NSAPs are encoded in at least 2 octets. 4.1. The CLNP Group Implementation is experimental and is recommended for all systems that support a CLNP. OBJECT: ------- clnpForwarding { clnp 1 } Syntax: INTEGER { is(1), -- entity is an intermediate system es(2), -- entity is an end system and does not forward PDUs } Definition: The indication of whether this entity is active as an Satz [Page 5]
RFC 1162 CLNS MIB June 1990 intermediate or end system. Only intermediate systems will forward PDUs onward that are not addressed to them. Access: read-write. Status: mandatory. OBJECT: ------- clnpDefaultLifeTime { clnp 2 } Syntax: INTEGER Definition: The default value inserted into the Lifetime field of the CLNP PDU header of PDUs sourced by this entity. Access: read-write. Status: mandatory. OBJECT: ------- clnpInReceives { clnp 3 } Syntax: Counter Definition: The total number of input PDUs received from all connected network interfaces running CLNP, including errors. Access: read-only. Status: mandatory. Satz [Page 6]
RFC 1162 CLNS MIB June 1990 OBJECT: ------- clnpInHdrErrors { clnp 4 } Syntax: Counter Definition: The number of input PDUs discarded due to errors in the CLNP header, including bad checksums, version mismatch, lifetime exceeded, errors discovered in processing options, etc. Access: read-only. Status: mandatory. OBJECT: ------- clnpInAddrErrors { clnp 5 } Syntax: Counter Definition: The number of input PDUs discarded because the NSAP address in the CLNP header's destination field was not a valid NSAP to be received at this entity. This count includes addresses not understood. For end systems, this is a count of PDUs which arrived with a destination NSAP which was not local. Access: read-only. Status: mandatory. OBJECT: ------- clnpForwPDUs { clnp 6 } Syntax: Counter Satz [Page 7]
RFC 1162 CLNS MIB June 1990 Definition: The number of input PDUs for which this entity was not the final destination and which an attempt was made to forward them onward. Access: read-only. Status: mandatory. OBJECT: ------- clnpInUnknownNLPs { clnp 7 } Syntax: Counter Definition: The number of locally-addressed PDUs successfully received but discarded because the network layer protocol was unknown or unsupported (e.g., not CLNP or ES-IS). Access: read-only. Status: mandatory. OBJECT: ------- clnpInUnknownULPs { clnp 8 } Syntax: Counter Definition: The number of locally-addressed PDUs successfully received but discarded because the upper layer protocol was unknown or unsupported (e.g., not TP4). Access: read-only. Status: mandatory. Satz [Page 8]
RFC 1162 CLNS MIB June 1990 OBJECT: ------- clnpInDiscards { clnp 9 } Syntax: Counter Definition: The number of input CLNP PDUs for which no problems were encountered to prevent their continued processing, but were discarded (e.g., for lack of buffer space). Note that this counter does not include any PDUs discarded while awaiting re-assembly. Access: read-only. Status: mandatory. OBJECT: ------- clnpInDelivers { clnp 10 } Syntax: Counter Definition: The total number of input PDUs successfully delivered to the CLNS transport user. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutRequests { clnp 11 } Syntax: Counter Definition: The total number of CLNP PDUs which local CLNS user Satz [Page 9]
RFC 1162 CLNS MIB June 1990 protocols supplied to CLNP for transmission requests. This counter does not include any PDUs counted in clnpForwPDUs. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutDiscards { clnp 12 } Syntax: Counter Definition: The number of output CLNP PDUs for which no other problem was encountered to prevent their transmission but were discarded (e.g., for lack of buffer space). Note this counter includes PDUs counted in clnpForwPDUs. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutNoRoutes { clnp 13 } Syntax: Counter Definition: The number of CLNP PDUs discarded because no route could be found to transmit them to their destination. This counter includes any PDUs counted in clnpForwPDUs. Access: read-only. Status: mandatory. Satz [Page 10]
RFC 1162 CLNS MIB June 1990 OBJECT: ------- clnpReasmTimeout { clnp 14 } Syntax: INTEGER Definition: The maximum number of seconds which received segments are held while they are awaiting reassembly at this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpReasmReqds { clnp 15 } Syntax: Counter Definition: The number of CLNP segments received which needed to be reassembled at this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpReasmOKs { clnp 16 } Syntax: Counter Definition: The number of CLNP PDUs successfully re-assembled at this entity. Satz [Page 11]
RFC 1162 CLNS MIB June 1990 Access: read-only. Status: mandatory. OBJECT: ------- clnpReasmFails { clnp 17 } Syntax: Counter Definition: The number of failures detected by the CLNP reassembly algorithm (for any reason: timed out, buffer size, etc). Access: read-only. Status: mandatory. OBJECT: ------- clnpSegOKs { clnp 18 } Syntax: Counter Definition: The number of CLNP PDUs that have been successfully segmented at this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpSegFails { clnp 19 } Satz [Page 12]
RFC 1162 CLNS MIB June 1990 Syntax: Counter Definition: The number of CLNP PDUs that have been discarded because they needed to be fragmented at this entity but could not. Access: read-only. Status: mandatory. OBJECT: ------- clnpSegCreates { clnp 20 } Syntax: Counter Definition: The number of CLNP PDU segments that have been generated as a result of segmentation at this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInOpts { clnp 25 } Syntax: Counter Definition: The number of CLNP PDU segments that have been input with options at this entity. Access: read-only. Satz [Page 13]
RFC 1162 CLNS MIB June 1990 Status: mandatory. OBJECT: ------- clnpOutOpts { clnp 26 } Syntax: Counter Definition: The number of CLNP PDU segments that have been generated with options by this entity. Access: read-only. Status: mandatory. 4.1.1. The CLNP Interfaces table The CLNP Interfaces table contains information on the entity's interfaces which are running the CLNP. OBJECT: ------- clnpAddrTable { clnp 21 } Syntax: SEQUENCE OF ClnpAddrEntry Definition: The table of addressing information relevant to this entity's CLNP addresses. Access: not-accessible. Status: mandatory. OBJECT: ------- clnpAddrEntry { clnpAddrTable 1 } Satz [Page 14]
RFC 1162 CLNS MIB June 1990 Syntax: ClnpAddrEntry :: = SEQUENCE { clnpAdEntAddr ClnpAddress, clnpAdEntIfIndex INTEGER, clnpAdEntReasmMaxSize INTEGER (0..65535) } Definition: The addressing information for one of this entity's CLNP addresses. Access: not-accessible. Status: mandatory. OBJECT: ------- clnpAdEntAddr { clnpAddrEntry 1 } Syntax: ClnpAddress Definition: The CLNP address to which this entry's addressing information pertains. Access: read-only. Status: mandatory. OBJECT: ------- clnpAdEntIfIndex { clnpAddrEntry 2 } Syntax: INTEGER Definition: The index value which uniquely identifies the interface Satz [Page 15]
RFC 1162 CLNS MIB June 1990 to which this entry is applicable. The interface identified by a particular value of this index is the same interface as identified by the same value of ifIndex. Access: read-only. Status: mandatory. OBJECT: ------- clnpAdEntReasmMaxSize { clnpAddrEntry 3 } Syntax: INTEGER (0..65535) Definition: The size of the largest CLNP PDU which this entity can re-assemble from incoming CLNP segmented PDUs received on this interface. Access: read-only. Status: mandatory. 4.1.2. The CLNP Routing table The CLNP Routing table contains an entry for each route known to the entity. OBJECT: ------- clnpRoutingTable { clnp 22 } Syntax: SEQUENCE OF ClnpRouteEntry Definition: This entity's CLNP routing table. Access: not-accessible. Satz [Page 16]
RFC 1162 CLNS MIB June 1990 Status: mandatory. OBJECT: ------- clnpRouteEntry { clnpRoutingTable 1 } Syntax: ClnpRouteEntry ::= SEQUENCE { clnpRouteDest ClnpAddress, clnpRouteIfIndex INTEGER, clnpRouteMetric1 INTEGER, clnpRouteMetric2 INTEGER, clnpRouteMetric3 INTEGER, clnpRouteMetric4 INTEGER, clnpRouteNextHop ClnpAddress, clnpRouteType INTEGER, clnpRouteProto INTEGER, clnpRouteAge INTEGER } Definition: A route to a particular destination. Access: not-accessible. Status: mandatory. OBJECT: ------- clnpRouteDest { clnpRouteEntry 1 } Syntax: ClnpAddress Satz [Page 17]
RFC 1162 CLNS MIB June 1990 Definition: The destination CLNP address of this route. Access: read-write. Status: mandatory. OBJECT: ------- clnpRouteIfIndex { clnpRouteEntry 2 } Syntax: INTEGER Definition: The index value which uniquely identifies the local interface through which the next hop of this route should be reached. The interface identified by a particular value of this index is the same as identified by the same value of ifIndex. Access: read-write. Status: mandatory. OBJECT: ------- clnpRouteMetric1 { clnpRouteEntry 3 } Syntax: INTEGER Definition: The primary routing metric for this route. The semantics of this metric are determined by the routing-protocol specified in the route's clnpRouteProto value. If this metric is not used, its value should be set to -1. Access: read-write. Satz [Page 18]
RFC 1162 CLNS MIB June 1990 Status: mandatory. OBJECT: ------- clnpRouteMetric2 { clnpRouteEntry 4 } Syntax: INTEGER Definition: An alternate routing metric for this route. The semantics of this metric are determined by the routing- protocol specified in the route's clnpRouteProto value. If this metric is not used, its value should be set to -1. Access: read-write. Status: mandatory. OBJECT: ------- clnpRouteMetric3 { clnpRouteEntry 5 } Syntax: INTEGER Definition: An alternate routing metric for this route. The semantics of this metric are determined by the routing- protocol specified in the route's clnpRouteProto value. If this metric is not used, its value should be set to -1. Access: read-write. Status: mandatory. Satz [Page 19]
RFC 1162 CLNS MIB June 1990 OBJECT: ------- clnpRouteMetric4 { clnpRouteEntry 6 } Syntax: INTEGER Definition: An alternate routing metric for this route. The semantics of this metric are determined by the routing- protocol specified in the route's clnpRouteProto value. If this metric is not used, its value should be set to -1. Access: read-write. Status: mandatory. OBJECT: ------- clnpRouteNextHop { clnpRouteEntry 7 } Syntax: ClnpAddress Definition: The CLNP address of the next hop of this route. Access: read-write. Status: mandatory. OBJECT: ------- clnpRouteType { clnpRouteEntry 8 } Syntax: INTEGER { other(1), -- none of the following invalid(2), -- an invalidated route Satz [Page 20]
RFC 1162 CLNS MIB June 1990 -- route to directly direct(3), -- connected (sub-)network -- route to a non-local remote(4) -- host/network/sub-network } Definition: The type of route. Setting this object to the value invalid(2) has the effect of invaliding the corresponding entry in the clnpRoutingTable. That is, it effectively dissasociates the destination identified with said entry from the route identified with said entry. It is an implementation-specific matter as to whether the agent removes an invalidated entry from the table. Accordingly, management stations must be prepared to receive tabular information from agents that corresponds to entries not currently in use. Proper interpretation of such entries requires examination of the relevant clnpRouteType object. Access: read-write. Status: mandatory. OBJECT: ------- clnpRouteProto { clnpRouteEntry 9 } Syntax: INTEGER { other(1), -- none of the following -- non-protocol information -- e.g., manually local(2), -- configured entries -- set via a network netmgmt(3), -- management protocol -- similar to ipRouteProto -- but omits several IP-specific -- protocols is-is(9), Satz [Page 21]
RFC 1162 CLNS MIB June 1990 ciscoIgrp(11), bbnSpfIgp(12), ospf(13), bgp(14) } Definition: The routing mechanism via which this route was learned. Inclusion of values for gateway routing protocols is not intended to imply that hosts should support those protocols. Access: read-write. Status: mandatory. OBJECT: ------- clnpRouteAge { clnpRouteEntry 10 } Syntax: INTEGER Definition: The number of seconds since this route was last updated or otherwise determined to be correct. Note that no semantics of "too old" can be implied except through knowledge of the routing protocol by which the route was learned. Access: read-write. Status: mandatory. 4.1.3. The CLNP Address Translation Tables The Address Translation tables contain the CLNP address to physical address equivalences. Some interfaces do not use translation tables for determining address equivalences; if all interfaces are of this type, then the Address Translation table is empty, i.e., has zero entries. Satz [Page 22]
RFC 1162 CLNS MIB June 1990 OBJECT: ------- clnpNetToMediaTable { clnp 23 } Syntax: SEQUENCE OF ClnpNetToMediaEntry Definition: The CLNP Address Translation table used for mapping from CLNP addresses to physical addresses. Access: not-accessible Status: mandatory. OBJECT: ------- clnpNetToMediaEntry { clnpNetToMediaTable 1 } Syntax: ClnpNetToMediaEntry ::= SEQUENCE { clnpNetToMediaIfIndex INTEGER, clnpNetToMediaPhysAddress OCTET STRING, clnpNetToMediaNetAddress ClnpAddress, clnpNetToMediaType INTEGER, clnpNetToMediaAge INTEGER, clnpNetToMediaHoldTime INTEGER } Definition: Each entry contains one CLNP address to "physical" address equivalence. Access: not-accessible. Status: mandatory. Satz [Page 23]
RFC 1162 CLNS MIB June 1990 OBJECT: ------- clnpNetToMediaIfIndex { clnpNetToMediaEntry 1 } Syntax: INTEGER Definition: The interface on which this entry's equivalence is effective. The interface identified by a particular value of this index is the same interface as identified by the same value of ifIndex. Access: read-write. Status: mandatory. OBJECT: ------- clnpNetToMediaPhysAddress { clnpNetToMediaEntry 2 } Syntax: OCTET STRING Definition: The media-dependent "physical" address. Access: read-write. Status: mandatory. OBJECT: ------- clnpNetToMediaNetAddress { clnpNetToMediaEntry 3 } Syntax: ClnpAddress Definition: The CLNP address corresponding to the media-dependent "physical" address. Satz [Page 24]
RFC 1162 CLNS MIB June 1990 Access: read-write. Status: mandatory. OBJECT: ------- clnpNetToMediaType { clnpNetToMediaEntry 4 } Syntax: INTEGER { other(1), -- none of the following invalid(2), -- an invalidated mapping dynamic(3), static(4) } Definition: The type of mapping. Setting this object to the value invalid(2) has the effect of invalidating the corresponding entry in the clnpNetToMediaTable. That is, it effectively dissassociates the interface identified with said entry from the mapping identified with said entry. It is an implementation-specific matter as to whether the agent removes an invalidated entry from the table. Accordingly, management stations must be prepared to receive tabular information from agents that corresponds to entries not currently in use. Proper interpretation of such entries requires examination of the relevant clnpNetToMediaType object. Access: read-write. Status: mandatory. OBJECT: ------- clnpNetToMediaAge { clnpNetToMediaEntry 5 } Syntax: INTEGER Satz [Page 25]
RFC 1162 CLNS MIB June 1990 Definition: The number of seconds since this entry was last updated or otherwise determined to be correct. Note that no semantics of "too old" can be implied except through knowledge of the type of entry. Access: read-write. Status: mandatory. OBJECT: ------- clnpNetToMediaHoldTime { clnpNetToMediaEntry 6 } Syntax: INTEGER Definition: The time in seconds this entry will be valid. Static entries should always report this field as -1. Access: read-write. Status: mandatory. OBJECT: ------- clnpMediaToNetTable { clnp 24 } Syntax: SEQUENCE OF ClnpMediaToNetEntry Definition: The CLNP Address Translation table used for mapping from physical addresses to CLNP addresses. Access: not-accessible. Status: mandatory. Satz [Page 26]
RFC 1162 CLNS MIB June 1990 OBJECT: ------- clnpMediaToNetEntry { clnpMediaToNetTable 1 } Syntax: ClnpMediaToNetEntry ::= SEQUENCE { clnpMediaToNetIfIndex INTEGER, clnpMediaToNetNetAddress ClnpAddress, clnpMediaToNetPhysAddress OCTET STRING, clnpMediaToNetType INTEGER, clnpMediaToNetAge INTEGER, clnpMediaToNetHoldTime INTEGER } Definition: Each entry contains on ClnpAddress to "physical" address equivalence. Access: not-accessible. Status: mandatory. OBJECT: ------- clnpMediaToNetIfIndex { clnpMediaToNetEntry 1 } Syntax: INTEGER Definition: The interface on which this entry's equivalence is effective. The interface identified by a particular value of this index is the same interface as identified by the same value of ifIndex. Access: read-write. Satz [Page 27]
RFC 1162 CLNS MIB June 1990 Status: mandatory. OBJECT: ------- clnpMediaToNetAddress { clnpMediaToNetEntry 2 } Syntax: ClnpAddress Definition: The ClnpAddress corresponding to the media-dependent "physical" address. Access: read-write. Status: mandatory. OBJECT: ------- clnpMediaToNetPhysAddress { clnpMediaToNetEntry 3 } Syntax: OCTET STRING Definition: The media-dependent "physical" address. Access: read-write. Status: mandatory. OBJECT: ------- clnpMediaToNetType { clnpMediaToNetEntry 4 } Syntax: INTEGER { other(1), -- none of the following invalid(2), -- an invalidated mapping dynamic(3), Satz [Page 28]
RFC 1162 CLNS MIB June 1990 static(4) } Definition: The type of mapping. Setting this object to the value invalid(2) has the effect of invalidating the corresponding entry in the clnpMediaToNetTable. That is, it effectively dissassociates the interface identified with said entry from the mapping identified with said entry. It is an implementation-specific matter as to whether the agent removes an invalidated entry from the table. Accordingly, management stations must be prepared to receive tabular information from agents that corresponds to entries not currently in use. Proper interpretation of such entries requires examination of the relevant clnpMediaToNetType object. Access: read-write. Status: mandatory. OBJECT: ------- clnpMediaToNetAge { clnpMediaToNetEntry 5 } Syntax: INTEGER Definition: The number of seconds since this entry was last updated or otherwise determined to be correct. Note that no semantics of "too old" can be implied except through knowledge of the type of entry. Access: read-write. Status: mandatory. OBJECT: ------- clnpMediaToNetHoldTime { clnpMediaToNetEntry 6 } Satz [Page 29]
RFC 1162 CLNS MIB June 1990 Syntax: INTEGER Definition: The time in seconds this entry will be valid. Static entries should always report this field as -1. Access: read-write. Status: mandatory. 4.2. The CLNP Error Group This group records the CLNP Error protocol and is recommended for all systems which support CLNP. OBJECT: ------- clnpInErrors { error 1 } Syntax: Counter Definition: The number of CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrors { error 2 } Syntax: Counter Definition: The number of CLNP Error PDUs sent by this entity. Access: read-only. Satz [Page 30]
RFC 1162 CLNS MIB June 1990 Status: mandatory. OBJECT: ------- clnpInErrUnspecs { error 3 } Syntax: Counter Definition: The number of unspecified CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrProcs { error 4 } Syntax: Counter Definition: The number of protocol procedure CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrCksums { error 5 } Syntax: Counter Satz [Page 31]
RFC 1162 CLNS MIB June 1990 Definition: The number of checksum CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrCongests { error 6 } Syntax: Counter Definition: The number of congestion drop CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrHdrs { error 7 } Syntax: Counter Definition: The number of header syntax CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. Satz [Page 32]
RFC 1162 CLNS MIB June 1990 OBJECT: ------- clnpInErrSegs { error 8 } Syntax: Counter Definition: The number of segmentation disallowed CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrIncomps { error 9 } Syntax: Counter Definition: The number of incomplete PDU CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrDups { error 10 } Syntax: Counter Definition: The number of duplicate option CLNP Error PDUs received by this entity. Satz [Page 33]
RFC 1162 CLNS MIB June 1990 Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrUnreachDsts { error 11 } Syntax: Counter Definition: The number of unreachable destination CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrUnknownDsts { error 12 } Syntax: Counter Definition: The number of unknown destination CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrSRUnspecs { error 13 } Satz [Page 34]
RFC 1162 CLNS MIB June 1990 Syntax: Counter Definition: The number of unspecified source route CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrSRSyntaxes { error 14 } Syntax: Counter Definition: The number of source route syntax CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrSRUnkAddrs { error 15 } Syntax: Counter Definition: The number of source route unknown address CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. Satz [Page 35]
RFC 1162 CLNS MIB June 1990 OBJECT: ------- clnpInErrSRBadPaths { error 16 } Syntax: Counter Definition: The number of source route bad path CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrHops { error 17 } Syntax: Counter Definition: The number of hop count exceeded CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrHopReassms { error 18 } Syntax: Counter Definition: The number of hop count exceeded while reassembling CLNP Error PDUs received by this entity. Satz [Page 36]
RFC 1162 CLNS MIB June 1990 Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrUnsOptions { error 19 } Syntax: Counter Definition: The number of unsupported option CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrUnsVersions { error 20 } Syntax: Counter Definition: The number of version mismatch CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrUnsSecurities { error 21 } Satz [Page 37]
RFC 1162 CLNS MIB June 1990 Syntax: Counter Definition: The number of unsupported security option CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrUnsSRs { error 22 } Syntax: Counter Definition: The number of unsupported source route option CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpInErrUnsRRs { error 23 } Syntax: Counter Definition: The number of unsupported record route option CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. Satz [Page 38]
RFC 1162 CLNS MIB June 1990 OBJECT: ------- clnpInErrInterferences { error 24 } Syntax: Counter Definition: The number of reassembly interference CLNP Error PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrUnspecs { error 25 } Syntax: Counter Definition: The number of unspecified CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrProcs { error 26 } Syntax: Counter Definition: The number of protocol procedure CLNP Error PDUs sent by this entity. Satz [Page 39]
RFC 1162 CLNS MIB June 1990 Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrCksums { error 27 } Syntax: Counter Definition: The number of checksum CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrCongests { error 28 } Syntax: Counter Definition: The number of congestion drop CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrHdrs { error 29 } Satz [Page 40]
RFC 1162 CLNS MIB June 1990 Syntax: Counter Definition: The number of header syntax CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrSegs { error 30 } Syntax: Counter Definition: The number of segmentation disallowed CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrIncomps { error 31 } Syntax: Counter Definition: The number of incomplete PDU CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. Satz [Page 41]
RFC 1162 CLNS MIB June 1990 OBJECT: ------- clnpOutErrDups { error 32 } Syntax: Counter Definition: The number of duplicate option CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrUnreachDsts { error 33 } Syntax: Counter Definition: The number of unreachable destination CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrUnknownDsts { error 34 } Syntax: Counter Definition: The number of unknown destination CLNP Error PDUs sent by this entity. Satz [Page 42]
RFC 1162 CLNS MIB June 1990 Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrSRUnspecs { error 35 } Syntax: Counter Definition: The number of unspecified source route CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrSRSyntaxes { error 36 } Syntax: Counter Definition: The number of source route syntax CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrSRUnkAddrs { error 37 } Satz [Page 43]
RFC 1162 CLNS MIB June 1990 Syntax: Counter Definition: The number of source route unknown address CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrSRBadPaths { error 38 } Syntax: Counter Definition: The number of source route bad path CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrHopss { error 39 } Syntax: Counter Definition: The number of hop count exceeded CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. Satz [Page 44]
RFC 1162 CLNS MIB June 1990 OBJECT: ------- clnpOutErrHopReassms { error 40 } Syntax: Counter Definition: The number of hop count exceeded while reassembling CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrUnsOptions { error 41 } Syntax: Counter Definition: The number of unsupported option CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrUnsVersions { error 42 } Syntax: Counter Definition: The number of version mismatch CLNP Error PDUs sent by this entity. Satz [Page 45]
RFC 1162 CLNS MIB June 1990 Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrUnsSecurities { error 43 } Syntax: Counter Definition: The number of unsupported security option CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrUnsSRs { error 44 } Syntax: Counter Definition: The number of unsupported source route option CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrUnsRRs { error 45 } Satz [Page 46]
RFC 1162 CLNS MIB June 1990 Syntax: Counter Definition: The number of unsupported record route option CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- clnpOutErrInterferences { error 46 } Syntax: Counter Definition: The number of reassembly interference CLNP Error PDUs sent by this entity. Access: read-only. Status: mandatory. 4.3. The ESIS Group The ESIS group contains information about the End System Intermediate System protocol used to maintain neighbor reachibility information. Both ESs and ISs are expected to implement this group if they running a CLNP. OBJECT: ------- esisESHin { es-is 1 } Syntax: Counter Definition: The number of ESH PDUs received by this entity. Satz [Page 47]
RFC 1162 CLNS MIB June 1990 Access: read-only. Status: mandatory. OBJECT: ------- esisESHout { es-is 2 } Syntax: Counter Definition: The number of ESH PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- esisISHin { es-is 3 } Syntax: Counter Definition: The number of ISH PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- esisISHout { es-is 4 } Syntax: Counter Satz [Page 48]
RFC 1162 CLNS MIB June 1990 Definition: The number of ISH PDUs sent by this entity. Access: read-only. Status: mandatory. OBJECT: ------- esisRDUin { es-is 5 } Syntax: Counter Definition: The number of RDU PDUs received by this entity. Access: read-only. Status: mandatory. OBJECT: ------- esisRDUout { es-is 6 } Syntax: Counter Definition: The number of RDU PDUs sent by this entity. Access: read-only. Status: mandatory. Satz [Page 49]
RFC 1162 CLNS MIB June 1990 5. Definitions CLNS-MIB DEFINITIONS ::= BEGIN IMPORTS experimental, OBJECT-TYPE, Counter FROM RFC1155-SMI; -- new type of NetworkAddress ClnpAddress ::= [APPLICATION 5] IMPLICIT OCTET STRING (SIZE (1..21)) clns OBJECT IDENTIFIER ::= { experimental 1 } clnp OBJECT IDENTIFIER ::= { clns 1 } error OBJECT IDENTIFIER ::= { clns 2 } echo OBJECT IDENTIFIER ::= { clns 3 } es-is OBJECT IDENTIFIER ::= { clns 4 } -- the General CLNP group clnpForwarding OBJECT-TYPE SYNTAX INTEGER { is(1), -- entity is an -- intermediate system es(2) -- entity is an end system -- and does not forward pdus } ACCESS read-write STATUS mandatory ::= { clnp 1 } clnpDefaultLifeTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory ::= { clnp 2 } clnpInReceives OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 3 } Satz [Page 50]
RFC 1162 CLNS MIB June 1990 clnpInHdrErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 4 } clnpInAddrErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 5 } clnpForwPDUs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 6 } clnpInUnknownNLPs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 7 } clnpInUnknownULPs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 8 } clnpInDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 9 } clnpInDelivers OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 10 } clnpOutRequests OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 11 } Satz [Page 51]
RFC 1162 CLNS MIB June 1990 clnpOutDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 12 } clnpOutNoRoutes OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 13 } clnpReasmTimeout OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory ::= { clnp 14 } clnpReasmReqds OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 15 } clnpReasmOKs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 16 } clnpReasmFails OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 17 } clnpSegOKs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 18 } clnpSegFails OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 19 } Satz [Page 52]
RFC 1162 CLNS MIB June 1990 clnpSegCreates OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 20 } clnpInOpts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 25 } clnpOutOpts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { clnp 26 } -- the CLNP Interface table clnpAddrTable OBJECT-TYPE SYNTAX SEQUENCE OF ClnpAddrEntry ACCESS not-accessible STATUS mandatory ::= { clnp 21 } clnpAddrEntry OBJECT-TYPE SYNTAX ClnpAddrEntry ACCESS not-accessible STATUS mandatory -- INDEX { clnpAdEntAddr } ::= { clnpAddrTable 1 } ClnpAddrEntry ::= SEQUENCE { clnpAdEntAddr ClnpAddress, clnpAdEntIfIndex INTEGER, clnpAdEntReasmMaxSize INTEGER (0..65535) } clnpAdEntAddr OBJECT-TYPE SYNTAX ClnpAddress ACCESS read-only STATUS mandatory ::= { clnpAddrEntry 1 } Satz [Page 53]
RFC 1162 CLNS MIB June 1990 clnpAdEntIfIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory ::= { clnpAddrEntry 2 } clnpAdEntReasmMaxSize OBJECT-TYPE SYNTAX INTEGER (0..65535) ACCESS read-only STATUS mandatory ::= { clnpAddrEntry 3 } -- the CLNP Routing table clnpRoutingTable OBJECT-TYPE SYNTAX SEQUENCE OF ClnpRouteEntry ACCESS not-accessible STATUS mandatory ::= { clnp 22 } clnpRouteEntry OBJECT-TYPE SYNTAX ClnpRouteEntry ACCESS not-accessible STATUS mandatory -- INDEX { clnpRouteDest } ::= { clnpRoutingTable 1 } ClnpRouteEntry ::= SEQUENCE { clnpRouteDest ClnpAddress, clnpRouteIfIndex INTEGER, clnpRouteMetric1 INTEGER, clnpRouteMetric2 INTEGER, clnpRouteMetric3 INTEGER, clnpRouteMetric4 INTEGER, clnpRouteNextHop ClnpAddress, clnpRouteType INTEGER, clnpRouteProto INTEGER, clnpRouteAge INTEGER Satz [Page 54]
RFC 1162 CLNS MIB June 1990 } clnpRouteDest OBJECT-TYPE SYNTAX ClnpAddress ACCESS read-write STATUS mandatory ::= { clnpRouteEntry 1 } clnpRouteIfIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory ::= { clnpRouteEntry 2 } clnpRouteMetric1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory ::= { clnpRouteEntry 3 } clnpRouteMetric2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory ::= { clnpRouteEntry 4 } clnpRouteMetric3 OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory ::= { clnpRouteEntry 5 } clnpRouteMetric4 OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory ::= { clnpRouteEntry 6 } clnpRouteNextHop OBJECT-TYPE SYNTAX ClnpAddress ACCESS read-write STATUS mandatory ::= { clnpRouteEntry 7 } clnpRouteType OBJECT-TYPE SYNTAX INTEGER { other(1), -- none of the -- following Satz [Page 55]
RFC 1162 CLNS MIB June 1990 invalid(2), -- an invalidated -- route -- route to directly direct(3), -- connected -- (sub-)network -- route to a -- non-local remote(4) -- host/network -- /sub-network } ACCESS read-write STATUS mandatory ::= { clnpRouteEntry 8 } clnpRouteProto OBJECT-TYPE SYNTAX INTEGER { other(1), -- none of the -- following -- non-protocol -- information -- e.g., manually local(2), -- configured entries -- set via a network netmgmt(3), -- management -- protocol -- similar to -- ipRouteProto -- but omits several -- IP-specific -- protocols is-is(9), ciscoIgrp(11), bbnSpfIgp(12), ospf(13), bgp(14) } ACCESS read-only STATUS mandatory ::= { clnpRouteEntry 9 } clnpRouteAge OBJECT-TYPE SYNTAX INTEGER ACCESS read-write Satz [Page 56]
RFC 1162 CLNS MIB June 1990 STATUS mandatory ::= { clnpRouteEntry 10 } -- the CLNP Address Translation tables clnpNetToMediaTable OBJECT-TYPE SYNTAX SEQUENCE OF ClnpNetToMediaEntry ACCESS not-accessible STATUS mandatory ::= { clnp 23 } clnpNetToMediaEntry OBJECT-TYPE SYNTAX ClnpNetToMediaEntry ACCESS not-accessible STATUS mandatory -- INDEX { clnpNetToMediaIfIndex, -- clnpNetToMediaNetAddress } ::= { clnpNetToMediaTable 1 } ClnpNetToMediaEntry ::= SEQUENCE { clnpNetToMediaIfIndex INTEGER, clnpNetToMediaPhysAddress OCTET STRING, clnpNetToMediaNetAddress ClnpAddress, clnpNetToMediaType INTEGER, clnpNetToMediaAge INTEGER, clnpNetToMediaHoldTime INTEGER } clnpNetToMediaIfIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory ::= { clnpNetToMediaEntry 1 } clnpNetToMediaPhysAddress OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS mandatory ::= { clnpNetToMediaEntry 2 } clnpNetToMediaNetAddress OBJECT-TYPE SYNTAX ClnpAddress Satz [Page 57]
RFC 1162 CLNS MIB June 1990 ACCESS read-write STATUS mandatory ::= { clnpNetToMediaEntry 3 } clnpNetToMediaType OBJECT-TYPE SYNTAX INTEGER { other(1), -- none of the -- following invalid(2), -- an invalidated -- mapping dynamic(3), static(4) } ACCESS read-write STATUS mandatory ::= { clnpNetToMediaEntry 4 } clnpNetToMediaAge OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory ::= { clnpNetToMediaEntry 5 } clnpNetToMediaHoldTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory ::= { clnpNetToMediaEntry 6 } clnpMediaToNetTable OBJECT-TYPE SYNTAX SEQUENCE OF ClnpMediaToNetEntry ACCESS not-accessible STATUS mandatory ::= { clnp 24 } clnpMediaToNetEntry OBJECT-TYPE SYNTAX ClnpMediaToNetEntry ACCESS not-accessible STATUS mandatory -- INDEX { clnpMediaToNetIfIndex, -- clnpMediaToNetPhysAddress } ::= { clnpMediaToNetTable 1 } ClnpMediaToNetEntry ::= SEQUENCE { clnpMediaToNetIfIndex INTEGER, clnpMediaToNetNetAddress ClnpAddress, Satz [Page 58]
RFC 1162 CLNS MIB June 1990 clnpMediaToNetPhysAddress OCTET STRING, clnpMediaToNetType INTEGER, clnpMediaToNetAge INTEGER, clnpMediaToNetHoldTime INTEGER } clnpMediaToNetIfIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory ::= { clnpMediaToNetEntry 1 } clnpMediaToNetNetAddress OBJECT-TYPE SYNTAX ClnpAddress ACCESS read-write STATUS mandatory ::= { clnpMediaToNetEntry 2 } clnpMediaToNetPhysAddress OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS mandatory ::= { clnpMediaToNetEntry 3 } clnpMediaToNetType OBJECT-TYPE SYNTAX INTEGER { other(1), -- none of the -- following invalid(2), -- an invalidated -- mapping dynamic(3), static(4) } ACCESS read-write STATUS mandatory ::= { clnpMediaToNetEntry 4 } clnpMediaToNetAge OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory ::= { clnpMediaToNetEntry 5 } clnpMediaToNetHoldTime OBJECT-TYPE Satz [Page 59]
RFC 1162 CLNS MIB June 1990 SYNTAX INTEGER ACCESS read-write STATUS mandatory ::= { clnpMediaToNetEntry 6 } -- the CLNP Error Group clnpInErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 1 } clnpOutErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 2 } clnpInErrUnspecs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 3 } clnpInErrProcs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 4 } clnpInErrCksums OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 5 } clnpInErrCongests OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 6 } clnpInErrHdrs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 7 } Satz [Page 60]
RFC 1162 CLNS MIB June 1990 clnpInErrSegs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 8 } clnpInErrIncomps OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 9 } clnpInErrDups OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 10 } clnpInErrUnreachDsts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 11 } clnpInErrUnknownDsts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 12 } clnpInErrSRUnspecs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 13 } clnpInErrSRSyntaxes OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 14 } clnpInErrSRUnkAddrs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 15 } Satz [Page 61]
RFC 1162 CLNS MIB June 1990 clnpInErrSRBadPaths OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 16 } clnpInErrHops OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 17 } clnpInErrHopReassms OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 18 } clnpInErrUnsOptions OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 19 } clnpInErrUnsVersions OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 20 } clnpInErrUnsSecurities OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 21 } clnpInErrUnsSRs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 22 } clnpInErrUnsRRs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 23 } Satz [Page 62]
RFC 1162 CLNS MIB June 1990 clnpInErrInterferences OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 24 } clnpOutErrUnspecs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 25 } clnpOutErrProcs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 26 } clnpOutErrCksums OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 27 } clnpOutErrCongests OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 28 } clnpOutErrHdrs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 29 } clnpOutErrSegs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 30 } clnpOutErrIncomps OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 31 } Satz [Page 63]
RFC 1162 CLNS MIB June 1990 clnpOutErrDups OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 32 } clnpOutErrUnreachDsts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 33 } clnpOutErrUnknownDsts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 34 } clnpOutErrSRUnspecs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 35 } clnpOutErrSRSyntaxes OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 36 } clnpOutErrSRUnkAddrs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 37 } clnpOutErrSRBadPaths OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 38 } clnpOutErrHops OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 39 } Satz [Page 64]
RFC 1162 CLNS MIB June 1990 clnpOutErrHopReassms OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 40 } clnpOutErrUnsOptions OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 41 } clnpOutErrUnsVersions OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 42 } clnpOutErrUnsSecurities OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 43 } clnpOutErrUnsSRs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 44 } clnpOutErrUnsRRs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 45 } clnpOutErrInterferences OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { error 46 } -- the CLNP Echo Group -- the ES-IS Group esisESHins OBJECT-TYPE Satz [Page 65]
RFC 1162 CLNS MIB June 1990 SYNTAX Counter ACCESS read-only STATUS mandatory ::= { es-is 1 } esisESHouts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { es-is 2 } esisISHins OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { es-is 3 } esisISHouts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { es-is 4 } esisRDUins OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { es-is 5 } esisRDUouts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory ::= { es-is 6 } END 6. Identification of OBJECT instances for use with the SNMP The names for all object types in the MIB are defined explicitly either in the Internet-standard MIB or in other documents which conform to the naming conventions of the SMI. The SMI requires that conformant management protocols define mechanisms for identifying individual instances of those object types for a particular network element. Each instance of any object type defined in the MIB is identified in SNMP operations by a unique name called its "variable name." In Satz [Page 66]
RFC 1162 CLNS MIB June 1990 general, the name of an SNMP variable is an OBJECT IDENTIFIER of the form x.y, where x is the name of a non-aggregate object type defined in the MIB and y is an OBJECT IDENTIFIER fragment that, in a way specific to the named object type, identifies the desired instance. This naming strategy admits the fullest exploitation of the semantics of the powerful SNMP get-next operator, because it assigns names for related variables so as to be contiguous in the lexicographical ordering of all variable names known in the MIB. The type-specific naming of object instances is defined below for a number of classes of object types. Instances of an object type to which none of the following naming conventions are applicable are named by OBJECT IDENTIFIERs of the form x.0, where x is the name of said object type in the MIB definition. For example, suppose one wanted to identify an instance of the variable sysDescr in the Internet-standard MIB. The object class for sysDescr is: iso org dod internet mgmt mib system sysDescr 1 3 6 1 2 1 1 1 Hence, the object type, x, would be 1.3.6.1.2.1.1.1 to which is appended an instance sub-identifier of 0. That is, 1.3.6.1.2.1.1.1.0 identifies the one and only instance of sysDescr. 6.1. clnpAddrTable Object Type Names The name of an CLNP-addressable network element, x, is the OBJECT IDENTIFIER of the form z such that z is the value (in which each octet of the ClnpAddress type is expressed as a sub-identifier of the OBJECT IDENTIFIER) of that instance of the clnpAdEntAddr object type associated with x. For each object type, t, for which the defined name, n, has a prefix of clnpAddrEntry, an instance, i, of t is named by an OBJECT IDENTIFIER of the form n.y, where y is the name of the CLNP- addressable network element about which i represents information. For example, suppose one wanted to find the maximum reassembly size of an entry in the CLNP interface table associated with an CLNP address of NS+0504030201. Accordingly, clnpAdEntNetMask.5.5.4.3.2.1 would identify the desired instance. 6.2. clnpRoutingTable Object Type Names The name of an CLNP route, x, is the OBJECT IDENTIFIER of the form z Satz [Page 67]
RFC 1162 CLNS MIB June 1990 such that z is the value (in which each octet of the ClnpAddress type is expressed as a sub-identifier of the OBJECT IDENTIFIER) of that instance of the clnpRouteDest object type associated with x. For each object type, t, for which the defined name, n, has a prefix of clnpRoutingEntry, an instance, i, of t is named by an OBJECT IDENTIFIER of the form n.y, where y is the name of the CLNP route about which i represents information. For example, suppose one wanted to find the next hop of an entry in the CLNP routing table associated with the destination of NS+0504030201. Accordingly, clnpRouteNextHop.5.5.4.3.2.1 would identify the desired instance. At the option of the agent, multiple routes to the same destination may be visible. To realize this, the agent, while required to return a single entry for an CLNP route, x, of the form n.y, may also return information about other routes to the same destination using the form n.y.v, where v is a implementation-dependent small, non-negative integer. 6.3. clnpNetToMediaTable Object Type Names The name of a cached CLNP address, x, is an OBJECT IDENTIFIER of the form s.z, such that s is the value of that instance of the clnpNetToMediaIfIndex object type associated with the entry and z is the value of the CLNP address of the clnpNetToMediaNetAddress object type associated with x, in which each octet of the ClnpAddress type is expressed as a sub-identifier of the OBJECT IDENTIFIER. For each object type, t, for which the defined name, n, has a prefix of clnpNetToMediaEntry, an instance, i, of t is named by an OBJECT IDENTIFIER of the form n.y, where y is the name of the cached CLNP address about which i represents information. For example, suppose one wanted to find the media address of an entry in the address translation table associated with a CLNP address of NS+0504030201 and interface 3. Accordingly, clnpNetToMediaPhysAddress.3.5.5.4.3.2.1 would identify the desired instance. 6.4. clnpMediaToNetTable Object Type Names The name of a cached media address, x, is an OBJECT IDENTIFIER of the form s.z, such that s is the value of that instance of the clnpMediaToNetIfIndex object type associated with the entry and z is the value of the media address of the clnpMediaToNetMediaAddress object type associated with x, in which each octet of the media Satz [Page 68]
RFC 1162 CLNS MIB June 1990 address is expressed as a sub- identifier of the OBJECT IDENTIFIER. For each object type, t, for which the defined name, n, has a prefix of clnpMediaToNetEntry, an instance, i, of t is named by an OBJECT IDENTIFIER of the form n.y, where y is the name of the cached media address about which i represents information. For example, suppose one wanted to find the CLNP address of an entry in the address translation table associated with a media address of 08:00:20:00:38:ba and interface 3. Accordingly, clnpMediaToNetNetAddress.3.8.0.32.0.56.186 would identify the desired instance. 7. References [1] Cerf, V., "IAB Recommendations for the Development of Internet Network Management Standards", RFC 1052, IAB, April 1988. [2] Cerf, V., "Report of the Second Ad Hoc Network Management Review Group", RFC 1109, NRI, August 1989. [3] Rose, M., and K. McCloghrie, "Structure and Identification of Management Information for TCP/IP-based Internets", RFC 1155, Performance Systems International and Hughes LAN Systems, May 1990. [4] McCloghrie, K., and M. Rose, "Management Information Base for Network Management of TCP/IP-based Internets", RFC 1156, Hughes LAN Systems and Performance Systems International, May 1990. [5] Case, J., M. Fedor, M. Schoffstall, and J. Davin, The Simple Network Management Protocol", RFC 1157, University of Tennessee at Knoxville, Performance Systems International, Performance Systems International, and the MIT Laboratory for Computer Science, May 1990. [6] Rose, M., "Management Information Base for Network Management of TCP/IP-based internets: MIB-II", RFC 1158, Performance Systems International, May 1990. [7] Information processing systems - Open Systems Interconnection, "Specification of Abstract Syntax Notation One (ASN.1)", International Organization for Standardization, International Standard 8824, December 1987. [8] Information processing systems - Open Systems Interconnection, "Specification of Basic Encoding Rules for Abstract Notation One (ASN.1)", International Organization for Standardization, Satz [Page 69]
RFC 1162 CLNS MIB June 1990 International Standard 8825, December 1987. [9] Information processing systems - Data Communications - "Protocol for providing the Connectionless-mode Network Service and Provision of Underlying Service", International Organization for Standardization", International Standard 8473, May 1987. [10] "End System to Intermediate System Routing Exchange Protocol for Use in Conjunction with the Protocol for the Provision of the Connectionless-mode Network Service (ISO 8473)", International Draft Proposal 9542. [11] Kille, S., "A String Encoding of Presentation Address", Research Note RN/89/14, Department of Computer Science, University College London, February 1989. 8. Security Considerations Security issues are not discussed in this memo. 9. Author's Address: Greg Satz cisco Systems, Inc. 1350 Willow Road Menlo Park, CA 94025 Phone: (415) 326-1941 Email: Satz@CISCO.COM Satz [Page 70]

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