/* * This module has been generated by smidump 0.4.5: * * smidump -f yang SNMPv2-MIB * * Do not edit. Edit the source file instead! */ module SNMPv2-MIB { /*** NAMESPACE / PREFIX DEFINITION ***/ namespace "urn:ietf:params:xml:ns:yang:smiv2:SNMPv2-MIB"; prefix "snmpv2-mib"; /*** LINKAGE (IMPORTS / INCLUDES) ***/ import SNMPv2-TC { prefix "smiv2"; } import yang-types { prefix "yang"; } /*** META INFORMATION ***/ organization "IETF SNMPv3 Working Group"; contact "WG-EMail: snmpv3@lists.tislabs.com Subscribe: snmpv3-request@lists.tislabs.com Co-Chair: Russ Mundy Network Associates Laboratories postal: 15204 Omega Drive, Suite 300 Rockville, MD 20850-4601 USA EMail: mundy@tislabs.com phone: +1 301 947-7107 Co-Chair: David Harrington Enterasys Networks postal: 35 Industrial Way P. O. Box 5005 Rochester, NH 03866-5005 USA EMail: dbh@enterasys.com phone: +1 603 337-2614 Editor: Randy Presuhn BMC Software, Inc. postal: 2141 North First Street San Jose, CA 95131 USA EMail: randy_presuhn@bmc.com phone: +1 408 546-1006"; description "The MIB module for SNMP entities. Copyright (C) The Internet Society (2002). This version of this MIB module is part of RFC 3418; see the RFC itself for full legal notices."; revision "2002-10-16" { description "This revision of this MIB module was published as RFC 3418."; } revision "1995-11-09" { description "This revision of this MIB module was published as RFC 1907."; } revision "1993-04-01" { description "The initial revision of this MIB module was published as RFC 1450."; } container system { leaf sysDescr { type smiv2:DisplayString { length "0..255"; } config false; description "A textual description of the entity. This value should include the full name and version identification of the system's hardware type, software operating-system, and networking software."; } leaf sysObjectID { type yang:object-identifier; config false; description "The vendor's authoritative identification of the network management subsystem contained in the entity. This value is allocated within the SMI enterprises subtree (1.3.6.1.4.1) and provides an easy and unambiguous means for determining `what kind of box' is being managed. For example, if vendor `Flintstones, Inc.' was assigned the subtree 1.3.6.1.4.1.424242, it could assign the identifier 1.3.6.1.4.1.424242.1.1 to its `Fred Router'."; } leaf sysUpTime { type yang:timeticks; config false; description "The time (in hundredths of a second) since the network management portion of the system was last re-initialized."; } leaf sysContact { type smiv2:DisplayString { length "0..255"; } config true; description "The textual identification of the contact person for this managed node, together with information on how to contact this person. If no contact information is known, the value is the zero-length string."; } leaf sysName { type smiv2:DisplayString { length "0..255"; } config true; description "An administratively-assigned name for this managed node. By convention, this is the node's fully-qualified domain name. If the name is unknown, the value is the zero-length string."; } leaf sysLocation { type smiv2:DisplayString { length "0..255"; } config true; description "The physical location of this node (e.g., 'telephone closet, 3rd floor'). If the location is unknown, the value is the zero-length string."; } leaf sysServices { type int32 { range "0..127"; } config false; description "A value which indicates the set of services that this entity may potentially offer. The value is a sum. This sum initially takes the value zero. Then, for each layer, L, in the range 1 through 7, that this node performs transactions for, 2 raised to (L - 1) is added to the sum. For example, a node which performs only routing functions would have a value of 4 (2^(3-1)). In contrast, a node which is a host offering application services would have a value of 72 (2^(4-1) + 2^(7-1)). Note that in the context of the Internet suite of protocols, values should be calculated accordingly: layer functionality 1 physical (e.g., repeaters) 2 datalink/subnetwork (e.g., bridges) 3 internet (e.g., supports the IP) 4 end-to-end (e.g., supports the TCP) 7 applications (e.g., supports the SMTP) For systems including OSI protocols, layers 5 and 6 may also be counted."; } leaf sysORLastChange { type yang:timestamp; config false; description "The value of sysUpTime at the time of the most recent change in state or value of any instance of sysORID."; } /* XXX table comments here XXX */ list sysOREntry { key "sysORIndex"; description "An entry (conceptual row) in the sysORTable."; leaf sysORIndex { type int32 { range "1..2147483647"; } config false; description "The auxiliary variable used for identifying instances of the columnar objects in the sysORTable."; } leaf sysORID { type yang:object-identifier; config false; description "An authoritative identification of a capabilities statement with respect to various MIB modules supported by the local SNMP application acting as a command responder."; } leaf sysORDescr { type smiv2:DisplayString; config false; description "A textual description of the capabilities identified by the corresponding instance of sysORID."; } leaf sysORUpTime { type yang:timestamp; config false; description "The value of sysUpTime at the time this conceptual row was last instantiated."; } } } container snmp { leaf snmpInPkts { type yang:counter32; config false; description "The total number of messages delivered to the SNMP entity from the transport service."; } leaf snmpOutPkts { type yang:counter32; config false; status obsolete; description "The total number of SNMP Messages which were passed from the SNMP protocol entity to the transport service."; } leaf snmpInBadVersions { type yang:counter32; config false; description "The total number of SNMP messages which were delivered to the SNMP entity and were for an unsupported SNMP version."; } leaf snmpInBadCommunityNames { type yang:counter32; config false; description "The total number of community-based SNMP messages (for example, SNMPv1) delivered to the SNMP entity which used an SNMP community name not known to said entity. Also, implementations which authenticate community-based SNMP messages using check(s) in addition to matching the community name (for example, by also checking whether the message originated from a transport address allowed to use a specified community name) MAY include in this value the number of messages which failed the additional check(s). It is strongly RECOMMENDED that the documentation for any security model which is used to authenticate community-based SNMP messages specify the precise conditions that contribute to this value."; } leaf snmpInBadCommunityUses { type yang:counter32; config false; description "The total number of community-based SNMP messages (for example, SNMPv1) delivered to the SNMP entity which represented an SNMP operation that was not allowed for the SNMP community named in the message. The precise conditions under which this counter is incremented (if at all) depend on how the SNMP entity implements its access control mechanism and how its applications interact with that access control mechanism. It is strongly RECOMMENDED that the documentation for any access control mechanism which is used to control access to and visibility of MIB instrumentation specify the precise conditions that contribute to this value."; } leaf snmpInASNParseErrs { type yang:counter32; config false; description "The total number of ASN.1 or BER errors encountered by the SNMP entity when decoding received SNMP messages."; } leaf snmpInTooBigs { type yang:counter32; config false; status obsolete; description "The total number of SNMP PDUs which were delivered to the SNMP protocol entity and for which the value of the error-status field was `tooBig'."; } leaf snmpInNoSuchNames { type yang:counter32; config false; status obsolete; description "The total number of SNMP PDUs which were delivered to the SNMP protocol entity and for which the value of the error-status field was `noSuchName'."; } leaf snmpInBadValues { type yang:counter32; config false; status obsolete; description "The total number of SNMP PDUs which were delivered to the SNMP protocol entity and for which the value of the error-status field was `badValue'."; } leaf snmpInReadOnlys { type yang:counter32; config false; status obsolete; description "The total number valid SNMP PDUs which were delivered to the SNMP protocol entity and for which the value of the error-status field was `readOnly'. It should be noted that it is a protocol error to generate an SNMP PDU which contains the value `readOnly' in the error-status field, as such this object is provided as a means of detecting incorrect implementations of the SNMP."; } leaf snmpInGenErrs { type yang:counter32; config false; status obsolete; description "The total number of SNMP PDUs which were delivered to the SNMP protocol entity and for which the value of the error-status field was `genErr'."; } leaf snmpInTotalReqVars { type yang:counter32; config false; status obsolete; description "The total number of MIB objects which have been retrieved successfully by the SNMP protocol entity as the result of receiving valid SNMP Get-Request and Get-Next PDUs."; } leaf snmpInTotalSetVars { type yang:counter32; config false; status obsolete; description "The total number of MIB objects which have been altered successfully by the SNMP protocol entity as the result of receiving valid SNMP Set-Request PDUs."; } leaf snmpInGetRequests { type yang:counter32; config false; status obsolete; description "The total number of SNMP Get-Request PDUs which have been accepted and processed by the SNMP protocol entity."; } leaf snmpInGetNexts { type yang:counter32; config false; status obsolete; description "The total number of SNMP Get-Next PDUs which have been accepted and processed by the SNMP protocol entity."; } leaf snmpInSetRequests { type yang:counter32; config false; status obsolete; description "The total number of SNMP Set-Request PDUs which have been accepted and processed by the SNMP protocol entity."; } leaf snmpInGetResponses { type yang:counter32; config false; status obsolete; description "The total number of SNMP Get-Response PDUs which have been accepted and processed by the SNMP protocol entity."; } leaf snmpInTraps { type yang:counter32; config false; status obsolete; description "The total number of SNMP Trap PDUs which have been accepted and processed by the SNMP protocol entity."; } leaf snmpOutTooBigs { type yang:counter32; config false; status obsolete; description "The total number of SNMP PDUs which were generated by the SNMP protocol entity and for which the value of the error-status field was `tooBig.'"; } leaf snmpOutNoSuchNames { type yang:counter32; config false; status obsolete; description "The total number of SNMP PDUs which were generated by the SNMP protocol entity and for which the value of the error-status was `noSuchName'."; } leaf snmpOutBadValues { type yang:counter32; config false; status obsolete; description "The total number of SNMP PDUs which were generated by the SNMP protocol entity and for which the value of the error-status field was `badValue'."; } leaf snmpOutGenErrs { type yang:counter32; config false; status obsolete; description "The total number of SNMP PDUs which were generated by the SNMP protocol entity and for which the value of the error-status field was `genErr'."; } leaf snmpOutGetRequests { type yang:counter32; config false; status obsolete; description "The total number of SNMP Get-Request PDUs which have been generated by the SNMP protocol entity."; } leaf snmpOutGetNexts { type yang:counter32; config false; status obsolete; description "The total number of SNMP Get-Next PDUs which have been generated by the SNMP protocol entity."; } leaf snmpOutSetRequests { type yang:counter32; config false; status obsolete; description "The total number of SNMP Set-Request PDUs which have been generated by the SNMP protocol entity."; } leaf snmpOutGetResponses { type yang:counter32; config false; status obsolete; description "The total number of SNMP Get-Response PDUs which have been generated by the SNMP protocol entity."; } leaf snmpOutTraps { type yang:counter32; config false; status obsolete; description "The total number of SNMP Trap PDUs which have been generated by the SNMP protocol entity."; } leaf snmpEnableAuthenTraps { type enumeration { enum enabled { value 1; } enum disabled { value 2; } } config true; description "Indicates whether the SNMP entity is permitted to generate authenticationFailure traps. The value of this object overrides any configuration information; as such, it provides a means whereby all authenticationFailure traps may be disabled. Note that it is strongly recommended that this object be stored in non-volatile memory so that it remains constant across re-initializations of the network management system."; } leaf snmpSilentDrops { type yang:counter32; config false; description "The total number of Confirmed Class PDUs (such as GetRequest-PDUs, GetNextRequest-PDUs, GetBulkRequest-PDUs, SetRequest-PDUs, and InformRequest-PDUs) delivered to the SNMP entity which were silently dropped because the size of a reply containing an alternate Response Class PDU (such as a Response-PDU) with an empty variable-bindings field was greater than either a local constraint or the maximum message size associated with the originator of the request."; } leaf snmpProxyDrops { type yang:counter32; config false; description "The total number of Confirmed Class PDUs (such as GetRequest-PDUs, GetNextRequest-PDUs, GetBulkRequest-PDUs, SetRequest-PDUs, and InformRequest-PDUs) delivered to the SNMP entity which were silently dropped because the transmission of the (possibly translated) message to a proxy target failed in a manner (other than a time-out) such that no Response Class PDU (such as a Response-PDU) could be returned."; } } container snmpTrap { leaf snmpTrapOID { type yang:object-identifier; config false; description "The authoritative identification of the notification currently being sent. This variable occurs as the second varbind in every SNMPv2-Trap-PDU and InformRequest-PDU."; } leaf snmpTrapEnterprise { type yang:object-identifier; config false; description "The authoritative identification of the enterprise associated with the trap currently being sent. When an SNMP proxy agent is mapping an RFC1157 Trap-PDU into a SNMPv2-Trap-PDU, this variable occurs as the last varbind."; } } container snmpSet { leaf snmpSetSerialNo { type smiv2:TestAndIncr; config true; description "An advisory lock used to allow several cooperating command generator applications to coordinate their use of the SNMP set operation. This object is used for coarse-grain coordination. To achieve fine-grain coordination, one or more similar objects might be defined within each MIB group, as appropriate."; } } notification coldStart { description "A coldStart trap signifies that the SNMP entity, supporting a notification originator application, is reinitializing itself and that its configuration may have been altered."; } notification warmStart { description "A warmStart trap signifies that the SNMP entity, supporting a notification originator application, is reinitializing itself such that its configuration is unaltered."; } notification authenticationFailure { description "An authenticationFailure trap signifies that the SNMP entity has received a protocol message that is not properly authenticated. While all implementations of SNMP entities MAY be capable of generating this trap, the snmpEnableAuthenTraps object indicates whether this trap will be generated."; } } /* end of module SNMPv2-MIB */