From 4bfd864f10b68b71482b35c818559068ef8d5797 Mon Sep 17 00:00:00 2001 From: Thomas Voss Date: Wed, 27 Nov 2024 20:54:24 +0100 Subject: doc: Add RFC documents --- doc/rfc/rfc1612.txt | 1795 +++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 1795 insertions(+) create mode 100644 doc/rfc/rfc1612.txt (limited to 'doc/rfc/rfc1612.txt') diff --git a/doc/rfc/rfc1612.txt b/doc/rfc/rfc1612.txt new file mode 100644 index 0000000..4ef23b0 --- /dev/null +++ b/doc/rfc/rfc1612.txt @@ -0,0 +1,1795 @@ + + + + + + +Network Working Group R. Austein +Request for Comments: 1612 Epilogue Technology Corporation +Category: Standards Track J. Saperia + Digital Equipment Corporation + May 1994 + + + DNS Resolver MIB Extensions + +Status of this Memo + + This document specifies an Internet standards track protocol for the + Internet community, and requests discussion and suggestions for + improvements. Please refer to the current edition of the "Internet + Official Protocol Standards" (STD 1) for the standardization state + and status of this protocol. Distribution of this memo is unlimited. + +Table of Contents + + 1. Introduction .............................................. 1 + 2. The SNMPv2 Network Management Framework ................... 2 + 2.1 Object Definitions ....................................... 2 + 3. Overview .................................................. 2 + 3.1 Resolvers ................................................ 3 + 3.2 Name Servers ............................................. 3 + 3.3 Selected Objects ......................................... 4 + 3.4 Textual Conventions ...................................... 4 + 4. Definitions ............................................... 5 + 5. Acknowledgements .......................................... 30 + 6. References ................................................ 30 + 7. Security Considerations ................................... 32 + 8. Authors' Addresses ........................................ 32 + +1. Introduction + + This memo defines a portion of the Management Information Base (MIB) + for use with network management protocols in the Internet community. + In particular, it describes a set of extensions which instrument DNS + resolver functions. This memo was produced by the DNS working group. + + With the adoption of the Internet-standard Network Management + Framework [4,5,6,7], and with a large number of vendor + implementations of these standards in commercially available + products, it became possible to provide a higher level of effective + network management in TCP/IP-based internets than was previously + available. With the growth in the use of these standards, it has + become possible to consider the management of other elements of the + infrastructure beyond the basic TCP/IP protocols. A key element of + + + +Austein & Saperia [Page 1] + +RFC 1612 DNS Resolver MIB May 1994 + + + the TCP/IP infrastructure is the DNS. + + Up to this point there has been no mechanism to integrate the + management of the DNS with SNMP-based managers. This memo provides + the mechanisms by which IP-based management stations can effectively + manage DNS resolver software in an integrated fashion. + + We have defined DNS MIB objects to be used in conjunction with the + Internet MIB to allow access to and control of DNS resolver software + via SNMP by the Internet community. + +2. The SNMPv2 Network Management Framework + + The SNMPv2 Network Management Framework consists of four major + components. They are: + + o RFC 1442 which defines the SMI, the mechanisms used for + describing and naming objects for the purpose of management. + + o STD 17, RFC 1213 defines MIB-II, the core set of managed + objects for the Internet suite of protocols. + + o RFC 1445 which defines the administrative and other + architectural aspects of the framework. + + o RFC 1448 which defines the protocol used for network access to + managed objects. + + The Framework permits new objects to be defined for the purpose of + experimentation and evaluation. + +2.1. Object Definitions + + 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) + defined in the SMI. In particular, each object object type is named + by an OBJECT IDENTIFIER, an administratively assigned name. 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 descriptor, to + refer to the object type. + +3. Overview + + In theory, the DNS world is pretty simple. There are two kinds of + entities: resolvers and name servers. Resolvers ask questions. Name + servers answer them. The real world, however, is not so simple. + + + +Austein & Saperia [Page 2] + +RFC 1612 DNS Resolver MIB May 1994 + + + Implementors have made widely differing choices about how to divide + DNS functions between resolvers and servers. They have also + constructed various sorts of exotic hybrids. The most difficult task + in defining this MIB was to accommodate this wide range of entities + without having to come up with a separate MIB for each. + + We divided up the various DNS functions into two, non-overlapping + classes, called "resolver functions" and "name server functions." A + DNS entity that performs what we define as resolver functions + contains a resolver, and therefore must implement the MIB groups + required of all resolvers which are defined in this module. Some + resolvers also implement "optional" functions such as a cache, in + which case they must also implement the cache group contained in this + MIB. A DNS entity which implements name server functions is + considered to be a name server, and must implement the MIB groups + required for name servers which are defined in a separate module. If + the same piece of software performs both resolver and server + functions, we imagine that it contains both a resolver and a server + and would thus implement both the DNS Server and DNS Resolver MIBs. + +3.1. Resolvers + + In our model, a resolver is a program (or piece thereof) which + obtains resource records from servers. Normally it does so at the + behest of an application, but may also do so as part of its own + operation. A resolver sends DNS protocol queries and receives DNS + protocol replies. A resolver neither receives queries nor sends + replies. A full service resolver is one that knows how to resolve + queries: it obtains the needed resource records by contacting a + server authoritative for the records desired. A stub resolver does + not know how to resolve queries: it sends all queries to a local name + server, setting the "recursion desired" flag to indicate that it + hopes that the name server will be willing to resolve the query. A + resolver may (optionally) have a cache for remembering previously + acquired resource records. It may also have a negative cache for + remembering names or data that have been determined not to exist. + +3.2. Name Servers + + A name server is a program (or piece thereof) that provides resource + records to resolvers. All references in this document to "a name + server" imply "the name server's role"; in some cases the name + server's role and the resolver's role might be combined into a single + program. A name server receives DNS protocol queries and sends DNS + protocol replies. A name server neither sends queries nor receives + replies. As a consequence, name servers do not have caches. + Normally, a name server would expect to receive only those queries to + which it could respond with authoritative information. However, if a + + + +Austein & Saperia [Page 3] + +RFC 1612 DNS Resolver MIB May 1994 + + + name server receives a query that it cannot respond to with purely + authoritative information, it may choose to try to obtain the + necessary additional information from a resolver which may or may not + be a separate process. + +3.3. Selected Objects + + Many of the objects included in this memo have been created from + information contained in the DNS specifications [1,2], as amended and + clarified by subsequent host requirements documents [3]. Other + objects have been created based on experience with existing DNS + management tools, expected operational needs, the statistics + generated by existing DNS implementations, and the configuration + files used by existing DNS implementations. These objects have been + ordered into groups as follows: + + o Resolver Configuration Group + + o Resolver Counter Group + + o Resolver Lame Delegation Group + + o Resolver Cache Group + + o Resolver Negative Cache Group + + o Resolver Optional Counter Group + + This information has been converted into a standard form using the + SNMPv2 SMI defined in [9]. For the most part, the descriptions are + influenced by the DNS related RFCs noted above. For example, the + descriptions for counters used for the various types of queries of + DNS records are influenced by the definitions used for the various + record types found in [2]. + +3.4. Textual Conventions + + Several conceptual data types have been introduced as a textual + conventions in the DNS Server MIB document and have been imported + into this MIB module. These additions will facilitate the common + understanding of information used by the DNS. No changes to the SMI + or the SNMP are necessary to support these conventions. + + Readers familiar with MIBs designed to manage entities in the lower + layers of the Internet protocol suite may be surprised at the number + of non-enumerated integers used in this MIB to represent values such + as DNS RR class and type numbers. The reason for this choice is + simple: the DNS itself is designed as an extensible protocol, + + + +Austein & Saperia [Page 4] + +RFC 1612 DNS Resolver MIB May 1994 + + + allowing new classes and types of resource records to be added to the + protocol without recoding the core DNS software. Using non- + enumerated integers to represent these data types in this MIB allows + the MIB to accommodate these changes as well. + +4. Definitions + + DNS-RESOLVER-MIB DEFINITIONS ::= BEGIN + + IMPORTS + MODULE-IDENTITY, OBJECT-TYPE, IpAddress, Counter32, Integer32 + FROM SNMPv2-SMI + TEXTUAL-CONVENTION, RowStatus, DisplayString + FROM SNMPv2-TC + MODULE-COMPLIANCE, OBJECT-GROUP + FROM SNMPv2-CONF + dns, DnsName, DnsNameAsIndex, DnsClass, DnsType, DnsQClass, + DnsQType, DnsTime, DnsOpCode, DnsRespCode + FROM DNS-SERVER-MIB; + + -- DNS Resolver MIB + + dnsResMIB MODULE-IDENTITY + LAST-UPDATED "9401282250Z" + ORGANIZATION "IETF DNS Working Group" + CONTACT-INFO + " Rob Austein + Postal: Epilogue Technology Corporation + 268 Main Street, Suite 283 + North Reading, MA 10864 + US + Tel: +1 617 245 0804 + Fax: +1 617 245 8122 + E-Mail: sra@epilogue.com + + Jon Saperia + Postal: Digital Equipment Corporation + 110 Spit Brook Road + ZKO1-3/H18 + Nashua, NH 03062-2698 + US + Tel: +1 603 881 0480 + Fax: +1 603 881 0120 + E-mail: saperia@zko.dec.com" + DESCRIPTION + "The MIB module for entities implementing the client + (resolver) side of the Domain Name System (DNS) + protocol." + + + +Austein & Saperia [Page 5] + +RFC 1612 DNS Resolver MIB May 1994 + + + ::= { dns 2 } + + dnsResMIBObjects OBJECT IDENTIFIER ::= { dnsResMIB 1 } + + -- (Old-style) groups in the DNS resolver MIB. + + dnsResConfig OBJECT IDENTIFIER ::= { dnsResMIBObjects 1 } + dnsResCounter OBJECT IDENTIFIER ::= { dnsResMIBObjects 2 } + dnsResLameDelegation OBJECT IDENTIFIER ::= { dnsResMIBObjects 3 } + dnsResCache OBJECT IDENTIFIER ::= { dnsResMIBObjects 4 } + dnsResNCache OBJECT IDENTIFIER ::= { dnsResMIBObjects 5 } + dnsResOptCounter OBJECT IDENTIFIER ::= { dnsResMIBObjects 6 } + + + -- Resolver Configuration Group + + dnsResConfigImplementIdent OBJECT-TYPE + SYNTAX DisplayString + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The implementation identification string for the + resolver software in use on the system, for example; + `RES-2.1'" + ::= { dnsResConfig 1 } + + dnsResConfigService OBJECT-TYPE + SYNTAX INTEGER { recursiveOnly(1), + iterativeOnly(2), + recursiveAndIterative(3) } + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Kind of DNS resolution service provided: + + recursiveOnly(1) indicates a stub resolver. + + iterativeOnly(2) indicates a normal full service + resolver. + + recursiveAndIterative(3) indicates a full-service + resolver which performs a mix of recursive and iterative + queries." + ::= { dnsResConfig 2 } + + dnsResConfigMaxCnames OBJECT-TYPE + SYNTAX INTEGER (0..2147483647) + MAX-ACCESS read-write + + + +Austein & Saperia [Page 6] + +RFC 1612 DNS Resolver MIB May 1994 + + + STATUS current + DESCRIPTION + "Limit on how many CNAMEs the resolver should allow + before deciding that there's a CNAME loop. Zero means + that resolver has no explicit CNAME limit." + REFERENCE + "RFC-1035 section 7.1." + ::= { dnsResConfig 3 } + + -- DNS Resolver Safety Belt Table + + dnsResConfigSbeltTable OBJECT-TYPE + SYNTAX SEQUENCE OF DnsResConfigSbeltEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "Table of safety belt information used by the resolver + when it hasn't got any better idea of where to send a + query, such as when the resolver is booting or is a stub + resolver." + ::= { dnsResConfig 4 } + + dnsResConfigSbeltEntry OBJECT-TYPE + SYNTAX DnsResConfigSbeltEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "An entry in the resolver's Sbelt table. + Rows may be created or deleted at any time by the DNS + resolver and by SNMP SET requests. Whether the values + changed via SNMP are saved in stable storage across + `reset' operations is implementation-specific." + INDEX { dnsResConfigSbeltAddr, + dnsResConfigSbeltSubTree, + dnsResConfigSbeltClass } + ::= { dnsResConfigSbeltTable 1 } + + DnsResConfigSbeltEntry ::= + SEQUENCE { + dnsResConfigSbeltAddr + IpAddress, + dnsResConfigSbeltName + DnsName, + dnsResConfigSbeltRecursion + INTEGER, + dnsResConfigSbeltPref + INTEGER, + dnsResConfigSbeltSubTree + + + +Austein & Saperia [Page 7] + +RFC 1612 DNS Resolver MIB May 1994 + + + DnsNameAsIndex, + dnsResConfigSbeltClass + DnsClass, + dnsResConfigSbeltStatus + RowStatus + } + + dnsResConfigSbeltAddr OBJECT-TYPE + SYNTAX IpAddress + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "The IP address of the Sbelt name server identified by + this row of the table." + ::= { dnsResConfigSbeltEntry 1 } + + dnsResConfigSbeltName OBJECT-TYPE + SYNTAX DnsName + MAX-ACCESS read-create + STATUS current + DESCRIPTION + "The DNS name of a Sbelt nameserver identified by this + row of the table. A zero-length string indicates that + the name is not known by the resolver." + ::= { dnsResConfigSbeltEntry 2 } + + dnsResConfigSbeltRecursion OBJECT-TYPE + SYNTAX INTEGER { iterative(1), + recursive(2), + recursiveAndIterative(3) } + MAX-ACCESS read-create + STATUS current + DESCRIPTION + "Kind of queries resolver will be sending to the name + server identified in this row of the table: + + iterative(1) indicates that resolver will be directing + iterative queries to this name server (RD bit turned + off). + + recursive(2) indicates that resolver will be directing + recursive queries to this name server (RD bit turned + on). + + recursiveAndIterative(3) indicates that the resolver + will be directing both recursive and iterative queries + to the server identified in this row of the table." + ::= { dnsResConfigSbeltEntry 3 } + + + +Austein & Saperia [Page 8] + +RFC 1612 DNS Resolver MIB May 1994 + + + dnsResConfigSbeltPref OBJECT-TYPE + SYNTAX INTEGER (0..2147483647) + MAX-ACCESS read-create + STATUS current + DESCRIPTION + "This value identifies the preference for the name server + identified in this row of the table. The lower the + value, the more desirable the resolver considers this + server." + ::= { dnsResConfigSbeltEntry 4 } + + dnsResConfigSbeltSubTree OBJECT-TYPE + SYNTAX DnsNameAsIndex + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "Queries sent to the name server identified by this row + of the table are limited to those for names in the name + subtree identified by this variable. If no such + limitation applies, the value of this variable is the + name of the root domain (a DNS name consisting of a + single zero octet)." + ::= { dnsResConfigSbeltEntry 5 } + + dnsResConfigSbeltClass OBJECT-TYPE + SYNTAX DnsClass + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "The class of DNS queries that will be sent to the server + identified by this row of the table." + ::= { dnsResConfigSbeltEntry 6 } + + dnsResConfigSbeltStatus OBJECT-TYPE + SYNTAX RowStatus + MAX-ACCESS read-create + STATUS current + DESCRIPTION + "Row status column for this row of the Sbelt table." + ::= { dnsResConfigSbeltEntry 7 } + + dnsResConfigUpTime OBJECT-TYPE + SYNTAX DnsTime + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "If the resolver has a persistent state (e.g., a + process), this value will be the time elapsed since it + + + +Austein & Saperia [Page 9] + +RFC 1612 DNS Resolver MIB May 1994 + + + started. For software without persistant state, this + value will be 0." + ::= { dnsResConfig 5 } + + dnsResConfigResetTime OBJECT-TYPE + SYNTAX DnsTime + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "If the resolver has a persistent state (e.g., a process) + and supports a `reset' operation (e.g., can be told to + re-read configuration files), this value will be the + time elapsed since the last time the resolver was + `reset.' For software that does not have persistence or + does not support a `reset' operation, this value will be + zero." + ::= { dnsResConfig 6 } + + dnsResConfigReset OBJECT-TYPE + SYNTAX INTEGER { other(1), + reset(2), + initializing(3), + running(4) } + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "Status/action object to reinitialize any persistant + resolver state. When set to reset(2), any persistant + resolver state (such as a process) is reinitialized as if + the resolver had just been started. This value will + never be returned by a read operation. When read, one of + the following values will be returned: + other(1) - resolver in some unknown state; + initializing(3) - resolver (re)initializing; + running(4) - resolver currently running." + ::= { dnsResConfig 7 } + + + -- Resolver Counters Group + + -- Resolver Counter Table + + dnsResCounterByOpcodeTable OBJECT-TYPE + SYNTAX SEQUENCE OF DnsResCounterByOpcodeEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "Table of the current count of resolver queries and + + + +Austein & Saperia [Page 10] + +RFC 1612 DNS Resolver MIB May 1994 + + + answers." + ::= { dnsResCounter 3 } + + dnsResCounterByOpcodeEntry OBJECT-TYPE + SYNTAX DnsResCounterByOpcodeEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "Entry in the resolver counter table. Entries are + indexed by DNS OpCode." + INDEX { dnsResCounterByOpcodeCode } + ::= { dnsResCounterByOpcodeTable 1 } + + DnsResCounterByOpcodeEntry ::= + SEQUENCE { + dnsResCounterByOpcodeCode + DnsOpCode, + dnsResCounterByOpcodeQueries + Counter32, + dnsResCounterByOpcodeResponses + Counter32 + } + + dnsResCounterByOpcodeCode OBJECT-TYPE + SYNTAX DnsOpCode + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "The index to this table. The OpCodes that have already + been defined are found in RFC-1035." + REFERENCE + "RFC-1035 section 4.1.1." + ::= { dnsResCounterByOpcodeEntry 1 } + + dnsResCounterByOpcodeQueries OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Total number of queries that have sent out by the + resolver since initialization for the OpCode which is + the index to this row of the table." + ::= { dnsResCounterByOpcodeEntry 2 } + + dnsResCounterByOpcodeResponses OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + + + +Austein & Saperia [Page 11] + +RFC 1612 DNS Resolver MIB May 1994 + + + DESCRIPTION + "Total number of responses that have been received by the + resolver since initialization for the OpCode which is + the index to this row of the table." + ::= { dnsResCounterByOpcodeEntry 3 } + + -- Resolver Response Code Counter Table + + dnsResCounterByRcodeTable OBJECT-TYPE + SYNTAX SEQUENCE OF DnsResCounterByRcodeEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "Table of the current count of responses to resolver + queries." + ::= { dnsResCounter 4 } + + dnsResCounterByRcodeEntry OBJECT-TYPE + SYNTAX DnsResCounterByRcodeEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "Entry in the resolver response table. Entries are + indexed by DNS response code." + INDEX { dnsResCounterByRcodeCode } + ::= { dnsResCounterByRcodeTable 1 } + + DnsResCounterByRcodeEntry ::= + SEQUENCE { + dnsResCounterByRcodeCode + DnsRespCode, + dnsResCounterByRcodeResponses + Counter32 + } + + dnsResCounterByRcodeCode OBJECT-TYPE + SYNTAX DnsRespCode + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "The index to this table. The Response Codes that have + already been defined are found in RFC-1035." + REFERENCE + "RFC-1035 section 4.1.1." + ::= { dnsResCounterByRcodeEntry 1 } + + + + + + +Austein & Saperia [Page 12] + +RFC 1612 DNS Resolver MIB May 1994 + + + dnsResCounterByRcodeResponses OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of responses the resolver has received for the + response code value which identifies this row of the + table." + ::= { dnsResCounterByRcodeEntry 2 } + + -- Additional DNS Resolver Counter Objects + + dnsResCounterNonAuthDataResps OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of requests made by the resolver for which a + non-authoritative answer (cached data) was received." + ::= { dnsResCounter 5 } + + dnsResCounterNonAuthNoDataResps OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of requests made by the resolver for which a + non-authoritative answer - no such data response (empty + answer) was received." + ::= { dnsResCounter 6 } + + dnsResCounterMartians OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of responses received which were received from + servers that the resolver does not think it asked." + ::= { dnsResCounter 7 } + + dnsResCounterRecdResponses OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of responses received to all queries." + ::= { dnsResCounter 8 } + + + + +Austein & Saperia [Page 13] + +RFC 1612 DNS Resolver MIB May 1994 + + + dnsResCounterUnparseResps OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of responses received which were unparseable." + ::= { dnsResCounter 9 } + + dnsResCounterFallbacks OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of times the resolver had to fall back to its + seat belt information." + ::= { dnsResCounter 10 } + + + -- Lame Delegation Group + + dnsResLameDelegationOverflows OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of times the resolver attempted to add an entry + to the Lame Delegation table but was unable to for some + reason such as space constraints." + ::= { dnsResLameDelegation 1 } + + -- Lame Delegation Table + + dnsResLameDelegationTable OBJECT-TYPE + SYNTAX SEQUENCE OF DnsResLameDelegationEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "Table of name servers returning lame delegations. + + A lame delegation has occured when a parent zone + delegates authority for a child zone to a server that + appears not to think that it is authoritative for the + child zone in question." + ::= { dnsResLameDelegation 2 } + + dnsResLameDelegationEntry OBJECT-TYPE + SYNTAX DnsResLameDelegationEntry + MAX-ACCESS not-accessible + + + +Austein & Saperia [Page 14] + +RFC 1612 DNS Resolver MIB May 1994 + + + STATUS current + DESCRIPTION + "Entry in lame delegation table. Only the resolver may + create rows in this table. SNMP SET requests may be used + to delete rows." + INDEX { dnsResLameDelegationSource, + dnsResLameDelegationName, + dnsResLameDelegationClass } + ::= { dnsResLameDelegationTable 1 } + + DnsResLameDelegationEntry ::= + SEQUENCE { + dnsResLameDelegationSource + IpAddress, + dnsResLameDelegationName + DnsNameAsIndex, + dnsResLameDelegationClass + DnsClass, + dnsResLameDelegationCounts + Counter32, + dnsResLameDelegationStatus + RowStatus + } + + dnsResLameDelegationSource OBJECT-TYPE + SYNTAX IpAddress + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "Source of lame delegation." + ::= { dnsResLameDelegationEntry 1 } + + dnsResLameDelegationName OBJECT-TYPE + SYNTAX DnsNameAsIndex + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "DNS name for which lame delegation was received." + ::= { dnsResLameDelegationEntry 2 } + + dnsResLameDelegationClass OBJECT-TYPE + SYNTAX DnsClass + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "DNS class of received lame delegation." + ::= { dnsResLameDelegationEntry 3 } + + + + +Austein & Saperia [Page 15] + +RFC 1612 DNS Resolver MIB May 1994 + + + dnsResLameDelegationCounts OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "How many times this lame delegation has been received." + ::= { dnsResLameDelegationEntry 4 } + + dnsResLameDelegationStatus OBJECT-TYPE + SYNTAX RowStatus + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "Status column for the lame delegation table. Since only + the agent (DNS resolver) creates rows in this table, the + only values that a manager may write to this variable + are active(1) and destroy(6)." + ::= { dnsResLameDelegationEntry 5 } + + + -- Resolver Cache Group + + dnsResCacheStatus OBJECT-TYPE + SYNTAX INTEGER { enabled(1), disabled(2), clear(3) } + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "Status/action for the resolver's cache. + + enabled(1) means that the use of the cache is allowed. + Query operations can return this state. + + disabled(2) means that the cache is not being used. + Query operations can return this state. + + Setting this variable to clear(3) deletes the entire + contents of the resolver's cache, but does not otherwise + change the resolver's state. The status will retain its + previous value from before the clear operation (i.e., + enabled(1) or disabled(2)). The value of clear(3) can + NOT be returned by a query operation." + ::= { dnsResCache 1 } + + dnsResCacheMaxTTL OBJECT-TYPE + SYNTAX DnsTime + MAX-ACCESS read-write + STATUS current + DESCRIPTION + + + +Austein & Saperia [Page 16] + +RFC 1612 DNS Resolver MIB May 1994 + + + "Maximum Time-To-Live for RRs in this cache. If the + resolver does not implement a TTL ceiling, the value of + this field should be zero." + ::= { dnsResCache 2 } + + dnsResCacheGoodCaches OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of RRs the resolver has cached successfully." + ::= { dnsResCache 3 } + + dnsResCacheBadCaches OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of RRs the resolver has refused to cache because + they appear to be dangerous or irrelevant. E.g., RRs + with suspiciously high TTLs, unsolicited root + information, or that just don't appear to be relevant to + the question the resolver asked." + ::= { dnsResCache 4 } + + -- Resolver Cache Table + + dnsResCacheRRTable OBJECT-TYPE + SYNTAX SEQUENCE OF DnsResCacheRREntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "This table contains information about all the resource + records currently in the resolver's cache." + ::= { dnsResCache 5 } + + dnsResCacheRREntry OBJECT-TYPE + SYNTAX DnsResCacheRREntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "An entry in the resolvers's cache. Rows may be created + only by the resolver. SNMP SET requests may be used to + delete rows." + INDEX { dnsResCacheRRName, + dnsResCacheRRClass, + dnsResCacheRRType, + dnsResCacheRRIndex } + + + +Austein & Saperia [Page 17] + +RFC 1612 DNS Resolver MIB May 1994 + + + ::= { dnsResCacheRRTable 1 } + + DnsResCacheRREntry ::= + SEQUENCE { + dnsResCacheRRName + DnsNameAsIndex, + dnsResCacheRRClass + DnsClass, + dnsResCacheRRType + DnsType, + dnsResCacheRRTTL + DnsTime, + dnsResCacheRRElapsedTTL + DnsTime, + dnsResCacheRRSource + IpAddress, + dnsResCacheRRData + OCTET STRING, + dnsResCacheRRStatus + RowStatus, + dnsResCacheRRIndex + Integer32, + dnsResCacheRRPrettyName + DnsName + } + + dnsResCacheRRName OBJECT-TYPE + SYNTAX DnsNameAsIndex + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "Owner name of the Resource Record in the cache which is + identified in this row of the table. As described in + RFC-1034, the owner of the record is the domain name + were the RR is found." + REFERENCE + "RFC-1034 section 3.6." + ::= { dnsResCacheRREntry 1 } + + dnsResCacheRRClass OBJECT-TYPE + SYNTAX DnsClass + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "DNS class of the Resource Record in the cache which is + identified in this row of the table." + ::= { dnsResCacheRREntry 2 } + + + + +Austein & Saperia [Page 18] + +RFC 1612 DNS Resolver MIB May 1994 + + + dnsResCacheRRType OBJECT-TYPE + SYNTAX DnsType + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "DNS type of the Resource Record in the cache which is + identified in this row of the table." + ::= { dnsResCacheRREntry 3 } + + dnsResCacheRRTTL OBJECT-TYPE + SYNTAX DnsTime + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Time-To-Live of RR in DNS cache. This is the initial + TTL value which was received with the RR when it was + originally received." + ::= { dnsResCacheRREntry 4 } + + dnsResCacheRRElapsedTTL OBJECT-TYPE + SYNTAX DnsTime + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Elapsed seconds since RR was received." + ::= { dnsResCacheRREntry 5 } + + dnsResCacheRRSource OBJECT-TYPE + SYNTAX IpAddress + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Host from which RR was received, 0.0.0.0 if unknown." + ::= { dnsResCacheRREntry 6 } + + dnsResCacheRRData OBJECT-TYPE + SYNTAX OCTET STRING + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "RDATA portion of a cached RR. The value is in the + format defined for the particular DNS class and type of + the resource record." + REFERENCE + "RFC-1035 section 3.2.1." + ::= { dnsResCacheRREntry 7 } + + + + + +Austein & Saperia [Page 19] + +RFC 1612 DNS Resolver MIB May 1994 + + + dnsResCacheRRStatus OBJECT-TYPE + SYNTAX RowStatus + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "Status column for the resolver cache table. Since only + the agent (DNS resolver) creates rows in this table, the + only values that a manager may write to this variable + are active(1) and destroy(6)." + ::= { dnsResCacheRREntry 8 } + + dnsResCacheRRIndex OBJECT-TYPE + SYNTAX Integer32 + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "A value which makes entries in the table unique when the + other index values (dnsResCacheRRName, + dnsResCacheRRClass, and dnsResCacheRRType) do not + provide a unique index." + ::= { dnsResCacheRREntry 9 } + + dnsResCacheRRPrettyName OBJECT-TYPE + SYNTAX DnsName + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Name of the RR at this row in the table. This is + identical to the dnsResCacheRRName variable, except that + character case is preserved in this variable, per DNS + conventions." + REFERENCE + "RFC-1035 section 2.3.3." + ::= { dnsResCacheRREntry 10 } + + -- Resolver Negative Cache Group + + dnsResNCacheStatus OBJECT-TYPE + SYNTAX INTEGER { enabled(1), disabled(2), clear(3) } + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "Status/action for the resolver's negative response + cache. + + enabled(1) means that the use of the negative response + cache is allowed. Query operations can return this + state. + + + +Austein & Saperia [Page 20] + +RFC 1612 DNS Resolver MIB May 1994 + + + disabled(2) means that the negative response cache is + not being used. Query operations can return this state. + + Setting this variable to clear(3) deletes the entire + contents of the resolver's negative response cache. The + status will retain its previous value from before the + clear operation (i.e., enabled(1) or disabled(2)). The + value of clear(3) can NOT be returned by a query + operation." + ::= { dnsResNCache 1 } + + dnsResNCacheMaxTTL OBJECT-TYPE + SYNTAX DnsTime + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "Maximum Time-To-Live for cached authoritative errors. + If the resolver does not implement a TTL ceiling, the + value of this field should be zero." + ::= { dnsResNCache 2 } + + dnsResNCacheGoodNCaches OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of authoritative errors the resolver has cached + successfully." + ::= { dnsResNCache 3 } + + dnsResNCacheBadNCaches OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of authoritative errors the resolver would have + liked to cache but was unable to because the appropriate + SOA RR was not supplied or looked suspicious." + REFERENCE + "RFC-1034 section 4.3.4." + ::= { dnsResNCache 4 } + + -- Resolver Negative Cache Table + + dnsResNCacheErrTable OBJECT-TYPE + SYNTAX SEQUENCE OF DnsResNCacheErrEntry + MAX-ACCESS not-accessible + STATUS current + + + +Austein & Saperia [Page 21] + +RFC 1612 DNS Resolver MIB May 1994 + + + DESCRIPTION + "The resolver's negative response cache. This table + contains information about authoritative errors that + have been cached by the resolver." + ::= { dnsResNCache 5 } + + dnsResNCacheErrEntry OBJECT-TYPE + SYNTAX DnsResNCacheErrEntry + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "An entry in the resolver's negative response cache + table. Only the resolver can create rows. SNMP SET + requests may be used to delete rows." + INDEX { dnsResNCacheErrQName, + dnsResNCacheErrQClass, + dnsResNCacheErrQType, + dnsResNCacheErrIndex } + ::= { dnsResNCacheErrTable 1 } + + DnsResNCacheErrEntry ::= + SEQUENCE { + dnsResNCacheErrQName + DnsNameAsIndex, + dnsResNCacheErrQClass + DnsQClass, + dnsResNCacheErrQType + DnsQType, + dnsResNCacheErrTTL + DnsTime, + dnsResNCacheErrElapsedTTL + DnsTime, + dnsResNCacheErrSource + IpAddress, + dnsResNCacheErrCode + INTEGER, + dnsResNCacheErrStatus + RowStatus, + dnsResNCacheErrIndex + Integer32, + dnsResNCacheErrPrettyName + DnsName + } + + dnsResNCacheErrQName OBJECT-TYPE + SYNTAX DnsNameAsIndex + MAX-ACCESS not-accessible + STATUS current + + + +Austein & Saperia [Page 22] + +RFC 1612 DNS Resolver MIB May 1994 + + + DESCRIPTION + "QNAME associated with a cached authoritative error." + REFERENCE + "RFC-1034 section 3.7.1." + ::= { dnsResNCacheErrEntry 1 } + + dnsResNCacheErrQClass OBJECT-TYPE + SYNTAX DnsQClass + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "DNS QCLASS associated with a cached authoritative + error." + ::= { dnsResNCacheErrEntry 2 } + + dnsResNCacheErrQType OBJECT-TYPE + SYNTAX DnsQType + MAX-ACCESS not-accessible + STATUS current + DESCRIPTION + "DNS QTYPE associated with a cached authoritative error." + ::= { dnsResNCacheErrEntry 3 } + + dnsResNCacheErrTTL OBJECT-TYPE + SYNTAX DnsTime + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Time-To-Live of a cached authoritative error at the time + of the error, it should not be decremented by the number + of seconds since it was received. This should be the + TTL as copied from the MINIMUM field of the SOA that + accompanied the authoritative error, or a smaller value + if the resolver implements a ceiling on negative + response cache TTLs." + REFERENCE + "RFC-1034 section 4.3.4." + ::= { dnsResNCacheErrEntry 4 } + + dnsResNCacheErrElapsedTTL OBJECT-TYPE + SYNTAX DnsTime + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Elapsed seconds since authoritative error was received." + ::= { dnsResNCacheErrEntry 5 } + + + + + +Austein & Saperia [Page 23] + +RFC 1612 DNS Resolver MIB May 1994 + + + dnsResNCacheErrSource OBJECT-TYPE + SYNTAX IpAddress + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Host which sent the authoritative error, 0.0.0.0 if + unknown." + ::= { dnsResNCacheErrEntry 6 } + + dnsResNCacheErrCode OBJECT-TYPE + SYNTAX INTEGER { nonexistantName(1), noData(2), other(3) } + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "The authoritative error that has been cached: + + nonexistantName(1) indicates an authoritative name error + (RCODE = 3). + + noData(2) indicates an authoritative response with no + error (RCODE = 0) and no relevant data. + + other(3) indicates some other cached authoritative + error. At present, no such errors are known to exist." + ::= { dnsResNCacheErrEntry 7 } + + dnsResNCacheErrStatus OBJECT-TYPE + SYNTAX RowStatus + MAX-ACCESS read-write + STATUS current + DESCRIPTION + "Status column for the resolver negative response cache + table. Since only the agent (DNS resolver) creates rows + in this table, the only values that a manager may write + to this variable are active(1) and destroy(6)." + ::= { dnsResNCacheErrEntry 8 } + + dnsResNCacheErrIndex OBJECT-TYPE + SYNTAX Integer32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "A value which makes entries in the table unique when the + other index values (dnsResNCacheErrQName, + dnsResNCacheErrQClass, and dnsResNCacheErrQType) do not + provide a unique index." + ::= { dnsResNCacheErrEntry 9 } + + + + +Austein & Saperia [Page 24] + +RFC 1612 DNS Resolver MIB May 1994 + + + dnsResNCacheErrPrettyName OBJECT-TYPE + SYNTAX DnsName + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "QNAME associated with this row in the table. This is + identical to the dnsResNCacheErrQName variable, except + that character case is preserved in this variable, per + DNS conventions." + REFERENCE + "RFC-1035 section 2.3.3." + ::= { dnsResNCacheErrEntry 10 } + + + -- Resolver Optional Counters Group + + dnsResOptCounterReferals OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of responses which were received from servers + redirecting query to another server." + ::= { dnsResOptCounter 1 } + + dnsResOptCounterRetrans OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number requests retransmitted for all reasons." + ::= { dnsResOptCounter 2 } + + dnsResOptCounterNoResponses OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of queries that were retransmitted because of no + response." + ::= { dnsResOptCounter 3 } + + dnsResOptCounterRootRetrans OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of queries that were retransmitted that were to + + + +Austein & Saperia [Page 25] + +RFC 1612 DNS Resolver MIB May 1994 + + + root servers." + ::= { dnsResOptCounter 4 } + + dnsResOptCounterInternals OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of requests internally generated by the + resolver." + ::= { dnsResOptCounter 5 } + + dnsResOptCounterInternalTimeOuts OBJECT-TYPE + SYNTAX Counter32 + MAX-ACCESS read-only + STATUS current + DESCRIPTION + "Number of requests internally generated which timed + out." + ::= { dnsResOptCounter 6 } + + + -- SNMPv2 groups. + + dnsResMIBGroups OBJECT IDENTIFIER ::= { dnsResMIB 2 } + + dnsResConfigGroup OBJECT-GROUP + OBJECTS { dnsResConfigImplementIdent, + dnsResConfigService, + dnsResConfigMaxCnames, + dnsResConfigSbeltAddr, + dnsResConfigSbeltName, + dnsResConfigSbeltRecursion, + dnsResConfigSbeltPref, + dnsResConfigSbeltSubTree, + dnsResConfigSbeltClass, + dnsResConfigSbeltStatus, + dnsResConfigUpTime, + dnsResConfigResetTime } + STATUS current + DESCRIPTION + "A collection of objects providing basic configuration + information for a DNS resolver implementation." + ::= { dnsResMIBGroups 1 } + + dnsResCounterGroup OBJECT-GROUP + OBJECTS { dnsResCounterByOpcodeCode, + dnsResCounterByOpcodeQueries, + + + +Austein & Saperia [Page 26] + +RFC 1612 DNS Resolver MIB May 1994 + + + dnsResCounterByOpcodeResponses, + dnsResCounterByRcodeCode, + dnsResCounterByRcodeResponses, + dnsResCounterNonAuthDataResps, + dnsResCounterNonAuthNoDataResps, + dnsResCounterMartians, + dnsResCounterRecdResponses, + dnsResCounterUnparseResps, + dnsResCounterFallbacks } + STATUS current + DESCRIPTION + "A collection of objects providing basic instrumentation + of a DNS resolver implementation." + ::= { dnsResMIBGroups 2 } + + dnsResLameDelegationGroup OBJECT-GROUP + OBJECTS { dnsResLameDelegationOverflows, + dnsResLameDelegationSource, + dnsResLameDelegationName, + dnsResLameDelegationClass, + dnsResLameDelegationCounts, + dnsResLameDelegationStatus } + STATUS current + DESCRIPTION + "A collection of objects providing instrumentation of + `lame delegation' failures." + ::= { dnsResMIBGroups 3 } + + + dnsResCacheGroup OBJECT-GROUP + OBJECTS { dnsResCacheStatus, + dnsResCacheMaxTTL, + dnsResCacheGoodCaches, + dnsResCacheBadCaches, + dnsResCacheRRName, + dnsResCacheRRClass, + dnsResCacheRRType, + dnsResCacheRRTTL, + dnsResCacheRRElapsedTTL, + dnsResCacheRRSource, + dnsResCacheRRData, + dnsResCacheRRStatus, + dnsResCacheRRIndex, + dnsResCacheRRPrettyName } + STATUS current + DESCRIPTION + "A collection of objects providing access to and control + of a DNS resolver's cache." + + + +Austein & Saperia [Page 27] + +RFC 1612 DNS Resolver MIB May 1994 + + + ::= { dnsResMIBGroups 4 } + + dnsResNCacheGroup OBJECT-GROUP + OBJECTS { dnsResNCacheStatus, + dnsResNCacheMaxTTL, + dnsResNCacheGoodNCaches, + dnsResNCacheBadNCaches, + dnsResNCacheErrQName, + dnsResNCacheErrQClass, + dnsResNCacheErrQType, + dnsResNCacheErrTTL, + dnsResNCacheErrElapsedTTL, + dnsResNCacheErrSource, + dnsResNCacheErrCode, + dnsResNCacheErrStatus, + dnsResNCacheErrIndex, + dnsResNCacheErrPrettyName } + STATUS current + DESCRIPTION + "A collection of objects providing access to and control + of a DNS resolver's negative response cache." + ::= { dnsResMIBGroups 5 } + + dnsResOptCounterGroup OBJECT-GROUP + OBJECTS { dnsResOptCounterReferals, + dnsResOptCounterRetrans, + dnsResOptCounterNoResponses, + dnsResOptCounterRootRetrans, + dnsResOptCounterInternals, + dnsResOptCounterInternalTimeOuts } + STATUS current + DESCRIPTION + "A collection of objects providing further + instrumentation applicable to many but not all DNS + resolvers." + ::= { dnsResMIBGroups 6 } + + + -- Compliances. + + dnsResMIBCompliances OBJECT IDENTIFIER ::= { dnsResMIB 3 } + + dnsResMIBCompliance MODULE-COMPLIANCE + STATUS current + DESCRIPTION + "The compliance statement for agents implementing the DNS + resolver MIB extensions." + MODULE -- This MIB module + + + +Austein & Saperia [Page 28] + +RFC 1612 DNS Resolver MIB May 1994 + + + MANDATORY-GROUPS { dnsResConfigGroup, dnsResCounterGroup } + GROUP dnsResCacheGroup + DESCRIPTION + "The resolver cache group is mandatory for resolvers that + implement a cache." + GROUP dnsResNCacheGroup + DESCRIPTION + "The resolver negative cache group is mandatory for + resolvers that implement a negative response cache." + GROUP dnsResLameDelegationGroup + DESCRIPTION + "The lame delegation group is unconditionally optional." + GROUP dnsResOptCounterGroup + DESCRIPTION + "The optional counters group is unconditionally + optional." + OBJECT dnsResConfigMaxCnames + MIN-ACCESS read-only + DESCRIPTION + "This object need not be writable." + OBJECT dnsResConfigSbeltName + MIN-ACCESS read-only + DESCRIPTION + "This object need not be writable." + OBJECT dnsResConfigSbeltRecursion + MIN-ACCESS read-only + DESCRIPTION + "This object need not be writable." + OBJECT dnsResConfigSbeltPref + MIN-ACCESS read-only + DESCRIPTION + "This object need not be writable." + OBJECT dnsResConfigReset + MIN-ACCESS read-only + DESCRIPTION + "This object need not be writable." + OBJECT dnsResCacheStatus + MIN-ACCESS read-only + DESCRIPTION + "This object need not be writable." + OBJECT dnsResCacheMaxTTL + MIN-ACCESS read-only + DESCRIPTION + "This object need not be writable." + OBJECT dnsResNCacheStatus + MIN-ACCESS read-only + DESCRIPTION + "This object need not be writable." + + + +Austein & Saperia [Page 29] + +RFC 1612 DNS Resolver MIB May 1994 + + + OBJECT dnsResNCacheMaxTTL + MIN-ACCESS read-only + DESCRIPTION + "This object need not be writable." + ::= { dnsResMIBCompliances 1 } + + END + +5. Acknowledgements + + This document is the result of work undertaken the by DNS working + group. The authors would particularly like to thank the following + people for their contributions to this document: Philip Almquist, + Frank Kastenholz (FTP Software), Joe Peck (DEC), Dave Perkins + (SynOptics), Win Treese (DEC), and Mimi Zohar (IBM). + +6. References + + [1] Mockapetris, P., "Domain Names -- Concepts and Facilities", STD + 13, RFC 1034, USC/Information Sciences Institute, November 1987. + + [2] Mockapetris, P., "Domain Names -- Implementation and + Specification", STD 13, RFC 1035, USC/Information Sciences + Institute, November 1987. + + [3] Braden, R., Editor, "Requirements for Internet Hosts -- + Application and Support, STD 3, RFC 1123, USC/Information + Sciences Institute, October 1989. + + [4] Rose, M., and K. McCloghrie, "Structure and Identification of + Management Information for TCP/IP-based internets", STD 16, RFC + 1155, Performance Systems International, Hughes LAN Systems, May + 1990. + + [5] 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. + + [6] Case, J., Fedor, M., Schoffstall, M., and J. Davin, "Simple + Network Management Protocol", STD 15, RFC 1157, SNMP Research, + Performance Systems International, Performance Systems + International, MIT Laboratory for Computer Science, May 1990. + + [7] Rose, M., and K. McCloghrie, Editors, "Concise MIB Definitions", + STD 16, RFC 1212, Performance Systems International, Hughes LAN + Systems, March 1991. + + + + + +Austein & Saperia [Page 30] + +RFC 1612 DNS Resolver MIB May 1994 + + + [8] McCloghrie, K., and M. Rose, "Management Information Base for + Network Management of TCP/IP-based internets: MIB-II", STD 17, + RFC 1213, Hughes LAN Systems, Performance Systems International, + March 1991. + + [9] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Structure + of Management Information for version 2 of the Simple Network + Management Protocol (SNMPv2)", RFC 1442, SNMP Research, Inc., + Hughes LAN Systems, Dover Beach Consulting, Inc., Carnegie Mellon + University, April 1993. + + [10] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Textual + Conventions for version 2 of the the Simple Network Management + Protocol (SNMPv2)", RFC 1443, SNMP Research, Inc., Hughes LAN + Systems, Dover Beach Consulting, Inc., Carnegie Mellon + University, April 1993. + + [11] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, + "Conformance Statements for version 2 of the the Simple Network + Management Protocol (SNMPv2)", RFC 1444, SNMP Research, Inc., + Hughes LAN Systems, Dover Beach Consulting, Inc., Carnegie Mellon + University, April 1993. + + [12] Galvin, J., and K. McCloghrie, "Administrative Model for version + 2 of the Simple Network Management Protocol (SNMPv2)", RFC 1445, + Trusted Information Systems, Hughes LAN Systems, April 1993. + + [13] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Protocol + Operations for version 2 of the Simple Network Management + Protocol (SNMPv2)", RFC 1448, SNMP Research, Inc., Hughes LAN + Systems, Dover Beach Consulting, Inc., Carnegie Mellon + University, April 1993. + + [14] "Information processing systems - Open Systems Interconnection - + Specification of Abstract Syntax Notation One (ASN.1)", + International Organization for Standardization, International + Standard 8824, December 1987. + + + + + + + + + + + + + + +Austein & Saperia [Page 31] + +RFC 1612 DNS Resolver MIB May 1994 + + +7. Security Considerations + + Security issues are not discussed in this memo. + +8. Authors' Addresses + + Rob Austein + Epilogue Technology Corporation + 268 Main Street, Suite 283 + North Reading, MA 01864 + USA + + Phone: +1-617-245-0804 + Fax: +1-617-245-8122 + EMail: sra@epilogue.com + + + Jon Saperia + Digital Equipment Corporation + 110 Spit Brook Road + ZKO1-3/H18 + Nashua, NH 03062-2698 + USA + + Phone: +1-603-881-0480 + Fax: +1-603-881-0120 + EMail: saperia@zko.dec.com + + + + + + + + + + + + + + + + + + + + + + + + +Austein & Saperia [Page 32] + -- cgit v1.2.3