RMONMIB Working Group Andy Bierman Internet Draft Cisco Systems, Inc. Chris Bucci Cisco Systems, Inc. Robin Iddon 3Com, Inc. 25 June 1999 Remote Network Monitoring MIB Protocol Identifier Macros Status of this Memo This document is an Internet-Draft and is in full conformance with all provisions of Section 10 of RFC2026 [RFC2026]. Internet-Drafts are working documents of the Internet Engineering Task Force (IETF), its areas, and its working groups. Note that other groups may also distribute working documents as Internet-Drafts. Internet-Drafts are draft documents valid for a maximum of six months and may be updated, replaced, or obsoleted by other documents at any time. It is inappropriate to use Internet- Drafts as reference material or to cite them other than as "work in progress." The list of current Internet-Drafts can be accessed at http://www.ietf.org/ietf/1id-abstracts.txt The list of Internet-Draft Shadow Directories can be accessed at http://www.ietf.org/shadow.html. Distribution of this document is unlimited. Please send comments to the RMONMIB Working Group, . 1. Copyright Notice Copyright (C) The Internet Society (1999). All Rights Reserved. Internet-Draft RMON PI Macros June 1999 2. Abstract This memo contains various protocol identifier examples, which can be used to produce valid protocolDirTable INDEX encodings, as defined by the Remote Network Monitoring MIB Version 2 [RFC2021] and the RMON Protocol Identifier Reference [RMONPROT_REF]. This document contains protocol identifier macros for well-known protocols. A conformant implementation of the RMON-2 MIB [RFC2021] can be accomplished without the use of these protocol identifiers, and accordingly, this document does not specify any IETF standard. It is published to encourage better interoperability between RMON-2 agent implementations, by providing a great deal of RMON related protocol information in one document. The first version of the RMON Protocol Identifiers Document [RFC2074] has been split into a standards-track Reference portion [RMONPROT_REF], and an 'RMON Protocol Identifier Macros' document (this document) which contains the non-normative portion of that specification. 3. Table of Contents 1 Copyright Notice ................................................ 1 2 Abstract ........................................................ 2 3 Table of Contents ............................................... 2 4 The SNMP Network Management Framework ........................... 3 5 Overview ........................................................ 4 5.1 Terms ......................................................... 4 5.2 Relationship to the Remote Network Monitoring MIB ............. 4 5.3 Relationship to the RMON Protocol Identifier Reference ........ 5 5.4 Relationship to Other MIBs .................................... 5 6 Protocol Identifier Macros ...................................... 5 6.1 Protocol Stacks And Single-Vendor Applications ................ 6 6.1.1 The TCP/IP protocol stack ................................... 6 6.1.2 Novell IPX Stack ............................................ 48 6.1.3 The XEROX Protocol Stack .................................... 54 6.1.4 AppleTalk Protocol Stack .................................... 56 6.1.5 Banyon Vines Protocol Stack ................................. 61 6.1.6 The DECNet Protocol Stack ................................... 67 6.1.7 The IBM SNA Protocol Stack. ................................ 72 6.1.8 The NetBEUI/NetBIOS Family .................................. 73 6.2 Multi-stack protocols ......................................... 77 7 Intellectual Property ........................................... 79 8 Acknowledgements ................................................ 79 9 References ...................................................... 80 Expires December 1999 [Page 2] Internet-Draft RMON PI Macros June 1999 10 Security Considerations ........................................ 94 11 Authors' Addresses ............................................. 94 12 Full Copyright Statement ....................................... 96 4. The SNMP Network Management Framework The SNMP Management Framework presently consists of five major components: o An overall architecture, described in RFC 2571 [RFC2571]. o Mechanisms for describing and naming objects and events for the purpose of management. The first version of this Structure of Management Information (SMI) is called SMIv1 and described in RFC 1155 [RFC1155], RFC 1212 [RFC1212] and RFC 1215 [RFC1215]. The second version, called SMIv2, is described in RFC 2578 [RFC2578], RFC 2579 [RFC2579] and RFC 2580 [RFC2580]. o Message protocols for transferring management information. The first version of the SNMP message protocol is called SNMPv1 and described in RFC 1157 [RFC1157]. A second version of the SNMP message protocol, which is not an Internet standards track protocol, is called SNMPv2c and described in RFC 1901 [RFC1901] and RFC 1906 [RFC1906]. The third version of the message protocol is called SNMPv3 and described in RFC 1906 [RFC1906], RFC 2572 [RFC2572] and RFC 2574 [RFC2574]. o Protocol operations for accessing management information. The first set of protocol operations and associated PDU formats is described in RFC 1157 [RFC1157]. A second set of protocol operations and associated PDU formats is described in RFC 1905 [RFC1905]. o A set of fundamental applications described in RFC 2573 [RFC2573] and the view-based access control mechanism described in RFC 2575 [RFC2575]. A more detailed introduction to the current SNMP Management Framework can be found in RFC 2570 [RFC2570]. Managed objects are accessed via a virtual information store, termed the Management Information Base or MIB. Objects in the MIB are defined using the mechanisms defined in the SMI. Expires December 1999 [Page 3] Internet-Draft RMON PI Macros June 1999 This memo does not specify a MIB module. 5. Overview The RMON-2 MIB [RFC2021] uses hierarchically formatted OCTET STRINGs to globally identify individual protocol encapsulations in the protocolDirTable. This guide contains examples of protocol identifier encapsulations, which can be used to describe valid protocolDirTable entries. The syntax of the protocol identifier descriptor is defined in the RMON Protocol Identifier Reference [RMONPROT_REF]. This document is not intended to be an authoritative reference on the protocols described herein. Refer to the Official Internet Standards document [RFC1800], the Assigned Numbers document [RFC1700], or other appropriate RFCs, IEEE documents, etc. for complete and authoritative protocol information. This is the the second revision of this document, and is intended to replace Section 5 of the first RMON-2 Protocol Identifiers document [RFC2074]. 5.1. Terms Refer to the RMON Protocol Identifier Reference [RMONPROT_REF] for definitions of terms used to describe the Protocol Identifier Macro and aspects of protocolDirTable INDEX encoding. 5.2. Relationship to the Remote Network Monitoring MIB This document is intended to describe some protocol identifier macros, which can be converted to valid protocolDirTable INDEX values, using the mapping rules defined in the RMON Protocol Identifier Reference [RMONPROT_REF]. This document is not intended to limit the protocols that may be identified for counting in the RMON-2 MIB. Many protocol encapsulations, not explicitly identified in this document, may be present in an actual implementation of the protocolDirTable. Also, implementations of the protocolDirTable may not include all the protocols identified in the example section below. Expires December 1999 [Page 4] Internet-Draft RMON PI Macros June 1999 5.3. Relationship to the RMON Protocol Identifier Reference This document is intentionally separated from the normative reference document defining protocolDirTable INDEX encoding rules and the protocol identifier macro syntax [RMONPROT_REF]. This allows frequent updates to this document without any republication of MIB objects or protocolDirTable INDEX encoding rules. Note that the base layer and IANA assigned protocol identifier macros are located in Reference document, since these encoding values are defined by the RMONMIB WG. Protocol Identifier macros submitted from the RMON working group and community at large (to the RMONMIB WG mailing list at 'rmonmib@cisco.com') will be collected and added to this document. Macros submissions will be collected in the IANA's MIB files under the directory "ftp://ftp.isi.edu/mib/rmonmib/rmon2_pi_macros/" and in the RMONMIB working group mailing list message archive file "ftp://ftpeng.cisco.com/ftp/rmonmib/rmonmib". 5.4. Relationship to Other MIBs The RMON Protocol Identifier Macros document is intended for use with the RMON Protocol Identifier Reference [RMONPROT_REF] and the RMON-2 MIB protocolDirTable [RFC2021]. It is not relevant to any other MIB, or intended for use with any other MIB. 6. Protocol Identifier Macros This section contains protocol identifier macros for some well-known protocols, although some of them may no longer be in use. These macros reference the base layer identifiers found in section 7 of the RMON Protocol Identifier Reference [RMONPROT_REF]. These identifiers are listed below: ether2 llc snap vsnap ianaAssigned 802-1Q Refer to the RMON Protocol Identifier Reference [RMONPROT_REF] for the protocol identifier macro definitions for these protocols. Expires December 1999 [Page 5] Internet-Draft RMON PI Macros June 1999 6.1. Protocol Stacks And Single-Vendor Applications Network layer protocol identifier macros contain additional information about the network layer, and is found immediately following a base layer-identifier in a protocol identifier. The ProtocolDirParameters supported at the network layer are 'countsFragments(0)', and 'tracksSessions(1). An agent may choose to implement a subset of these parameters. The protocol-name should be used for the ProtocolDirDescr field. The ProtocolDirType ATTRIBUTES used at the network layer are 'hasChildren(0)' and 'addressRecognitionCapable(1)'. Agents may choose to implement a subset of these attributes for each protocol, and therefore limit which tables the indicated protocol can be present (e.g. protocol distribution, host, and matrix tables).. The following protocol-identifier macro declarations are given for example purposes only. They are not intended to constitute an exhaustive list or an authoritative source for any of the protocol information given. However, any protocol that can encapsulate other protocols must be documented here in order to encode the children identifiers into protocolDirID strings. Leaf protocols should be documented as well, but an implementation can identify a leaf protocol even if it isn't listed here (as long as the parent is documented). 6.1.1. The TCP/IP protocol stack arp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "An Address Resolution Protocol message (request or response). This protocol does not include Reverse ARP (RARP) packets, which are counted separately." REFERENCE "RFC 826 [RFC826] defines the Address Resolution Protocol." ::= { ether2 0x806, -- [ 0.0.8.6 ] snap 0x806, 802-1Q 0x806 -- [ 0.0.8.6 ] } ip PROTOCOL-IDENTIFIER Expires December 1999 [Page 6] Internet-Draft RMON PI Macros June 1999 PARAMETERS { countsFragments(0) -- This parameter applies to all child -- protocols. } ATTRIBUTES { hasChildren(0), addressRecognitionCapable(1) } DESCRIPTION "The protocol identifiers for the Internet Protocol (IP). Note that IP may be encapsulated within itself, so more than one of the following identifiers may be present in a particular protocolDirID string." CHILDREN "Children of 'ip' are selected by the value in the Protocol field (one octet), as defined in the PROTOCOL NUMBERS table within the Assigned Numbers Document. The value of the Protocol field is encoded in an octet string as [ 0.0.0.a ], where 'a' is the protocol field . Children of 'ip' are encoded as [ 0.0.0.a ], and named as 'ip a' where 'a' is the protocol field value. For example, a protocolDirID-fragment value of: 0.0.0.1.0.0.8.0.0.0.0.1 defines an encapsulation of ICMP (ether2.ip.icmp)" ADDRESS-FORMAT "4 octets of the IP address, in network byte order. Each ip packet contains two addresses, the source address and the destination address." DECODING "Note: ether2.ip.ipip4.udp is a different protocolDirID than ether2.ip.udp, as identified in the protocolDirTable. As such, two different local protocol index values will be assigned by the agent. E.g. (full INDEX values shown): ether2.ip.ipip4.udp = 16.0.0.0.1.0.0.8.0.0.0.0.4.0.0.0.17.4.0.0.0.0 ether2.ip.udp = 12.0.0.0.1.0.0.8.0.0.0.0.17.3.0.0.0 " REFERENCE "RFC 791 [RFC791] defines the Internet Protocol; The following URL defines the authoritative repository for the PROTOCOL NUMBERS Table: Expires December 1999 [Page 7] Internet-Draft RMON PI Macros June 1999 ftp://ftp.isi.edu/in-notes/iana/assignments/protocol-numbers" ::= { ether2 0x0800, llc 0x06, snap 0x0800, -- ip 4, ** represented by the ipip4 macro -- ip 94, ** represented by the ipip macro 802-1Q 0x0800, -- [0.0.8.0] 802-1Q 0x02000006 -- 1Q-LLC [2.0.0.6] } Expires December 1999 [Page 8] Internet-Draft RMON PI Macros June 1999 -- **************************************************************** -- -- Children of IP -- -- **************************************************************** icmp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Internet Message Control Protocol" REFERENCE "RFC 792 [RFC792] defines the Internet Control Message Protocol." ::= { ip 1, ipip4 1, ipip 1 } igmp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Internet Group Management Protocol; IGMP is used by IP hosts to report their host group memberships to any immediately- neighboring multicast routers." REFERENCE "Appendix A of Host Extensions for IP Multicasting [RFC1112] defines the Internet Group Management Protocol." ::= { ip 2, ipip4 2, ipip 2 } ggp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Gateway-to-Gateway Protocol; DARPA Internet Gateway (historical)" REFERENCE "RFC 823 [RFC823] defines the Gateway-to-Gateway Protocol." ::= { ip 3, Expires December 1999 [Page 9] Internet-Draft RMON PI Macros June 1999 ipip4 3, ipip 3 } ipip4 PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0), addressRecognitionCapable(1) } DESCRIPTION "IP in IP Tunneling" CHILDREN "Children of 'ipip4' are selected and encoded in the same manner as children of IP." ADDRESS-FORMAT "The 'ipip4' address format is the same as the IP address format." DECODING "Note: ether2.ip.ipip4.udp is a different protocolDirID than ether2.ip.udp, as identified in the protocolDirTable. As such, two different local protocol index values will be assigned by the agent. E.g. (full INDEX values shown): ether2.ip.ipip4.udp = 16.0.0.0.1.0.0.8.0.0.0.0.4.0.0.0.17.4.0.0.0.0 ether2.ip.udp = 12.0.0.0.1.0.0.8.0.0.0.0.17.3.0.0.0 " REFERENCE "RFC 1853 [RFC1853] defines IP in IP over Protocol 4." ::= { ip 4, ipip4 4, ipip 4 } st PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Internet Stream Protocol Version 2 (ST2); (historical) ST2 is an experimental resource reservation protocol intended to provide end-to-end real-time guarantees over an internet." REFERENCE "RFC 1819 [RFC1819] defines version 2 of the Internet Stream Protocol." Expires December 1999 [Page 10] Internet-Draft RMON PI Macros June 1999 ::= { ip 5, ipip4 5, ipip 5 } tcp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0) } DESCRIPTION "Transmission Control Protocol" CHILDREN "Children of TCP are identified by the 16 bit Source or Destination Port value as specified in RFC 793. They are encoded as [ 0.0.a.b], where 'a' is the MSB and 'b' is the LSB of the port value. Both bytes are encoded in network byte order. For example, a protocolDirId-fragment of: 0.0.0.1.0.0.8.0.0.0.0.6.0.0.0.23 identifies an encapsulation of the telnet protocol (ether2.ip.tcp.telnet)" REFERENCE "RFC 793 [RFC793] defines the Transmission Control Protocol. The following URL defines the authoritative repository for reserved and registered TCP port values: ftp://ftp.isi.edu/in-notes/iana/assignments/port-numbers" ::= { ip 6, ipip4 6, ipip 6 } egp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Exterior Gateway Protocol (historical)" REFERENCE "RFC 904 [RFC904] defines the Exterior Gateway Protocol." ::= { ip 8, Expires December 1999 [Page 11] Internet-Draft RMON PI Macros June 1999 ipip4 8, ipip 8 } igp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Any private interior gateway." REFERENCE "[RFC1700]" ::= { ip 9, ipip4 9, ipip 9 } nvp2 PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "NVP-II; Network Voice Protocol" REFERENCE "RFC 741 [RFC741] defines the Network Voice Protocol" ::= { ip 11, ipip4 11, ipip 11 } pup PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "PUP Protocol" REFERENCE "Xerox" ::= { ip 12, ipip4 12, ipip 12 } xnet PROTOCOL-IDENTIFIER PARAMETERS { } Expires December 1999 [Page 12] Internet-Draft RMON PI Macros June 1999 ATTRIBUTES { } DESCRIPTION "Cross Net Debugger (historical)" REFERENCE "[IEN158]" ::= { ip 15, ipip4 15, ipip 15 } chaos PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "CHAOS Protocol; historical" REFERENCE "J. Noel Chiappa " ::= { ip 16, ipip4 16, ipip 16 } udp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0) } DESCRIPTION "User Datagram Protocol" CHILDREN "Children of UDP are identified by the 16 bit Source or Destination Port value as specified in RFC 768. They are encoded as [ 0.0.a.b ], where 'a' is the MSB and 'b' is the LSB of the port value. Both bytes are encoded in network byte order. For example, a protocolDirId-fragment of: 0.0.0.1.0.0.8.0.0.0.0.17.0.0.0.161 identifies an encapsulation of SNMP (ether2.ip.udp.snmp)" REFERENCE "RFC 768 [RFC768] defines the User Datagram Protocol. The following URL defines the authoritative repository for reserved and registered UDP port values: Expires December 1999 [Page 13] Internet-Draft RMON PI Macros June 1999 ftp://ftp.isi.edu/in-notes/iana/assignments/port-numbers" ::= { ip 17, ipip4 17, ipip 17 } mux PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Multiplexing Protocol (historical)" REFERENCE "IEN-90 [IEN-90] defines the Multiplexing Protocol" ::= { ip 18, ipip4 18, ipip 18 } hmp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Host Monitoring Protocol; historical" REFERENCE "RFC 869 [RFC869] defines the Host Monitoring Protocol" ::= { ip 20, ipip4 20, ipip 20 } xns-idp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "XEROX NS IDP" REFERENCE "Xerox Corporation" ::= { ip 22, ipip4 22, ipip 22 } Expires December 1999 [Page 14] Internet-Draft RMON PI Macros June 1999 rdp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Reliable Data Protocol" REFERENCE "RFC 908 [RFC908] defines the original protocol; RFC 1151 [RFC1151] defines version 2 of the Reliable Data Protocol." ::= { ip 27, ipip4 27, ipip 27 } irtp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Internet Reliable Transaction Protocol" REFERENCE "RFC 938 [RFC938] defines the Internet Reliable Transaction Protocol functional and interface specification." ::= { ip 28, ipip4 28, ipip 28 } iso-tp4 PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "ISO Transport Protocol Specification" REFERENCE "RFC 905 [RFC905] defines the ISO Transport Protocol Specification; ISO DP 8073" ::= { ip 29, ipip4 29, ipip 29 } netblt PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } Expires December 1999 [Page 15] Internet-Draft RMON PI Macros June 1999 DESCRIPTION "Bulk Data Transfer Protocol; historical" REFERENCE "RFC 998 [RFC998] defines NETBLT: A Bulk Data Transfer Protocol." ::= { ip 30, ipip4 30, ipip 30 } mfe-nsp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "MFE Network Services Protocol; historical" REFERENCE "Shuttleworth, B., 'A Documentary of MFENet, a National Computer Network', UCRL-52317, Lawrence Livermore Labs, Livermore, California, June 1977." ::= { ip 31, ipip4 31, ipip 31 } idpr PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Inter-Domain Policy Routing Protocol" REFERENCE "RFC 1479 [RFC1479] defines Version 1 of the Inter-Domain Policy Routing Protocol." ::= { ip 35, ipip4 35, ipip 35 } idpr-cmtp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "IDPR Control Message Transport Protocol" REFERENCE Expires December 1999 [Page 16] Internet-Draft RMON PI Macros June 1999 "RFC 1479 [RFC1479] defines Version 1 of the Inter-Domain Policy Routing Protocol." ::= { ip 38, ipip4 38, ipip 38 } sdrp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Source Demand Routing Protocol" REFERENCE "RFC 1940 [RFC1940] defines version 1 of the Source Demand Routing: Packet Format and Forwarding Specification" ::= { ip 42, ipip4 42, ipip 42 } idrp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Inter-Domain Routing Protocol" REFERENCE "RFC 1745 [RFC1745] defines BGP4/IDRP for IP." ::= { ip 45, ipip4 45, ipip 45 } rsvp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Resource Reservation Setup Protocol" REFERENCE "Resource ReSerVation Protocol (RSVP); Version 1 Functional Specification [RFC2205]." ::= { ip 46, Expires December 1999 [Page 17] Internet-Draft RMON PI Macros June 1999 ipip4 46, ipip 46 } gre PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "General Routing Encapsulation" REFERENCE "RFC 1701 [RFC1701] defines Generic Routing Encapsulation (GRE); RFC 1702 [RFC1702] defines Generic Routing Encapsulation over IPv4 networks" ::= { ip 47, ipip4 47, ipip 47 } nhrp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "NBMA Next Hop Resolution Protocol (NHRP)" REFERENCE "RFC 2332 [RFC2332] defines the Next Hop Resolution Protocol." ::= { ip 54, ipip4 54, ipip 54 } priv-host PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Pseudo-protocol reserved for any internal host protocol." REFERENCE "[RFC1700]" ::= { ip 61, ipip4 61, ipip 61 } Expires December 1999 [Page 18] Internet-Draft RMON PI Macros June 1999 priv-net PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Pseudo-protocol reserved for any local network protocol." REFERENCE "[RFC1700]" ::= { ip 63, ipip4 63, ipip 63 } priv-distfile PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Pseudo-protocol reserved for any distributed file system." REFERENCE "[RFC1700]" ::= { ip 68, ipip4 68, ipip 68 } dgp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Dissimilar Gateway Protocol" REFERENCE "M/A-COM Government Systems, 'Dissimilar Gateway Protocol Specification, Draft Version', Contract no. CS901145, November 16, 1987." ::= { ip 86, ipip4 86, ipip 86 } igrp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION Expires December 1999 [Page 19] Internet-Draft RMON PI Macros June 1999 "IGRP; Cisco routing protocol" REFERENCE "Cisco Systems, Inc." ::= { ip 88, ipip4 88, ipip 88 } ospf PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Open Shortest Path First Interior GW Protocol (OSPFIGP)." REFERENCE "RFC 1583 [RFC1583] defines version 2 of the OSPF protocol." ::= { ip 89, ipip4 89, ipip 89 } mtp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Multicast Transport Protocol" REFERENCE "RFC 1301 [RFC1301] defines the Multicast Transport Protocol." ::= { ip 92, ipip4 92, ipip 92 } ax-25 PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "AX.25 Frame Encapsulation" REFERENCE "RFC 1226 [RFC1226] defines Internet Protocol Encapsulation of AX.25 Frames." ::= { ip 93, Expires December 1999 [Page 20] Internet-Draft RMON PI Macros June 1999 ipip4 93, ipip 93 } ipip PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0), addressRecognitionCapable(1) } DESCRIPTION "IP-within-IP Encapsulation Protocol" CHILDREN "Children of 'ipip' are selected and encoded in the same manner as children of IP." ADDRESS-FORMAT "The 'ipip' address format is the same as the IP address format." DECODING "Note: ether2.ip.ipip.udp is a different protocolDirID than ether2.ip.udp, as identified in the protocolDirTable. As such, two different local protocol index values will be assigned by the agent. E.g. (full INDEX values shown): ether2.ip.ipip.udp = 16.0.0.0.1.0.0.8.0.0.0.0.94.0.0.0.17.4.0.0.0.0 ether2.ip.udp = 12.0.0.0.1.0.0.8.0.0.0.0.17.3.0.0.0 " REFERENCE "RFC 2003 [RFC2003] defines IP Encapsulation within IP." ::= { ip 94, ipip4 94, ipip 94 } encap PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Encapsulation Header; A Scheme for an Internet Encapsulation Protocol: Version 1" REFERENCE "RFC 1241 [RFC1241] defines version 1 of the ENCAP Protocol." ::= { ip 98, ipip4 98, Expires December 1999 [Page 21] Internet-Draft RMON PI Macros June 1999 ipip 98 } priv-encript PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Pseudo-protocol reserved for any private encryption scheme." REFERENCE "[RFC1700]" ::= { ip 99, ipip4 99, ipip 99 } Expires December 1999 [Page 22] Internet-Draft RMON PI Macros June 1999 -- **************************************************************** -- -- Children of UDP and TCP -- -- **************************************************************** tcpmux PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "TCP Port Service Multiplexer Port." REFERENCE "RFC 1078 [RFC1078] defines the TCP Port Service Multiplexer Protocol." ::= { tcp 1 } rje PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Remote Job Entry Protocol; RJE Logger Port; (historical)." REFERENCE "RFC 407 [RFC407] defines the Remote Job Entry Protocol." ::= { tcp 5 } echo PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Echo Protocol for debugging TCP and UDP transports." REFERENCE "RFC 862 [RFC862] defines the Echo Protocol." ::= { tcp 7, udp 7 } discard PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Discard Protocol for debugging TCP and UDP transports." REFERENCE "RFC 863 [RFC863] defines the Discard Protocol." ::= { tcp 9, Expires December 1999 [Page 23] Internet-Draft RMON PI Macros June 1999 udp 9 } systat PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Retrieve the Active Users list; a debugging tool for TCP and UDP transports." REFERENCE "RFC 866 [RFC866] defines the Active Users Protocol." ::= { tcp 11, udp 11 } daytime PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Retrieve the current time of day; a debugging tool for TCP and UDP transports." REFERENCE "RFC 867 [RFC867] defines the Daytime Protocol." ::= { tcp 13, udp 13 } qotd PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Quote of the Day Protocol; retrieve a short message (up to 512 bytes); a debugging tool for TCP and UDP transports." REFERENCE "RFC 865 [RFC865] defines the Quote of the Day Protocol." ::= { tcp 17, udp 17 } msp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Message Send Protocol" REFERENCE "RFC 1312 [RFC1312] defines the Message Send Protocol." Expires December 1999 [Page 24] Internet-Draft RMON PI Macros June 1999 ::= { tcp 18, udp 18 } chargen PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Character Generator Protocol; a debugging tool for TCP and UDP transports." REFERENCE "RFC 864 [RFC864] defines the Character Generator Protocol." ::= { tcp 19, udp 19 } ftp-data PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "The File Transfer Protocol Data Port; the FTP Server process default data-connection port. " REFERENCE "RFC 959 [RFC959] defines the File Transfer Protocol. Refer to section 3.2 of [RFC959] for details on FTP data connections." ::= { tcp 20 } ftp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "The File Transfer Protocol Control Port; An FTP client initiates an FTP control connection by sending FTP commands from user port (U) to this port." REFERENCE "RFC 959 [RFC959] defines the File Transfer Protocol." ::= { tcp 21 } telnet PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "The Telnet Protocol; The purpose of the TELNET Protocol is to provide a fairly general, bi-directional, eight-bit byte oriented communications facility. Its primary goal is to allow a standard Expires December 1999 [Page 25] Internet-Draft RMON PI Macros June 1999 method of interfacing terminal devices and terminal-oriented processes to each other. " REFERENCE "RFC 854 [RFC854] defines the basic Telnet Protocol." ::= { tcp 23 } priv-mail PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Pseudo-protocol reserved for any private mail system." REFERENCE "[RFC1700]" ::= { tcp 24, udp 24 } smtp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "The Simple Mail Transfer Protocol; SMTP control and data messages are sent on this port." REFERENCE "RFC 821 [RFC821] defines the basic Simple Mail Transfer Protocol." ::= { tcp 25 } priv-print PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Pseudo-protocol reserved for any private printer server." REFERENCE "[RFC1700]" ::= { tcp 35, udp 35 } time PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Time Protocol" REFERENCE "RFC 868 [RFC868] defines the Time Protocol." ::= { tcp 37, Expires December 1999 [Page 26] Internet-Draft RMON PI Macros June 1999 udp 37 } rap PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Route Access Protocol" REFERENCE "RFC 1476 [RFC1476] defines the Internet Route Access Protocol." ::= { tcp 38 } rlp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Resource Location Protocol" REFERENCE "RFC 887 [RFC887] defines the Resource Location Protocol." ::= { udp 39 } graphics PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Graphics Protocol" REFERENCE "RFC 493 [RFC493] defines the Graphics Protocol." ::= { tcp 41, udp 41 } nameserver PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Host Name Server Protocol" REFERENCE "IEN 116 [IEN116] defines the Internet Name Server." ::= { udp 42 } nicname PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "NICNAME/WHOIS Protocol" REFERENCE Expires December 1999 [Page 27] Internet-Draft RMON PI Macros June 1999 "RFC 954 [RFC954] defines the NICNAME/Who Is Protocol." ::= { tcp 43 } mpm-flags PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "MPM FLAGS Protocol; (historical)." REFERENCE "RFC 759 [RFC759] defines the Message Processing Module." ::= { tcp 44 } mpm PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Message Processing Module -- Receiver; (historical)." REFERENCE "RFC 759 [RFC759] defines the Message Processing Module." ::= { tcp 45 } mpm-snd PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Message Processing Module -- Default Send; (historical)." REFERENCE "RFC 759 [RFC759] defines the Message Processing Module." ::= { tcp 46 } tacacs PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Login Host Protocol (TACACS)" REFERENCE "An Access Control Protocol, Sometimes Called TACACS [RFC1492]." ::= { tcp 49 } re-mail-ck PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Remote Mail Checking Protocol" REFERENCE Expires December 1999 [Page 28] Internet-Draft RMON PI Macros June 1999 "RFC 1339 [RFC1339] defines the Remote Mail Checking Protocol." ::= { udp 50 } xns-time PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "XNS Time Protocol" REFERENCE "Xerox Corporation" ::= { tcp 52, udp 52 } domain PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Domain Name Service Protocol; DNS may be transported by either UDP [RFC768] or TCP [RFC793]. If the transport is UDP, DNS requests restricted to 512 bytes in length may be sent to this port." REFERENCE "RFC 1035 [RFC1035] defines the Bootstrap Protocol." ::= { udp 53, tcp 53 } xns-ch PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "XNS Clearinghouse" REFERENCE "Xerox Corporation" ::= { tcp 54, udp 54 } xns-auth PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "XNS Authentication Protocol" REFERENCE "Xerox Corporation" ::= { tcp 56, udp 56 } Expires December 1999 [Page 29] Internet-Draft RMON PI Macros June 1999 priv-term PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Pseudo-protocol reserved for any private terminal access protocol." REFERENCE "[RFC1700]" ::= { tcp 57, udp 57 } xns-mail PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "XNS Mil Protocol" REFERENCE "Xerox Corporation" ::= { tcp 58, udp 58 } priv-file PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Pseudo-protocol reserved for any private file service." REFERENCE "[RFC1700]" ::= { tcp 59, udp 59 } tacacs-ds PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Default Server Port; TACACS Access Control Protocol Database Service." REFERENCE "RFC 1492 [RFC1492] defines the TACACS Protocol." ::= { tcp 65 } sql*net PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION Expires December 1999 [Page 30] Internet-Draft RMON PI Macros June 1999 "Oracle SQL*NET" REFERENCE "Oracle Corporation" ::= { tcp 66 } bootps PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Bootstrap Protocol Server Protocol; BOOTP Clients send requests (usually broadcast) to the bootps port." REFERENCE "RFC 951 [RFC951] defines the Bootstrap Protocol." ::= { udp 67 } bootpc PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Bootstrap Protocol Client Protocol; BOOTP Server replies are sent to the BOOTP Client using this destination port." REFERENCE "RFC 951 [RFC951] defines the Bootstrap Protocol." ::= { udp 68 } tftp PROTOCOL-IDENTIFIER PARAMETERS { tracksSessions(1) } ATTRIBUTES { } DESCRIPTION "Trivial File Transfer Protocol; Only the first packet of each TFTP transaction will be sent to port 69. If the tracksSessions attribute is set, then packets for each TFTP transaction will be attributed to tftp, instead of the unregistered port numbers that will be encoded in subsequent packets." REFERENCE "RFC 1350 [RFC1350] defines the TFTP Protocol (revision 2); RFC 1782 [RFC1782] defines TFTP Option Extensions; RFC 1783 [RFC1783] defines the TFTP Blocksize Option; RFC 1784 [RFC1784] defines TFTP Timeout Interval and Transfer Size Options." ::= { udp 69 } gopher PROTOCOL-IDENTIFIER Expires December 1999 [Page 31] Internet-Draft RMON PI Macros June 1999 PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Internet Gopher Protocol" REFERENCE "RFC 1436 [RFC1436] defines the Gopher Protocol." ::= { tcp 70 } netrjs-1 PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Remote Job Service Protocol; (historical)." REFERENCE "RFC 740 [RFC740] defines the NETRJS Protocol." ::= { tcp 71 } netrjs-2 PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Remote Job Service Protocol; (historical)." REFERENCE "RFC 740 [RFC740] defines the NETRJS Protocol." ::= { tcp 72 } netrjs-3 PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Remote Job Service Protocol; (historical)." REFERENCE "RFC 740 [RFC740] defines the NETRJS Protocol." ::= { tcp 73 } netrjs-4 PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Remote Job Service Protocol; (historical)." REFERENCE "RFC 740 [RFC740] defines the NETRJS Protocol." ::= { tcp 74 } priv-dialout PROTOCOL-IDENTIFIER Expires December 1999 [Page 32] Internet-Draft RMON PI Macros June 1999 PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Pseudo-protocol reserved for any private dial out service." REFERENCE "[RFC1700]" ::= { tcp 75, udp 75 } priv-rje PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Pseudo-protocol reserved for any private remote job entry service." REFERENCE "[RFC1700]" ::= { tcp 77, udp 77 } finger PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Finger User Information Protocol" REFERENCE "RFC 1288 [RFC1288] defines the finger protocol." ::= { tcp 79 } www-http PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Hypertext Transfer Protocol" REFERENCE "RFC 1945 [RFC1945] defines the Hypertext Transfer Protocol (HTTP/1.0). RFC 2068 [RFC2068] defines the Hypertext Transfer Protocol (HTTP/1.1). RFC 2069 [RFC2069] defines an Extension to HTTP: Digest Access Authentication. RFC 2109 [RFC2109] defines the HTTP State Management Mechanism. RFC 2145 [RFC2145] defines the use and interpretation of HTTP version numbers." ::= { tcp 80 } priv-termlink PROTOCOL-IDENTIFIER Expires December 1999 [Page 33] Internet-Draft RMON PI Macros June 1999 PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Pseudo-protocol reserved for any private terminal link protocol." REFERENCE "[RFC1700]" ::= { tcp 87, udp 87 } kerberos PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "The Kerberos Network Authentication Service (V5)" REFERENCE "RFC 1510 [RFC1510] defines the Kerberos protocol." ::= { udp 88 } supdup PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "SUPDUP Display; (historical)" REFERENCE "RFC 734 [RFC734] defines the SUPDUP Protocol." ::= { tcp 95 } dixie PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "DIXIE Directory Service" REFERENCE "RFC 1249 [RFC1249] defines the DIXIE Protocol." ::= { tcp 96, udp 96 } hostname PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "NIC Internet Hostname Server Protocol; (historical)" REFERENCE "RFC 953 [RFC953] defines the Hostname Server Protocol." Expires December 1999 [Page 34] Internet-Draft RMON PI Macros June 1999 ::= { tcp 101 } 3com-tsmux PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "3COM-TSMUX" REFERENCE "3Com, Inc." ::= { tcp 106, udp 106 } rtelnet PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Remote User Telnet Protocol; (historical)." REFERENCE "RFC 818 [RFC818] defines the Remote User Telnet Service." ::= { tcp 107 } pop2 PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Post Office Protocol -- Version 2. Clients establish connections with POP2 servers by using this destination port number. Historical." REFERENCE "RFC 937 [RFC937] defines Version 2 of the Post Office Protocol." ::= { tcp 109 } pop3 PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Post Office Protocol -- Version 3. Clients establish connections with POP3 servers by using this destination port number." REFERENCE "RFC 1725 [RFC1725] defines Version 3 of the Post Office Protocol." ::= { tcp 110, udp 110 } -- RFC defines tcp use sunrpc PROTOCOL-IDENTIFIER Expires December 1999 [Page 35] Internet-Draft RMON PI Macros June 1999 PARAMETERS { tracksSessions(1) -- learn port mapping of programs } ATTRIBUTES { hasChildren(0) -- port mapper function numbers } DESCRIPTION "SUN Remote Procedure Call Protocol. Port mapper function requests are sent to this destination port." CHILDREN "Specific RPC functions are represented as children of the sunrpc protocol. Each 'RPC function protocol' is identified by its function number assignment. RPC function number assignments are defined by different naming authorities, depending on the function identifier value. From [RFC1831]: Program numbers are given out in groups of hexadecimal 20000000 (decimal 536870912) according to the following chart: 0 - 1fffffff defined by rpc@sun.com 20000000 - 3fffffff defined by user 40000000 - 5fffffff transient 60000000 - 7fffffff reserved 80000000 - 9fffffff reserved a0000000 - bfffffff reserved c0000000 - dfffffff reserved e0000000 - ffffffff reserved Children of 'sunrpc' are encoded as [ 0.0.0.111], the protocol identifier component for 'sunrpc', followed by [ a.b.c.d ], where a.b.c.d is the 32 bit binary RPC program number encoded in network byte order. For example, a protocolDirID-fragment value of: 0.0.0.111.0.1.134.163 defines the NFS function (and protocol). Children are named as 'sunrpc' followed by the RPC function number in base 10 format. For example, NFS would be named: 'sunrpc 100003'." DECODING "The first packet of many SUNRPC transactions is sent to the port- mapper program, and therefore decoded statically by monitoring RFC portmap requests [RFC1831]. Any subsequent packets Expires December 1999 [Page 36] Internet-Draft RMON PI Macros June 1999 must be decoded and correctly identified by 'remembering' the port assignments used in each RPC function call (as identified according to the procedures in the RPC Specification Version 2 [RFC1831]). In some cases the port mapping for a particular protocol is well known and hard coded into the requesting client. In these cases the client will not send portmap requests; instead it will send the SUNRPC request directly to the well known port. These cases are rare and are being eliminated over time. NFS is the most significant SUNRPC program of this class. Such programs should still be declared as children of SUNRPC as described under CHILDREN above. How an implementation detects this behaviour and handles it is beyond the scope of this document. The 'tracksSessions(1)' PARAMETER bit is used to indicate whether the probe can (and should) monitor portmapper activity to correctly track SUNRPC connections." REFERENCE "RFC 1831 [RFC1831] defines the Remote Procedure Call Protocol Version 2. The authoritative list of RPC Functions is identified by the URL: ftp://ftp.isi.edu/in-notes/iana/assignments/sun-rpc-numbers" ::= { tcp 111, udp 111 } auth PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Authentication Service; Identification Protocol." REFERENCE "RFC 1413 [RFC1413] defines the Identification Protocol." ::= { tcp 113 } sftp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Simple File Transfer Protocol; (historical)." REFERENCE "RFC 913 [RFC913] defines the Simple File Transfer Protocol." ::= { tcp 115 } uucp-path PROTOCOL-IDENTIFIER Expires December 1999 [Page 37] Internet-Draft RMON PI Macros June 1999 PARAMETERS { } ATTRIBUTES { } DESCRIPTION "UUCP Path Service" REFERENCE "RFC 915 [RFC915] defines the Network Mail Path Service." ::= { tcp 117 } nntp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Network News Transfer Protocol" REFERENCE "RFC 977 [RFC977] defines the Network News Transfer Protocol." ::= { tcp 119 } cfdptkt PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "CFDPTKT; Coherent File Distribution Protocol" REFERENCE "RFC 1235 [RFC1235] defines the Coherent File Distribution Protocol." ::= { udp 120 } ntp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Network Time Protocol" REFERENCE "RFC 1305 [RFC1305] defines version 3 of the Network Time Protocol." ::= { udp 123 } pwdgen PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Password Generator Protocol" REFERENCE "RFC 972 [RFC972] defines the Password Generator Protocol." ::= { tcp 129, Expires December 1999 [Page 38] Internet-Draft RMON PI Macros June 1999 udp 129 } cisco-fna PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "cisco FNATIVE" REFERENCE "Cisco Systems, Inc." ::= { tcp 130, udp 130 } cisco-tna PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "cisco TNATIVE" REFERENCE "Cisco Systems, Inc." ::= { tcp 131, udp 131 } cisco-sys PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "cisco SYSMAINT" REFERENCE "Cisco Systems, Inc." ::= { tcp 132, udp 132 } statsrv PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Statistics Server; (historical)." REFERENCE "RFC 996 [RFC996] defines the Statistics Server Protocol." ::= { tcp 133, udp 133 } -- defined as nbt-name in IPX section -- netbios-ns 137/tcp NETBIOS Name Service -- netbios-ns 137/udp NETBIOS Name Service Expires December 1999 [Page 39] Internet-Draft RMON PI Macros June 1999 -- defined as nbt-data in IPX section -- netbios-dgm 138/tcp NETBIOS Datagram Service -- netbios-dgm 138/udp NETBIOS Datagram Service -- defined as nbt-session in IPX section -- netbios-ssn 139/tcp NETBIOS Session Service -- netbios-ssn 139/udp NETBIOS Session Service imap2 PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Interactive Mail Access Protocol v2; Internet Message Access Protocol v4 (IMAP4) also uses this server port." REFERENCE "RFC 1064 [RFC1064] defines Version 2 of the Interactive Mail Access Protocol. RFC 1730 [RFC1730] defines Version 4 of the Internet Message Access Protocol." ::= { tcp 143 } iso-tp0 PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "ISO-IP0; ISO-TP0 bridge between TCP and X.25" REFERENCE "RFC 1086 [RFC1086] defines the ISO-TP0 protocol." ::= { tcp 146, udp 146 } iso-ip PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "ISO-IP; Use of the Internet as a Subnetwork for Experimentation with the OSI Network Layer" REFERENCE "RFC 1070 [RFC1070] defines the ISO-IP Protocol." ::= { tcp 147, udp 147 } Expires December 1999 [Page 40] Internet-Draft RMON PI Macros June 1999 hems PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "HEMS; High Level Entity Management System; (historical)." REFERENCE "RFC 1021 [RFC1021] defines HEMS." ::= { tcp 151 } bftp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Background File Transfer Program" REFERENCE "RFC 1068 [RFC1068] defines the Background File Transfer Program." ::= { tcp 152 } sgmp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Simple Gateway Monitoring Protocol; (historical)." REFERENCE "RFC 1028 [RFC1028] defines the Simple Gateway Monitoring Protocol." ::= { udp 153 } pcmail-srv PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "PCMail Server; Distributed Mail System Protocol (DMSP)" REFERENCE "RFC 1056 [RFC1056] defines the PCMAIL Protocol." ::= { tcp 158 } sgmp-traps PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Simple Gateway Monitoring Protocol Traps; (historical)." REFERENCE "RFC 1028 [RFC1028] defines the Simple Gateway Monitoring Expires December 1999 [Page 41] Internet-Draft RMON PI Macros June 1999 Protocol." ::= { udp 160 } -- snmp and snmptrap found in the Protocol-Independent section -- snmp 161/udp SNMP -- snmptrap 162/udp SNMPTRAP cmip-man PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "CMIP/TCP (CMOT) Manager; (historical)." REFERENCE "RFC 1095 [RFC1095] defines the Common Management Information Services and Protocol over TCP/IP." ::= { tcp 163, udp 163 } cmip-agent PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "CMIP/TCP (CMOT) Agent; (historical)." REFERENCE "RFC 1095 [RFC1095] defines the Common Management Information Services and Protocol over TCP/IP." ::= { tcp 164, udp 164 } xdmcp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "X Display Manager Control Protocol" REFERENCE "X11 Consortium" ::= { udp 177 } bgp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Border Gateway Protocol" REFERENCE "RFC 1267 [RFC1267] defines version 3 of the Border Gateway Expires December 1999 [Page 42] Internet-Draft RMON PI Macros June 1999 Protocol." ::= { tcp 179 } remote-kis PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Remote-Knowbot Information Service (KIS)" REFERENCE "RFC 1739 [RFC1739] describes the KNOWBOT Protocol." ::= { tcp 185, udp 185 } kis PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Knowbot Information Service (KIS)" REFERENCE "RFC 1739 [RFC1739] describes the KNOWBOT Protocol." ::= { tcp 186, udp 186 } irc PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Internet Relay Chat Protocol" REFERENCE "RFC 1459 [RFC1459] defines the Internet Relay Chat Protocol." ::= { tcp 194, udp 194 } smux PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "SMUX; SNMP MUX Protocol and MIB; (historical)." REFERENCE "RFC 1227 [RFC1227] defines the SMUX Protocol." ::= { tcp 199 } -- -- AppleTalk applications are defined in the AppleTalk Stack section -- Expires December 1999 [Page 43] Internet-Draft RMON PI Macros June 1999 -- at-rtmp 201/tcp AppleTalk Routing Maintenance -- at-rtmp 201/udp AppleTalk Routing Maintenance -- at-nbp 202/tcp AppleTalk Name Binding -- at-nbp 202/udp AppleTalk Name Binding -- at-3 203/tcp AppleTalk Unused -- at-3 203/udp AppleTalk Unused -- at-echo 204/tcp AppleTalk Echo -- at-echo 204/udp AppleTalk Echo -- at-5 205/tcp AppleTalk Unused -- at-5 205/udp AppleTalk Unused -- at-zis 206/tcp AppleTalk Zone Information -- at-zis 206/udp AppleTalk Zone Information -- at-7 207/tcp AppleTalk Unused -- at-7 207/udp AppleTalk Unused -- at-8 208/tcp AppleTalk Unused -- at-8 208/udp AppleTalk Unused z39-50 PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "ANSI Z39.50" REFERENCE "RFC 1729 [RFC1729] describes the Z39.50 Protocol." ::= { tcp 210 } ipx-tunnel PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Tunneling IPX Traffic through IP Networks" REFERENCE "RFC 1234 [RFC1234] defines the IPX Tunnel Protocol." ::= { udp 213 } mpp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Netix Message Posting Protocol" REFERENCE "RFC 1204 [RFC1204] defines the Message Posting Protocol." ::= { tcp 218 } imap3 PROTOCOL-IDENTIFIER Expires December 1999 [Page 44] Internet-Draft RMON PI Macros June 1999 PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Interactive Mail Access Protocol v3; (historical)." REFERENCE "RFC 1203 [RFC1203] defines version 3 of the Interactive Mail Access Protocol." ::= { tcp 220 } ldap PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Lightweight Directory Access Protocol" REFERENCE "RFC 1777 [RFC1777] defines Lightweight Directory Access Protocol; RFC 1798 [RFC1798] defines Connection-less Lightweight X.500 Directory Access Protocol" ::= { tcp 389, -- RFC 1777 udp 389 } -- RFC 1798 mobileip-agent PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "IP Mobility Support" REFERENCE "RFC 2002 [RFC2002] defines the IP Mobility Support protocol." ::= { udp 434 } https PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Secure HTTP; HTTP over TLS/SSL" REFERENCE "Netscape; http://home.netscape.com/eng/ssl3/" ::= { tcp 443 } smtps PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "SMTP protocol over TLS/SSL" REFERENCE Expires December 1999 [Page 45] Internet-Draft RMON PI Macros June 1999 "Netscape; http://home.netscape.com/eng/ssl3/" ::= { tcp 465 } isakmp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Internet Security Association and Key Management Protocol (ISAKMP)" REFERENCE "RFC 2408 [RFC2408]" ::= { udp 500 } login PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "BSD Rlogin; remote login a la telnet" REFERENCE "RFC 1282 [RFC1282] defines the BSD Rlogin Protocol." ::= { tcp 513 } syslog PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "syslog" REFERENCE "[RFC1700]" ::= { udp 514 } uucp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Unix-to-Unix copy protocol" REFERENCE "[RFC1700]" ::= { tcp 540 } doom PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "DOOM Game;" Expires December 1999 [Page 46] Internet-Draft RMON PI Macros June 1999 REFERENCE " Id Software" ::= { tcp 666 } radius PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Remote Authentication Dial In User Service (RADIUS)" REFERENCE "RFC 2138 [RFC2138] defines the Radius protocol." ::= { udp 1812 } radiusacct PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "RADIUS Accounting Protocol" REFERENCE "RFC 2139 [RFC2139] defines the Radius Accounting protocol." ::= { udp 1813 } -- -- Portmapper Functions; Children of sunrpc -- portmapper PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "SUNRPC PORTMAPPER program. This is the SUNRPC program which is used to locate the UDP/TCP ports on which other SUNRPC programs can be found." REFERENCE "Appendix A of RFC 1057 [RFC1057] describes the portmapper operation." ::= { sunrpc 100000 } nfs PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Sun Network File System (NFS);" DECODING Expires December 1999 [Page 47] Internet-Draft RMON PI Macros June 1999 "NFS is a SUNRPC program which may or may not use the port mapper SUNRPC program to connect clients and servers. In many cases the NFS server program runs over UDP/TCP port 2049, but an implementation is encouraged to perform further analysis before assuming that a packet to/from this port is a SUNRPC/NFS packet. Likewise an implementation is encouraged to track port mapper activity to spot cases where it is used to locate the SUNRPC/NFS program as this is more robust." REFERENCE "The NFS Version 3 Protocol Specification is defined in RFC 1813 [RFC1813]." ::= { sunrpc 100003 -- [0.1.134.163] } xwin PROTOCOL-IDENTIFIER PARAMETERS { tracksSessions(1) } ATTRIBUTES { } DESCRIPTION "X Windows Protocol" DECODING "The X Windows Protocol when run over UDP/TCP normally runs over the well known port 6000. It can run over any port in the range 6000 to 6063, however. If the tracksSessions(1) parameter bit is set the agent can and should detect such X Window sessions and report them as the X protocol." REFERENCE "The X Windows Protocol is defined by TBD" ::= { tcp 6000, udp 6000 -- lat ? } 6.1.2. Novell IPX Stack ipx PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0), addressRecognitionCapable(1) } Expires December 1999 [Page 48] Internet-Draft RMON PI Macros June 1999 DESCRIPTION "Novell IPX" CHILDREN "Children of IPX are defined by the 8 bit packet type field. The value is encoded into an octet string as [ 0.0.0.a ], where 'a' is the single octet of the packet type field. Notice that in many implementations of IPX usage of the packet type field is inconsistent with the specification and implementations are encouraged to use other techniques to map inconsistent values to the correct value (which in these cases is typically the Packet Exchange Protocol). It is beyond the scope of this document to describe these techniques in more detail. Children of IPX are encoded as [ 0.0.0.a ], and named as 'ipx a' where a is the packet type value. The novell echo protocol is referred to as 'ipx nov-echo' OR 'ipx 2'." ADDRESS-FORMAT "4 bytes of Network number followed by the 6 bytes Host address each in network byte order." REFERENCE "The IPX protocol is defined by the Novell Corporation A complete description of IPX may be secured at the following address: Novell, Inc. 122 East 1700 South P. O. Box 5900 Provo, Utah 84601 USA 800 526 5463 Novell Part # 883-000780-001" ::= { ether2 0x8137, -- [0.0.129.55] snap 0x8137, -- [0.0.129.55] ianaAssigned 1, -- [0.0.0.1] (ipxOverRaw8023) llc 224, -- [0.0.0.224] 802-1Q 0x8137, -- [0.0.129.55] 802-1Q 0x020000e0, -- 1Q-LLC [2.0.0.224] 802-1Q 0x05000001 -- 1Q-IANA [5.0.0.1] (ipxOverRaw8023) } nov-rip PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION Expires December 1999 [Page 49] Internet-Draft RMON PI Macros June 1999 "Novell Routing Information Protocol" REFERENCE "Novell Corporation" ::= { ipx 0x01, -- when reached by IPX packet type nov-pep 0x0453 -- when reached by IPX socket number } nov-echo PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Novell Echo Protocol" REFERENCE "Novell Corporation" ::= { ipx 0x02 } nov-error PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Novell Error-handler Protocol" REFERENCE "Novell Corporation" ::= { ipx 0x03 } nov-pep PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0) } DESCRIPTION "Novell Packet Exchange Protocol. This is really a null protocol layer as all IPX packets contain the relevant fields for this protocol. This protocol is defined so that socket-based decoding has a point of attachment in the decode tree while still allowing packet type based decoding also." CHILDREN "Children of PEP are defined by the 16 bit socket values. The value is encoded into an octet string as [ 0.0.a.b ], where 'a' and 'b' are the network byte order encodings of the MSB and LSB of the socket value. Each IPX/PEP packet contains two sockets, source and destination. How these are mapped onto the single well-known socket value used Expires December 1999 [Page 50] Internet-Draft RMON PI Macros June 1999 to identify its children is beyond the scope of this document." REFERENCE "Novell Corporation" ::= { -- ipx 0x00 ** Many third party IPX's use this value always ipx 0x04 -- Xerox assigned for PEP -- ipx 0x11 ** Novell use this for PEP packets, often } nov-spx PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0) } DESCRIPTION "Novell Sequenced Packet Exchange Protocol. This protocol is an extension of IPX/PEP as it shares a common header." CHILDREN "Children of SPX are defined by the 16 bit socket values. The value is encoded into an octet string as [ 0.0.a.b ], where 'a' and 'b' are the network byte order encodings of the MSB and LSB of the socket value. Each IPX/SPX packet contains two sockets, source and destination. How these are mapped onto the single well-known socket value used to identify its children is beyond the scope of this document." REFERENCE "Novell Corporation" ::= { ipx 0x05 -- Xerox assigned for SPX } nov-sap PROTOCOL-IDENTIFIER PARAMETERS { tracksSessions(1) } ATTRIBUTES { hasChildren(0) } DESCRIPTION "Novell Service Advertising Protocol. This protocol binds applications on a particular host to an IPX/PEP or IPX/SPX socket number. Although it never truly acts as a transport protocol itself it is used to establish sessions between clients and servers and barring well-known sockets is the only reliable way Expires December 1999 [Page 51] Internet-Draft RMON PI Macros June 1999 to determine the protocol running over a given socket on a given machine." CHILDREN "Children of SAP are identified by a 16 bit service type. They are encoded as [ 0.0.a.b ], where 'a' is the MSB and 'b' is the LSB of the service type. Children of SAP are named as 'nov-sap a' where 'a' is the service type in hexadecimal notation. The novell NCP protocol is referred to as 'nov-sap ncp' OR 'nov-sap 0x0004'." DECODING "The first packet of any session for a SAP based application (almost all IPX/PEP and IPX/SPX based applications utilize SAP) is sent to the SAP server(s) to map the service type into a port number for the host(s) on which the SAP server(s) is(are) running. These initial packets are SAP packets and not application packets and must be decoded accordingly. Having established the mapping, clients will then send application packets to the newly discovered socket number. These must be decoded by 'remembering' the socket assignments transmitted in the SAP packets. In some cases the port mapping for a particular protocol is well known and SAP will always return the same socket number for that application. Such programs should still be declared as children of nov-sap as described under CHILDREN above. How an implementation detects a client which is bypassing the SAP server to contact a well-known application is beyond the scope of this document. The 'tracksSessions(1)' PARAMETER bit is used to indicate whether the probe can (and should) monitor nov-sap activity to correctly track SAP-based connections." REFERENCE "A list of SAP service types can be found at ftp://ftp.isi.edu/in-notes/iana/assignments/novell-sap- numbers" ::= { nov-pep 0x0452 } ncp PROTOCOL-IDENTIFIER PARAMETERS { tracksSessions(1) } Expires December 1999 [Page 52] Internet-Draft RMON PI Macros June 1999 ATTRIBUTES { hasChildren(0) } DESCRIPTION "Netware Core Protocol" CHILDREN "Children of NCP are identified by the 8 bit command type field. They are encoded as [ 0.0.0.a ] where 'a' is the command type value. Children of NCP are named as 'ncp a' where 'a' is the command type in decimal notation. The NDS sub-protocol is referred to as 'ncp nds' OR 'ncp 104'." DECODING "Only the NCP request frames carry the command type field. How the implementation infers the command type of a response frame is an implementation specific matter and beyond the scope of this document. The tracksSessions(1) PARAMETERS bit indicates whether the probe can (and should) perform command type inference." REFERENCE "Novell Corporation" ::= { nov-sap 0x0004, nov-pep 0x0451 } nds PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "The Netware Directory Services sub-protocol." REFERENCE "Novell Corporation" ::= { ncp 104 } nov-diag PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Novell's diagnostic Protocol" REFERENCE "Novell Corporation" ::= { nov-sap 0x0017, -- [ed., this is the right one] nov-pep 0x0456 Expires December 1999 [Page 53] Internet-Draft RMON PI Macros June 1999 } nov-sec PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Novell security - serialization - copy protection protocol." REFERENCE "Novell Corporation" ::= { nov-pep 0x0457 } nov-watchdog PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Novell watchdog protocol." REFERENCE "Novell Corporation" ::= { nov-pep 0x4004 } nov-bcast PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Novell broadcast protocol." REFERENCE "Novell Corporation" ::= { nov-pep 0x4005 } 6.1.3. The XEROX Protocol Stack idp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0), addressRecognitionCapable(1) } DESCRIPTION "Xerox IDP" CHILDREN "Children of IDP are defined by the 8 bit value of the Packet type field. The value is encoded into an octet string as [ 0.0.0.a ], where 'a' is the value of the packet type field in network byte order. Expires December 1999 [Page 54] Internet-Draft RMON PI Macros June 1999 Children of IDP are encoded as [ 0.0.0.a ], and named as 'idp a' where a is the packet type value. The XNS SPP protocol is referred to as 'idp xns-spp' OR 'idp 2'." ADDRESS-FORMAT "4 bytes of Network number followed by the 6 bytes Host address each in network byte order." REFERENCE "Xerox Corporation, Document XNSS 028112, 1981" ::= { ether2 0x600, -- [ 0.0.6.0 ] snap 0x600, 802-1Q 0x600 -- [ 0.0.6.0 ] } xns-rip PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Routing Information Protocol." REFERENCE "Xerox Corporation" ::= { idp 1 } xns-echo PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "XNS echo protocol." REFERENCE "Xerox Corporation" ::= { idp 2 } xns-error PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "XNS error-handler protocol." REFERENCE "Xerox Corporation" ::= { idp 3 } xns-pep PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0) Expires December 1999 [Page 55] Internet-Draft RMON PI Macros June 1999 } DESCRIPTION "XNS Packet Exchange Protocol." CHILDREN "Children of PEP are defined by the 16 bit socket values. The value is encoded into an octet string as [ 0.0.a.b ], where 'a' and 'b' are the network byte order encodings of the MSB and LSB of the socket value. Each XNS/PEP packet contains two sockets, source and destination. How these are mapped onto the single well-known socket value used to identify its children is beyond the scope of this document." REFERENCE "Xerox Corporation" ::= { idp 4 } xns-spp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0) } DESCRIPTION "Sequenced Packet Protocol." CHILDREN "Children of SPP are defined by the 16 bit socket values. The value is encoded into an octet string as [ 0.0.a.b ], where 'a' and 'b' are the network byte order encodings of the MSB and LSB of the socket value. Each XNS/SPP packet contains two sockets, source and destination. How these are mapped onto the single well-known socket value used to identify its children is beyond the scope of this document." REFERENCE "Xerox Corporation" ::= { idp 5 } 6.1.4. AppleTalk Protocol Stack apple-oui PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Pseudo-protocol which binds Apple's protocols to vsnap." CHILDREN Expires December 1999 [Page 56] Internet-Draft RMON PI Macros June 1999 "Children of apple-oui are identified by the ether2 type field value that the child uses when encapsulated in ether2. The value is encoded into an octet string as [ 0.0.a.b ], where 'a' and 'b' are the MSB and LSB of the 16-bit ether type value in network byte order." REFERENCE "AppleTalk Phase 2 Protocol Specification, document ADPA #C0144LL/A." ::= { vsnap 0x080007, -- [ 0.8.0.7 ] 802-1Q 0x04080007 -- 1Q-VSNAP [ 4.8.0.7 ] } aarp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "AppleTalk Address Resolution Protocol." REFERENCE "AppleTalk Phase 2 Protocol Specification, document ADPA #C0144LL/A." ::= { ether2 0x80f3, -- [ 0.0.128.243 ] snap 0x80f3, apple-oui 0x80f3, 802-1Q 0x80f3 -- [ 0.0.128.243 ] } -- Should we call this alap (as in ELAP and TLAP?) -- Or perhaps DDP? atalk PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0), addressRecognitionCapable(1) } DESCRIPTION "AppleTalk Protocol." CHILDREN "Children of ATALK are defined by the 8 bit value of the DDP type field. The value is encoded into an octet string as [ 0.0.0.a ], where 'a' is the value of the DDP type field in network byte order." ADDRESS-FORMAT Expires December 1999 [Page 57] Internet-Draft RMON PI Macros June 1999 "2 bytes of Network number followed by 1 byte of node id each in network byte order." REFERENCE "AppleTalk Phase 2 Protocol Specification, document ADPA #C0144LL/A." ::= { ether2 0x809b, -- [ 0.0.128.155 ] apple-oui 0x809b, 802-1Q 0x809b -- [ 0.0.128.155 ] } rtmp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "AppleTalk Routing Table Maintenance Protocol." REFERENCE "Apple Computer" ::= { atalk 0x01, -- responses atalk 0x05 -- requests } aep PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "AppleTalk Echo Protocol." REFERENCE "Apple Computer" ::= { atalk 0x04 } nbp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "AppleTalk Name Binding Protocol." DECODING "In order to correctly identify the application protocol running over atp NBP packets must be analyzed. The mechanism by which this is achieved is beyond the scope of this document." REFERENCE "Apple Computer" ::= { atalk 0x02 } Expires December 1999 [Page 58] Internet-Draft RMON PI Macros June 1999 zip PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "AppleTalk Zone Information Protocol." REFERENCE "Apple Computer" ::= { atalk 0x06, atp 3 } atp PROTOCOL-IDENTIFIER PARAMETERS { tracksSessions(1) } ATTRIBUTES { hasChildren(0) } DESCRIPTION "AppleTalk Transaction Protocol." CHILDREN "Children of atp are identified by the following (32 bit) enumeration: 1 asp (AppleTalk Session Protocol) 2 pap (Printer Access Protocol) 3 zip (Zone Information Protocol) Children of atp are encoded as [ a.b.c.d ] where 'a', 'b', 'c' and 'd' are the four octets of the enumerated value in network order (i.e. 'a' is the MSB and 'd' is the LSB). The ZIP protocol is referred to as 'atp zip' OR 'atp 3'." DECODING "An implementation is encouraged to examine both the socket fields in the associated DDP header as well as the contents of prior NBP packets in order to determine which (if any) child is present. A full description of this algorithm is beyond the scope of this document. The tracksSessions(1) PARAMETER indicates whether the probe can (and should) perform this analysis." REFERENCE "Apple Computer" ::= { atalk 0x03 } adsp PROTOCOL-IDENTIFIER Expires December 1999 [Page 59] Internet-Draft RMON PI Macros June 1999 PARAMETERS { tracksSessions(1) } ATTRIBUTES { hasChildren(0) } DESCRIPTION "AppleTalk Data Stream Protocol." CHILDREN "Children of adsp are identified by enumeration. At this time none are known." DECODING "An implementation is encouraged to examine the socket numbers in the associated DDP header as well as the contents of prior NBP packets in order to determine which (if any) child of ADSP is present. The mechanism by which this is achieved is beyond the scope of this document. The tracksSessions(1) PARAMETER indicates whether the probe can (and should) perform this analysis." REFERENCE "Apple Computer" ::= { atalk 0x07 } asp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0) } DESCRIPTION "AppleTalk Session Protocol." CHILDREN "Children of asp are identified by the following (32 bit) enumeration: 1 afp (AppleTalk Filing Protocol) Children of asp are encoded as [ a.b.c.d ] where 'a', 'b', 'c' and 'd' are the four octets of the enumerated value in network order (i.e. 'a' is the MSB and 'd' is the LSB). The AFP protocol is referred to as 'asp afp' OR 'asp 1'." DECODING "ASP is a helper layer to assist in building client/server protocols. It cooperates with ATP to achieve this; the Expires December 1999 [Page 60] Internet-Draft RMON PI Macros June 1999 mechanisms used when decoding ATP apply equally here (i.e. checking DDP socket numbers and tracking NBP packets). Hence the tracksSessions(1) PARAMETER of atp applies to this protocol also." REFERENCE "Apple Computer" ::= { atp 1 } afp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "AppleTalk Filing Protocol." REFERENCE "Apple Computer" ::= { asp 1 } pap PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "AppleTalk Printer Access Protocol." REFERENCE "Apple Computer" ::= { atp 2 } 6.1.5. Banyon Vines Protocol Stack vtr PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0) } DESCRIPTION "Banyan Vines Token Ring Protocol Header." CHILDREN "Children of vines-tr are identified by the 8 bit packet type field. Children are encoded as [ 0.0.0.a ] where 'a' is the packet type value. The vines-ip protocol is referred to as 'vines-tr vip' OR 'vines- tr 0xba'." REFERENCE Expires December 1999 [Page 61] Internet-Draft RMON PI Macros June 1999 "See vip." ::= { llc 0xBC, -- declared as any LLC, but really TR only. 802-1Q 0x020000BC -- 1Q-LLC [2.0.0.188] } vecho PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Banyan Vines data link level echo protocol." REFERENCE "See vip." ::= { ether2 0x0BAF, -- [0.0.11.175] snap 0x0BAF, -- vfrp 0x0BAF, vtr 0xBB, -- [ed. yuck!] 802-1Q 0x0BAF -- [0.0.11.175] } vip PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0), addressRecognitionCapable(1) } DESCRIPTION "Banyan Vines Internet Protocol." CHILDREN "Children of vip are selected by the one-byte 'protocol type' field located at offset 5 in the vip header. The value is encoded as [ 0.0.0.a ], where a is the 'protocol type.' For example, a protocolDirId fragment of: 0.0.0.1.0.0.11.173.0.0.0.1 identifies an encapsulation of vipc (ether2.vip.vipc)." ADDRESS-FORMAT "vip packets have 6-byte source and destination addresses. The destination address is located at offset 6 in the vip header, and the source address at offset 12. These are encoded in network byte order." REFERENCE "Vines Protocol Definition - part# 092093-001, order# 003673 Expires December 1999 [Page 62] Internet-Draft RMON PI Macros June 1999 BANYAN, 120 Flanders Road, Westboro, MA 01581 USA" ::= { ether2 0x0BAD, snap 0x0BAD, -- vfrp 0x0BAD, vtr 0xBA, -- [ed. yuck!] 802-1Q 0x0BAD -- [0.0.11.173] } varp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Banyan Vines Address Resolution Protocol." REFERENCE "BANYAN" ::= { vip 0x04 } vipc PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0) } DESCRIPTION "Banyan Vines Interprocess Communications Protocol." CHILDREN "Children of Vines IPC are identified by the packet type field at offset 4 in the vipc header. These are encoded as [ 0.0.0.a ] where 'a' is the packet type value. Children of vipc are defined as 'vipc a' where 'a' is the packet type value in hexadecimal notation. The Vines Reliable Data Transport protocol is referred to as 'vipc vipc-rdp' OR 'vipc 0x01'." DECODING "Children of vipc are deemed to start at the first byte after the packet type field (i.e. at offset 5 in the vipc header)." REFERENCE "BANYAN" ::= { vip 0x01 } -- Banyan treats vipc, vipc-dgp and vipc-rdp as one protocol, IPC. Expires December 1999 [Page 63] Internet-Draft RMON PI Macros June 1999 -- Vines IPC really comes in two flavours. The first is used to -- send unreliable datagrams (vipc packet type 0x00). The second is used -- to send reliable datagrams (vipc packet type 0x01), -- consisting of up to four actual packets. -- In order to distinguish between these we need two 'virtual' protocols -- to identify which is which. vipc-dgp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0) } DESCRIPTION "Vines Unreliable Datagram Protocol." CHILDREN "Children of vipc-dgp are identified by the 16 bit port numbers contained in the vipc (this protocol's parent protocol) header. These are encoded as [ 0.0.a.b ] where 'a' is the MSB and 'b' is the MSB of the port number in network byte order. Children of vipc-dgp are defined as 'vipc-dgp a' where 'a' is the port number in hexadecimal notation. The StreetTalk protocol running over vipc-dgp would be referred to as 'vipc-dgp streettalk' OR 'vipc-dgp 0x000F'. The mechanism by which an implementation selects which of the source and destination ports to use in determining which child protocol is present is implementation specific and beyond the scope of this document." DECODING "Children of vipc-dgp are deemed to start after the single padding byte found in the vipc header. In the case of vipc-dgp the vipc header is a so called 'short' header, total length 6 bytes (including the final padding byte)." REFERENCE "BANYAN" ::= { vipc 0x00 } vipc-rdp PROTOCOL-IDENTIFIER PARAMETERS { countsFragments(0) } ATTRIBUTES { Expires December 1999 [Page 64] Internet-Draft RMON PI Macros June 1999 hasChildren(0) } DESCRIPTION "Vines Reliable Datagram Protocol." CHILDREN "Children of vipc-rdp are identified by the 16 bit port numbers contained in the vipc (this protocol's parent protocol) header. These are encoded as [ 0.0.a.b ] where 'a' is the MSB and 'b' is the MSB of the port number in network byte order. Children of vipc-dgp are defined as 'vipc-rdp a' where 'a' is the port number in hexadecimal notation. The StreetTalk protocol running over vipc-rdp would be referred to as 'vipc-rdp streettalk' OR 'vipc-rdp 0x000F'. The mechanism by which an implementation selects which of the source and destination ports to use in determining which child protocol is present is implementation specific and beyond the scope of this document." DECODING "Children of vipc-rdp are deemed to start after the error/length field at the end of the vipc header. For vipc-rdp the vipc header is a so called 'long' header, total 16 bytes (including the final error/length field). vipc-rdp includes a high level fragmentation scheme which allows up to four vipc packets to be sent as a single atomic PDU. The countsFragments(0) PARAMETERS bit indicates whether the probe can (and should) identify the child protocol in all fragments or only the leading one." REFERENCE "BANYAN" ::= { vipc 0x01 } vspp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0) } DESCRIPTION "Banyan Vines Sequenced Packet Protocol." CHILDREN "Children of vspp are identified by the 16 bit port numbers Expires December 1999 [Page 65] Internet-Draft RMON PI Macros June 1999 contained in the vspp header. These are encoded as [ 0.0.a.b ] where 'a' is the MSB and 'b' is the MSB of the port number in network byte order. Children of vspp are defined as 'vspp a' where 'a' is the port number in hexadecimal notation. The StreetTalk protocol running over vspp would be referred to as 'vspp streettalk' OR 'vspp 0x000F'. The mechanism by which an implementation selects which of the source and destination ports to use in determining which child protocol is present is implementation specific and beyond the scope of this document." DECODING "The implementation must ensure only those vspp packets which contain application data are decoded and passed on to children. Although it is suggested that the packet type and control fields should be used to determine this fact it is beyond the scope of this document to fully define the algorithm used." REFERENCE "BANYAN" ::= { vip 0x02 } vrtp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Banyan Vines Routing Update Protocol." REFERENCE "BANYAN" ::= { vip 0x05 } vicp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Banyan Vines Internet Control Protocol." REFERENCE "BANYAN" ::= { vip 0x06 } -- [ed. - We have two choices how we do vines apps. Expires December 1999 [Page 66] Internet-Draft RMON PI Macros June 1999 -- (1) The SUNRPC portmapper model. -- This has to be the preferred way to define all NetRPC based programs, -- i.e. by NetRPC program number. -- (2) Really ignore NetRPC as there is no -- good way to include it. Instead define NetRPC protocols as children -- of vipc-rdp by port number. Works for well-known ones but dynamic -- port numbers are used and NetRPC has a way of propagating these -- (StreetTalk??). -- So, if there is a portmapper-like program with a well known port number -- we should define it as a child of vipc-rdp (and vipc-dgp I suspect) and -- then declare all NetRPC based applications as children of this node by -- program number. Use tracksSessions on the port mapper node to show -- that you need to do this in order to follow the RPC sessions.] 6.1.6. The DECNet Protocol Stack dec PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "DEC" REFERENCE "Digital Corporation" ::= { ether2 0x6000, 802-1Q 0x6000 -- [0.0.96.0] } lat PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } -- Should have children but I don't know how. DESCRIPTION "DEC Local Area Transport Protocol." REFERENCE "Digital Corporation" ::= { ether2 0x6004, 802-1Q 0x6004 -- [0.0.96.4] } mop PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } Expires December 1999 [Page 67] Internet-Draft RMON PI Macros June 1999 DESCRIPTION "DEC Maintenance Operations Protocol." REFERENCE "Digital Corporation" ::= { ether2 0x6001, -- mop dump/load ether2 0x6002, -- mop remote console 802-1Q 0x6001, -- [0.0.96.1] VLAN + mop dump/load 802-1Q 0x6002 -- [0.0.96.2] VLAN + mop remote console } dec-diag PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "DEC Diagnostic Protocol." REFERENCE "Digital Corporation" ::= { ether2 0x6005, 802-1Q 0x6005 -- [0.0.96.5] } lavc PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "DEC Local Area VAX Cluster Protocol." REFERENCE "Digital Corporation" ::= { ether2 0x6007, 802-1Q 0x6007 -- [0.0.96.7] } drp PROTOCOL-IDENTIFIER PARAMETERS { countsFragments(1) } ATTRIBUTES { hasChildren(0), addressRecognitionCapable(1) } DESCRIPTION "DEC Routing Protocol." Expires December 1999 [Page 68] Internet-Draft RMON PI Macros June 1999 CHILDREN "There is only one child of DRP, NSP. This is encoded as [ 0.0.0.1 ]." ADDRESS-FORMAT "There are three address formats used in DRP packets, 2-byte (short data packet and all control except ethernet endnode & router hello messages), 6-byte (ethernet router & endnode hello messages) and 8-byte (long data packet). All of these contain the 2-byte format address in the last 2 bytes with the remaining bytes being unimportant for the purposes of system identification. It is beyond the scope of this document to define the algorithms used to identify packet types and hence address formats. The 2-byte address format is the concatenation of a 6-bit area and a 10-bit node number. In all cases this is placed in little endian format (i.e. LSB, MSB). The probe, however, will return them in network order (MSB, LSB). Regardless of the address format in the packet, the probe will always use the 2-byte format. For example area=13 (001101) and node=311 (0100110111) gives: 0011 0101 0011 0111 = 0x3537 in network order (the order the probe should return the address in). In packets this same value would appear as (hex): 2-byte 37 35 6-byte AA 00 04 00 37 35 8-byte 00 00 AA 00 04 00 37 35 Notice that the AA 00 04 00 prefix is defined in the specification but is unimportant and should not be parsed. Notice that control messages only have a source address in the header and so they can never be added into the conversation based tables." DECODING "NSP runs over DRP data packets; all other packet types are DRP control packets of one sort or another and do not carry any higher layer protocol. NSP packets are deemed to start at the beginning of the DRP data area. Expires December 1999 [Page 69] Internet-Draft RMON PI Macros June 1999 Data packets may be fragmented over multiple DRP data packets. The countsFragments(1) parameter indicates whether a probe can (and should) attribute non-leading fragments to the child protocol (above NSP in this case) or not. Recognition of DRP data packets and fragments is beyond the scope of this document." REFERENCE "DECnet Digital Network Architecture Phase IV Routing Layer Functional Specification Order# AA-X435A-TK Digital Equipment Corporation, Maynard, Massachusetts, USA" ::= { ether2 0x6003, snap 0x6003, 802-1Q 0x6003 -- [0.0.96.3] } nsp PROTOCOL-IDENTIFIER PARAMETERS { tracksSessions(1) } ATTRIBUTES { hasChildren(0) } DESCRIPTION "DEC Network Services Protocol." CHILDREN "Children of NSP are identified by the SCP 8-bit object type. Notice that the object type is included only in the session establishment messages (connect initiate, retransmitted connect initiate). Children of NSP are encoded [ 0.0.0.a ] where 'a' is the SCP object type. Children of NSP are named as 'nsp' followed by the SCP object type in decimal. CTERM is referred to as 'nsp cterm' OR 'nsp 42'." DECODING "An implementation is encouraged to examine SCP headers included in NSP control messages in order to determine which child protocol is present over a given session. It is beyond the scope of this document to define the algorithm used to do this. The tracksSessions(1) flag indicates whether the probe can (and Expires December 1999 [Page 70] Internet-Draft RMON PI Macros June 1999 should) perform this analysis." REFERENCE "DECnet Digital Network Architecture Phase IV NSP Functional Specification Order# AA-X439A-TK Digital Equipment Corporation, Maynard, Massachusetts, USA" ::= { drp 1 } dap-v1 PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "DEC Data Access Protocol version 1." REFERENCE "Digital Corporation" ::= { nsp 1 } dap-v4 PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "DEC Data Access Protocol versions 4 and above." REFERENCE "Digital Corporation" ::= { nsp 17 } nice PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "DEC Network Information and Control Exchange protocol." REFERENCE "Digital Corporation" ::= { nsp 19 } dec-loop PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "DEC Loopback Protocol." REFERENCE "Digital Corporation" ::= { nsp 25 } Expires December 1999 [Page 71] Internet-Draft RMON PI Macros June 1999 dec-event PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "DEC Event Protocol." REFERENCE "Digital Corporation" ::= { nsp 26 } cterm PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "DEC CTERM Protocol." REFERENCE "Digital Corporation" ::= { nsp 42 } 6.1.7. The IBM SNA Protocol Stack. sna-th PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } -- [ed. - clearly this really does have children, but I have -- no idea what applications are at the top, so is it -- worth expanding the hierarchy?] DESCRIPTION "IBM's SNA TH protocol." REFERENCE "IBM Systems Network Architecture Format and Protocol Reference Manual: Architectural Logic SC30-3112-2 IBM System Communications Division, Publications Development, Department E02, PO Box 12195, Research Triangle Park, North Carolina 27709." ::= { llc 0x04, -- [0.0.0.4] llc 0x08, -- [0.0.0.8] Expires December 1999 [Page 72] Internet-Draft RMON PI Macros June 1999 llc 0x0c, -- [0.0.0.12] ether2 0x80d5, -- [0.0.128.213] 802-1Q 0x02000004, -- 1Q-LLC [2.0.0.4] 802-1Q 0x02000008, -- 1Q-LLC [2.0.0.8] 802-1Q 0x0200000c, -- 1Q-LLC [2.0.0.12] 802-1Q 0x80d5 -- [0.0.128.213] } 6.1.8. The NetBEUI/NetBIOS Family -- CHILDREN OF NETBIOS -- The NetBIOS/NetBEUI functions are implemented over a wide variety of -- transports. Despite varying implementations they all share two -- features. First, all sessions are established by connecting to -- locally named services. Second, all sessions transport application -- between the client and the named service. In all cases the -- identification of the application protocol carried within the data -- packets is beyond the scope of this document.] -- -- Children of NetBIOS/NetBEUI are identified by the following (32 bit) -- enumeration -- -- 1 smb (Microsoft's Server Message Block Protocol) -- 2 notes (Lotus' Notes Protocol) -- 3 cc-mail (Lotus' CC Mail Protocol) -- -- Children of NetBIOS/NetBEUI are encoded as [ a.b.c.d ] where 'a', 'b', -- 'c' and 'd' are the four octets of the enumerated value in network -- order (i.e. 'a' is the MSB and 'd' is the LSB). -- -- For example notes over NetBEUI is declared as -- 'notes ::= { netbeui 2 }' -- but is referred to as -- 'netbeui notes' OR 'netbeui 2'. netbeui PROTOCOL-IDENTIFIER PARAMETERS { tracksSessions(1) } ATTRIBUTES { hasChildren(0) } DESCRIPTION "Lan Manager NetBEUI protocol." Expires December 1999 [Page 73] Internet-Draft RMON PI Macros June 1999 CHILDREN "See `CHILDREN OF NETBIOS`" DECODING "NETBEUI provides a named service lookup function. This function allows clients to locate a service by (locally assigned) name. An implementation is encouraged to follow lookups and session establishments and having determined the child protocol, track them. How the child protocol is determined and how the sessions are tracked is an implementation specific matter and is beyond the scope of this document." REFERENCE "IBM" ::= { llc 0xF0, -- [0.0.0.240] 802-1Q 0x020000F0 -- 1Q-LLC [2.0.0.240] } nbt-name PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "NetBIOS-over-TCP name protocol." REFERENCE "RFC 1001 [RFC1001] defines the 'PROTOCOL STANDARD FOR A NetBIOS SERVICE ON A TCP/UDP TRANSPORT: CONCEPTS AND METHODS.' RFC 1002 [RFC1002] defines the 'PROTOCOL STANDARD FOR A NetBIOS SERVICE ON A TCP/UDP TRANSPORT: DETAILED SPECIFICATIONS'." ::= { udp 137, tcp 137 } nbt-session PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "NetBIOS-over-TCP session protocol." REFERENCE "RFC 1001 [RFC1001] defines the 'PROTOCOL STANDARD FOR A NetBIOS SERVICE ON A TCP/UDP TRANSPORT: CONCEPTS AND METHODS.' RFC 1002 [RFC1002] defines the 'PROTOCOL STANDARD FOR A NetBIOS SERVICE ON A TCP/UDP TRANSPORT: DETAILED SPECIFICATIONS'." ::= { Expires December 1999 [Page 74] Internet-Draft RMON PI Macros June 1999 udp 139, tcp 139 } nbt-data PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0) } DESCRIPTION "NetBIOS-over-TCP datagram protocol." CHILDREN "See `CHILDREN OF NETBIOS`" REFERENCE "RFC 1001 [RFC1001] defines the 'PROTOCOL STANDARD FOR A NetBIOS SERVICE ON A TCP/UDP TRANSPORT: CONCEPTS AND METHODS.' RFC 1002 [RFC1002] defines the 'PROTOCOL STANDARD FOR A NetBIOS SERVICE ON A TCP/UDP TRANSPORT: DETAILED SPECIFICATIONS'." ::= { udp 138, tcp 138 } netbios-3com PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0) } DESCRIPTION "3COM NetBIOS protocol." CHILDREN "See `CHILDREN OF NETBIOS`" REFERENCE "3Com Corporation" ::= { ether2 0x3C00, ether2 0x3C01, ether2 0x3C02, ether2 0x3C03, ether2 0x3C04, ether2 0x3C05, ether2 0x3C06, ether2 0x3C07, ether2 0x3C08, ether2 0x3C09, Expires December 1999 [Page 75] Internet-Draft RMON PI Macros June 1999 ether2 0x3C0A, ether2 0x3C0B, ether2 0x3C0C, ether2 0x3C0D, 802-1Q 0x3C00, 802-1Q 0x3C01, 802-1Q 0x3C02, 802-1Q 0x3C03, 802-1Q 0x3C04, 802-1Q 0x3C05, 802-1Q 0x3C06, 802-1Q 0x3C07, 802-1Q 0x3C08, 802-1Q 0x3C09, 802-1Q 0x3C0A, 802-1Q 0x3C0B, 802-1Q 0x3C0C, 802-1Q 0x3C0D } nov-netbios PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { hasChildren(0) } DESCRIPTION "Novell's version of the NetBIOS protocol." CHILDREN "See `CHILDREN OF NETBIOS`" REFERENCE "Novell Corporation" ::= { nov-sap 0x0020, -- this is the right one to use -- these are typically also true, but derivable from the one -- above at run-time -- ipx 0x14; when reached by IPX packet type nov-pep 0x0455 -- when reached by socket number } burst PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "BURST [TBD]" REFERENCE Expires December 1999 [Page 76] Internet-Draft RMON PI Macros June 1999 "Novell Corporation" ::= { nov-pep 0x0d05 } 6.2. Multi-stack protocols smb PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Microsoft Server Message Block Protocol." REFERENCE "Microsoft Corporation" ::= { netbeui 1, netbios-3com 1, nov-netbios 1, nbt-data 1, nbt-session 1, nov-pep 0x550, nov-pep 0x552 -- vspp ??? -- xns-spp ??? } notes PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Lotus Notes Protocol." REFERENCE "Lotus Development" ::= { netbeui 2, netbios-3com 2, nov-netbios 2, nbt-data 2, tcp 1352, udp 1352, nov-sap 0x039b } ccmail PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } Expires December 1999 [Page 77] Internet-Draft RMON PI Macros June 1999 DESCRIPTION "Lotus CC-mail Protocol." REFERENCE "Lotus Development" ::= { netbeui 3, netbios-3com 3, nov-netbios 3, nbt-data 3, tcp 3264, udp 3264 } snmp PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Simple Network Management Protocol. Includes SNMPv1 and SNMPv2 protocol versions. Does not include SNMP trap packets." REFERENCE "The SNMP SMI is defined in RFC 1902 [RFC1902]. Version 1 of the SNMP protocol is defined in RFC 1905 [RFC1905]. Transport mappings are defined in RFC 1906 [RFC1906]; RFC 1420 (SNMP over IPX) [RFC1420]; RFC 1419 (SNMP over AppleTalk) [RFC1419]." ::= { udp 161, nov-pep 0x900f, -- [ 0.0.144.15 ] atalk 8, tcp 161 } snmptrap PROTOCOL-IDENTIFIER PARAMETERS { } ATTRIBUTES { } DESCRIPTION "Simple Network Management Protocol Trap Port." REFERENCE "The SNMP SMI is defined in RFC 1902 [RFC1902]. The SNMP protocol is defined in RFC 1905 [RFC1905]. Transport mappings are defined in RFC 1906 [RFC1906]; RFC 1420 (SNMP over IPX) [RFC1420]; RFC 1419 (SNMP over AppleTalk) [RFC1419]." ::= { udp 162, nov-pep 0x9010, atalk 9, Expires December 1999 [Page 78] Internet-Draft RMON PI Macros June 1999 tcp 162 } -- END 7. Intellectual Property The IETF takes no position regarding the validity or scope of any intellectual property or other rights that might be claimed to pertain to the implementation or use of the technology described in this document or the extent to which any license under such rights might or might not be available; neither does it represent that it has made any effort to identify any such rights. Information on the IETF's procedures with respect to rights in standards-track and standards- related documentation can be found in BCP-11. Copies of claims of rights made available for publication and any assurances of licenses to be made available, or the result of an attempt made to obtain a general license or permission for the use of such proprietary rights by implementors or users of this specification can be obtained from the IETF Secretariat." The IETF invites any interested party to bring to its attention any copyrights, patents or patent applications, or other proprietary rights which may cover technology that may be required to practice this standard. Please address the information to the IETF Executive Director. 8. Acknowledgements This document was produced by the IETF RMONMIB Working Group. The authors wish to thank the following people for their contributions to this document: Anil Singhal Frontier Software Development, Inc. Jeanne Haney Bay Networks Dan Hansen Network General Corp. Special thanks are in order to the following people for writing RMON PI Expires December 1999 [Page 79] Internet-Draft RMON PI Macros June 1999 macro compilers, and improving the specification of the PI macro language: David Perkins DeskTalk Systems, Inc. Skip Koppenhaver Technically Elite, Inc. 9. References [IEN158] J. Haverty, "XNET Formats for Internet Protocol Version 4", IEN 158, October 1980. [RFC407] Bressler, R., Guida. R., and A. McKenzie, "Remote Job Entry Protocol", RFC 407, MIT-DMCG, BBN-NET, October 1972. [RFC493] Michener, J., Cotton, I., Kelley, K., Liddle, D., and E. Meyer, "E.W., Jr Graphics Protocol", RFC 493, April 1973. [RFC734] M. Crispin, "SUPDUP Protocol", RFC 734, SU-AI, October 1977. [RFC740] R. Braden, "NETRJS Protocol", RFC 740, UCLA-CCN, November 1977. [RFC741] D. Cohen, "Specifications for the Network Voice Protocol", RFC 741, ISI/RR 7539, USC/Information Sciences Institute, March 1976. [RFC759] J. Postel, "Internet Message Protocol", RFC 759, USC/Information Sciences Institute, August 1980. [RFC768] J. Postel, "User Datagram Protocol", STD 6, RFC 768, USC/Information Sciences Institute, August 1980. [RFC791] J. Postel, "Internet Protocol - DARPA Internet Program Protocol Specification", STD 5, RFC 791, USC/Information Sciences Institute, Expires December 1999 [Page 80] Internet-Draft RMON PI Macros June 1999 September 1981. [RFC792] J. Postel, "Internet Control Message Protocol - DARPA Internet Program Protocol Specification", STD 5, RFC 792, USC/Information Sciences Institute, September 1981. [RFC793] J. Postel, "Transmission Control Protocol - DARPA Internet Program Protocol Specification", STD 5, RFC 793, USC/Information Sciences Institute, September 1981. [RFC818] J. Postel, "Remote User Telnet service", RFC 818, ISI, November 1982. [RFC821] J. Postel, "Simple Mail Transfer Protocol", RFC 821, USC/Information Sciences Institute, August 1982. [RFC823] Hinden, R., and A. Sheltzer, "The DARPA Internet Gateway", RFC 823, BBN, September 1982. [RFC826] D. Plummer, "An Ethernet Address Resolution Protocol or Converting Network Protocol Addresses to 48-bit Ethernet Addresses for Transmission on Ethernet Hardware", STD 37, RFC 826, MIT-LCS, November 1982. [RFC854] Postel, J., and J. Reynolds, "Telnet Protocol Specification", STD 8, RFC 854, ISI, May 1983. [RFC862] J. Postel, "Echo Protocol", STD 20, RFC 862, ISI, May 1983. [RFC863] J. Postel, "Discard Protocol", STD 21, RFC 863, ISI, May 1983. [RFC864] J. Postel, "Character Generator Protocol", STD 22, RFC 864, ISI, May 1983. Expires December 1999 [Page 81] Internet-Draft RMON PI Macros June 1999 [RFC865] J. Postel, "Quote of the Day Protocol", RFC 865, ISI, May 1983. [RFC866] J. Postel, "Active Users", STD 26, RFC 866, ISI, May 1983. [RFC867] J. Postel, "Daytime Protocol", STD 25, RFC 867, ISI, May 1983. [RFC868] J. Postel, "Time Protocol", STD 26, RFC 868, ISI, May 1983. [RFC869] R. Hinden, "A Host Monitoring Protocol", RFC 869, Bolt Beranek and Newman, December 1983. [RFC887] M. Accetta, "Resource Location Protocol", RFC 887, CMU, December 1983. [RFC904] International Telegraph and Telephone Co., D. Mills, "Exterior Gateway Protocol Formal Specification", RFC 904, April 1984. [RFC905] International Standards Organization, A. McKenzie, "ISO Transport Protocol Specification - ISO DP 8073", RFC 905, April 1984. [RFC908] Velten, D., Hinden, R., and J. Sax, "Reliable Data Protocol", RFC 908, BBN Communications Corporation, July 1984. [RFC913] M. Lottor, "Simple File Transfer Protocol", RFC 913, MIT, September 1984. [RFC915] Elvy, M., and R. Nedved, "Network mail path service", RFC 915, Harvard University, Carnegie-Mellon University, December 1984. [RFC937] Butler, M., Chase, D., Goldberger, J., Postel, J., and J. Reynolds, "Post Office Protocol - version 2", RFC 937, ISI, February 1985. Expires December 1999 [Page 82] Internet-Draft RMON PI Macros June 1999 [RFC938] T. Miller, "Internet Reliable Transaction Protocol", RFC 938, ACC, February 1985. [RFC951] Croft, W., and J. Gilmore, "BOOTSTRAP Protocol (BOOTP)", RFC 951, Stanford and SUN Microsytems, September 1985. [RFC953] Feinler, E., Harrenstien, K., and M. Stahl, "Hostname Server", RFC 953, SRI, October 1985. [RFC954] Feinler, E., Harrenstien, K., and M. Stahl, "NICNAME/WHOIS", RFC 954, SRI, October 1985. [RFC959] Postel, J., and J. Reynolds, "File Transfer Protocol", RFC 959, USC/Information Sciences Institute, October 1985. [RFC972] F. Wancho, "Password Generator Protocol", RFC 972, WSMR, January 1986. [RFC977] Kantor, B., and P. Lapsley, "Network News Transfer Protocol: A Proposed Standard for the Stream-Based Transmission of News", RFC 977, U.C. San Diego, U.C. Berkeley, February 1986. [RFC996] D. Mills, "Statistics server", RFC 996, University of Delaware, February 1987. [RFC998] Clark, D., Lambert, M., and L. Zhang, "NETBLT: A Bulk Data Transfer Protocol", RFC 998, MIT, March 1987. [RFC1001], NetBIOS Working Group in the Defense Advanced Research Projects Agency, Internet Activities Board, End-to-End Services Task Force. "Protocol standard for a NetBIOS service on a TCP/UDP transport: Concepts and methods", RFC 1001, March 1987. [RFC1002], NetBIOS Working Group in the Defense Advanced Research Projects Expires December 1999 [Page 83] Internet-Draft RMON PI Macros June 1999 Agency, Internet Activities Board, End-to-End Services Task Force. "Protocol standard for a NetBIOS service on a TCP/UDP transport: Detailed specifications.", RFC 1002, March 1987. [RFC1021] Partridge, C., and G. Trewitt, "High-level Entity Management System HEMS", RFC 1021, BBN/NNSC, Stanford, October 1987. [RFC1028] Case, J., Davin, J., Fedor, M., and M. Schoffstall, "Simple Gateway Monitoring Protocol", RFC 1028, University of Tennessee at Knoxville, Proteon, Inc., Cornell University, Rensselaer Polytechnic Institute, November 1987. [RFC1035] P. Mockapetris, "Domain Names - Implementation and Specification", STD 13, RFC 1035, USC/Information Sciences Institute, November 1987. [RFC1056] M. Lambert, "PCMAIL: A distributed mail system for personal computers", RFC 1056, MIT, June 1988. [RFC1057] Sun Microsystems, Inc, "RPC: Remote Procedure Call Protocol Specification version 2", RFC 1057, Sun Microsystems, Inc., June 1988. [RFC1064] M. Crispin, "Interactive Mail Access Protocol: Version 2", RFC 1064, SUMEX-AIM, July 1988. [RFC1068] A. DeSchon, and R. Braden, "Background File Transfer Program BFTP", RFC 1068, ISI, August 1988. [RFC1070] Hagens, R., Hall, N., and M. Rose, "Use of the Internet as a subnetwork for experimentation with the OSI network layer", RFC 1070, U of Wiscsonsin - Madison, The Wollongong Group, February 1989. [RFC1078] M. Lottor, "TCP port service Multiplexer TCPMUX", RFC 1078, SRI- NIC, November, 1988. Expires December 1999 [Page 84] Internet-Draft RMON PI Macros June 1999 [RFC1086] Onions, J., and M. Rose, "ISO-TP0 bridge between TCP and X.25", RFC 1086, Nottingham, TWG, December 1988. [RFC1095] Warrier, U., and L. Besaw, "Common Management Information Services and Protocol over TCP/IP (CMOT)", RFC 1095, Unisys Corporation, Hewlett-Packard, April 1989. [RFC1112] S. Deering, "Host Extensions for IP Multicasting", RFC 1112, Stanford University, August 1989. [RFC1155] Rose, M., and K. McCloghrie, "Structure and Identification of Management Information for TCP/IP-based Internets", RFC 1155, Performance Systems International, Hughes LAN Systems, May 1990. [RFC1157] Case, J., Fedor, M., Schoffstall, M., and J. Davin, "Simple Network Management Protocol", RFC 1157, SNMP Research, Performance Systems International, Performance Systems International, MIT Laboratory for Computer Science, May 1990. [RFC1203] J. Rice, "Interactive Mail Access Protocol - Version 3", RFC 1203, Stanford, February 1991. [RFC1204] Lee, D., and S. Yeh, "Message Posting Protocol (MPP)", RFC 1204, Netix Communications, Inc., February 1991. [RFC1212] Rose, M., and K. McCloghrie, "Concise MIB Definitions", RFC 1212, Performance Systems International, Hughes LAN Systems, March 1991. [RFC1213] 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. [RFC1215] M. Rose, "A Convention for Defining Traps for use with the SNMP", RFC 1215, Performance Systems International, March 1991. Expires December 1999 [Page 85] Internet-Draft RMON PI Macros June 1999 [RFC1226] B. Kantor, "Internet Protocol Encapsulation of AX.25 Frames", RFC 1226, UCSD, May 1991. [RFC1227] M. Rose, "SNMP MUX Protocol and MIB", RFC 1227, Performance Systems International, Inc., May 1991. [RFC1234] D. Provan, "Tunneling IPX Traffic through IP Networks", RFC 1234, Novell, Inc., June 1991. [RFC1235] Ioannidis, J., and G. Maguire, Jr., "The Coherent File Distribution Protocol", RFC 1235, Columbia University, June 1991. [RFC1241] Mills, D., and R. Woodburn, "A Scheme for an Internet Encapsulation Protocol: Version 1", RFC 1241, SAIC, University of Delaware, July 1991. [RFC1249] Howes, T., Smith, M., and B. Beecher, "DIXIE Protocol Specification", RFC 1249, University of Michigan, August 1991. [RFC1267] Lougheed, K., and Y. Rekhter, "A Border Gateway Protocol 3 (BGP-3)", RFC 1267, Cisco Systems, T.J. Watson Research Center, IBM Corp., October 1991. [RFC1282] B. Kantor, "BSD Rlogin", RFC 1282, Univ. of Calif San Diego, December 1991. [RFC1288] D. Zimmerman, "The Finger User Information Protocol", RFC 1288, Center for Discrete Mathematics and Theoretical Computer Science, December 1991. [RFC1301] Armstrong, S., Freier, A., and K. Marzullo, "Multicast Transport Protocol", RFC 1301, Xerox, Apple, Cornell, February 1992. [RFC1305] D. Mills, "Network Time Protocol (v3)", RFC 1305, University of Expires December 1999 [Page 86] Internet-Draft RMON PI Macros June 1999 Delaware, April 1992. [RFC1312] Nelson, R., and G. Arnold, "Message Send Protocol", RFC 1312, Crynwr Software, Sun Microsystems, Inc., April 1992. [RFC1339] Dorner, S., and P. Resnick, "Remote Mail Checking Protocol", RFC 1339, U. of Illinois at Urbana-Champaign, June 1992. [RFC1350] K. Sollins, "TFTP Protocol (revision 2)", RFC 1350, MIT, July 1992. [RFC1413] M. St. Johns, "Identification Protocol", RFC 1413, US Department of Defense, February 1993. [RFC1419] Minshall, G., and M. Ritter, "SNMP over AppleTalk", RFC 1419, Novell, Inc., Apple Computer, Inc., March 1993. [RFC1420] S. Bostock, "SNMP over IPX", RFC 1420, Novell, Inc., March 1993. [RFC1436] Anklesaria, F., McCahill, M., Lindner, P., Johnson, D., John, D., Torrey, D., and B. Alberti, "The Internet Gopher Protocol (a distributed document search and retrieval protocol)", RFC 1436, University of Minnesota, March 1993. [RFC1459] Oikarinen, J., and D. Reed, "Internet Relay Chat Protocol", RFC 1459, May 1993. [RFC1476] R. Ullmann, "RAP: Internet Route Access Protocol", RFC 1476, Process Software Corporation, June 1993. [RFC1479] M. Steenstrup, "Inter-Domain Policy Routing Protocol Specification: Version 1", RFC 1479, BBN Systems and Technologies, July 1993. [RFC1483] J. Heinanen, "Multiprotocol Encapsulation over ATM Adaptation Layer 5", RFC 1483, Telecom Finland, July 1993. Expires December 1999 [Page 87] Internet-Draft RMON PI Macros June 1999 [RFC1492] C. Finseth, "An Access Control Protocol, Sometimes Called TACACS", RFC 1492, University of Minnesota, July 1993. [RFC1510] Kohl, J., and B. Neuman, "The Kerberos Network Authentication Service (V5)", RFC 1510, Digital Equipment Corporation, ISI, September 1993. [RFC1583] J. Moy, "OSPF Version 2", RFC 1583, Proteon, Inc., March 1994. [RFC1700] Reynolds, J., and J. Postel, "Assigned Numbers", STD 2, RFC 1700, USC/Information Sciences Institute, October 1994. [RFC1701] Hanks, S., Li, T., Farinacci, D., and P. Traina, "Generic Routing Encapsulation (GRE)", RFC 1701, Netsmiths, Ltd., Cisco Systems, October 1994. [RFC1702] Hanks, S., Li, T., Farinacci, D., and P. Traina, "Generic Routing Encapsulation over IPv4 networks", RFC 1702, Netsmiths, Ltd., Cisco Systems, October 1994. [RFC1725] Myers, J., and M. Rose, "Post Office Protocol - Version 3", RFC 1725, Carnegie Mellon, Dover Beach Consulting, November 1994. [RFC1729] C. Lynch, "Using the Z39.50 Information Retrieval Protocol in the Internet Environment", RFC 1729, University of California, December 1994. [RFC1730] M. Crispin, "Internet Message Access Protocol - Version 4", RFC 1730, University of Washington, December 1994. [RFC1739] Kessler, G., and S. Shepard, "A Primer On Internet and TCP/IP Tools", RFC 1739, Hill Associates, Inc., December 1994. [RFC1745] Varadhan, K., Hares, S., and Y. Rekhter, "BGP4/IDRP for IP---OSPF Expires December 1999 [Page 88] Internet-Draft RMON PI Macros June 1999 Interaction", RFC 1745, OARnet & ISI, NSFnet/Merit, IBM, December 1994. [RFC1757] S. Waldbusser, "Remote Network Monitoring MIB", RFC 1757, Carnegie Mellon University, February 1995. [RFC1777] Yeong, W., Howes, T., and S. Kille, "Lightweight Directory Access Protocol", Performance Systems International, University of Michigan, ISODE Consortium, March 1995. [RFC1782] Malkin, G., and A. Harkin, "TFTP Option Extension", RFC 1782, Xylogics, Inc., Hewlett Packard Co., March 1995. [RFC1783] Malkin, G., and A. Harkin, "TFTP BlockOption Option", RFC 1783, Xylogics, Inc., Hewlett Packard Co., March 1995. [RFC1784] Malkin, G., and A. Harkin, "TFTP Timeout Interval and Transfer Size Options", RFC 1784, Xylogics, Inc., Hewlett Packard Co., March 1995. [RFC1798] A. Young, "Connection-less Lightweight Directory Access Protocol", RFC 1798, ISODE Consortium, June 1995. [RFC1800] J. Postel, "Internet Official Protocol Standards", STD 1, RFC 1800, IAB, July 1995. [RFC1813] Callaghan, B., Pawlowski, B., and P. Staubach, "NFS Version 3 Protocol Specification", RFC 1813, Sun Microsystems, Inc., June 1995. [RFC1819] Delgrossi, L., and L. Berger, "Internet Stream Protocol Version 2 (ST2)", RFC 1819, ST2 Working Group, August 1995. [RFC1831] R. Srinivasan, "Remote Procedure Call Protocol Version 2", RFC 1831, Sun Microsystems, Inc., August 1995. Expires December 1999 [Page 89] Internet-Draft RMON PI Macros June 1999 [RFC1853] W. Simpson, "IP in IP Tunneling", RFC 1853, Daydreamer, October 1995. [RFC1901] SNMPv2 Working Group, Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Introduction to Community-based SNMPv2", RFC 1901, SNMP Research, Inc., Cisco Systems, Inc., Dover Beach Consulting, Inc., International Network Services, January 1996. [RFC1902] SNMPv2 Working Group, Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Structure of Management Information for version 2 of the Simple Network Management Protocol (SNMPv2)", RFC 1902, SNMP Research, Inc., Cisco Systems, Inc., Dover Beach Consulting, Inc., International Network Services, January 1996. [RFC1903] SNMPv2 Working Group, Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Textual Conventions for version 2 of the Simple Network Management Protocol (SNMPv2)", RFC 1903, SNMP Research, Inc., Cisco Systems, Inc., Dover Beach Consulting, Inc., International Network Services, January 1996. [RFC1904] SNMPv2 Working Group, Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Conformance Statements for version 2 of the Simple Network Management Protocol (SNMPv2)", RFC 1904, SNMP Research, Inc., Cisco Systems, Inc., Dover Beach Consulting, Inc., International Network Services, January 1996. [RFC1905] SNMPv2 Working Group, Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Protocol Operations for Version 2 of the Simple Network Management Protocol (SNMPv2)", RFC 1905, SNMP Research, Inc., Cisco Systems, Inc., Dover Beach Consulting, Inc., International Network Services, January 1996. [RFC1906] SNMPv2 Working Group, Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Transport Mappings for Version 2 of the Simple Network Management Protocol (SNMPv2)"", RFC 1906, SNMP Research, Inc., Cisco Systems, Inc., Dover Beach Consulting, Inc., International Network Services, January 1996. Expires December 1999 [Page 90] Internet-Draft RMON PI Macros June 1999 [RFC1940] Estrin, D., Li, T., Rekhter, Y., Varadhan, K., and D. Zappala, "Source Demand Routing: Packet Format and Forwarding Specification (Version 1).", RFC 1940, USC, Cisco Systems, May 1996. [RFC1945] Berners-Lee, T., and R. Fielding, "Hypertext Transfer Protocol -- HTTP/1.0", RFC 1945, MIT/LCS, UC-Irvine, November 1995. [RFC2002] C. Perkins, IP Mobility Support", RFC 2002, IBM, October 1996. [RFC2003] C. Perkins, "IP Encapsulation within IP", RFC 2003, IBM, October 1996. [RFC2021] S. Waldbusser, "Remote Network Monitoring MIB (RMON-2)", RFC 2021, International Network Services, January 1997. [RFC2037] McCloghrie, K., and A. Bierman, "Entity MIB using SMIv2", RFC 2037, Cisco Systems, October 1996. [RFC2068] Fielding, R., Gettys, J., Mogul, J., Frystyk, H., and T. Berners- Lee, "Hypertext Transfer Protocol -- HTTP/1.1", RFC 2068, DEC, MIT/LCS, January 1997. [RFC2069] Franks, J., Hallam-Baker, P., Hostetler, J., Luotonen, P. A., and E. L. Stewart, "An Extension to HTTP: Digest Access Authentication", RFC 2069, CERN, Spyglass, Inc., Microsoft Corporation, Netscape Communications Corporation, Open Market, Inc., January 1997. [RFC2074] Bierman, A., and R. Iddon, "Remote Network Monitoring MIB Protocol Identifiers", RFC 2074, Cisco Systems, AXON Networks Inc., January 1997. [RFC2109] Kristol, D., and L. Montulli, "HTTP State Management Mechanism", RFC 2109, Bell Laboratories/Lucent Technologies, Netscape Communications, February 1997. Expires December 1999 [Page 91] Internet-Draft RMON PI Macros June 1999 [RFC2138] Rigney, C., Rubens, A., Simpson, W., and W. Willens, "Remote Authentication Dial In User Service (RADIUS)", RFC 2138, Livingston, Merit, Daydreamer, Livingston, April 1997. [RFC2139] C. Rigney, "RADIUS Accounting", RFC 2139, Livingston, April 1997. [RFC2145] Mogul, J., Fielding, R., Gettys, J., and H. Frystyk, "Use and interpretation of HTTP version numbers", RFC 2145, DEC, MIT/LCS, May 1997. [RFC2205] Braden, R., Ed., Zhang, L., Berson, S., Herzog, S., and S. Jamin, "Resource ReSerVation Protocol (RSVP) -- Version 1 Functional Specification", RFC 2205, ISI, UCLA, IBM Research, University of Michigan, September, 1997. [RFC2233] McCloghrie, K., and F. Kastenholz, "The Interfaces Group MIB Using SMIv2", RFC 2233, Cisco Systems, FTP Software, November, 1997. [RFC2271] Harrington, D., Presuhn, R., and B. Wijnen, "An Architecture for Describing SNMP Management Frameworks", RFC 2271, Cabletron Systems, Inc., BMC Software, Inc., IBM T. J. Watson Research, January 1998. [RFC2272] Case, J., Harrington D., Presuhn R., and B. Wijnen, "Message Processing and Dispatching for the Simple Network Management Protocol (SNMP)", RFC 2272, SNMP Research, Inc., Cabletron Systems, Inc., BMC Software, Inc., IBM T. J. Watson Research, January 1998. [RFC2273] Levi, D., Meyer, P., and B. Stewart, "SNMPv3 Applications", RFC 2273, SNMP Research, Inc., Secure Computing Corporation, Cisco Systems, January 1998. [RFC2274] Blumenthal, U., and B. Wijnen, "User-based Security Model (USM) for version 3 of the Simple Network Management Protocol (SNMPv3)", RFC 2274, IBM T. J. Watson Research, January 1998. Expires December 1999 [Page 92] Internet-Draft RMON PI Macros June 1999 [RFC2275] Wijnen, B., Presuhn, R., and K. McCloghrie, "View-based Access Control Model (VACM) for the Simple Network Management Protocol (SNMP)", RFC 2275, IBM T. J. Watson Research, BMC Software, Inc., Cisco Systems, Inc., January 1998. [RFC2332] Luciani, J., Katz, D., Piscitello, D., Cole, B., and N. Doraswamy, "NBMA Next Hop Resolution Protocol (NHRP)", RFC 2332, Bay Networks, cisco Systems, Core Competence, Inc., Juniper Networks, Bay Networks, April 1998. [RFC2408] Maughan, D., Schertler, M., Schneider, M., and J. Turner, RFC 2408, National Security Agency, Securify, Inc. National Security Agency, RABA Technologies, Inc., November 1998. [RFC2570] Case, J., Mundy, R., Partain, D., and B. Stewart, "Introduction to Version 3 of the Internet-standard Network Management Framework", RFC 2570, SNMP Research, Inc., TIS Labs at Network Associates, Inc., Ericsson, Cisco Systems, April 1999 [RFC2571] Harrington, D., Presuhn, R., and B. Wijnen, "An Architecture for Describing SNMP Management Frameworks", RFC 2571, Cabletron Systems, Inc., BMC Software, Inc., IBM T. J. Watson Research, April 1999 [RFC2572] Case, J., Harrington D., Presuhn R., and B. Wijnen, "Message Processing and Dispatching for the Simple Network Management Protocol (SNMP)", RFC 2572, SNMP Research, Inc., Cabletron Systems, Inc., BMC Software, Inc., IBM T. J. Watson Research, April 1999 [RFC2573] Levi, D., Meyer, P., and B. Stewart, "SNMPv3 Applications", RFC 2573, SNMP Research, Inc., Secure Computing Corporation, Cisco Systems, April 1999 [RFC2574] Blumenthal, U., and B. Wijnen, "User-based Security Model (USM) for version 3 of the Simple Network Management Protocol (SNMPv3)", RFC 2574, IBM T. J. Watson Research, April 1999 Expires December 1999 [Page 93] Internet-Draft RMON PI Macros June 1999 [RFC2575] Wijnen, B., Presuhn, R., and K. McCloghrie, "View-based Access Control Model (VACM) for the Simple Network Management Protocol (SNMP)", RFC 2575, IBM T. J. Watson Research, BMC Software, Inc., Cisco Systems, Inc., April 1999 [RFC2578] McCloghrie, K., Perkins, D., Schoenwaelder, J., Case, J., Rose, M., and S. Waldbusser, "Structure of Management Information Version 2 (SMIv2)", RFC 2578, STD 58, Cisco Systems, SNMPinfo, TU Braunschweig, SNMP Research, First Virtual Holdings, International Network Services, April 1999 [RFC2579] McCloghrie, K., Perkins, D., Schoenwaelder, J., Case, J., Rose, M., and S. Waldbusser, "Textual Conventions for SMIv2", RFC 2579, STD 58, Cisco Systems, SNMPinfo, TU Braunschweig, SNMP Research, First Virtual Holdings, International Network Services, April 1999 [RFC2580] McCloghrie, K., Perkins, D., Schoenwaelder, J., Case, J., Rose, M., and S. Waldbusser, "Conformance Statements for SMIv2", RFC 2580, STD 58, Cisco Systems, SNMPinfo, TU Braunschweig, SNMP Research, First Virtual Holdings, International Network Services, April 1999 [RMONPROT_REF] Bierman, A., Bucci, C., and R. Iddon, "RMON Protocol Identifier Reference", draft-ietf-rmonmib-rmonprot-ref-00.txt, Cisco Systems, Inc., 3Com, Inc., November, 1998. 10. Security Considerations This document contains textual descriptions of well-known networking protocols, not the definition of any networking behavior. As such, no security considerations are raised by its publication. 11. Authors' Addresses Andy Bierman Cisco Systems, Inc. 170 West Tasman Drive San Jose, CA USA 95134 Phone: +1 408-527-3711 Email: abierman@cisco.com Expires December 1999 [Page 94] Internet-Draft RMON PI Macros June 1999 Chris Bucci Cisco Systems, Inc. 170 West Tasman Drive San Jose, CA USA 95134 Phone: +1 408-527-5337 Email: cbucci@cisco.com Robin Iddon c/o 3Com Inc. Blackfriars House 40/50 Blackfrias Street Edinburgh, EH1 1NE, UK Phone: +44 131.558.3888 Email: None Expires December 1999 [Page 95] Internet-Draft RMON PI Macros June 1999 12. Full Copyright Statement Copyright (C) The Internet Society (1999). All Rights Reserved. This document and translations of it may be copied and furnished to others, and derivative works that comment on or otherwise explain it or assist in its implementation may be prepared, copied, published and distributed, in whole or in part, without restriction of any kind, provided that the above copyright notice and this paragraph are included on all such copies and derivative works. However, this document itself may not be modified in any way, such as by removing the copyright notice or references to the Internet Society or other Internet organizations, except as needed for the purpose of developing Internet standards in which case the procedures for copyrights defined in the Internet Standards process must be followed, or as required to translate it into languages other than English. The limited permissions granted above are perpetual and will not be revoked by the Internet Society or its successors or assigns. This document and the information contained herein is provided on an "AS IS" basis and THE INTERNET SOCIETY AND THE INTERNET ENGINEERING TASK FORCE DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE INFORMATION HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE." Expires December 1999 [Page 96]