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Network Working Group J. ReynoldsRequest for Comments: 1010 J. Postel ISIObsoletes RFCs:990,960,943,923,900,870, May 1987820,790,776,770,762,758,755, 750, 739, 604, 503, 433, 349Obsoletes IENs: 127, 117, 93ASSIGNED NUMBERSStatus of this Memo This memo is an official status report on the numbers used in protocols in the Internet community. Distribution of this memo is unlimited.Introduction This Network Working Group Request for Comments documents the currently assigned values from several series of numbers used in network protocol implementations. This RFC will be updated periodically, and in any case current information can be obtained from Joyce Reynolds. If you are developing a protocol or application that will require the use of a link, socket, port, protocol, etc., please contact Joyce to receive a number assignment. Joyce K. Reynolds USC - Information Sciences Institute 4676 Admiralty Way Marina del Rey, California 90292-6695 Phone: (213) 822-1511 Electronic mail: JKREYNOLDS@ISI.EDU Most of the protocols mentioned here are documented in the RFC series of notes. Some of the items listed are undocumented. Further information on protocols can be found in the memo "Official Internet Protocols" [91]. The more prominent and more generally used are documented in the "DDN Protocol Handbook, Volume Two, DARPA Internet Protocols" [36] prepared by the NIC. Other collections of older or obsolete protocols are contained in the "Internet Protocol Transition Workbook" [57], or in the "ARPANET Protocol Transition Handbook" [38]. For further information on ordering the complete 1985 DDN Protocol Handbook, write: SRI International (SRI-NIC), DDN Network Information Center, Room EJ291, 333 Ravenswood Avenue, Meno Park, CA., 94025; or call: 1-800-235-3155. In the entries below, the name and mailbox of the responsible individual is indicated. The bracketed entry, e.g., [nn,iii], at theReynolds & Postel [Page 1]
RFC 1010 - Assigned Numbers May 1987 right hand margin of the page indicates a reference for the listed protocol, where the number ("nn") cites the document and the letters ("iii") cites the person. Whenever possible, the letters are a NIC Ident as used in the WhoIs (NICNAME) service. The convention in the documentation of Internet Protocols is to express numbers in decimal and to picture data in "big-endian" order [14]. That is, fields are described left to right, with the most significant octet on the left and the least significant octet on the right. The order of transmission of the header and data described in this document is resolved to the octet level. Whenever a diagram shows a group of octets, the order of transmission of those octets is the normal order in which they are read in English. For example, in the following diagram the octets are transmitted in the order they are numbered. 0 1 2 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | 1 | 2 | 3 | 4 | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | 5 | 6 | 7 | 8 | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | 9 | 10 | 11 | 12 | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Transmission Order of Bytes Whenever an octet represents a numeric quantity the left most bit in the diagram is the high order or most significant bit. That is, the bit labeled 0 is the most significant bit. For example, the following diagram represents the value 170 (decimal). 0 1 2 3 4 5 6 7 +-+-+-+-+-+-+-+-+ |1 0 1 0 1 0 1 0| +-+-+-+-+-+-+-+-+ Significance of Bits Similarly, whenever a multi-octet field represents a numeric quantity the left most bit of the whole field is the most significant bit. When a multi-octet quantity is transmitted the most significant octet is transmitted first.Reynolds & Postel [Page 2]
RFC 1010 - Assigned Numbers May 1987Version Numbers VERSION NUMBERS In the Internet Protocol (IP) [36,80] there is a field to identify the version of the internetwork general protocol. This field is 4 bits in size. Assigned Internet Version Numbers Decimal Keyword Version References ------- ------- ------- ---------- 0 Reserved [JBP] 1-3 Unassigned [JBP] 4 IP Internet Protocol [80,JBP] 5 ST ST Datagram Mode [41,JWF] 6-14 Unassigned [JBP] 15 Reserved [JBP]Reynolds & Postel [Page 3]
RFC 1010 - Assigned Numbers May 1987Protocol NumbersPROTOCOL NUMBERS In the Internet Protocol (IP) [36,80] there is a field, called Protocol, to identify the the next level protocol. This is an 8 bit field. Assigned Internet Protocol Numbers Decimal Keyword Protocol References ------- ------- -------- ---------- 0 Reserved [JBP] 1 ICMP Internet Control Message [72,JBP] 2 IGMP Internet Group Management [34,JBP] 3 GGP Gateway-to-Gateway [49,MB] 4 Unassigned [JBP] 5 ST Stream [41,JWF] 6 TCP Transmission Control [81,JBP] 7 UCL UCL [PK] 8 EGP Exterior Gateway Protocol [92,DLM1] 9 IGP any private interior gateway [JBP] 10 BBN-RCC-MON BBN RCC Monitoring [SGC] 11 NVP-II Network Voice Protocol [15,SC3] 12 PUP PUP [7,XEROX] 13 ARGUS ARGUS [RWS4] 14 EMCON EMCON [BN7] 15 XNET Cross Net Debugger [47,JFH2] 16 CHAOS Chaos [NC3] 17 UDP User Datagram [79,JBP] 18 MUX Multiplexing [16,JBP] 19 DCN-MEAS DCN Measurement Subsystems [DLM1] 20 HMP Host Monitoring [48,RH6] 21 PRM Packet Radio Measurement [ZSU] 22 XNS-IDP XEROX NS IDP [102,XEROX] 23 TRUNK-1 Trunk-1 [SA2] 24 TRUNK-2 Trunk-2 [SA2] 25 LEAF-1 Leaf-1 [SA2] 26 LEAF-2 Leaf-2 [SA2] 27 RDP Reliable Data Protocol [106,RH6] 28 IRTP Internet Reliable Transaction [59,TXM] 29 ISO-TP4 ISO Transport Protocol Class 4 [51,RC77] 30 NETBLT Bulk Data Transfer Protocol [13,DDC1] 31 MFE-NSP MFE Network Services Protocol [93,BCH2] 32 MERIT-INP MERIT Internodal Protocol [HWB] 33 SEP Sequential Exchange Protocol [JC120] 34-60 Unassigned [JBP] 61 any host internal protocol [JBP] 62 CFTP CFTP [42,HCF2] 63 any local network [JBP]Reynolds & Postel [Page 4]
RFC 1010 - Assigned Numbers May 1987Protocol Numbers 64 SAT-EXPAK SATNET and Backroom EXPAK [SHB] 65 MIT-SUBNET MIT Subnet Support [NC3] 66 RVD MIT Remote Virtual Disk Protocol [MBG] 67 IPPC Internet Pluribus Packet Core [SHB] 68 any distributed file system [JBP] 69 SAT-MON SATNET Monitoring [SHB] 70 Unassigned [JBP] 71 IPCV Internet Packet Core Utility [SHB] 72-75 Unassigned [JBP] 76 BR-SAT-MON Backroom SATNET Monitoring [SHB] 77 Unassigned [JBP] 78 WB-MON WIDEBAND Monitoring [SHB] 79 WB-EXPAK WIDEBAND EXPAK [SHB] 80-254 Unassigned [JBP] 255 Reserved [JBP]Reynolds & Postel [Page 5]
RFC 1010 - Assigned Numbers May 1987Port Numbers PORT NUMBERS Ports are used in the TCP [36,81] to name the ends of logical connections which carry long term conversations. For the purpose of providing services to unknown callers, a service contact port is defined. This list specifies the port used by the server process as its contact port. The contact port is sometimes called the "well-known port". To the extent possible, these same port assignments are used with the UDP [37,79]. To the extent possible, these same port assignments are used with the ISO-TP4 [52]. The assigned ports use a small portion of the possible port numbers. The assigned ports have all except the low order eight bits cleared to zero. The low order eight bits are specified here. Port Assignments: Decimal Keyword Description References ------- ------- ----------- ---------- 0 Reserved [JBP] 1-4 Unassigned [JBP] 5 RJE Remote Job Entry [9,JBP] 7 ECHO Echo [70,JBP] 9 DISCARD Discard [69,JBP] 11 USERS Active Users [65,JBP] 13 DAYTIME Daytime [68,JBP] 15 Unassigned [JBP] 17 QUOTE Quote of the Day [75,JBP] 19 CHARGEN Character Generator [67,JBP] 20 FTP-DATA File Transfer [Default Data] [71,JBP] 21 FTP File Transfer [Control] [71,JBP] 23 TELNET Telnet [87,JBP] 25 SMTP Simple Mail Transfer [77,JBP] 27 NSW-FE NSW User System FE [17,RHT] 29 MSG-ICP MSG ICP [63,RHT] 31 MSG-AUTH MSG Authentication [63,RHT] 33 DSP Display Support Protocol [MLC] 35 any private printer server [JBP] 37 TIME Time [83,JBP] 39 RLP Resource Location Protocol [MA] 41 GRAPHICS Graphics [98,JBP] 42 NAMESERVER Host Name Server [74,JBP] 43 NICNAME Who Is [46,JAKE] 44 MPM-FLAGS MPM FLAGS Protocol [JBP]Reynolds & Postel [Page 6]
RFC 1010 - Assigned Numbers May 1987Port Numbers 45 MPM Message Processing Module [recv] [73,JBP] 46 MPM-SND MPM [default send] [73,JBP] 47 NI-FTP NI FTP [103,SK8] 49 LOGIN Login Host Protocol [PHD1] 51 LA-MAINT IMP Logical Address Maintenance [58,AGM] 53 DOMAIN Domain Name Server [61,70,PM1] 55 ISI-GL ISI Graphics Language [6,RB9] 57 any private terminal access [JBP] 59 any private file service [JBP] 61 NI-MAIL NI MAIL [4,SK8] 63 VIA-FTP VIA Systems - FTP [DXD] 65 TACACS-DS TACACS-Database Service [3,RHT] 67 BOOTPS Bootstrap Protocol Server [29,WJC2] 68 BOOTPC Bootstrap Protocol Client [29,WJC2] 69 TFTP Trivial File Transfer [95,DDC1] 71 NETRJS-1 Remote Job Service [8,RTB3] 72 NETRJS-2 Remote Job Service [8,RTB3] 73 NETRJS-3 Remote Job Service [8,RTB3] 74 NETRJS-4 Remote Job Service [8,RTB3] 75 any private dial out service [JBP] 77 any private RJE service [JBP] 79 FINGER Finger [44,KLH] 81 HOSTS2-NS HOSTS2 Name Server [EAK1] 83 MIT-ML-DEV MIT ML Device [DPR] 85 MIT-ML-DEV MIT ML Device [DPR] 87 any private terminal link [JBP] 89 SU-MIT-TG SU/MIT Telnet Gateway [MRC] 91 MIT-DOV MIT Dover Spooler [EBM] 93 DCP Device Control Protocol [DT15] 95 SUPDUP SUPDUP [20,MRC] 97 SWIFT-RVF Swift Remote Vitural File Protocol [MXR] 98 TACNEWS TAC News [FRAN] 99 METAGRAM Metagram Relay [GEOF] 101 HOSTNAME NIC Host Name Server [45,JAKE] 102 ISO-TSAP ISO-TSAP [12,MTR] 103 X400 X400 [HCF2] 104 X400-SND X400-SND [HCF2] 105 CSNET-NS Mailbox Name Nameserver [96,MAS3] 107 RTELNET Remote Telnet Service [76,JBP] 109 POP-2 Post Office Protocol - Version 2 [11,JKR1] 111 SUNRPC SUN Remote Procedure Call [DXG] 113 AUTH Authentication Service [99,MCSJ] 115 SFTP Simple File Transfer Protocol [56,MKL1] 117 UUCP-PATH UUCP Path Service [35,MAE] 119 NNTP Network News Transfer Protocol [53,PL4] 121 ERPC HYDRA Expedited Remote Procedure Call[101,JXO] 123 NTP Network Time Protocol [60,DLM1] 125 LOCUS-MAP Locus PC-Interface Net Map Server [105,BXG]Reynolds & Postel [Page 7]
RFC 1010 - Assigned Numbers May 1987Port Numbers 127 LOCUS-CON Locus PC-Interface Conn Server [105,BXG] 129 PWDGEN Password Generator Protocol [107,FJW] 130 CISCO-FNA CISCO FNATIVE [WXB] 131 CISCO-TNA CISCO TNATIVE [WXB] 132 CISCO-SYS CISCO SYSMAINT [WXB] 133 STATSRV Statistics Service [DLM1] 134 INGRES-NET INGRES-NET Service [MXB] 135 LOC-SRV Location Service [JXP] 136 PROFILE PROFILE Naming System [LLP] 137 NETBIOS-NS NETBIOS Name Service [JBP] 138 NETBIOS-DGM NETBIOS Datagram Service [JBP] 139 NETBIOS-SSN NETBIOS Session Service [JBP] 140 EMFIS-DATA EMFIS Data Service [GB7] 141 EMFIS-CNTL EMFIS Control Service [GB7] 142 BL-IDM Britton-Lee IDM [SXS1] 143-159 Unassigned [JBP] 160-223 Reserved [JBP] 224-241 Unassigned [JBP] 243 SUR-MEAS Survey Measurement [5,AV] 245 LINK LINK [10,RDB2] 247-255 Unassigned [JBP]Reynolds & Postel [Page 8]
RFC 1010 - Assigned Numbers May 1987Domain System Parameters DOMAIN SYSTEM PARAMETERS The Internet Domain Naming System (DOMAIN) includes several parameters. These are documented inRFC 883 [61]. The CLASS parameter is listed here. The per CLASS parameters are defined in separate RFCs as indicated. Domain System Parameters: Decimal Name References ------- ---- ---------- 0 Reserved [PM1] 1 Internet [61,PM1] 2 Unassigned [PM1] 3 Chaos [PM1] 4-65534 Unassigned [PM1] 65535 Reserved [PM1]Reynolds & Postel [Page 9]
RFC 1010 - Assigned Numbers May 1987ARPANET Logical Addresses ARPANET LOGICAL ADDRESSES The ARPANET facility for "logical addressing" is described inRFC 878 [57] andRFC 1005 [109]. A portion of the possible logical addresses are reserved for standard uses. There are 49,152 possible logical host addresses. Of these, 256 are reserved for assignment to well-known functions. Assignments for well-known functions are made by Joyce Reynolds. Assignments for other logical host addresses are made by the NIC. Logical Address Assignments: Decimal Description References ------- ----------- ---------- 0 Reserved [JBP] 1 The BBN Core Gateways [MB] 2-254 Unassigned [JBP] 255 Reserved [JBP]Reynolds & Postel [Page 10]
RFC 1010 - Assigned Numbers May 1987ARPANET Link Numbers ARPANET LINK NUMBERS The word "link" here refers to a field in the original ARPANET Host/IMP interface leader. The link was originally defined as an 8-bit field. Later specifications defined this field as the "message-id" with a length of 12 bits. The name link now refers to the high order 8 bits of this 12-bit message-id field. The Host/IMP interface is defined in BBN Report 1822 [2]. The low-order 4 bits of the message-id field are called the sub-link. Unless explicitly specified otherwise for a particular protocol, there is no sender to receiver significance to the sub-link. The sender may use the sub-link in any way he chooses (it is returned in the RFNM by the destination IMP), the receiver should ignore the sub-link. Link Assignments: Decimal Description References ------- ----------- ---------- 0 Reserved [JBP] 1-149 Unassigned [JBP] 150 Xerox NS IDP [102,XEROX] 151 Unassigned [JBP] 152 PARC Universal Protocol [7,XEROX] 153 TIP Status Reporting [JGH] 154 TIP Accounting [JGH] 155 Internet Protocol [regular] [80,JBP] 156-158 Internet Protocol [experimental] [80,JBP] 159 Figleaf Link [JBW1] 160-194 Unassigned [JBP] 195 ISO-IP [52,RXM] 196-247 Experimental Protocols [JBP] 248-255 Network Maintenance [JGH]Reynolds & Postel [Page 11]
RFC 1010 - Assigned Numbers May 1987IEEE 802 SAP Numbers IEEE 802 NUMBERS OF INTEREST Some of the networks of all classes are IEEE 802 Networks. These systems may use a Link Service Access Point (LSAP) field in much the same way the ARPANET uses the "link" field. Further, there is an extension of the LSAP header called the Sub-Network Access Protocol (SNAP). The IEEE likes to describe numbers in binary in bit transmission order, which is the opposite of the big-endian order used throughout the Internet protocol documentation. Assignments: Link Service Access Point Description References -------------------------- ----------- ---------- IEEE Internet binary binary decimal 00000000 00000000 0 Null LSAP [IEEE] 01000000 00000010 2 Indiv LLC Sublayer Mgt [IEEE] 11000000 00000011 3 Group LLC Sublayer Mgt [IEEE] 00100000 00000100 4 SNA Path Control [IEEE] 01100000 00000110 6 DOD IP [79,JBP] 01110000 00001110 14 PROWAY-LAN [IEEE] 01110010 01001110 78 EIA-RS 511 [IEEE] 01110001 10001110 142 PROWAY-LAN [IEEE] 01010101 10101010 170 SNAP [IEEE] 01111111 11111110 254 ISO DIS 8473 [52,JXJ] 11111111 11111111 255 Global DSAP [IEEE] These numbers (and others) are assigned by the IEEE Standards Office. The address is: IEEE Standards Office, 345 East 47th Street, New York, N.Y. 10017, Attn: Vince Condello. Phone: (212) 705-7092. At an ad hoc special session on "IEEE 802 Networks and ARP", held during the TCP Vendors Workshop (August 1986), an approach to a consistent way to send DoD-IP datagrams and other IP related protocols on 802 networks was developed.Reynolds & Postel [Page 12]
RFC 1010 - Assigned Numbers May 1987IEEE 802 SAP Numbers Due to some evolution of the IEEE 802.2 standards and the need to provide for a standard way to do additional DoD-IP related protocols (such as the Address Resolution Protocol (ARP) on IEEE 802 network, the following new policy is established, which will replace the old policy (seeRFC 960 andRFC 948 [108]). The new policy is for the Internet community to use the IEEE 802.2 encapsulation on 802.3, 802.4, and 802.5 networks by using the SNAP with an organization code indicating that the following 16 bits specify the EtherType code (where IP = 2048 (0800 hex), see Ethernet Numbers of Interest). Header ...--------+--------+--------+ MAC Header| Length | 802.{3/4/5} MAC ...--------+--------+--------+ +--------+--------+--------+ | Dsap=K1| Ssap=K1| control| 802.2 SAP +--------+--------+--------+ +--------+--------+---------+--------+--------+ |protocol id or org code =K2| Ether Type | 802.2 SNAP +--------+--------+---------+--------+--------+ The total length of the SAP Header and the SNAP header is 8-octets, making the 802.2 protocol overhead come out on a nice boundary. K1 is 170. The IEEE likes to talk about things in little-endian bit transmission order and specifies this value as 01010101. In big-endian order, as used in Internet specifications, this becomes 10101010 binary, or AA hex, or 170 decimal. K2 is 0 (zero). The use of the IP LSAP (K1 = 6) is to be phased out as quickly as possible.Reynolds & Postel [Page 13]
RFC 1010 - Assigned Numbers May 1987Ethernet Numbers ETHERNET NUMBERS OF INTEREST Many of the networks of all classes are Ethernets (10Mb) or Experimental Ethernets (3Mb). These systems use a message "type" field in much the same way the ARPANET uses the "link" field. If you need an Ethernet type, contact the XEROX Corporation, 2300 Geng Road, Palo Alto, California 94303, ATTN: Ms. Pam Cance. Assignments: Ethernet Exp. Ethernet Description References ------------- ------------- ----------- ---------- decimal Hex decimal octal 512 0200 512 1000 XEROX PUP [7,XEROX] 513 0201 - - PUP Addr. Trans. [XEROX] 1536 0600 1536 3000 XEROX NS IDP [102,XEROX] 2048 0800 513 1001 DOD IP [80,JBP] 2049 0801 - - X.75 Internet [XEROX] 2050 0802 - - NBS Internet [XEROX] 2051 0803 - - ECMA Internet [XEROX] 2052 0804 - - Chaosnet [XEROX] 2053 0805 - - X.25 Level 3 [XEROX] 2054 0806 - - ARP [64,JBP] 2055 0807 - - XNS Compatability [XEROX] 2076 081C - - Symbolics Private [DCP1] 4096 1000 - - Berkeley Trailer [XEROX] 5632 1600 - - Valid [XEROX] 21000 5208 - - BBN Simnet [XEROX] 24577 6001 - - DEC MOP Dump/Load [XEROX] 24578 6002 - - DEC MOP Remote Console [XEROX] 24579 6003 - - DEC DECNET Phase IV [XEROX] 24580 6004 - - DEC LAT [XEROX] 24581 6005 - - DEC [XEROX] 24582 6006 - - DEC [XEROX] 32771 8003 - - Cronus VLN [100,DT15] 32772 8004 - - Cronus Direct [100,DT15] 32773 8005 - - HP Probe [XEROX] 32774 8006 - - Nestar [XEROX] 32784 8010 - - Excelan [XEROX] 32821 8035 - - Reverse ARP [40,JXM] 32824 8038 - - DEC LANBridge [XEROX] 32859 805B - - Stanford V Kernel experimental [XEROX] 32860 805C - - Stanford V Kernel production [XEROX] 32892 807C - - Merit Internodal [HWB] 32923 809B - - Appletalk [XEROX]Reynolds & Postel [Page 14]
RFC 1010 - Assigned Numbers May 1987Ethernet Numbers 36864 9000 - - Loopback [XEROX] The standard for transmission of IP datagrams over Ethernets and Experimental Ethernets is specified inRFC 894 [50] andRFC 895 [66] respectively. NOTE: Ethernet 48-bit address blocks are now assigned by the IEEE. IEEE Standards Office, 345 East 47th Street, New York, N.Y. 10017, Attn: Vince Condello. Phone: (212) 705-7092.Reynolds & Postel [Page 15]
RFC 1010 - Assigned Numbers May 1987Address Resolution Protocol ADDRESS RESOLUTION PROTOCOL PARAMETERS The Address Resolution Protocol (ARP) specified inRFC 826 [64] has several parameters. The assigned values for these parameters are listed here. Assignments: Operation Code (op) 1 REQUEST 2 REPLY Hardware Type (hrd) Type Description References ---- ----------- ---------- 1 Ethernet (10Mb) [JBP] 2 Experimental Ethernet (3Mb) [JBP] 3 Amateur Radio AX.25 [PXK] 4 Proteon ProNET Token Ring [JBP] 5 Chaos [GXP] 6 IEEE 802 Networks [JBP] 7 ARCNET [JBP] Protocol Type (pro) Use the same codes as listed in the section called "Ethernet Numbers of Interest" (all hardware types use this code set for the protocol type).Reynolds & Postel [Page 16]
RFC 1010 - Assigned Numbers May 1987Public Data Network Numbers PUBLIC DATA NETWORK NUMBERS One of the Internet Class A Networks is the international system of Public Data Networks. This section lists the mapping between the Internet Addresses and the Public Data Network Addresses (X.121). The numbers below are assigned for networks that are connected to the Internet, and for independent networks. These independent networks are marked with an asterisk preceding the number. Assignments: * Internet Public Data Net Description References - -------------- ----------------- ----------- ---------- 014.000.000.000 Reserved [JBP] 014.000.000.001 3110-317-00035 00 PURDUE-TN [CAK] 014.000.000.002 3110-608-00027 00 UWISC-TN [CAK] 014.000.000.003 3110-302-00024 00 UDEL-TN [CAK] 014.000.000.004 2342-192-00149 23 UCL-VTEST [PK] 014.000.000.005 2342-192-00300 23 UCL-TG [PK] 014.000.000.006 2342-192-00300 25 UK-SATNET [PK] 014.000.000.007 3110-608-00024 00 UWISC-IBM [MAS3] 014.000.000.008 3110-213-00045 00 RAND-TN [MO2] 014.000.000.009 2342-192-00300 23 UCL-CS [PK] 014.000.000.010 3110-617-00025 00 BBN-VAN-GW [JD21] *014.000.000.011 2405-015-50300 00 CHALMERS [UXB] 014.000.000.012 3110-713-00165 00 RICE [PAM6] 014.000.000.013 3110-415-00261 00 DECWRL [PAM6] 014.000.000.014 3110-408-00051 00 IBM-SJ [SA1] 014.000.000.015 2041-117-01000 00 SHAPE [JFW] 014.000.000.016 2628-153-90075 00 DFVLR4-X25 [GB7] 014.000.000.017 3110-213-00032 00 ISI-VAN-GW [JD21] 014.000.000.018 2624-522-80900 52 DFVLR5-X25 [GB7] 014.000.000.019 2041-170-10000 00 SHAPE-X25 [JFW] 014.000.000.020 5052-737-20000 50 UQNET [AXH] 014.000.000.021 3020-801-00057 50 DMC-CRC1 [JR17] 014.000.000.022 2624-522-80902 77 DFVLRVAX-X25 [GB7] *014.000.000.023 2624-589-00908 01 ECRC-X25 [PXD] 014.000.000.024 2342-905-24242 83 UK-MOD-RSRE [JXE2] 014.000.000.025 2342-905-24242 82 UK-VAN-RSRE [AXM] 014.000.000.026-014.255.255.254 Unassigned [JBP] 014.255.255.255 Reserved [JBP] The standard for transmission of IP datagrams over the Public Data Network is specified inRFC 877 [55].Reynolds & Postel [Page 17]
RFC 1010 - Assigned Numbers May 1987Telnet Options TELNET OPTIONS The Telnet Protocol has a number of options that may be negotiated. These options are listed here. "Official Internet Protocols" [91] provides more detailed information. Options Name References ------- ----------------------- ---------- 0 Binary Transmission [85,JBP] 1 Echo [86,JBP] 2 Reconnection [33,JBP] 3 Suppress Go Ahead [89,JBP] 4 Approx Message Size Negotiation [102,JBP] 5 Status [88,JBP] 6 Timing Mark [90,JBP] 7 Remote Controlled Trans and Echo [82,JBP] 8 Output Line Width [31,JBP] 9 Output Page Size [32,JBP] 10 Output Carriage-Return Disposition [21,JBP] 11 Output Horizontal Tab Stops [25,JBP] 12 Output Horizontal Tab Disposition [24,JBP] 13 Output Formfeed Disposition [22,JBP] 14 Output Vertical Tabstops [27,JBP] 15 Output Vertical Tab Disposition [26,JBP] 16 Output Linefeed Disposition [23,JBP] 17 Extended ASCII [104,JBP] 18 Logout [18,MRC] 19 Byte Macro [28,JBP] 20 Data Entry Terminal [30,JBP] 22 SUPDUP [19,20,MRC] 22 SUPDUP Output [43,MRC] 23 Send Location [54,EAK1] 24 Terminal Type [97,MAS3] 25 End of Record [78,JBP] 26 TACACS User Identification [1,BA4] 27 Output Marking [94,SXS] 28 Terminal Location Number [62,RN6] 255 Extended-Options-List [84,JBP]Reynolds & Postel [Page 18]
RFC 1010 - Assigned Numbers May 1987Machine Names MACHINE NAMES These are the Official Machine Names as they appear in the NIC Host Table. Their use is described inRFC 810 [39]. A machine name or CPU type may be up to 40 characters taken from the set of uppercase letters, digits, and the two punctuation characters hyphen and slash. It must start with a letter, and end with a letter or digit. ALTO AMDAHL-V7 APOLLO ATT-3B20 BBN-C/60 BURROUGHS-B/29 BURROUGHS-B/4800 BUTTERFLY C/30 C/70 CADLINC CADR CDC-170 CDC-170/750 CDC-173 CELERITY-1200 COMTEN-3690 CP8040 CRAY-1 CRAY-X/MP CRAY-2 CTIWS-117 DANDELION DEC-10 DEC-1050 DEC-1077 DEC-1080 DEC-1090 DEC-1090B DEC-1090T DEC-2020T DEC-2040 DEC-2040T DEC-2050T DEC-2060 DEC-2060T DEC-2065 DEC-FALCONReynolds & Postel [Page 19]
RFC 1010 - Assigned Numbers May 1987Machine Names DEC-KS10 DORADO DPS8/70M ELXSI-6400 FOONLY-F2 FOONLY-F3 FOONLY-F4 GOULD GOULD-6050 GOULD-6080 GOULD-9050 GOULD-9080 H-316 H-60/68 H-68 H-68/80 H-89 HONEYWELL-DPS-6 HONEYWELL-DPS-8/70 HP3000 HP3000/64 IBM-158 IBM-360/67 IBM-370/3033 IBM-3081 IBM-3084QX IBM-3101 IBM-4331 IBM-4341 IBM-4361 IBM-4381 IBM-4956 IBM-PC IBM-PC/AT IBM-PC/XT IBM-SERIES/1 IMAGEN IMAGEN-8/300 IMSAI INTEGRATED-SOLUTIONS INTEGRATED-SOLUTIONS-68K INTEGRATED-SOLUTIONS-CREATOR INTEGRATED-SOLUTIONS-CREATOR-8 INTEL-IPSC IS-1 IS-68010 LMI LSI-11Reynolds & Postel [Page 20]
RFC 1010 - Assigned Numbers May 1987Machine Names LSI-11/2 LSI-11/23 LSI-11/73 M68000 MASSCOMP MC500 MC68000 MICROVAX MICROVAX-I MV/8000 NAS3-5 NCR-COMTEN-3690 NOW ONYX-Z8000 PDP-11 PDP-11/3 PDP-11/23 PDP-11/24 PDP-11/34 PDP-11/40 PDP-11/44 PDP-11/45 PDP-11/50 PDP-11/70 PDP-11/73 PE-7/32 PE-3205 PERQ PLEXUS-P/60 PLI PLURIBUS PRIME-2350 PRIME-2450 PRIME-2755 PRIME-9655 PRIME-9755 PRIME-9955II PRIME-2250 PRIME-2655 PRIME-9955 PRIME-9950 PRIME-9650 PRIME-9750 PRIME-2250 PRIME-750 PRIME-850 PRIME-550II PYRAMID-90Reynolds & Postel [Page 21]
RFC 1010 - Assigned Numbers May 1987Machine Names PYRAMID-90MX PYRAMID-90X RIDGE RIDGE-32 RIDGE-32C ROLM-1666 S1-MKIIA SMI SEQUENT-BALANCE-8000 SIEMENS SILICON-GRAPHICS SILICON-GRAPHICS-IRIS SPERRY-DCP/10 SUN SUN-2 SUN-2/50 SUN-2/100 SUN-2/120 SUN-2/140 SUN-2/150 SUN-2/160 SUN-2/170 SUN-3/160 SUN-3/50 SUN-3/75 SUN-3/110 SUN-50 SUN-100 SUN-120 SUN-130 SUN-150 SUN-170 SUN-68000 SYMBOLICS-3600 SYMBOLICS-3670 TANDEM-TXP TEK-6130 TI-EXPLORER TP-4000 TRS-80 UNIVAC-1100 UNIVAC-1100/60 UNIVAC-1100/62 UNIVAC-1100/63 UNIVAC-1100/64 UNIVAC-1100/70 UNIVAC-1160 VAX-11/725Reynolds & Postel [Page 22]
RFC 1010 - Assigned Numbers May 1987Machine Names VAX-11/730 VAX-11/750 VAX-11/780 VAX-11/785 VAX-11/790 VAX-11/8600 VAX-8600 WANG-PC002 WANG-VS100 WANG-VS400 XEROX-1108 XEROX-8010Reynolds & Postel [Page 23]
RFC 1010 - Assigned Numbers May 1987System Names SYSTEM NAMES These are the Official System Names as they appear in the NIC Host Table. Their use is described inRFC 810 [39]. A system name may be up to 40 characters taken from the set of uppercase letters, digits, and the two punctuation characters hyphen and slash. It must start with a letter, and end with a letter or digit. AEGIS APOLLO BS-2000 CEDAR CGW CHRYSALIS CMOS CMS COS CPIX CTOS CTSS DCN DDNOS DOMAIN EDX ELF EMBOS EMMOS EPOS FOONEX FUZZ GCOS GPOS HDOS IMAGEN INTERCOM IMPRESS INTERLISP IOS ITS LISP LISPM LOCUS MINOS MOS MPE5 MSDOSReynolds & Postel [Page 24]
RFC 1010 - Assigned Numbers May 1987System Names MULTICS MVS MVS/SP NEXUS NMS NONSTOP NOS-2 OS/DDP OS4 OS86 OSX PCDOS PERQ/OS PLI PSDOS/MIT PRIMOS RMX/RDOS ROS RSX11M SATOPS SCS SIMP SWIFT TAC TANDEM TENEX TOPS10 TOPS20 TP3010 TRSDOS ULTRIX UNIX UT2D V VM VM/370 VM/CMS VM/SP VMS VMS/EUNICE VRTX WAITS WANG XDE XENIXReynolds & Postel [Page 25]
RFC 1010 - Assigned Numbers May 1987Protocol Names PROTOCOL AND SERVICE NAMES These are the Official Protocol Names. Their use is described in greater detail inRFC 810 [39]. A protocol or service may be up to 40 characters taken from the set of uppercase letters, digits, and the punctuation character hyphen. It must start with a letter, and end with a letter or digit. ARGUS - ARGUS Protocol AUTH - Authentication Service BBN-RCC-MON - BBN RCC Monitoring BL-IDM - Britton Lee Intelligent Database Machine BOOTPC - Bootstrap Protocol Client BOOTPS - Bootstrap Protocol Server BR-SAT-MON - Backroom SATNET Monitoring CFTP - CFTP CHAOS - CHAOS Protocol CHARGEN - Character Generator Protocol CISCO-FNA - CISCO FNATIVE CISCO-TNA - CISCO TNATIVE CISCO-SYS - CISCO SYSMAINT CLOCK - DCNET Time Server Protocol COOKIE-JAR - Cookie Jar Authentication Procedure CSNET-NS - CSNET Mailbox Nameserver Protocol DAYTIME - Daytime Protocol DCN-MEAS - DCN Measurement Subsystems Protocol DCP - Device Control Protocol DISCARD - Discard Protocol DOMAIN - Domain Name Server ECHO - Echo Protocol EGP - Exterior Gateway Protocol EMCON - Emission Control Protocol EMFIS-CNTL - EMFIS Control Service EMFIS-DATA - EMFIS Data Service FINGER - Finger Protocol FTP - File Transfer Protocol FTP-DATA - File Transfer Protocol Data GGP - Gateway Gateway Protocol GRAPHICS - Graphics Protocol HMP - Host Monitoring Protocol HOST2-NS - Host2 Name Server HOSTNAME - Hostname Protocol ICMP - Internet Control Message Protocol IGMP - Internet Group Management Protocol IGP - Interior Gateway Protocol INGRES-NET - INGRES-NET Service IP - Internet ProtocolReynolds & Postel [Page 26]
RFC 1010 - Assigned Numbers May 1987Protocol Names IPCU - Internet Packet Core Utility IPPC - Internet Pluribus Packet Core IRTP - Internet Reliable Transaction Protocol ISI-GL - ISI Graphics Language Protocol ISO-TP4 - ISO Transport Protocol Class 4 ISO-TSAP - ISO TSAP LA-MAINT - IMP Logical Address Maintenance LEAF-1 - Leaf-1 Protocol LEAF-2 - Leaf-2 Protocol LINK - Link Protocol LOC-SRV - Location Service LOGIN - Login Host Protocol MERIT-INP - MERIT Internodal Protocol METAGRAM - Metagram Relay MIT-ML-DEV - MIT ML Device MFE-NSP - MFE Network Services Protocol MIT-SUBNET - MIT Subnet Support MIT-DOV - MIT Dover Spooler MPM - Internet Message Protocol (Multimedia Mail) MPM-FLAGS - MPM Flags Protocol MPM-SND - MPM Send Protocol MSG-AUTH - MSG Authentication Protocol MSG-ICP - MSG ICP Protocol MUX - Multiplexing Protocol NAMESERVER - Host Name Server NETBIOS-DGM - NETBIOS Datagram Service NETBIOS-NS - NETBIOS Name Service NETBIOS-SSN - NETBIOS Session Service NETBLT - Bulk Data Transfer Protocol NETED - Network Standard Text Editor NETRJS - Remote Job Service NI-FTP - NI File Transfer Protocol NI-MAIL - NI Mail Protocol NICNAME - Who Is Protocol NSW-FE - NSW User System Front End NTP - Network Time Protocol NVP-II - Network Voice Protocol POP2 - Post Office Protocol - Version 2 PRM - Packet Radio Measurement PUP - PUP Protocol PWDGEN - Password Generator Protocol QUOTE - Quote of the Day Protocol RDP - Reliable Data Protocol RJE - Remote Job Entry RLP - Resource Location Protocol RTELNET - Remote Telnet Service RVD - Remote Virtual Disk Protocol SAT-EXPAK - Satnet and Backroom EXPAKReynolds & Postel [Page 27]
RFC 1010 - Assigned Numbers May 1987Protocol Names SAT-MON - SATNET Monitoring SEP - Sequential Exchange Protocol SFTP - Simple File Transfer Protocol SMTP - Simple Mail Transfer Protocol ST - Stream Protocol STATSRV - Statistics Service SU-MIT-TG - SU/MIT Telnet Gateway Protocol SUNRPC - SUN Remote Procedure Call SUPDUP - SUPDUP Protocol SUR-MEAS - Survey Measurement SWIFT-RVF - Remote Virtual File Protocol TACACS-DS - TACACS-Database Service TACNEWS - TAC News TCP - Transmission Control Protocol TELNET - Telnet Protocol TFTP - Trivial File Transfer Protocol TIME - Time Server Protocol TRUNK-1 - Trunk-1 Protocol TRUNK-2 - Trunk-2 Protocol UCL - University College London Protocol UDP - User Datagram Protocol NNTP - Network News Transfer Protocol USERS - Active Users Protocol UUCP-PATH - UUCP Path Service VIA-FTP - VIA Systems-File Transfer Protocol WB-EXPAK - Wideband EXPAK WB-MON - Wideband Monitoring XNET - Cross Net Debugger XNS-IDP - Xerox NS IDPReynolds & Postel [Page 28]
RFC 1010 - Assigned Numbers May 1987Terminal Type Names TERMINAL TYPE NAMES These are the Official Terminal Type Names. Their use is described inRFC 930 [97]. The maximum length of a name is 40 characters. A terminal names may be up to 40 characters taken from the set of uppercase letters, digits, and the two punctuation characters hyphen and slash. It must start with a letter, and end with a letter or digit. ADDS-CONSUL-980 ADDS-REGENT-100 ADDS-REGENT-20 ADDS-REGENT-200 ADDS-REGENT-25 ADDS-REGENT-40 ADDS-REGENT-60 AMPEX-DIALOGUE-80 ANDERSON-JACOBSON-630 ANDERSON-JACOBSON-832 ANDERSON-JACOBSON-841 ANN-ARBOR-AMBASSADOR ARDS BITGRAPH BUSSIPLEXER CALCOMP-565 CDC-456 CDI-1030 CDI-1203 CLNZ COMPUCOLOR-II CONCEPT-100 CONCEPT-104 CONCEPT-108 DATA-100 DATA-GENERAL-6053 DATAGRAPHIX-132A DATAMEDIA-1520 DATAMEDIA-1521 DATAMEDIA-2500 DATAMEDIA-3025 DATAMEDIA-3025A DATAMEDIA-3045 DATAMEDIA-3045A DATAMEDIA-DT80/1 DATAPOINT-2200 DATAPOINT-3000 DATAPOINT-3300Reynolds & Postel [Page 29]
RFC 1010 - Assigned Numbers May 1987Terminal Type Names DATAPOINT-3360 DEC-DECWRITER-I DEC-DECWRITER-II DEC-GT40 DEC-GT40A DEC-GT42 DEC-LA120 DEC-LA30 DEC-LA36 DEC-LA38 DEC-VT05 DEC-VT100 DEC-VT132 DEC-VT50 DEC-VT50H DEC-VT52 DELTA-DATA-5000 DELTA-TELTERM-2 DIABLO-1620 DIABLO-1640 DIGILOG-333 DTC-300S EDT-1200 EXECUPORT-4000 EXECUPORT-4080 GENERAL-TERMINAL-100A GSI HAZELTINE-1500 HAZELTINE-1510 HAZELTINE-1520 HAZELTINE-2000 HP-2621 HP-2621A HP-2621P HP-2626 HP-2626A HP-2626P HP-2640 HP-2640A HP-2640B HP-2645 HP-2645A HP-2648 HP-2648A HP-2649 HP-2649A IBM-3101 IBM-3101-10Reynolds & Postel [Page 30]
RFC 1010 - Assigned Numbers May 1987Terminal Type Names IBM-3275-2 IBM-3276-2 IBM-3276-3 IBM-3276-4 IBM-3277-2 IBM-3278-2 IBM-3278-3 IBM-3278-4 IBM-3278-5 IBM-3279-2 IBM-3279-3 IMLAC INFOTON-100 INFOTONKAS ISC-8001 LSI-ADM-3 LSI-ADM-31 LSI-ADM-3A LSI-ADM-42 MEMOREX-1240 MICROBEE MICROTERM-ACT-IV MICROTERM-ACT-V MICROTERM-MIME-1 MICROTERM-MIME-2 NETRONICS NETWORK-VIRTUAL-TERMINAL OMRON-8025AG PERKIN-ELMER-1100 PERKIN-ELMER-1200 PERQ PLASMA-PANEL QUME-SPRINT-5 SOROC SOROC-120 SOUTHWEST-TECHNICAL-PRODUCTS-CT82 SUPERBEE SUPERBEE-III-M TEC TEKTRONIX-4010 TEKTRONIX-4012 TEKTRONIX-4013 TEKTRONIX-4014 TEKTRONIX-4023 TEKTRONIX-4024 TEKTRONIX-4025 TEKTRONIX-4027 TELERAY-1061Reynolds & Postel [Page 31]
RFC 1010 - Assigned Numbers May 1987Terminal Type Names TELERAY-3700 TELERAY-3800 TELETEC-DATASCREEN TELETERM-1030 TELETYPE-33 TELETYPE-35 TELETYPE-37 TELETYPE-38 TELETYPE-43 TELEVIDEO-912 TELEVIDEO-920 TELEVIDEO-920B TELEVIDEO-920C TELEVIDEO-950 TERMINET-1200 TERMINET-300 TI-700 TI-733 TI-735 TI-743 TI-745 TYCOM UNIVAC-DCT-500 VIDEO-SYSTEMS-1200 VIDEO-SYSTEMS-5000 VISUAL-200 XEROX-1720 ZENITH-H19 ZENTEC-30Reynolds & Postel [Page 32]
RFC 1010 - Assigned Numbers May 1987Documents DOCUMENTS [1] Anderson, B., "TACACS User Identification Telnet Option",RFC 927, BBN, December 1984. [2] BBN, "Specifications for the Interconnection of a Host and an IMP", Report 1822, Bolt Beranek and Newman, Cambridge, Massachusetts, revised, December 1981. [3] BBN, "User Manual for TAC User Database Tool", Bolt Beranek and Newman, September 1984. [4] Bennett, C., "A Simple NIFTP-Based Mail System", IEN 169, University College, London, January 1981. [5] Bhushan, A., "A Report on the Survey Project",RFC 530, NIC 17375, June 1973. [6] Bisbey, R., D. Hollingworth, and B. Britt, "Graphics Language (version 2.1)", ISI/TM-80-18, Information Sciences Institute, July 1980. [7] Boggs, D., J. Shoch, E. Taft, and R. Metcalfe, "PUP: An Internetwork Architecture", XEROX Palo Alto Research Center, CSL-79-10, July 1979; also in IEEE Transactions on Communication, Volume COM-28, Number 4, April 1980. [8] Braden, R., "NETRJS Protocol",RFC 740, NIC 42423, November 1977. [9] Bressler, B., "Remote Job Entry Protocol",RFC 407, NIC 12112, October 1972. [10] Bressler, R., "Inter-Entity Communication -- An Experiment",RFC 441, NIC 13773, January 1973. [11] Butler, M., J. Postel, D. Chase, J. Goldberger, and J. K. Reynolds, "Post Office Protocol - Version 2",RFC 937, Information Sciences Institute, February 1985. [12] Cass, D. E., and M. T. Rose, "ISO Transport Services on Top of the TCP",RFC 983, NTRC, April 1986. [13] Clark, D., M. Lambert, and L. Zhang, "NETBLT: A Bulk Data Transfer Protocol",RFC 969, MIT Laboratory for Computer Science, December 1985.Reynolds & Postel [Page 33]
RFC 1010 - Assigned Numbers May 1987Documents [14] Cohen, D., "On Holy Wars and a Plea for Peace", IEEE Computer Magazine, October 1981. [15] Cohen, D., "Specifications for the Network Voice Protocol",RFC 741, ISI/RR 7539, Information Sciences Institute, March 1976. [16] Cohen, D. and J. Postel, "Multiplexing Protocol", IEN 90, Information Sciences Institute, May 1979. [17] COMPASS, "Semi-Annual Technical Report", CADD-7603-0411, Massachusetts Computer Associates, 4 March 1976. Also as, "National Software Works, Status Report No. 1," RADC-TR-76-276, Volume 1, September 1976. And COMPASS. "Second Semi-Annual Report," CADD-7608-1611, Massachusetts Computer Associates, August 1976. [18] Crispin, M., "Telnet Logout Option", Stanford University-AI,RFC 727, April 1977. [19] Crispin, M., "Telnet SUPDUP Option", Stanford University-AI,RFC 736, October 1977. [20] Crispin, M., "SUPDUP Protocol",RFC 734, NIC 41953, October 1977. [21] Crocker, D., "Telnet Output Carriage-Return Disposition Option",RFC 652, October 1974. [22] Crocker, D., "Telnet Output Formfeed Disposition Option",RFC 655, October 1974. [23] Crocker, D., "Telnet Output Linefeed Disposition",RFC 658, October 1974. [24] Crocker, D., "Telnet Output Horizontal Tab Disposition Option",RFC 654, October 1974. [25] Crocker, D., "Telnet Output Horizontal Tabstops Option",RFC 653, October 1974. [26] Crocker, D., "Telnet Output Vertical Tab Disposition Option",RFC 657, October 1974. [27] Crocker, D., "Telnet Output Vertical Tabstops Option",RFC 656, October 1974.Reynolds & Postel [Page 34]
RFC 1010 - Assigned Numbers May 1987Documents [28] Crocker, D. H. and R. H. Gumpertz, "Revised Telnet Byte Marco Option",RFC 735, November 1977. [29] Croft, B., and J. Gilmore, "BOOTSTRAP Protocol (BOOTP)",RFC 951, Stanford and SUN Microsytems, September 1985. [30] Day, J., "Telnet Data Entry Terminal Option",RFC 732, September 1977. [31] DDN Protocol Handbook, "Telnet Output Line Width Option", NIC 50005, December 1985. [32] DDN Protocol Handbook, "Telnet Output Page Size Option", NIC 50005, December 1985. [33] DDN Protocol Handbook, "Telnet Reconnection Option", NIC 50005, December 1985. [34] Deering, S. E., "Host Extensions for IP Multicasting",RFC 988, Stanford University, December 1985. [35] Elvy, M., and R. Nedved, "Network Mail Path Service",RFC 915, Harvard and CMU, July 1986. [36] Feinler, E., editor, "DDN Protocol Handbook", Network Information Center, SRI International, December 1985. [37] Feinler, E., editor, "Internet Protocol Transition Workbook", Network Information Center, SRI International, March 1982. [38] Feinler, E. and J. Postel, eds., "ARPANET Protocol Handbook", NIC 7104, for the Defense Communications Agency by SRI International, Menlo Park, California, Revised January 1978. [39] Feinler, E., K. Harrenstien, Z. Su, and V. White, "DoD Internet Host Table Specification",RFC 810, SRI International, March 1982. [40] Finlayson, R., T. Mann, J. Mogul, and M. Theimer, "A Reverse Address Resolution Protocol",RFC 903, Stanford University, June 1984. [41] Forgie, J., "ST - A Proposed Internet Stream Protocol", IEN 119, MIT Lincoln Laboratory, September 1979. [42] Forsdick, H., "CFTP", Network Message, Bolt Beranek and Newman, January 1982.Reynolds & Postel [Page 35]
RFC 1010 - Assigned Numbers May 1987Documents [43] Greenberg, B., "Telnet SUPDUP-OUTPUT Option",RFC 749, MIT-Multics, September 1978. [44] Harrenstien, K., "Name/Finger",RFC 742, NIC 42758, SRI International, December 1977. [45] Harrenstien, K., V. White, and E. Feinler, "Hostnames Server",RFC 811, SRI International, March 1982. [46] Harrenstien, K., and V. White, "Nicname/Whois",RFC 812, SRI International, March 1982. [47] Haverty, J., "XNET Formats for Internet Protocol Version 4", IEN 158, October 1980. [48] Hinden, R. M., "A Host Monitoring Protocol",RFC 869, Bolt Beranek and Newman, December 1983. [49] Hinden, R., and A. Sheltzer, "The DARPA Internet Gateway",RFC 823, September 1982. [50] Hornig, C., "A Standard for the Transmission of IP Datagrams over Ethernet Networks,RFC 894, Symbolics, April 1984. [51] International Standards Organization, "ISO Transport Protocol Specification - ISO DP 8073",RFC 905, April 1984. [52] International Standards Organization, "Protocol for Providing the Connectionless-Mode Network Services",RFC 926, ISO, December 1984. [53] Kantor, B., and P. Lapsley, "Network News Transfer Protocol",RFC 977, UC San Diego & UC Berkeley, February 1986. [54] Killian, E., "Telnet Send-Location Option",RFC 779, April 1981. [55] Korb, J. T., "A Standard for the Transmission of IP Datagrams Over Public Data Networks",RFC 877, Purdue University, September 1983. [56] Lottor, M. K., "Simple File Transfer Protocol",RFC 913, MIT, September 1984. [57] Malis, A., "Logical Addressing Implementation Specification", BBN Report 5256, pp 31-36, May 1983.Reynolds & Postel [Page 36]
RFC 1010 - Assigned Numbers May 1987Documents [58] Metcalfe, R. M. and D. R. Boggs, "Ethernet: Distributed Packet Switching for Local Computer Networks", Communications of the ACM, 19 (7), pp 395-402, July 1976. [59] Miller, T., "Internet Reliable Transaction Protocol",RFC 938, ACC, February 1985. [60] Mills, D., "Network Time Protocol",RFC 958, M/A-COM Linkabit, September 1985. [61] Mockapetris, P., "Domain Names - Implementation and Specification",RFC 883, Information Sciences Institute, November 1983. [62] Nedved, R., "Telnet Terminal Location Number Option",RFC 946, Carnegie-Mellon University, May 1985. [63] NSW Protocol Committee, "MSG: The Interprocess Communication Facility for the National Software Works", CADD-7612-2411, Massachusetts Computer Associates, BBN 3237, Bolt Beranek and Newman, Revised December 1976. [64] Plummer, D., "An Ethernet Address Resolution Protocol or Converting Network Protocol Addresses to 48-bit Ethernet Addresses for Transmission on Ethernet Hardware",RFC 826, MIT-LCS, November 1982. [65] Postel, J., "Active Users",RFC 866, Information Sciences Institute, May 1983. [66] Postel, J., "A Standard for the Transmission of IP Datagrams over Experimental Ethernet Networks,RFC 895, Information Sciences Institute, April 1984. [67] Postel, J., "Character Generator Protocol",RFC 864, Information Sciences Institute, May 1983. [68] Postel, J., "Daytime Protocol",RFC 867, Information Sciences Institute, May 1983. [69] Postel, J., "Discard Protocol",RFC 863, Information Sciences Institute, May 1983. [70] Postel, J., "Echo Protocol",RFC 862, Information Sciences Institute, May 1983. [71] Postel, J. and J. Reynolds, "File Transfer Protocol",RFC 959, Information Sciences Institute, October 1985.Reynolds & Postel [Page 37]
RFC 1010 - Assigned Numbers May 1987Documents [72] Postel, J., "Internet Control Message Protocol - DARPA Internet Program Protocol Specification",RFC 792, Information Sciences Institute, September 1981. [73] Postel, J., "Internet Message Protocol",RFC 759, IEN 113, Information Sciences Institute, August 1980. [74] Postel, J., "Name Server", IEN 116, Information Sciences Institute, August 1979. [75] Postel, J., "Quote of the Day Protocol",RFC 865, Information Sciences Institute, May 1983. [76] Postel, J., "Remote Telnet Service",RFC 818, Information Sciences Institute, November 1982. [77] Postel, J., "Simple Mail Transfer Protocol",RFC 821, Information Sciences Institute, August 1982. [78] Postel, J., "Telnet End of Record Option",RFC 885, Information Sciences Institute, December 1983. [79] Postel, J., "User Datagram Protocol",RFC 768 Information Sciences Institute, August 1980. [80] Postel, J., ed., "Internet Protocol - DARPA Internet Program Protocol Specification",RFC 791, Information Sciences Institute, September 1981. [81] Postel, J., ed., "Transmission Control Protocol - DARPA Internet Program Protocol Specification",RFC 793, Information Sciences Institute, September 1981. [82] Postel, J. and D. Crocker, "Remote Controlled Transmission and Echoing Telnet Option",RFC 726, March 1977. [83] Postel, J., and K. Harrenstien, "Time Protocol",RFC 868, Information Sciences Institute, May 1983. [84] Postel, J. and J. Reynolds, "Telnet Extended Options - List Option",RFC 861, Information Sciences Institute, May 1983. [85] Postel, J. and J. Reynolds, "Telnet Binary Transmission",RFC 856, Information Sciences Institute, May 1983. [86] Postel, J. and J. Reynolds, "Telnet Echo Option",RFC 857, Information Sciences Institute, May 1983.Reynolds & Postel [Page 38]
RFC 1010 - Assigned Numbers May 1987Documents [87] Postel, J., and J. Reynolds, "Telnet Protocol Specification",RFC 854, Information Sciences Institute, May 1983. [88] Postel, J. and J. Reynolds, "Telnet Status Option",RFC 859, Information Sciences Institute, May 1983. [89] Postel, J. and J. Reynolds, "Telnet Suppress Go Ahead Option",RFC 858, Information Sciences Institute, May 1983. [90] Postel, J. and J. Reynolds, "Telnet Timing Mark Option",RFC 860, Information Sciences Institute, May 1983. [91] Reynolds, J. and J. Postel, "Official Internet Protocols",RFC 1011, Information Sciences Institute, May 1987. [92] Seamonson, L. J., and E. C. Rosen, "STUB" Exterior Gateway Protocol",RFC 888, BBN Communications Corporation, January 1984. [93] Shuttleworth, B., "A Documentary of MFENet, a National Computer Network", UCRL-52317, Lawrence Livermore Labs, Livermore, California, June 1977. [94] Silverman, S., "Output Marking Telnet Option",RFC 933, MITRE, January 1985. [95] Sollins, K., "The TFTP Protocol (Revision 2)",RFC 783, MIT/LCS, June 1981. [96] Solomon, M., L. Landweber, and D. Neuhengen, "The CSNET Name Server", Computer Networks, v.6, n.3, pp. 161-172, July 1982. [97] Solomon, M., and E. Wimmers, "Telnet Terminal Type Option",RFC 930, SupercedesRFC 884, University of Wisconsin, Madison, January 1985. [98] Sproull, R., and E. Thomas, "A Networks Graphics Protocol", NIC 24308, August 1974. [99] StJohns, M., "Authentication Service",RFC 931, TPSC, January 1985. [100] Tappan, D. C., "The CRONUS Virtual Local Network",RFC 824, Bolt Beranek and Newman, August 1982. [101] Taylor, J., "ERPC Functional Specification", Version 1.04, HYDRA Computer Systems, Inc., July 1984.Reynolds & Postel [Page 39]
RFC 1010 - Assigned Numbers May 1987Documents [102] "The Ethernet, A Local Area Network: Data Link Layer and Physical Layer Specification", AA-K759B-TK, Digital Equipment Corporation, Maynard, MA. Also as: "The Ethernet - A Local Area Network", Version 1.0, Digital Equipment Corporation, Intel Corporation, Xerox Corporation, September 1980. And: "The Ethernet, A Local Area Network: Data Link Layer and Physical Layer Specifications", Digital, Intel and Xerox, November 1982. And: XEROX, "The Ethernet, A Local Area Network: Data Link Layer and Physical Layer Specification", X3T51/80-50, Xerox Corporation, Stamford, CT., October 1980. [103] The High Level Protocol Group, "A Network Independent File Transfer Protocol", INWG Protocol Note 86, December 1977. [104] Tovar, "Telnet Extended ASCII Option",RFC 698, Stanford University-AI, July 1975. [105] Uttal, J, J. Rothschild, and C. Kline, "Transparent Integration of UNIX and MS-DOS", Locus Computing Corporation. [106] Velten, D., R. Hinden, and J. Sax, "Reliable Data Protocol",RFC 908, BBN Communications Corporation, July 1984. [107] Wancho, F., "Password Generator Protocol",RFC 972, WSMR, January 1986. [108] Winston, I., "Two Methods for the Transmission of IP Datagrams Over IEEE 802.3 Networks",RFC 948, University Of Pennsylvania, June 1985. [109] Khanna, A., and A. Malis, "The ARPANET AHIP-E Host Access Protocol (Enhanced AHIP)",RFC 1005, BBN Communications Corporation, May 1987.Reynolds & Postel [Page 40]
RFC 1010 - Assigned Numbers May 1987People PEOPLE [AGM] Andy Malis BBN Malis@CCS.BBN.COM [AV] Al Vezza MIT AV@XX.LCS.MIT.EDU [AXH] Arthur Hartwig UQNET ---none--- [BA4] Brian Anderson BBN baanders@CCQ.BBN.COM [BCH2] Barry Howard LLL Howard@LLL-MFE.ARPA [BN4] Bill Nowicki SUN Nowicki@SUN.COM [CAK] Chris Kent PURDUE CAK@PURDUE.EDU [DCP1] David Plummer MIT DCP@SYMBOLICS.ARPA [DDC1] David Clark MIT DClark@MIT-MULTICS.ARPA [DLM1] David Mills LINKABIT Mills@D.ISI.EDU [DPR] David Reed MIT-LCS Reed@MIT-MULTICS.ARPA [DT15] Daniel Tappan BBN Tappan@BBN.COM [DXD] Dennis J.W. Dube VIA SYSTEMS ---none--- [DXG] David Goldberg SMI sun!dg@UCBARPA.BERKELEY.EDU [EAK1] Earl Killian LLL EAK@S1-C.ARPA [EBM] Eliot Moss MIT EBM@XX.LCS.MIT.EDU [FJW] Frank J. Wancho WSMR WANCHO@SIMTEL20.ARPA [FRAN] Francine Perillo SRI Perillo@NIC.SRI.COM [GB7] Gerd Beling DFVLR GBELING@ISI.EDU [GEOF] Geoff Goodfellow SRI Geoff@SRI-CSL.ARPA [GXP] Gill Pratt MIT gill%mit-ccc@MC.LCS.MIT.EDU [HCF2] Harry Forsdick BBN Forsdick@A.BBN.COM [HWB] Hans-Werner Braun MICHIGAN HWB@MCR.UMICH.EDUReynolds & Postel [Page 41]
RFC 1010 - Assigned Numbers May 1987People [IEEE] Vince Condello IEEE ---none--- [JAKE] Jake Feinler SRI Feinler@SRI-NIC.ARPA [JBP] Jon Postel ISI Postel@ISI.EDU [JBW1] Joseph Walters, Jr. BBN JWalters@CCX.BBN.COM [JD21] Jonathan Dreyer BBN JDreyer@CCV.BBN.COM [JFH2] Jack Haverty BBN Haverty@CCV.BBN.COM [JFW] Jon F. Wilkes STC Wilkes@STC.ARPA [JGH] Jim Herman BBN Herman@CCJ.BBN.COM [JR17] John L. Robinson CANADA Robinson@DMC-CRC.ARPA [JWF] Jim Forgie LL jwf@LL-EN.ARPA [JXE2] Jeanne Evans UKMOD JME%RSRE.MOD.UK@CS.UCL.AC.UK [JXM] Jeff Mogul Stanford ---none--- [JXO] Jack O'Neil ENCORE ---none--- [JXP] Joe Pato Apollo apollo!pato@EDDIE.MIT.EDU [KLH] Ken Harrenstien SRI KLH@NIC.SRI.COM [LLP] Larry Peterson PURDUE llp@PURDUE.EDU [MA] Mike Accetta CMU MIKE.ACCETTA@CMU-CS-A.EDU [MAE] Marc A. Elvy HARVARD elvy@HARVARD.EDU [MAS3] Marc Solomon MDAC solomon@OFFICE-1.ARPA [MB] Michael Brescia BBN Brescia@CCV.BBN.COM [MBG] Michael Greenwald MIT-LCS Greenwald@MIT-MULTICS.ARPA [MCSJ] Mike StJohns TPSC StJohns@MIT-MULTICS.ARPA [MKL1] Mark Lottor MIT MKL@NIC.SRI.COM [MLC] Mike Corrigan DDN Corrigan@DDN1.ARPAReynolds & Postel [Page 42]
RFC 1010 - Assigned Numbers May 1987People [MO2] Michael O'Brien RAND OBrien@RAND-UNIX.ARPA [MRC] Mark Crispin STANFORD Admin.MRC@SU-SCORE.STANFORD.EDU [MTR] Marshall Rose NRTC MRose@NRTC.ARPA [MXB] Mike Berrow Relational Technology ---none--- [MXR] Mark A. Rosenstein MIT mark@BORAX.LCS.MIT.EDU [NC3] J. Noel Chiappa MIT JNC@XX.LCS.MIT.EDU [PAM6] Paul McNabb RICE pam@PURDUE.EDU [PHD1] Pieter Ditmars BBN pditmars@CCX.BBN.COM [PK] Peter Kirstein UCL Kirstein@ISI.EDU [PL4] Phil Lapsley BERKELEY phil@UCBARPA.BERKELEY.EDU [PM1] Paul Mockapetris ISI Mockapetris@ISI.EDU [PXD] Pete Delaney ECRC pete%ecrcvax@CSNET-RELAY.ARPA [RDB2] Robert Bressler BBN Bressler@CCW.BBN.COM [RH6] Robert Hinden BBN Hinden@CCV.BBN.COM [RHT] Robert Thomas BBN BThomas@F.BBN.COM [RN6] Rudy Nedved CMU Rudy.Nedved@CMU-CS-A.EDU [RTB3] Bob Braden ISI Braden@ISI.EDU [RWS4] Robert W. Scheifler ARGUS RWS@XX.LCS.MIT.EDU [RXM] Robert Myhill BBN Myhill@CCS.BBN.COM [SA1] Sten Andler ARPA andler.ibm-sj@RAND-RELAY.ARPA [SA2] Saul Amarel ARPA Amarel@ISI.EDU [SC3] Steve Casner ISI Casner@ISI.EDU [SGC] Steve Chipman BBN Chipman@F.BBN.COM [SHB] Steven Blumenthal BBN BLUMENTHAL@VAX.BBN.COMReynolds & Postel [Page 43]
RFC 1010 - Assigned Numbers May 1987People [SXS] Steve Silverman MITRE Blankert@MITRE-GATEWAY.ORG [SXS1] Susie Snitzer Britton-Lee ---none--- [TXM] Trudy Miller ACC Trudy@ACC.ARPA [UXB] Ulf Bilting CHALMERS bilting@PURDUE.EDU [WJC2] Bill Croft STANFORD Croft@SUMEX-AIM.ARPA [WXB] William L. Biagi CISCO ---none--- [XEROX] Pam Cance XEROX Cance.OSBUnorth@XEROX.COM [ZSU] Zaw-Sing Su SRI ZSu@SRI-TSC.ARPAReynolds & Postel [Page 44]
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