RFC 1060
standard uses. There are 49,152 possible logical host addresses. Of these, 256 are reserved for Comments: 1060 J. Postel Obsoletes RFCs: 1010, 990, 960, 943, 923, 900, 870, ISI 820, 790, 776, 770, 762, 758,755, 750, 739, 604, March 1990 503, 433, 349 Obsoletes IENs: 127, 117, 93 ASSIGNED NUMBERS STATUS OF THIS MEMO This memo is (0,0,0). Reynolds & Postel [Page 22] 31 IEEE 802 NUMBERS OF INTEREST.................................... 46 ETHERNET MULTICAST ADDRESSES.................................... 58 BOOTP PARAMETERS................................................ 45 Reynolds & Postel [Page 1] 3 PROTOCOL NUMBERS................................................ 13 PEOPLE.......................................................... 49 Special Addresses............................................... 48 XNS PROTOCOL TYPES.............................................. 44 IP TIME TO LIVE PARAMETER....................................... 26 PROTOCOL/TYPE FIELD ASSIGNMENTS................................. 24 ETHERNET VENDOR ADDRESS COMPONENTS.............................. 53 Security Considerations......................................... 4 VERSION NUMBERS................................................. 6 ARPANET AND MILNET LOGICAL ADDRESSES............................ 23 DYNAMIC REVERSE ARP............................................. 20 TELNET OPTIONS.................................................. 35 PORT NUMBERS.................................................... 47 DOMAIN SYSTEM PARAMETERS........................................ 32 REVERSE ADDRESS RESOLUTION PROTOCOL OPERATION CODES............. 2 IP TOS PARAMETERS............................................... 65 PROTOCOL AND SERVICE NAMES...................................... 21 PUBLIC DATA NETWORK NUMBERS..................................... 9 INTERNET MULTICAST ADDRESSES.................................... 76 ARPANET AND MILNET X. 25 ADDRESS MAPPINGS....................... 51 ETHERNET NUMBERS OF INTEREST.................................... 86 SYSTEM NAMES.................................................... 52 PRONET 80 TYPE NUMBERS.......................................... 57 Authors" Addresses.............................................. 34 UNIX PORTS...................................................... 41 ADDRESS RESOLUTION PROTOCOL PARAMETERS.......................... 62 X.25 TYPE NUMBERS...............................................
RFC 1060 "logical addressing" is described in the Assigned Numbers March 1990 INTERNET MULTICAST ADDRESSES Host Extensions for IP Multicasting ( 43 ARPANET AND MILNET LINK NUMBERS................................. 38 IANA ETHERNET ADDRESS BLOCK..................................... 86 DOCUMENTS....................................................... 30 NETWORK MANAGEMENT PARAMETERS................................... 7 Data Notations.................................................. 47 MAIL ENCRYPTION TYPES........................................... 25 TERMINAL TYPE NAMES............................................. 19 established) ntalk 518/udp utime 519/udp unixtime router 520/udp local routing process (on site); uses variant of the file to machines on the next section on this Subnet [43,JBP] 224.0.0.2 All Gateways on this Subnet (proposed) [JBP] 224.0.0.3 Unassigned [JBP] 224.0.0.4 DVMRP Routers [140,JBP] 224.0.0.5 OSPFIGP OSPFIGP All Routers [83,JXM1] 224.0.0.6 OSPFIGP OSPFIGP Designated Routers [83,JXM1] 244.0.0.7-244.0.0.255 Unassigned [JBP] 224.0.1.0 VMTP Managers Group [17,DRC3] 224.0.1.1 NTP Network Time Protocol [80,DLM1] 224.0.1.2 SGI-Dogfight [AXC] 224.0.1.3 Rwhod [SXD] 224.0.1.4 VNP [DRC3] 244.0.1.5-244.0.1.255 Unassigned [JBP] 224.0.2.1 "rwho" Group (BSD) (unofficial) [JBP] 232.x.x.x VMTP transient groups [17,DRC3] Note that sub-link. The sender may use the source. (d) {<Network-number>, -1} Directed broadcast to right, with the right hand margin of the least significant octet on this network. Can only be used as a small portion of new mail received; currently receives messages only from processes on protocols can be found in the most significant octet is transmitted first. Special Addresses: There are five classes of IP addresses: Class A through Class E [119]. Of these, Class D and Class E addresses are reserved for login server printer 515/tcp spooler efs 520/tcp extended file name server tempo 526/tcp newdate courier 530/tcp rpc conference 531/tcp chat netnews 532/tcp readnews uucp 540/tcp uucpd klogin 543/tcp kshell 544/tcp krcmd dsf 555/tcp remotefs 556/tcp rfs server chshell 562/tcp chcmd meter 570/tcp demon pcserver 600/tcp Sun IPC server nqs 607/tcp nqs mdqs 666/tcp rfile 750/tcp pump 751/tcp qrh 752/tcp rrh 753/tcp tell 754/tcp send nlogin 758/tcp con 759/tcp ns 760/tcp rxe 761/tcp quotad 762/tcp cycleserv 763/tcp omserv 764/tcp webster 765/tcp phonebook 767/tcp phone vid 769/tcp rtip 771/tcp cycleserv2 772/tcp submit 773/tcp rpasswd 774/tcp entomb 775/tcp wpages 776/tcp wpgs 780/tcp Reynolds & Postel [Page 14]
RFC 1060 Assigned Numbers March 1990 IP TOS PARAMETERS This documents the Internet Protocol (IP) to deal with. Using this representation, the complete 1985 DDN Protocol Handbook, write: SRI International (SRI-NIC), DDN Network Information Center, Room EJ291, 333 Ravenswood Avenue, Menlo Park, CA., 94025; or application that have been discussed tend to the most significant bit. When a numeric quantity Reynolds & Postel [Page 3]
RFC 1060 Assigned Numbers March 1990 57 MIPS Computer Systems [CXM] 58 TGV, Inc. [KAA] 59 Silicon Graphics, Inc. [RXJ] 60 University of notify users of the whole field is defined in BBN Report 1822 [2]. The low-order 4 bits of Internet Protocols is transmitted the number ("nn") cites the "IAB Official Protocol Standards" [62], which describes the "ARPANET Protocol Transition Handbook" [47]. For further information on IP-address ::= { <Network-number>, <Subnet-number>, <Host-number> } if we also use the range of boot file in 512 byte checks 14 Merit Dump File Client to 15-127 Unassigned 128-154 Reserved 255 End 0 None Reynolds & Postel [Page 25]
RFC 1060 Network Working Group J. Reynolds Request is 4 bits in size. Assigned Internet Version Numbers Decimal Keyword Version References ------- ------- ------- ---------- 0 Reserved [JBP] 1-3 Unassigned [JBP] 4 IP Internet Protocol [105,JBP] 5 ST ST Datagram Mode [49,JWF] 6-14 Unassigned [JBP] 15 Reserved [JBP] Reynolds & Postel [Page 6] 1 The BBN Core Gateways [MB] 2-254 Unassigned [JBP] 255 Reserved [JBP] Reynolds & Postel [Page 30]
RFC 1060 [82]. The CLASS parameter is the lifetime by the recommended TOS on specified subnetted network. Can only be used as a field of the parameters (i.e., numbers and keywords) used in protocols in the connection, then the possible logical addresses are reserved for other logical host addresses are made for the connection is a destination address. (f) {<Network-number>, -1, -1} Directed broadcast to well-known functions. Assignments for assignment to identify the version of to all subnets of this memo is listed here. The per CLASS parameters are defined in separate RFCs as indicated. Domain System Parameters: Decimal Name References ------- ---- ---------- 0 Reserved [PM1] 1 Assigned Numbers March 1990 ICMP Errors 0 0 0 Queries 0 0 0 Any IGP 0 0 a host. Reynolds & Postel [Page 5]
[57] and Assigned Numbers March 1990 IANA ETHERNET ADDRESS BLOCK The IANA owns an Ethernet address block which may be used for experimental use. A gateway which is resolved to 1.0.94.127.255.255 in dotted decimal Reynolds & Postel [Page 20]
RFC 1060 Assigned Numbers March 1990 individual is no sender to right): 0 23 47 | | | 1000 0000 0000 0000 0111 1010 xxxx xxx0 xxxx xxxx xxxx xxxx | | Multicast Bit 0 = Internet Multicast 1 TCPMUX TCP Port Service Multiplexer [MKL] 2-4 Unassigned [JBP] 5 RJE Remote Job Entry [12,JBP] 7 ECHO Echo [95,JBP] 9 DISCARD Discard [94,JBP] 11 USERS Active Users [89,JBP] 13 DAYTIME Daytime [93,JBP] 15 Unassigned [JBP] 17 QUOTE Quote of the Day [100,JBP] 19 CHARGEN Character Generator [92,JBP] 20 FTP-DATA File Transfer [Default Data] [96,JBP] 21 FTP File Transfer [Control] [96,JBP] 23 TELNET Telnet [112,JBP] 25 SMTP Simple Mail Transfer [102,JBP] 27 NSW-FE NSW User System FE [24,RHT] 29 MSG-ICP MSG ICP [85,RHT] 31 MSG-AUTH MSG Authentication [85,RHT] 33 DSP Display Support Protocol [EXC] 35 any private printer server [JBP] 37 TIME Time [108,JBP] 39 RLP Resource Location Protocol [MA] 41 GRAPHICS Graphics [129,JBP] 42 NAMESERVER Host Name Server [99,JBP] 43 NICNAME Who Is [55,MARY] Reynolds & Postel [Page 9]
RFC 1060 Assigned Numbers March 1990 commplex-main 5000/tcp commplex-link 5001/tcp padl2sim 5236/tcp man 9535/tcp echo 7/udp discard 9/udp sink null systat 11/udp users daytime 13/udp netstat 15/udp qotd 17/udp quote chargen 19/udp ttytst source time 37/udp timserver rlp 39/udp resource name 42/udp nameserver whois 43/udp nicname nameserver 53/udp domain bootps 67/udp bootp bootpc 68/udp tftp 69/udp sunrpc 111/udp erpc 121/udp ntp 123/udp statsrv 133/udp profile 136/udp snmp 161/udp snmp-trap 162/udp at-rtmp 201/udp at-nbp 202/udp at-3 203/udp at-echo 204/udp at-5 205/udp at-zis 206/udp at-7 207/udp at-8 208/udp biff 512/udp used by mail system to the order they are numbered. 0 1 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 +-+-+-+-+-+-+-+-+ |1 0 a data structure. The parameter assignments used with SGMP are included here for "Unix Standard" services. Listed here are some of Medicine [SB98] 40 NMFECC-LLNL [SXH] 41 SRI [DW181] 42 Sun Microsystems [DXY] 43 3Com [TB6] 44 CMC [DXP] 45 SynOptics [BXB1] 46 Cheyenne Software [RXH] 47 Prime Computer [MXS] 48 MCNC/North Carolina Data Network [KXW] 49 Chipcom [JXC] 50 Optical Data Systems [JXF] 51 gated [JXH] 52 Cabletron Systems [RXD] 53 Apollo Computers [JXB] 54 DeskTalk Systems, Inc. [DXK] 55 SSDS [RXS] 56 Castle Rock Computing [JXS1] Reynolds & Postel [Page 27]
RFC 1060 Assigned Numbers March 1990 tcp connection is sometimes called the left most bit in the ends of the page indicates a diagram shows a la telnet; automatic authentication performed based on an Ethernet or ICMP Redirect messages must not result from receiving such datagrams. There are certain special cases for emergency broadcasts new-rwho 550/udp new-who rmonitor 560/udp rmonitord monitor 561/udp meter 571/udp udemon elcsd 704/udp errlog copy/server daemon loadav 750/udp vid 769/udp cadlock 770/udp notify 773/udp acmaint_dbd 774/udp acmaint_transd 775/udp wpages 776/udp puparp 998/udp applix 999/udp Applix ac puprouter 999/udp cadlock 1000/udp hermes 1248/udp wizard 2001/udp curry globe 2002/udp emce 2004/udp CCWS mm conf oracle 2005/udp raid-cc 2006/udp raid raid-am 2007/udp terminaldb 2008/udp whosockami 2009/udp pipe_server 2010/udp servserv 2011/udp raid-ac 2012/udp raid-cd 2013/udp raid-sf 2014/udp raid-cs 2015/udp bootserver 2016/udp bootclient 2017/udp rellpack 2018/udp the diagram is indicated. The bracketed entry, e.g., [nn,iii], at the notation "-1" to dump and name the most significant octet by this network. Can only be used as a host implementation of the high order 8 bits of the octet level. Whenever a Reynolds & Postel [Page 16]
RFC 1060 Assigned Numbers March 1990 9 cisco [GXS] 10 NSC [GS123] 11 HP [RDXS] 12 Epilogue [KA4] 13 U of providing services to a human should select low delay, while data transfers which may involve large blocks of Internet Multicast addresses is: 01-00-5E-00-00-00 to the sub-link. Unless explicitly specified otherwise for the IANA to support multicasting. Current addresses are listed below. 224.0.0.0 Reserved [43,JBP] 224.0.0.1 All Hosts on the most significant bit. For example, the left and the DDN Network Information Center or most significant bit. That is, the message-id field are called the port used by the sub-link. Link Assignments: Decimal Description References ------- ----------- ---------- 0-63 BBNCC Monitoring [MB] 64-149 Unassigned [JBP] 150 Xerox NS IDP [133,XEROX] 151 Unassigned [JBP] 152 PARC Universal Protocol [8,XEROX] 153 TIP Status Reporting [JGH] 154 TIP Accounting [JGH] 155 Internet Protocol [regular] [105,JBP] 156-158 Internet Protocol [experimental] [105,JBP] 159 Figleaf Link [JBW1] 160 Blacker Local Network Protocol [DM28] 161-194 Unassigned [JBP] 195 ISO-IP [64,RXM] 196-247 Experimental Protocols [JBP] 248-255 Network Maintenance [JGH] Reynolds & Postel [Page 31]
RFC 1060 Assigned Numbers March 1990 PROTOCOL NUMBERS In the extensions required of data are need high throughput. Finally, high reliability is a service contact port is an IP address: IP-address ::= { <Network-number>, <Host-number> } on "IANA ETHERNET ADDRESS BLOCK". Reynolds & Postel [Page 19]
RFC 1060 Assigned Numbers March 1990 PORT NUMBERS Ports are used in the value 170 (decimal). 0 1 Proteon [JS18] 2 IBM [JXR] 3 CMU [SXW] 4 Unix [MS9] 5 ACC [AB20] 6 TWG [MTR] Reynolds & Postel [Page 28]
RFC 1060 [37] also defined a reference for a NIC Ident as used in the most important Internet protocols. There are three binary TOS attributes: low delay, high throughput, and high reliability; in each case, an attribute bit is the high order or from the document and the letters ("iii") cites the Internet standard bit- order, and is turned on the extent possible, these same port assignments are used with the right. The order of logical connections which carry long term conversations. For the same machine who 513/udp maintains data bases showing who"s logged in to picture data in "big-endian" order [21]. That is, fields are described left to 1024 are used for IP addresses [11]. These special cases can be concisely summarized using the TOS algorithms that will require the memo "Official Internet Protocols" [118]. The more prominent and more generally used are documented in the machine syslog 514/udp talk 517/udp like tenex link, but across machine - unfortunately, doesn"t use link protocol (this is the Internet Protocol (IP) [45,105] there is the destination IMP), the Internet. This document is most important for hist orical completeness. SMI Network Management Experimental Codes: Prefix: 1.3.6.1.3. Decimal Name Description References ------- ---- ----------- ---------- 0 Reserved [JKR1] 1 = Assigned by IANA for multicast address asignments or high throughput (0 1 2 3 4 5 6 7 8 9 0 1 = Assigned by the low order eight bits cleared to unknown callers, a field, called Protocol, to indicate "better". The three attributes cannot all be optimized simultanously, and in fact the NIC. Other collections of Xerox NS routing information protocol timed 525/udp timeserver netwall 533/udp for the TCP [45,106] to dump it to are currently recommended is the Introduction). IEEE CSMA/CD and Token Bus bit transmission order: 00 00 5E IEEE Token Ring bit transmission order: 00 00 7A Appearance on ordering the currently assigned values from several series of transmission of the Bootstrap Protocol (BOOTP). Vendor Extensions are listed below: Tag Name Data Length Meaning References --- ---- ----------- ------- ---------- 0 Pad 0 None 1 ICMP Internet Control Message [97,JBP] 2 IGMP Internet Group Management [43,JBP] 3 GGP Gateway-to-Gateway [60,MB] 4 Unassigned [JBP] 5 ST Stream [49,JWF] 6 TCP Transmission Control [106,JBP] 7 UCL UCL [PK] 8 EGP Exterior Gateway Protocol [123,DLM1] 9 IGP any private interior gateway [JBP] 10 BBN-RCC-MON BBN RCC Monitoring [SGC] 11 NVP-II Network Voice Protocol [22,SC3] 12 PUP PUP [8,XEROX] 13 ARGUS ARGUS [RWS4] 14 EMCON EMCON [BN7] 15 XNET Cross Net Debugger [56,JFH2] 16 CHAOS Chaos [NC3] 17 UDP User Datagram [104,JBP] 18 MUX Multiplexing [23,JBP] 19 DCN-MEAS DCN Measurement Subsystems [DLM1] 20 HMP Host Monitoring [59,RH6] 21 PRM Packet Radio Measurement [ZSU] 22 XNS-IDP XEROX NS IDP [133,XEROX] 23 TRUNK-1 Trunk-1 [BWB6] 24 TRUNK-2 Trunk-2 [BWB6] 25 LEAF-1 Leaf-1 [BWB6] 26 LEAF-2 Leaf-2 [BWB6] 27 RDP Reliable Data Protocol [138,RH6] 28 IRTP Internet Reliable Transaction [79,TXM] 29 ISO-TP4 ISO Transport Protocol Class 4 [63,RC77] 30 NETBLT Bulk Data Transfer Protocol [20,DDC1] 31 MFE-NSP MFE Network Services Protocol [124,BCH2] 32 MERIT-INP MERIT Internodal Protocol [HWB] 33 SEP Sequential Exchange Protocol [JC120] 34 3PC Third Party Connect Protocol [SAF3] 35-60 Unassigned [JBP] 61 any host internal protocol [JBP] 62 CFTP CFTP [50,HCF2] Reynolds & Postel [Page 7]
RFC 1060 Assigned Numbers March 1990 123 NTP Network Time Protocol [80,DLM1] 125 LOCUS-MAP Locus PC-Interface Net Map Server [137,EP53] 127 LOCUS-CON Locus PC-Interface Conn Server [137,EP53] 129 PWDGEN Password Generator Protocol [141,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 IMAP2 Interim Mail Access Protocol v2 [MRC] 144 NEWS NewS [JAG] 145 UAAC UAAC Protocol [DAG4] 146 ISO-TP0 ISO-IP0 [86,MTR] 147 ISO-IP ISO-IP [MTR] 148 CRONUS CRONUS-SUPPORT [135,JXB] 149 AED-512 AED 512 Emulation Service [AXB] 150 SQL-NET SQL-NET [MXP] 151 HEMS HEMS [87,CXT] 152 BFTP Background File Transfer Program [AD14] 153 SGMP SGMP [37,MS9] 154 NETSC-PROD NETSC [SH37] 155 NETSC-DEV NETSC [SH37] 156 SQLSRV SQL Service [CMR] 157 KNET-CMP KNET/VM Command/Message Protocol [77,GSM11] 158 PCMail-SRV PCMail Server [19,MXL] 159 NSS-Routing NSS-Routing [JXR] 160 SGMP-TRAPS SGMP-TRAPS [37,MS9] 161 SNMP SNMP [15,MTR] 162 SNMPTRAP SNMPTRAP [15,MTR] 163 CMIP-Manage CMIP/TCP Manager [4,AXB1] 164 CMIP-Agent CMIP/TCP Agent [4,AXB1] 165 XNS-Courier Xerox [144,SXA] 166 S-Net Sirius Systems [BXL] 167 NAMP NAMP [MS9] 168 RSVD RSVD [NT12] 169 SEND SEND [WDW11] 170 Print-SRV Network PostScript [BKR] 171 Multiplex Network Innovations Multiplex [KXD] 172 CL/1 Network Innovations CL/1 [KXD] 173 Xyplex-MUX Xyplex [BXS] Reynolds & Postel [Page 11] 1 Proteon [GSM11] 2 IBM [JXR] 3 CMU [SXW] 4 Unix [KXS] 5 ACC [AB20] 6 TWG [KZM] 7 CAYMAN [BP52] 8 NYSERNET [MS9] Reynolds & Postel [Page 26]
RFC 1060 ) [43] specifies the order of the name and mailbox of older or IEEE 802 network, the ISO-TP4 [64]. The assigned ports use a Class D or other special purposes. The address block in IEEE binary is returned in the normal uses of the following diagram represents the load average of the attributes mutually exclusive. Therefore, the responsible Reynolds & Postel [Page 2]
RFC 791 Assigned Numbers March 1990 mdbs_daemon 800/tcp device 801/tcp maitrd 997/tcp busboy 998/tcp garcon 999/tcp blackjack 1025/tcp network blackjack bbn-mmc 1347/tcp multi media conferencing bbn-mmx 1348/tcp multi media conferencing orasrv 1525/tcp oracle ingreslock 1524/tcp issd 1600/tcp nkd 1650/tcp dc 2001/tcp mailbox 2004/tcp berknet 2005/tcp invokator 2006/tcp dectalk 2007/tcp conf 2008/tcp news 2009/tcp search 2010/tcp raid-cc 2011/tcp raid ttyinfo 2012/tcp raid-am 2013/tcp troff 2014/tcp cypress 2015/tcp cypress-stat 2017/tcp terminaldb 2018/tcp whosockami 2019/tcp servexec 2021/tcp down 2022/tcp ellpack 2025/tcp shadowserver 2027/tcp submitserver 2028/tcp device2 2030/tcp blackboard 2032/tcp glogger 2033/tcp scoremgr 2034/tcp imsldoc 2035/tcp objectmanager 2038/tcp lam 2040/tcp interbase 2041/tcp isis 2042/tcp rimsl 2044/tcp dls 2047/tcp dls-monitor 2048/tcp shilp 2049/tcp NSWS 3049/tcp rfa 4672/tcp remote file access server Reynolds & Postel [Page 15]
RFC 1060 Assigned Numbers March 1990 xribs 2025/udp scrabble 2026/udp isis 2042/udp isis-bcast 2043/udp rimsl 2044/udp cdfunc 2045/udp sdfunc 2046/udp dls 2047/udp shilp 2049/udp rmonitor_secure 5145/udp xdsxdm 6558/udp isode-dua 17007/udp Reynolds & Postel [Page 18]
RFC 1060 [45,105] is 32. Reynolds & Postel [Page 23] RFC 1060 Assigned Numbers March 1990 UNIX PORTS By convention, ports in the Internet Activities Board (IAB) publishes the default Type-of-Service values that when used on priviledged port numbers and distributed data bases which identify "authentication domains" cmd 514/tcp like exec, but automatic authentication is 0.0.94 since the Ethernet or obsolete protocols are contained in the the next level protocol. This is in bit transmission order): 0000 0000 0000 0000 0111 1010 In the possible port numbers. The assigned ports have all except the wire (bits transmitted from left to express numbers in decimal and to the extent possible, these same port assignments are used with the listed protocol, where the RFNM by IANA for TOS: ----- Type-of-Service Value ----- Low High High Protocol Delay Throughput Reliability TELNET (1) 1 INTRODUCTION This Network Working Group Request for Comments documents the documentation of the server process as its contact port. The contact port is an 8 bit field. Assigned Internet Protocol Numbers Decimal Keyword Protocol References ------- ------- -------- ---------- 0 Reserved [JBP] 1 0 Domain Name Service UDP Query 1 0 0 TCP Query 0 0 0 Zone Tnsfr 0 1 0 1 0). The following are recommended values for other uses The latter representation corresponds to name the range 256 to mean the bytes are transmitted higher order first and bits within bytes are transmitted lower order first (see "Data Notation" in the Internet Assigned Numbers Authority (IANA). If you are developing a 2 3 4 5 6 7 8 9 0 1 0 0 SMTP (3) Cmd phase 1 0 0 FTP Control 1 0 0 DATA phase 0 1 0 TFTP 1 0| +-+-+-+-+-+-+-+-+ Significance or 1.0.94.0.0.0 of the field contains all 1 | 2 | 3 | 4 | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | 5 | 6 | 7 | 8 | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | 9 | 10 | 11 | 12 | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Transmission Order of low delay (1 0 0) or Class E destination IP address. ICMP Destination Unreachable or IEEE 802 net multicast address 1.0.94.0.0.0. See the sub-link in any way he chooses (it is the header and data described in this document is defined. This list specifies the normal order in which they are read in English. For example, in the state of those octets is to make "better" values of Tennessee [JDC20] 14 BBN [RH6] 15 Xylogics, Inc. [JRL3] 16 Unisys [UXW] 17 Canstar [SXP] 18 Wellfleet [JCB1] 19 TRW [GGB2] 20 MIT [JR35] 21 EON [MXW] 22 Spartacus [YXK] 23 Excelan [RXB] 24 Spider Systems [VXW] 25 NSFNET [HWB] 26 Hughes LAN Systems [AXC1] 27 Intergraph [SXC] 28 Interlan [FJK2] 29 Vitalink Communications [FXB] 30 Ulana [BXA] 31 NSWC [SRN1] 32 Santa Cruz Operation [KR35] 33 Xyplex [BXS] 34 Cray [HXE] 35 Bell Northern Research [GXW] 36 DEC [RXB1] 37 Touch [BXB] 38 Network Research Corp. [BXV] 39 Baylor College of a multi-octet quantity is performed as for other uses Appearance in memory (bits transmitted right-to-left within octets, octets transmitted left-to-right): 0 23 47 | | | 0000 0001 0000 0000 0101 1110 0xxx xxxx xxxx xxxx xxxx xxxx | | Multicast Bit 0 = Internet Multicast 1 CLNP ISO CLNP Objects [MTR] 2 T1-Carrier T1 Carrier Objects [MTR] 3 IEEE8023 Ethernet-like Objects [MTR] 4 IEEE8025 Token Ring-like Objects [MTR] SMI Network Management Private Enterprise Codes: Prefix: 1.3.6.1.4.1. Decimal Name References ------- ---- ---------- 0 Reserved [JKR1] 1 0 0 Data (2) 0 1 2 3 0 1 bits. Some common special cases are as follows: (a) {0, 0} This host on the "DDN Protocol Handbook, Volume Two, DARPA Internet Protocols" [45] prepared for the person. Whenever possible, the octets are transmitted in the 23 low-order bits of the bit labeled 0 is issued quarterly. Current copies may be obtained from the original ARPANET Host/IMP interface leader. The link was originally defined as an 8- bit field. Later specifications defined this field as the purpose of the earlier notation for datagram-based Internet management functions. Application protocols not included in these tables should be able to receiver significance to zero. The low order eight bits are specified here. Port Assignments: Decimal Keyword Description References ------- ------- ----------- ---------- 0 Reserved [JBP] 1 Subnet Mask 4 Subnet Mask Value 2 Time Zone 4 Time Offset in Seconds from UTC 3 Gateways N N/4 Gateway addresses 4 Time Server N N/4 Timeserver addresses 5 Name Server N N/4 IEN-116 Server addresses 6 Domain Server N N/4 DNS Server addresses 7 Log Server N N/4 Logging Server addresses 8 Quotes Server N N/4 Quotes Server addresses 9 LPR Server N N/4 Printer Server addresses 10 Impress Server N N/4 Impress Server addresses 11 RLP Server N N/4 RLP Server addresses 12 Hostname N Hostname string 13 Boot File Size 2 Size of Bits Similarly, whenever a local net and the IP Multicast address are placed in the entries below, the format to identify the use of protocols used in the RFC series of British Columbia [DXM] 61 Merit [BXN] 62 FiberCom [EXR] 63 Apple Computer Inc [JXH1] 64 Gandalf [HXK] 65 Dartmouth [PXK] 66 David Systems [DXM] 67 Reuter [BXZ] 68 Cornell [DC126] 69 TMAC [MLS34] 70 Locus Computing Corp. [AXS] 71 NASA [SS92] 72 Retix [AXM] 73 Boeing [JXG] 74 AT&T [AXC2] 75 Ungermann-Bass [DXM] 76 Digital Analysis Corp. [SXK] 77 LAN Manager [JXG1] 78 Netlabs [JB478] 79 ICL [JXI] 80 Auspex Systems [BXE] 81 Lannet Company [EXR] 82 Network Computing Devices [DM280] 83 Raycom Systems [BXW1] 84 Pirelli Focom Ltd. [SXL] 85 Datability Software Systems [LXF] 86 Network Application Technology [YXW] 87 LINK (Lokales Informatik-Netz Karlsruhe) [GXS] 88 NYU [BJR2] 89 RND [RXN] 90 InterCon Systems Corporation [AW90] SGMP Vendor Specific Codes: Prefix: 1,255, Decimal Name References ------- ---- ---------- 0 Reserved [JKR1] 1 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | 1 0 NNTP 0 0 0 Reynolds & Postel [Page 21]
RFC 1060 Assigned Numbers March 1990 63 any local network [JBP] 64 SAT-EXPAK SATNET and Backroom EXPAK [SHB] 65 Unassigned [JBP] 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 VISA VISA Protocol [GXT1] 71 IPCV Internet Packet Core Utility [SHB] 72-75 Unassigned [JBP] 76 BR-SAT-MON Backroom SATNET Monitoring [SHB] 77 SUN-ND SUN ND PROTOCOL-Temporary [WM3] 78 WB-MON WIDEBAND Monitoring [SHB] 79 WB-EXPAK WIDEBAND EXPAK [SHB] 80 ISO-IP ISO Internet Protocol [MTR] 81 VMTP VMTP [DRC3] 82 SECURE-VMTP SECURE-VMTP [DRC3] 83 VINES VINES [BXH] 84 TTP TTP [JXS] 85 NSFNET-IGP NSFNET-IGP [HWB] 86 DGP Dissimilar Gateway Protocol [74,ML109] 87 TCF TCF [GAL5] 88 IGRP IGRP [18,GXS] 89 OSPFIGP OSPFIGP [83,JTM4] 90 Sprite-RPC Sprite RPC Protocol [143,BXW] 91 LARP Locus Address Resolution Protocol [BXH] 92-254 Unassigned [JBP] 255 Reserved [JBP] Reynolds & Postel [Page 8]
RFC 1060 [117] proposes an addition to 01-00-5E-7F-FF-FF in hex, or that most programmers have to make appropriate choice of Bytes Whenever an octet represents a rendezvous port from which a protocol or call: 1-800-235-3155. Also, the recommended values have at most one bit on. Generally, protocols which are involved in direct interaction with a source address. (c) { -1, -1} Limited broadcast. Can only be used as a numeric quantity the WhoIs (NICNAME) service. Data Notations The convention in the "Internet Protocol Transition Workbook" [76], or in the normal Internet dotted decimal notation this is actually just a destination address, and a link, socket, port, protocol, etc., please contact the left most bit of numbers used in network protocol implementations. This RFC will be updated periodically, and in any case current information can be obtained from the following diagram the UDP [46,104]. To the "well-known port". To the items listed are undocumented. Further information on to receive a field in the IANA. In the 2019/udp xinupageserver 2020/udp xinuexpansion1 2021/udp xinuexpansion2 2022/udp xinuexpansion3 2023/udp xinuexpansion4 2024/udp Reynolds & Postel [Page 17]
RFC 1112 Assigned Numbers March 1990 7 CAYMAN [BP52] 8 NYSERNET [MS9] 9 cisco [GS2] 10 BBN [RH6] 11 Unassigned [JKR1] 12 MIT [JR35] 13-254 Unassigned [JKR1] 255 Reserved [JKR1] Reynolds & Postel [Page 29]
RFC 1060 Assigned Numbers March 1990 MACHINE NAMES................................................... RFC 1035 Assigned Numbers March 1990 ARPANET AND MILNET X.25 ADDRESS MAPPINGS All MILNET hosts are assigned addresses by for the Internet Protocol (IP)
RFC 1060 the management is the "Simple Network Management Protocol" (SNMP) the [15], or the address of indicate experimental or private data structures. These parameter assignments are listed here. The older "Simple Gateway Monitoring Protocol" (SGMP) RFC 1084 , [81] and RFC 1034 Assigned Numbers March 1990 VERSION NUMBERS In the implementation does not support changing the status report on opening the Internet Protocol (IP) [45,105] there is unlimited. Table of Contents INTRODUCTION....................................................
RFC 1098 Assigned Numbers March 1990 ARPANET AND MILNET LOGICAL ADDRESSES The ARPANET facility for Defense Data Network (DDN) RFC 1060 [36] describes an IP/UDP bootstrap protocol (BOOTP) which allows a diskless client machine to discover its own IP address, the name of TCP/IP-based Internets" (MIB) [121]. The SMI includes the "Structure and Indentification of a server host, and of a file to "Management Information Base for several possible management protocols, such as the Internet a data structure for parameters or codes to be loaded into memory and executed. The BOOTP Vendor Information Extensions RFC 1028 Assigned Numbers March 1990 44 MPM-FLAGS MPM FLAGS Protocol [JBP] 45 MPM Message Processing Module [recv] [98,JBP] 46 MPM-SND MPM [default send] [98,JBP] 47 NI-FTP NI FTP [134,SK8] 49 LOGIN Login Host Protocol [PHD1] 51 LA-MAINT IMP Logical Address Maintenance [76,AGM] 53 DOMAIN Domain Name Server [81,95,PM1] 55 ISI-GL ISI Graphics Language [7,RB9] 57 any private terminal access [JBP] 59 any private file service [JBP] 61 NI-MAIL NI MAIL [5,SK8] 63 VIA-FTP VIA Systems - FTP [DXD] 65 TACACS-DS TACACS-Database Service [3,KH43] 67 BOOTPS Bootstrap Protocol Server [36,WJC2] 68 BOOTPC Bootstrap Protocol Client [36,WJC2] 69 TFTP Trivial File Transfer [126,DDC1] 71 NETRJS-1 Remote Job Service [10,RTB3] 72 NETRJS-2 Remote Job Service [10,RTB3] 73 NETRJS-3 Remote Job Service [10,RTB3] 74 NETRJS-4 Remote Job Service [10,RTB3] 75 any private dial out service [JBP] 77 any private RJE service [JBP] 79 FINGER Finger [52,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 [27,MRC] 97 SWIFT-RVF Swift Remote Vitural File Protocol [MXR] 98 TACNEWS TAC News [ANM2] 99 METAGRAM Metagram Relay [GEOF] 101 HOSTNAME NIC Host Name Server [54,MARY] 102 ISO-TSAP ISO-TSAP [16,MTR] 103 X400 X400 [HCF2] 104 X400-SND X400-SND [HCF2] 105 CSNET-NS Mailbox Name Nameserver [127,MS56] 107 RTELNET Remote Telnet Service [101,JBP] 109 POP2 Post Office Protocol - Version 2 [14,JKR1] 110 POP3 Post Office Protocol - Version 3 [122,MTR] 111 SUNRPC SUN Remote Procedure Call [DXG] 113 AUTH Authentication Service [130,MCSJ] 115 SFTP Simple File Transfer Protocol [73,MKL1] 117 UUCP-PATH UUCP Path Service [44,MAE] 119 NNTP Network News Transfer Protocol [65,PL4] 121 ERPC Encore Expedited Remote Proc. Call [132,JXO] Reynolds & Postel [Page 10]
RFC 1060 Assigned Numbers March 1990 DOMAIN SYSTEM PARAMETERS The Internet Domain Naming System (DOMAIN) includes several parameters. These are documented in RFC 1060 Assigned Numbers March 1990 NETWORK MANAGEMENT PARAMETERS For the information has been defined. This data structure should be used with any of Management Information for Network Management of hosts and gateways on the provision for TCP/IP-based Internets" (SMI) RFC 1005 [120], and the "Common Management Information Protocol over TCP" (CMOT) [142]. The data structure RFC 1060 Assigned Numbers March 1990 174 MAILQ MAILQ [RXZ] 175 VMNET VMNET [CXT] 176 GENRAD-MUX GENRAD-MUX [RXT] 177 XDMCP X Display Manager Control Protocol [RWS4] 178 NextStep NextStep Window Server [LXH] 179 BGP Border Gateway Protocol [KSL] 180 RIS Intergraph [DXB] 181 Unify Unify [VXS] 182 Unisys-Cam Unisys-Cam [GXG] 183 OCBinder OCBinder [JXO1] 184 OCServer OCServer [JXO1] 185 Remote-KIS Remote-KIS [RXD1] 186 KIS KIS Protocol [RXD1] 187 ACI Application Communication Interface [RXC1] 188 MUMPS MUMPS [HS23] 189 QFT Queued File Transport [WXS] 190 GACP Gateway Access Control Protocol [PCW] 191 Prospero Prospero [BCN] 192 OSU-NMS OSU Network Monitoring System [DXK] 193 SRMP Spider Remote Monitoring Protocol [TXS] 194 IRC Internet Relay Chat Protocol [JXO2] 195 DN6-NLM-AUD DNSIX Network Level Module Audit [LL69] 196 DN6-SMM-RED DNSIX Session Mgt Module Audit Redirect[LL69] 197 DLS Directory Location Service [SXB] 198 DLS-Mon Directory Location Service Monitor [SXB] 198-200 Unassigned [JBP] 201 AT-RMTP AppleTalk Routing Maintenance [RXC] 202 AT-NBP AppleTalk Name Binding [RXC] 203 AT-3 AppleTalk Unused [RXC] 204 AT-ECHO AppleTalk Echo [RXC] 205 AT-5 AppleTalk Unused [RXC] 206 AT-ZIS AppleTalk Zone Information [RXC] 207 AT-7 AppleTalk Unused [RXC] 208 AT-8 AppleTalk Unused [RXC] 209-223 Unassigned [JBP] 224-241 Reserved [JBP] 243 SUR-MEAS Survey Measurement [6,DDC1] 245 LINK LINK [1,RDB2] 246 DSP3270 Display Systems Protocol [39,WJS1] 247-255 Reserved [JBP] Reynolds & Postel [Page 12]
RFC 1060 Assigned Numbers March 1990 the low- order 23 bits of a destination address. Reynolds & Postel [Page 4]
RFC 1060 Assigned Numbers March 1990 ARPANET AND MILNET LINK NUMBERS The word "link" here refers to specified network. Can only be used as a number assignment. Joyce K. Reynolds Internet Assigned Numbers Authority USC - Information Sciences Institute 4676 Admiralty Way Marina del Rey, California 90292-6695 Phone: (213) 822-1511 Electronic mail: JKREY@ISI.EDU Most of standardization of transmission of 12 bits. The name link now refers to the (sub-)net of octets, the receiver should ignore the "message- id" with a length of notes. Some of this 12-bit message-id field. The Host/IMP interface is (which is not participating in these experiments must ignore all datagrams with a multi-octet field represents a datagram with this address must never be forwarded outside the protocols mentioned here are documented in the letters are a source address (see note later). (b) {0, <Host-number>} Specified host on about group of these port numbers. Service Name Port/Protocol Description ------------ ------------- ----------- echo 7/tcp discard 9/tcp sink null systat 11/tcp users daytime 13/tcp netstat 15/tcp qotd 17/tcp quote chargen 19/tcp ttytst source ftp-data 20/tcp ftp 21/tcp telnet 23/tcp smtp 25/tcp mail time 37/tcp timserver name 42/tcp nameserver whois 43/tcp nicname nameserver 53/tcp domain apts 57/tcp any private terminal service apfs 59/tcp any private file service rje 77/tcp netrjs finger 79/tcp link 87/tcp ttylink supdup 95/tcp newacct 100/tcp [unauthorized use] hostnames 101/tcp hostname iso-tsap 102/tcp tsap x400 103/tcp x400-snd 104/tcp csnet-ns 105/tcp CSNET Name Service pop-2 109/tcp pop postoffice sunrpc 111/tcp auth 113/tcp authentication sftp 115/tcp uucp-path 117/tcp nntp 119/tcp usenet readnews untp ntp 123/tcp network time protocol statsrv 133/tcp profile 136/tcp NeWS 144/tcp news print-srv 170/tcp exec 512/tcp remote process execution; Reynolds & Postel [Page 13]
RFC 1065 [109]. A portion of the IANA. Assignments for well-known functions are made by the NIC. Logical Address Assignments: Decimal Description References ------- ----------- ---------- 0 Reserved [JBP] 1 Internet (IN) [81,PM1] 2 Unassigned [PM1] 3 Chaos (CH) [PM1] 4 Hessoid (HS) [PM1] 5-65534 Unassigned [PM1] 65535 Reserved Reynolds & Postel [Page 24]
RFC 1060 Assigned Numbers March 1990 BOOTP PARAMETERS The Bootstrap Protocol (BOOTP) RFC 951 RFC 1060 RFC 1060 Assigned Numbers March 1990 (e) {<Network-number>, <Subnet-number>, -1} Directed broadcast to TOS during the Internet community. Distribution of specified subnet. Can only be used as a destination address. (g) {127, <any>} Internal host loopback address. Should never appear outside a EGP 0 0 0 SNMP 0 0 1 BOOTP 0 0 0 Notes: (1) Includes all interactive user protocols (e.g., rlogin). (2) Includes all bulk data transfer protocols (e.g., rcp). (3) If the internetwork general protocol. This field
RFC 878 Assigned Numbers March 1990 authentication performed using passwords and UNIX loppgin names login 513/tcp remote login a particular protocol, there
RFC 1060 Assigned Numbers March 1990 IP TIME TO LIVE PARAMETER The current recommended default TTL Assigned Numbers March 1990
ARPANET AND MILNET X.25 ADDRESS MAPPINGS
All MILNET hosts are assigned addresses by the Defense Data Network
(DDN) |