📄 rfc1374.txt
字号:
Network Working Group J. RenwickRequest for Comments: 1374 A. Nicholson Cray Research, Inc. October 1992 IP and ARP on HIPPIStatus of this Memo This RFC specifies an IAB standards track protocol for the Internet community, and requests discussion and suggestions for improvements. Please refer to the current edition of the "IAB Official Protocol Standards" for the standardization state and status of this protocol. Distribution of this memo is unlimited.Abstract The ANSI X3T9.3 committee has drafted a proposal for the encapsulation of IEEE 802.2 LLC PDUs and, by implication, IP on HIPPI. Another X3T9.3 draft describes the operation of HIPPI physical switches. X3T9.3 chose to leave HIPPI networking issues largely outside the scope of their standards; this document discusses methods of using of ANSI standard HIPPI hardware and protocols in the context of the Internet, including the use of HIPPI switches as LANs and interoperation with other networks. Table of Contents Introduction 2 Scope 2 Definitions 3 Equipment 4 Protocol 6 Packet Format 6 48 bit Universal LAN MAC addresses 10 I-Field Format 11 Rules For Connections 13 MTU 15 Camp-on 16 Address Resolution 16 ARP and RARP Message Format 17 ARP Procedure 21 ARP Implementation Methods 22Renwick & Nicholson [Page 1]
RFC 1374 IP and ARP on HIPPI October 1992 ARP Example 23 Discovery of One's Own Switch Address 25 Path MTU Discovery 27 Channel Data Rate Discovery 27 Performance 29 Sharing the Switch 31 Appendix A -- HIPPI Basics 31 Appendix B -- How to Build a Practical HIPPI LAN 37 References 41 Security Considerations 42 Authors' Addresses 42Introduction The ANSI High-Performance Parallel Interface (HIPPI) is a simplex data channel. Configured in pairs, HIPPI can send and receive data simultaneously at nearly 800 megabits per second. (HIPPI has an equally applicable 1600 megabit/second option.) Between 1987 and 1991, the ANSI X3T9.3 HIPPI working group drafted four documents that bear on the use of HIPPI as a network interface. They cover the physical and electrical specification (HIPPI-PH [1]), the framing of a stream of octets (HIPPI-FP [2]), encapsulation of IEEE 802.2 LLC (HIPPI-LE [3]), and the behavior of a standard physical layer switch (HIPPI-SC [4]). HIPPI-LE also implies the encapsulation of Internet Protocol[5]. The reader should be familiar with the ANSI HIPPI documents, copies of which are archived at the site "nsco.network.com" in the directory "hippi," and may be obtained via anonymous FTP until they become published standards. HIPPI switches can be used to connect a variety of computers and peripheral equipment for many purposes, but the working group stopped short of describing their use as Local Area Networks. This memo takes up where the working group left off, using the guiding principle that except for length and hardware header, Internet datagrams sent on HIPPI should be identical to the same datagrams sent on a conventional network, and that any datagram sent on a conventional 802 network[6] should be valid on HIPPI.Scope This memo describes the HIPPI interface between a host and a crosspoint switch that complies with the HIPPI-SC draft standard. Issues that have no impact on host implementations are outside the scope of this memo. Host implementations that comply with this memo are believed to be interoperable on a network composed of a single HIPPI-SC switch. They are also interoperable on a simple point-to- point, two-way HIPPI connection with no switch between them. TheyRenwick & Nicholson [Page 2]
RFC 1374 IP and ARP on HIPPI October 1992 may as well be interoperable on more complex networks, depending on the internals of the switches and how they are interconnected; however, these details are implementation dependent and outside the scope of this memo. To the extent that a gateway acts as a host on a HIPPI-SC LAN, its behavior is within the scope of this memo. Within the scope of this memo are: 1. Packet format and header contents, including HIPPI-FP, HIPPI-LE, IEEE 802.2 LLC[7], SNAP and ARP 2. I-Field contents 3. HIPPI switch address resolution, including self discovery 4. Rules for the use of connections. Outside of the scope are 1. Vendor dependent solutions for multicast or third party ARP 2. Network configuration and management 3. Host internal optimizations 4. The interface between a host and an outboard protocol processor.Definitions Conventional Used with respect to networks, this refers to Ethernet, FDDI and 802 LAN types, as distinct from HIPPI-SC LANs. Destination The HIPPI implementation that receives data from a HIPPI Source. Node An entity consisting of one HIPPI Source/Destination pair that is connected by parallel or serial HIPPI to a HIPPI-SC switch and that transmits and receives ARP and IP datagrams. A node may be an Internet host, bridge, router or gateway. This memo uses the term node in place of the usual "host" to indicate that a host might be connected to the HIPPI LAN not directly, but through an external adaptor that does some of the protocol processing for the host.Renwick & Nicholson [Page 3]
RFC 1374 IP and ARP on HIPPI October 1992 Serial HIPPI An implementation of HIPPI in serial fashion on coaxial cable or optical fiber, informally standardized by implementor's agreement in the Spring of 1991. Switch Address A value used as the address of a node on a HIPPI-SC network. It is transmitted in the I-field. HIPPI-SC switches may map Switch Addresses to physical port numbers. Source The HIPPI implementation that generates data to send to a HIPPI Destination. Universal LAN Address (ULA) A 48 bit globally unique address, administered by the IEEE, assigned to each node on an Ethernet, FDDI, 802 network or HIPPI- SC LAN.Equipment A HIPPI network can be composed of nodes with HIPPI interfaces, HIPPI cables or serial links, HIPPI-SC switches, gateways to other networks and, possibly, proprietary equipment that multicasts or responds to ARP requests on behalf of the real nodes. Each HIPPI interconnection between a node and a switch shall consist of a pair of HIPPI links, one in each direction. If a link between a node and the switch is capable of the 1600 Megabit/second data rate option (i.e. Cable B installed for 64 bit wide operation) in either direction, the node's HIPPI-PH implementation shall also be capable of 32 bit operation (Cable B data suppressed) and shall be able to select or deselect the 1600Mb/s data rate option at the establishment of each new connection. The following figure shows a sample HIPPI switch configuration.Renwick & Nicholson [Page 4]
RFC 1374 IP and ARP on HIPPI October 1992 +-----+ | | H 4 | | +--+--+ | +----+ +----+ +----+ | | | H1 | | H2 | | H3 | +-++ | +--+ +-++-+ +-++-+ +-++-+ |PP| +---+H5| || || || ++++ | +--+ || || || || | +---++--------++--------++------++----+ | | | +---+ | +----+ | HIPPI-SC +----+ARP| +---+ G1 +--------+ +----+ | | | +--------+ Switch | +---+ | +----+ | | | +---++--------++--------++------++----+ | +--+ || || || || +---+H6| || ++++ | +--+ +-++-+ |PP| | | | +-++ | | G2 | | | | | +--+--+ | +--+-+ | H 7 | | | +-----+ | -----+------------+-------+-----------+-------------+------ | | | | | | | | +--+--+ +--+--+ +--+--+ +--+--+ | H 8 | | H 9 | | H10 | | H11 | +-----+ +-----+ +-----+ +-----+ Legend: ---+---+---+-- = 802 network, Ethernet or FDDI || = Paired HIPPI link H = Host computer PP = Outboard Protocol Processor G = Gateway ARP = ARP Agent A possible HIPPI configuration A single HIPPI-SC switch has a "non-blocking" characteristic, which means there is always a path available from any Source to any Destination. If the network consists of more than one switch, the path from a Source to a Destination may include a HIPPI link between switches. If this link is used by more than one Source/Destination pair, a "blocking" network is created: one Source may be blocked from access to a Destination because another Source is using the link it shares. Strategies for establishing connections may be moreRenwick & Nicholson [Page 5]
RFC 1374 IP and ARP on HIPPI October 1992 complicated on blocking networks than on non-blocking ones. This memo ignores blocking issues, assuming that the HIPPI LAN consists of one HIPPI-SC switch or, if the network is more complex than that, it presents no additional problems that a node must be aware of.Protocol Packet Format The HIPPI packet format for Internet datagrams shall conform to the HIPPI-FP and HIPPI-LE draft standards. The HIPPI-FP D1_Area shall contain the HIPPI-LE header. The HIPPI-FP D2_Area, when present, shall contain one IEEE 802.2 Type 1 LLC Unnumbered Information (UI) PDU. Support of IEEE 802.2 XID, TEST and Type 2 PDUs is not required on HIPPI, and Destinations that receive these PDUs may either ignore them or respond correctly according to IEEE 802.2 requirements.⌨️ 快捷键说明
复制代码
Ctrl + C
搜索代码
Ctrl + F
全屏模式
F11
切换主题
Ctrl + Shift + D
显示快捷键
?
增大字号
Ctrl + =
减小字号
Ctrl + -