Standard for the transmission of IP datagrams and ARP packets over ARCNET networks (original) (raw)
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Obsoleted by: 1201 HISTORIC
Network Working Group P. Prindeville Request for Comments: 1051 McGill University March 1988
A Standard for the Transmission of IP Datagrams
and ARP Packets over ARCNET Networks
Status of this Memo
This RFC specifies a standard protocol for the Internet community. Distribution of this memo is unlimited.
Introduction
This RFC specifies a standard method of encapsulating Internet Protocol (IP) [[1](#ref-1 ""Internet Protocol"")] and Address Resolution Protocol (ARP) [[2](#ref-2 ""An Ethernet Address Resolution Protocol"")] datagrams on an ARCNET [[3](#ref-3 ""ARCNET Designer's Handbook"")].
Acknowledgements
The author wishes to express thanks to Robert Craig of the McGill University Computing Centre and Bruce Hughes of Datapoint Corporation for their generous support of facilities and information. I also extend my gratitude to the readers of the PCIP mailing list for their helpful ideas and comments.
Frame Format
IP and ARP datagrams are transmitted in standard ARCNET packets. As required by Datapoint Corporation, the first octet of the data field is reserved for the network layer protocol identification (the "system code" in Datapoint nomenclature), and must contain the value 240 (F0 hex) for IP or 241 (F1 hex) for ARP. The ARP hardware address type for ARCNET is 7 [[9](#ref-9 ""Assigned Numbers"")].
ARCNET supports packet formats containing 1-253 octets of data (normal format) and 257-508 octets of data (extended format), inclusive of system code. Note that there exists a range of data lengths (254-256) which are 'forbidden'. IP packets within this range should be padded (with octets of zero) to meet the minimum extended packet size of 257 data octets. This padding is not part of the IP packet and is not included in the total length field of the IP header.
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RFC 1051 IP and ARP on ARCNET March 1988
On networks where some hosts do not support extended packet format, the IP Maximum Transmission Unit (MTU) should be set to 253, though implementors are encouraged to support the extended packet format mode of operation.
Because the ARCNET maximum packet length is less than the Internet default MTU, implementations are strongly encouraged to support IP level fragmentation and reassembly. Hosts not supporting this should take steps to discourage others from sending fragmented packets, such as using the TCP Maximum Segment Size option [[4](#ref-4 ""The TCP Maximum Segment Size Option and Related Topics"")].
The frame format is:
Normal Packet Extended Packet
+----------------+ +----------------+
| ALERT* | | ALERT* |
+----------------+ +----------------+
| SOH (1) | | SOH (1) |
+----------------+ +----------------+
| SID | | SID |
+----------------+ +----------------+
| | | |
+ DID + + DID +
| | | |
+----------------+ +----------------+
| COUNT | | NUL (0) |
+----------------+ + +
| SYSTEM CODE | | COUNT |
+----------------+ +----------------+
| | | SYSTEM CODE |
: DATA : +----------------+
| | | |
+----------------+ : DATA :
| | | |
+ CRC + +----------------+
| | | |
+----------------+ + CRC +
| |
+----------------+
ALERT*: Six mark bits signifying the beginning of a frame.
SID: Sender's node ID.
DID: Receipient's node ID (repeated for reliability).
COUNT: Length of data and system code (one's complement).
SYSTEM CODE: 240 for IP, 241 for ARP (decimal).
DATA: Is either an IP or an ARP packet, padded with NULs so
as to not be between 254 and 256 octets long.
CRC: Cyclic redundancy check (CRC-16).
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RFC 1051 IP and ARP on ARCNET March 1988
Address Mappings
The mappings between 32-bit Internet addresses to 8-bit ARCNET addresses can be done several ways, recommended are:
Host Number Extraction
The easiest thing to do is to use the last eight bits of host
number part of the Internet address as the host's node id. This
has been implemented on Experimental Ethernet [[5](#ref-5 ""A Standard for the Transmission of IP Datagrams over Experimental Ethernet Networks"")] and ProNET-10
[[6](#ref-6 ""ProNET-10 Model p1300 IBM PC Interface System Installation and Programming Guide"")].
Dynamic Discovery
Mappings between 32-bit Internet addresses and 8-bit ARCNET node
ids could be accomplished through ARP. Internet addresses are
assigned arbitrarily on some Internet networks. All
implementations supporting ARP must have a means of disabling ARP
and using the above Host Number Extraction method of address
mapping so that systems may interoperate.
The use of ARP is optional. However, ARP is desirable when using
IP implementations that don't support subnetting [[7](#ref-7 ""Internet Standard Subnetting Procedure"")], as in the
Proxy ARP scenario [[8](#ref-8 ""Using ARP to Implement Transparent Subnet Gateways"")].
Broadcast Address
The broadcast Internet address (the address on the network with a host part of all binary ones) should be mapped to the broadcast node id 0.
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RFC 1051 IP and ARP on ARCNET March 1988
References
[1] Postel, J., "Internet Protocol", RFC-791, Network Information Center, SRI, September 1981.
[2] Plummer, D., "An Ethernet Address Resolution Protocol", RFC- 826, Network Information Center, SRI, November 1982.
[3] "ARCNET Designer's Handbook", Order Number 61610, Datapoint Corporation, 1983.
[4] Postel, J., "The TCP Maximum Segment Size Option and Related Topics", RFC-879, Network Information Center, SRI, November 1983.
[5] Postel, J., "A Standard for the Transmission of IP Datagrams over Experimental Ethernet Networks", RFC-895, Network Information Center, SRI, April 1984.
[6] "ProNET-10 Model p1300 IBM PC Interface System Installation and Programming Guide", Version 4.0, Proteon Inc., July 1986.
[7] Mogul, J. and J. Postel, "Internet Standard Subnetting Procedure", RFC-950, Network Information Center, SRI, October 1984.
[8] Carl-Mitchell, S. and J.S. Quarterman, "Using ARP to Implement Transparent Subnet Gateways", RFC-1027, Network Information Center, SRI, October 1987.
[9] Reynolds, J., and J. Postel, "Assigned Numbers", RFC-1010, Network Information Center, SRI, May 1987.
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