- This is a set of comments on Dave Walden's RFC 687 suggesting a set of
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- changes to the host--imp protocol. Dave's points are reproduced here
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- with my comments underneath.
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- 1 Expanded Leader Size. The leader will be expanded from two to five
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- 16-bit words. This will provide space for necessary field expansions
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- and additions.
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The existing protocols set the host header at 40 bits so that taken
together with the leader the length was 72 bits; a nice boundary for
both 8 bit and 36 bit machines. This suggestion would result in a
prefix of 80 + 40 = 120 bits, not so nice (unless the host header is
extended to 64 bits for a total prefix of 144 bits).
- 2 Expanded Address Field. The address field will be expanded to 24
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- bit, 16 bits of IMP address and 8 bits of host address. This expansion
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- is more than adequate for any foreseeable ARPA Network growth.
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Just a few years ago 256 seemed like a lot of hosts, perhaps, a
extensible scheme might be more appropriate. (I concede 16,777,216,
is big)
- 3 New Message Length Field. A new field will be added which will allow
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- the source host to optionally specify the message length (in bits) to
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- the IMP subnetwork. The IMP subnetwork may be able to use this
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- information (when available) to better utilize network buffer storage.
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- The destination host may also be able to use this information to better
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- utilize its buffer storage. This field will be 13 bits wide.
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This sound very useful, but if we every want to have longer messages
than now the field should be wider, say 16 bits.
- 4 Expanded Handling Type Field. The handling type field which now is
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- used to distinguish between priority and non-priority message streams,
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- etc., will be expanded to eight bits. This expanded field will provide
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- for the possibility of a number of parallel message streams having
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- different handling characteristics between pairs of hosts; e.g.,
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- priority, non-priority, varying numbers of packets per message (see
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- below), unordered messages (i.e. the present type-3 messages), a message
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- stream requiring guaranteed capacity, etc, Note that only some of these
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- facilities will be available in the near term.
-
This sounds like a good extension.
- 5 Source Host Control of Packets per Message. The possibility will
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- exist for the source host to specify a message stream which will use a
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- given number of packets per multi-packet message (e.g. two packets per
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- message or five packets per message). Since the IMP network will not
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- have to use eight packet-buffers for reassembly purposes, as at present,
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- this may result in better services for such messages. This will help
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- users who need both low delay and high throughput.
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This seems strange, why not use the message length (as provided in 3
above) to determine the number of packets needed for this message.
- 6 Unordered (type-3) Message Change. Unordered messages will be
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- indicated by a handling type rather than by a message type as at
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- present. This is compatible with the need to check the host access
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- control capabilities of all messages. This will provide a slight
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- backward incompatibility for the three or so hosts which presently use
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- type-3 messages in their research.
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Good, a current special case becomes a general facility.
- 7 Change in Format of Fake Host Addresses. The For/From IMP bit will
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- be eliminated. The fake host addresses will be the four highest host
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- numbers (e.g. IMP Teletype will be host 252).
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Another change for the better.
- 8 Addition of a Parameter to the IMP to Host NOP. The IMP to host NOP
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- will have added to it a parameter specifying the address (IMP and host
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- number) of the host.
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Ah, a clever touch, very handy.
- 9 Backward Compatibility. The old and new formats will be supported in
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- parallel in the IMPs for the foreseeable future to allow gradual
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- phaseover of host software. A host will be able to specify to its IMP
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- whether the old or new formats are to be used; thus, it will be possible
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- for the host to specify switching back and forth between the two modes
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- for debugging purposes. The specification of the mode to be used will
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- be possible via a proper choice of format in the host to IMP NOP
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- message; The IMP will use the mode of the Host to IMP NOP message the
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- IMP has received. Further, a host may select to use either the old or
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- new format without needing to know more about the other format message
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- than to discard them should they arrive. The IMP will initialize by
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- sending several NOP messages of each type to give the hosts its choice.
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- Although a host not implementing the new format will not be able to
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- address hosts on IMPs with IMP-number greater than 63, the IMPs will
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- wherever possible do the conversion necessary to permit hosts using the
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- old format to communicate with hosts using the new format and the
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- reverse. Finally, it will be possible to convert the leader format from
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- old to new or the reverse without knowledge of the message type.
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This sounds difficult to implement, but it is all in the imp, so
fine. Of course, something along these lines is crucial in an
operating environment. But I am beginning to get concerned about
changes to host--host protocol and network control programs.
[What happened to 10?]
- 11 Non-blocking Host Interface. A mechanism will be provided which
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- allows the IMP to refuse a message from a host without blocking the host
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- interface. This mechanism will permit the IMP to gather the necessary
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- resources to send the refused message and then ask the host to resend
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- the message. Finally, the host will be permitted to ask to be able to
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- send a message and be notified when it is possible without requiring the
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- message to actually be sent and refused.
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This is another welcome addition.
- 12 Maximum Message Length. The maximum number of bits of data in a
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- message may be reduced by a few bits.
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I don't see why, but it doesn't matter much.
- On the whole a fine set of suggestion, though I am concerned about
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- changes to host--host protocol implied here or made more desirable by
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- these suggestions. A rough guess is that there is easily a couple of
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- person-months of system programmer time for each operating system on the
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- net implied here. Say 24 systems times 2 person-months each equals 48
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- person-months equals 4 person-years. And this may be the lower bound.
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[ This RFC was put into machine readable form for entry ]
[ into the online RFC archives by Alex McKenzie with ]
[ support from GTE, formerly BBN Corp. 11/99 ]
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