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Lost message detection
RFC 534

Document Type RFC - Unknown (July 1973)
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Last updated 2013-03-02
RFC stream Legacy
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RFC 534
Network Working Group                                       David Walden
Request for Comments: 534                                        BBN-NET
NIC: 17453                                                  17 July 1973
References:  512, 516, 533

                         Lost Message Detection

   As an aside to RFC 533, note that if sending Hosts do uniquely
   identify messages on a given link using the extra four bits and
   receiving Hosts do look at these bits, a lost message detection
   system such as those suggested in RFCs 512 and 516 drops right out of
   using of the unique message-id.  These extra four bits can be treated
   as Hathaway's SCB of RFC 512 providing a 16 element sequence number
   on a per connection basis.  A 16 element sequence is sufficient as
   the IMPs never allow more than four outstanding messages at one time
   between a given pair of Hosts.  As Hathaway also suggests, the 0
   element in the sequence can be used to indicate to the receiving Host
   that sequence numbers are not being used.

   To summarize, there appear to be three modes of using the message-id
   number under Host/Host protocol:

   1. The sender can always set the extra four bits to 0 and only
      transmit one message over a given link at a time -- this is slow
      but it allows orderly retransmission of messages without any help
      from the receiver.

   2. The receiver can give no help to the sender.  In this case it
      doesn't matter whether the sender uses the extra four bits to
      uniquely identify the messages or not -- the sender has no method
      of orderly retransmission, although the sender can accurately
      identify which message was lost if the sender has uniquely
      identified the messages.

   3. The sender can have multiple messages outstanding (i.e., RFNMs not
      received) on a given link and the receiver can help the sender.
      In this case, if the sender uses the extra four bits to uniquely
      identify the messages in a way which can be synchronized with the
      receiver (e.g., sequential id numbers), the receiver can reliably
      detect lost messages.

   Although it probably will seem insufficient to some, if the sender
   and receiver use synchronized unique message-id numbers, very
   reliable retransmission schemes are readily available.  For instance,
   the sender can retransmit the appropriate messages in response to
   incomplete transmissions and the receiver can use the unique
   message-ids to sort the retransmitted messages into the proper order

Walden                                                          [Page 1]
RFC 534                  Lost Message Detection             17 July 1973

   with the other received messages.  Alternatively, the receiver can
   discard all messages received out of order and the sender can back up
   and retransmit a message for which an incomplete transmission was
   received and all subsequent messages.

         [ This RFC was put into machine readable form for entry ]
       [ into the online RFC archives by Alex McKenzie with 10/99 ]

Walden                                                          [Page 2]