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RFC 2747, "RSVP Cryptographic Authentication", January 2000

Note: This RFC has been updated by RFC 3097

Source of RFC: vgmib (int)
See Also: RFC 2747 w/ inline errata

Errata ID: 4313
Status: Verified
Type: Technical
Publication Format(s) : TEXT

Reported By: Nikolai Malykh
Date Reported: 2015-03-25
Verifier Name: Martin Stiemerling
Date Verified: 2015-04-21

Section 3.2 says:

   In this approach, we could use an NTP based timestamp value as the
   sequence number.  The roll-over period of an NTP timestamp is about
   136 years, much longer than any reasonable lifetime of a key.  In
   addition, the granularity of the NTP timestamp is fine enough to
   allow the generation of an RSVP message every 200 picoseconds for a
   given key.  Many real time clock modules do not have the resolution
   of an NTP timestamp.  In these cases, the least significant bits of
   the timestamp can be generated using a message counter, which is
   reset every clock tick.  For example, when the real time clock
   provides a resolution of 1 second, the 32 least significant bits of
   the sequence number can be generated using a message counter.  The
   remaining 32 bits are filled with the 32 least significant bits of
   the timestamp.  Assuming that the recovery time after failure takes
   longer than one tick of the real time clock, the message counter for
   the low order bits can be safely reset to zero after a restart.

It should say:

   In this approach, we could use an NTP based timestamp value as the
   sequence number.  The roll-over period of an NTP timestamp is about
   136 years, much longer than any reasonable lifetime of a key.  In
   addition, the granularity of the NTP timestamp is fine enough to
   allow the generation of an RSVP message every 200 picoseconds for a
   given key.  Many real time clock modules do not have the resolution
   of an NTP timestamp.  In these cases, the least significant bits of
   the sequence number can be generated using a message counter, which
   is reset every clock tick.  For example, when the real time clock
   provides a resolution of 1 second, the 32 least significant bits of
   the sequence number can be generated using a message counter.  The
   remaining 32 bits are filled with the 32 most significant bits of
   the timestamp.  Assuming that the recovery time after failure takes
   longer than one tick of the real time clock, the message counter for
   the low order bits can be safely reset to zero after a restart.

Notes:

32 least significant bits of the timestamp will in this case be set to zero.

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