Dear colleagues:
I just uploaded a minor update of the draft.
Main change is that intended status is now "standards track" (rather
than informational). This should take into account iana code point
assignment requests, which apparently require this status. {I was told
this could also be BCP, but I am not savvy enough on IETF processes to
know what would work best (although bcp sounds pretty cool).
tiny edits:
- changed "bit-size" to "bit-length" and "byte-size" to "byte-length
throughout (to make this fit with defined terms ad verbatim);
- three minor editorial changes to help out the audience (in case they
would have trouble with this themselves), viz. (a) added a sentence to
Appendix B.1 on how to generate a random high-order point R:=k*P; (b)
added a table in Appendix P.2 (Table 3) on how many random bits one
needs to generate this k with negligible bias (this simply plugs in
values in formulas that were there, organizing this in a simple table);
(c) added a table at the end of Appendix K.6 (Table 2), which codifies
in easy to grasp way the main crux of an otherwise difficult to read
mathematical paper, organizing this in a simple table (earlier, I had
simply referred to the paper).
- one more editorial change: (d) added a short note to Appendix K.2
(Note 1) to debunk the myth that inversion (as used during ECDSA) is leaky.
While these changes are editorial, I have seen ongoing confusion on how
many random bits one needs to create, e..g, a pseudorandom private key,
etc., (even in cfrg) and on what is leaky or not (cose), that I thought
to simply roll-up my sleeves and add this to the document as a service
to the community.
Main change, though, is that the doc has a different status. I hope this
helps.
Best regards, Rene
On 2020-11-03 10:04 a.m., Rene Struik wrote:
Dear colleagues:
I updated the draft so as to take into account the comments received
during IETF Last Call.
Changes:
- added verbiage on use of Wei25519 and Wei448 with PKIX and CMS (now
Section 11) and request for OIDs to support this (now Section 12.1);
- changed requested COSE algorithm registration values: (Section 12.2)
ECDSA25519 (was: -1; now: -9); ECDH25519 (was: -2; now: -24 {still
1-octet, though}); (Section 12.3) ECDSA448 (was: -47; now: -48);
ECDH448 (was: -47; now: -48). Note RS: here, latter change due to
usurping the value of -47 by ECDSA w/ secp256k1 and SHA256 earlier
this summer;
- added examples encodings so as to include all cousins of Curve448
(now including also Wei448.1, now Appendix O.4);
- added three more rows in Table 1 (Appendix K.4.2) so as to include
examples for all cousins of Curve448 (now including also Wei448,
Wei448.1, Wei448.-3);
- added two notes to Appendix K.6 and slightly reformulated so as to
make these auxiliary functions easier to simply cross-reference and
instantiate in future (if desired);
- fixed minor detail of 2-isogenous mapping between Wei448 and
Wei448.-3 (singling out point (tau,0) of order two in dual isogeny map
in Appendix N.2);
- slightly changed encoding example for Edwards448 curve (Appendix
O.6), to make this consistent with potential future use of randomized
representation of curve points (Appendix K.5) if one were to ever use
this for enhanced privacy in big brother-esque scenarios; {details do
not matter for current draft, though}
- some tiny editorials, including (1) consistent naming of "short"
Weierstrass curve as short-Weierstrass curves; (2) defined alternative
naming of "points in small subgroup" as "low-order points" as well
(Appendix B.1); (3) changed "smaller than 1/2" to "at most 1/2" (at
end of Appendix P.3). {here, perfectionism seems to get in the way}
While the above list seems long, almost all of this is editorial or
simply adding other example encodings. The tiny "fix" above is,
however, a fix (but probably would only be noticeable by mathematicians).
Best regards, Rene
On 2020-11-02 6:54 p.m., [email protected] wrote:
A New Internet-Draft is available from the on-line Internet-Drafts
directories.
This draft is a work item of the Light-Weight Implementation Guidance
WG of the IETF.
Title : Alternative Elliptic Curve Representations
Author : Rene Struik
Filename : draft-ietf-lwig-curve-representations-13.txt
Pages : 131
Date : 2020-11-02
Abstract:
This document specifies how to represent Montgomery curves and
(twisted) Edwards curves as curves in short-Weierstrass form and
illustrates how this can be used to carry out elliptic curve
computations using existing implementations of, e.g., ECDSA and ECDH
using NIST prime curves. We also provide extensive background
material that may be useful for implementers of elliptic curve
cryptography.
The IETF datatracker status page for this draft is:
https://datatracker.ietf.org/doc/draft-ietf-lwig-curve-representations/
There are also htmlized versions available at:
https://tools.ietf.org/html/draft-ietf-lwig-curve-representations-13
https://datatracker.ietf.org/doc/html/draft-ietf-lwig-curve-representations-13
A diff from the previous version is available at:
https://www.ietf.org/rfcdiff?url2=draft-ietf-lwig-curve-representations-13
Please note that it may take a couple of minutes from the time of
submission
until the htmlized version and diff are available at tools.ietf.org.
Internet-Drafts are also available by anonymous FTP at:
ftp://ftp.ietf.org/internet-drafts/
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