be58b5e128
Signed-off-by: Daira Hopwood <daira@jacaranda.org> |
||
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Ep | ||
Eq | ||
.gitignore | ||
LICENSE | ||
README.md | ||
addchain_5inv.py | ||
addchain_7inv.py | ||
addchain_sqrt.py | ||
amicable.sage | ||
animation-p.webm | ||
animation-q.webm | ||
animation.sh | ||
checksumsets.py | ||
clean.sh | ||
injectivitylemma.py | ||
run.sh | ||
squareroot.sage | ||
squareroottab.sage | ||
verify.sage |
README.md
Pallas/Vesta supporting evidence
This repository contains supporting evidence that the amicable pair of prime-order curves:
- Ep : y^2 = x^3 + 5 over GF(p) of order q, called Pallas;
- Eq : y^2 = x^3 + 5 over GF(q) of order p, called Vesta;
with
- p = 2^254 + 45560315531419706090280762371685220353
- q = 2^254 + 45560315531506369815346746415080538113
satisfy some of the SafeCurves criteria.
The criteria that are not satisfied are, in summary:
- large-magnitude CM discriminant (both curves have CM discriminant of absolute value 3, as a consequence of how they were constructed);
- completeness (complete formulae are possible, but not according to the Safe curves criterion);
- ladder support (not possible for prime-order curves);
- Elligator 2 support (indistinguishability is possible using Elligator Squared, but not using Elligator 2);
- twist security above 100 bits for Pallas.
Pallas/Vesta is the first cycle output by
sage amicable.sage --sequential --requireisos --sortpq --ignoretwist --nearpowerof2 255 32
.
(The --sequential
option makes the output completely deterministic and so resolves
ambiguity about which result is "first". For exploratory searches it is faster not to
use --sequential
.)
Prerequisites:
apt-get install sagemath
Run sage verify.sage Ep
and sage verify.sage Eq
; or ./run.sh
to run both
and also print out the results.
The output of amicable.sage
with the above options includes isogenies of degree 3,
suitable for use with the "simplified SWU" method for hashing to an elliptic curve.
This is based on code from Appendix A of Wahby and Boneh 2019.
To check the correctness of the endomorphism optimization described in the Halo paper, run
python3 injectivitylemma.py
and python3 checksumsets.py
. To also generate animations
showing the minimum distances between multiples of ζ used in the proof, run ./animation.sh
.
animation.sh
has the following prerequisites:
apt-get install ffmpeg ffcvt
pip3 install bintrees Pillow
checksumsets.py
on its own only requires the bintrees
Python package.