nomos-pocs/circom_circuits/Jubjub/montgomeryJubjub.circom

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/*
Copyright 2018 0KIMS association.
This file is part of circom (Zero Knowledge Circuit Compiler).
circom is a free software: you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
circom is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
License for more details.
You should have received a copy of the GNU General Public License
along with circom. If not, see <https://www.gnu.org/licenses/>.
*/
/*
Source: https://en.wikipedia.org/wiki/Montgomery_curve
1 + y 1 + y
[u, v] = [ ------- , ---------- ]
1 - y (1 - y)x
*/
pragma circom 2.0.0;
template Edwards2Montgomery() {
signal input in[2];
signal output out[2];
out[0] <-- (1 + in[1]) / (1 - in[1]);
out[1] <-- out[0] / in[0];
out[0] * (1-in[1]) === (1 + in[1]);
out[1] * in[0] === out[0];
}
/*
u u - 1
[x, y] = [ ---, ------- ]
v u + 1
*/
template Montgomery2Edwards() {
signal input in[2];
signal output out[2];
out[0] <-- in[0] / in[1];
out[1] <-- (in[0] - 1) / (in[0] + 1);
out[0] * in[1] === in[0];
out[1] * (in[0] + 1) === in[0] - 1;
}
/*
x2 - x1
lamda = ---------
y2 - y1
x3 + A + x1 + x2
x3 = B * lamda^2 - A - x1 -x2 => lamda^2 = ------------------
B
y3 = (2*x1 + x2 + A)*lamda - B*lamda^3 - y1 =>
=> y3 = lamda * ( 2*x1 + x2 + A - x3 - A - x1 - x2) - y1 =>
=> y3 = lamda * ( x1 - x3 ) - y1
----------
y2 - y1
lamda = ---------
x2 - x1
x3 = B * lamda^2 - A - x1 -x2
y3 = lamda * ( x1 - x3 ) - y1
*/
template MontgomeryAdd() {
signal input in1[2];
signal input in2[2];
signal output out[2];
var a = 0x73eda753299d7d483339d80809a1d80553bda402fffe5bfeffffffff00000000;
var d = 0x2a9318e74bfa2b48f5fd9207e6bd7fd4292d7f6d37579d2601065fd6d6343eb1;
var A = (2 * (a + d)) / (a - d);
var B = 4 / (a - d);
signal lamda;
lamda <-- (in2[1] - in1[1]) / (in2[0] - in1[0]);
lamda * (in2[0] - in1[0]) === (in2[1] - in1[1]);
out[0] <== B*lamda*lamda - A - in1[0] -in2[0];
out[1] <== lamda * (in1[0] - out[0]) - in1[1];
}
/*
x1_2 = x1*x1
3*x1_2 + 2*A*x1 + 1
lamda = ---------------------
2*B*y1
x3 = B * lamda^2 - A - x1 -x1
y3 = lamda * ( x1 - x3 ) - y1
*/
template MontgomeryDouble() {
signal input in[2];
signal output out[2];
var a = 0x73eda753299d7d483339d80809a1d80553bda402fffe5bfeffffffff00000000;
var d = 0x2a9318e74bfa2b48f5fd9207e6bd7fd4292d7f6d37579d2601065fd6d6343eb1;
var A = (2 * (a + d)) / (a - d);
var B = 4 / (a - d);
signal lamda;
signal x1_2;
x1_2 <== in[0] * in[0];
lamda <-- (3*x1_2 + 2*A*in[0] + 1 ) / (2*B*in[1]);
lamda * (2*B*in[1]) === (3*x1_2 + 2*A*in[0] + 1 );
out[0] <== B*lamda*lamda - A - 2*in[0];
out[1] <== lamda * (in[0] - out[0]) - in[1];
}