arnaucube
/
circomlib
mirror of https://github.com/arnaucube/circomlib.git


								/*

								    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/>.

								*/


								include "constants.circom";

								include "sha256compression.circom";

								include "../bitify.circom"


								template Sha256_2() {

								    signal input a;

								    signal input b;

								    signal output out;


								    var i;

								    var k;


								    component bits2num = Bits2Num(216);

								    component num2bits[2];


								    num2bits[0] = Num2Bits(216);

								    num2bits[1] = Num2Bits(216);


								    num2bits[0].in <== a;

								    num2bits[1].in <== b;


								    component sha256compression = Sha256compression() ;


								    component ha0 = H(0);

								    component hb0 = H(1);

								    component hc0 = H(2);

								    component hd0 = H(3);

								    component he0 = H(4);

								    component hf0 = H(5);

								    component hg0 = H(6);

								    component hh0 = H(7);


								    for (k=0; k<32; k++ ) {

								        sha256compression.hin[0*32+k] <== ha0.out[k];

								        sha256compression.hin[1*32+k] <== hb0.out[k];

								        sha256compression.hin[2*32+k] <== hc0.out[k];

								        sha256compression.hin[3*32+k] <== hd0.out[k];

								        sha256compression.hin[4*32+k] <== he0.out[k];

								        sha256compression.hin[5*32+k] <== hf0.out[k];

								        sha256compression.hin[6*32+k] <== hg0.out[k];

								        sha256compression.hin[7*32+k] <== hh0.out[k];

								    }


								    for (i=0; i<216; i++) {

								        sha256compression.inp[i] <== num2bits[0].out[215-i];

								        sha256compression.inp[i+216] <== num2bits[1].out[215-i];

								    }


								    sha256compression.inp[432] <== 1;


								    for (i=433; i<503; i++) {

								        sha256compression.inp[i] <== 0;

								    }


								    sha256compression.inp[503] <== 1;

								    sha256compression.inp[504] <== 1;

								    sha256compression.inp[505] <== 0;

								    sha256compression.inp[506] <== 1;

								    sha256compression.inp[507] <== 1;

								    sha256compression.inp[508] <== 0;

								    sha256compression.inp[509] <== 0;

								    sha256compression.inp[510] <== 0;

								    sha256compression.inp[511] <== 0;


								    for (i=0; i<216; i++) {

								        bits2num.in[i] <== sha256compression.out[255-i];

								    }


								    out <== bits2num.out;

								}