const bn128 = require("snarkjs").bn128;
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const bigInt = require("snarkjs").bigInt;
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const babyJub = require("./babyjub");
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const assert = require("assert");
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const createBlakeHash = require("blake-hash");
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const GENPOINT_PREFIX = "Iden3_PedersenGenerator";
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const windowSize = 4;
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const nWindowsPerSegment = 50;
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exports.hash = pedersenHash;
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exports.getBasePoint = getBasePoint;
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function pedersenHash(msg) {
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const bitsPerSegment = windowSize*nWindowsPerSegment;
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const bits = buffer2bits(msg);
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const nSegments = Math.floor((bits.length - 1)/(windowSize*nWindowsPerSegment)) +1;
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let accP = [bigInt.zero,bigInt.one];
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for (let s=0; s<nSegments; s++) {
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let nWindows;
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if (s == nSegments-1) {
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nWindows = Math.floor(((bits.length - (nSegments - 1)*bitsPerSegment) - 1) / windowSize) +1;
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} else {
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nWindows = nWindowsPerSegment;
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}
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let escalar = bigInt.zero;
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let exp = bigInt.one;
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for (let w=0; w<nWindows; w++) {
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let o = s*bitsPerSegment + w*windowSize;
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let acc = bigInt.one;
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for (let b=0; ((b<windowSize-1)&&(o<bits.length)) ; b++) {
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if (bits[o]) {
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acc = acc.add( bigInt.one.shl(b) );
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}
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o++;
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}
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if (o<bits.length) {
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if (bits[o]) {
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acc = acc.neg();
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}
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o++;
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}
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escalar = escalar.add(acc.mul(exp));
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exp = exp.shl(windowSize+1);
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}
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if (escalar.lesser(bigInt.zero)) {
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escalar = babyJub.subOrder.add(escalar);
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}
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accP = babyJub.addPoint(accP, babyJub.mulPointEscalar(getBasePoint(s), escalar));
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}
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return babyJub.packPoint(accP);
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}
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let bases = [];
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function getBasePoint(pointIdx) {
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if (pointIdx<bases.length) return bases[pointIdx];
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let p= null;
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let tryIdx = 0;
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while (p==null) {
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const S = GENPOINT_PREFIX + "_" + padLeftZeros(pointIdx, 32) + "_" + padLeftZeros(tryIdx, 32);
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const h = createBlakeHash("blake256").update(S).digest();
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h[31] = h[31] & 0xBF; // Set 255th bit to 0 (256th is the signal and 254th is the last possible bit to 1)
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p = babyJub.unpackPoint(h);
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tryIdx++;
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}
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const p8 = babyJub.mulPointEscalar(p, 8);
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assert(babyJub.inSubgroup(p8), "Point not in curve");
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bases[pointIdx] = p8;
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return p8;
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}
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function padLeftZeros(idx, n) {
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let sidx = "" + idx;
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while (sidx.length<n) sidx = "0"+sidx;
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return sidx;
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}
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/*
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Input a buffer
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Returns an array of booleans. 0 is LSB of first byte and so on.
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*/
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function buffer2bits(buff) {
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const res = new Array(buff.length*8);
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for (let i=0; i<buff.length; i++) {
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const b = buff[i];
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res[i*8] = b & 0x01;
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res[i*8+1] = b & 0x02;
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res[i*8+2] = b & 0x04;
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res[i*8+3] = b & 0x08;
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res[i*8+4] = b & 0x10;
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res[i*8+5] = b & 0x20;
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res[i*8+6] = b & 0x40;
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res[i*8+7] = b & 0x80;
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}
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return res;
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}
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