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const tester = require("../c/buildasm/buildzqfieldtester.js");
const ZqField = require("fflib").ZqField;
const bigInt = require("big-integer");
const bn128q = new bigInt("21888242871839275222246405745257275088696311157297823662689037894645226208583");
const bn128r = new bigInt("21888242871839275222246405745257275088548364400416034343698204186575808495617");
const secp256k1q = new bigInt("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2F", 16);
const secp256k1r = new bigInt("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141", 16);
const mnt6753q = new bigInt("41898490967918953402344214791240637128170709919953949071783502921025352812571106773058893763790338921418070971888458477323173057491593855069696241854796396165721416325350064441470418137846398469611935719059908164220784476160001");
const mnt6753r = new bigInt("41898490967918953402344214791240637128170709919953949071783502921025352812571106773058893763790338921418070971888253786114353726529584385201591605722013126468931404347949840543007986327743462853720628051692141265303114721689601");
describe("field asm test", function () {
this.timeout(1000000000);
/*
it("bn128r add", async () => {
const tv = buildTestVector2(bn128r, "add");
await tester(bn128r, tv);
});
it("secp256k1q add", async () => {
const tv = buildTestVector2(secp256k1q, "add");
await tester(secp256k1q, tv);
});
it("mnt6753q add", async () => {
const tv = buildTestVector2(mnt6753q, "add");
await tester(mnt6753q, tv);
});
it("bn128r sub", async () => {
const tv = buildTestVector2(bn128r, "sub");
await tester(bn128r, tv);
});
it("secp256k1q sub", async () => {
const tv = buildTestVector2(secp256k1q, "sub");
await tester(secp256k1q, tv);
});
it("mnt6753q sub", async () => {
const tv = buildTestVector2(mnt6753q, "sub");
await tester(mnt6753q, tv);
});
it("bn128r neg", async () => {
const tv = buildTestVector1(bn128r, "neg");
await tester(bn128r, tv);
});
it("secp256k1q neg", async () => {
const tv = buildTestVector1(secp256k1q, "neg");
await tester(secp256k1q, tv);
});
it("mnt6753q neg", async () => {
const tv = buildTestVector1(mnt6753q, "neg");
await tester(mnt6753q, tv);
});
it("bn128r mul", async () => {
const tv = buildTestVector2(bn128r, "mul");
await tester(bn128r, tv);
});
it("secp256k1q mul", async () => {
const tv = buildTestVector2(secp256k1q, "mul");
await tester(secp256k1q, tv);
});
it("mnt6753q mul", async () => {
const tv = buildTestVector2(mnt6753q, "mul");
await tester(mnt6753q, tv);
});
it("bn128r binary and", async () => {
const tv = buildTestVector2(bn128r, "band");
await tester(bn128r, tv);
});
it("secp256k1q binary and", async () => {
const tv = buildTestVector2(secp256k1q, "band");
await tester(secp256k1q, tv);
});
it("mnt6753q binary and", async () => {
const tv = buildTestVector2(mnt6753q, "band");
await tester(mnt6753q, tv);
});
it("bn128r binary or", async () => {
const tv = buildTestVector2(bn128r, "bor");
await tester(bn128r, tv);
});
it("secp256k1q binary or", async () => {
const tv = buildTestVector2(secp256k1q, "bor");
await tester(secp256k1q, tv);
});
it("mnt6753q binary or", async () => {
const tv = buildTestVector2(mnt6753q, "bor");
await tester(mnt6753q, tv);
});
it("bn128r binary xor", async () => {
const tv = buildTestVector2(bn128r, "bxor");
await tester(bn128r, tv);
});
it("secp256k1q binary xor", async () => {
const tv = buildTestVector2(secp256k1q, "bxor");
await tester(secp256k1q, tv);
});
it("mnt6753q binary xor", async () => {
const tv = buildTestVector2(mnt6753q, "bxor");
await tester(mnt6753q, tv);
});
it("bn128r eq", async () => {
const tv = buildTestVector2(bn128r, "eq");
await tester(bn128r, tv);
});
it("secp256k1q eq", async () => {
const tv = buildTestVector2(secp256k1q, "eq");
await tester(secp256k1q, tv);
});
*/
it("mnt6753q eq", async () => {
const tv = buildTestVector2(mnt6753q, "eq");
await tester(mnt6753q, tv);
});
/*
it("bn128r neq", async () => {
const tv = buildTestVector2(bn128r, "neq");
await tester(bn128r, tv);
});
it("secp256k1q neq", async () => {
const tv = buildTestVector2(secp256k1q, "neq");
await tester(secp256k1q, tv);
});
*/
it("mnt6753q neq", async () => {
const tv = buildTestVector2(mnt6753q, "neq");
await tester(mnt6753q, tv);
});
/*
it("bn128r lt", async () => {
const tv = buildTestVector2(bn128r, "lt");
await tester(bn128r, tv);
});
it("secp256k1q lt", async () => {
const tv = buildTestVector2(secp256k1q, "lt");
await tester(secp256k1q, tv);
});
*/
it("mnt6753q lt", async () => {
const tv = buildTestVector2(mnt6753q, "lt");
await tester(mnt6753q, tv);
});
/*
it("bn128r gt", async () => {
const tv = buildTestVector2(bn128r, "gt");
await tester(bn128r, tv);
});
it("secp256k1q gt", async () => {
const tv = buildTestVector2(secp256k1q, "gt");
await tester(secp256k1q, tv);
});
*/
it("mnt6753q gt", async () => {
const tv = buildTestVector2(mnt6753q, "gt");
await tester(mnt6753q, tv);
});
/*
it("bn128r leq", async () => {
const tv = buildTestVector2(bn128r, "leq");
await tester(bn128r, tv);
});
it("secp256k1q leq", async () => {
const tv = buildTestVector2(secp256k1q, "leq");
await tester(secp256k1q, tv);
});
*/
it("mnt6753q leq", async () => {
const tv = buildTestVector2(mnt6753q, "leq");
await tester(mnt6753q, tv);
});
/*
it("bn128r geq", async () => {
const tv = buildTestVector2(bn128r, "geq");
await tester(bn128r, tv);
});
it("secp256k1q geq", async () => {
const tv = buildTestVector2(secp256k1q, "geq");
await tester(secp256k1q, tv);
});
*/
it("mnt6753q geq", async () => {
const tv = buildTestVector2(mnt6753q, "geq");
await tester(mnt6753q, tv);
});
});
function buildTestVector2(p, op) {
const F = new ZqField(p);
const tv = [];
const nums = getCriticalNumbers(p, 2);
const excludeZero = ["div", "mod"].indexOf(op) >= 0;
for (let i=0; i<nums.length; i++) {
for (let j=0; j<nums.length; j++) {
if ((excludeZero)&&(nums[j][0].isZero())) continue;
tv.push([
[nums[i][1], nums[j][1], op],
F[op](nums[i][0], nums[j][0])
]);
}
}
return tv;
}
function buildTestVector1(p, op) {
const F = new ZqField(p);
const tv = [];
const nums = getCriticalNumbers(p, 2);
const excludeZero = ["inv"].indexOf(op) >= 0;
for (let i=0; i<nums.length; i++) {
if ((excludeZero)&&(nums[i][0].isZero())) continue;
tv.push([
[nums[i][1], op],
F[op](nums[i][0])
]);
}
return tv;
}
function getCriticalNumbers(p, lim) {
const numbers = [];
addFrontier(0);
addFrontier(bigInt.one.shiftLeft(31));
addFrontier(p.minus(bigInt.one.shiftLeft(31)));
addFrontier(bigInt.one.shiftLeft(32));
addFrontier(p.minus(bigInt.one.shiftLeft(32)));
addFrontier(bigInt.one.shiftLeft(63));
addFrontier(p.minus(bigInt.one.shiftLeft(63)));
addFrontier(bigInt.one.shiftLeft(64));
addFrontier(p.minus(bigInt.one.shiftLeft(64)));
addFrontier(bigInt.one.shiftLeft(p.bitLength()-1));
addFrontier(p.shiftRight(1));
function addFrontier(f) {
for (let i=-lim; i<=lim; i++) {
let n = bigInt(f).add(bigInt(i));
n = n.mod(p);
if (n.isNegative()) n = p.add(n);
addNumber(n);
}
}
return numbers;
function addNumber(n) {
if (n.lt(bigInt("80000000", 16)) ) {
addShortPositive(n);
addShortMontgomeryPositive(n);
}
if (n.geq(p.minus(bigInt("80000000", 16))) ) {
addShortNegative(n);
addShortMontgomeryNegative(n);
}
addLongNormal(n);
addLongMontgomery(n);
function addShortPositive(a) {
numbers.push([a, "0x"+a.toString(16)]);
}
function addShortMontgomeryPositive(a) {
let S = "0x" + bigInt("40", 16).shiftLeft(56).add(a).toString(16);
S = S + "," + getLongString(toMontgomery(a));
numbers.push([a, S]);
}
function addShortNegative(a) {
const b = bigInt("80000000", 16 ).add(a.minus( p.minus(bigInt("80000000", 16 ))));
numbers.push([a, "0x"+b.toString(16)]);
}
function addShortMontgomeryNegative(a) {
const b = bigInt("80000000", 16 ).add(a.minus( p.minus(bigInt("80000000", 16 ))));
let S = "0x" + bigInt("40", 16).shiftLeft(56).add(b).toString(16);
S = S + "," + getLongString(toMontgomery(a));
numbers.push([a, S]);
}
function addLongNormal(a) {
let S = "0x" + bigInt("80", 16).shiftLeft(56).toString(16);
S = S + "," + getLongString(a);
numbers.push([a, S]);
}
function addLongMontgomery(a) {
let S = "0x" + bigInt("C0", 16).shiftLeft(56).toString(16);
S = S + "," + getLongString(toMontgomery(a));
numbers.push([a, S]);
}
function getLongString(a) {
if (a.isZero()) {
return "0x0";
}
let r = a;
let S = "";
while (!r.isZero()) {
if (S!= "") S = S+",";
S += "0x" + r.and(bigInt("FFFFFFFFFFFFFFFF", 16)).toString(16);
r = r.shiftRight(64);
}
return S;
}
function toMontgomery(a) {
const n64 = Math.floor((p.bitLength() - 1) / 64)+1;
const R = bigInt.one.shiftLeft(n64*64);
return a.times(R).mod(p);
}
}
}