Add proof of fortification

This commit is contained in:
jude 2023-04-21 20:39:58 +01:00
parent a1eba884bc
commit 8eb68d3fe0
2 changed files with 123 additions and 7 deletions

View File

@ -1,6 +1,6 @@
import { mod_exp } from "./math.js";
export const KEY_SIZE = 2048;
export const KEY_SIZE = 512;
export function cryptoRandom(bits) {
if (bits === undefined) {
@ -100,8 +100,7 @@ export function generate_prime() {
export function generate_safe_prime() {
while (true) {
let n = generate_prime();
// This does not generate safe primes! But it takes forever to find safe primes of size 1024, so this will do.
if (small_prime_test((n - 1n) / 2n) /* && miller_rabin((n - 1n) / 2n, 40) */) {
if (small_prime_test((n - 1n) / 2n) && miller_rabin((n - 1n) / 2n, 40)) {
return n;
}
}

View File

@ -1,4 +1,5 @@
import { cryptoRandom } from "../crypto/random_primes.js";
import { Region } from "./map.js";
function cryptoRange(upper) {
// This is ridiculous: why implement a BigInt primitive, have it behave like a number, and then _not_ offer
@ -298,4 +299,120 @@ window.verifyRange = verifyRange;
* - We also attach some form of adjacency guarantee: that is, we prove the sums on all adjacent pairs are zero
* - We also attach a range proof for the new region values
*/
export function proveFortify() {}
export function proveFortify(fortify) {
let proofs = [];
let privateInputs = [];
let regionNames = Object.keys(fortify).sort();
for (let x = 0; x < ROUNDS; x++) {
let psi = cryptoShuffle(structuredClone(regionNames)).join("");
let psiMap = {};
for (let i = 0; i < regionNames.length; i++) {
psiMap[regionNames[i]] = psi[i];
}
let newRegions = structuredClone(fortify);
// Rearrange keys
for (let r of regionNames) {
newRegions[psiMap[r]] = fortify[r].pubKey.encrypt(fortify[r].plainText);
}
let edges = [];
let proofEdges = [];
// Attach edges
for (let i = 0; i < regionNames.length; i++) {
let region = regionNames[i];
let psiRegion = psi[i];
for (let n of Region.getRegion(region).neighbours) {
if (regionNames.includes(n.name)) {
let psiNeighbour = psiMap[n.name];
if (psiNeighbour > psiRegion) {
let salt = cryptoRandom(128);
let hasher = new jsSHA("SHA3-256", "TEXT");
hasher.update(psiRegion);
hasher.update(psiNeighbour);
hasher.update(salt.toString(16));
let hash = hasher.getHash("HEX");
edges.push({
hash: hash,
salt: salt,
edge: [psiRegion, psiNeighbour],
});
proofEdges.push(hash);
}
}
}
}
newRegions.edges = cryptoShuffle(proofEdges);
proofs.push(newRegions);
privateInputs.push({
psi: psi,
edges: edges,
});
}
let coins = getCoins(JSON.stringify(proofs));
let verifications = [];
for (let i = 0; i < ROUNDS; i++) {
let coin = coins[i];
let proof = proofs[i];
let input = privateInputs[i];
if (coin === 1) {
// Show |S| - 2 zeroes
let verification = {
regions: {},
};
let pairCipherText = null;
let pair = [];
for (let r of regionNames) {
if (proof[r].plainText === 0n) {
verification.regions[r] = proof[r].proveNI();
} else if (pairCipherText === null) {
pairCipherText = proof[r].clone();
pair.push(r);
} else {
pairCipherText.update(proof[r]);
verification.pairCipherText = pairCipherText.proveNI();
pair.push(r);
}
}
// Show pair is joined by edge
let pairName = pair.sort();
console.log(input);
verification.pairEdgeSalt = input.edges.find(
(e) => e.edge[0] === pairName[0] && e.edge[1] === pairName[1]
);
verifications.push(verification);
} else {
// Show isomorphism
verifications.push({
psi: input.psi,
salts: input.edges.map((e) => e.salt),
});
}
}
return {
fortify: fortify,
proofs: proofs,
verifications: verifications,
};
}
window.proveFortify = proveFortify;
function verifyFortify(obj, key) {}
// proveRegions({A:paillier.pubKey.encrypt(0n),B:paillier.pubKey.encrypt(3n),C:paillier.pubKey.encrypt(-3n),D:paillier.pubKey.encrypt(0n),E:paillier.pubKey.encrypt(0n)})