233 lines
4.9 KiB
JavaScript
Executable file
233 lines
4.9 KiB
JavaScript
Executable file
/*
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Cryptography functions written by Bingsheng Zhang
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Uses the milagro-crypto-js library at:
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https://github.com/milagro-crypto/milagro-crypto-js
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*/
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//Group parameter generator: returns rng object and generators g1,g2 for G1,G2 as well as order
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gpGen = function(){
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//init, and base generators
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var ctx = new CTX("BN254CX");
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var n=new ctx.BIG(0); n.rcopy(ctx.ROM_CURVE.CURVE_Order);
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//get generator P for G1
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P = new ctx.ECP(0);
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gx = new ctx.BIG(0);
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gx.rcopy(ctx.ROM_CURVE.CURVE_Gx);
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if (ctx.ECP.CURVETYPE != ctx.ECP.MONTGOMERY) {
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gy = new ctx.BIG(0);
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gy.rcopy(ctx.ROM_CURVE.CURVE_Gy);
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P.setxy(gx, gy);
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} else P.setx(gx);
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//get generator Q for G2
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var A=new ctx.BIG(0);
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var B=new ctx.BIG(0);
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A.rcopy(ctx.ROM_CURVE.CURVE_Pxa);
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B.rcopy(ctx.ROM_CURVE.CURVE_Pxb);
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var Qx=new ctx.FP2(0); Qx.bset(A,B);
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A.rcopy(ctx.ROM_CURVE.CURVE_Pya);
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B.rcopy(ctx.ROM_CURVE.CURVE_Pyb);
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var Qy=new ctx.FP2(0); Qy.bset(A,B);
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var Q=new ctx.ECP2();
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var Q=new ctx.ECP2();
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Q.setxy(Qy,Qy);
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return{
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n:n,
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g1:P,
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g2:Q
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}
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}
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//creates ElGamal public and secret key
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keyGen=function(params){
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var ctx = new CTX("BN254CX");
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//set rng
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var RAW = [];
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var d = new Date();//time for seed, not secure
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var rng = new ctx.RAND();
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rng.clean();
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RAW[0] = d.getSeconds();
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RAW[1] = d.getMinutes();
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RAW[2] = d.getMilliseconds();
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rng.seed(3, RAW);
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//ElGamal
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var sk = new ctx.BIG(0);
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sk = ctx.BIG.randomnum(params.n,rng);
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var pk = new ctx.ECP(0);
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pk = ctx.PAIR.G1mul(params.g1,sk);
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return{
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PK:pk,
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SK:sk
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}
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}
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//combine multiple public key together
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//the input is an array of PKs
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combine=function(PKs){
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var ctx = new CTX("BN254CX");
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var pk=new ctx.ECP();
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//copy the first pk
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pk.copy(PKs[0]);
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//multiple the rest PKs
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for(i=1;i<PKs.length;i++){
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pk.add(PKs[i]);
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}
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return{
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PK:pk
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}
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}
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//ElGamal encryption
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encrypt=function(params,PK, m){
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var ctx = new CTX("BN254CX");
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//set rand
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var RAW = [];
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var d = new Date();//time for seed, not secure
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var rng = new ctx.RAND();
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rng.clean();
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RAW[0] = d.getSeconds();
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RAW[1] = d.getMinutes();
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RAW[2] = d.getMilliseconds();
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rng.seed(3, RAW);
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var r=new ctx.BIG.randomnum(params.n,rng);
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var M=new ctx.BIG(m);
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var C1=new ctx.ECP();
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C1 = ctx.PAIR.G1mul(params.g1,r);
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var gM=new ctx.ECP();
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gM = ctx.PAIR.G1mul(params.g1,M);
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var C2=new ctx.ECP();
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C2 = ctx.PAIR.G1mul(PK,r);
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C2.mul(r);
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C2.add(gM);
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return{
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C1:C1,
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C2:C2
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}
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}
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//add ciphertexts
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add=function(Ciphers){
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var ctx = new CTX("BN254CX");
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var s1=new ctx.ECP();
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var s2=new ctx.ECP();
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//copy the first cipher
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s1.copy(Ciphers[0].C1);
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s2.copy(Ciphers[0].C2);
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//multiple the rest ciphertexts
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for(i=1;i<Ciphers.length;i++){
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s1.add(Ciphers[i].C1);
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}
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//no idea why I need two loops
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for(j=1;j<Ciphers.length;j++){
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s2.add(Ciphers[j].C2);
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}
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return{
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C1:s1,
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C2:s2
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}
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}
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//ElGamal decryption
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decrypt=function(params,SK, C){
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var ctx = new CTX("BN254CX");
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var D=new ctx.ECP();
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D = ctx.PAIR.G1mul(C.C1,SK);
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var gM=new ctx.ECP();
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gM.copy(C.C2);
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gM.sub(D);
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//search for message by brute force
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var B;
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for (j = 0; j < 1000; j++) {
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//use D as temp var
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B = new ctx.BIG(j);
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D = ctx.PAIR.G1mul(params.g1,B);
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if (D.equals(gM))
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return{
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M:j
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}
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};
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return{
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M: "Error"
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}
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}
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//ElGamal partial decryption
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partDec=function(SK, C){
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var ctx = new CTX("BN254CX");
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var D=new ctx.ECP();
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D = ctx.PAIR.G1mul(C.C1,SK);
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return{
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D: D
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}
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}
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//Tally, combine partial decryption
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//Ds is the array of partial decryptions; C is the ciphertext.
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tally=function(params,Ds, C){
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var ctx = new CTX("BN254CX");
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var D=new ctx.ECP();
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D.copy(Ds[0].D);
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//combine D
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for(i=1;i<Ds.length;i++){
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D.add(Ds[i].D);
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}
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var gM=new ctx.ECP();
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gM.copy(C.C2);
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gM.sub(D);
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//search for message by brute force
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var B;
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for (j = 0; j < 1000; j++) {
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//use D as temp var
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B = new ctx.BIG(j);
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D = ctx.PAIR.G1mul(params.g1,B);
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if (D.equals(gM))
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return{
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M:j
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}
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};
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return{
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M: "Error"
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}
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}
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