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Update floCrypto.js

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sairajzero 2021-09-24 03:31:03 +05:30
parent 5164d51146
commit 60f1a2742d
1 changed files with 307 additions and 242 deletions
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291
src/floCrypto.js
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@ -1,30 +1,36 @@
'use strict';
(function(GLOBAL) {
var floCrypto = GLOBAL.floCrypto = {};
const p = BigInteger("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2F", 16);
const ecparams = EllipticCurve.getSECCurveByName("secp256k1");
const floCrypto = GLOBAL.floCrypto = {
function exponent1() {
return p.add(BigInteger.ONE).divide(BigInteger("4"));
};
util: {
p: BigInteger("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2F", 16),
function calculateY(x) {
let exp = exponent1();
ecparams: EllipticCurve.getSECCurveByName("secp256k1"),
asciiAlternatives: ` '\n '\n“ "\n” "\n --\n— ---\n≥ >=\n≤ <=\n≠ !=\n× *\n÷ /\n← <-\n→ ->\n↔ <->\n⇒ =>\n⇐ <=\n⇔ <=>`,
exponent1: function() {
return this.p.add(BigInteger.ONE).divide(BigInteger("4"))
},
calculateY: function(x) {
let p = this.p;
let exp = this.exponent1();
// x is x value of public key in BigInteger format without 02 or 03 or 04 prefix
return x.modPow(BigInteger("3"), p).add(BigInteger("7")).mod(p).modPow(exp, p);
};
function getUncompressedPublicKey(compressedPublicKey) {
return x.modPow(BigInteger("3"), p).add(BigInteger("7")).mod(p).modPow(exp, p)
},
getUncompressedPublicKey: function(compressedPublicKey) {
const p = this.p;
// Fetch x from compressedPublicKey
let pubKeyBytes = Crypto.util.hexToBytes(compressedPublicKey);
const prefix = pubKeyBytes.shift(); // remove prefix
const prefix = pubKeyBytes.shift() // remove prefix
let prefix_modulus = prefix % 2;
pubKeyBytes.unshift(0); // add prefix 0
let x = new BigInteger(pubKeyBytes);
let xDecimalValue = x.toString();
pubKeyBytes.unshift(0) // add prefix 0
let x = new BigInteger(pubKeyBytes)
let xDecimalValue = x.toString()
// Fetch y
let y = calculateY(x);
let y = this.calculateY(x);
let yDecimalValue = y.toString();
// verify y value
let resultBigInt = y.mod(BigInteger("2"));
@ -35,63 +41,63 @@
x: xDecimalValue,
y: yDecimalValue
};
};
},
function getSenderPublicKeyString() {
getSenderPublicKeyString: function() {
privateKey = ellipticCurveEncryption.senderRandom();
senderPublicKeyString = ellipticCurveEncryption.senderPublicString(privateKey);
return {
privateKey: privateKey,
senderPublicKeyString: senderPublicKeyString
};
};
}
},
function deriveSharedKeySender(receiverCompressedPublicKey, senderPrivateKey) {
try {
let receiverPublicKeyString = getUncompressedPublicKey(receiverCompressedPublicKey);
deriveSharedKeySender: function(receiverCompressedPublicKey, senderPrivateKey) {
let receiverPublicKeyString = this.getUncompressedPublicKey(receiverCompressedPublicKey);
var senderDerivedKey = ellipticCurveEncryption.senderSharedKeyDerivation(
receiverPublicKeyString.x, receiverPublicKeyString.y, senderPrivateKey);
return senderDerivedKey;
} catch (error) {
return new Error(error);
};
};
},
function deriveReceiverSharedKey(senderPublicKeyString, receiverPrivateKey) {
deriveReceiverSharedKey: function(senderPublicKeyString, receiverPrivateKey) {
return ellipticCurveEncryption.receiverSharedKeyDerivation(
senderPublicKeyString.XValuePublicString,
senderPublicKeyString.YValuePublicString, receiverPrivateKey);
};
senderPublicKeyString.XValuePublicString, senderPublicKeyString.YValuePublicString, receiverPrivateKey);
},
function getReceiverPublicKeyString(privateKey) {
getReceiverPublicKeyString: function(privateKey) {
return ellipticCurveEncryption.receiverPublicString(privateKey);
};
},
function wifToDecimal(pk_wif, isPubKeyCompressed = false) {
let pk = Bitcoin.Base58.decode(pk_wif);
pk.shift();
pk.splice(-4, 4);
deriveSharedKeyReceiver: function(senderPublicKeyString, receiverPrivateKey) {
return ellipticCurveEncryption.receiverSharedKeyDerivation(
senderPublicKeyString.XValuePublicString, senderPublicKeyString.YValuePublicString, receiverPrivateKey);
},
wifToDecimal: function(pk_wif, isPubKeyCompressed = false) {
let pk = Bitcoin.Base58.decode(pk_wif)
pk.shift()
pk.splice(-4, 4)
//If the private key corresponded to a compressed public key, also drop the last byte (it should be 0x01).
if (isPubKeyCompressed == true) pk.pop();
pk.unshift(0);
privateKeyDecimal = BigInteger(pk).toString();
privateKeyHex = Crypto.util.bytesToHex(pk);
if (isPubKeyCompressed == true) pk.pop()
pk.unshift(0)
privateKeyDecimal = BigInteger(pk).toString()
privateKeyHex = Crypto.util.bytesToHex(pk)
return {
privateKeyDecimal: privateKeyDecimal,
privateKeyHex: privateKeyHex
};
};
}
}
},
//generate a random Interger within range
floCrypto.randInt = function(min, max) {
randInt: function(min, max) {
min = Math.ceil(min);
max = Math.floor(max);
return Math.floor(Math.random() * (max - min + 1)) + min;
};
},
//generate a random String within length (options : alphaNumeric chars only)
floCrypto.randString = function(length, alphaNumeric = true) {
randString: function(length, alphaNumeric = true) {
var result = '';
if (alphaNumeric)
var characters = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789';
@ -101,65 +107,73 @@
for (var i = 0; i < length; i++)
result += characters.charAt(Math.floor(Math.random() * characters.length));
return result;
};
},
//Encrypt Data using public-key
floCrypto.encryptData = function(data, publicKeyHex) {
var senderECKeyData = getSenderPublicKeyString();
var senderDerivedKey = deriveSharedKeySender(
publicKeyHex, senderECKeyData.privateKey);
encryptData: function(data, receiverCompressedPublicKey) {
var senderECKeyData = this.util.getSenderPublicKeyString();
var senderDerivedKey = this.util.deriveSharedKeySender(receiverCompressedPublicKey, senderECKeyData
.privateKey);
let senderKey = senderDerivedKey.XValue + senderDerivedKey.YValue;
let secret = Crypto.AES.encrypt(data, senderKey);
return {
secret: secret,
senderPublicKeyString: senderECKeyData.senderPublicKeyString
};
};
},
//Decrypt Data using private-key
floCrypto.decryptData = function(data, privateKeyHex) {
decryptData: function(data, myPrivateKey) {
var receiverECKeyData = {};
if (typeof privateKeyHex !== "string") throw new Error("No private key found.");
let privateKey = wifToDecimal(privateKeyHex, true);
if (typeof myPrivateKey !== "string") throw new Error("No private key found.");
let privateKey = this.util.wifToDecimal(myPrivateKey, true);
if (typeof privateKey.privateKeyDecimal !== "string") throw new Error(
"Failed to detremine your private key.");
receiverECKeyData.privateKey = privateKey.privateKeyDecimal;
var receiverDerivedKey = deriveReceiverSharedKey(
data.senderPublicKeyString, receiverECKeyData.privateKey);
var receiverDerivedKey = this.util.deriveReceiverSharedKey(data.senderPublicKeyString,
receiverECKeyData
.privateKey);
let receiverKey = receiverDerivedKey.XValue + receiverDerivedKey.YValue;
let decryptMsg = Crypto.AES.decrypt(data.secret, receiverKey);
return decryptMsg;
};
},
//Sign data using private-key
floCrypto.signData = function(data, privateKeyHex) {
signData: function(data, privateKeyHex) {
var key = new Bitcoin.ECKey(privateKeyHex);
if(key.priv === null)
return false;
key.setCompressed(true);
//var privateKeyArr = key.getBitcoinPrivateKeyByteArray();
//var privateKey = BigInteger.fromByteArrayUnsigned(privateKeyArr);
var privateKeyArr = key.getBitcoinPrivateKeyByteArray();
privateKey = BigInteger.fromByteArrayUnsigned(privateKeyArr);
var messageHash = Crypto.SHA256(data);
var messageHashBigInteger = new BigInteger(messageHash);
var messageSign = Bitcoin.ECDSA.sign(messageHashBigInteger, key.priv);
var sighex = Crypto.util.bytesToHex(messageSign);
return sighex;
};
},
//Verify signatue of the data using public-key
floCrypto.verifySign = function(data, signatureHex, publicKeyHex) {
verifySign: function(data, signatureHex, publicKeyHex) {
var msgHash = Crypto.SHA256(data);
var messageHashBigInteger = new BigInteger(msgHash);
var sigBytes = Crypto.util.hexToBytes(signatureHex);
var signature = Bitcoin.ECDSA.parseSig(sigBytes);
var publicKeyPoint = ecparams.getCurve().decodePointHex(publicKeyHex);
var verify = Bitcoin.ECDSA.verifyRaw(messageHashBigInteger,
signature.r, signature.s, publicKeyPoint);
var publicKeyPoint = this.util.ecparams.getCurve().decodePointHex(publicKeyHex);
var verify = Bitcoin.ECDSA.verifyRaw(messageHashBigInteger, signature.r, signature.s,
publicKeyPoint);
return verify;
};
},
//Generates a new flo ID and returns private-key, public-key and floID
floCrypto.generateNewID = function() {
generateNewID: function() {
try {
var key = new Bitcoin.ECKey(false);
key.setCompressed(true);
@ -167,14 +181,14 @@
floID: key.getBitcoinAddress(),
pubKey: key.getPubKeyHex(),
privKey: key.getBitcoinWalletImportFormat()
};
}
} catch (e) {
console.error(e);
};
};
}
},
//Returns public-key from private-key
floCrypto.getPubKeyHex = function(privateKeyHex) {
getPubKeyHex: function(privateKeyHex) {
if (!privateKeyHex)
return null;
var key = new Bitcoin.ECKey(privateKeyHex);
@ -182,10 +196,10 @@
return null;
key.setCompressed(true);
return key.getPubKeyHex();
};
},
//Returns flo-ID from public-key or private-key
floCrypto.getFloID = function(keyHex) {
getFloID: function(keyHex) {
if (!keyHex)
return null;
try {
@ -195,31 +209,31 @@
return key.getBitcoinAddress();
} catch (e) {
return null;
};
};
}
},
//Verify the private-key for the given public-key or flo-ID
floCrypto.verifyPrivKey = function(privateKeyHex, publicHex_ID) {
if (!privateKeyHex || !publicHex_ID)
verifyPrivKey: function(privateKeyHex, pubKey_floID, isfloID = true) {
if (!privateKeyHex || !pubKey_floID)
return false;
try {
var key = new Bitcoin.ECKey(privateKeyHex);
if (key.priv == null)
return false;
key.setCompressed(true);
if (publicHex_ID === key.getBitcoinAddress())
if (isfloID && pubKey_floID == key.getBitcoinAddress())
return true;
else if (publicHex_ID === key.getPubKeyHex())
else if (!isfloID && pubKey_floID == key.getPubKeyHex())
return true;
else
return false;
} catch (e) {
console.error(e);
};
};
}
},
//Check if the given Address is valid or not
floCrypto.validateAddr = function(inpAddr) {
validateAddr: function(inpAddr) {
if (!inpAddr)
return false;
try {
@ -227,48 +241,99 @@
return true;
} catch {
return false;
};
};
}
},
//Split the str using shamir's Secret and Returns the shares
floCrypto.createShamirsSecretShares = function(str, total_shares, threshold_limit) {
createShamirsSecretShares: function(str, total_shares, threshold_limit) {
try {
if (str.length > 0) {
var strHex = shamirSecretShare.str2hex(str);
return shamirSecretShare.share(strHex, total_shares, threshold_limit);
};
var shares = shamirSecretShare.share(strHex, total_shares, threshold_limit);
return shares;
}
return false;
} catch {
return false;
};
};
return false
}
},
//Verifies the shares and str
floCrypto.verifyShamirsSecret = function(sharesArray, str) {
if(str == false)
return false;
try {
if (sharesArray.length > 0) {
var comb = shamirSecretShare.combine(sharesArray.slice(0, sharesArray.length));
return (shamirSecretShare.hex2str(comb) === str ? true : false);
};
return false;
} catch {
return false;
};
};
verifyShamirsSecret: function(sharesArray, str) {
return (str && this.retrieveShamirSecret(sharesArray) === str)
},
//Returns the retrived secret by combining the shamirs shares
floCrypto.retrieveShamirSecret = function(sharesArray) {
retrieveShamirSecret: function(sharesArray) {
try {
if (sharesArray.length > 0) {
var comb = shamirSecretShare.combine(sharesArray.slice(0, sharesArray.length));
return shamirSecretShare.hex2str(comb);
};
comb = shamirSecretShare.hex2str(comb);
return comb;
}
return false;
} catch {
return false;
};
};
}
},
validateASCII: function(string, bool = true) {
if (typeof string !== "string")
return null;
if (bool) {
let x;
for (let i = 0; i < string.length; i++) {
x = string.charCodeAt(i);
if (x < 32 || x > 127)
return false;
}
return true;
} else {
let x, invalids = {};
for (let i = 0; i < string.length; i++) {
x = string.charCodeAt(i);
if (x < 32 || x > 127)
if (x in invalids)
invalids[string[i]].push(i)
else
invalids[string[i]] = [i];
}
if (Object.keys(invalids).length)
return invalids;
else
return true;
}
},
convertToASCII: function(string, mode = 'soft-remove') {
let chars = this.validateASCII(string, false);
if (chars === true)
return string;
else if (chars === null)
return null;
let convertor, result = string,
refAlt = {};
this.util.asciiAlternatives.split('\n').forEach(a => refAlt[a[0]] = a.slice(2));
mode = mode.toLowerCase();
if (mode === "hard-unicode")
convertor = (c) => `\\u${('000'+c.charCodeAt().toString(16)).slice(-4)}`;
else if (mode === "soft-unicode")
convertor = (c) => refAlt[c] || `\\u${('000'+c.charCodeAt().toString(16)).slice(-4)}`;
else if (mode === "hard-remove")
convertor = c => "";
else if (mode === "soft-remove")
convertor = c => refAlt[c] || "";
else
return null;
for (let c in chars)
result = result.replaceAll(c, convertor(c));
return result;
},
revertUnicode: function(string) {
return string.replace(/\\u[\dA-F]{4}/gi,
m => String.fromCharCode(parseInt(m.replace(/\\u/g, ''), 16)));
}
}
})(typeof global !== "undefined" ? global : window);