node-ebics-client/lib/crypto/Crypto.js

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'use strict';
const crypto = require('crypto');
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const BigNumber = require('./BigNumber.js');
const mgf1 = require('./MGF1');
const modPow = (base, power, mod) => {
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let result = new BigNumber(1);
while (power > 0) {
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result = power.and(new BigNumber(1)) == 1 ? (result.mul(base)).mod(mod) : result; // eslint-disable-line
base = (base.mul(base)).mod(mod);
power = power.shrn(1);
}
return result;
};
const emsaPSS = (msg, salt) => {
const eightNullBytes = Buffer.from('\x00'.repeat(8));
const digestedMsg = crypto.createHash('sha256').update(msg).digest();
const mTickHash = crypto.createHash('sha256').update(Buffer.concat([eightNullBytes, digestedMsg, salt]), 'binary').digest();
const ps = Buffer.from('\x00'.repeat(190));
const db = Buffer.concat([ps, Buffer.from('\x01'), salt]);
const dbMask = mgf1.generate(mTickHash, db.length);
const maskedDb = mgf1.xor(db, dbMask);
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let maskedDbMsb = mgf1.rjust(new BigNumber(maskedDb.slice(0, 1)).toString(2), 8, '0');
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maskedDbMsb = `0${maskedDbMsb.substr(1)}`;
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// console.log((new BN(maskedDbMsb, 2).toBuffer())[0], new BigNumber(maskedDbMsb, 2).toBuffer()[0]);
// maskedDb[0] = (new BN(maskedDbMsb, 2).toBuffer())[0]; // eslint-disable-line
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maskedDb[0] = new BigNumber(maskedDbMsb, 2).toBEBuffer()[0]; // eslint-disable-line
return Buffer.concat([maskedDb, mTickHash, Buffer.from('BC', 'hex')]);
};
module.exports = class Crypto {
static digestPublicKey(key) {
const str = [key.e('hex').replace(/^(0+)/g, ''), key.n('hex').replace(/^(0+)/g, '')].map(x => x.toLowerCase()).join(' ');
return crypto.createHash('sha256').update(str).digest('base64').trim();
}
static publicEncrypt(key, data) {
return crypto.publicEncrypt({
key: key.toPem(),
padding: crypto.constants.RSA_PKCS1_PADDING,
}, data);
}
static privateDecrypt(key, data) {
return crypto.privateDecrypt({
key: key.toPem(),
padding: crypto.constants.RSA_PKCS1_PADDING,
}, data);
}
static privateSign(key, data, outputEncoding = 'base64') {
const signer = crypto.createSign('SHA256');
return signer.update(data).sign(key.toPem(), outputEncoding);
}
static sign(key, msg, salt = crypto.randomBytes(32)) {
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// console.log(key.d());
const base = new BigNumber(emsaPSS(msg, salt));
const power = new BigNumber(key.d());
const mod = new BigNumber(key.n());
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return (modPow(base, power, mod)).toBEBuffer().toString('base64');
}
static pad(d) {
const dLen = d.length;
const len = 16 * (Math.trunc(dLen / 16) + 1);
return Buffer.concat([d, Buffer.from(Buffer.from([0]).toString().repeat(len - dLen - 1)), Buffer.from([len - dLen])]);
}
static digestWithHash(data, algorith = 'sha256') {
return crypto.createHash(algorith).update(data).digest();
}
static nonce(outputEncoding = 'hex') {
return crypto.randomBytes(16).toString(outputEncoding);
}
static timestamp() {
return new Date().toISOString();
}
};