import * as constants from 'constants'; import * as crypto from 'crypto'; import * as forge from 'node-forge'; import { CryptoFunctionService } from '../abstractions/cryptoFunction.service'; import { Utils } from '../misc/utils'; import { DecryptParameters } from '../models/domain/decryptParameters'; import { SymmetricCryptoKey } from '../models/domain/symmetricCryptoKey'; export class NodeCryptoFunctionService implements CryptoFunctionService { pbkdf2(password: string | ArrayBuffer, salt: string | ArrayBuffer, algorithm: 'sha256' | 'sha512', iterations: number): Promise { const len = algorithm === 'sha256' ? 32 : 64; const nodePassword = this.toNodeValue(password); const nodeSalt = this.toNodeValue(salt); return new Promise((resolve, reject) => { crypto.pbkdf2(nodePassword, nodeSalt, iterations, len, algorithm, (error, key) => { if (error != null) { reject(error); } else { resolve(this.toArrayBuffer(key)); } }); }); } hash(value: string | ArrayBuffer, algorithm: 'sha1' | 'sha256' | 'sha512' | 'md5'): Promise { const nodeValue = this.toNodeValue(value); const hash = crypto.createHash(algorithm); hash.update(nodeValue); return Promise.resolve(this.toArrayBuffer(hash.digest())); } hmac(value: ArrayBuffer, key: ArrayBuffer, algorithm: 'sha1' | 'sha256' | 'sha512'): Promise { const nodeValue = this.toNodeBuffer(value); const nodeKey = this.toNodeBuffer(key); const hmac = crypto.createHmac(algorithm, nodeKey); hmac.update(nodeValue); return Promise.resolve(this.toArrayBuffer(hmac.digest())); } async compare(a: ArrayBuffer, b: ArrayBuffer): Promise { const key = await this.randomBytes(32); const mac1 = await this.hmac(a, key, 'sha256'); const mac2 = await this.hmac(b, key, 'sha256'); if (mac1.byteLength !== mac2.byteLength) { return false; } const arr1 = new Uint8Array(mac1); const arr2 = new Uint8Array(mac2); for (let i = 0; i < arr2.length; i++) { if (arr1[i] !== arr2[i]) { return false; } } return true; } hmacFast(value: ArrayBuffer, key: ArrayBuffer, algorithm: 'sha1' | 'sha256' | 'sha512'): Promise { return this.hmac(value, key, algorithm); } compareFast(a: ArrayBuffer, b: ArrayBuffer): Promise { return this.compare(a, b); } aesEncrypt(data: ArrayBuffer, iv: ArrayBuffer, key: ArrayBuffer): Promise { const nodeData = this.toNodeBuffer(data); const nodeIv = this.toNodeBuffer(iv); const nodeKey = this.toNodeBuffer(key); const cipher = crypto.createCipheriv('aes-256-cbc', nodeKey, nodeIv); const encBuf = Buffer.concat([cipher.update(nodeData), cipher.final()]); return Promise.resolve(this.toArrayBuffer(encBuf)); } aesDecryptFastParameters(data: string, iv: string, mac: string, key: SymmetricCryptoKey): DecryptParameters { const p = new DecryptParameters(); p.encKey = key.encKey; p.data = Utils.fromB64ToArray(data).buffer; p.iv = Utils.fromB64ToArray(iv).buffer; const macData = new Uint8Array(p.iv.byteLength + p.data.byteLength); macData.set(new Uint8Array(p.iv), 0); macData.set(new Uint8Array(p.data), p.iv.byteLength); p.macData = macData.buffer; if (key.macKey != null) { p.macKey = key.macKey; } if (mac != null) { p.mac = Utils.fromB64ToArray(mac).buffer; } return p; } async aesDecryptFast(parameters: DecryptParameters): Promise { const decBuf = await this.aesDecrypt(parameters.data, parameters.iv, parameters.encKey); return Utils.fromBufferToUtf8(decBuf); } aesDecrypt(data: ArrayBuffer, iv: ArrayBuffer, key: ArrayBuffer): Promise { const nodeData = this.toNodeBuffer(data); const nodeIv = this.toNodeBuffer(iv); const nodeKey = this.toNodeBuffer(key); const decipher = crypto.createDecipheriv('aes-256-cbc', nodeKey, nodeIv); const decBuf = Buffer.concat([decipher.update(nodeData), decipher.final()]); return Promise.resolve(this.toArrayBuffer(decBuf)); } rsaEncrypt(data: ArrayBuffer, publicKey: ArrayBuffer, algorithm: 'sha1' | 'sha256'): Promise { if (algorithm === 'sha256') { throw new Error('Node crypto does not support RSA-OAEP SHA-256'); } const pem = this.toPemPublicKey(publicKey); const decipher = crypto.publicEncrypt(pem, this.toNodeBuffer(data)); return Promise.resolve(this.toArrayBuffer(decipher)); } rsaDecrypt(data: ArrayBuffer, privateKey: ArrayBuffer, algorithm: 'sha1' | 'sha256'): Promise { if (algorithm === 'sha256') { throw new Error('Node crypto does not support RSA-OAEP SHA-256'); } const pem = this.toPemPrivateKey(privateKey); const decipher = crypto.privateDecrypt(pem, this.toNodeBuffer(data)); return Promise.resolve(this.toArrayBuffer(decipher)); } rsaExtractPublicKey(privateKey: ArrayBuffer): Promise { const privateKeyByteString = Utils.fromBufferToByteString(privateKey); const privateKeyAsn1 = forge.asn1.fromDer(privateKeyByteString); const forgePrivateKey = (forge as any).pki.privateKeyFromAsn1(privateKeyAsn1); const forgePublicKey = (forge.pki as any).setRsaPublicKey(forgePrivateKey.n, forgePrivateKey.e); const publicKeyAsn1 = (forge.pki as any).publicKeyToAsn1(forgePublicKey); const publicKeyByteString = forge.asn1.toDer(publicKeyAsn1).data; const publicKeyArray = Utils.fromByteStringToArray(publicKeyByteString); return Promise.resolve(publicKeyArray.buffer); } async rsaGenerateKeyPair(length: 1024 | 2048 | 4096): Promise<[ArrayBuffer, ArrayBuffer]> { return new Promise<[ArrayBuffer, ArrayBuffer]>((resolve, reject) => { forge.pki.rsa.generateKeyPair({ bits: length, workers: -1, e: 0x10001, // 65537 }, (error, keyPair) => { if (error != null) { reject(error); return; } const publicKeyAsn1 = (forge.pki as any).publicKeyToAsn1(keyPair.publicKey); const publicKeyByteString = forge.asn1.toDer(publicKeyAsn1).getBytes(); const publicKey = Utils.fromByteStringToArray(publicKeyByteString); const privateKeyAsn1 = (forge.pki as any).privateKeyToAsn1(keyPair.privateKey); const privateKeyPkcs8 = (forge.pki as any).wrapRsaPrivateKey(privateKeyAsn1); const privateKeyByteString = forge.asn1.toDer(privateKeyPkcs8).getBytes(); const privateKey = Utils.fromByteStringToArray(privateKeyByteString); resolve([publicKey.buffer, privateKey.buffer]); }); }); } randomBytes(length: number): Promise { return new Promise((resolve, reject) => { crypto.randomBytes(length, (error, bytes) => { if (error != null) { reject(error); } else { resolve(this.toArrayBuffer(bytes)); } }); }); } private toNodeValue(value: string | ArrayBuffer): string | Buffer { let nodeValue: string | Buffer; if (typeof (value) === 'string') { nodeValue = value; } else { nodeValue = this.toNodeBuffer(value); } return nodeValue; } private toNodeBuffer(value: ArrayBuffer): Buffer { return Buffer.from(new Uint8Array(value) as any); } private toArrayBuffer(buf: Buffer): ArrayBuffer { return new Uint8Array(buf).buffer; } private toPemPrivateKey(key: ArrayBuffer): string { const byteString = Utils.fromBufferToByteString(key); const asn1 = forge.asn1.fromDer(byteString); const privateKey = (forge as any).pki.privateKeyFromAsn1(asn1); const rsaPrivateKey = (forge.pki as any).privateKeyToAsn1(privateKey); const privateKeyInfo = (forge.pki as any).wrapRsaPrivateKey(rsaPrivateKey); return (forge.pki as any).privateKeyInfoToPem(privateKeyInfo); } private toPemPublicKey(key: ArrayBuffer): string { const byteString = Utils.fromBufferToByteString(key); const asn1 = forge.asn1.fromDer(byteString); const publicKey = (forge as any).pki.publicKeyFromAsn1(asn1); return (forge.pki as any).publicKeyToPem(publicKey); } }