crypto.js
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"use strict";
/**
* Copyright 2019 Google LLC. All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
Object.defineProperty(exports, "__esModule", { value: true });
// This file implements crypto functions we need using in-browser
// SubtleCrypto interface `window.crypto.subtle`.
const base64js = require("base64-js");
// Not all browsers support `TextEncoder`. The following `require` will
// provide a fast UTF8-only replacement for those browsers that don't support
// text encoding natively.
if (typeof process === 'undefined' && typeof TextEncoder === 'undefined') {
require('fast-text-encoding');
}
class BrowserCrypto {
constructor() {
if (typeof window === 'undefined' ||
window.crypto === undefined ||
window.crypto.subtle === undefined) {
throw new Error("SubtleCrypto not found. Make sure it's an https:// website.");
}
}
async sha256DigestBase64(str) {
// SubtleCrypto digest() method is async, so we must make
// this method async as well.
// To calculate SHA256 digest using SubtleCrypto, we first
// need to convert an input string to an ArrayBuffer:
const inputBuffer = new TextEncoder().encode(str);
// Result is ArrayBuffer as well.
const outputBuffer = await window.crypto.subtle.digest('SHA-256', inputBuffer);
return base64js.fromByteArray(new Uint8Array(outputBuffer));
}
randomBytesBase64(count) {
const array = new Uint8Array(count);
window.crypto.getRandomValues(array);
return base64js.fromByteArray(array);
}
static padBase64(base64) {
// base64js requires padding, so let's add some '='
while (base64.length % 4 !== 0) {
base64 += '=';
}
return base64;
}
async verify(pubkey, data, signature) {
const algo = {
name: 'RSASSA-PKCS1-v1_5',
hash: { name: 'SHA-256' },
};
const dataArray = new TextEncoder().encode(data);
const signatureArray = base64js.toByteArray(BrowserCrypto.padBase64(signature));
const cryptoKey = await window.crypto.subtle.importKey('jwk', pubkey, algo, true, ['verify']);
// SubtleCrypto's verify method is async so we must make
// this method async as well.
const result = await window.crypto.subtle.verify(algo, cryptoKey, signatureArray, dataArray);
return result;
}
async sign(privateKey, data) {
const algo = {
name: 'RSASSA-PKCS1-v1_5',
hash: { name: 'SHA-256' },
};
const dataArray = new TextEncoder().encode(data);
const cryptoKey = await window.crypto.subtle.importKey('jwk', privateKey, algo, true, ['sign']);
// SubtleCrypto's sign method is async so we must make
// this method async as well.
const result = await window.crypto.subtle.sign(algo, cryptoKey, dataArray);
return base64js.fromByteArray(new Uint8Array(result));
}
decodeBase64StringUtf8(base64) {
const uint8array = base64js.toByteArray(BrowserCrypto.padBase64(base64));
const result = new TextDecoder().decode(uint8array);
return result;
}
encodeBase64StringUtf8(text) {
const uint8array = new TextEncoder().encode(text);
const result = base64js.fromByteArray(uint8array);
return result;
}
}
exports.BrowserCrypto = BrowserCrypto;
//# sourceMappingURL=crypto.js.map