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e1271e1b81
MozReview-Commit-ID: 9NPmNHoytrc --HG-- extra : rebase_source : 1d0b8b075d178aab98941190b7177a66442d12ee
455 lines
16 KiB
JavaScript
455 lines
16 KiB
JavaScript
/* jshint moz: true, esnext: true */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this file,
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* You can obtain one at http://mozilla.org/MPL/2.0/. */
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'use strict';
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const Cu = Components.utils;
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Cu.import('resource://gre/modules/Services.jsm');
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Cu.import('resource://gre/modules/XPCOMUtils.jsm');
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XPCOMUtils.defineLazyGetter(this, 'gDOMBundle', () =>
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Services.strings.createBundle('chrome://global/locale/dom/dom.properties'));
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Cu.importGlobalProperties(['crypto']);
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this.EXPORTED_SYMBOLS = ['PushCrypto', 'concatArray'];
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var UTF8 = new TextEncoder('utf-8');
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// Legacy encryption scheme (draft-thomson-http-encryption-02).
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var AESGCM128_ENCODING = 'aesgcm128';
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var AESGCM128_ENCRYPT_INFO = UTF8.encode('Content-Encoding: aesgcm128');
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// New encryption scheme (draft-ietf-httpbis-encryption-encoding-01).
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var AESGCM_ENCODING = 'aesgcm';
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var AESGCM_ENCRYPT_INFO = UTF8.encode('Content-Encoding: aesgcm');
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var NONCE_INFO = UTF8.encode('Content-Encoding: nonce');
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var AUTH_INFO = UTF8.encode('Content-Encoding: auth\0'); // note nul-terminus
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var P256DH_INFO = UTF8.encode('P-256\0');
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var ECDH_KEY = { name: 'ECDH', namedCurve: 'P-256' };
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var ECDSA_KEY = { name: 'ECDSA', namedCurve: 'P-256' };
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// A default keyid with a name that won't conflict with a real keyid.
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var DEFAULT_KEYID = '';
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/** Localized error property names. */
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// `Encryption` header missing or malformed.
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const BAD_ENCRYPTION_HEADER = 'PushMessageBadEncryptionHeader';
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// `Crypto-Key` or legacy `Encryption-Key` header missing.
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const BAD_CRYPTO_KEY_HEADER = 'PushMessageBadCryptoKeyHeader';
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const BAD_ENCRYPTION_KEY_HEADER = 'PushMessageBadEncryptionKeyHeader';
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// `Content-Encoding` header missing or contains unsupported encoding.
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const BAD_ENCODING_HEADER = 'PushMessageBadEncodingHeader';
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// `dh` parameter of `Crypto-Key` header missing or not base64url-encoded.
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const BAD_DH_PARAM = 'PushMessageBadSenderKey';
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// `salt` parameter of `Encryption` header missing or not base64url-encoded.
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const BAD_SALT_PARAM = 'PushMessageBadSalt';
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// `rs` parameter of `Encryption` header not a number or less than pad size.
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const BAD_RS_PARAM = 'PushMessageBadRecordSize';
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// Invalid or insufficient padding for encrypted chunk.
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const BAD_PADDING = 'PushMessageBadPaddingError';
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// Generic crypto error.
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const BAD_CRYPTO = 'PushMessageBadCryptoError';
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class CryptoError extends Error {
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/**
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* Creates an error object indicating an incoming push message could not be
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* decrypted.
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*
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* @param {String} message A human-readable error message. This is only for
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* internal module logging, and doesn't need to be localized.
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* @param {String} property The localized property name from `dom.properties`.
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* @param {String...} params Substitutions to insert into the localized
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* string.
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*/
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constructor(message, property, ...params) {
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super(message);
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this.isCryptoError = true;
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this.property = property;
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this.params = params;
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}
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/**
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* Formats a localized string for reporting decryption errors to the Web
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* Console.
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*
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* @param {String} scope The scope of the service worker receiving the
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* message, prepended to any other substitutions in the string.
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* @returns {String} The localized string.
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*/
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format(scope) {
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let params = [scope, ...this.params].map(String);
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return gDOMBundle.formatStringFromName(this.property, params,
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params.length);
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}
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}
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function getEncryptionKeyParams(encryptKeyField) {
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if (!encryptKeyField) {
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return null;
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}
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var params = encryptKeyField.split(',');
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return params.reduce((m, p) => {
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var pmap = p.split(';').reduce(parseHeaderFieldParams, {});
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if (pmap.keyid && pmap.dh) {
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m[pmap.keyid] = pmap.dh;
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}
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if (!m[DEFAULT_KEYID] && pmap.dh) {
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m[DEFAULT_KEYID] = pmap.dh;
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}
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return m;
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}, {});
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}
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function getEncryptionParams(encryptField) {
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if (!encryptField) {
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throw new CryptoError('Missing encryption header',
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BAD_ENCRYPTION_HEADER);
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}
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var p = encryptField.split(',', 1)[0];
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if (!p) {
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throw new CryptoError('Encryption header missing params',
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BAD_ENCRYPTION_HEADER);
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}
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return p.split(';').reduce(parseHeaderFieldParams, {});
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}
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function getCryptoParams(headers) {
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if (!headers) {
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return null;
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}
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var keymap;
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var padSize;
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if (!headers.encoding) {
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throw new CryptoError('Missing Content-Encoding header',
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BAD_ENCODING_HEADER);
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}
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if (headers.encoding == AESGCM_ENCODING) {
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// aesgcm uses the Crypto-Key header, 2 bytes for the pad length, and an
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// authentication secret.
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// https://tools.ietf.org/html/draft-ietf-httpbis-encryption-encoding-01
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keymap = getEncryptionKeyParams(headers.crypto_key);
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if (!keymap) {
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throw new CryptoError('Missing Crypto-Key header',
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BAD_CRYPTO_KEY_HEADER);
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}
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padSize = 2;
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} else if (headers.encoding == AESGCM128_ENCODING) {
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// aesgcm128 uses Encryption-Key, 1 byte for the pad length, and no secret.
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// https://tools.ietf.org/html/draft-thomson-http-encryption-02
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keymap = getEncryptionKeyParams(headers.encryption_key);
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if (!keymap) {
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throw new CryptoError('Missing Encryption-Key header',
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BAD_ENCRYPTION_KEY_HEADER);
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}
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padSize = 1;
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} else {
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throw new CryptoError('Unsupported Content-Encoding: ' + headers.encoding,
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BAD_ENCODING_HEADER);
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}
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var enc = getEncryptionParams(headers.encryption);
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var dh = keymap[enc.keyid || DEFAULT_KEYID];
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if (!dh) {
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throw new CryptoError('Missing dh parameter', BAD_DH_PARAM);
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}
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var salt = enc.salt;
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if (!salt) {
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throw new CryptoError('Missing salt parameter', BAD_SALT_PARAM);
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}
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var rs = enc.rs ? parseInt(enc.rs, 10) : 4096;
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if (isNaN(rs)) {
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throw new CryptoError('rs parameter must be a number', BAD_RS_PARAM);
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}
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if (rs <= padSize) {
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throw new CryptoError('rs parameter must be at least ' + padSize,
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BAD_RS_PARAM, padSize);
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}
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return {dh, salt, rs, padSize};
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}
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// Decodes an unpadded, base64url-encoded string.
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function base64URLDecode(string) {
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try {
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return ChromeUtils.base64URLDecode(string, {
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// draft-ietf-httpbis-encryption-encoding-01 prohibits padding.
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padding: 'reject',
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});
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} catch (ex) {}
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return null;
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}
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var parseHeaderFieldParams = (m, v) => {
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var i = v.indexOf('=');
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if (i >= 0) {
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// A quoted string with internal quotes is invalid for all the possible
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// values of this header field.
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m[v.substring(0, i).trim()] = v.substring(i + 1).trim()
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.replace(/^"(.*)"$/, '$1');
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}
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return m;
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};
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function chunkArray(array, size) {
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var start = array.byteOffset || 0;
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array = array.buffer || array;
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var index = 0;
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var result = [];
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while(index + size <= array.byteLength) {
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result.push(new Uint8Array(array, start + index, size));
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index += size;
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}
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if (index < array.byteLength) {
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result.push(new Uint8Array(array, start + index));
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}
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return result;
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}
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this.concatArray = function(arrays) {
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var size = arrays.reduce((total, a) => total + a.byteLength, 0);
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var index = 0;
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return arrays.reduce((result, a) => {
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result.set(new Uint8Array(a), index);
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index += a.byteLength;
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return result;
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}, new Uint8Array(size));
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};
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var HMAC_SHA256 = { name: 'HMAC', hash: 'SHA-256' };
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function hmac(key) {
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this.keyPromise = crypto.subtle.importKey('raw', key, HMAC_SHA256,
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false, ['sign']);
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}
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hmac.prototype.hash = function(input) {
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return this.keyPromise.then(k => crypto.subtle.sign('HMAC', k, input));
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};
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function hkdf(salt, ikm) {
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this.prkhPromise = new hmac(salt).hash(ikm)
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.then(prk => new hmac(prk));
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}
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hkdf.prototype.extract = function(info, len) {
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var input = concatArray([info, new Uint8Array([1])]);
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return this.prkhPromise
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.then(prkh => prkh.hash(input))
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.then(h => {
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if (h.byteLength < len) {
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throw new CryptoError('HKDF length is too long', BAD_CRYPTO);
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}
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return h.slice(0, len);
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});
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};
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/* generate a 96-bit nonce for use in GCM, 48-bits of which are populated */
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function generateNonce(base, index) {
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if (index >= Math.pow(2, 48)) {
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throw new CryptoError('Nonce index is too large', BAD_CRYPTO);
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}
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var nonce = base.slice(0, 12);
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nonce = new Uint8Array(nonce);
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for (var i = 0; i < 6; ++i) {
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nonce[nonce.byteLength - 1 - i] ^= (index / Math.pow(256, i)) & 0xff;
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}
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return nonce;
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}
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this.PushCrypto = {
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generateAuthenticationSecret() {
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return crypto.getRandomValues(new Uint8Array(16));
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},
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validateAppServerKey(key) {
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return crypto.subtle.importKey('raw', key, ECDSA_KEY,
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true, ['verify'])
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.then(_ => key);
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},
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generateKeys() {
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return crypto.subtle.generateKey(ECDH_KEY, true, ['deriveBits'])
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.then(cryptoKey =>
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Promise.all([
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crypto.subtle.exportKey('raw', cryptoKey.publicKey),
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crypto.subtle.exportKey('jwk', cryptoKey.privateKey)
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]));
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},
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/**
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* Decrypts a push message.
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*
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* @param {JsonWebKey} privateKey The ECDH private key of the subscription
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* receiving the message, in JWK form.
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* @param {BufferSource} publicKey The ECDH public key of the subscription
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* receiving the message, in raw form.
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* @param {BufferSource} authenticationSecret The 16-byte shared
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* authentication secret of the subscription receiving the message.
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* @param {Object} headers The encryption headers passed to `getCryptoParams`.
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* @param {BufferSource} ciphertext The encrypted message data.
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* @returns {Promise} Resolves with a `Uint8Array` containing the decrypted
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* message data. Rejects with a `CryptoError` if decryption fails.
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*/
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decrypt(privateKey, publicKey, authenticationSecret, headers, ciphertext) {
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return Promise.resolve().then(_ => {
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let cryptoParams = getCryptoParams(headers);
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if (!cryptoParams) {
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return null;
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}
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return this._decodeMsg(ciphertext, privateKey, publicKey,
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cryptoParams.dh, cryptoParams.salt,
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cryptoParams.rs, authenticationSecret,
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cryptoParams.padSize);
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}).catch(error => {
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if (error.isCryptoError) {
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throw error;
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}
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// Web Crypto returns an unhelpful "operation failed for an
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// operation-specific reason" error if decryption fails. We don't have
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// context about what went wrong, so we throw a generic error instead.
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throw new CryptoError('Bad encryption', BAD_CRYPTO);
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});
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},
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_decodeMsg(aData, aPrivateKey, aPublicKey, aSenderPublicKey, aSalt, aRs,
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aAuthenticationSecret, aPadSize) {
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if (aData.byteLength === 0) {
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// Zero length messages will be passed as null.
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return null;
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}
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// The last chunk of data must be less than aRs, if it is not return an
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// error.
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if (aData.byteLength % (aRs + 16) === 0) {
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throw new CryptoError('Encrypted data truncated', BAD_CRYPTO);
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}
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let senderKey = base64URLDecode(aSenderPublicKey);
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if (!senderKey) {
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throw new CryptoError('dh parameter is not base64url-encoded',
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BAD_DH_PARAM);
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}
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let salt = base64URLDecode(aSalt);
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if (!salt) {
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throw new CryptoError('salt parameter is not base64url-encoded',
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BAD_SALT_PARAM);
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}
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return Promise.all([
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crypto.subtle.importKey('raw', senderKey, ECDH_KEY,
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false, ['deriveBits']),
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crypto.subtle.importKey('jwk', aPrivateKey, ECDH_KEY,
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false, ['deriveBits'])
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])
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.then(([appServerKey, subscriptionPrivateKey]) =>
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crypto.subtle.deriveBits({ name: 'ECDH', public: appServerKey },
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subscriptionPrivateKey, 256))
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.then(ikm => this._deriveKeyAndNonce(aPadSize,
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new Uint8Array(ikm),
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salt,
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aPublicKey,
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senderKey,
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aAuthenticationSecret))
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.then(r =>
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// AEAD_AES_128_GCM expands ciphertext to be 16 octets longer.
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Promise.all(chunkArray(aData, aRs + 16).map((slice, index) =>
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this._decodeChunk(aPadSize, slice, index, r[1], r[0]))))
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.then(r => concatArray(r));
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},
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_deriveKeyAndNonce(padSize, ikm, salt, receiverKey, senderKey,
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authenticationSecret) {
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var kdfPromise;
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var context;
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var encryptInfo;
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// The size of the padding determines which key derivation we use.
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//
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// 1. If the pad size is 1, we assume "aesgcm128". This scheme ignores the
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// authenticationSecret, and uses "Content-Encoding: <blah>" for the
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// context string. It should eventually be removed: bug 1230038.
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//
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// 2. If the pad size is 2, we assume "aesgcm", and mix the
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// authenticationSecret with the ikm using HKDF. The context string is:
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// "Content-Encoding: <blah>\0P-256\0" then the length and value of both the
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// receiver key and sender key.
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if (padSize == 2) {
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// Since we are using an authentication secret, we need to run an extra
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// round of HKDF with the authentication secret as salt.
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var authKdf = new hkdf(authenticationSecret, ikm);
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kdfPromise = authKdf.extract(AUTH_INFO, 32)
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.then(ikm2 => new hkdf(salt, ikm2));
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// aesgcm requires extra context for the info parameter.
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context = concatArray([
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new Uint8Array([0]), P256DH_INFO,
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this._encodeLength(receiverKey), receiverKey,
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this._encodeLength(senderKey), senderKey
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]);
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encryptInfo = AESGCM_ENCRYPT_INFO;
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} else {
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kdfPromise = Promise.resolve(new hkdf(salt, ikm));
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context = new Uint8Array(0);
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encryptInfo = AESGCM128_ENCRYPT_INFO;
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}
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return kdfPromise.then(kdf => Promise.all([
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kdf.extract(concatArray([encryptInfo, context]), 16)
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.then(gcmBits => crypto.subtle.importKey('raw', gcmBits, 'AES-GCM', false,
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['decrypt'])),
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kdf.extract(concatArray([NONCE_INFO, context]), 12)
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]));
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},
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_encodeLength(buffer) {
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return new Uint8Array([0, buffer.byteLength]);
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},
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_decodeChunk(aPadSize, aSlice, aIndex, aNonce, aKey) {
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let params = {
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name: 'AES-GCM',
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iv: generateNonce(aNonce, aIndex)
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};
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return crypto.subtle.decrypt(params, aKey, aSlice)
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.then(decoded => this._unpadChunk(aPadSize, new Uint8Array(decoded)));
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},
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/**
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* Removes padding from a decrypted chunk.
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*
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* @param {Number} padSize The size of the padding length prepended to each
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* chunk. For aesgcm, the padding length is expressed as a 16-bit unsigned
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* big endian integer. For aesgcm128, the padding is an 8-bit integer.
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* @param {Uint8Array} decoded The decrypted, padded chunk.
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* @returns {Uint8Array} The chunk with padding removed.
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*/
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_unpadChunk(padSize, decoded) {
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if (padSize < 1 || padSize > 2) {
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throw new CryptoError('Unsupported pad size', BAD_CRYPTO);
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}
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if (decoded.length < padSize) {
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throw new CryptoError('Decoded array is too short!', BAD_PADDING);
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}
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var pad = decoded[0];
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if (padSize == 2) {
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pad = (pad << 8) | decoded[1];
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}
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if (pad > decoded.length) {
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throw new CryptoError('Padding is wrong!', BAD_PADDING);
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}
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// All padded bytes must be zero except the first one.
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for (var i = padSize; i <= pad; i++) {
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if (decoded[i] !== 0) {
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throw new CryptoError('Padding is wrong!', BAD_PADDING);
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}
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}
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return decoded.slice(pad + padSize);
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},
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};
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