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fork-openpgpjs/src/packet/sym_encrypted_session_key.js
larabr 7f37a8aaca
Add config parameter to top-level functions (#1241) 
Refactor functions to take the configuration as a parameter.

This allows setting a config option for a single function call, whereas
setting `openpgp.config` could lead to concurrency-related issues when
multiple async function calls are made at the same time.

`openpgp.config` is used as default for unset config values in top-level
functions.
`openpgp.config` is used as default config object in low-level functions
(i.e., when calling a low-level function, it may be required to pass
`{ ...openpgp.config, modifiedConfig: modifiedValue }`).

Also,

- remove `config.rsaBlinding`: blinding is now always applied to RSA decryption
- remove `config.debug`: debugging mode can be enabled by setting
  `process.env.NODE_ENV = 'development'`
- remove `config.useNative`: native crypto is always used when available
2021-02-26 20:04:54 +01:00

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// GPG4Browsers - An OpenPGP implementation in javascript
// Copyright (C) 2011 Recurity Labs GmbH
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 3.0 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
/**
* @requires type/s2k
* @requires config
* @requires crypto
* @requires enums
* @requires util
*/
import type_s2k from '../type/s2k';
import defaultConfig from '../config';
import crypto from '../crypto';
import enums from '../enums';
import util from '../util';
/**
* Symmetric-Key Encrypted Session Key Packets (Tag 3)
*
* {@link https://tools.ietf.org/html/rfc4880#section-5.3|RFC4880 5.3}:
* The Symmetric-Key Encrypted Session Key packet holds the
* symmetric-key encryption of a session key used to encrypt a message.
* Zero or more Public-Key Encrypted Session Key packets and/or
* Symmetric-Key Encrypted Session Key packets may precede a
* Symmetrically Encrypted Data packet that holds an encrypted message.
* The message is encrypted with a session key, and the session key is
* itself encrypted and stored in the Encrypted Session Key packet or
* the Symmetric-Key Encrypted Session Key packet.
* @memberof module:packet
*/
class SymEncryptedSessionKeyPacket {
/**
* @param {Object} config (optional) full configuration, defaults to openpgp.config
*/
constructor(config = defaultConfig) {
this.tag = enums.packet.symEncryptedSessionKey;
this.version = config.aeadProtect ? 5 : 4;
this.sessionKey = null;
this.sessionKeyEncryptionAlgorithm = null;
this.sessionKeyAlgorithm = 'aes256';
this.aeadAlgorithm = enums.read(enums.aead, config.aeadMode);
this.encrypted = null;
this.s2k = null;
this.iv = null;
}
/**
* Parsing function for a symmetric encrypted session key packet (tag 3).
*
* @param {Uint8Array} bytes Payload of a tag 3 packet
*/
read(bytes) {
let offset = 0;
// A one-octet version number. The only currently defined version is 4.
this.version = bytes[offset++];
// A one-octet number describing the symmetric algorithm used.
const algo = enums.read(enums.symmetric, bytes[offset++]);
if (this.version === 5) {
// A one-octet AEAD algorithm.
this.aeadAlgorithm = enums.read(enums.aead, bytes[offset++]);
}
// A string-to-key (S2K) specifier, length as defined above.
this.s2k = new type_s2k();
offset += this.s2k.read(bytes.subarray(offset, bytes.length));
if (this.version === 5) {
const mode = crypto[this.aeadAlgorithm];
// A starting initialization vector of size specified by the AEAD
// algorithm.
this.iv = bytes.subarray(offset, offset += mode.ivLength);
}
// The encrypted session key itself, which is decrypted with the
// string-to-key object. This is optional in version 4.
if (this.version === 5 || offset < bytes.length) {
this.encrypted = bytes.subarray(offset, bytes.length);
this.sessionKeyEncryptionAlgorithm = algo;
} else {
this.sessionKeyAlgorithm = algo;
}
}
/**
* Create a binary representation of a tag 3 packet
*
* @returns {Uint8Array} The Uint8Array representation
*/
write() {
const algo = this.encrypted === null ?
this.sessionKeyAlgorithm :
this.sessionKeyEncryptionAlgorithm;
let bytes;
if (this.version === 5) {
bytes = util.concatUint8Array([new Uint8Array([this.version, enums.write(enums.symmetric, algo), enums.write(enums.aead, this.aeadAlgorithm)]), this.s2k.write(), this.iv, this.encrypted]);
} else {
bytes = util.concatUint8Array([new Uint8Array([this.version, enums.write(enums.symmetric, algo)]), this.s2k.write()]);
if (this.encrypted !== null) {
bytes = util.concatUint8Array([bytes, this.encrypted]);
}
}
return bytes;
}
/**
* Decrypts the session key
* @param {String} passphrase The passphrase in string form
* @throws {Error} if decryption was not successful
* @async
*/
async decrypt(passphrase) {
const algo = this.sessionKeyEncryptionAlgorithm !== null ?
this.sessionKeyEncryptionAlgorithm :
this.sessionKeyAlgorithm;
const length = crypto.cipher[algo].keySize;
const key = await this.s2k.produce_key(passphrase, length);
if (this.version === 5) {
const mode = crypto[this.aeadAlgorithm];
const adata = new Uint8Array([0xC0 | this.tag, this.version, enums.write(enums.symmetric, this.sessionKeyEncryptionAlgorithm), enums.write(enums.aead, this.aeadAlgorithm)]);
const modeInstance = await mode(algo, key);
this.sessionKey = await modeInstance.decrypt(this.encrypted, this.iv, adata);
} else if (this.encrypted !== null) {
const decrypted = await crypto.cfb.decrypt(algo, key, this.encrypted, new Uint8Array(crypto.cipher[algo].blockSize));
this.sessionKeyAlgorithm = enums.read(enums.symmetric, decrypted[0]);
this.sessionKey = decrypted.subarray(1, decrypted.length);
} else {
this.sessionKey = key;
}
}
/**
* Encrypts the session key
* @param {String} passphrase The passphrase in string form
* @param {Object} config (optional) full configuration, defaults to openpgp.config
* @throws {Error} if encryption was not successful
* @async
*/
async encrypt(passphrase, config = defaultConfig) {
const algo = this.sessionKeyEncryptionAlgorithm !== null ?
this.sessionKeyEncryptionAlgorithm :
this.sessionKeyAlgorithm;
this.sessionKeyEncryptionAlgorithm = algo;
this.s2k = new type_s2k(config);
this.s2k.salt = await crypto.random.getRandomBytes(8);
const length = crypto.cipher[algo].keySize;
const key = await this.s2k.produce_key(passphrase, length);
if (this.sessionKey === null) {
this.sessionKey = await crypto.generateSessionKey(this.sessionKeyAlgorithm);
}
if (this.version === 5) {
const mode = crypto[this.aeadAlgorithm];
this.iv = await crypto.random.getRandomBytes(mode.ivLength); // generate new random IV
const adata = new Uint8Array([0xC0 | this.tag, this.version, enums.write(enums.symmetric, this.sessionKeyEncryptionAlgorithm), enums.write(enums.aead, this.aeadAlgorithm)]);
const modeInstance = await mode(algo, key);
this.encrypted = await modeInstance.encrypt(this.sessionKey, this.iv, adata);
} else {
const algo_enum = new Uint8Array([enums.write(enums.symmetric, this.sessionKeyAlgorithm)]);
const private_key = util.concatUint8Array([algo_enum, this.sessionKey]);
this.encrypted = await crypto.cfb.encrypt(algo, key, private_key, new Uint8Array(crypto.cipher[algo].blockSize), config);
}
}
}
export default SymEncryptedSessionKeyPacket;
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