// 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 2.1 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
/**
* @fileoverview The openpgp base module should provide all of the functionality
* to consume the openpgp.js library. All additional classes are documented
* for extending and developing on top of the base library.
*/
/**
* @requires cleartext
* @requires config
* @requires encoding/armor
* @requires enums
* @requires message
* @requires packet
* @module openpgp
*/
var armor = require('./encoding/armor.js'),
packet = require('./packet'),
enums = require('./enums.js'),
config = require('./config'),
message = require('./message.js'),
cleartext = require('./cleartext.js'),
key = require('./key.js');
/**
* Encrypts message text with keys
* @param {Array<module:key~Key>} keys array of keys, used to encrypt the message
* @param {String} text message as native JavaScript string
* @return {String} encrypted ASCII armored message
* @static
*/
function encryptMessage(keys, text) {
var msg = message.fromText(text);
msg = msg.encrypt(keys);
var armored = armor.encode(enums.armor.message, msg.packets.write());
return armored;
}
/**
* Signs message text and encrypts it
* @param {Array<module:key~Key>} publicKeys array of keys, used to encrypt the message
* @param {module:key~Key} privateKey private key with decrypted secret key data for signing
* @param {String} text message as native JavaScript string
* @return {String} encrypted ASCII armored message
* @static
*/
function signAndEncryptMessage(publicKeys, privateKey, text) {
var msg = message.fromText(text);
msg = msg.sign([privateKey]);
msg = msg.encrypt(publicKeys);
var armored = armor.encode(enums.armor.message, msg.packets.write());
return armored;
}
/**
* Decrypts message
* @param {module:key~Key} privateKey private key with decrypted secret key data
* @param {module:message~Message} message the message object with the encrypted data
* @return {(String|null)} decrypted message as as native JavaScript string
* or null if no literal data found
* @static
*/
function decryptMessage(privateKey, message) {
message = message.decrypt(privateKey);
return message.getText();
}
/**
* Decrypts message and verifies signatures
* @param {module:key~Key} privateKey private key with decrypted secret key data
* @param {Array<module:key~Key>} publicKeys public keys to verify signatures
* @param {module:message~Message} message the message object with signed and encrypted data
* @return {{text: String, signatures: Array<{keyid: module:type/keyid, valid: Boolean}>}}
* decrypted message as as native JavaScript string
* with verified signatures or null if no literal data found
* @static
*/
function decryptAndVerifyMessage(privateKey, publicKeys, message) {
var result = {};
message = message.decrypt(privateKey);
result.text = message.getText();
if (result.text) {
result.signatures = message.verify(publicKeys);
return result;
}
return null;
}
/**
* Signs a cleartext message
* @param {Array<module:key~Key>} privateKeys private key with decrypted secret key data to sign cleartext
* @param {String} text cleartext
* @return {String} ASCII armored message
* @static
*/
function signClearMessage(privateKeys, text) {
var cleartextMessage = new cleartext.CleartextMessage(text);
cleartextMessage.sign(privateKeys);
return cleartextMessage.armor();
}
/**
* Verifies signatures of cleartext signed message
* @param {Array<module:key~Key>} publicKeys public keys to verify signatures
* @param {module:cleartext~CleartextMessage} message cleartext message object with signatures
* @return {{text: String, signatures: Array<{keyid: module:type/keyid, valid: Boolean}>}}
* cleartext with status of verified signatures
* @static
*/
function verifyClearSignedMessage(publicKeys, message) {
var result = {};
if (!(message instanceof cleartext.CleartextMessage)) {
throw new Error('Parameter [message] needs to be of type CleartextMessage.');
}
result.text = message.getText();
result.signatures = message.verify(publicKeys);
return result;
}
/**
* Generates a new OpenPGP key pair. Currently only supports RSA keys.
* Primary and subkey will be of same type.
* @param {Integer} keyType to indicate what type of key to make.
* RSA is 1. See http://tools.ietf.org/html/rfc4880#section-9.1
* @param {Integer} numBits number of bits for the key creation. (should be 1024+, generally)
* @param {String} userId assumes already in form of "User Name <username@email.com>"
* @param {String} passphrase The passphrase used to encrypt the resulting private key
* @return {Object} {key: Array<module:key~Key>, privateKeyArmored: Array<String>, publicKeyArmored: Array<String>}
* @static
*/
function generateKeyPair(keyType, numBits, userId, passphrase) {
var result = {};
var newKey = key.generate(keyType, numBits, userId, passphrase);
result.key = newKey;
result.privateKeyArmored = newKey.armor();
result.publicKeyArmored = newKey.toPublic().armor();
return result;
}
exports.encryptMessage = encryptMessage;
exports.signAndEncryptMessage = signAndEncryptMessage;
exports.decryptMessage = decryptMessage;
exports.decryptAndVerifyMessage = decryptAndVerifyMessage;
exports.signClearMessage = signClearMessage;
exports.verifyClearSignedMessage = verifyClearSignedMessage;
exports.generateKeyPair = generateKeyPair;