// 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 config * @requires crypto * @requires encoding/armor * @requires enums * @requires packet * @module message */ 'use strict'; var packet = require('./packet'), enums = require('./enums.js'), armor = require('./encoding/armor.js'), config = require('./config'), crypto = require('./crypto'), keyModule = require('./key.js'); /** * @class * @classdesc Class that represents an OpenPGP message. * Can be an encrypted message, signed message, compressed message or literal message * @param {module:packet/packetlist} packetlist The packets that form this message * See {@link http://tools.ietf.org/html/rfc4880#section-11.3} */ function Message(packetlist) { if (!(this instanceof Message)) { return new Message(packetlist); } this.packets = packetlist || new packet.List(); } /** * Returns the key IDs of the keys to which the session key is encrypted * @return {Array} array of keyid objects */ Message.prototype.getEncryptionKeyIds = function() { var keyIds = []; var pkESKeyPacketlist = this.packets.filterByTag(enums.packet.publicKeyEncryptedSessionKey); pkESKeyPacketlist.forEach(function(packet) { keyIds.push(packet.publicKeyId); }); return keyIds; }; /** * Returns the key IDs of the keys that signed the message * @return {Array} array of keyid objects */ Message.prototype.getSigningKeyIds = function() { var keyIds = []; var msg = this.unwrapCompressed(); // search for one pass signatures var onePassSigList = msg.packets.filterByTag(enums.packet.onePassSignature); onePassSigList.forEach(function(packet) { keyIds.push(packet.signingKeyId); }); // if nothing found look for signature packets if (!keyIds.length) { var signatureList = msg.packets.filterByTag(enums.packet.signature); signatureList.forEach(function(packet) { keyIds.push(packet.issuerKeyId); }); } return keyIds; }; /** * Decrypt the message * @param {module:key~Key} privateKey private key with decrypted secret data * @return {Array} new message with decrypted content */ Message.prototype.decrypt = function(privateKey) { var encryptionKeyIds = this.getEncryptionKeyIds(); if (!encryptionKeyIds.length) { // nothing to decrypt return unmodified message return this; } var privateKeyPacket = privateKey.getKeyPacket(encryptionKeyIds); if (!privateKeyPacket.isDecrypted) throw new Error('Private key is not decrypted.'); var pkESKeyPacketlist = this.packets.filterByTag(enums.packet.publicKeyEncryptedSessionKey); var pkESKeyPacket; for (var i = 0; i < pkESKeyPacketlist.length; i++) { if (pkESKeyPacketlist[i].publicKeyId.equals(privateKeyPacket.getKeyId())) { pkESKeyPacket = pkESKeyPacketlist[i]; pkESKeyPacket.decrypt(privateKeyPacket); break; } } if (pkESKeyPacket) { var symEncryptedPacketlist = this.packets.filterByTag(enums.packet.symmetricallyEncrypted, enums.packet.symEncryptedIntegrityProtected); if (symEncryptedPacketlist.length !== 0) { var symEncryptedPacket = symEncryptedPacketlist[0]; symEncryptedPacket.decrypt(pkESKeyPacket.sessionKeyAlgorithm, pkESKeyPacket.sessionKey); var resultMsg = new Message(symEncryptedPacket.packets); // remove packets after decryption symEncryptedPacket.packets = new packet.List(); return resultMsg; } } }; /** * Get literal data that is the body of the message * @return {(String|null)} literal body of the message as string */ Message.prototype.getLiteralData = function() { var literal = this.packets.findPacket(enums.packet.literal); return literal && literal.data || null; }; /** * Get literal data as text * @return {(String|null)} literal body of the message interpreted as text */ Message.prototype.getText = function() { var literal = this.packets.findPacket(enums.packet.literal); if (literal) { return literal.getText(); } else { return null; } }; /** * Encrypt the message * @param {Array} keys array of keys, used to encrypt the message * @return {Array} new message with encrypted content */ Message.prototype.encrypt = function(keys) { var packetlist = new packet.List(); var symAlgo = keyModule.getPreferredSymAlgo(keys); var sessionKey = crypto.generateSessionKey(enums.read(enums.symmetric, symAlgo)); keys.forEach(function(key) { var encryptionKeyPacket = key.getEncryptionKeyPacket(); if (encryptionKeyPacket) { var pkESKeyPacket = new packet.PublicKeyEncryptedSessionKey(); pkESKeyPacket.publicKeyId = encryptionKeyPacket.getKeyId(); pkESKeyPacket.publicKeyAlgorithm = encryptionKeyPacket.algorithm; pkESKeyPacket.sessionKey = sessionKey; pkESKeyPacket.sessionKeyAlgorithm = enums.read(enums.symmetric, symAlgo); pkESKeyPacket.encrypt(encryptionKeyPacket); packetlist.push(pkESKeyPacket); } else { throw new Error('Could not find valid key packet for encryption in key ' + key.primaryKey.getKeyId().toHex()); } }); var symEncryptedPacket; if (config.integrity_protect) { symEncryptedPacket = new packet.SymEncryptedIntegrityProtected(); } else { symEncryptedPacket = new packet.SymmetricallyEncrypted(); } symEncryptedPacket.packets = this.packets; symEncryptedPacket.encrypt(enums.read(enums.symmetric, symAlgo), sessionKey); packetlist.push(symEncryptedPacket); // remove packets after encryption symEncryptedPacket.packets = new packet.List(); return new Message(packetlist); }; /** * Encrypt the message symmetrically using a passphrase. * https://tools.ietf.org/html/rfc4880#section-3.7.2.2 * @param {String} passphrase * @return {Array} new message with encrypted content */ Message.prototype.symEncrypt = function(passphrase) { if (!passphrase) { throw new Error('The passphrase cannot be empty!'); } var algo = enums.read(enums.symmetric, config.encryption_cipher); var packetlist = new packet.List(); // create a Symmetric-key Encrypted Session Key (ESK) var symESKPacket = new packet.SymEncryptedSessionKey(); symESKPacket.sessionKeyAlgorithm = algo; symESKPacket.decrypt(passphrase); // generate the session key packetlist.push(symESKPacket); // create integrity protected packet var symEncryptedPacket = new packet.SymEncryptedIntegrityProtected(); symEncryptedPacket.packets = this.packets; symEncryptedPacket.encrypt(algo, symESKPacket.sessionKey); packetlist.push(symEncryptedPacket); // remove packets after encryption symEncryptedPacket.packets = new packet.List(); return new Message(packetlist); }; /** * Decrypt the message symmetrically using a passphrase. * https://tools.ietf.org/html/rfc4880#section-3.7.2.2 * @param {String} passphrase * @return {Array} new message with decrypted content */ Message.prototype.symDecrypt = function(passphrase) { var symEncryptedPacketlist = this.packets.filterByTag(enums.packet.symEncryptedSessionKey, enums.packet.symEncryptedIntegrityProtected); // decrypt Symmetric-key Encrypted Session Key (ESK) var symESKPacket = symEncryptedPacketlist[0]; symESKPacket.decrypt(passphrase); // decrypt integrity protected packet var symEncryptedPacket = symEncryptedPacketlist[1]; symEncryptedPacket.decrypt(symESKPacket.sessionKeyAlgorithm, symESKPacket.sessionKey); var resultMsg = new Message(symEncryptedPacket.packets); // remove packets after decryption symEncryptedPacket.packets = new packet.List(); return resultMsg; }; /** * Sign the message (the literal data packet of the message) * @param {Array} privateKey private keys with decrypted secret key data for signing * @return {module:message~Message} new message with signed content */ Message.prototype.sign = function(privateKeys) { var packetlist = new packet.List(); var literalDataPacket = this.packets.findPacket(enums.packet.literal); if (!literalDataPacket) throw new Error('No literal data packet to sign.'); var literalFormat = enums.write(enums.literal, literalDataPacket.format); var signatureType = literalFormat == enums.literal.binary ? enums.signature.binary : enums.signature.text; var i, signingKeyPacket; for (i = 0; i < privateKeys.length; i++) { if (privateKeys[i].isPublic()) { throw new Error('Need private key for signing'); } var onePassSig = new packet.OnePassSignature(); onePassSig.type = signatureType; //TODO get preferred hashg algo from key signature onePassSig.hashAlgorithm = config.prefer_hash_algorithm; signingKeyPacket = privateKeys[i].getSigningKeyPacket(); if (!signingKeyPacket) { throw new Error('Could not find valid key packet for signing in key ' + privateKeys[i].primaryKey.getKeyId().toHex()); } onePassSig.publicKeyAlgorithm = signingKeyPacket.algorithm; onePassSig.signingKeyId = signingKeyPacket.getKeyId(); packetlist.push(onePassSig); } packetlist.push(literalDataPacket); for (i = privateKeys.length - 1; i >= 0; i--) { var signaturePacket = new packet.Signature(); signaturePacket.signatureType = signatureType; signaturePacket.hashAlgorithm = config.prefer_hash_algorithm; signaturePacket.publicKeyAlgorithm = signingKeyPacket.algorithm; if (!signingKeyPacket.isDecrypted) throw new Error('Private key is not decrypted.'); signaturePacket.sign(signingKeyPacket, literalDataPacket); packetlist.push(signaturePacket); } return new Message(packetlist); }; /** * Verify message signatures * @param {Array} keys array of keys to verify signatures * @return {Array<({keyid: module:type/keyid, valid: Boolean})>} list of signer's keyid and validity of signature */ Message.prototype.verify = function(keys) { var result = []; var msg = this.unwrapCompressed(); var literalDataList = msg.packets.filterByTag(enums.packet.literal); if (literalDataList.length !== 1) throw new Error('Can only verify message with one literal data packet.'); var signatureList = msg.packets.filterByTag(enums.packet.signature); for (var i = 0; i < signatureList.length; i++) { var keyPacket = null; for (var j = 0; j < keys.length; j++) { keyPacket = keys[j].getSigningKeyPacket(signatureList[i].issuerKeyId); if (keyPacket) { break; } } var verifiedSig = {}; if (keyPacket) { verifiedSig.keyid = signatureList[i].issuerKeyId; verifiedSig.valid = signatureList[i].verify(keyPacket, literalDataList[0]); } else { verifiedSig.keyid = signatureList[i].issuerKeyId; verifiedSig.valid = null; } result.push(verifiedSig); } return result; }; /** * Unwrap compressed message * @return {module:message~Message} message Content of compressed message */ Message.prototype.unwrapCompressed = function() { var compressed = this.packets.filterByTag(enums.packet.compressed); if (compressed.length) { return new Message(compressed[0].packets); } else { return this; } }; /** * Returns ASCII armored text of message * @return {String} ASCII armor */ Message.prototype.armor = function() { return armor.encode(enums.armor.message, this.packets.write()); }; /** * reads an OpenPGP armored message and returns a message object * @param {String} armoredText text to be parsed * @return {module:message~Message} new message object * @static */ function readArmored(armoredText) { //TODO how do we want to handle bad text? Exception throwing //TODO don't accept non-message armored texts var input = armor.decode(armoredText).data; var packetlist = new packet.List(); packetlist.read(input); return new Message(packetlist); } /** * Create a message object from signed content and a detached armored signature. * @param {String} content An 8 bit ascii string containing e.g. a MIME subtree with text nodes or attachments * @param {String} detachedSignature The detached ascii armored PGP signarure */ function readSignedContent(content, detachedSignature) { var literalDataPacket = new packet.Literal(); literalDataPacket.setBytes(content, enums.read(enums.literal, enums.literal.binary)); var packetlist = new packet.List(); packetlist.push(literalDataPacket); var input = armor.decode(detachedSignature).data; packetlist.read(input); return new Message(packetlist); } /** * creates new message object from text * @param {String} text * @return {module:message~Message} new message object * @static */ function fromText(text) { var literalDataPacket = new packet.Literal(); // text will be converted to UTF8 literalDataPacket.setText(text); var literalDataPacketlist = new packet.List(); literalDataPacketlist.push(literalDataPacket); return new Message(literalDataPacketlist); } /** * creates new message object from binary data * @param {String} bytes * @param {String} filename * @return {module:message~Message} new message object * @static */ function fromBinary(bytes, filename) { var literalDataPacket = new packet.Literal(); if (filename) { literalDataPacket.setFilename(filename); } literalDataPacket.setBytes(bytes, enums.read(enums.literal, enums.literal.binary)); var literalDataPacketlist = new packet.List(); literalDataPacketlist.push(literalDataPacket); return new Message(literalDataPacketlist); } exports.Message = Message; exports.readArmored = readArmored; exports.readSignedContent = readSignedContent; exports.fromText = fromText; exports.fromBinary = fromBinary;