mail/src/js/crypto/crypto.js

/**
 * High level crypto api that invokes native crypto (if available) and
 * gracefully degrades to JS crypto (if unavailable)
 */
app.crypto.Crypto = function(window, util) {
	'use strict';

	var aes = new cryptoLib.AesCBC(forge); // use AES-CBC mode by default
	var rsa = new cryptoLib.RSA(forge, util); // use RSA for asym. crypto

	/**
	 * Initializes the crypto modules by fetching the user's
	 * encrypted secret key from storage and storing it in memory.
	 */
	this.init = function(args, callback) {
		var self = this;

		// valdiate input
		if (!args.emailAddress || !args.keySize || !args.rsaKeySize) {
			callback({
				errMsg: 'Crypto init failed. Not all args set!'
			});
			return;
		}

		self.emailAddress = args.emailAddress;
		self.keySize = args.keySize;
		self.ivSize = args.keySize;
		self.rsaKeySize = args.rsaKeySize;

		// derive PBKDF2 from password in web worker thread
		self.deriveKey(args.password, self.keySize, function(pbkdf2) {

			// check if key exists
			if (!args.storedKeypair) {
				// generate keys, encrypt and persist if none exists
				generateKeypair(pbkdf2);
			} else {
				// decrypt key
				decryptKeypair(args.storedKeypair, pbkdf2);
			}

		});

		function generateKeypair(pbkdf2) {
			// generate RSA keypair in web worker
			rsa.generateKeypair(self.rsaKeySize, function(err, generatedKeypair) {
				if (err) {
					callback(err);
					return;
				}

				// encrypt keypair
				var iv = util.random(self.ivSize);
				var encryptedPrivateKey = aes.encrypt(generatedKeypair.privkeyPem, pbkdf2, iv);

				// new encrypted keypair object
				var newKeypair = {
					publicKey: {
						_id: generatedKeypair._id,
						userId: self.emailAddress,
						publicKey: generatedKeypair.pubkeyPem
					},
					privateKey: {
						_id: generatedKeypair._id,
						userId: self.emailAddress,
						encryptedKey: encryptedPrivateKey,
						iv: iv
					}
				};

				// return generated keypair for storage in keychain dao
				callback(null, newKeypair);
			});
		}

		function decryptKeypair(storedKeypair, pbkdf2) {
			var decryptedPrivateKey;

			// validate input
			if (!storedKeypair || !storedKeypair.privateKey || !storedKeypair.privateKey.encryptedKey || !storedKeypair.privateKey.iv) {
				callback({
					errMsg: 'Incomplete arguments for private key decryption!'
				});
				return;
			}

			// try to decrypt with pbkdf2
			try {
				var prK = storedKeypair.privateKey;
				decryptedPrivateKey = aes.decrypt(prK.encryptedKey, pbkdf2, prK.iv);
			} catch (ex) {
				callback({
					errMsg: 'Wrong password!'
				});
				return;
			}
			// set rsa keys
			rsa.init(storedKeypair.publicKey.publicKey, decryptedPrivateKey, storedKeypair.publicKey._id);

			callback();
		}
	};

	/**
	 * Do PBKDF2 key derivation in a WebWorker thread
	 */
	this.deriveKey = function(password, keySize, callback) {
		// check for WebWorker support
		if (window.Worker) {

			// init webworker thread
			var worker = new Worker(app.config.workerPath + '/crypto/pbkdf2-worker.js');

			worker.onmessage = function(e) {
				// return derived key from the worker
				callback(e.data);
			};

			// send plaintext data to the worker
			worker.postMessage({
				password: password,
				keySize: keySize
			});

		} else {
			// no WebWorker support... do synchronous call
			var pbkdf2 = new app.crypto.PBKDF2();
			var key = pbkdf2.getKey(password, keySize);
			callback(key);
		}
	};

	//
	// En/Decrypts single item
	//

	this.aesEncrypt = function(plaintext, key, iv, callback) {
		if (window.Worker) {

			var worker = new Worker(app.config.workerPath + '/crypto/aes-worker.js');
			worker.onmessage = function(e) {
				callback(e.data);
			};
			worker.postMessage({
				type: 'encrypt',
				plaintext: plaintext,
				key: key,
				iv: iv
			});

		} else {
			var ct = this.aesEncryptSync(plaintext, key, iv);
			callback(ct);
		}
	};

	this.aesDecrypt = function(ciphertext, key, iv, callback) {
		if (window.Worker) {

			var worker = new Worker(app.config.workerPath + '/crypto/aes-worker.js');
			worker.onmessage = function(e) {
				callback(e.data);
			};
			worker.postMessage({
				type: 'decrypt',
				ciphertext: ciphertext,
				key: key,
				iv: iv
			});

		} else {
			var pt = this.aesDecryptSync(ciphertext, key, iv);
			callback(pt);
		}
	};

	this.aesEncryptSync = function(plaintext, key, iv) {
		return aes.encrypt(plaintext, key, iv);
	};

	this.aesDecryptSync = function(ciphertext, key, iv) {
		return aes.decrypt(ciphertext, key, iv);
	};

	//
	// En/Decrypt a list of items with AES in a WebWorker thread
	//

	this.aesEncryptList = function(list, callback) {
		if (window.Worker) {

			var worker = new Worker(app.config.workerPath + '/crypto/aes-batch-worker.js');
			worker.onmessage = function(e) {
				callback(e.data);
			};
			worker.postMessage({
				type: 'encrypt',
				list: list
			});

		} else {
			var batch = new cryptoLib.CryptoBatch(aes);
			var encryptedList = batch.encryptList(list);
			callback(encryptedList);
		}
	};

	this.aesDecryptList = function(list, callback) {
		if (window.Worker) {

			var worker = new Worker(app.config.workerPath + '/crypto/aes-batch-worker.js');
			worker.onmessage = function(e) {
				callback(e.data);
			};
			worker.postMessage({
				type: 'decrypt',
				list: list
			});

		} else {
			var batch = new cryptoLib.CryptoBatch(aes);
			var decryptedList = batch.decryptList(list);
			callback(decryptedList);
		}
	};

	//
	// En/Decrypt something speficially using the user's secret key
	//

	this.encryptListForUser = function(list, receiverPubkeys, callback) {
		var envelope, envelopes = [],
			self = this;

		if (!receiverPubkeys || receiverPubkeys.length !== 1) {
			callback({
				errMsg: 'Encryption is currently implemented for only one receiver!'
			});
			return;
		}

		var keypair = rsa.exportKeys();
		var senderPrivkey = {
			_id: keypair._id,
			privateKey: keypair.privkeyPem
		};

		// package objects into batchable envelope format
		list.forEach(function(i) {
			envelope = {
				id: i.id,
				plaintext: i,
				key: util.random(self.keySize),
				iv: util.random(self.ivSize),
				receiverPk: receiverPubkeys[0]._id
			};
			envelopes.push(envelope);
		});

		if (window.Worker) {

			var worker = new Worker(app.config.workerPath + '/crypto/crypto-batch-worker.js');
			worker.onmessage = function(e) {
				callback(null, e.data);
			};
			worker.postMessage({
				type: 'encrypt',
				list: envelopes,
				senderPrivkey: senderPrivkey,
				receiverPubkeys: receiverPubkeys
			});

		} else {
			var batch = new cryptoLib.CryptoBatch(aes, rsa, util, _);
			var encryptedList = batch.encryptListForUser(envelopes, receiverPubkeys, senderPrivkey);
			callback(null, encryptedList);
		}
	};

	this.decryptListForUser = function(list, senderPubkeys, callback) {
		if (!senderPubkeys || senderPubkeys < 1) {
			callback({
				errMsg: 'Sender public keys must be set!'
			});
			return;
		}

		var keypair = rsa.exportKeys();
		var receiverPrivkey = {
			_id: keypair._id,
			privateKey: keypair.privkeyPem
		};

		if (window.Worker) {

			var worker = new Worker(app.config.workerPath + '/crypto/crypto-batch-worker.js');
			worker.onmessage = function(e) {
				callback(null, e.data);
			};
			worker.postMessage({
				type: 'decrypt',
				list: list,
				receiverPrivkey: receiverPrivkey,
				senderPubkeys: senderPubkeys
			});

		} else {
			var batch = new cryptoLib.CryptoBatch(aes, rsa, util, _);
			var decryptedList = batch.decryptListForUser(list, senderPubkeys, receiverPrivkey);
			callback(null, decryptedList);
		}
	};

};