package de.pixart.messenger.crypto.sasl; import android.util.Base64; import android.util.LruCache; import org.bouncycastle.crypto.Digest; import org.bouncycastle.crypto.digests.SHA1Digest; import org.bouncycastle.crypto.macs.HMac; import org.bouncycastle.crypto.params.KeyParameter; import java.math.BigInteger; import java.nio.charset.Charset; import java.security.InvalidKeyException; import java.security.SecureRandom; import de.pixart.messenger.entities.Account; import de.pixart.messenger.utils.CryptoHelper; import de.pixart.messenger.xml.TagWriter; public class ScramSha1 extends SaslMechanism { // TODO: When channel binding (SCRAM-SHA1-PLUS) is supported in future, generalize this to indicate support and/or usage. final private static String GS2_HEADER = "n,,"; private String clientFirstMessageBare; final private String clientNonce; private byte[] serverSignature = null; private static HMac HMAC; private static Digest DIGEST; private static final byte[] CLIENT_KEY_BYTES = "Client Key".getBytes(); private static final byte[] SERVER_KEY_BYTES = "Server Key".getBytes(); public static class KeyPair { final public byte[] clientKey; final public byte[] serverKey; public KeyPair(final byte[] clientKey, final byte[] serverKey) { this.clientKey = clientKey; this.serverKey = serverKey; } } private static final LruCache CACHE; static { DIGEST = new SHA1Digest(); HMAC = new HMac(new SHA1Digest()); CACHE = new LruCache(10) { protected KeyPair create(final String k) { // Map keys are "bytesToHex(JID),bytesToHex(password),bytesToHex(salt),iterations". // Changing any of these values forces a cache miss. `CryptoHelper.bytesToHex()' // is applied to prevent commas in the strings breaking things. final String[] kparts = k.split(",", 4); try { final byte[] saltedPassword, serverKey, clientKey; saltedPassword = hi(CryptoHelper.hexToString(kparts[1]).getBytes(), Base64.decode(CryptoHelper.hexToString(kparts[2]), Base64.DEFAULT), Integer.valueOf(kparts[3])); serverKey = hmac(saltedPassword, SERVER_KEY_BYTES); clientKey = hmac(saltedPassword, CLIENT_KEY_BYTES); return new KeyPair(clientKey, serverKey); } catch (final InvalidKeyException | NumberFormatException e) { return null; } } }; } private State state = State.INITIAL; public ScramSha1(final TagWriter tagWriter, final Account account, final SecureRandom rng) { super(tagWriter, account, rng); // This nonce should be different for each authentication attempt. clientNonce = new BigInteger(100, this.rng).toString(32); clientFirstMessageBare = ""; } @Override public int getPriority() { return 20; } @Override public String getMechanism() { return "SCRAM-SHA-1"; } @Override public String getClientFirstMessage() { if (clientFirstMessageBare.isEmpty() && state == State.INITIAL) { clientFirstMessageBare = "n=" + CryptoHelper.saslEscape(CryptoHelper.saslPrep(account.getUsername())) + ",r=" + this.clientNonce; state = State.AUTH_TEXT_SENT; } return Base64.encodeToString( (GS2_HEADER + clientFirstMessageBare).getBytes(Charset.defaultCharset()), Base64.NO_WRAP); } @Override public String getResponse(final String challenge) throws AuthenticationException { switch (state) { case AUTH_TEXT_SENT: if (challenge == null) { throw new AuthenticationException("challenge can not be null"); } byte[] serverFirstMessage = Base64.decode(challenge, Base64.DEFAULT); final Tokenizer tokenizer = new Tokenizer(serverFirstMessage); String nonce = ""; int iterationCount = -1; String salt = ""; for (final String token : tokenizer) { if (token.charAt(1) == '=') { switch (token.charAt(0)) { case 'i': try { iterationCount = Integer.parseInt(token.substring(2)); } catch (final NumberFormatException e) { throw new AuthenticationException(e); } break; case 's': salt = token.substring(2); break; case 'r': nonce = token.substring(2); break; case 'm': /* * RFC 5802: * m: This attribute is reserved for future extensibility. In this * version of SCRAM, its presence in a client or a server message * MUST cause authentication failure when the attribute is parsed by * the other end. */ throw new AuthenticationException("Server sent reserved token: `m'"); } } } if (iterationCount < 0) { throw new AuthenticationException("Server did not send iteration count"); } if (nonce.isEmpty() || !nonce.startsWith(clientNonce)) { throw new AuthenticationException("Server nonce does not contain client nonce: " + nonce); } if (salt.isEmpty()) { throw new AuthenticationException("Server sent empty salt"); } final String clientFinalMessageWithoutProof = "c=" + Base64.encodeToString( GS2_HEADER.getBytes(), Base64.NO_WRAP) + ",r=" + nonce; final byte[] authMessage = (clientFirstMessageBare + ',' + new String(serverFirstMessage) + ',' + clientFinalMessageWithoutProof).getBytes(); // Map keys are "bytesToHex(JID),bytesToHex(password),bytesToHex(salt),iterations". final KeyPair keys = CACHE.get( CryptoHelper.bytesToHex(account.getJid().toBareJid().toString().getBytes()) + "," + CryptoHelper.bytesToHex(account.getPassword().getBytes()) + "," + CryptoHelper.bytesToHex(salt.getBytes()) + "," + String.valueOf(iterationCount) ); if (keys == null) { throw new AuthenticationException("Invalid keys generated"); } final byte[] clientSignature; try { serverSignature = hmac(keys.serverKey, authMessage); final byte[] storedKey = digest(keys.clientKey); clientSignature = hmac(storedKey, authMessage); } catch (final InvalidKeyException e) { throw new AuthenticationException(e); } final byte[] clientProof = new byte[keys.clientKey.length]; for (int i = 0; i < clientProof.length; i++) { clientProof[i] = (byte) (keys.clientKey[i] ^ clientSignature[i]); } final String clientFinalMessage = clientFinalMessageWithoutProof + ",p=" + Base64.encodeToString(clientProof, Base64.NO_WRAP); state = State.RESPONSE_SENT; return Base64.encodeToString(clientFinalMessage.getBytes(), Base64.NO_WRAP); case RESPONSE_SENT: try { final String clientCalculatedServerFinalMessage = "v=" + Base64.encodeToString(serverSignature, Base64.NO_WRAP); if (!clientCalculatedServerFinalMessage.equals(new String(Base64.decode(challenge, Base64.DEFAULT)))) { throw new Exception(); }; state = State.VALID_SERVER_RESPONSE; return ""; } catch(Exception e) { throw new AuthenticationException("Server final message does not match calculated final message"); } default: throw new InvalidStateException(state); } } public static synchronized byte[] hmac(final byte[] key, final byte[] input) throws InvalidKeyException { HMAC.init(new KeyParameter(key)); HMAC.update(input, 0, input.length); final byte[] out = new byte[HMAC.getMacSize()]; HMAC.doFinal(out, 0); return out; } public static synchronized byte[] digest(byte[] bytes) { DIGEST.reset(); DIGEST.update(bytes, 0, bytes.length); final byte[] out = new byte[DIGEST.getDigestSize()]; DIGEST.doFinal(out, 0); return out; } /* * Hi() is, essentially, PBKDF2 [RFC2898] with HMAC() as the * pseudorandom function (PRF) and with dkLen == output length of * HMAC() == output length of H(). */ private static synchronized byte[] hi(final byte[] key, final byte[] salt, final int iterations) throws InvalidKeyException { byte[] u = hmac(key, CryptoHelper.concatenateByteArrays(salt, CryptoHelper.ONE)); byte[] out = u.clone(); for (int i = 1; i < iterations; i++) { u = hmac(key, u); for (int j = 0; j < u.length; j++) { out[j] ^= u[j]; } } return out; } }