anotherim/src/main/java/eu/siacs/conversations/crypto/sasl/ScramMechanism.java

package eu.siacs.conversations.crypto.sasl;

import android.util.Base64;

import com.google.common.base.Objects;
import com.google.common.cache.Cache;
import com.google.common.cache.CacheBuilder;

import org.bouncycastle.crypto.Digest;
import org.bouncycastle.crypto.macs.HMac;
import org.bouncycastle.crypto.params.KeyParameter;

import java.nio.charset.Charset;
import java.security.InvalidKeyException;
import java.security.SecureRandom;
import java.util.concurrent.ExecutionException;

import eu.siacs.conversations.entities.Account;
import eu.siacs.conversations.utils.CryptoHelper;
import eu.siacs.conversations.xml.TagWriter;

abstract class ScramMechanism extends SaslMechanism {
    // TODO: When channel binding (SCRAM-SHA1-PLUS) is supported in future, generalize this to indicate support and/or usage.
    private final static String GS2_HEADER = "n,,";
    private static final byte[] CLIENT_KEY_BYTES = "Client Key".getBytes();
    private static final byte[] SERVER_KEY_BYTES = "Server Key".getBytes();

    protected abstract HMac getHMAC();

    protected abstract Digest getDigest();

    private static final Cache<CacheKey, KeyPair> CACHE = CacheBuilder.newBuilder().maximumSize(10).build();

    private static class CacheKey {
        final String algorithm;
        final String password;
        final String salt;
        final int iterations;

        private CacheKey(String algorithm, String password, String salt, int iterations) {
            this.algorithm = algorithm;
            this.password = password;
            this.salt = salt;
            this.iterations = iterations;
        }

        @Override
        public boolean equals(Object o) {
            if (this == o) return true;
            if (o == null || getClass() != o.getClass()) return false;
            CacheKey cacheKey = (CacheKey) o;
            return iterations == cacheKey.iterations &&
                    Objects.equal(algorithm, cacheKey.algorithm) &&
                    Objects.equal(password, cacheKey.password) &&
                    Objects.equal(salt, cacheKey.salt);
        }

        @Override
        public int hashCode() {
            return Objects.hashCode(algorithm, password, salt, iterations);
        }
    }

    private KeyPair getKeyPair(final String password, final String salt, final int iterations) throws ExecutionException {
        return CACHE.get(new CacheKey(getHMAC().getAlgorithmName(), password, salt, iterations), () -> {
            final byte[] saltedPassword, serverKey, clientKey;
            saltedPassword = hi(password.getBytes(), Base64.decode(salt, Base64.DEFAULT), iterations);
            serverKey = hmac(saltedPassword, SERVER_KEY_BYTES);
            clientKey = hmac(saltedPassword, CLIENT_KEY_BYTES);
            return new KeyPair(clientKey, serverKey);
        });
    }

    private final String clientNonce;
    protected State state = State.INITIAL;
    private String clientFirstMessageBare;
    private byte[] serverSignature = null;

    ScramMechanism(final TagWriter tagWriter, final Account account, final SecureRandom rng) {
        super(tagWriter, account, rng);

        // This nonce should be different for each authentication attempt.
        clientNonce = CryptoHelper.random(100, rng);
        clientFirstMessageBare = "";
    }

    private byte[] hmac(final byte[] key, final byte[] input) throws InvalidKeyException {
        final HMac hMac = getHMAC();
        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 byte[] digest(byte[] bytes) {
        final Digest digest = getDigest();
        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 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;
    }

    @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;
                try {
                    serverFirstMessage = Base64.decode(challenge, Base64.DEFAULT);
                } catch (IllegalArgumentException e) {
                    throw new AuthenticationException("Unable to decode server challenge", e);
                }
                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();

                final KeyPair keys;
                try {
                    keys = getKeyPair(CryptoHelper.saslPrep(account.getPassword()), salt, iterationCount);
                } catch (ExecutionException e) {
                    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];

                if (clientSignature.length < keys.clientKey.length) {
                    throw new AuthenticationException("client signature was shorter than clientKey");
                }

                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);
        }
    }

    private static class KeyPair {
        final byte[] clientKey;
        final byte[] serverKey;

        KeyPair(final byte[] clientKey, final byte[] serverKey) {
            this.clientKey = clientKey;
            this.serverKey = serverKey;
        }
    }
}
Add SCRAM-SHA-2 support 2017-01-12 20:26:58 +00:00			`package eu.siacs.conversations.crypto.sasl;`

			`import android.util.Base64;`

rewrote scram cache implementation 2020-12-30 21:01:08 +00:00			`import com.google.common.base.Objects;`
			`import com.google.common.cache.Cache;`
			`import com.google.common.cache.CacheBuilder;`

Add SCRAM-SHA-2 support 2017-01-12 20:26:58 +00:00			`import org.bouncycastle.crypto.Digest;`
			`import org.bouncycastle.crypto.macs.HMac;`
			`import org.bouncycastle.crypto.params.KeyParameter;`

			`import java.nio.charset.Charset;`
			`import java.security.InvalidKeyException;`
			`import java.security.SecureRandom;`
rewrote scram cache implementation 2020-12-30 21:01:08 +00:00			`import java.util.concurrent.ExecutionException;`
Add SCRAM-SHA-2 support 2017-01-12 20:26:58 +00:00
			`import eu.siacs.conversations.entities.Account;`
			`import eu.siacs.conversations.utils.CryptoHelper;`
			`import eu.siacs.conversations.xml.TagWriter;`

			`abstract class ScramMechanism extends SaslMechanism {`
fixed auth 2018-09-26 08:39:36 +00:00			`// TODO: When channel binding (SCRAM-SHA1-PLUS) is supported in future, generalize this to indicate support and/or usage.`
			`private final static String GS2_HEADER = "n,,";`
			`private static final byte[] CLIENT_KEY_BYTES = "Client Key".getBytes();`
			`private static final byte[] SERVER_KEY_BYTES = "Server Key".getBytes();`
SCRAM remove cache. made digest and hmac non static DIGEST and HMAC were static variables. Those are initialized by what ever concrete implementation gets executed first. (Perform SCRAM-SHA1 first and those variables got initialized with SHA1 variants) For subsequent SHA256 executions those variables contained wrong values. 2020-12-30 14:57:42 +00:00
			`protected abstract HMac getHMAC();`

			`protected abstract Digest getDigest();`

rewrote scram cache implementation 2020-12-30 21:01:08 +00:00			`private static final Cache<CacheKey, KeyPair> CACHE = CacheBuilder.newBuilder().maximumSize(10).build();`

			`private static class CacheKey {`
			`final String algorithm;`
			`final String password;`
			`final String salt;`
			`final int iterations;`

			`private CacheKey(String algorithm, String password, String salt, int iterations) {`
			`this.algorithm = algorithm;`
			`this.password = password;`
			`this.salt = salt;`
			`this.iterations = iterations;`
			`}`

			`@Override`
			`public boolean equals(Object o) {`
			`if (this == o) return true;`
			`if (o == null \|\| getClass() != o.getClass()) return false;`
			`CacheKey cacheKey = (CacheKey) o;`
			`return iterations == cacheKey.iterations &&`
			`Objects.equal(algorithm, cacheKey.algorithm) &&`
			`Objects.equal(password, cacheKey.password) &&`
			`Objects.equal(salt, cacheKey.salt);`
			`}`

			`@Override`
			`public int hashCode() {`
			`return Objects.hashCode(algorithm, password, salt, iterations);`
			`}`
			`}`

			`private KeyPair getKeyPair(final String password, final String salt, final int iterations) throws ExecutionException {`
			`return CACHE.get(new CacheKey(getHMAC().getAlgorithmName(), password, salt, iterations), () -> {`
SCRAM remove cache. made digest and hmac non static DIGEST and HMAC were static variables. Those are initialized by what ever concrete implementation gets executed first. (Perform SCRAM-SHA1 first and those variables got initialized with SHA1 variants) For subsequent SHA256 executions those variables contained wrong values. 2020-12-30 14:57:42 +00:00			`final byte[] saltedPassword, serverKey, clientKey;`
			`saltedPassword = hi(password.getBytes(), Base64.decode(salt, Base64.DEFAULT), iterations);`
			`serverKey = hmac(saltedPassword, SERVER_KEY_BYTES);`
			`clientKey = hmac(saltedPassword, CLIENT_KEY_BYTES);`
			`return new KeyPair(clientKey, serverKey);`
rewrote scram cache implementation 2020-12-30 21:01:08 +00:00			`});`
fixed auth 2018-09-26 08:39:36 +00:00			`}`

			`private final String clientNonce;`
			`protected State state = State.INITIAL;`
			`private String clientFirstMessageBare;`
			`private byte[] serverSignature = null;`

			`ScramMechanism(final TagWriter tagWriter, final Account account, final SecureRandom rng) {`
			`super(tagWriter, account, rng);`

			`// This nonce should be different for each authentication attempt.`
			`clientNonce = CryptoHelper.random(100, rng);`
			`clientFirstMessageBare = "";`
			`}`

SCRAM remove cache. made digest and hmac non static DIGEST and HMAC were static variables. Those are initialized by what ever concrete implementation gets executed first. (Perform SCRAM-SHA1 first and those variables got initialized with SHA1 variants) For subsequent SHA256 executions those variables contained wrong values. 2020-12-30 14:57:42 +00:00			`private byte[] hmac(final byte[] key, final byte[] input) throws InvalidKeyException {`
			`final HMac hMac = getHMAC();`
			`hMac.init(new KeyParameter(key));`
			`hMac.update(input, 0, input.length);`
			`final byte[] out = new byte[hMac.getMacSize()];`
			`hMac.doFinal(out, 0);`
fixed auth 2018-09-26 08:39:36 +00:00			`return out;`
			`}`

SCRAM remove cache. made digest and hmac non static DIGEST and HMAC were static variables. Those are initialized by what ever concrete implementation gets executed first. (Perform SCRAM-SHA1 first and those variables got initialized with SHA1 variants) For subsequent SHA256 executions those variables contained wrong values. 2020-12-30 14:57:42 +00:00			`public byte[] digest(byte[] bytes) {`
			`final Digest digest = getDigest();`
			`digest.reset();`
			`digest.update(bytes, 0, bytes.length);`
			`final byte[] out = new byte[digest.getDigestSize()];`
			`digest.doFinal(out, 0);`
fixed auth 2018-09-26 08:39:36 +00:00			`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().`
			`*/`
SCRAM remove cache. made digest and hmac non static DIGEST and HMAC were static variables. Those are initialized by what ever concrete implementation gets executed first. (Perform SCRAM-SHA1 first and those variables got initialized with SHA1 variants) For subsequent SHA256 executions those variables contained wrong values. 2020-12-30 14:57:42 +00:00			`private byte[] hi(final byte[] key, final byte[] salt, final int iterations)`
fixed auth 2018-09-26 08:39:36 +00:00			`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;`
			`}`

			`@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;`
			`try {`
			`serverFirstMessage = Base64.decode(challenge, Base64.DEFAULT);`
			`} catch (IllegalArgumentException e) {`
			`throw new AuthenticationException("Unable to decode server challenge", e);`
			`}`
			`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();`

rewrote scram cache implementation 2020-12-30 21:01:08 +00:00			`final KeyPair keys;`
			`try {`
			`keys = getKeyPair(CryptoHelper.saslPrep(account.getPassword()), salt, iterationCount);`
			`} catch (ExecutionException e) {`
fixed auth 2018-09-26 08:39:36 +00:00			`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];`

fix scram crash for broken metronome servers 2020-05-27 11:53:28 +00:00			`if (clientSignature.length < keys.clientKey.length) {`
			`throw new AuthenticationException("client signature was shorter than clientKey");`
			`}`

fixed auth 2018-09-26 08:39:36 +00:00			`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);`
			`}`
			`}`

			`private static class KeyPair {`
			`final byte[] clientKey;`
			`final byte[] serverKey;`

			`KeyPair(final byte[] clientKey, final byte[] serverKey) {`
			`this.clientKey = clientKey;`
			`this.serverKey = serverKey;`
			`}`
			`}`
Add SCRAM-SHA-2 support 2017-01-12 20:26:58 +00:00			`}`