示例#1
-1
  /*
   * Calculate the keys needed for this connection, once the session's
   * master secret has been calculated.  Uses the master key and nonces;
   * the amount of keying material generated is a function of the cipher
   * suite that's been negotiated.
   *
   * This gets called both on the "full handshake" (where we exchanged
   * a premaster secret and started a new session) as well as on the
   * "fast handshake" (where we just resumed a pre-existing session).
   */
  void calculateConnectionKeys(SecretKey masterKey) {
    /*
     * For both the read and write sides of the protocol, we use the
     * master to generate MAC secrets and cipher keying material.  Block
     * ciphers need initialization vectors, which we also generate.
     *
     * First we figure out how much keying material is needed.
     */
    int hashSize = cipherSuite.macAlg.size;
    boolean is_exportable = cipherSuite.exportable;
    BulkCipher cipher = cipherSuite.cipher;
    int expandedKeySize = is_exportable ? cipher.expandedKeySize : 0;

    // Which algs/params do we need to use?
    String keyMaterialAlg;
    PRF prf;

    if (protocolVersion.v >= ProtocolVersion.TLS12.v) {
      keyMaterialAlg = "SunTls12KeyMaterial";
      prf = cipherSuite.prfAlg;
    } else {
      keyMaterialAlg = "SunTlsKeyMaterial";
      prf = P_NONE;
    }

    String prfHashAlg = prf.getPRFHashAlg();
    int prfHashLength = prf.getPRFHashLength();
    int prfBlockSize = prf.getPRFBlockSize();

    TlsKeyMaterialParameterSpec spec =
        new TlsKeyMaterialParameterSpec(
            masterKey,
            protocolVersion.major,
            protocolVersion.minor,
            clnt_random.random_bytes,
            svr_random.random_bytes,
            cipher.algorithm,
            cipher.keySize,
            expandedKeySize,
            cipher.ivSize,
            hashSize,
            prfHashAlg,
            prfHashLength,
            prfBlockSize);

    try {
      KeyGenerator kg = JsseJce.getKeyGenerator(keyMaterialAlg);
      kg.init(spec);
      TlsKeyMaterialSpec keySpec = (TlsKeyMaterialSpec) kg.generateKey();

      clntWriteKey = keySpec.getClientCipherKey();
      svrWriteKey = keySpec.getServerCipherKey();

      // Return null if IVs are not supposed to be generated.
      // e.g. TLS 1.1+.
      clntWriteIV = keySpec.getClientIv();
      svrWriteIV = keySpec.getServerIv();

      clntMacSecret = keySpec.getClientMacKey();
      svrMacSecret = keySpec.getServerMacKey();
    } catch (GeneralSecurityException e) {
      throw new ProviderException(e);
    }

    //
    // Dump the connection keys as they're generated.
    //
    if (debug != null && Debug.isOn("keygen")) {
      synchronized (System.out) {
        HexDumpEncoder dump = new HexDumpEncoder();

        System.out.println("CONNECTION KEYGEN:");

        // Inputs:
        System.out.println("Client Nonce:");
        printHex(dump, clnt_random.random_bytes);
        System.out.println("Server Nonce:");
        printHex(dump, svr_random.random_bytes);
        System.out.println("Master Secret:");
        printHex(dump, masterKey.getEncoded());

        // Outputs:
        System.out.println("Client MAC write Secret:");
        printHex(dump, clntMacSecret.getEncoded());
        System.out.println("Server MAC write Secret:");
        printHex(dump, svrMacSecret.getEncoded());

        if (clntWriteKey != null) {
          System.out.println("Client write key:");
          printHex(dump, clntWriteKey.getEncoded());
          System.out.println("Server write key:");
          printHex(dump, svrWriteKey.getEncoded());
        } else {
          System.out.println("... no encryption keys used");
        }

        if (clntWriteIV != null) {
          System.out.println("Client write IV:");
          printHex(dump, clntWriteIV.getIV());
          System.out.println("Server write IV:");
          printHex(dump, svrWriteIV.getIV());
        } else {
          if (protocolVersion.v >= ProtocolVersion.TLS11.v) {
            System.out.println("... no IV derived for this protocol");
          } else {
            System.out.println("... no IV used for this cipher");
          }
        }
        System.out.flush();
      }
    }
  }
示例#2
-5
  /*
   * Calculate the master secret from its various components.  This is
   * used for key exchange by all cipher suites.
   *
   * The master secret is the catenation of three MD5 hashes, each
   * consisting of the pre-master secret and a SHA1 hash.  Those three
   * SHA1 hashes are of (different) constant strings, the pre-master
   * secret, and the nonces provided by the client and the server.
   */
  private SecretKey calculateMasterSecret(
      SecretKey preMasterSecret, ProtocolVersion requestedVersion) {

    if (debug != null && Debug.isOn("keygen")) {
      HexDumpEncoder dump = new HexDumpEncoder();

      System.out.println("SESSION KEYGEN:");

      System.out.println("PreMaster Secret:");
      printHex(dump, preMasterSecret.getEncoded());

      // Nonces are dumped with connection keygen, no
      // benefit to doing it twice
    }

    // What algs/params do we need to use?
    String masterAlg;
    PRF prf;

    if (protocolVersion.v >= ProtocolVersion.TLS12.v) {
      masterAlg = "SunTls12MasterSecret";
      prf = cipherSuite.prfAlg;
    } else {
      masterAlg = "SunTlsMasterSecret";
      prf = P_NONE;
    }

    String prfHashAlg = prf.getPRFHashAlg();
    int prfHashLength = prf.getPRFHashLength();
    int prfBlockSize = prf.getPRFBlockSize();

    TlsMasterSecretParameterSpec spec =
        new TlsMasterSecretParameterSpec(
            preMasterSecret,
            protocolVersion.major,
            protocolVersion.minor,
            clnt_random.random_bytes,
            svr_random.random_bytes,
            prfHashAlg,
            prfHashLength,
            prfBlockSize);

    SecretKey masterSecret;
    try {
      KeyGenerator kg = JsseJce.getKeyGenerator(masterAlg);
      kg.init(spec);
      masterSecret = kg.generateKey();
    } catch (GeneralSecurityException e) {
      // For RSA premaster secrets, do not signal a protocol error
      // due to the Bleichenbacher attack. See comments further down.
      if (!preMasterSecret.getAlgorithm().equals("TlsRsaPremasterSecret")) {
        throw new ProviderException(e);
      }

      if (debug != null && Debug.isOn("handshake")) {
        System.out.println("RSA master secret generation error:");
        e.printStackTrace(System.out);
        System.out.println("Generating new random premaster secret");
      }

      if (requestedVersion != null) {
        preMasterSecret = RSAClientKeyExchange.generateDummySecret(requestedVersion);
      } else {
        preMasterSecret = RSAClientKeyExchange.generateDummySecret(protocolVersion);
      }

      // recursive call with new premaster secret
      return calculateMasterSecret(preMasterSecret, null);
    }

    // if no version check requested (client side handshake), or version
    // information is not available (not an RSA premaster secret),
    // return master secret immediately.
    if ((requestedVersion == null) || !(masterSecret instanceof TlsMasterSecret)) {
      return masterSecret;
    }

    // we have checked the ClientKeyExchange message when reading TLS
    // record, the following check is necessary to ensure that
    // JCE provider does not ignore the checking, or the previous
    // checking process bypassed the premaster secret version checking.
    TlsMasterSecret tlsKey = (TlsMasterSecret) masterSecret;
    int major = tlsKey.getMajorVersion();
    int minor = tlsKey.getMinorVersion();
    if ((major < 0) || (minor < 0)) {
      return masterSecret;
    }

    // check if the premaster secret version is ok
    // the specification says that it must be the maximum version supported
    // by the client from its ClientHello message. However, many
    // implementations send the negotiated version, so accept both
    // for SSL v3.0 and TLS v1.0.
    // NOTE that we may be comparing two unsupported version numbers, which
    // is why we cannot use object reference equality in this special case.
    ProtocolVersion premasterVersion = ProtocolVersion.valueOf(major, minor);
    boolean versionMismatch = (premasterVersion.v != requestedVersion.v);

    /*
     * we never checked the client_version in server side
     * for TLS v1.0 and SSL v3.0. For compatibility, we
     * maintain this behavior.
     */
    if (versionMismatch && requestedVersion.v <= ProtocolVersion.TLS10.v) {
      versionMismatch = (premasterVersion.v != protocolVersion.v);
    }

    if (versionMismatch == false) {
      // check passed, return key
      return masterSecret;
    }

    // Due to the Bleichenbacher attack, do not signal a protocol error.
    // Generate a random premaster secret and continue with the handshake,
    // which will fail when verifying the finished messages.
    // For more information, see comments in PreMasterSecret.
    if (debug != null && Debug.isOn("handshake")) {
      System.out.println(
          "RSA PreMasterSecret version error: expected"
              + protocolVersion
              + " or "
              + requestedVersion
              + ", decrypted: "
              + premasterVersion);
      System.out.println("Generating new random premaster secret");
    }
    preMasterSecret = RSAClientKeyExchange.generateDummySecret(requestedVersion);

    // recursive call with new premaster secret
    return calculateMasterSecret(preMasterSecret, null);
  }