This version is still in development and is not considered stable yet. For the latest stable version, please use Spring Integration 6.4.0!

SSL/TLS Support

Secure Sockets Layer/Transport Layer Security is supported. When using NIO, the JDK 5+ SSLEngine feature is used to handle handshaking after the connection is established. When not using NIO, standard SSLSocketFactory and SSLServerSocketFactory objects are used to create connections. A number of strategy interfaces are provided to allow significant customization. The default implementations of these interfaces provide for the simplest way to get started with secure communications.

Getting Started

Regardless of whether you use NIO, you need to configure the ssl-context-support attribute on the connection factory. This attribute references a <bean/> definition that describes the location and passwords for the required key stores.

SSL/TLS peers require two key stores each:

  • A keystore that contains private and public key pairs to identify the peer

  • A truststore that contains the public keys for peers that are trusted. See the documentation for the keytool utility provided with the JDK. The essential steps are

    1. Create a new key pair and store it in a keystore.

    2. Export the public key.

    3. Import the public key into the peer’s truststore.

    4. Repeat for the other peer.

It is common in test cases to use the same key stores on both peers, but this should be avoided for production.

After establishing the key stores, the next step is to indicate their locations to the TcpSSLContextSupport bean and provide a reference to that bean to the connection factory.

The following example configures an SSL connection:

<bean id="sslContextSupport"
    class="o.sf.integration.ip.tcp.connection.support.DefaultTcpSSLContextSupport">
    <constructor-arg value="client.ks"/>
    <constructor-arg value="client.truststore.ks"/>
    <constructor-arg value="secret"/>
    <constructor-arg value="secret"/>
</bean>

<ip:tcp-connection-factory id="clientFactory"
    type="client"
    host="localhost"
    port="1234"
    ssl-context-support="sslContextSupport" />

The DefaultTcpSSLContextSupport class also has an optional protocol property, which can be SSL or TLS (the default).

The keystore file names (the first two constructor arguments) use the Spring Resource abstraction. By default, the files are located on the classpath, but you can override this by using the file: prefix (to find the files on the filesystem instead).

Starting with version 4.3.6, when you use NIO, you can specify an ssl-handshake-timeout (in seconds) on the connection factory. This timeout (the default is 30 seconds) is used during SSL handshake when waiting for data. If the timeout is exceeded, the process is stopped and the socket is closed.

Host Verification

Starting with version 5.0.8, you can configure whether to enable host verification. Starting with version 5.1, it is enabled by default; the mechanism to disable it depends on whether you are using NIO.

Host verification is used to ensure the server you are connected to matches information in the certificate, even if the certificate is trusted.

When using NIO, configure the DefaultTcpNioSSLConnectionSupport, for example.

@Bean
public DefaultTcpNioSSLConnectionSupport connectionSupport() {
    DefaultTcpSSLContextSupport sslContextSupport = new DefaultTcpSSLContextSupport("test.ks",
            "test.truststore.ks", "secret", "secret");
    sslContextSupport.setProtocol("SSL");
    DefaultTcpNioSSLConnectionSupport tcpNioConnectionSupport =
            new DefaultTcpNioSSLConnectionSupport(sslContextSupport, false);
    return tcpNioConnectionSupport;
}

The second constructor argument disables host verification. The connectionSupport bean is then injected into the NIO connection factory.

When not using NIO, the configuration is in the TcpSocketSupport:

connectionFactory.setTcpSocketSupport(new DefaultTcpSocketSupport(false));

Again, the constructor argument disables host verification.