It is possible to setup client/server requests over SSL. EJB requests from a remote client can happen two different ways:

Note, TomEE can be setup to support ejbds.

https

First, you'll need to setup Tomcat (TomEE) with SSL as described here:

http://tomcat.apache.org/tomcat-7.0-doc/ssl-howto.html

Once that is done and the tomee webapp can be accessed with https, an EJB client can invoke over https using the following InitialContext setup:

Properties p = new Properties();
p.put("java.naming.factory.initial", "org.apache.openejb.client.RemoteInitialContextFactory");
p.put("java.naming.provider.url", "https://127.0.0.1:8443/tomee/ejb");
// user and pass optional
p.put("java.naming.security.principal", "myuser");
p.put("java.naming.security.credentials", "mypass");

InitialContext ctx = new InitialContext(p);

MyBean myBean = (MyBean) ctx.lookup("MyBeanRemote");

If you setup Tomcat (TomEE) to use the APR (Apache Portable Runitme) implementation of SSL on the server side, and you have connection issues like connection reset, you'll have to set 'https.protocols' system property. 'https.protocols' property must be set according to the SSLProtocol parameter of the HTTPS connector configuration :

http://tomcat.apache.org/tomcat-7.0-doc/config/http.html

You can also have a look a this :

http://docs.oracle.com/javase/1.4.2/docs/guide/plugin/developer_guide/faq/troubleshooting.html

ejbds

The SSL version of the ejbd protocol is called ejbds and is enabled and setup in OpenEJB Standalone by default.

Its configuration conf/ejbds.properties looks like this:

server      = org.apache.openejb.server.ejbd.EjbServer
bind        = 127.0.0.1
port        = 4203
disabled    = false
threads     = 200
backlog     = 200
secure      = true
discovery   = ejb:ejbds://{bind}:{port}

To access this service from a remote client, the InitialContext would be setup like the following:

Properties p = new Properties();
p.put("java.naming.factory.initial", "org.apache.openejb.client.RemoteInitialContextFactory");
p.put("java.naming.provider.url", "ejbd://localhost:4201");
// user and pass optional
p.put("java.naming.security.principal", "myuser");
p.put("java.naming.security.credentials", "mypass");

InitialContext ctx = new InitialContext(p);

MyBean myBean = (MyBean) ctx.lookup("MyBeanRemote");

Changing the Cipher Suite

This is a pending feature By default, the ejbds protocol connects with SSL_DH_anon_WITH_RC4_128_MD5. That means your connection is encrypted and the integrity of the transmission is verified. However, this only protects your from eavesdroppers, it offers absolutely zero protection from Man in the Middle attacks. This sort of attack could be pulled off without your knowledge and the attacker has the ability to intercept, monitor, and even modify your messages. If the attacker could control a router on your connection path, this attack could be trivially pulled off with nothing more but the OpenEJB server and client.

To secure your connections against this sort of attack, your client can cryptographically prove it's talking to the correct server before sending any data. To do this, simply select one or more secure cipher suites that your J2SE provider supports from this listing.

You must now instruct the client and server to use that suite.

On the server:

server      = org.apache.openejb.server.ejbd.EjbServer
bind        = 127.0.0.1
port        = 4203
disabled    = false
threads     = 200
backlog     = 200
secure      = true
enabledCipherSuites = TLS_RSA_WITH_AES_256_CBC_SHA,TLS_RSA_WITH_AES_128_CBC_SHA
discovery   = ejb:ejbds://{bind}:{port}

On the client, you must supply a property:

-Dopenejb.client.enabledCipherSuites=TLS_RSA_WITH_AES_256_CBC_SHA,TLS_RSA_WITH_AES_128_CBC_SHA

The final piece is to make sure your server has available a private certificate that the the client can trust. This can be certificate from an authority or a self signed certificate. The javax.net.ssl.trustStore and javax.net.ssl.keyStore JVM properties are used to set this up.