The line part.writeTo(out); throws java.lang.ClassCastException:

com.sun.mail.handlers.multipart_mixed cannot be cast to javax.activation.DataContentHandler

private static void getBodyAsRFC822(
        MimePart part, boolean ignoreHeaders, ByteArrayOutputStreamout) {
    try {

        if (ignoreHeaders) {
            OutputStream os = MimeUtility.encode(out, part.getEncoding());
        } else {
    catch (Exception e) {

This is my build.gradle

compileOnly group: 'com.liferay', name: 'com.liferay.portal.instance.lifecycle', version: '2.0.0'
compileOnly group: "com.liferay.portal", name: "com.liferay.portal.kernel", version: "2.46.0"
compileOnly group: "org.osgi", name: "org.osgi.core", version: "6.0.0"
compileOnly group: "org.osgi", name: "org.osgi.service.component.annotations", version: "1.3.0"

compileInclude group: 'org.slf4j', name: 'slf4j-api', version: '1.7.25'
compileInclude group: 'org.apache.mina', name: 'mina-core', version: '2.0.16'
compileInclude group: 'javax.mail', name: 'mail', version: '1.4'
compileInclude group: "javax.servlet", name: "servlet-api", version: "2.5"

But multipart_mixed implements DataContentHandler, so it should be castable. Why isn't it?


Whenever a subclass apparently can't be typecasted to its legitimate superclass, you have duplicate classes, loaded by different classloaders. Find where you load the activation (superclass) classes, eliminate all but one (typically you'll need to eliminate the one class that your own project brings) and use the provided one from the framework.

The Exception message names the classes in question but omits the classloaders participating in the game, which is why the message, on first attempt to understand it, doesn't make much sense. As soon as you know about multiple classloaders, thus multiple instances of javax.activation.DataContentHandler, it makes more sense.

Edit: With the compileInclude statements in your build.gradle, you're effectively bundling all your dependencies into your own jar file. But the framework has its own version of these classes, and while they all have the same name, they'll now be different versions (not only numeric), loaded through different classloaders. You should only use compileInclude if you clearly are dependent on something that you'll never find in the OSGi runtime. Instead, use compileOnly or compile as default, and deploy the additional dependencies to the runtime, together with your module.

Check this article for a detailed description of what you've done.

  • Where i can find the activation (superclass)? – Simone Sorgon Mar 29 at 11:09
  • I don't know, but you should be able to find it twice – Olaf Kock Mar 29 at 11:51
  • Basically, what can I do? – Simone Sorgon Mar 29 at 13:57
  • if you can, look my build.gradle.. i can to change "compileInclude group: 'javax.mail', name: 'mail', version: '1.4'" with "compileInclude group: 'javax.mail', name: 'javax.mail-api', version: '1.5.6'" and the exception disappears but the application does not do that before .. – Simone Sorgon Mar 29 at 14:17
  • compileInclude will package the dependencies in your module, and most likely javax.mail (and with it javax.activation) is already provided by the OSGi container (Liferay in this case). Thus compileOnly should be ok: At compiletime you'll need the dependency, and at runtime you're dependent on the version of javax.mail that Liferay or another component provides through the OSGi container. As a rule of thumb, it should be rare that you're bundling dependencies within your own module. compileInclude will include javax.mail and activation in your module. – Olaf Kock Mar 29 at 15:00

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