While troubleshooting some cryptographic code, I saw a strange hierarchy of stacktraces. I've solved the orignal problem, but became curious about how a stacktrace like this could be generated. Can anyone enlighten me?
Please note that I can't copy-paste the stacktrace verbatim. I must elide frames that can expose proprietary code.
businesscode.BusinessException: Failed while generating session key at businesscode.businessthing.BusinessMethod(BusinessApp.java:NN) ... NN more Caused by: java.security.NoSuchProviderException: JCE cannot authenticate the provider XXX at javax.crypto.SunJCE_b.a(DashoA13*..) at javax.crypto.KeyGenerator.getInstance(DashoA13*..) at businesslib.generateKey(BusinessLib.java:NN) ... NN more Caused by: javax.util.jar.JarException: Cannot parse X.jar at javax.crypto.SunJCE_c.a(DashoA13*..) at javax.crypto.SunJCE_b.b(DashoA13*..) at javax.crypto.SunJCE_b.a(DashoA13*..) ... 25 more
Why method names like a and b (SunJCE_c.a, SunJCE_b.b) and file/line information as DashoA13*?
Oracle Java 6 32-bit, running on 64-bit Linux and 32-bit Windows.
Could this be because some information is unavailable, perhaps due to runtime optimizations? Or some willful obfuscation? JNI?
The issue that caused this was that a third-party crypto provider was packaged incorrectly in a jar file.
EDIT: The original issue (
NoSuchProviderException: JCE cannot authenticate the provider...) was caused by a naive build process that extracted the crypto provider classes from their original jar and repackaged them in a new, pristine jar - but without the required signature information.
Thanks to Siva and owlstead for reminding me of signed jars :)