I would suspect that, because of the multi-platform nature of Java, there hasn't been much emphasis on Unix-based techniques like what exists in Apache Httpd, since these may not necessarily be applicable to all platforms on which Java can run.
In Java, privilege separation is in-built, by the means of the security manager. Whether this is as good as the root/non-root separation, I'm not sure (there can always be bugs). However, its policies are, in principle, capable of expressing more subtle access rules than just the distinction between a root and non-root users.
Jetty had this, but this was apparently dropped in Jetty 9 (you can still use a security manager, but you may have to write your own policies and do a bit more of the work to implement them in the container).
The Jetty Policy document also states:
Normally a user trusts the application they are developing or are trusting enough to deploy a webapp into an instance of jetty. If you don't know that you need to use the security manager setup, you probably don't.
I'm not sure I'd agree with that. Indeed, if there's a webapp I suspect to be malicious, I won't run it anyway, but using a security manager is also about containing potential security bugs. Anyone can write bugs, even good programmers. Having a mechanism that restrict possible actions by webapps is certainly a good thing.
A sensible policy would certainly prevent webapps from accessing the config files and the keystores.
I would also argue that this webapp separation is also at the core of the notion of "container" (although security is only one of the purposes of this separation, it seems to have been lost).
In fairness, it's not as straightforward as the separation offered by the root/forking mechanism in Apache Httpd. The power of Java security policies also brings complexity. I suppose these features are generally not well understood, and thus little used. Using Apache Httpd (or Nginx, or others) as a reverse proxy tends to be a simpler solution for the purpose of protecting the private keys.
Another way you could look into is using a PKCS#11 keystore. This is supported by the JRE. Hardware Security Modules would help prevent your private keys to be copied. (From a Java point of view, you get a
PrivateKey instance that delegates the cryptographic operations to the PKCS#11 library, but from which you cannot extract the private data at all.)
Of course, this is a problem when you don't have access to the hardware, but there are software implementations of this (looking up "Software HSM" might seem odd, but it will bring a few results). Not all of them will let you have the separation you're after, but some should (effectively, by communicating with another entity holding the private key, which you could potentially run as another user). I haven't tried it, but this one might be of interest.