I'm nevertheless curious if there is any generally agreed upon whitelist (however short) of java packages and classes that can be accessed without significant risk to the user.
Yes there are white-lists, but I don't know how "generally agreed upon" they are. Community consensus is one way to vet a white-list, but you could also look at the experience of the list creators, and see if their process makes sense.
The Joe-E project came up with a "taming" of Java, and one of the parts of that was a white-list of the core libraries by class/method/field. For example, for
StringBuilder, StringBuilder.safej says
# Manually verified.
method(suppress, "insert(int, Object)", comment("calls toString on arbitrary object")),
while Runtime.safej says
# auto-generated safej: default deny everything
static(method(suppress, "getRuntime()", comment("default deny")),
method(suppress, "runFinalizersOnExit(boolean)", comment("default deny"))),
To understand taming, see the Joe-E paper which says:
4.2.1 Taming the Java class library
The Java library deﬁnes many static methods that have side
effects on the outside world, as well as many constructors
that create objects permitting similar effects. This is a major source of ambient authority in Java. For example, File
has a constructor that will take a string and return an object
representing the ﬁle with that name. The resulting object
can be used to read, write, or delete the named ﬁle. Absent explicit access control by the Java security manager or
the operating system, this allows any Java code full control over the ﬁlesystem. In Joe-E, we wish to ensure that
code can only have access to a ﬁle if a capability for the ﬁle
(or a superdirectory) is within that code’s dynamic scope.
Consequently, we must not allow the aforementioned File
constructor in Joe-E’s global scope.
We deﬁne a subset of the Java libraries that includes only
those constructors, methods, and ﬁelds that are compatible
with the principle that all privileges must be granted via a
capability. We call this activity taming, because it turns an
unruly class library into a capability-secure subset. The JoeE veriﬁer allows Joe-E programs to mention only classes,
constructors, methods, and ﬁelds in this tamed subset. If
the source code mentions anything outside of this subset,
the Joe-E veriﬁer ﬂags this as an error.
Taming helps eliminate ambient authority, because it ensures library methods that provide ambient authority are not
accessible to Joe-E programs. We also use taming to expose
only that subset of the Java library that provides capability discipline.