(...) when an EJB is deployed to an application server as a .jar file, where do things like Hibernate and log4j first look for their configuration files (hibernate.cfg.xml and log4j.properties) in the .jar file?
This depends on the implementation of the tool and is unrelated to the fact that you are using EJBs. For Hibernate, the documentation writes:
An alternative approach to
configuration is to specify a full
configuration in a file named
hibernate.cfg.xml. This file can be
used as a replacement for the
hibernate.properties file or, if both
are present, to override properties.
The XML configuration file is by
default expected to be in the root of
your CLASSPATH.
Regarding Log4J, the procedure is described below:
The log4j library does not make any
assumptions about its environment. In
particular, there are no default log4j
appenders. Under certain well-defined
circumstances however, the static
inializer of the Logger class will
attempt to automatically configure
log4j. The Java language guarantees
that the static initializer of a class
is called once and only once during
the loading of a class into memory. It
is important to remember that
different classloaders may load
distinct copies of the same class.
These copies of the same class are
considered as totally unrelated by the
JVM.
The default initialization is very
useful in environments where the exact
entry point to the application depends
on the runtime environment. For
example, the same application can be
used as a stand-alone application, as
an applet, or as a servlet under the
control of a web-server.
The exact default initialization
algorithm is defined as follows:
- Setting the
log4j.defaultInitOverride system property to any other value then
"false" will cause log4j to skip the
default initialization procedure (this
procedure).
- Set the
resource string variable to the value of the
log4j.configuration system property. The preferred way to
specify the default initialization
file is through the
log4j.configuration system property. In case the system property
log4j.configuration is not defined, then set the string variable
resource to its default value
"log4j.properties".
- Attempt to convert the
resource variable to a URL.
- If the resource variable cannot be converted to a URL, for example due to
a
MalformedURLException, then search
for the resource from the classpath by
calling
org.apache.log4j.helpers.Loader.getResource(resource,
Logger.class) which returns a URL.
Note that the string
"log4j.properties" constitutes a
malformed URL. See
Loader.getResource(java.lang.String)
for the list of searched locations.
- If no URL could not be found, abort default initialization. Otherwise,
configure log4j from the URL. The
PropertyConfigurator will be used to
parse the URL to configure log4j
unless the URL ends with the ".xml"
extension, in which case the
DOMConfigurator will be used. You
can optionaly specify a custom
configurator. The value of the
log4j.configuratorClass system property is taken as the fully
qualified class name of your custom
configurator. The custom configurator
you specify must implement the
Configurator interface.
To summarize, if you put both files at the root of your EJB-JAR, they should be found.
Regarding the title of your question, I suggest to read Packaging EJB 3 Applications that I'm quoting below:
Dependencies between Java EE modules
Unfortunately, no Java EE
specification provides a standard for
class loading, and each application
server implements class loaders in
whatever way seems best to the vendor.
However, Java EE defines the
visibility and sharing of classes
between different modules, and we can
depict the dependency between
different modules as shown in figure
4.
As illustrated in figure 4, the EAR
class loader loads all JARs in the lib
directory that is shared between
multiple modules. Typically a single
EJB class loader loads all EJB
packaged in all EJB-JAR modules. The
EJB class loader is often the child of
the application class loader, and
loads all EJB classes. Because the EJB
is a child to the EAR class loader,
all classes loaded at the> EAR level
will be visible to the EJBs.
Figure 4: Illustration of class
visibility of an EAR file containing
multiple web modules, EJBs, and shared
library modules. The EAR class loader
loads the classes in the JARs packaged
as library modules, and all classes
loaded by the EAR class loader are
visible to the EJBs. The classes
loaded by EJB class loader are
typically visible to the web module in
most containers because the WAR class
loader is a child of the EJB class
loader.
