I don't think the following will provide exactly the functionality you are looking for, but it might provide some room for thought...
Let's assume your application is called
myApp, and the
-cfg <...> command-line option is used to specify the source of its configuration. You could allow the following options...
myApp -cfg /path/to/configuration/file.cfg
The above is obvious: read configuration from the specified file.
myApp -cfg "exec#curl -sS http://configWebServer/path/to/file.cfg"
exec# prefix specifies that the specified command should be executed. It is expected that the command will write to standard output. That standard output is then parsed as a configuration file.
By the way,
curl stands for cat URL. It is is an open-source utility that can retrieve files using a variety of protocols, including HTTP(S), FTP(S), LDAP and so on. The
-sS command-line options to
curl tell it to not print diagnostics except for error messages, which is probably what you want.
"exec#..." format paves the way to retrieve configuration information using other means. For example, from a script that queries a database, from a Subversion repository, or whatever you want.
You might want to also support the following variation:
myApp -cfg "shared_lib=foo#..."
That will load a shared library called
foo, and call an entry-point function in it, passing
"..." as a parameter. It will be up to the shared library function to decide how to act upon the parameter. One implementation of the shared library might retrieve configuration information from shared memory; another implementation might retrieve it via a remote procedure call or a socket connection; and so on.
All the different retrieval mechanisms have only the responsibility retrieving the configuration data as a (potentially large) string. For example, the
-cfg /path/to/file.cfg mechanism reads the entire contents of the file and returns it as a string (or perhaps as a
std::istream). That (potentially large) string is then passed to the "real" configuration parser (a parser for XML/ini/properties file or whatever).
I believe that the above proposal provides a solution for half of your question. In particular, it provides a plug-in architecture to retrieve configuration data from arbitrary sources, where the plug-in can be written as a shell command or a shared library.
The other half of your question is basically: "How can the application dynamically retrieve updated configuration data during its lifetime?" I haven't addressed that requirement. Partially because I don't have an elegant solution to offer. And partially because you have not indicated what might trigger the re-reading of configuration data.
By the way, I am the maintainer of a C++/Java configuration parser library called Config4*. That library provides an implementation of the
"exec#..." functionality. I mention that in case you want to examine the source code to see how such functionality can be implemented. I suspect the code required to support
"shared_lib=foo#..." could be easily modelled on the existing code for supporting
"exec#...". The "Config4* Getting Started Guide" (available from the website in PDF and HTML formats) provides a good discussion of the
-cfg "exec#..." functionality, including a security mechanism to prevent people from trying to execute malicious commands.