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I am trying to understand the design strategies employed in a third-party software. In specific, I am analyzing a case where a code in the "IMPLEMENTATION_LAYER" (say) of the software stack implements certain functionality (via c routines) and exposes the signatures of those routines as API's to the "APPLICATION LAYER" for its use. This is done in the following way

The application layer is provided with the following sructure

struct my_interfaces
    /*List of function pointers*/

and a list of macro based functions to initialize this structure (with the suitable functions) and access the methods of this structure.


What is the advantage of exposing API's in this way,compared to the legacy method.The legacy method I mean by,exposing just prototypes of functions.

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up vote 2 down vote accepted
  • Minimal API Exports: You don't need to export an entire library; just a "GetAPI" api.
  • Versioned APIS: The API-loader can be told which "version" of the API is being requested, therefore exposing both features and behavior specific to a specific version request
  • Modular APIS: The API loader can load other modules dynamically and wire requested APIS from those .so/.dll files on the fly.
  • Centralized Licensing: A single API loader radically reduces the number of places licensed code checks need to be performed.
  • Mode Switching: Depending on the APIs requested, different functionality can be loaded or not loaded. Partial API population, in other words. A good example of this would be a crypto library entering FIPS-mode where only a specific subset of qualified algorithms will be accessible, and all others are stubbed to be error conditions.

Those are just a few off the top of my head

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