I want to modifiy an existing shared library so that it uses different memory management routines depending on the application using the shared library.
(For now) there will be two families of memory management routines:
- The standard malloc, calloc etc functions
- specialized versions of malloc, calloc etc
I have come up with a potential way of solving this problem (with the help of some people here on SO). There are still a few grey areas and I would like some feedback on my proposal so far.
This is how I intend to implement the modification:
Replace existing calls to malloc/calloc etc with my_malloc/my_calloc etc. These new functions will invoke correctly assigned function pointers instead of calling hard coded function names.
Provide a mechanism for the shared library to initialize the function pointers used by my_malloc etc to point to the standard C memory mgmt routines - this allows me to provide backward compatability to applications which depend on this shared library - so they don't have to be modified as well. In C++, I could have done this by using static variable initialization (for example) - I'm not sure if the same 'pattern' can be used in C.
Introduce a new idempotent function initAPI(type) function which is called (at startup) by the application that need to use different mem mgmt routines in the shared libray. The initAPI() function assigns the memory mgmt func ptrs to the appropriate functions.
Clearly, it would be preferable if I could restrict who could call initAPI() or when it was called - for example, the function should NOT be called after API calls have been made to the library - as this will change the memory mgmt routines. So I would like to restrict where it is called and by whom. This is an access problem which can be solved by making the method private in C++, I am not sure how to do this in C.
The problems in 2 and 3 above can be trivially resolved in C++, however I am constrained to using C, so I would like to solve these issues in C.
Finally, assuming that the function pointers can be correctly set during initialisation as described above - I have a second question, regarding the visibility of global variables in a shared library, accross different processes using the shared library. The function pointers will be implemented as global variables (I'm not too concerned about thread safety FOR NOW - although I envisage wrapping access with mutex locking at some point)* and each application using the shared library should not interfere with the memory management routines used for another application using the shared library.
I suspect that it is code (not data) that is shared between processes using a shlib - however, I would like that confirmed - preferably, with a link that backs up that assertion.
*Note: if I am naively downplaying threading issues that may occur in the future as a result of the 'architecture' I described above, someone please alert me!..
BTW, I am building the library on Linux (Ubuntu)