I'm making a test environment for C code that use global variables. I'm using the term to refer to any variable declared in C outside functions (with or without
static qualifier), as well as local variables with
static qualifier. Some globals are not explicitly initialized (thus initialized to 0), others are initialized to constant values.
I'd like a way to re-initialize these globals from my code, to the state they are on entry of
main(), to simulate a re-run from the standpoint of the tested code.
So far what I do is actually terminate the code being tested, and re-runs it immediately using a driver program calling
system(). This is clumsy and a bit slow (I guess because the instrumented executable must save/restore context to/from disk). I'm looking for a better way. If there is some runtime function that can be called and does the job, I want to know!
My environment is MinGW32, and I'd like to remain compatible with gcc under Linux32/Linux64.
The instrumented code is available to me as source (that I'd like to not modify or even examine), and is restricted to standard C99 library functions of
<stdlib.h>, plus those available to hosted implementations (
My own code does not use globals. It would be nice, but not absolutely necessary, if my heap/mallocated variables survive the re-initialization (I could save everything I need in a local/stack/automatic variable). I want the instrumented code to loose track of all its heap variables (it can even be seen as a feature if heap variables that it failed to free cause heap exhaustion).
One thing that I vaguely thought of is adding dummy variable declarations at the beginning and end of the C source file with the tested code (it is easy to compile that from a wrapper), and pray that all the globals for that tested code are in a continuous block in memory; this way I can locate the block from the location of the dummy variables, and restore it at will. Could that work reliably?