I took operating systems last year, during which I used user contexts (defined in the header
ucontext.h) to implement a thread scheduler (in which each thread simulated a process) for a project. I'm taking part in a lecture and will talk about user contexts, and it just occurred to me that, despite having done this project last year, I don't really understand what exactly the
getcontext system call actually does.
The man pages for
getcontext states that it "initializes the structure pointed at by ucp to the currently active context." It also states, for the argument to
setcontext, that "if the ucp argument was created with getcontext(), program execution continues as if the corresponding call of getcontext() had just returned." Okay, so I understand that.
So here's what I'm confused about. Typically, for the way I learned it, to perform a context switch, one would initialize the
ucontext_t struct and swap/set it as such:
ucontext_t ucp; ucontext_t oucp; getcontext(&ucp); // Initialize the stack_t struct in the ucontext_t struct ucp.uc_stack.ss_sp = malloc(STACK_SIZE); ucp.uc_stack.ss_size = STACK_SIZE; ucp.uc_stack.ss_flags = 0; ucp.uc_link = /* some other context, or just NULL */; // Don't block any signals in this context sigemptyset(&ucp.uc_sigmask); // Assume that fn is a function that takes 0 arguments and returns void makecontext(&ucp, fn, 0); // Perform the context switch. Function 'fn' will be active now swapcontext(&oucp, &ucp); // alternatively: setcontext(&ucp);
If I omit
getcontext in smaller programs, nothing interesting happens. In somewhat larger programs in which there is more context switching via user contexts, I get a segmentation fault that is only resolved by adding
getcontext back in.
What exactly does
getcontext do? Why can't I just allocate a
ucontext_t struct, initialize it by initializing the
uc_sigmask fields, and calling
makecontext without the
getcontext? Is there some necessary initialization that
getcontext performs that
makecontext does not perform?