I'm working on writing a small, proof of concept fiber library in C using the usual makecontext/swapcontext routines, however that's been giving me some trouble (My platform is OSX 10.9 Mavericks, using clang-503.0.40).
Here's the data structures I'm dealing with:
typedef enum {
/// Fiber is waiting to start execution
FIBER_PENDING,
/// Fiber is in the midst of executing
FIBER_EXECUTING,
/// Fiber has finished executing
FIBER_FINISHED,
/// Fiber is in the process of yielding
FIBER_YIELDING
} fiber_state;
typedef struct {
char *stack;
fiber_state state;
ucontext_t context;
} fiber;
Here's the mini-library (three functions, fiber_init, fiber_run, and fiber_yield:
#include <string.h>
#include <stdlib.h>
#include <signal.h>
#include <assert.h>
#include <stdio.h>
// Generic log w/ file name and line number
#define LOG(x) fprintf(stderr, "%s:%d |-> %s\n", __FILE__, __LINE__, x)
// the current executing fiber in this thread (or NULL of none are executing)
// (TODO: make this TLS)
static fiber *current_fiber = NULL;
/// prepare fiber 'f' to be run
void fiber_init(fiber *f, void(* fiber_func)()) {
// zero out the fiber
memset(f, 0, sizeof(fiber));
f->state = FIBER_PENDING;
f->stack = (char*) malloc(SIGSTKSZ);
// init stack config of the fiber context
ucontext_t *f_context = &(f->context);
getcontext(f_context);
f_context->uc_stack.ss_sp = f->stack;
f_context->uc_stack.ss_size = SIGSTKSZ;
f_context->uc_stack.ss_flags = 0;
// initialize the context
makecontext(f_context, fiber_func, 0);
}
/// Deallocate resources associated with 'f'
void fiber_destroy(fiber *f) {
free(f->stack);
}
/// Start or resume fiber 'f'
void fiber_run(fiber *f) {
// context to switch back to when yielding, or when the fiber returns
ucontext_t return_context;
f->context.uc_link = &return_context;
// save the fiber being swapped away from (or NULL)
fiber *old_fiber = current_fiber;
current_fiber = f;
LOG("Swapping into fiber context");
getcontext(&return_context);
int status = swapcontext(
&return_context,
&(f->context));
assert(status == 0 && "Failed to swap to fiber context");
LOG("Back to parent context from swap");
if(f->state == FIBER_YIELDING) {
f->state = FIBER_EXECUTING;
LOG("Fiber yielded");
}
else {
LOG("Fiber done executing; marking as finished");
current_fiber->state = FIBER_FINISHED;
}
// restore old fiber
current_fiber = old_fiber;
}
/// from witin a fiber, yield control to the caller's context
void fiber_yield() {
assert(current_fiber && "No fiber is currently running!");
current_fiber->state = FIBER_YIELDING;
LOG("Yielding back to caller context");
int status = swapcontext(
&(current_fiber->context),
current_fiber->context.uc_link);
assert(status == 0 && "Failed to swap to parent context");
LOG("Swapped back into fiber context (post-yield)");
}
/// query fiber state
int fiber_is_pending(const fiber *const f) {
return f->state == FIBER_PENDING;
}
int fiber_is_finished(const fiber *const f) {
return f->state == FIBER_FINISHED;
}
int fiber_is_executing(const fiber *const f) {
return f->state == FIBER_EXECUTING;
}
It seems though, that calling fiber_yield() within a fiber does not properly swap the context with the caller's context (a reference of which is stored in the fiber context's uc_link, see current_fiber->context.uc_link within fiber_yield)
A trace of running this program:
void my_func() {
LOG(" ------- I'm the fiber function! yielding");
fiber_yield();
LOG(" ------- End of my_func");
}
int main() {
fiber f;
fiber_init(&f, my_func);
while(!fiber_is_finished(&f)) {
fiber_run(&f);
LOG("Back in main run loop");
}
fiber_destroy(&f);
return 0;
}
yields the output:
fibers.c:70 |-> Swapping into fiber context
test_harness.c:5 |-> ------- I'm the fiber function! yielding
fibers.c:99 |-> Yielding back to caller context
Segmentation fault: 11
I've read that OSX has stack alignment restrictions (to 16 byte boundaries), but I'm using malloc to allocate the stacks, which returns a block that is aligned to a 16 byte boundary (or so I've read). That said, it seems that rearranging the order of declarations can cause a segfault not to happen sometimes, but it's very spurious and hard to reproduce.
Inspecting fiber_yield right before calling swapcontext shows that the current_fiber->context has a very large stack size; way larger than it should be. Perhaps this is a sign of corruption:
(lldb) p current_fiber->context
(ucontext_t) $3 = {
uc_onstack = 0
uc_sigmask = 0
uc_stack = (ss_sp = 0x00007fff5fbff720, ss_size = 140734799804176, ss_flags = 0)
uc_link = 0x00007fff5fbff780
uc_mcsize = 0
uc_mcontext = 0x00007fff5fbff828
}
(lldb) p *(current_fiber->context.uc_link)
(__darwin_ucontext) $4 = {
uc_onstack = -541067328
uc_sigmask = 0
uc_stack = (ss_sp = 0x00007fff5fbff700, ss_size = 8388608, ss_flags = 0)
uc_link = 0x0000000000000000
uc_mcsize = 140734799804400
uc_mcontext = 0x00007fff5fbff7b8
}
Any clue what might be going on? Thanks!
_swapcontext()(with underscore) infiber_yield()? You shouldn't need to callgetcontext()just beforeswapcontext()infiber_run(). Although thesigaltstack()docs explicitly say that you don't need to figure the direction of stack growth when setting up astack_tfor that function, could it be that you do when configuring one for theucontextfunctions? That is, maybess_spshould be the top of the stack. MaybeSIGSTKSZisn't big enough._swapcontextwas a typo; it wasswapcontext. I have underscored versions that suppress deprecation warnings on OSX, which take up quite a bit of console space when compiling (they fall through directly to the real functions). lldb indicates that the failing call is the swapcontext in fiber_yield, I need to do a bit more research on what addresses it's trying to access though.ss_sizeis0x7fff5fbff710which is suspiciously like the rest of the pointers. So, yes, some sort of corruption has happened.