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rt: Add a canary value to the end of every stack

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Check it on upcall entry and exit, and on stack deletion
This commit is contained in:
Brian Anderson
2011-12-20 11:20:54 -08:00
parent 4475ec863d
commit 784713ec68
3 changed files with 40 additions and 4 deletions
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28
src/rt/rust_task.cpp
View File

@@ -49,6 +49,12 @@
#endif #endif
#endif #endif
// A value that goes at the end of the stack and must not be touched
const uint8_t stack_canary[] = {0xAB, 0xCD, 0xAB, 0xCD,
0xAB, 0xCD, 0xAB, 0xCD,
0xAB, 0xCD, 0xAB, 0xCD,
0xAB, 0xCD, 0xAB, 0xCD};
// Stack size // Stack size
size_t g_custom_min_stack_size = 0; size_t g_custom_min_stack_size = 0;
@@ -95,7 +101,8 @@ config_valgrind_stack(stk_seg *stk) {
// old stack segments, since the act of popping the stack previously // old stack segments, since the act of popping the stack previously
// caused valgrind to consider the whole thing inaccessible. // caused valgrind to consider the whole thing inaccessible.
size_t sz = stk->end - (uintptr_t)&stk->data[0]; size_t sz = stk->end - (uintptr_t)&stk->data[0];
VALGRIND_MAKE_MEM_UNDEFINED(stk->data, sz); VALGRIND_MAKE_MEM_UNDEFINED(stk->data + sizeof(stack_canary),
sz - sizeof(stack_canary));
#endif #endif
} }
@@ -110,6 +117,18 @@ free_stk(rust_task *task, stk_seg *stk) {
task->free(stk); task->free(stk);
} }
static void
add_stack_canary(stk_seg *stk) {
memcpy(stk->data, stack_canary, sizeof(stack_canary));
assert(sizeof(stack_canary) == 16 && "Stack canary was not the expected size");
}
static void
check_stack_canary(stk_seg *stk) {
assert(!memcmp(stk->data, stack_canary, sizeof(stack_canary))
&& "Somebody killed the canary");
}
static stk_seg* static stk_seg*
new_stk(rust_scheduler *sched, rust_task *task, size_t requested_sz) new_stk(rust_scheduler *sched, rust_task *task, size_t requested_sz)
{ {
@@ -151,6 +170,7 @@ new_stk(rust_scheduler *sched, rust_task *task, size_t requested_sz)
stk_seg *stk = (stk_seg *)task->malloc(sz, "stack"); stk_seg *stk = (stk_seg *)task->malloc(sz, "stack");
LOGPTR(task->sched, "new stk", (uintptr_t)stk); LOGPTR(task->sched, "new stk", (uintptr_t)stk);
memset(stk, 0, sizeof(stk_seg)); memset(stk, 0, sizeof(stk_seg));
add_stack_canary(stk);
stk->prev = NULL; stk->prev = NULL;
stk->next = task->stk; stk->next = task->stk;
stk->end = (uintptr_t) &stk->data[rust_stk_sz + RED_ZONE_SIZE]; stk->end = (uintptr_t) &stk->data[rust_stk_sz + RED_ZONE_SIZE];
@@ -165,6 +185,7 @@ static void
del_stk(rust_task *task, stk_seg *stk) del_stk(rust_task *task, stk_seg *stk)
{ {
assert(stk == task->stk && "Freeing stack segments out of order!"); assert(stk == task->stk && "Freeing stack segments out of order!");
check_stack_canary(stk);
task->stk = stk->next; task->stk = stk->next;
@@ -784,6 +805,11 @@ rust_task::on_rust_stack() {
return sp_in_stk_seg(get_sp(), stk); return sp_in_stk_seg(get_sp(), stk);
} }
void
rust_task::check_stack_canary() {
::check_stack_canary(stk);
}
// //
// Local Variables: // Local Variables:
// mode: C++ // mode: C++

1
src/rt/rust_task.h
View File

@@ -203,6 +203,7 @@ rust_task : public kernel_owned<rust_task>, rust_cond
void record_stack_limit(); void record_stack_limit();
void reset_stack_limit(); void reset_stack_limit();
bool on_rust_stack(); bool on_rust_stack();
void check_stack_canary();
}; };
// //

15
src/rt/rust_upcall.cpp
View File

@@ -27,14 +27,21 @@ check_stack_alignment() __attribute__ ((aligned (16)));
static void check_stack_alignment() { } static void check_stack_alignment() { }
#endif #endif
static inline void
do_sanity_check(rust_task *task) {
check_stack_alignment();
task->check_stack_canary();
}
#define UPCALL_SWITCH_STACK(A, F) call_upcall_on_c_stack((void*)A, (void*)F) #define UPCALL_SWITCH_STACK(A, F) call_upcall_on_c_stack((void*)A, (void*)F)
inline void inline void
call_upcall_on_c_stack(void *args, void *fn_ptr) { call_upcall_on_c_stack(void *args, void *fn_ptr) {
check_stack_alignment();
rust_task *task = rust_scheduler::get_task(); rust_task *task = rust_scheduler::get_task();
do_sanity_check(task);
rust_scheduler *sched = task->sched; rust_scheduler *sched = task->sched;
sched->c_context.call_shim_on_c_stack(args, fn_ptr); sched->c_context.call_shim_on_c_stack(args, fn_ptr);
do_sanity_check(task);
} }
extern "C" void record_sp(void *limit); extern "C" void record_sp(void *limit);
@@ -48,8 +55,8 @@ extern "C" void record_sp(void *limit);
*/ */
extern "C" CDECL void extern "C" CDECL void
upcall_call_shim_on_c_stack(void *args, void *fn_ptr) { upcall_call_shim_on_c_stack(void *args, void *fn_ptr) {
check_stack_alignment();
rust_task *task = rust_scheduler::get_task(); rust_task *task = rust_scheduler::get_task();
do_sanity_check(task);
// FIXME (1226) - The shim functions generated by rustc contain the // FIXME (1226) - The shim functions generated by rustc contain the
// morestack prologue, so we need to let them know they have enough // morestack prologue, so we need to let them know they have enough
@@ -65,6 +72,7 @@ upcall_call_shim_on_c_stack(void *args, void *fn_ptr) {
task = rust_scheduler::get_task(); task = rust_scheduler::get_task();
task->record_stack_limit(); task->record_stack_limit();
do_sanity_check(task);
} }
/**********************************************************************/ /**********************************************************************/
@@ -634,9 +642,10 @@ upcall_del_stack() {
// needs to acquire the value of the stack pointer // needs to acquire the value of the stack pointer
extern "C" CDECL void extern "C" CDECL void
upcall_reset_stack_limit() { upcall_reset_stack_limit() {
check_stack_alignment();
rust_task *task = rust_scheduler::get_task(); rust_task *task = rust_scheduler::get_task();
do_sanity_check(task);
task->reset_stack_limit(); task->reset_stack_limit();
do_sanity_check(task);
} }
// //