*
* ---------------------------------------------------------------------------*/
+// #include "PosixSource.h"
#include "Rts.h"
-#include "Storage.h"
-#include "LdvProfile.h"
+
+#include "ThreadPaused.h"
+#include "sm/Storage.h"
#include "Updates.h"
#include "RaiseAsync.h"
#include "Trace.h"
-#include "RtsFlags.h"
#include <string.h> // for memmove()
struct stack_gap { StgWord gap_size; struct stack_gap *next_gap; };
static void
-stackSqueeze(StgTSO *tso, StgPtr bottom)
+stackSqueeze(Capability *cap, StgTSO *tso, StgPtr bottom)
{
StgPtr frame;
rtsBool prev_was_update_frame;
* screw us up if we don't check.
*/
if (upd->updatee != updatee && !closure_IND(upd->updatee)) {
- UPD_IND_NOLOCK(upd->updatee, updatee);
+ UPD_IND(cap, upd->updatee, updatee);
}
// now mark this update frame as a stack gap. The gap
// <empty> indicates unused
//
{
- void *sp;
- void *gap_start, *next_gap_start, *gap_end;
+ StgWord8 *sp;
+ StgWord8 *gap_start, *next_gap_start, *gap_end;
nat chunk_size;
- next_gap_start = (void *)((unsigned char*)gap + sizeof(StgUpdateFrame));
+ next_gap_start = (StgWord8*)gap + sizeof(StgUpdateFrame);
sp = next_gap_start;
while ((StgPtr)gap > tso->sp) {
// we're working in *bytes* now...
gap_start = next_gap_start;
- gap_end = (void*) ((unsigned char*)gap_start - gap->gap_size * sizeof(W_));
+ gap_end = gap_start - gap->gap_size * sizeof(W_);
gap = gap->next_gap;
- next_gap_start = (void *)((unsigned char*)gap + sizeof(StgUpdateFrame));
+ next_gap_start = (StgWord8*)gap + sizeof(StgUpdateFrame);
- chunk_size = (unsigned char*)gap_end - (unsigned char*)next_gap_start;
+ chunk_size = gap_end - next_gap_start;
sp -= chunk_size;
memmove(sp, next_gap_start, chunk_size);
}
maybePerformBlockedException (cap, tso);
if (tso->what_next == ThreadKilled) { return; }
+ // NB. Blackholing is *not* optional, we must either do lazy
+ // blackholing, or eager blackholing consistently. See Note
+ // [upd-black-hole] in sm/Scav.c.
+
stack_end = &tso->stack[tso->stack_size];
frame = (StgClosure *)tso->sp;
(long)((StgPtr)frame - tso->sp));
// If this closure is already an indirection, then
- // suspend the computation up to this point:
- suspendComputation(cap,tso,(StgPtr)frame);
+ // suspend the computation up to this point.
+ // NB. check raiseAsync() to see what happens when
+ // we're in a loop (#2783).
+ suspendComputation(cap,tso,(StgUpdateFrame*)frame);
// Now drop the update frame, and arrange to return
// the value to the frame underneath:
// And continue with threadPaused; there might be
// yet more computation to suspend.
- threadPaused(cap,tso);
- return;
+ frame = (StgClosure *)tso->sp + 2;
+ prev_was_update_frame = rtsFalse;
+ continue;
}
if (bh->header.info != &stg_CAF_BLACKHOLE_info) {
-#if (!defined(LAZY_BLACKHOLING)) && defined(DEBUG)
- debugBelch("Unexpected lazy BHing required at 0x%04lx\n",(long)bh);
-#endif
// zero out the slop so that the sanity checker can tell
// where the next closure is.
DEBUG_FILL_SLOP(bh);
// We pretend that bh is now dead.
LDV_recordDead_FILL_SLOP_DYNAMIC((StgClosure *)bh);
#endif
-
+ // an EAGER_BLACKHOLE gets turned into a BLACKHOLE here.
#ifdef THREADED_RTS
cur_bh_info = (const StgInfoTable *)
cas((StgVolatilePtr)&bh->header.info,
// number of stack words we squeeze away by doing so.
if (RtsFlags.GcFlags.squeezeUpdFrames == rtsTrue &&
((weight <= 5 && words_to_squeeze > 0) || weight < words_to_squeeze)) {
- stackSqueeze(tso, (StgPtr)frame);
+ stackSqueeze(cap, tso, (StgPtr)frame);
+ tso->flags |= TSO_SQUEEZED;
+ // This flag tells threadStackOverflow() that the stack was
+ // squeezed, because it may not need to be expanded.
+ } else {
+ tso->flags &= ~TSO_SQUEEZED;
}
}