/* -----------------------------------------------------------------------------
- * $Id: Sanity.c,v 1.28 2001/07/23 17:23:19 simonmar Exp $
*
- * (c) The GHC Team, 1998-2001
+ * (c) The GHC Team, 1998-2006
*
* Sanity checking code for the heap and stack.
*
*
* ---------------------------------------------------------------------------*/
+#include "PosixSource.h"
#include "Rts.h"
#ifdef DEBUG /* whole file */
#include "MBlock.h"
#include "Storage.h"
#include "Schedule.h"
-#include "StoragePriv.h" // for END_OF_STATIC_LIST
-
-/* -----------------------------------------------------------------------------
- A valid pointer is either:
-
- - a pointer to a static closure, or
- - a pointer into the heap, and
- - the block is not free
- - either: - the object is large, or
- - it is not after the free pointer in the block
- - the contents of the pointer is not 0xaaaaaaaa
-
- -------------------------------------------------------------------------- */
-
-#define LOOKS_LIKE_PTR(r) \
- ({ bdescr *bd = Bdescr((P_)r); \
- LOOKS_LIKE_STATIC_CLOSURE(r) || \
- (HEAP_ALLOCED(r) \
- && bd != (void *)-1 \
- && ((StgWord)(*(StgPtr)r)!=0xaaaaaaaa) \
- ); \
- })
-
-// NOT always true, but can be useful for spotting bugs: (generally
-// true after GC, but not for things just allocated using allocate(),
-// for example):
-// (bd->flags & BF_LARGE || bd->free > (P_)r)
+#include "Apply.h"
/* -----------------------------------------------------------------------------
Forward decls.
-------------------------------------------------------------------------- */
-static StgOffset checkStackClosure ( StgClosure* c );
-static StgOffset checkStackObject ( StgPtr sp );
-static StgOffset checkSmallBitmap ( StgPtr payload, StgWord32 bitmap );
-static StgOffset checkLargeBitmap ( StgPtr payload, StgLargeBitmap* );
-static void checkClosureShallow ( StgClosure* p );
+static void checkSmallBitmap ( StgPtr payload, StgWord bitmap, nat );
+static void checkLargeBitmap ( StgPtr payload, StgLargeBitmap*, nat );
+static void checkClosureShallow ( StgClosure * );
/* -----------------------------------------------------------------------------
Check stack sanity
-------------------------------------------------------------------------- */
-static StgOffset
-checkSmallBitmap( StgPtr payload, StgWord32 bitmap )
+static void
+checkSmallBitmap( StgPtr payload, StgWord bitmap, nat size )
{
- StgOffset i;
+ StgPtr p;
+ nat i;
- i = 0;
- for(; bitmap != 0; ++i, bitmap >>= 1 ) {
+ p = payload;
+ for(i = 0; i < size; i++, bitmap >>= 1 ) {
if ((bitmap & 1) == 0) {
- checkClosure((StgClosure *)payload[i]);
+ checkClosureShallow((StgClosure *)payload[i]);
}
}
- return i;
}
-static StgOffset
-checkLargeBitmap( StgPtr payload, StgLargeBitmap* large_bitmap )
+static void
+checkLargeBitmap( StgPtr payload, StgLargeBitmap* large_bitmap, nat size )
{
- StgWord32 bmp;
- StgOffset i;
+ StgWord bmp;
+ nat i, j;
i = 0;
- for (bmp=0; bmp<large_bitmap->size; bmp++) {
- StgWord32 bitmap = large_bitmap->bitmap[bmp];
- for(; bitmap != 0; ++i, bitmap >>= 1 ) {
+ for (bmp=0; i < size; bmp++) {
+ StgWord bitmap = large_bitmap->bitmap[bmp];
+ j = 0;
+ for(; i < size && j < BITS_IN(W_); j++, i++, bitmap >>= 1 ) {
if ((bitmap & 1) == 0) {
- checkClosure((StgClosure *)payload[i]);
+ checkClosureShallow((StgClosure *)payload[i]);
}
}
}
- return i;
-}
-
-static StgOffset
-checkStackClosure( StgClosure* c )
-{
- const StgInfoTable* info = get_itbl(c);
-
- /* All activation records have 'bitmap' style layout info. */
- switch (info->type) {
- case RET_DYN: /* Dynamic bitmap: the mask is stored on the stack */
- {
- StgRetDyn* r = (StgRetDyn *)c;
- return sizeofW(StgRetDyn) +
- checkSmallBitmap(r->payload,r->liveness);
- }
- case RET_BCO: /* small bitmap (<= 32 entries) */
- case RET_SMALL:
- case RET_VEC_SMALL:
- return 1 + checkSmallBitmap((StgPtr)c + 1,info->layout.bitmap);
-
- case UPDATE_FRAME:
- ASSERT(LOOKS_LIKE_PTR(((StgUpdateFrame*)c)->updatee));
- case CATCH_FRAME:
- case SEQ_FRAME:
- /* check that the link field points to another stack frame */
- ASSERT(get_itbl(((StgFrame*)c)->link)->type == UPDATE_FRAME ||
- get_itbl(((StgFrame*)c)->link)->type == CATCH_FRAME ||
- get_itbl(((StgFrame*)c)->link)->type == STOP_FRAME ||
- get_itbl(((StgFrame*)c)->link)->type == SEQ_FRAME);
- /* fall through */
- case STOP_FRAME:
-#if defined(GRAN)
- return 2 +
-#else
- return 1 +
-#endif
- checkSmallBitmap((StgPtr)c + 1,info->layout.bitmap);
- case RET_BIG: /* large bitmap (> 32 entries) */
- case RET_VEC_BIG:
- return 1 + checkLargeBitmap((StgPtr)c + 1,info->layout.large_bitmap);
- case FUN:
- case FUN_STATIC: /* probably a slow-entry point return address: */
-#if 0 && defined(GRAN)
- return 2;
-#else
- return 1;
-#endif
- default:
- /* if none of the above, maybe it's a closure which looks a
- * little like an infotable
- */
- checkClosureShallow(*(StgClosure **)c);
- return 1;
- /* barf("checkStackClosure: weird activation record found on stack (%p).",c); */
- }
}
/*
* chunks.
*/
-void
+static void
checkClosureShallow( StgClosure* p )
{
- ASSERT(p);
- ASSERT(LOOKS_LIKE_GHC_INFO(GET_INFO(p))
- || IS_HUGS_CONSTR_INFO(GET_INFO(p)));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(p));
- /* Is it a static closure (i.e. in the data segment)? */
- if (LOOKS_LIKE_STATIC(p)) {
+ /* Is it a static closure? */
+ if (!HEAP_ALLOCED(p)) {
ASSERT(closure_STATIC(p));
} else {
ASSERT(!closure_STATIC(p));
- ASSERT(LOOKS_LIKE_PTR(p));
}
}
// check an individual stack object
StgOffset
-checkStackObject( StgPtr sp )
+checkStackFrame( StgPtr c )
{
- if (IS_ARG_TAG(*sp)) {
- // Tagged words might be "stubbed" pointers, so there's no
- // point checking to see whether they look like pointers or
- // not (some of them will).
- return ARG_SIZE(*sp) + 1;
- } else if (LOOKS_LIKE_GHC_INFO(*(StgPtr *)sp)) {
- return checkStackClosure((StgClosure *)sp);
- } else { // must be an untagged closure pointer in the stack
- checkClosureShallow(*(StgClosure **)sp);
- return 1;
+ nat size;
+ const StgRetInfoTable* info;
+
+ info = get_ret_itbl((StgClosure *)c);
+
+ /* All activation records have 'bitmap' style layout info. */
+ switch (info->i.type) {
+ case RET_DYN: /* Dynamic bitmap: the mask is stored on the stack */
+ {
+ StgWord dyn;
+ StgPtr p;
+ StgRetDyn* r;
+
+ r = (StgRetDyn *)c;
+ dyn = r->liveness;
+
+ p = (P_)(r->payload);
+ checkSmallBitmap(p,RET_DYN_LIVENESS(r->liveness),RET_DYN_BITMAP_SIZE);
+ p += RET_DYN_BITMAP_SIZE + RET_DYN_NONPTR_REGS_SIZE;
+
+ // skip over the non-pointers
+ p += RET_DYN_NONPTRS(dyn);
+
+ // follow the ptr words
+ for (size = RET_DYN_PTRS(dyn); size > 0; size--) {
+ checkClosureShallow((StgClosure *)*p);
+ p++;
+ }
+
+ return sizeofW(StgRetDyn) + RET_DYN_BITMAP_SIZE +
+ RET_DYN_NONPTR_REGS_SIZE +
+ RET_DYN_NONPTRS(dyn) + RET_DYN_PTRS(dyn);
+ }
+
+ case UPDATE_FRAME:
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(((StgUpdateFrame*)c)->updatee));
+ case ATOMICALLY_FRAME:
+ case CATCH_RETRY_FRAME:
+ case CATCH_STM_FRAME:
+ case CATCH_FRAME:
+ // small bitmap cases (<= 32 entries)
+ case STOP_FRAME:
+ case RET_SMALL:
+ case RET_VEC_SMALL:
+ size = BITMAP_SIZE(info->i.layout.bitmap);
+ checkSmallBitmap((StgPtr)c + 1,
+ BITMAP_BITS(info->i.layout.bitmap), size);
+ return 1 + size;
+
+ case RET_BCO: {
+ StgBCO *bco;
+ nat size;
+ bco = (StgBCO *)*(c+1);
+ size = BCO_BITMAP_SIZE(bco);
+ checkLargeBitmap((StgPtr)c + 2, BCO_BITMAP(bco), size);
+ return 2 + size;
+ }
+
+ case RET_BIG: // large bitmap (> 32 entries)
+ case RET_VEC_BIG:
+ size = GET_LARGE_BITMAP(&info->i)->size;
+ checkLargeBitmap((StgPtr)c + 1, GET_LARGE_BITMAP(&info->i), size);
+ return 1 + size;
+
+ case RET_FUN:
+ {
+ StgFunInfoTable *fun_info;
+ StgRetFun *ret_fun;
+
+ ret_fun = (StgRetFun *)c;
+ fun_info = get_fun_itbl(ret_fun->fun);
+ size = ret_fun->size;
+ switch (fun_info->f.fun_type) {
+ case ARG_GEN:
+ checkSmallBitmap((StgPtr)ret_fun->payload,
+ BITMAP_BITS(fun_info->f.b.bitmap), size);
+ break;
+ case ARG_GEN_BIG:
+ checkLargeBitmap((StgPtr)ret_fun->payload,
+ GET_FUN_LARGE_BITMAP(fun_info), size);
+ break;
+ default:
+ checkSmallBitmap((StgPtr)ret_fun->payload,
+ BITMAP_BITS(stg_arg_bitmaps[fun_info->f.fun_type]),
+ size);
+ break;
+ }
+ return sizeofW(StgRetFun) + size;
+ }
+
+ default:
+ barf("checkStackFrame: weird activation record found on stack (%p %d).",c,info->i.type);
}
}
p = sp;
while (p < stack_end) {
- p += checkStackObject( p );
+ p += checkStackFrame( p );
}
// ASSERT( p == stack_end ); -- HWL
}
+static void
+checkPAP (StgClosure *fun, StgClosure** payload, StgWord n_args)
+{
+ StgClosure *p;
+ StgFunInfoTable *fun_info;
+
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(fun));
+ fun_info = get_fun_itbl(fun);
+
+ p = (StgClosure *)payload;
+ switch (fun_info->f.fun_type) {
+ case ARG_GEN:
+ checkSmallBitmap( (StgPtr)payload,
+ BITMAP_BITS(fun_info->f.b.bitmap), n_args );
+ break;
+ case ARG_GEN_BIG:
+ checkLargeBitmap( (StgPtr)payload,
+ GET_FUN_LARGE_BITMAP(fun_info),
+ n_args );
+ break;
+ case ARG_BCO:
+ checkLargeBitmap( (StgPtr)payload,
+ BCO_BITMAP(fun),
+ n_args );
+ break;
+ default:
+ checkSmallBitmap( (StgPtr)payload,
+ BITMAP_BITS(stg_arg_bitmaps[fun_info->f.fun_type]),
+ n_args );
+ break;
+ }
+}
+
+
StgOffset
checkClosure( StgClosure* p )
{
const StgInfoTable *info;
- ASSERT(LOOKS_LIKE_GHC_INFO(p->header.info));
+ ASSERT(LOOKS_LIKE_INFO_PTR(p->header.info));
/* Is it a static closure (i.e. in the data segment)? */
- if (LOOKS_LIKE_STATIC(p)) {
+ if (!HEAP_ALLOCED(p)) {
ASSERT(closure_STATIC(p));
} else {
ASSERT(!closure_STATIC(p));
- ASSERT(LOOKS_LIKE_PTR(p));
}
info = get_itbl(p);
case MVAR:
{
StgMVar *mvar = (StgMVar *)p;
- ASSERT(LOOKS_LIKE_PTR(mvar->head));
- ASSERT(LOOKS_LIKE_PTR(mvar->tail));
- ASSERT(LOOKS_LIKE_PTR(mvar->value));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(mvar->head));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(mvar->tail));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(mvar->value));
#if 0
#if defined(PAR)
checkBQ((StgBlockingQueueElement *)mvar->head, p);
{
nat i;
for (i = 0; i < info->layout.payload.ptrs; i++) {
- ASSERT(LOOKS_LIKE_PTR(p->payload[i]));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(((StgThunk *)p)->payload[i]));
}
- return stg_max(sizeW_fromITBL(info), sizeofW(StgHeader) + MIN_UPD_SIZE);
+ return thunk_sizeW_fromITBL(info);
}
- case BLACKHOLE_BQ:
- checkBQ(((StgBlockingQueue *)p)->blocking_queue, p);
- /* fall through to basic ptr check */
case FUN:
case FUN_1_0:
case FUN_0_1:
#endif
case BLACKHOLE:
case CAF_BLACKHOLE:
- case FOREIGN:
- case BCO:
case STABLE_NAME:
- case MUT_VAR:
- case MUT_CONS:
+ case MUT_VAR_CLEAN:
+ case MUT_VAR_DIRTY:
case CONSTR_INTLIKE:
case CONSTR_CHARLIKE:
case CONSTR_STATIC:
{
nat i;
for (i = 0; i < info->layout.payload.ptrs; i++) {
- ASSERT(LOOKS_LIKE_PTR(p->payload[i]));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(p->payload[i]));
}
return sizeW_fromITBL(info);
}
+ case BCO: {
+ StgBCO *bco = (StgBCO *)p;
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(bco->instrs));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(bco->literals));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(bco->ptrs));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(bco->itbls));
+ return bco_sizeW(bco);
+ }
+
case IND_STATIC: /* (1, 0) closure */
- ASSERT(LOOKS_LIKE_PTR(((StgIndStatic*)p)->indirectee));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(((StgIndStatic*)p)->indirectee));
return sizeW_fromITBL(info);
case WEAK:
* representative of the actual layout.
*/
{ StgWeak *w = (StgWeak *)p;
- ASSERT(LOOKS_LIKE_PTR(w->key));
- ASSERT(LOOKS_LIKE_PTR(w->value));
- ASSERT(LOOKS_LIKE_PTR(w->finalizer));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(w->key));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(w->value));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(w->finalizer));
if (w->link) {
- ASSERT(LOOKS_LIKE_PTR(w->link));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(w->link));
}
return sizeW_fromITBL(info);
}
case THUNK_SELECTOR:
- ASSERT(LOOKS_LIKE_PTR(((StgSelector *)p)->selectee));
- return sizeofW(StgHeader) + MIN_UPD_SIZE;
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(((StgSelector *)p)->selectee));
+ return THUNK_SELECTOR_sizeW();
case IND:
{
/* we don't expect to see any of these after GC
* but they might appear during execution
*/
- P_ q;
StgInd *ind = (StgInd *)p;
- ASSERT(LOOKS_LIKE_PTR(ind->indirectee));
- q = (P_)p + sizeofW(StgInd);
- while (!*q) { q++; }; /* skip padding words (see GC.c: evacuate())*/
- return q - (P_)p;
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(ind->indirectee));
+ return sizeofW(StgInd);
}
case RET_BCO:
case UPDATE_FRAME:
case STOP_FRAME:
case CATCH_FRAME:
- case SEQ_FRAME:
+ case ATOMICALLY_FRAME:
+ case CATCH_RETRY_FRAME:
+ case CATCH_STM_FRAME:
barf("checkClosure: stack frame");
- case AP_UPD: /* we can treat this as being the same as a PAP */
+ case AP:
+ {
+ StgAP* ap = (StgAP *)p;
+ checkPAP (ap->fun, ap->payload, ap->n_args);
+ return ap_sizeW(ap);
+ }
+
case PAP:
- {
- StgPAP *pap = (StgPAP *)p;
- ASSERT(LOOKS_LIKE_PTR(pap->fun));
- checkStackChunk((StgPtr)pap->payload,
- (StgPtr)pap->payload + pap->n_args
- );
- return pap_sizeW(pap);
- }
+ {
+ StgPAP* pap = (StgPAP *)p;
+ checkPAP (pap->fun, pap->payload, pap->n_args);
+ return pap_sizeW(pap);
+ }
+
+ case AP_STACK:
+ {
+ StgAP_STACK *ap = (StgAP_STACK *)p;
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(ap->fun));
+ checkStackChunk((StgPtr)ap->payload, (StgPtr)ap->payload + ap->size);
+ return ap_stack_sizeW(ap);
+ }
case ARR_WORDS:
return arr_words_sizeW((StgArrWords *)p);
- case MUT_ARR_PTRS:
+ case MUT_ARR_PTRS_CLEAN:
+ case MUT_ARR_PTRS_DIRTY:
case MUT_ARR_PTRS_FROZEN:
+ case MUT_ARR_PTRS_FROZEN0:
{
StgMutArrPtrs* a = (StgMutArrPtrs *)p;
nat i;
for (i = 0; i < a->ptrs; i++) {
- ASSERT(LOOKS_LIKE_PTR(a->payload[i]));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(a->payload[i]));
}
return mut_arr_ptrs_sizeW(a);
}
case BLOCKED_FETCH:
ASSERT(LOOKS_LIKE_GA(&(((StgBlockedFetch *)p)->ga)));
- ASSERT(LOOKS_LIKE_PTR((((StgBlockedFetch *)p)->node)));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR((((StgBlockedFetch *)p)->node)));
return sizeofW(StgBlockedFetch); // see size used in evacuate()
#ifdef DIST
case REMOTE_REF:
return sizeofW(StgFetchMe);
-#endif //DIST
+#endif /*DIST */
case FETCH_ME:
ASSERT(LOOKS_LIKE_GA(((StgFetchMe *)p)->ga));
ASSERT(((StgRBH *)p)->blocking_queue!=NULL);
if (((StgRBH *)p)->blocking_queue!=END_BQ_QUEUE)
checkBQ(((StgRBH *)p)->blocking_queue, p);
- ASSERT(LOOKS_LIKE_GHC_INFO(REVERT_INFOPTR(get_itbl((StgClosure *)p))));
+ ASSERT(LOOKS_LIKE_INFO_PTR(REVERT_INFOPTR(get_itbl((StgClosure *)p))));
return BLACKHOLE_sizeW(); // see size used in evacuate()
// sizeW_fromITBL(REVERT_INFOPTR(get_itbl((StgClosure *)p)));
#endif
+
+ case TVAR_WAIT_QUEUE:
+ {
+ StgTVarWaitQueue *wq = (StgTVarWaitQueue *)p;
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(wq->next_queue_entry));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(wq->prev_queue_entry));
+ return sizeofW(StgTVarWaitQueue);
+ }
+
+ case TVAR:
+ {
+ StgTVar *tv = (StgTVar *)p;
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(tv->current_value));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(tv->first_wait_queue_entry));
+ return sizeofW(StgTVar);
+ }
+
+ case TREC_CHUNK:
+ {
+ nat i;
+ StgTRecChunk *tc = (StgTRecChunk *)p;
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(tc->prev_chunk));
+ for (i = 0; i < tc -> next_entry_idx; i ++) {
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(tc->entries[i].tvar));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(tc->entries[i].expected_value));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(tc->entries[i].new_value));
+ }
+ return sizeofW(StgTRecChunk);
+ }
+
+ case TREC_HEADER:
+ {
+ StgTRecHeader *trec = (StgTRecHeader *)p;
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(trec -> enclosing_trec));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(trec -> current_chunk));
+ return sizeofW(StgTRecHeader);
+ }
+
case EVACUATED:
barf("checkClosure: found EVACUATED closure %d",
{
StgPtr p;
+#if defined(THREADED_RTS)
+ // heap sanity checking doesn't work with SMP, because we can't
+ // zero the slop (see Updates.h).
+ return;
+#endif
+
for (; bd != NULL; bd = bd->link) {
p = bd->start;
while (p < bd->free) {
nat size = checkClosure((StgClosure *)p);
/* This is the smallest size of closure that can live in the heap */
- ASSERT( size >= MIN_NONUPD_SIZE + sizeofW(StgHeader) );
+ ASSERT( size >= MIN_PAYLOAD_SIZE + sizeofW(StgHeader) );
p += size;
/* skip over slop */
while (p < bd->free &&
- (*p < 0x1000 || !LOOKS_LIKE_GHC_INFO((void*)*p))) { p++; }
+ (*p < 0x1000 || !LOOKS_LIKE_INFO_PTR((void*)*p))) { p++; }
}
}
}
nat size;
for (p=start; p<end; p+=size) {
- ASSERT(LOOKS_LIKE_GHC_INFO((void*)*p));
+ ASSERT(LOOKS_LIKE_INFO_PTR((void*)*p));
if (get_itbl((StgClosure*)p)->type == FETCH_ME &&
*(p+1) == 0x0000eeee /* ie. unpack garbage (see SetGAandCommonUp) */) {
/* if it's a FM created during unpack and commoned up, it's not global */
size = sizeofW(StgFetchMe);
} else if (get_itbl((StgClosure*)p)->type == IND) {
*(p+2) = 0x0000ee11; /* mark slop in IND as garbage */
- size = MIN_UPD_SIZE;
+ size = sizeofW(StgInd);
} else {
size = checkClosure((StgClosure *)p);
/* This is the smallest size of closure that can live in the heap. */
- ASSERT( size >= MIN_NONUPD_SIZE + sizeofW(StgHeader) );
+ ASSERT( size >= MIN_PAYLOAD_SIZE + sizeofW(StgHeader) );
}
}
}
nat size;
for (p=start; p<end; p+=size) {
- ASSERT(LOOKS_LIKE_GHC_INFO((void*)*p));
+ ASSERT(LOOKS_LIKE_INFO_PTR((void*)*p));
size = checkClosure((StgClosure *)p);
/* This is the smallest size of closure that can live in the heap. */
- ASSERT( size >= MIN_NONUPD_SIZE + sizeofW(StgHeader) );
+ ASSERT( size >= MIN_PAYLOAD_SIZE + sizeofW(StgHeader) );
}
}
#endif
}
}
-/* check stack - making sure that update frames are linked correctly */
-void
-checkStack(StgPtr sp, StgPtr stack_end, StgUpdateFrame* su )
-{
- /* check everything down to the first update frame */
- checkStackChunk( sp, (StgPtr)su );
- while ( (StgPtr)su < stack_end) {
- sp = (StgPtr)su;
- switch (get_itbl(su)->type) {
- case UPDATE_FRAME:
- su = su->link;
- break;
- case SEQ_FRAME:
- su = ((StgSeqFrame *)su)->link;
- break;
- case CATCH_FRAME:
- su = ((StgCatchFrame *)su)->link;
- break;
- case STOP_FRAME:
- /* not quite: ASSERT((StgPtr)su == stack_end); */
- return;
- default:
- barf("checkStack: weird record found on update frame list.");
- }
- checkStackChunk( sp, (StgPtr)su );
- }
- ASSERT((StgPtr)su == stack_end);
-}
-
-
void
checkTSO(StgTSO *tso)
{
StgPtr sp = tso->sp;
StgPtr stack = tso->stack;
- StgUpdateFrame* su = tso->su;
StgOffset stack_size = tso->stack_size;
StgPtr stack_end = stack + stack_size;
return;
}
- if (tso->what_next == ThreadComplete || tso->what_next == ThreadKilled) {
+ if (tso->what_next == ThreadKilled) {
/* The garbage collector doesn't bother following any pointers
* from dead threads, so don't check sanity here.
*/
}
ASSERT(stack <= sp && sp < stack_end);
- ASSERT(sp <= (StgPtr)su);
#if defined(PAR)
ASSERT(tso->par.magic==TSO_MAGIC);
break;
case BlockedOnBlackHole:
checkClosureShallow(tso->block_info.closure);
- ASSERT(/* Can't be a BLACKHOLE because *this* closure is on its BQ */
- get_itbl(tso->block_info.closure)->type==BLACKHOLE_BQ ||
+ ASSERT(get_itbl(tso->block_info.closure)->type==BLACKHOLE ||
get_itbl(tso->block_info.closure)->type==RBH);
break;
case BlockedOnRead:
case BlockedOnWrite:
case BlockedOnDelay:
+#if defined(mingw32_HOST_OS)
+ case BlockedOnDoProc:
+#endif
/* isOnBQ(blocked_queue) */
break;
case BlockedOnException:
case BlockedOnMVar:
ASSERT(get_itbl(tso->block_info.closure)->type==MVAR);
break;
+ case BlockedOnSTM:
+ ASSERT(tso->block_info.closure == END_TSO_QUEUE);
+ break;
default:
/*
Could check other values of why_blocked but I am more
get_itbl(tso->link)->type == CONSTR);
#endif
- checkStack(sp, stack_end, su);
+ checkStackChunk(sp, stack_end);
}
#if defined(GRAN)
nat i, tsos;
StgTSO *tso;
- belch("Checking sanity of all runnable TSOs:");
+ debugBelch("Checking sanity of all runnable TSOs:");
for (i=0, tsos=0; i<RtsFlags.GranFlags.proc; i++) {
for (tso=run_queue_hds[i]; tso!=END_TSO_QUEUE; tso=tso->link) {
- fprintf(stderr, "TSO %p on PE %d ...", tso, i);
+ debugBelch("TSO %p on PE %d ...", tso, i);
checkTSO(tso);
- fprintf(stderr, "OK, ");
+ debugBelch("OK, ");
tsos++;
}
}
- belch(" checked %d TSOs on %d PEs; ok\n", tsos, RtsFlags.GranFlags.proc);
+ debugBelch(" checked %d TSOs on %d PEs; ok\n", tsos, RtsFlags.GranFlags.proc);
}
extern StgTSO *all_threads;
StgTSO *tso;
for (tso=all_threads; tso != END_TSO_QUEUE; tso = tso->global_link) {
- ASSERT(LOOKS_LIKE_PTR(tso));
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(tso));
ASSERT(get_itbl(tso)->type == TSO);
if (checkTSOs)
checkTSO(tso);
-------------------------------------------------------------------------- */
void
-checkMutableList( StgMutClosure *p, nat gen )
+checkMutableList( bdescr *mut_bd, nat gen )
{
bdescr *bd;
+ StgPtr q;
+ StgClosure *p;
- for (; p != END_MUT_LIST; p = p->mut_link) {
- bd = Bdescr((P_)p);
- ASSERT(closure_MUTABLE(p));
- ASSERT(bd->gen_no == gen);
- ASSERT(LOOKS_LIKE_PTR(p->mut_link));
- }
-}
-
-void
-checkMutOnceList( StgMutClosure *p, nat gen )
-{
- bdescr *bd;
- StgInfoTable *info;
-
- for (; p != END_MUT_LIST; p = p->mut_link) {
- bd = Bdescr((P_)p);
- info = get_itbl(p);
-
- ASSERT(!closure_MUTABLE(p));
- ASSERT(ip_STATIC(info) || bd->gen_no == gen);
- ASSERT(LOOKS_LIKE_PTR(p->mut_link));
-
- switch (info->type) {
- case IND_STATIC:
- case IND_OLDGEN:
- case IND_OLDGEN_PERM:
- case MUT_CONS:
- break;
- default:
- barf("checkMutOnceList: strange closure %p (%s)",
- p, info_type((StgClosure *)p));
+ for (bd = mut_bd; bd != NULL; bd = bd->link) {
+ for (q = bd->start; q < bd->free; q++) {
+ p = (StgClosure *)*q;
+ ASSERT(!HEAP_ALLOCED(p) || Bdescr((P_)p)->gen_no == gen);
}
}
}
-/* -----------------------------------------------------------------------------
- Check Blackhole Sanity
-
- Test whether an object is already on the update list.
- It isn't necessarily an rts error if it is - it might be a programming
- error.
-
- Future versions might be able to test for a blackhole without traversing
- the update frame list.
-
- -------------------------------------------------------------------------- */
-rtsBool
-isBlackhole( StgTSO* tso, StgClosure* p )
-{
- StgUpdateFrame* su = tso->su;
- do {
- switch (get_itbl(su)->type) {
- case UPDATE_FRAME:
- if (su->updatee == p) {
- return rtsTrue;
- } else {
- su = su->link;
- }
- break;
- case SEQ_FRAME:
- su = ((StgSeqFrame *)su)->link;
- break;
- case CATCH_FRAME:
- su = ((StgCatchFrame *)su)->link;
- break;
- case STOP_FRAME:
- return rtsFalse;
- default:
- barf("isBlackhole: weird record found on update frame list.");
- }
- } while (1);
-}
-
/*
Check the static objects list.
*/
{
StgClosure *indirectee = ((StgIndStatic *)p)->indirectee;
- ASSERT(LOOKS_LIKE_PTR(indirectee));
- ASSERT(LOOKS_LIKE_GHC_INFO(indirectee->header.info));
- p = IND_STATIC_LINK((StgClosure *)p);
+ ASSERT(LOOKS_LIKE_CLOSURE_PTR(indirectee));
+ ASSERT(LOOKS_LIKE_INFO_PTR(indirectee->header.info));
+ p = *IND_STATIC_LINK((StgClosure *)p);
break;
}
case THUNK_STATIC:
- p = THUNK_STATIC_LINK((StgClosure *)p);
+ p = *THUNK_STATIC_LINK((StgClosure *)p);
break;
case FUN_STATIC:
- p = FUN_STATIC_LINK((StgClosure *)p);
+ p = *FUN_STATIC_LINK((StgClosure *)p);
break;
case CONSTR_STATIC:
- p = STATIC_LINK(info,(StgClosure *)p);
+ p = *STATIC_LINK(info,(StgClosure *)p);
break;
default:
rtsBool end = rtsFalse;
StgInfoTable *info = get_itbl(closure);
- ASSERT(info->type == BLACKHOLE_BQ || info->type == MVAR
- || info->type == FETCH_ME_BQ || info->type == RBH);
+ ASSERT(info->type == MVAR || info->type == FETCH_ME_BQ || info->type == RBH);
do {
switch (get_itbl(bqe)->type) {
rtsBool end = rtsFalse;
StgInfoTable *info = get_itbl(closure);
- ASSERT(info->type == BLACKHOLE_BQ || info->type == MVAR);
+ ASSERT(info->type == MVAR);
do {
switch (get_itbl(bqe)->type) {
}
} while (!end);
}
-#else
-void
-checkBQ (StgTSO *bqe, StgClosure *closure)
-{
- rtsBool end = rtsFalse;
- StgInfoTable *info = get_itbl(closure);
-
- ASSERT(info->type == BLACKHOLE_BQ || info->type == MVAR);
-
- do {
- switch (get_itbl(bqe)->type) {
- case TSO:
- checkClosure((StgClosure *)bqe);
- bqe = bqe->link;
- end = (bqe==END_TSO_QUEUE);
- break;
-
- default:
- barf("checkBQ: strange closure %d in blocking queue for closure %p\n",
- get_itbl(bqe)->type, closure, info->type);
- }
- } while (!end);
-}
-
#endif
n++;
gala0 = lookupHashTable(LAtoGALAtable, (StgWord) gala->la);
ASSERT(!gala->preferred || gala == gala0);
- ASSERT(LOOKS_LIKE_GHC_INFO(((StgClosure *)gala->la)->header.info));
+ ASSERT(LOOKS_LIKE_INFO_PTR(((StgClosure *)gala->la)->header.info));
ASSERT(gala->next!=gala); // detect direct loops
if ( check_closures ) {
checkClosure((StgClosure *)gala->la);
m++;
gala0 = lookupHashTable(LAtoGALAtable, (StgWord) gala->la);
ASSERT(!gala->preferred || gala == gala0);
- ASSERT(LOOKS_LIKE_GHC_INFO(((StgClosure *)gala->la)->header.info));
+ ASSERT(LOOKS_LIKE_INFO_PTR(((StgClosure *)gala->la)->header.info));
ASSERT(gala->next!=gala); // detect direct loops
/*
if ( check_closures ) {