/* -----------------------------------------------------------------------------
- * $Id: Storage.c,v 1.17 1999/03/16 13:20:18 simonm Exp $
+ * $Id: Storage.c,v 1.22 2000/01/12 15:15:18 simonmar Exp $
*
* (c) The GHC Team, 1998-1999
*
#include "Sanity.h"
#include "Storage.h"
+#include "Schedule.h"
#include "StoragePriv.h"
-bdescr *current_nursery; /* next available nursery block, or NULL */
+#ifndef SMP
nat nursery_blocks; /* number of blocks in the nursery */
+#endif
StgClosure *caf_list = NULL;
step *g0s0; /* generation 0, step 0, for convenience */
/*
+ * Storage manager mutex: protects all the above state from
+ * simultaneous access by two STG threads.
+ */
+#ifdef SMP
+pthread_mutex_t sm_mutex = PTHREAD_MUTEX_INITIALIZER;
+#endif
+
+/*
* Forward references
*/
static void *stgAllocForGMP (size_t size_in_bytes);
step *step;
generation *gen;
+ /* If we're doing heap profiling, we want a two-space heap with a
+ * fixed-size allocation area so that we get roughly even-spaced
+ * samples.
+ */
+#if defined(PROFILING) || defined(DEBUG)
+ if (RtsFlags.ProfFlags.doHeapProfile) {
+ RtsFlags.GcFlags.generations = 1;
+ RtsFlags.GcFlags.steps = 1;
+ RtsFlags.GcFlags.oldGenFactor = 0;
+ RtsFlags.GcFlags.heapSizeSuggestion = 0;
+ }
+#endif
+
if (RtsFlags.GcFlags.heapSizeSuggestion >
RtsFlags.GcFlags.maxHeapSize) {
RtsFlags.GcFlags.maxHeapSize = RtsFlags.GcFlags.heapSizeSuggestion;
* don't want it to be a big one. This vague idea is borne out by
* rigorous experimental evidence.
*/
- step = &generations[0].steps[0];
- g0s0 = step;
- nursery_blocks = RtsFlags.GcFlags.minAllocAreaSize;
- step->blocks = allocNursery(NULL, nursery_blocks);
- step->n_blocks = nursery_blocks;
- current_nursery = step->blocks;
- g0s0->to_space = NULL;
- /* hp, hpLim, hp_bd, to_space etc. aren't used in G0S0 */
+ g0s0 = &generations[0].steps[0];
+
+ allocNurseries();
weak_ptr_list = NULL;
caf_list = NULL;
mp_set_memory_functions(stgAllocForGMP, stgReallocForGMP, stgDeallocForGMP);
#endif
+#ifdef SMP
+ pthread_mutex_init(&sm_mutex, NULL);
+#endif
+
IF_DEBUG(gc, stat_describe_gens());
}
-extern bdescr *
+void
+exitStorage (void)
+{
+ stat_exit(calcAllocated());
+}
+
+void
+newCAF(StgClosure* caf)
+{
+ /* Put this CAF on the mutable list for the old generation.
+ * This is a HACK - the IND_STATIC closure doesn't really have
+ * a mut_link field, but we pretend it has - in fact we re-use
+ * the STATIC_LINK field for the time being, because when we
+ * come to do a major GC we won't need the mut_link field
+ * any more and can use it as a STATIC_LINK.
+ */
+ ACQUIRE_LOCK(&sm_mutex);
+ ((StgMutClosure *)caf)->mut_link = oldest_gen->mut_once_list;
+ oldest_gen->mut_once_list = (StgMutClosure *)caf;
+
+#ifdef DEBUG
+ {
+ const StgInfoTable *info;
+
+ info = get_itbl(caf);
+ ASSERT(info->type == IND_STATIC);
+#if 0
+ STATIC_LINK2(info,caf) = caf_list;
+ caf_list = caf;
+#endif
+ }
+#endif
+ RELEASE_LOCK(&sm_mutex);
+}
+
+/* -----------------------------------------------------------------------------
+ Nursery management.
+ -------------------------------------------------------------------------- */
+
+void
+allocNurseries( void )
+{
+#ifdef SMP
+ {
+ Capability *cap;
+ bdescr *bd;
+
+ g0s0->blocks = NULL;
+ g0s0->n_blocks = 0;
+ for (cap = free_capabilities; cap != NULL; cap = cap->link) {
+ cap->rNursery = allocNursery(NULL, RtsFlags.GcFlags.minAllocAreaSize);
+ cap->rCurrentNursery = cap->rNursery;
+ for (bd = cap->rNursery; bd != NULL; bd = bd->link) {
+ bd->back = (bdescr *)cap;
+ }
+ }
+ /* Set the back links to be equal to the Capability,
+ * so we can do slightly better informed locking.
+ */
+ }
+#else /* SMP */
+ nursery_blocks = RtsFlags.GcFlags.minAllocAreaSize;
+ g0s0->blocks = allocNursery(NULL, nursery_blocks);
+ g0s0->n_blocks = nursery_blocks;
+ g0s0->to_space = NULL;
+ MainRegTable.rNursery = g0s0->blocks;
+ MainRegTable.rCurrentNursery = g0s0->blocks;
+ /* hp, hpLim, hp_bd, to_space etc. aren't used in G0S0 */
+#endif
+}
+
+void
+resetNurseries( void )
+{
+ bdescr *bd;
+#ifdef SMP
+ Capability *cap;
+
+ /* All tasks must be stopped */
+ ASSERT(n_free_capabilities == RtsFlags.ParFlags.nNodes);
+
+ for (cap = free_capabilities; cap != NULL; cap = cap->link) {
+ for (bd = cap->rNursery; bd; bd = bd->link) {
+ bd->free = bd->start;
+ ASSERT(bd->gen == g0);
+ ASSERT(bd->step == g0s0);
+ IF_DEBUG(sanity,memset(bd->start, 0xaa, BLOCK_SIZE));
+ }
+ cap->rCurrentNursery = cap->rNursery;
+ }
+#else
+ for (bd = g0s0->blocks; bd; bd = bd->link) {
+ bd->free = bd->start;
+ ASSERT(bd->gen == g0);
+ ASSERT(bd->step == g0s0);
+ IF_DEBUG(sanity,memset(bd->start, 0xaa, BLOCK_SIZE));
+ }
+ MainRegTable.rNursery = g0s0->blocks;
+ MainRegTable.rCurrentNursery = g0s0->blocks;
+#endif
+}
+
+bdescr *
allocNursery (bdescr *last_bd, nat blocks)
{
bdescr *bd;
return last_bd;
}
-extern void
+void
resizeNursery ( nat blocks )
{
bdescr *bd;
+#ifdef SMP
+ barf("resizeNursery: can't resize in SMP mode");
+#endif
+
if (nursery_blocks == blocks) {
ASSERT(g0s0->n_blocks == blocks);
return;
g0s0->n_blocks = nursery_blocks = blocks;
}
-void
-exitStorage (void)
-{
- lnat allocated;
- bdescr *bd;
-
- /* Return code ignored for now */
- /* ToDo: allocation figure is slightly wrong (see also GarbageCollect()) */
- allocated = (nursery_blocks * BLOCK_SIZE_W) + allocated_bytes();
- for ( bd = current_nursery->link; bd != NULL; bd = bd->link ) {
- allocated -= BLOCK_SIZE_W;
- }
- stat_exit(allocated);
-}
-
-void
-newCAF(StgClosure* caf)
-{
- /* Put this CAF on the mutable list for the old generation.
- * This is a HACK - the IND_STATIC closure doesn't really have
- * a mut_link field, but we pretend it has - in fact we re-use
- * the STATIC_LINK field for the time being, because when we
- * come to do a major GC we won't need the mut_link field
- * any more and can use it as a STATIC_LINK.
- */
- ((StgMutClosure *)caf)->mut_link = oldest_gen->mut_once_list;
- oldest_gen->mut_once_list = (StgMutClosure *)caf;
-
-#ifdef DEBUG
- {
- const StgInfoTable *info;
-
- info = get_itbl(caf);
- ASSERT(info->type == IND_STATIC);
-#if 0
- STATIC_LINK2(info,caf) = caf_list;
- caf_list = caf;
-#endif
- }
-#endif
-}
-
/* -----------------------------------------------------------------------------
The allocate() interface
bdescr *bd;
StgPtr p;
- TICK_ALLOC_HEAP(n);
+ ACQUIRE_LOCK(&sm_mutex);
+
+ TICK_ALLOC_HEAP_NOCTR(n);
CCS_ALLOC(CCCS,n);
/* big allocation (>LARGE_OBJECT_THRESHOLD) */
* (eg. running threads), so garbage collecting early won't make
* much difference.
*/
+ RELEASE_LOCK(&sm_mutex);
return bd->start;
/* small allocation (<LARGE_OBJECT_THRESHOLD) */
p = alloc_Hp;
alloc_Hp += n;
+ RELEASE_LOCK(&sm_mutex);
return p;
}
}
/* -----------------------------------------------------------------------------
- Stats and stuff
- -------------------------------------------------------------------------- */
+ * Stats and stuff
+ * -------------------------------------------------------------------------- */
+
+/* -----------------------------------------------------------------------------
+ * calcAllocated()
+ *
+ * Approximate how much we've allocated: number of blocks in the
+ * nursery + blocks allocated via allocate() - unused nusery blocks.
+ * This leaves a little slop at the end of each block, and doesn't
+ * take into account large objects (ToDo).
+ * -------------------------------------------------------------------------- */
+
+lnat
+calcAllocated( void )
+{
+ nat allocated;
+ bdescr *bd;
+
+#ifdef SMP
+ Capability *cap;
+
+ /* All tasks must be stopped. Can't assert that all the
+ capabilities are owned by the scheduler, though: one or more
+ tasks might have been stopped while they were running (non-main)
+ threads. */
+ /* ASSERT(n_free_capabilities == RtsFlags.ParFlags.nNodes); */
+
+ allocated =
+ n_free_capabilities * RtsFlags.GcFlags.minAllocAreaSize * BLOCK_SIZE_W
+ + allocated_bytes();
+
+ for (cap = free_capabilities; cap != NULL; cap = cap->link) {
+ for ( bd = cap->rCurrentNursery->link; bd != NULL; bd = bd->link ) {
+ allocated -= BLOCK_SIZE_W;
+ }
+ if (cap->rCurrentNursery->free < cap->rCurrentNursery->start
+ + BLOCK_SIZE_W) {
+ allocated -= (cap->rCurrentNursery->start + BLOCK_SIZE_W)
+ - cap->rCurrentNursery->free;
+ }
+ }
+
+#else /* !SMP */
+ bdescr *current_nursery = MainRegTable.rCurrentNursery;
+
+ allocated = (nursery_blocks * BLOCK_SIZE_W) + allocated_bytes();
+ for ( bd = current_nursery->link; bd != NULL; bd = bd->link ) {
+ allocated -= BLOCK_SIZE_W;
+ }
+ if (current_nursery->free < current_nursery->start + BLOCK_SIZE_W) {
+ allocated -= (current_nursery->start + BLOCK_SIZE_W)
+ - current_nursery->free;
+ }
+#endif
+
+ return allocated;
+}
/* Approximate the amount of live data in the heap. To be called just
* after garbage collection (see GarbageCollect()).
*/
if (bd->blocks > BLOCKS_PER_MBLOCK) {
total_blocks -= (MBLOCK_SIZE / BLOCK_SIZE - BLOCKS_PER_MBLOCK)
- * bd->blocks/(MBLOCK_SIZE/BLOCK_SIZE);
+ * (bd->blocks/(MBLOCK_SIZE/BLOCK_SIZE));
}
}
}