* @APPLE_LICENSE_HEADER_END@
*/
+#include <kern/sched_prim.h>
+#include <kern/ledger.h>
+#include <kern/policy_internal.h>
+
+#include <libkern/OSDebug.h>
+
#include <mach/mach_types.h>
-#include <vm/vm_page.h>
+
+#include <machine/limits.h>
+
+#include <vm/vm_compressor_pager.h>
#include <vm/vm_kern.h> /* kmem_alloc */
+#include <vm/vm_page.h>
+#include <vm/vm_pageout.h>
+#include <vm/vm_protos.h>
#include <vm/vm_purgeable_internal.h>
+
#include <sys/kdebug.h>
-#include <kern/sched_prim.h>
+
+extern vm_pressure_level_t memorystatus_vm_pressure_level;
struct token {
token_cnt_t count;
+ token_idx_t prev;
token_idx_t next;
};
* allocator */
struct purgeable_q purgeable_queues[PURGEABLE_Q_TYPE_MAX];
+queue_head_t purgeable_nonvolatile_queue;
+int purgeable_nonvolatile_count;
decl_lck_mtx_data(,vm_purgeable_queue_lock)
-#define TOKEN_ADD 0x40 /* 0x100 */
-#define TOKEN_DELETE 0x41 /* 0x104 */
-#define TOKEN_RIPEN 0x42 /* 0x108 */
-#define OBJECT_ADD 0x48 /* 0x120 */
-#define OBJECT_REMOVE 0x49 /* 0x124 */
-#define OBJECT_PURGE 0x4a /* 0x128 */
-#define OBJECT_PURGE_ALL 0x4b /* 0x12c */
-
static token_idx_t vm_purgeable_token_remove_first(purgeable_q_t queue);
+static void vm_purgeable_stats_helper(vm_purgeable_stat_t *stat, purgeable_q_t queue, int group, task_t target_task);
+
+void vm_purgeable_nonvolatile_owner_update(task_t owner,
+ int delta);
+void vm_purgeable_volatile_owner_update(task_t owner,
+ int delta);
+
+
#if MACH_ASSERT
static void
vm_purgeable_token_check_queue(purgeable_q_t queue)
token_idx_t unripe = 0;
int our_inactive_count;
+#if DEVELOPMENT
+ static unsigned lightweight_check = 0;
+
+ /*
+ * Due to performance impact, only perform this check
+ * every 100 times on DEVELOPMENT kernels.
+ */
+ if (lightweight_check++ < 100) {
+ return;
+ }
+
+ lightweight_check = 0;
+#endif
+
while (token) {
if (tokens[token].count != 0) {
assert(queue->token_q_unripe);
{
our_inactive_count = page_cnt + queue->new_pages + token_new_pagecount;
assert(our_inactive_count >= 0);
- assert((uint32_t) our_inactive_count == vm_page_inactive_count);
+ assert((uint32_t) our_inactive_count == vm_page_inactive_count - vm_page_cleaned_count);
}
}
#endif
kern_return_t
vm_purgeable_token_add(purgeable_q_t queue)
{
-#if MACH_ASSERT
- lck_mtx_assert(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
-#endif
+ LCK_MTX_ASSERT(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
/* new token */
token_idx_t token;
(vm_offset_t) tokens,
token_q_cur_size,
(vm_offset_t *) &new_loc,
- alloc_size);
+ alloc_size, VM_KERN_MEMORY_OSFMK);
} else {
result = kmem_alloc(kernel_map,
(vm_offset_t *) &new_loc,
- alloc_size);
+ alloc_size, VM_KERN_MEMORY_OSFMK);
}
}
if (queue->token_q_tail == 0) {
assert(queue->token_q_head == 0 && queue->token_q_unripe == 0);
queue->token_q_head = token;
+ tokens[token].prev = 0;
} else {
tokens[queue->token_q_tail].next = token;
+ tokens[token].prev = queue->token_q_tail;
}
if (queue->token_q_unripe == 0) { /* only ripe tokens (token
* count == 0) in queue */
static token_idx_t
vm_purgeable_token_remove_first(purgeable_q_t queue)
{
-#if MACH_ASSERT
- lck_mtx_assert(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
-#endif
+ LCK_MTX_ASSERT(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
token_idx_t token;
token = queue->token_q_head;
queue->token_q_head = tokens[token].next;
if (queue->token_q_head) {
tokens[queue->token_q_head].count += tokens[token].count;
+ tokens[queue->token_q_head].prev = 0;
} else {
/* currently no other tokens in the queue */
/*
return token;
}
+static token_idx_t
+vm_purgeable_token_remove_last(purgeable_q_t queue)
+{
+ LCK_MTX_ASSERT(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
+
+ token_idx_t token;
+ token = queue->token_q_tail;
+
+ assert(token);
+
+ if (token) {
+ assert(queue->token_q_head);
+
+ if (queue->token_q_tail == queue->token_q_head)
+ assert(tokens[token].next == 0);
+
+ if (queue->token_q_unripe == 0) {
+ /* we're removing a ripe token. decrease count */
+ available_for_purge--;
+ assert(available_for_purge >= 0);
+ } else if (queue->token_q_unripe == token) {
+ /* we're removing the only unripe token */
+ queue->token_q_unripe = 0;
+ }
+
+ if (token == queue->token_q_head) {
+ /* token is the last one in the queue */
+ queue->token_q_head = 0;
+ queue->token_q_tail = 0;
+ } else {
+ token_idx_t new_tail;
+
+ new_tail = tokens[token].prev;
+
+ assert(new_tail);
+ assert(tokens[new_tail].next == token);
+
+ queue->token_q_tail = new_tail;
+ tokens[new_tail].next = 0;
+ }
+
+ queue->new_pages += tokens[token].count;
+
+#if MACH_ASSERT
+ queue->debug_count_tokens--;
+ vm_purgeable_token_check_queue(queue);
+
+ KERNEL_DEBUG_CONSTANT((MACHDBG_CODE(DBG_MACH_VM, TOKEN_DELETE)),
+ queue->type,
+ tokens[queue->token_q_head].count, /* num pages on new
+ * first token */
+ token_new_pagecount, /* num pages waiting for
+ * next token */
+ available_for_purge,
+ 0);
+#endif
+ }
+ return token;
+}
+
/*
* Delete first token from queue. Return token to token queue.
* Call with page queue locked.
void
vm_purgeable_token_delete_first(purgeable_q_t queue)
{
-#if MACH_ASSERT
- lck_mtx_assert(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
-#endif
+ LCK_MTX_ASSERT(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
token_idx_t token = vm_purgeable_token_remove_first(queue);
if (token) {
/* stick removed token on free queue */
tokens[token].next = token_free_idx;
+ tokens[token].prev = 0;
+ token_free_idx = token;
+ }
+}
+
+void
+vm_purgeable_token_delete_last(purgeable_q_t queue)
+{
+ LCK_MTX_ASSERT(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
+ token_idx_t token = vm_purgeable_token_remove_last(queue);
+
+ if (token) {
+ /* stick removed token on free queue */
+ tokens[token].next = token_free_idx;
+ tokens[token].prev = 0;
token_free_idx = token;
}
}
void
vm_purgeable_q_advance_all()
{
-#if MACH_ASSERT
- lck_mtx_assert(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
-#endif
+ LCK_MTX_ASSERT(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
/* check queue counters - if they get really large, scale them back.
* They tend to get that large when there is no purgeable queue action */
static void
vm_purgeable_token_remove_ripe(purgeable_q_t queue)
{
-#if MACH_ASSERT
- lck_mtx_assert(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
-#endif
+ LCK_MTX_ASSERT(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
assert(queue->token_q_head && tokens[queue->token_q_head].count == 0);
/* return token to free list. advance token list. */
token_idx_t new_head = tokens[queue->token_q_head].next;
tokens[queue->token_q_head].next = token_free_idx;
+ tokens[queue->token_q_head].prev = 0;
token_free_idx = queue->token_q_head;
queue->token_q_head = new_head;
+ tokens[new_head].prev = 0;
if (new_head == 0)
queue->token_q_tail = 0;
static void
vm_purgeable_token_choose_and_delete_ripe(purgeable_q_t queue, purgeable_q_t queue2)
{
-#if MACH_ASSERT
- lck_mtx_assert(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
-#endif
+ LCK_MTX_ASSERT(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
assert(queue->token_q_head);
if (tokens[queue->token_q_head].count == 0) {
/* migrate to queue2 */
/* go to migration target loc */
- token_idx_t *token_in_queue2 = &queue2->token_q_head;
- while (*token_in_queue2 && count > tokens[*token_in_queue2].count) {
- count -= tokens[*token_in_queue2].count;
- token_in_queue2 = &tokens[*token_in_queue2].next;
- }
- if ((*token_in_queue2 == queue2->token_q_unripe) || /* becomes the first
- * unripe token */
- (queue2->token_q_unripe == 0))
- queue2->token_q_unripe = token; /* must update unripe
- * pointer */
+ token_idx_t token_to_insert_before = queue2->token_q_head, token_to_insert_after;
- /* insert token */
- tokens[token].count = count;
- tokens[token].next = *token_in_queue2;
+ while (token_to_insert_before != 0 && count > tokens[token_to_insert_before].count) {
+ count -= tokens[token_to_insert_before].count;
+ token_to_insert_before = tokens[token_to_insert_before].next;
+ }
+
+ /* token_to_insert_before is now set correctly */
+
+ /* should the inserted token become the first unripe token? */
+ if ((token_to_insert_before == queue2->token_q_unripe) || (queue2->token_q_unripe == 0))
+ queue2->token_q_unripe = token; /* if so, must update unripe pointer */
/*
- * if inserting at end, reduce new_pages by that value if
- * inserting before token, reduce counter of that token
+ * insert token.
+ * if inserting at end, reduce new_pages by that value;
+ * otherwise, reduce counter of next token
*/
- if (*token_in_queue2 == 0) { /* insertion at end of queue2 */
- queue2->token_q_tail = token; /* must update tail
- * pointer */
+
+ tokens[token].count = count;
+
+ if (token_to_insert_before != 0) {
+ token_to_insert_after = tokens[token_to_insert_before].prev;
+
+ tokens[token].next = token_to_insert_before;
+ tokens[token_to_insert_before].prev = token;
+
+ assert(tokens[token_to_insert_before].count >= count);
+ tokens[token_to_insert_before].count -= count;
+ } else {
+ /* if we ran off the end of the list, the token to insert after is the tail */
+ token_to_insert_after = queue2->token_q_tail;
+
+ tokens[token].next = 0;
+ queue2->token_q_tail = token;
+
assert(queue2->new_pages >= (int32_t) count);
queue2->new_pages -= count;
+ }
+
+ if (token_to_insert_after != 0) {
+ tokens[token].prev = token_to_insert_after;
+ tokens[token_to_insert_after].next = token;
} else {
- assert(tokens[*token_in_queue2].count >= count);
- tokens[*token_in_queue2].count -= count;
+ /* is this case possible? */
+ tokens[token].prev = 0;
+ queue2->token_q_head = token;
}
- *token_in_queue2 = token;
#if MACH_ASSERT
queue2->debug_count_tokens++;
/* Find an object that can be locked. Returns locked object. */
/* Call with purgeable queue locked. */
-static vm_object_t
-vm_purgeable_object_find_and_lock(purgeable_q_t queue, int group)
+static vm_object_t
+vm_purgeable_object_find_and_lock(
+ purgeable_q_t queue,
+ int group,
+ boolean_t pick_ripe)
{
- lck_mtx_assert(&vm_purgeable_queue_lock, LCK_MTX_ASSERT_OWNED);
+ vm_object_t object, best_object;
+ int object_task_importance;
+ int best_object_task_importance;
+ int best_object_skipped;
+ int num_objects_skipped;
+ int try_lock_failed = 0;
+ int try_lock_succeeded = 0;
+ task_t owner;
+
+ best_object = VM_OBJECT_NULL;
+ best_object_task_importance = INT_MAX;
+
+ LCK_MTX_ASSERT(&vm_purgeable_queue_lock, LCK_MTX_ASSERT_OWNED);
/*
* Usually we would pick the first element from a queue. However, we
* might not be able to get a lock on it, in which case we try the
* remaining elements in order.
*/
- vm_object_t object;
+ KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE, (MACHDBG_CODE(DBG_MACH_VM, OBJECT_PURGE_LOOP) | DBG_FUNC_START),
+ pick_ripe,
+ group,
+ VM_KERNEL_UNSLIDE_OR_PERM(queue),
+ 0,
+ 0);
+
+ num_objects_skipped = 0;
for (object = (vm_object_t) queue_first(&queue->objq[group]);
!queue_end(&queue->objq[group], (queue_entry_t) object);
- object = (vm_object_t) queue_next(&object->objq)) {
- if (vm_object_lock_try(object)) {
- /* Locked. Great. We'll take it. Remove and return. */
- queue_remove(&queue->objq[group], object,
- vm_object_t, objq);
- object->objq.next = 0;
- object->objq.prev = 0;
-#if MACH_ASSERT
- queue->debug_count_objects--;
-#endif
- return object;
+ object = (vm_object_t) queue_next(&object->objq),
+ num_objects_skipped++) {
+
+ /*
+ * To prevent us looping for an excessively long time, choose
+ * the best object we've seen after looking at PURGEABLE_LOOP_MAX elements.
+ * If we haven't seen an eligible object after PURGEABLE_LOOP_MAX elements,
+ * we keep going until we find the first eligible object.
+ */
+ if ((num_objects_skipped >= PURGEABLE_LOOP_MAX) && (best_object != NULL)) {
+ break;
+ }
+
+ if (pick_ripe &&
+ ! object->purgeable_when_ripe) {
+ /* we want an object that has a ripe token */
+ continue;
+ }
+
+ object_task_importance = 0;
+
+ owner = object->vo_purgeable_owner;
+ if (owner) {
+#if CONFIG_EMBEDDED
+#if CONFIG_JETSAM
+ object_task_importance = proc_get_memstat_priority((struct proc *)get_bsdtask_info(owner), TRUE);
+#endif /* CONFIG_JETSAM */
+#else /* CONFIG_EMBEDDED */
+ object_task_importance = task_importance_estimate(owner);
+#endif /* CONFIG_EMBEDDED */
+ }
+
+ if (object_task_importance < best_object_task_importance) {
+ if (vm_object_lock_try(object)) {
+ try_lock_succeeded++;
+ if (best_object != VM_OBJECT_NULL) {
+ /* forget about previous best object */
+ vm_object_unlock(best_object);
+ }
+ best_object = object;
+ best_object_task_importance = object_task_importance;
+ best_object_skipped = num_objects_skipped;
+ if (best_object_task_importance == 0) {
+ /* can't get any better: stop looking */
+ break;
+ }
+ } else {
+ try_lock_failed++;
+ }
}
}
- return 0;
+ KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE, (MACHDBG_CODE(DBG_MACH_VM, OBJECT_PURGE_LOOP) | DBG_FUNC_END),
+ num_objects_skipped, /* considered objects */
+ try_lock_failed,
+ try_lock_succeeded,
+ VM_KERNEL_UNSLIDE_OR_PERM(best_object),
+ ((best_object == NULL) ? 0 : best_object->resident_page_count));
+
+ object = best_object;
+
+ if (object == VM_OBJECT_NULL) {
+ return VM_OBJECT_NULL;
+ }
+
+ /* Locked. Great. We'll take it. Remove and return. */
+// printf("FOUND PURGEABLE object %p skipped %d\n", object, num_objects_skipped);
+
+ vm_object_lock_assert_exclusive(object);
+
+ queue_remove(&queue->objq[group], object,
+ vm_object_t, objq);
+ object->objq.next = NULL;
+ object->objq.prev = NULL;
+ object->purgeable_queue_type = PURGEABLE_Q_TYPE_MAX;
+ object->purgeable_queue_group = 0;
+ /* one less volatile object for this object's owner */
+ vm_purgeable_volatile_owner_update(object->vo_purgeable_owner, -1);
+
+#if DEBUG
+ object->vo_purgeable_volatilizer = NULL;
+#endif /* DEBUG */
+
+ /* keep queue of non-volatile objects */
+ queue_enter(&purgeable_nonvolatile_queue, object,
+ vm_object_t, objq);
+ assert(purgeable_nonvolatile_count >= 0);
+ purgeable_nonvolatile_count++;
+ assert(purgeable_nonvolatile_count > 0);
+ /* one more nonvolatile object for this object's owner */
+ vm_purgeable_nonvolatile_owner_update(object->vo_purgeable_owner, +1);
+
+#if MACH_ASSERT
+ queue->debug_count_objects--;
+#endif
+ return object;
}
/* Can be called without holding locks */
*/
for (group = 0; group < NUM_VOLATILE_GROUPS; group++) {
while (!queue_empty(&queue->objq[group])) {
- object = vm_purgeable_object_find_and_lock(queue, group);
+ object = vm_purgeable_object_find_and_lock(queue, group, FALSE);
if (object == VM_OBJECT_NULL) {
lck_mtx_unlock(&vm_purgeable_queue_lock);
mutex_pause(collisions++);
/* Lock the page queue here so we don't hold it
* over the whole, legthy operation */
- vm_page_lock_queues();
- vm_purgeable_token_remove_first(queue);
- vm_page_unlock_queues();
+ if (object->purgeable_when_ripe) {
+ vm_page_lock_queues();
+ vm_purgeable_token_remove_first(queue);
+ vm_page_unlock_queues();
+ }
- assert(object->purgable == VM_PURGABLE_VOLATILE);
- (void) vm_object_purge(object);
+ (void) vm_object_purge(object, 0);
+ assert(object->purgable == VM_PURGABLE_EMPTY);
+ /* no change in purgeable accounting */
+
vm_object_unlock(object);
purged_count++;
goto restart;
}
boolean_t
-vm_purgeable_object_purge_one(void)
+vm_purgeable_object_purge_one_unlocked(
+ int force_purge_below_group)
+{
+ boolean_t retval;
+
+ vm_page_lock_queues();
+ retval = vm_purgeable_object_purge_one(force_purge_below_group, 0);
+ vm_page_unlock_queues();
+
+ return retval;
+}
+
+boolean_t
+vm_purgeable_object_purge_one(
+ int force_purge_below_group,
+ int flags)
{
enum purgeable_q_type i;
int group;
vm_object_t object = 0;
purgeable_q_t queue, queue2;
+ boolean_t forced_purge;
/* Need the page queue lock since we'll be changing the token queue. */
-#if MACH_ASSERT
- lck_mtx_assert(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
-#endif
+ LCK_MTX_ASSERT(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
lck_mtx_lock(&vm_purgeable_queue_lock);
/* Cycle through all queues */
for (i = PURGEABLE_Q_TYPE_OBSOLETE; i < PURGEABLE_Q_TYPE_MAX; i++) {
queue = &purgeable_queues[i];
- /*
- * Are there any ripe tokens on this queue? If yes, we'll
- * find an object to purge there
- */
- if (!(queue->token_q_head && tokens[queue->token_q_head].count == 0))
- continue; /* no token? Look at next purgeable
- * queue */
+ if (force_purge_below_group == 0) {
+ /*
+ * Are there any ripe tokens on this queue? If yes,
+ * we'll find an object to purge there
+ */
+ if (!queue->token_q_head) {
+ /* no token: look at next purgeable queue */
+ continue;
+ }
+
+ if (tokens[queue->token_q_head].count != 0) {
+ /* no ripe token: next queue */
+ continue;
+ }
+ }
/*
* Now look through all groups, starting from the lowest. If
* lock, remove a token and then purge the object.
*/
for (group = 0; group < NUM_VOLATILE_GROUPS; group++) {
+ if (!queue->token_q_head ||
+ tokens[queue->token_q_head].count != 0) {
+ /* no tokens or no ripe tokens */
+
+ if (group >= force_purge_below_group) {
+ /* no more groups to force-purge */
+ break;
+ }
+
+ /*
+ * Try and purge an object in this group
+ * even though no tokens are ripe.
+ */
+ if (!queue_empty(&queue->objq[group]) &&
+ (object = vm_purgeable_object_find_and_lock(queue, group, FALSE))) {
+ lck_mtx_unlock(&vm_purgeable_queue_lock);
+ if (object->purgeable_when_ripe) {
+ vm_purgeable_token_delete_first(queue);
+ }
+ forced_purge = TRUE;
+ goto purge_now;
+ }
+
+ /* nothing to purge in this group: next group */
+ continue;
+ }
if (!queue_empty(&queue->objq[group]) &&
- (object = vm_purgeable_object_find_and_lock(queue, group))) {
+ (object = vm_purgeable_object_find_and_lock(queue, group, TRUE))) {
lck_mtx_unlock(&vm_purgeable_queue_lock);
- vm_purgeable_token_choose_and_delete_ripe(queue, 0);
+ if (object->purgeable_when_ripe) {
+ vm_purgeable_token_choose_and_delete_ripe(queue, 0);
+ }
+ forced_purge = FALSE;
goto purge_now;
}
if (i != PURGEABLE_Q_TYPE_OBSOLETE) {
PURGEABLE_Q_TYPE_LIFO];
if (!queue_empty(&queue2->objq[group]) &&
- (object = vm_purgeable_object_find_and_lock(queue2, group))) {
+ (object = vm_purgeable_object_find_and_lock(queue2, group, TRUE))) {
lck_mtx_unlock(&vm_purgeable_queue_lock);
- vm_purgeable_token_choose_and_delete_ripe(queue2, queue);
+ if (object->purgeable_when_ripe) {
+ vm_purgeable_token_choose_and_delete_ripe(queue2, queue);
+ }
+ forced_purge = FALSE;
goto purge_now;
}
}
purge_now:
assert(object);
- assert(object->purgable == VM_PURGABLE_VOLATILE);
vm_page_unlock_queues(); /* Unlock for call to vm_object_purge() */
- (void) vm_object_purge(object);
+// printf("%sPURGING object %p task %p importance %d queue %d group %d force_purge_below_group %d memorystatus_vm_pressure_level %d\n", forced_purge ? "FORCED " : "", object, object->vo_purgeable_owner, task_importance_estimate(object->vo_purgeable_owner), i, group, force_purge_below_group, memorystatus_vm_pressure_level);
+ (void) vm_object_purge(object, flags);
+ assert(object->purgable == VM_PURGABLE_EMPTY);
+ /* no change in purgeable accounting */
vm_object_unlock(object);
vm_page_lock_queues();
KERNEL_DEBUG_CONSTANT((MACHDBG_CODE(DBG_MACH_VM, OBJECT_PURGE)),
- object, /* purged object */
+ VM_KERNEL_UNSLIDE_OR_PERM(object), /* purged object */
0,
available_for_purge,
0,
vm_object_lock_assert_exclusive(object);
lck_mtx_lock(&vm_purgeable_queue_lock);
+ assert(object->objq.next != NULL);
+ assert(object->objq.prev != NULL);
+ queue_remove(&purgeable_nonvolatile_queue, object,
+ vm_object_t, objq);
+ object->objq.next = NULL;
+ object->objq.prev = NULL;
+ assert(purgeable_nonvolatile_count > 0);
+ purgeable_nonvolatile_count--;
+ assert(purgeable_nonvolatile_count >= 0);
+ /* one less nonvolatile object for this object's owner */
+ vm_purgeable_nonvolatile_owner_update(object->vo_purgeable_owner, -1);
+
if (queue->type == PURGEABLE_Q_TYPE_OBSOLETE)
group = 0;
+
if (queue->type != PURGEABLE_Q_TYPE_LIFO) /* fifo and obsolete are
* fifo-queued */
queue_enter(&queue->objq[group], object, vm_object_t, objq); /* last to die */
else
queue_enter_first(&queue->objq[group], object, vm_object_t, objq); /* first to die */
+ /* one more volatile object for this object's owner */
+ vm_purgeable_volatile_owner_update(object->vo_purgeable_owner, +1);
+
+ object->purgeable_queue_type = queue->type;
+ object->purgeable_queue_group = group;
+
+#if DEBUG
+ assert(object->vo_purgeable_volatilizer == NULL);
+ object->vo_purgeable_volatilizer = current_task();
+ OSBacktrace(&object->purgeable_volatilizer_bt[0], 16);
+#endif /* DEBUG */
#if MACH_ASSERT
queue->debug_count_objects++;
purgeable_q_t
vm_purgeable_object_remove(vm_object_t object)
{
- enum purgeable_q_type i;
- int group;
+ int group;
+ enum purgeable_q_type type;
+ purgeable_q_t queue;
vm_object_lock_assert_exclusive(object);
+
+ type = object->purgeable_queue_type;
+ group = object->purgeable_queue_group;
+
+ if (type == PURGEABLE_Q_TYPE_MAX) {
+ if (object->objq.prev || object->objq.next)
+ panic("unmarked object on purgeable q");
+
+ return NULL;
+ } else if (!(object->objq.prev && object->objq.next))
+ panic("marked object not on purgeable q");
+
lck_mtx_lock(&vm_purgeable_queue_lock);
-
- for (i = PURGEABLE_Q_TYPE_OBSOLETE; i < PURGEABLE_Q_TYPE_MAX; i++) {
- purgeable_q_t queue = &purgeable_queues[i];
- for (group = 0; group < NUM_VOLATILE_GROUPS; group++) {
- vm_object_t o;
- for (o = (vm_object_t) queue_first(&queue->objq[group]);
- !queue_end(&queue->objq[group], (queue_entry_t) o);
- o = (vm_object_t) queue_next(&o->objq)) {
- if (o == object) {
- queue_remove(&queue->objq[group], object,
- vm_object_t, objq);
+
+ queue = &purgeable_queues[type];
+
+ queue_remove(&queue->objq[group], object, vm_object_t, objq);
+ object->objq.next = NULL;
+ object->objq.prev = NULL;
+ /* one less volatile object for this object's owner */
+ vm_purgeable_volatile_owner_update(object->vo_purgeable_owner, -1);
+#if DEBUG
+ object->vo_purgeable_volatilizer = NULL;
+#endif /* DEBUG */
+ /* keep queue of non-volatile objects */
+ if (object->alive && !object->terminating) {
+ task_t owner;
+ queue_enter(&purgeable_nonvolatile_queue, object,
+ vm_object_t, objq);
+ assert(purgeable_nonvolatile_count >= 0);
+ purgeable_nonvolatile_count++;
+ assert(purgeable_nonvolatile_count > 0);
+ /* one more nonvolatile object for this object's owner */
+ owner = object->vo_purgeable_owner;
+ vm_purgeable_nonvolatile_owner_update(owner, +1);
+ }
+
#if MACH_ASSERT
- queue->debug_count_objects--;
- KERNEL_DEBUG_CONSTANT((MACHDBG_CODE(DBG_MACH_VM, OBJECT_REMOVE)),
- 0,
- tokens[queue->token_q_head].count,
- queue->type,
- group,
- 0);
+ queue->debug_count_objects--;
+ KERNEL_DEBUG_CONSTANT((MACHDBG_CODE(DBG_MACH_VM, OBJECT_REMOVE)),
+ 0,
+ tokens[queue->token_q_head].count,
+ queue->type,
+ group,
+ 0);
#endif
- lck_mtx_unlock(&vm_purgeable_queue_lock);
- object->objq.next = 0;
- object->objq.prev = 0;
- return &purgeable_queues[i];
- }
+
+ lck_mtx_unlock(&vm_purgeable_queue_lock);
+
+ object->purgeable_queue_type = PURGEABLE_Q_TYPE_MAX;
+ object->purgeable_queue_group = 0;
+
+ vm_object_lock_assert_exclusive(object);
+
+ return &purgeable_queues[type];
+}
+
+void
+vm_purgeable_stats_helper(vm_purgeable_stat_t *stat, purgeable_q_t queue, int group, task_t target_task)
+{
+ LCK_MTX_ASSERT(&vm_purgeable_queue_lock, LCK_MTX_ASSERT_OWNED);
+
+ stat->count = stat->size = 0;
+ vm_object_t object;
+ for (object = (vm_object_t) queue_first(&queue->objq[group]);
+ !queue_end(&queue->objq[group], (queue_entry_t) object);
+ object = (vm_object_t) queue_next(&object->objq)) {
+ if (!target_task || object->vo_purgeable_owner == target_task) {
+ stat->count++;
+ stat->size += (object->resident_page_count * PAGE_SIZE);
}
+ }
+ return;
+}
+
+void
+vm_purgeable_stats(vm_purgeable_info_t info, task_t target_task)
+{
+ purgeable_q_t queue;
+ int group;
+
+ lck_mtx_lock(&vm_purgeable_queue_lock);
+
+ /* Populate fifo_data */
+ queue = &purgeable_queues[PURGEABLE_Q_TYPE_FIFO];
+ for (group = 0; group < NUM_VOLATILE_GROUPS; group++)
+ vm_purgeable_stats_helper(&(info->fifo_data[group]), queue, group, target_task);
+
+ /* Populate lifo_data */
+ queue = &purgeable_queues[PURGEABLE_Q_TYPE_LIFO];
+ for (group = 0; group < NUM_VOLATILE_GROUPS; group++)
+ vm_purgeable_stats_helper(&(info->lifo_data[group]), queue, group, target_task);
+
+ /* Populate obsolete data */
+ queue = &purgeable_queues[PURGEABLE_Q_TYPE_OBSOLETE];
+ vm_purgeable_stats_helper(&(info->obsolete_data), queue, 0, target_task);
+
+ lck_mtx_unlock(&vm_purgeable_queue_lock);
+ return;
+}
+
+#if DEVELOPMENT || DEBUG
+static void
+vm_purgeable_account_volatile_queue(
+ purgeable_q_t queue,
+ int group,
+ task_t task,
+ pvm_account_info_t acnt_info)
+{
+ vm_object_t object;
+ uint64_t compressed_count;
+
+ for (object = (vm_object_t) queue_first(&queue->objq[group]);
+ !queue_end(&queue->objq[group], (queue_entry_t) object);
+ object = (vm_object_t) queue_next(&object->objq)) {
+ if (object->vo_purgeable_owner == task) {
+ compressed_count = vm_compressor_pager_get_count(object->pager);
+ acnt_info->pvm_volatile_compressed_count += compressed_count;
+ acnt_info->pvm_volatile_count += (object->resident_page_count - object->wired_page_count);
+ acnt_info->pvm_nonvolatile_count += object->wired_page_count;
+ }
+ }
+
+}
+
+/*
+ * Walks the purgeable object queues and calculates the usage
+ * associated with the objects for the given task.
+ */
+kern_return_t
+vm_purgeable_account(
+ task_t task,
+ pvm_account_info_t acnt_info)
+{
+ queue_head_t *nonvolatile_q;
+ vm_object_t object;
+ int group;
+ int state;
+ uint64_t compressed_count;
+ purgeable_q_t volatile_q;
+
+
+ if ((task == NULL) || (acnt_info == NULL)) {
+ return KERN_INVALID_ARGUMENT;
+ }
+
+ acnt_info->pvm_volatile_count = 0;
+ acnt_info->pvm_volatile_compressed_count = 0;
+ acnt_info->pvm_nonvolatile_count = 0;
+ acnt_info->pvm_nonvolatile_compressed_count = 0;
+
+ lck_mtx_lock(&vm_purgeable_queue_lock);
+
+ nonvolatile_q = &purgeable_nonvolatile_queue;
+ for (object = (vm_object_t) queue_first(nonvolatile_q);
+ !queue_end(nonvolatile_q, (queue_entry_t) object);
+ object = (vm_object_t) queue_next(&object->objq)) {
+ if (object->vo_purgeable_owner == task) {
+ state = object->purgable;
+ compressed_count = vm_compressor_pager_get_count(object->pager);
+ if (state == VM_PURGABLE_EMPTY) {
+ acnt_info->pvm_volatile_count += (object->resident_page_count - object->wired_page_count);
+ acnt_info->pvm_volatile_compressed_count += compressed_count;
+ } else {
+ acnt_info->pvm_nonvolatile_count += (object->resident_page_count - object->wired_page_count);
+ acnt_info->pvm_nonvolatile_compressed_count += compressed_count;
+ }
+ acnt_info->pvm_nonvolatile_count += object->wired_page_count;
+ }
+ }
+
+ volatile_q = &purgeable_queues[PURGEABLE_Q_TYPE_OBSOLETE];
+ vm_purgeable_account_volatile_queue(volatile_q, 0, task, acnt_info);
+
+ volatile_q = &purgeable_queues[PURGEABLE_Q_TYPE_FIFO];
+ for (group = 0; group < NUM_VOLATILE_GROUPS; group++) {
+ vm_purgeable_account_volatile_queue(volatile_q, group, task, acnt_info);
+ }
+
+ volatile_q = &purgeable_queues[PURGEABLE_Q_TYPE_LIFO];
+ for (group = 0; group < NUM_VOLATILE_GROUPS; group++) {
+ vm_purgeable_account_volatile_queue(volatile_q, group, task, acnt_info);
+ }
+ lck_mtx_unlock(&vm_purgeable_queue_lock);
+
+ acnt_info->pvm_volatile_count = (acnt_info->pvm_volatile_count * PAGE_SIZE);
+ acnt_info->pvm_volatile_compressed_count = (acnt_info->pvm_volatile_compressed_count * PAGE_SIZE);
+ acnt_info->pvm_nonvolatile_count = (acnt_info->pvm_nonvolatile_count * PAGE_SIZE);
+ acnt_info->pvm_nonvolatile_compressed_count = (acnt_info->pvm_nonvolatile_compressed_count * PAGE_SIZE);
+
+ return KERN_SUCCESS;
+}
+#endif /* DEVELOPMENT || DEBUG */
+
+static void
+vm_purgeable_volatile_queue_disown(
+ purgeable_q_t queue,
+ int group,
+ task_t task)
+{
+ vm_object_t object;
+ int collisions;
+
+ collisions = 0;
+
+again:
+ LCK_MTX_ASSERT(&vm_purgeable_queue_lock, LCK_MTX_ASSERT_OWNED);
+
+ for (object = (vm_object_t) queue_first(&queue->objq[group]);
+ !queue_end(&queue->objq[group], (queue_entry_t) object);
+ object = (vm_object_t) queue_next(&object->objq)) {
+#if MACH_ASSERT
+ /*
+ * Sanity check: let's scan the entire queues to
+ * make sure we don't leave any purgeable objects
+ * pointing back at a dead task. If the counters
+ * are off, we would fail to assert that they go
+ * back to 0 after disowning is done.
+ */
+#else /* MACH_ASSERT */
+ if (task->task_volatile_objects == 0) {
+ /* no more volatile objects owned by "task" */
+ break;
+ }
+#endif /* MACH_ASSERT */
+ if (object->vo_purgeable_owner == task) {
+ if (! vm_object_lock_try(object)) {
+ lck_mtx_unlock(&vm_purgeable_queue_lock);
+ mutex_pause(collisions++);
+ lck_mtx_lock(&vm_purgeable_queue_lock);
+ goto again;
+ }
+ assert(object->purgable == VM_PURGABLE_VOLATILE);
+ if (object->vo_purgeable_owner == task) {
+ vm_purgeable_accounting(object,
+ object->purgable,
+ TRUE); /* disown */
+ assert(object->vo_purgeable_owner == NULL);
+ }
+ vm_object_unlock(object);
}
}
+}
+
+void
+vm_purgeable_disown(
+ task_t task)
+{
+ purgeable_q_t volatile_q;
+ int group;
+ queue_head_t *nonvolatile_q;
+ vm_object_t object;
+ int collisions;
+
+ if (task == NULL) {
+ return;
+ }
+
+ task->task_purgeable_disowning = TRUE;
+
+ /*
+ * Scan the purgeable objects queues for objects owned by "task".
+ * This has to be done "atomically" under the "vm_purgeable_queue"
+ * lock, to ensure that no new purgeable object get associated
+ * with this task or moved between queues while we're scanning.
+ */
+
+ /*
+ * Scan non-volatile queue for objects owned by "task".
+ */
+
+ collisions = 0;
+
+again:
+ if (task->task_purgeable_disowned) {
+ /* task has already disowned its purgeable memory */
+ assert(task->task_volatile_objects == 0);
+ assert(task->task_nonvolatile_objects == 0);
+ return;
+ }
+ lck_mtx_lock(&vm_purgeable_queue_lock);
+
+ nonvolatile_q = &purgeable_nonvolatile_queue;
+ for (object = (vm_object_t) queue_first(nonvolatile_q);
+ !queue_end(nonvolatile_q, (queue_entry_t) object);
+ object = (vm_object_t) queue_next(&object->objq)) {
+#if MACH_ASSERT
+ /*
+ * Sanity check: let's scan the entire queues to
+ * make sure we don't leave any purgeable objects
+ * pointing back at a dead task. If the counters
+ * are off, we would fail to assert that they go
+ * back to 0 after disowning is done.
+ */
+#else /* MACH_ASSERT */
+ if (task->task_nonvolatile_objects == 0) {
+ /* no more non-volatile objects owned by "task" */
+ break;
+ }
+#endif /* MACH_ASSERT */
+#if DEBUG
+ assert(object->vo_purgeable_volatilizer == NULL);
+#endif /* DEBUG */
+ if (object->vo_purgeable_owner == task) {
+ if (!vm_object_lock_try(object)) {
+ lck_mtx_unlock(&vm_purgeable_queue_lock);
+ mutex_pause(collisions++);
+ goto again;
+ }
+ if (object->vo_purgeable_owner == task) {
+ vm_purgeable_accounting(object,
+ object->purgable,
+ TRUE); /* disown */
+ assert(object->vo_purgeable_owner == NULL);
+ }
+ vm_object_unlock(object);
+ }
+ }
+
+ lck_mtx_yield(&vm_purgeable_queue_lock);
+
+ /*
+ * Scan volatile queues for objects owned by "task".
+ */
+
+ volatile_q = &purgeable_queues[PURGEABLE_Q_TYPE_OBSOLETE];
+ vm_purgeable_volatile_queue_disown(volatile_q, 0, task);
+ lck_mtx_yield(&vm_purgeable_queue_lock);
+
+ volatile_q = &purgeable_queues[PURGEABLE_Q_TYPE_FIFO];
+ for (group = 0; group < NUM_VOLATILE_GROUPS; group++) {
+ vm_purgeable_volatile_queue_disown(volatile_q, group, task);
+ lck_mtx_yield(&vm_purgeable_queue_lock);
+ }
+
+ volatile_q = &purgeable_queues[PURGEABLE_Q_TYPE_LIFO];
+ for (group = 0; group < NUM_VOLATILE_GROUPS; group++) {
+ vm_purgeable_volatile_queue_disown(volatile_q, group, task);
+ lck_mtx_yield(&vm_purgeable_queue_lock);
+ }
+
+ if (task->task_volatile_objects != 0 ||
+ task->task_nonvolatile_objects != 0) {
+ /* some purgeable objects sneaked into a queue: find them */
+ lck_mtx_unlock(&vm_purgeable_queue_lock);
+ mutex_pause(collisions++);
+ goto again;
+ }
+
+ /* there shouldn't be any purgeable objects owned by task now */
+ assert(task->task_volatile_objects == 0);
+ assert(task->task_nonvolatile_objects == 0);
+ assert(task->task_purgeable_disowning);
+
+ /* and we don't need to try and disown again */
+ task->task_purgeable_disowned = TRUE;
+
lck_mtx_unlock(&vm_purgeable_queue_lock);
- return 0;
+}
+
+
+#if notyet
+static int
+vm_purgeable_queue_purge_task_owned(
+ purgeable_q_t queue,
+ int group,
+ task_t task)
+{
+ vm_object_t object;
+ int num_objects;
+ int collisions;
+ int num_objects_purged;
+
+ num_objects_purged = 0;
+ collisions = 0;
+
+look_again:
+ lck_mtx_lock(&vm_purgeable_queue_lock);
+
+ num_objects = 0;
+ for (object = (vm_object_t) queue_first(&queue->objq[group]);
+ !queue_end(&queue->objq[group], (queue_entry_t) object);
+ object = (vm_object_t) queue_next(&object->objq)) {
+
+ if (object->vo_purgeable_owner != task &&
+ object->vo_purgeable_owner != NULL) {
+ continue;
+ }
+
+ /* found an object: try and grab it */
+ if (!vm_object_lock_try(object)) {
+ lck_mtx_unlock(&vm_purgeable_queue_lock);
+ mutex_pause(collisions++);
+ goto look_again;
+ }
+ /* got it ! */
+
+ collisions = 0;
+
+ /* remove object from purgeable queue */
+ queue_remove(&queue->objq[group], object,
+ vm_object_t, objq);
+ object->objq.next = NULL;
+ object->objq.prev = NULL;
+ /* one less volatile object for this object's owner */
+ assert(object->vo_purgeable_owner == task);
+ vm_purgeable_volatile_owner_update(task, -1);
+
+#if DEBUG
+ object->vo_purgeable_volatilizer = NULL;
+#endif /* DEBUG */
+ queue_enter(&purgeable_nonvolatile_queue, object,
+ vm_object_t, objq);
+ assert(purgeable_nonvolatile_count >= 0);
+ purgeable_nonvolatile_count++;
+ assert(purgeable_nonvolatile_count > 0);
+ /* one more nonvolatile object for this object's owner */
+ assert(object->vo_purgeable_owner == task);
+ vm_purgeable_nonvolatile_owner_update(task, +1);
+
+ /* unlock purgeable queues */
+ lck_mtx_unlock(&vm_purgeable_queue_lock);
+
+ if (object->purgeable_when_ripe) {
+ /* remove a token */
+ vm_page_lock_queues();
+ vm_purgeable_token_remove_first(queue);
+ vm_page_unlock_queues();
+ }
+
+ /* purge the object */
+ (void) vm_object_purge(object, 0);
+ assert(object->purgable == VM_PURGABLE_EMPTY);
+ /* no change for purgeable accounting */
+ vm_object_unlock(object);
+ num_objects_purged++;
+
+ /* we unlocked the purgeable queues, so start over */
+ goto look_again;
+ }
+
+ lck_mtx_unlock(&vm_purgeable_queue_lock);
+
+ return num_objects_purged;
+}
+
+int
+vm_purgeable_purge_task_owned(
+ task_t task)
+{
+ purgeable_q_t queue;
+ int group;
+ int num_objects_purged;
+
+ num_objects_purged = 0;
+
+ queue = &purgeable_queues[PURGEABLE_Q_TYPE_OBSOLETE];
+ num_objects_purged += vm_purgeable_queue_purge_task_owned(queue,
+ 0,
+ task);
+
+ queue = &purgeable_queues[PURGEABLE_Q_TYPE_FIFO];
+ for (group = 0; group < NUM_VOLATILE_GROUPS; group++)
+ num_objects_purged += vm_purgeable_queue_purge_task_owned(queue,
+ group,
+ task);
+
+ queue = &purgeable_queues[PURGEABLE_Q_TYPE_LIFO];
+ for (group = 0; group < NUM_VOLATILE_GROUPS; group++)
+ num_objects_purged += vm_purgeable_queue_purge_task_owned(queue,
+ group,
+ task);
+
+ return num_objects_purged;
+}
+#endif
+
+void
+vm_purgeable_nonvolatile_enqueue(
+ vm_object_t object,
+ task_t owner)
+{
+ int page_count;
+
+ vm_object_lock_assert_exclusive(object);
+
+ assert(object->purgable == VM_PURGABLE_NONVOLATILE);
+ assert(object->vo_purgeable_owner == NULL);
+
+ lck_mtx_lock(&vm_purgeable_queue_lock);
+
+ if (owner != NULL &&
+ owner->task_purgeable_disowning) {
+ /* task is exiting and no longer tracking purgeable objects */
+ owner = NULL;
+ }
+
+ object->vo_purgeable_owner = owner;
+#if DEBUG
+ object->vo_purgeable_volatilizer = NULL;
+#endif /* DEBUG */
+
+#if DEBUG
+ OSBacktrace(&object->purgeable_owner_bt[0], 16);
+#endif /* DEBUG */
+
+ page_count = object->resident_page_count;
+ if (owner != NULL && page_count != 0) {
+ ledger_credit(owner->ledger,
+ task_ledgers.purgeable_nonvolatile,
+ ptoa(page_count));
+ ledger_credit(owner->ledger,
+ task_ledgers.phys_footprint,
+ ptoa(page_count));
+ }
+
+ assert(object->objq.next == NULL);
+ assert(object->objq.prev == NULL);
+
+ queue_enter(&purgeable_nonvolatile_queue, object,
+ vm_object_t, objq);
+ assert(purgeable_nonvolatile_count >= 0);
+ purgeable_nonvolatile_count++;
+ assert(purgeable_nonvolatile_count > 0);
+ /* one more nonvolatile object for this object's owner */
+ assert(object->vo_purgeable_owner == owner);
+ vm_purgeable_nonvolatile_owner_update(owner, +1);
+ lck_mtx_unlock(&vm_purgeable_queue_lock);
+
+ vm_object_lock_assert_exclusive(object);
+}
+
+void
+vm_purgeable_nonvolatile_dequeue(
+ vm_object_t object)
+{
+ task_t owner;
+
+ vm_object_lock_assert_exclusive(object);
+
+ owner = object->vo_purgeable_owner;
+#if DEBUG
+ assert(object->vo_purgeable_volatilizer == NULL);
+#endif /* DEBUG */
+ if (owner != NULL) {
+ /*
+ * Update the owner's ledger to stop accounting
+ * for this object.
+ */
+ vm_purgeable_accounting(object,
+ object->purgable,
+ TRUE); /* disown */
+ }
+
+ lck_mtx_lock(&vm_purgeable_queue_lock);
+ assert(object->objq.next != NULL);
+ assert(object->objq.prev != NULL);
+ queue_remove(&purgeable_nonvolatile_queue, object,
+ vm_object_t, objq);
+ object->objq.next = NULL;
+ object->objq.prev = NULL;
+ assert(purgeable_nonvolatile_count > 0);
+ purgeable_nonvolatile_count--;
+ assert(purgeable_nonvolatile_count >= 0);
+ lck_mtx_unlock(&vm_purgeable_queue_lock);
+
+ vm_object_lock_assert_exclusive(object);
+}
+
+void
+vm_purgeable_accounting(
+ vm_object_t object,
+ vm_purgable_t old_state,
+ boolean_t disown)
+{
+ task_t owner;
+ int resident_page_count;
+ int wired_page_count;
+ int compressed_page_count;
+ boolean_t disown_on_the_fly;
+
+ vm_object_lock_assert_exclusive(object);
+
+ owner = object->vo_purgeable_owner;
+ if (owner == NULL)
+ return;
+
+ if (!disown && owner->task_purgeable_disowning) {
+ /* task is disowning its purgeable objects: help it */
+ disown_on_the_fly = TRUE;
+ } else {
+ disown_on_the_fly = FALSE;
+ }
+
+ resident_page_count = object->resident_page_count;
+ wired_page_count = object->wired_page_count;
+ if (VM_CONFIG_COMPRESSOR_IS_PRESENT &&
+ object->pager != NULL) {
+ compressed_page_count =
+ vm_compressor_pager_get_count(object->pager);
+ } else {
+ compressed_page_count = 0;
+ }
+
+ if (old_state == VM_PURGABLE_VOLATILE ||
+ old_state == VM_PURGABLE_EMPTY) {
+ /* less volatile bytes in ledger */
+ ledger_debit(owner->ledger,
+ task_ledgers.purgeable_volatile,
+ ptoa(resident_page_count - wired_page_count));
+ /* less compressed volatile bytes in ledger */
+ ledger_debit(owner->ledger,
+ task_ledgers.purgeable_volatile_compressed,
+ ptoa(compressed_page_count));
+
+ if (disown || !object->alive || object->terminating) {
+ /* wired pages were accounted as "non-volatile"... */
+ ledger_debit(owner->ledger,
+ task_ledgers.purgeable_nonvolatile,
+ ptoa(wired_page_count));
+ /* ... and in phys_footprint */
+ ledger_debit(owner->ledger,
+ task_ledgers.phys_footprint,
+ ptoa(wired_page_count));
+
+ if (!disown_on_the_fly &&
+ (object->purgeable_queue_type ==
+ PURGEABLE_Q_TYPE_MAX)) {
+ /*
+ * Not on a volatile queue: must be empty
+ * or emptying.
+ */
+ vm_purgeable_nonvolatile_owner_update(owner,-1);
+ } else {
+ /* on a volatile queue */
+ vm_purgeable_volatile_owner_update(owner, -1);
+ }
+ /* no more accounting for this dead object */
+ object->vo_purgeable_owner = NULL;
+#if DEBUG
+ object->vo_purgeable_volatilizer = NULL;
+#endif /* DEBUG */
+ return;
+ }
+
+ /* more non-volatile bytes in ledger */
+ ledger_credit(owner->ledger,
+ task_ledgers.purgeable_nonvolatile,
+ ptoa(resident_page_count - wired_page_count));
+ /* more compressed non-volatile bytes in ledger */
+ ledger_credit(owner->ledger,
+ task_ledgers.purgeable_nonvolatile_compressed,
+ ptoa(compressed_page_count));
+ /* more footprint */
+ ledger_credit(owner->ledger,
+ task_ledgers.phys_footprint,
+ ptoa(resident_page_count
+ + compressed_page_count
+ - wired_page_count));
+
+ } else if (old_state == VM_PURGABLE_NONVOLATILE) {
+
+ /* less non-volatile bytes in ledger */
+ ledger_debit(owner->ledger,
+ task_ledgers.purgeable_nonvolatile,
+ ptoa(resident_page_count - wired_page_count));
+ /* less compressed non-volatile bytes in ledger */
+ ledger_debit(owner->ledger,
+ task_ledgers.purgeable_nonvolatile_compressed,
+ ptoa(compressed_page_count));
+ /* less footprint */
+ ledger_debit(owner->ledger,
+ task_ledgers.phys_footprint,
+ ptoa(resident_page_count
+ + compressed_page_count
+ - wired_page_count));
+
+ if (disown || !object->alive || object->terminating) {
+ /* wired pages still accounted as "non-volatile" */
+ ledger_debit(owner->ledger,
+ task_ledgers.purgeable_nonvolatile,
+ ptoa(wired_page_count));
+ ledger_debit(owner->ledger,
+ task_ledgers.phys_footprint,
+ ptoa(wired_page_count));
+
+ /* one less "non-volatile" object for the owner */
+ if (!disown_on_the_fly) {
+ assert(object->purgeable_queue_type ==
+ PURGEABLE_Q_TYPE_MAX);
+ }
+ vm_purgeable_nonvolatile_owner_update(owner, -1);
+ /* no more accounting for this dead object */
+ object->vo_purgeable_owner = NULL;
+#if DEBUG
+ object->vo_purgeable_volatilizer = NULL;
+#endif /* DEBUG */
+ return;
+ }
+ /* more volatile bytes in ledger */
+ ledger_credit(owner->ledger,
+ task_ledgers.purgeable_volatile,
+ ptoa(resident_page_count - wired_page_count));
+ /* more compressed volatile bytes in ledger */
+ ledger_credit(owner->ledger,
+ task_ledgers.purgeable_volatile_compressed,
+ ptoa(compressed_page_count));
+ } else {
+ panic("vm_purgeable_accounting(%p): "
+ "unexpected old_state=%d\n",
+ object, old_state);
+ }
+
+ vm_object_lock_assert_exclusive(object);
+}
+
+void
+vm_purgeable_nonvolatile_owner_update(
+ task_t owner,
+ int delta)
+{
+ if (owner == NULL || delta == 0) {
+ return;
+ }
+
+ if (delta > 0) {
+ assert(owner->task_nonvolatile_objects >= 0);
+ OSAddAtomic(delta, &owner->task_nonvolatile_objects);
+ assert(owner->task_nonvolatile_objects > 0);
+ } else {
+ assert(owner->task_nonvolatile_objects > delta);
+ OSAddAtomic(delta, &owner->task_nonvolatile_objects);
+ assert(owner->task_nonvolatile_objects >= 0);
+ }
+}
+
+void
+vm_purgeable_volatile_owner_update(
+ task_t owner,
+ int delta)
+{
+ if (owner == NULL || delta == 0) {
+ return;
+ }
+
+ if (delta > 0) {
+ assert(owner->task_volatile_objects >= 0);
+ OSAddAtomic(delta, &owner->task_volatile_objects);
+ assert(owner->task_volatile_objects > 0);
+ } else {
+ assert(owner->task_volatile_objects > delta);
+ OSAddAtomic(delta, &owner->task_volatile_objects);
+ assert(owner->task_volatile_objects >= 0);
+ }
+}
+
+void
+vm_purgeable_compressed_update(
+ vm_object_t object,
+ int delta)
+{
+ task_t owner;
+
+ vm_object_lock_assert_exclusive(object);
+
+ if (delta == 0 ||
+ !object->internal ||
+ object->purgable == VM_PURGABLE_DENY ||
+ object->vo_purgeable_owner == NULL) {
+ /* not an owned purgeable VM object: nothing to update */
+ return;
+ }
+
+ owner = object->vo_purgeable_owner;
+ switch (object->purgable) {
+ case VM_PURGABLE_DENY:
+ break;
+ case VM_PURGABLE_NONVOLATILE:
+ if (delta > 0) {
+ ledger_credit(owner->ledger,
+ task_ledgers.purgeable_nonvolatile_compressed,
+ ptoa(delta));
+ ledger_credit(owner->ledger,
+ task_ledgers.phys_footprint,
+ ptoa(delta));
+ } else {
+ ledger_debit(owner->ledger,
+ task_ledgers.purgeable_nonvolatile_compressed,
+ ptoa(-delta));
+ ledger_debit(owner->ledger,
+ task_ledgers.phys_footprint,
+ ptoa(-delta));
+ }
+ break;
+ case VM_PURGABLE_VOLATILE:
+ case VM_PURGABLE_EMPTY:
+ if (delta > 0) {
+ ledger_credit(owner->ledger,
+ task_ledgers.purgeable_volatile_compressed,
+ ptoa(delta));
+ } else {
+ ledger_debit(owner->ledger,
+ task_ledgers.purgeable_volatile_compressed,
+ ptoa(-delta));
+ }
+ break;
+ default:
+ panic("vm_purgeable_compressed_update(): "
+ "unexpected purgable %d for object %p\n",
+ object->purgable, object);
+ }
}
projects / apple / xnu.git / blobdiff