#include <vm/vm_protos.h>
#include <vm/memory_object.h>
#include <vm/vm_purgeable_internal.h>
+#include <vm/vm_compressor.h>
#include <IOKit/IOHibernatePrivate.h>
-
-#include <sys/kern_memorystatus.h>
-
#include <sys/kdebug.h>
+boolean_t hibernate_cleaning_in_progress = FALSE;
boolean_t vm_page_free_verify = TRUE;
uint32_t vm_lopage_free_count = 0;
lck_spin_t *vm_page_bucket_locks;
+#if VM_PAGE_BUCKETS_CHECK
+boolean_t vm_page_buckets_check_ready = FALSE;
+#if VM_PAGE_FAKE_BUCKETS
+vm_page_bucket_t *vm_page_fake_buckets; /* decoy buckets */
+vm_map_offset_t vm_page_fake_buckets_start, vm_page_fake_buckets_end;
+#endif /* VM_PAGE_FAKE_BUCKETS */
+#endif /* VM_PAGE_BUCKETS_CHECK */
#if MACH_PAGE_HASH_STATS
/* This routine is only for debug. It is intended to be called by
zone_t vm_page_zone;
vm_locks_array_t vm_page_locks;
decl_lck_mtx_data(,vm_page_alloc_lock)
+lck_mtx_ext_t vm_page_alloc_lock_ext;
+
unsigned int io_throttle_zero_fill;
unsigned int vm_page_local_q_count = 0;
unsigned int vm_page_local_q_hard_limit = 500;
struct vplq *vm_page_local_q = NULL;
+/* N.B. Guard and fictitious pages must not
+ * be assigned a zero phys_page value.
+ */
/*
* Fictitious pages don't have a physical address,
* but we must initialize phys_page to something.
* system (pageout daemon). These queues are
* defined here, but are shared by the pageout
* module. The inactive queue is broken into
- * inactive and zf for convenience as the
+ * file backed and anonymous for convenience as the
* pageout daemon often assignes a higher
- * affinity to zf pages
+ * importance to anonymous pages (less likely to pick)
*/
queue_head_t vm_page_queue_active;
queue_head_t vm_page_queue_inactive;
-queue_head_t vm_page_queue_zf; /* inactive memory queue for zero fill */
+queue_head_t vm_page_queue_anonymous; /* inactive memory queue for anonymous pages */
queue_head_t vm_page_queue_throttled;
unsigned int vm_page_active_count;
unsigned int vm_page_inactive_count;
+unsigned int vm_page_anonymous_count;
unsigned int vm_page_throttled_count;
unsigned int vm_page_speculative_count;
unsigned int vm_page_wire_count;
unsigned int vm_page_purgeable_wired_count = 0; /* # of purgeable pages that are wired now */
uint64_t vm_page_purged_count = 0; /* total count of purged pages */
+unsigned int vm_page_external_count = 0;
+unsigned int vm_page_internal_count = 0;
+unsigned int vm_page_pageable_external_count = 0;
+unsigned int vm_page_pageable_internal_count = 0;
+
#if DEVELOPMENT || DEBUG
unsigned int vm_page_speculative_recreated = 0;
unsigned int vm_page_speculative_created = 0;
unsigned int vm_page_speculative_used = 0;
#endif
+queue_head_t vm_page_queue_cleaned;
+
+unsigned int vm_page_cleaned_count = 0;
+unsigned int vm_pageout_enqueued_cleaned = 0;
+
uint64_t max_valid_dma_address = 0xffffffffffffffffULL;
ppnum_t max_valid_low_ppnum = 0xffffffff;
unsigned int vm_page_throttle_limit = 0;
uint32_t vm_page_creation_throttle = 0;
unsigned int vm_page_inactive_target = 0;
+unsigned int vm_page_anonymous_min = 0;
unsigned int vm_page_inactive_min = 0;
unsigned int vm_page_free_reserved = 0;
unsigned int vm_page_throttle_count = 0;
+
/*
* The VM system has a couple of heuristics for deciding
* that pages are "uninteresting" and should be placed
lck_grp_init(&vm_page_lck_grp_alloc, "vm_page_alloc", &vm_page_lck_grp_attr);
lck_grp_init(&vm_page_lck_grp_bucket, "vm_page_bucket", &vm_page_lck_grp_attr);
lck_attr_setdefault(&vm_page_lck_attr);
+ lck_mtx_init_ext(&vm_page_alloc_lock, &vm_page_alloc_lock_ext, &vm_page_lck_grp_alloc, &vm_page_lck_attr);
+
+ vm_compressor_init_locks();
}
void
VPL_LOCK_INIT(lq, &vm_page_lck_grp_local, &vm_page_lck_attr);
queue_init(&lq->vpl_queue);
lq->vpl_count = 0;
+ lq->vpl_internal_count = 0;
+ lq->vpl_external_count = 0;
}
vm_page_local_q_count = num_cpus;
m->busy = TRUE;
m->wanted = FALSE;
m->tabled = FALSE;
+ m->hashed = FALSE;
m->fictitious = FALSE;
m->pmapped = FALSE;
m->wpmapped = FALSE;
m->unusual = FALSE;
m->encrypted = FALSE;
m->encrypted_cleaning = FALSE;
- m->list_req_pending = FALSE;
- m->dump_cleaning = FALSE;
m->cs_validated = FALSE;
m->cs_tainted = FALSE;
m->no_cache = FALSE;
- m->zero_fill = FALSE;
m->reusable = FALSE;
m->slid = FALSE;
+ m->was_dirty = FALSE;
+ m->xpmapped = FALSE;
+ m->compressor = FALSE;
+ m->written_by_kernel = FALSE;
m->__unused_object_bits = 0;
-
/*
* Initialize the page queues.
*/
queue_init(&vm_lopage_queue_free);
queue_init(&vm_page_queue_active);
queue_init(&vm_page_queue_inactive);
+ queue_init(&vm_page_queue_cleaned);
queue_init(&vm_page_queue_throttled);
- queue_init(&vm_page_queue_zf);
+ queue_init(&vm_page_queue_anonymous);
for ( i = 0; i <= VM_PAGE_MAX_SPECULATIVE_AGE_Q; i++ ) {
queue_init(&vm_page_queue_speculative[i].age_q);
/*
* Steal memory for the map and zone subsystems.
*/
-
- vm_map_steal_memory();
zone_steal_memory();
+ vm_map_steal_memory();
/*
* Allocate (and initialize) the virtual-to-physical
if (vm_page_hash_mask & vm_page_bucket_count)
printf("vm_page_bootstrap: WARNING -- strange page hash\n");
+#if VM_PAGE_BUCKETS_CHECK
+#if VM_PAGE_FAKE_BUCKETS
+ /*
+ * Allocate a decoy set of page buckets, to detect
+ * any stomping there.
+ */
+ vm_page_fake_buckets = (vm_page_bucket_t *)
+ pmap_steal_memory(vm_page_bucket_count *
+ sizeof(vm_page_bucket_t));
+ vm_page_fake_buckets_start = (vm_map_offset_t) vm_page_fake_buckets;
+ vm_page_fake_buckets_end =
+ vm_map_round_page((vm_page_fake_buckets_start +
+ (vm_page_bucket_count *
+ sizeof (vm_page_bucket_t))),
+ PAGE_MASK);
+ char *cp;
+ for (cp = (char *)vm_page_fake_buckets_start;
+ cp < (char *)vm_page_fake_buckets_end;
+ cp++) {
+ *cp = 0x5a;
+ }
+#endif /* VM_PAGE_FAKE_BUCKETS */
+#endif /* VM_PAGE_BUCKETS_CHECK */
+
vm_page_buckets = (vm_page_bucket_t *)
pmap_steal_memory(vm_page_bucket_count *
sizeof(vm_page_bucket_t));
for (i = 0; i < vm_page_bucket_lock_count; i++)
lck_spin_init(&vm_page_bucket_locks[i], &vm_page_lck_grp_bucket, &vm_page_lck_attr);
+#if VM_PAGE_BUCKETS_CHECK
+ vm_page_buckets_check_ready = TRUE;
+#endif /* VM_PAGE_BUCKETS_CHECK */
+
/*
* Machine-dependent code allocates the resident page table.
* It uses vm_page_init to initialize the page frames.
#endif
pmap_enter(kernel_pmap, vaddr, phys_page,
- VM_PROT_READ|VM_PROT_WRITE,
+ VM_PROT_READ|VM_PROT_WRITE, VM_PROT_NONE,
VM_WIMG_USE_DEFAULT, FALSE);
/*
* Account for newly stolen memory
*/
fill = 0; /* Assume no fill */
if (PE_parse_boot_argn("fill", &fillval, sizeof (fillval))) fill = 1; /* Set fill */
-
+#if DEBUG
+ /* This slows down booting the DEBUG kernel, particularly on
+ * large memory systems, but is worthwhile in deterministically
+ * trapping uninitialized memory usage.
+ */
+ if (fill == 0) {
+ fill = 1;
+ fillval = 0xDEB8F177;
+ }
+#endif
+ if (fill)
+ kprintf("Filling vm_pages with pattern: 0x%x\n", fillval);
// -debug code remove
if (2 == vm_himemory_mode) {
// free low -> high so high is preferred
zone_change(vm_page_zone, Z_EXPAND, FALSE);
zone_change(vm_page_zone, Z_EXHAUST, TRUE);
zone_change(vm_page_zone, Z_FOREIGN, TRUE);
-
+ zone_change(vm_page_zone, Z_GZALLOC_EXEMPT, TRUE);
/*
* Adjust zone statistics to account for the real pages allocated
* in vm_page_create(). [Q: is this really what we want?]
vm_page_zone->count += vm_page_pages;
vm_page_zone->sum_count += vm_page_pages;
vm_page_zone->cur_size += vm_page_pages * vm_page_zone->elem_size;
-
- lck_mtx_init(&vm_page_alloc_lock, &vm_page_lck_grp_alloc, &vm_page_lck_attr);
}
/*
vm_object_t object,
vm_object_offset_t offset)
{
- vm_page_insert_internal(mem, object, offset, FALSE, TRUE);
+ vm_page_insert_internal(mem, object, offset, FALSE, TRUE, FALSE);
}
void
vm_object_t object,
vm_object_offset_t offset,
boolean_t queues_lock_held,
- boolean_t insert_in_hash)
+ boolean_t insert_in_hash,
+ boolean_t batch_pmap_op)
{
vm_page_bucket_t *bucket;
lck_spin_t *bucket_lock;
XPR(XPR_VM_PAGE,
"vm_page_insert, object 0x%X offset 0x%X page 0x%X\n",
object, offset, mem, 0,0);
-
+#if 0
+ /*
+ * we may not hold the page queue lock
+ * so this check isn't safe to make
+ */
VM_PAGE_CHECK(mem);
+#endif
+
+ assert(page_aligned(offset));
if (object == vm_submap_object) {
/* the vm_submap_object is only a placeholder for submaps */
#endif /* DEBUG */
if (insert_in_hash == TRUE) {
-#if DEBUG
+#if DEBUG || VM_PAGE_CHECK_BUCKETS
if (mem->tabled || mem->object != VM_OBJECT_NULL)
panic("vm_page_insert: page %p for (obj=%p,off=0x%llx) "
"already in (obj=%p,off=0x%llx)",
if (++bucket->cur_count > bucket->hi_count)
bucket->hi_count = bucket->cur_count;
#endif /* MACH_PAGE_HASH_STATS */
-
+ mem->hashed = TRUE;
lck_spin_unlock(bucket_lock);
}
- { unsigned int cache_attr;
+ {
+ unsigned int cache_attr;
cache_attr = object->wimg_bits & VM_WIMG_MASK;
if (cache_attr != VM_WIMG_USE_DEFAULT) {
- pmap_set_cache_attributes(mem->phys_page, cache_attr);
- object->set_cache_attr = TRUE;
+ PMAP_SET_CACHE_ATTR(mem, object, cache_attr, batch_pmap_op);
}
}
/*
* Now link into the object's list of backed pages.
*/
-
VM_PAGE_INSERT(mem, object);
mem->tabled = TRUE;
}
assert(object->resident_page_count >= object->wired_page_count);
+ if (object->internal) {
+ OSAddAtomic(1, &vm_page_internal_count);
+ } else {
+ OSAddAtomic(1, &vm_page_external_count);
+ }
+
+ /*
+ * It wouldn't make sense to insert a "reusable" page in
+ * an object (the page would have been marked "reusable" only
+ * at the time of a madvise(MADV_FREE_REUSABLE) if it was already
+ * in the object at that time).
+ * But a page could be inserted in a "all_reusable" object, if
+ * something faults it in (a vm_read() from another task or a
+ * "use-after-free" issue in user space, for example). It can
+ * also happen if we're relocating a page from that object to
+ * a different physical page during a physically-contiguous
+ * allocation.
+ */
assert(!mem->reusable);
+ if (mem->object->all_reusable) {
+ OSAddAtomic(+1, &vm_page_stats_reusable.reusable_count);
+ }
if (object->purgable == VM_PURGABLE_VOLATILE) {
if (VM_PAGE_WIRED(mem)) {
lck_spin_t *bucket_lock;
int hash_id;
+#if 0
+ /*
+ * we don't hold the page queue lock
+ * so this check isn't safe to make
+ */
VM_PAGE_CHECK(mem);
+#endif
vm_object_lock_assert_exclusive(object);
-#if DEBUG
+#if DEBUG || VM_PAGE_CHECK_BUCKETS
if (mem->tabled || mem->object != VM_OBJECT_NULL)
panic("vm_page_replace: page %p for (obj=%p,off=0x%llx) "
"already in (obj=%p,off=0x%llx)",
* Remove old page from hash list
*/
*mp = m->next;
+ m->hashed = FALSE;
found_m = m;
break;
* insert new page at head of hash list
*/
bucket->pages = mem;
+ mem->hashed = TRUE;
lck_spin_unlock(bucket_lock);
*/
vm_page_free_unlocked(found_m, FALSE);
}
- vm_page_insert_internal(mem, object, offset, FALSE, FALSE);
+ vm_page_insert_internal(mem, object, offset, FALSE, FALSE, FALSE);
}
/*
vm_object_lock_assert_exclusive(mem->object);
assert(mem->tabled);
assert(!mem->cleaning);
+ assert(!mem->laundry);
+#if 0
+ /*
+ * we don't hold the page queue lock
+ * so this check isn't safe to make
+ */
VM_PAGE_CHECK(mem);
-
+#endif
if (remove_from_hash == TRUE) {
/*
* Remove from the object_object/offset hash table
#if MACH_PAGE_HASH_STATS
bucket->cur_count--;
#endif /* MACH_PAGE_HASH_STATS */
-
+ mem->hashed = FALSE;
lck_spin_unlock(bucket_lock);
}
/*
assert(mem->object->resident_page_count > 0);
mem->object->resident_page_count--;
+ if (mem->object->internal) {
+ assert(vm_page_internal_count);
+ OSAddAtomic(-1, &vm_page_internal_count);
+ } else {
+ assert(vm_page_external_count);
+ OSAddAtomic(-1, &vm_page_external_count);
+ }
if (!mem->object->internal && (mem->object->objq.next || mem->object->objq.prev)) {
if (mem->object->resident_page_count == 0)
vm_object_cache_remove(mem->object);
lck_spin_lock(bucket_lock);
for (mem = bucket->pages; mem != VM_PAGE_NULL; mem = mem->next) {
+#if 0
+ /*
+ * we don't hold the page queue lock
+ * so this check isn't safe to make
+ */
VM_PAGE_CHECK(mem);
+#endif
if ((mem->object == object) && (mem->offset == offset))
break;
}
vm_object_offset_t new_offset,
boolean_t encrypted_ok)
{
+ boolean_t internal_to_external, external_to_internal;
+
assert(mem->object != new_object);
/*
*/
vm_page_lockspin_queues();
+ internal_to_external = FALSE;
+ external_to_internal = FALSE;
+
+ if (mem->local) {
+ /*
+ * it's much easier to get the vm_page_pageable_xxx accounting correct
+ * if we first move the page to the active queue... it's going to end
+ * up there anyway, and we don't do vm_page_rename's frequently enough
+ * for this to matter.
+ */
+ VM_PAGE_QUEUES_REMOVE(mem);
+ vm_page_activate(mem);
+ }
+ if (mem->active || mem->inactive || mem->speculative) {
+ if (mem->object->internal && !new_object->internal) {
+ internal_to_external = TRUE;
+ }
+ if (!mem->object->internal && new_object->internal) {
+ external_to_internal = TRUE;
+ }
+ }
+
vm_page_remove(mem, TRUE);
- vm_page_insert_internal(mem, new_object, new_offset, TRUE, TRUE);
+ vm_page_insert_internal(mem, new_object, new_offset, TRUE, TRUE, FALSE);
+
+ if (internal_to_external) {
+ vm_page_pageable_internal_count--;
+ vm_page_pageable_external_count++;
+ } else if (external_to_internal) {
+ vm_page_pageable_external_count--;
+ vm_page_pageable_internal_count++;
+ }
vm_page_unlock_queues();
}
vm_page_wait(THREAD_UNINT);
return;
}
+
+ /* Increment zone page count. We account for all memory managed by the zone in z->page_count */
+ OSAddAtomic64(1, &(vm_page_zone->page_count));
+
zcram(vm_page_zone, addr, PAGE_SIZE);
lck_mtx_unlock(&vm_page_alloc_lock);
* it doesn't really matter.
*/
if ((vm_page_free_count < vm_page_free_min) ||
- ((vm_page_free_count < vm_page_free_target) &&
- ((vm_page_inactive_count + vm_page_speculative_count) < vm_page_inactive_min)))
- thread_wakeup((event_t) &vm_page_free_wanted);
+ ((vm_page_free_count < vm_page_free_target) &&
+ ((vm_page_inactive_count + vm_page_speculative_count) < vm_page_inactive_min)))
+ thread_wakeup((event_t) &vm_page_free_wanted);
VM_CHECK_MEMORYSTATUS;
}
// dbgLog(mem->phys_page, vm_page_free_count, vm_page_wire_count, 5); /* (TEST/DEBUG) */
-
pmap_clear_noencrypt(mem->phys_page);
lck_mtx_lock_spin(&vm_page_queue_free_lock);
if (need_wakeup)
thread_wakeup((event_t)&vm_page_free_wanted);
- if (wait_result == THREAD_WAITING)
+ if (wait_result == THREAD_WAITING) {
+ VM_DEBUG_EVENT(vm_page_wait_block, VM_PAGE_WAIT_BLOCK, DBG_FUNC_START,
+ vm_page_free_wanted_privileged, vm_page_free_wanted, 0, 0);
wait_result = thread_block(THREAD_CONTINUE_NULL);
+ VM_DEBUG_EVENT(vm_page_wait_block, VM_PAGE_WAIT_BLOCK, DBG_FUNC_END, 0, 0, 0, 0);
+ }
return(wait_result == THREAD_AWAKENED);
} else {
VM_PAGE_CHECK(mem);
assert(!mem->free);
assert(!mem->cleaning);
- assert(!mem->pageout);
#if DEBUG
lck_mtx_assert(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
if (mem->free)
if (mem->object) {
vm_object_lock_assert_exclusive(mem->object);
}
-
if (mem->laundry) {
/*
* We may have to free a page while it's being laundered
* if we lost its pager (due to a forced unmount, for example).
- * We need to call vm_pageout_throttle_up() before removing
- * the page from its VM object, so that we can find out on
- * which pageout queue the page is on.
+ * We need to call vm_pageout_steal_laundry() before removing
+ * the page from its VM object, so that we can remove it
+ * from its pageout queue and adjust the laundry accounting
*/
- vm_pageout_throttle_up(mem);
+ vm_pageout_steal_laundry(mem, TRUE);
counter(++c_laundry_pages_freed);
}
+
VM_PAGE_QUEUES_REMOVE(mem); /* clears local/active/inactive/throttled/speculative */
if (VM_PAGE_WIRED(mem)) {
mem->phys_page = vm_page_fictitious_addr;
}
if ( !mem->fictitious) {
- if (mem->zero_fill == TRUE)
- VM_ZF_COUNT_DECR();
vm_page_init(mem, mem->phys_page, mem->lopage);
}
}
}
}
+
/*
* Free a list of pages. The list can be up to several hundred pages,
* as blocked up by vm_pageout_scan().
* The big win is not having to take the free list lock once
- * per page. We sort the incoming pages into n lists, one for
- * each color.
+ * per page.
*/
void
vm_page_free_list(
- vm_page_t mem,
+ vm_page_t freeq,
boolean_t prepare_object)
{
+ vm_page_t mem;
vm_page_t nxt;
- int pg_count = 0;
- int color;
- int inuse_list_head = -1;
+ vm_page_t local_freeq;
+ int pg_count;
- queue_head_t free_list[MAX_COLORS];
- int inuse[MAX_COLORS];
+ while (freeq) {
- for (color = 0; color < (signed) vm_colors; color++) {
- queue_init(&free_list[color]);
- }
-
- while (mem) {
- assert(!mem->inactive);
- assert(!mem->active);
- assert(!mem->throttled);
- assert(!mem->free);
- assert(!mem->speculative);
- assert(!VM_PAGE_WIRED(mem));
- assert(mem->pageq.prev == NULL);
+ pg_count = 0;
+ local_freeq = VM_PAGE_NULL;
+ mem = freeq;
+
+ /*
+ * break up the processing into smaller chunks so
+ * that we can 'pipeline' the pages onto the
+ * free list w/o introducing too much
+ * contention on the global free queue lock
+ */
+ while (mem && pg_count < 64) {
+
+ assert(!mem->inactive);
+ assert(!mem->active);
+ assert(!mem->throttled);
+ assert(!mem->free);
+ assert(!mem->speculative);
+ assert(!VM_PAGE_WIRED(mem));
+ assert(mem->pageq.prev == NULL);
- nxt = (vm_page_t)(mem->pageq.next);
+ nxt = (vm_page_t)(mem->pageq.next);
- if (prepare_object == TRUE)
- vm_page_free_prepare_object(mem, TRUE);
+ if (vm_page_free_verify && !mem->fictitious && !mem->private) {
+ assert(pmap_verify_free(mem->phys_page));
+ }
+ if (prepare_object == TRUE)
+ vm_page_free_prepare_object(mem, TRUE);
- if (vm_page_free_verify && !mem->fictitious && !mem->private) {
- assert(pmap_verify_free(mem->phys_page));
- }
+ if (!mem->fictitious) {
+ assert(mem->busy);
- if (!mem->fictitious) {
- assert(mem->busy);
- if ((mem->lopage == TRUE || vm_lopage_refill == TRUE) &&
- vm_lopage_free_count < vm_lopage_free_limit &&
- mem->phys_page < max_valid_low_ppnum) {
- mem->pageq.next = NULL;
- vm_page_release(mem);
- } else {
+ if ((mem->lopage == TRUE || vm_lopage_refill == TRUE) &&
+ vm_lopage_free_count < vm_lopage_free_limit &&
+ mem->phys_page < max_valid_low_ppnum) {
+ mem->pageq.next = NULL;
+ vm_page_release(mem);
+ } else {
+ /*
+ * IMPORTANT: we can't set the page "free" here
+ * because that would make the page eligible for
+ * a physically-contiguous allocation (see
+ * vm_page_find_contiguous()) right away (we don't
+ * hold the vm_page_queue_free lock). That would
+ * cause trouble because the page is not actually
+ * in the free queue yet...
+ */
+ mem->pageq.next = (queue_entry_t)local_freeq;
+ local_freeq = mem;
+ pg_count++;
- /*
- * IMPORTANT: we can't set the page "free" here
- * because that would make the page eligible for
- * a physically-contiguous allocation (see
- * vm_page_find_contiguous()) right away (we don't
- * hold the vm_page_queue_free lock). That would
- * cause trouble because the page is not actually
- * in the free queue yet...
- */
- color = mem->phys_page & vm_color_mask;
- if (queue_empty(&free_list[color])) {
- inuse[color] = inuse_list_head;
- inuse_list_head = color;
+ pmap_clear_noencrypt(mem->phys_page);
}
- queue_enter_first(&free_list[color],
- mem,
- vm_page_t,
- pageq);
- pg_count++;
-
- pmap_clear_noencrypt(mem->phys_page);
+ } else {
+ assert(mem->phys_page == vm_page_fictitious_addr ||
+ mem->phys_page == vm_page_guard_addr);
+ vm_page_release_fictitious(mem);
}
- } else {
- assert(mem->phys_page == vm_page_fictitious_addr ||
- mem->phys_page == vm_page_guard_addr);
- vm_page_release_fictitious(mem);
+ mem = nxt;
}
- mem = nxt;
- }
- if (pg_count) {
- unsigned int avail_free_count;
- unsigned int need_wakeup = 0;
- unsigned int need_priv_wakeup = 0;
+ freeq = mem;
+
+ if ( (mem = local_freeq) ) {
+ unsigned int avail_free_count;
+ unsigned int need_wakeup = 0;
+ unsigned int need_priv_wakeup = 0;
- lck_mtx_lock_spin(&vm_page_queue_free_lock);
+ lck_mtx_lock_spin(&vm_page_queue_free_lock);
- color = inuse_list_head;
-
- while( color != -1 ) {
- vm_page_t first, last;
- vm_page_t first_free;
+ while (mem) {
+ int color;
+
+ nxt = (vm_page_t)(mem->pageq.next);
- /*
- * Now that we hold the vm_page_queue_free lock,
- * it's safe to mark all pages in our local queue
- * as "free"...
- */
- queue_iterate(&free_list[color],
- mem,
- vm_page_t,
- pageq) {
assert(!mem->free);
assert(mem->busy);
mem->free = TRUE;
- }
- /*
- * ... and insert our local queue at the head of
- * the global free queue.
- */
- first = (vm_page_t) queue_first(&free_list[color]);
- last = (vm_page_t) queue_last(&free_list[color]);
- first_free = (vm_page_t) queue_first(&vm_page_queue_free[color]);
- if (queue_empty(&vm_page_queue_free[color])) {
- queue_last(&vm_page_queue_free[color]) =
- (queue_entry_t) last;
- } else {
- queue_prev(&first_free->pageq) =
- (queue_entry_t) last;
+ color = mem->phys_page & vm_color_mask;
+ queue_enter_first(&vm_page_queue_free[color],
+ mem,
+ vm_page_t,
+ pageq);
+ mem = nxt;
}
- queue_first(&vm_page_queue_free[color]) =
- (queue_entry_t) first;
- queue_prev(&first->pageq) =
- (queue_entry_t) &vm_page_queue_free[color];
- queue_next(&last->pageq) =
- (queue_entry_t) first_free;
-
- /* next color */
- color = inuse[color];
- }
-
- vm_page_free_count += pg_count;
- avail_free_count = vm_page_free_count;
-
- if (vm_page_free_wanted_privileged > 0 &&
- avail_free_count > 0) {
- if (avail_free_count < vm_page_free_wanted_privileged) {
- need_priv_wakeup = avail_free_count;
- vm_page_free_wanted_privileged -=
- avail_free_count;
- avail_free_count = 0;
- } else {
- need_priv_wakeup = vm_page_free_wanted_privileged;
- vm_page_free_wanted_privileged = 0;
- avail_free_count -=
- vm_page_free_wanted_privileged;
+ vm_page_free_count += pg_count;
+ avail_free_count = vm_page_free_count;
+
+ if (vm_page_free_wanted_privileged > 0 && avail_free_count > 0) {
+
+ if (avail_free_count < vm_page_free_wanted_privileged) {
+ need_priv_wakeup = avail_free_count;
+ vm_page_free_wanted_privileged -= avail_free_count;
+ avail_free_count = 0;
+ } else {
+ need_priv_wakeup = vm_page_free_wanted_privileged;
+ vm_page_free_wanted_privileged = 0;
+ avail_free_count -= vm_page_free_wanted_privileged;
+ }
}
- }
+ if (vm_page_free_wanted > 0 && avail_free_count > vm_page_free_reserved) {
+ unsigned int available_pages;
- if (vm_page_free_wanted > 0 &&
- avail_free_count > vm_page_free_reserved) {
- unsigned int available_pages;
+ available_pages = avail_free_count - vm_page_free_reserved;
- available_pages = (avail_free_count -
- vm_page_free_reserved);
+ if (available_pages >= vm_page_free_wanted) {
+ need_wakeup = vm_page_free_wanted;
+ vm_page_free_wanted = 0;
+ } else {
+ need_wakeup = available_pages;
+ vm_page_free_wanted -= available_pages;
+ }
+ }
+ lck_mtx_unlock(&vm_page_queue_free_lock);
- if (available_pages >= vm_page_free_wanted) {
- need_wakeup = vm_page_free_wanted;
- vm_page_free_wanted = 0;
- } else {
- need_wakeup = available_pages;
- vm_page_free_wanted -= available_pages;
+ if (need_priv_wakeup != 0) {
+ /*
+ * There shouldn't be that many VM-privileged threads,
+ * so let's wake them all up, even if we don't quite
+ * have enough pages to satisfy them all.
+ */
+ thread_wakeup((event_t)&vm_page_free_wanted_privileged);
+ }
+ if (need_wakeup != 0 && vm_page_free_wanted == 0) {
+ /*
+ * We don't expect to have any more waiters
+ * after this, so let's wake them all up at
+ * once.
+ */
+ thread_wakeup((event_t) &vm_page_free_count);
+ } else for (; need_wakeup != 0; need_wakeup--) {
+ /*
+ * Wake up one waiter per page we just released.
+ */
+ thread_wakeup_one((event_t) &vm_page_free_count);
}
- }
- lck_mtx_unlock(&vm_page_queue_free_lock);
- if (need_priv_wakeup != 0) {
- /*
- * There shouldn't be that many VM-privileged threads,
- * so let's wake them all up, even if we don't quite
- * have enough pages to satisfy them all.
- */
- thread_wakeup((event_t)&vm_page_free_wanted_privileged);
+ VM_CHECK_MEMORYSTATUS;
}
- if (need_wakeup != 0 && vm_page_free_wanted == 0) {
- /*
- * We don't expect to have any more waiters
- * after this, so let's wake them all up at
- * once.
- */
- thread_wakeup((event_t) &vm_page_free_count);
- } else for (; need_wakeup != 0; need_wakeup--) {
- /*
- * Wake up one waiter per page we just released.
- */
- thread_wakeup_one((event_t) &vm_page_free_count);
- }
-
- VM_CHECK_MEMORYSTATUS;
}
}
lck_mtx_assert(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
#endif
if ( !VM_PAGE_WIRED(mem)) {
+
+ if (mem->pageout_queue) {
+ mem->pageout = FALSE;
+ vm_pageout_throttle_up(mem);
+ }
VM_PAGE_QUEUES_REMOVE(mem);
if (mem->object) {
if (mem->gobbled)
vm_page_gobble_count--;
mem->gobbled = FALSE;
- if (mem->zero_fill == TRUE) {
- mem->zero_fill = FALSE;
- VM_ZF_COUNT_DECR();
- }
VM_CHECK_MEMORYSTATUS;
vm_page_gobble_count--;
m->gobbled = FALSE;
}
- if (m->private || m->fictitious || (VM_PAGE_WIRED(m)))
+ /*
+ * if this page is currently on the pageout queue, we can't do the
+ * VM_PAGE_QUEUES_REMOVE (which doesn't handle the pageout queue case)
+ * and we can't remove it manually since we would need the object lock
+ * (which is not required here) to decrement the activity_in_progress
+ * reference which is held on the object while the page is in the pageout queue...
+ * just let the normal laundry processing proceed
+ */
+ if (m->pageout_queue || m->private || m->fictitious || m->compressor || (VM_PAGE_WIRED(m)))
return;
if (!m->absent && clear_hw_reference == TRUE)
if (!m->inactive) {
VM_PAGE_QUEUES_REMOVE(m);
- assert(!m->laundry);
- assert(m->pageq.next == NULL && m->pageq.prev == NULL);
-
if (!VM_DYNAMIC_PAGING_ENABLED(memory_manager_default) &&
m->dirty && m->object->internal &&
(m->object->purgable == VM_PURGABLE_DENY ||
}
}
+/*
+ * vm_page_enqueue_cleaned
+ *
+ * Put the page on the cleaned queue, mark it cleaned, etc.
+ * Being on the cleaned queue (and having m->clean_queue set)
+ * does ** NOT ** guarantee that the page is clean!
+ *
+ * Call with the queues lock held.
+ */
+
+void vm_page_enqueue_cleaned(vm_page_t m)
+{
+ assert(m->phys_page != vm_page_guard_addr);
+#if DEBUG
+ lck_mtx_assert(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
+#endif
+ assert( !(m->absent && !m->unusual));
+
+ if (m->gobbled) {
+ assert( !VM_PAGE_WIRED(m));
+ if (!m->private && !m->fictitious)
+ vm_page_wire_count--;
+ vm_page_gobble_count--;
+ m->gobbled = FALSE;
+ }
+ /*
+ * if this page is currently on the pageout queue, we can't do the
+ * VM_PAGE_QUEUES_REMOVE (which doesn't handle the pageout queue case)
+ * and we can't remove it manually since we would need the object lock
+ * (which is not required here) to decrement the activity_in_progress
+ * reference which is held on the object while the page is in the pageout queue...
+ * just let the normal laundry processing proceed
+ */
+ if (m->clean_queue || m->pageout_queue || m->private || m->fictitious)
+ return;
+
+ VM_PAGE_QUEUES_REMOVE(m);
+
+ queue_enter(&vm_page_queue_cleaned, m, vm_page_t, pageq);
+ m->clean_queue = TRUE;
+ vm_page_cleaned_count++;
+
+ m->inactive = TRUE;
+ vm_page_inactive_count++;
+ if (m->object->internal) {
+ vm_page_pageable_internal_count++;
+ } else {
+ vm_page_pageable_external_count++;
+ }
+
+ vm_pageout_enqueued_cleaned++;
+}
+
/*
* vm_page_activate:
*
* The page queues must be locked.
*/
+#if CONFIG_JETSAM
+#if LATENCY_JETSAM
+extern struct vm_page jetsam_latency_page[NUM_OF_JETSAM_LATENCY_TOKENS];
+#endif /* LATENCY_JETSAM */
+#endif /* CONFIG_JETSAM */
+
void
vm_page_activate(
register vm_page_t m)
vm_page_gobble_count--;
m->gobbled = FALSE;
}
- if (m->private || m->fictitious)
+ /*
+ * if this page is currently on the pageout queue, we can't do the
+ * VM_PAGE_QUEUES_REMOVE (which doesn't handle the pageout queue case)
+ * and we can't remove it manually since we would need the object lock
+ * (which is not required here) to decrement the activity_in_progress
+ * reference which is held on the object while the page is in the pageout queue...
+ * just let the normal laundry processing proceed
+ */
+ if (m->pageout_queue || m->private || m->fictitious || m->compressor)
return;
#if DEBUG
DTRACE_VM2(pgrec, int, 1, (uint64_t *), NULL);
DTRACE_VM2(pgfrec, int, 1, (uint64_t *), NULL);
}
-
+
VM_PAGE_QUEUES_REMOVE(m);
if ( !VM_PAGE_WIRED(m)) {
- assert(!m->laundry);
- assert(m->pageq.next == NULL && m->pageq.prev == NULL);
+
if (!VM_DYNAMIC_PAGING_ENABLED(memory_manager_default) &&
m->dirty && m->object->internal &&
(m->object->purgable == VM_PURGABLE_DENY ||
queue_enter(&vm_page_queue_active, m, vm_page_t, pageq);
m->active = TRUE;
vm_page_active_count++;
+ if (m->object->internal) {
+ vm_page_pageable_internal_count++;
+ } else {
+ vm_page_pageable_external_count++;
+ }
+#if LATENCY_JETSAM
+ if (jlp_init) {
+ uint64_t now = mach_absolute_time();
+ uint64_t delta = now - jlp_time;
+ clock_sec_t jl_secs = 0;
+ clock_usec_t jl_usecs = 0;
+ vm_page_t jlp;
+
+ absolutetime_to_microtime(delta, &jl_secs, &jl_usecs);
+
+ jl_usecs += jl_secs * USEC_PER_SEC;
+ if (jl_usecs >= JETSAM_LATENCY_TOKEN_AGE) {
+
+ jlp = &jetsam_latency_page[jlp_current];
+ if (jlp->active) {
+ queue_remove(&vm_page_queue_active, jlp, vm_page_t, pageq);
+ }
+ queue_enter(&vm_page_queue_active, jlp, vm_page_t, pageq);
+
+ jlp->active = TRUE;
+
+ jlp->offset = now;
+ jlp_time = jlp->offset;
+
+ if(++jlp_current == NUM_OF_JETSAM_LATENCY_TOKENS) {
+ jlp_current = 0;
+ }
+
+ }
+ }
+#endif /* LATENCY_JETSAM */
}
m->reference = TRUE;
m->no_cache = FALSE;
#endif
assert( !(m->absent && !m->unusual));
- if (m->private || m->fictitious)
+ /*
+ * if this page is currently on the pageout queue, we can't do the
+ * VM_PAGE_QUEUES_REMOVE (which doesn't handle the pageout queue case)
+ * and we can't remove it manually since we would need the object lock
+ * (which is not required here) to decrement the activity_in_progress
+ * reference which is held on the object while the page is in the pageout queue...
+ * just let the normal laundry processing proceed
+ */
+ if (m->pageout_queue || m->private || m->fictitious || m->compressor)
return;
VM_PAGE_QUEUES_REMOVE(m);
enqueue_tail(&aq->age_q, &m->pageq);
m->speculative = TRUE;
vm_page_speculative_count++;
+ if (m->object->internal) {
+ vm_page_pageable_internal_count++;
+ } else {
+ vm_page_pageable_external_count++;
+ }
if (new == TRUE) {
vm_object_lock_assert_exclusive(m->object);
#if DEBUG
lck_mtx_assert(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
#endif
- if (m->active || m->reference)
- return;
-
- if (m->private || (VM_PAGE_WIRED(m)))
+ /*
+ * if this page is currently on the pageout queue, we can't do the
+ * VM_PAGE_QUEUES_REMOVE (which doesn't handle the pageout queue case)
+ * and we can't remove it manually since we would need the object lock
+ * (which is not required here) to decrement the activity_in_progress
+ * reference which is held on the object while the page is in the pageout queue...
+ * just let the normal laundry processing proceed
+ */
+ if (m->pageout_queue || m->private || m->compressor || (VM_PAGE_WIRED(m)))
return;
m->no_cache = FALSE;
VM_PAGE_QUEUES_REMOVE(m);
- assert(!m->laundry);
- assert(m->pageq.next == NULL && m->pageq.prev == NULL);
-
VM_PAGE_ENQUEUE_INACTIVE(m, FALSE);
}
vm_page_t first_active;
vm_page_t m;
int extra_active_count;
+ int extra_internal_count, extra_external_count;
if (!VM_DYNAMIC_PAGING_ENABLED(memory_manager_default))
return;
extra_active_count = 0;
+ extra_internal_count = 0;
+ extra_external_count = 0;
vm_page_lock_queues();
if (! queue_empty(&vm_page_queue_throttled)) {
/*
assert(!VM_PAGE_WIRED(m));
extra_active_count++;
+ if (m->object->internal) {
+ extra_internal_count++;
+ } else {
+ extra_external_count++;
+ }
m->throttled = FALSE;
m->active = TRUE;
* Adjust the global page counts.
*/
vm_page_active_count += extra_active_count;
+ vm_page_pageable_internal_count += extra_internal_count;
+ vm_page_pageable_external_count += extra_external_count;
vm_page_throttled_count = 0;
}
assert(vm_page_throttled_count == 0);
* Adjust the global page counts.
*/
vm_page_active_count += lq->vpl_count;
+ vm_page_pageable_internal_count += lq->vpl_internal_count;
+ vm_page_pageable_external_count += lq->vpl_external_count;
lq->vpl_count = 0;
+ lq->vpl_internal_count = 0;
+ lq->vpl_external_count = 0;
}
assert(queue_empty(&lq->vpl_queue));
*
* Zero-fill a part of the page.
*/
+#define PMAP_ZERO_PART_PAGE_IMPLEMENTED
void
vm_page_part_zero_fill(
vm_page_t m,
vm_offset_t m_pa,
vm_size_t len)
{
- vm_page_t tmp;
+#if 0
+ /*
+ * we don't hold the page queue lock
+ * so this check isn't safe to make
+ */
VM_PAGE_CHECK(m);
+#endif
+
#ifdef PMAP_ZERO_PART_PAGE_IMPLEMENTED
pmap_zero_part_page(m->phys_page, m_pa, len);
#else
+ vm_page_t tmp;
while (1) {
tmp = vm_page_grab();
if (tmp == VM_PAGE_NULL) {
XPR(XPR_VM_PAGE,
"vm_page_zero_fill, object 0x%X offset 0x%X page 0x%X\n",
m->object, m->offset, m, 0,0);
-
+#if 0
+ /*
+ * we don't hold the page queue lock
+ * so this check isn't safe to make
+ */
VM_PAGE_CHECK(m);
+#endif
// dbgTrace(0xAEAEAEAE, m->phys_page, 0); /* (BRINGUP) */
pmap_zero_page(m->phys_page);
vm_offset_t dst_pa,
vm_size_t len)
{
+#if 0
+ /*
+ * we don't hold the page queue lock
+ * so this check isn't safe to make
+ */
VM_PAGE_CHECK(src_m);
VM_PAGE_CHECK(dst_m);
-
+#endif
pmap_copy_part_page(src_m->phys_page, src_pa,
dst_m->phys_page, dst_pa, len);
}
src_m->object, src_m->offset,
dest_m->object, dest_m->offset,
0);
-
+#if 0
+ /*
+ * we don't hold the page queue lock
+ * so this check isn't safe to make
+ */
VM_PAGE_CHECK(src_m);
VM_PAGE_CHECK(dest_m);
+#endif
+ vm_object_lock_assert_held(src_m->object);
/*
* ENCRYPTED SWAP:
src_m->busy = TRUE;
(void) vm_page_slide(src_m, 0);
assert(src_m->busy);
- if(!was_busy) {
+ if (!was_busy) {
PAGE_WAKEUP_DONE(src_m);
}
}
(p->unusual ? "" : "!"),
(p->encrypted ? "" : "!"),
(p->encrypted_cleaning ? "" : "!"));
- printf(" %slist_req_pending, %sdump_cleaning, %scs_validated, %scs_tainted, %sno_cache\n",
- (p->list_req_pending ? "" : "!"),
- (p->dump_cleaning ? "" : "!"),
+ printf(" %scs_validated, %scs_tainted, %sno_cache\n",
(p->cs_validated ? "" : "!"),
(p->cs_tainted ? "" : "!"),
(p->no_cache ? "" : "!"));
- printf(" %szero_fill\n",
- (p->zero_fill ? "" : "!"));
printf("phys_page=0x%x\n", p->phys_page);
}
vm_page_t mem,
int val)
{
+#if DEBUG
+ lck_mtx_assert(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
+#endif
if (mem->free + mem->active + mem->inactive + mem->speculative +
mem->throttled + mem->pageout_queue > (val)) {
_vm_page_print(mem);
assert(!mem->inactive);
assert(!mem->speculative);
assert(!mem->throttled);
+ assert(!mem->pageout_queue);
}
}
#endif /* MACH_ASSERT */
int yielded = 0;
int dumped_run = 0;
int stolen_pages = 0;
+ int compressed_pages = 0;
#endif
if (contig_pages == 0)
#if DEBUG
clock_get_system_microtime(&tv_start_sec, &tv_start_usec);
#endif
+ PAGE_REPLACEMENT_ALLOWED(TRUE);
+
vm_page_lock_queues();
lck_mtx_lock(&vm_page_queue_free_lock);
RESET_STATE_OF_RUN();
} else if (VM_PAGE_WIRED(m) || m->gobbled ||
- m->encrypted || m->encrypted_cleaning || m->cs_validated || m->cs_tainted ||
- m->error || m->absent || m->pageout_queue || m->laundry || m->wanted || m->precious ||
- m->cleaning || m->overwriting || m->restart || m->unusual || m->list_req_pending ||
- m->pageout) {
+ m->encrypted_cleaning ||
+ m->pageout_queue || m->laundry || m->wanted ||
+ m->cleaning || m->overwriting || m->pageout) {
/*
* page is in a transient state
* or a state we don't want to deal
*/
RESET_STATE_OF_RUN();
- } else if (!m->free && !m->active && !m->inactive && !m->speculative && !m->throttled) {
+ } else if (!m->free && !m->active && !m->inactive && !m->speculative && !m->throttled && !m->compressor) {
/*
* page needs to be on one of our queues
+ * or it needs to belong to the compressor pool
* in order for it to be stable behind the
* locks we hold at this point...
* if not, don't consider it which
* into a substitute page.
*/
#if VM_PAGE_FIND_CONTIGUOUS_CAN_STEAL
- if (m->pmapped || m->dirty) {
+ if (m->pmapped || m->dirty || m->precious) {
substitute_needed++;
}
#else
}
did_consider:
if (considered > MAX_CONSIDERED_BEFORE_YIELD && npages <= 1) {
-
+
+ PAGE_REPLACEMENT_ALLOWED(FALSE);
+
lck_mtx_unlock(&vm_page_queue_free_lock);
vm_page_unlock_queues();
mutex_pause(0);
+ PAGE_REPLACEMENT_ALLOWED(TRUE);
+
vm_page_lock_queues();
lck_mtx_lock(&vm_page_queue_free_lock);
m1 = &vm_pages[cur_idx--];
assert(!m1->free);
+
if (m1->object == VM_OBJECT_NULL) {
/*
* page has already been removed from
assert(!m1->laundry);
} else {
vm_object_t object;
+ int refmod;
+ boolean_t disconnected, reusable;
if (abort_run == TRUE)
continue;
}
if (locked_object == VM_OBJECT_NULL ||
(VM_PAGE_WIRED(m1) || m1->gobbled ||
- m1->encrypted || m1->encrypted_cleaning || m1->cs_validated || m1->cs_tainted ||
- m1->error || m1->absent || m1->pageout_queue || m1->laundry || m1->wanted || m1->precious ||
- m1->cleaning || m1->overwriting || m1->restart || m1->unusual || m1->list_req_pending || m1->busy)) {
+ m1->encrypted_cleaning ||
+ m1->pageout_queue || m1->laundry || m1->wanted ||
+ m1->cleaning || m1->overwriting || m1->pageout || m1->busy)) {
if (locked_object) {
vm_object_unlock(locked_object);
abort_run = TRUE;
continue;
}
- if (m1->pmapped || m1->dirty) {
- int refmod;
- vm_object_offset_t offset;
-
- m2 = vm_page_grab();
+
+ disconnected = FALSE;
+ reusable = FALSE;
+
+ if ((m1->reusable ||
+ m1->object->all_reusable) &&
+ m1->inactive &&
+ !m1->dirty &&
+ !m1->reference) {
+ /* reusable page... */
+ refmod = pmap_disconnect(m1->phys_page);
+ disconnected = TRUE;
+ if (refmod == 0) {
+ /*
+ * ... not reused: can steal
+ * without relocating contents.
+ */
+ reusable = TRUE;
+ }
+ }
+
+ if ((m1->pmapped &&
+ ! reusable) ||
+ m1->dirty ||
+ m1->precious) {
+ vm_object_offset_t offset;
+
+ m2 = vm_page_grab();
if (m2 == VM_PAGE_NULL) {
if (locked_object) {
abort_run = TRUE;
continue;
}
- if (m1->pmapped)
- refmod = pmap_disconnect(m1->phys_page);
- else
- refmod = 0;
- vm_page_copy(m1, m2);
-
- m2->reference = m1->reference;
- m2->dirty = m1->dirty;
+ if (! disconnected) {
+ if (m1->pmapped)
+ refmod = pmap_disconnect(m1->phys_page);
+ else
+ refmod = 0;
+ }
+
+ /* copy the page's contents */
+ pmap_copy_page(m1->phys_page, m2->phys_page);
+ /* copy the page's state */
+ assert(!VM_PAGE_WIRED(m1));
+ assert(!m1->free);
+ assert(!m1->pageout_queue);
+ assert(!m1->laundry);
+ m2->reference = m1->reference;
+ assert(!m1->gobbled);
+ assert(!m1->private);
+ m2->no_cache = m1->no_cache;
+ m2->xpmapped = m1->xpmapped;
+ assert(!m1->busy);
+ assert(!m1->wanted);
+ assert(!m1->fictitious);
+ m2->pmapped = m1->pmapped; /* should flush cache ? */
+ m2->wpmapped = m1->wpmapped;
+ assert(!m1->pageout);
+ m2->absent = m1->absent;
+ m2->error = m1->error;
+ m2->dirty = m1->dirty;
+ assert(!m1->cleaning);
+ m2->precious = m1->precious;
+ m2->clustered = m1->clustered;
+ assert(!m1->overwriting);
+ m2->restart = m1->restart;
+ m2->unusual = m1->unusual;
+ m2->encrypted = m1->encrypted;
+ assert(!m1->encrypted_cleaning);
+ m2->cs_validated = m1->cs_validated;
+ m2->cs_tainted = m1->cs_tainted;
+
+ /*
+ * If m1 had really been reusable,
+ * we would have just stolen it, so
+ * let's not propagate it's "reusable"
+ * bit and assert that m2 is not
+ * marked as "reusable".
+ */
+ // m2->reusable = m1->reusable;
+ assert(!m2->reusable);
+
+ assert(!m1->lopage);
+ m2->slid = m1->slid;
+ m2->was_dirty = m1->was_dirty;
+ m2->compressor = m1->compressor;
+
+ /*
+ * page may need to be flushed if
+ * it is marshalled into a UPL
+ * that is going to be used by a device
+ * that doesn't support coherency
+ */
+ m2->written_by_kernel = TRUE;
+
+ /*
+ * make sure we clear the ref/mod state
+ * from the pmap layer... else we risk
+ * inheriting state from the last time
+ * this page was used...
+ */
+ pmap_clear_refmod(m2->phys_page, VM_MEM_MODIFIED | VM_MEM_REFERENCED);
if (refmod & VM_MEM_REFERENCED)
m2->reference = TRUE;
- if (refmod & VM_MEM_MODIFIED)
- m2->dirty = TRUE;
+ if (refmod & VM_MEM_MODIFIED) {
+ SET_PAGE_DIRTY(m2, TRUE);
+ }
offset = m1->offset;
/*
vm_page_free_prepare(m1);
/*
- * make sure we clear the ref/mod state
- * from the pmap layer... else we risk
- * inheriting state from the last time
- * this page was used...
+ * now put the substitute page
+ * on the object
*/
- pmap_clear_refmod(m2->phys_page, VM_MEM_MODIFIED | VM_MEM_REFERENCED);
- /*
- * now put the substitute page on the object
- */
- vm_page_insert_internal(m2, locked_object, offset, TRUE, TRUE);
+ vm_page_insert_internal(m2, locked_object, offset, TRUE, TRUE, FALSE);
- if (m2->reference)
- vm_page_activate(m2);
- else
- vm_page_deactivate(m2);
+ if (m2->compressor) {
+ m2->pmapped = TRUE;
+ m2->wpmapped = TRUE;
+ PMAP_ENTER(kernel_pmap, m2->offset, m2,
+ VM_PROT_READ | VM_PROT_WRITE, VM_PROT_NONE, 0, TRUE);
+#if MACH_ASSERT
+ compressed_pages++;
+#endif
+ } else {
+ if (m2->reference)
+ vm_page_activate(m2);
+ else
+ vm_page_deactivate(m2);
+ }
PAGE_WAKEUP_DONE(m2);
} else {
+ assert(!m1->compressor);
+
/*
* completely cleans up the state
* of the page so that it is ready
assert(vm_page_verify_contiguous(m, npages));
}
done_scanning:
+ PAGE_REPLACEMENT_ALLOWED(FALSE);
+
vm_page_unlock_queues();
#if DEBUG
tv_end_sec -= 1000000;
}
if (vm_page_find_contig_debug) {
- printf("%s(num=%d,low=%d): found %d pages at 0x%llx in %ld.%06ds... started at %d... scanned %d pages... yielded %d times... dumped run %d times... stole %d pages\n",
- __func__, contig_pages, max_pnum, npages, (vm_object_offset_t)start_pnum << PAGE_SHIFT,
- (long)tv_end_sec, tv_end_usec, orig_last_idx,
- scanned, yielded, dumped_run, stolen_pages);
+ printf("%s(num=%d,low=%d): found %d pages at 0x%llx in %ld.%06ds... started at %d... scanned %d pages... yielded %d times... dumped run %d times... stole %d pages... stole %d compressed pages\n",
+ __func__, contig_pages, max_pnum, npages, (vm_object_offset_t)start_pnum << PAGE_SHIFT,
+ (long)tv_end_sec, tv_end_usec, orig_last_idx,
+ scanned, yielded, dumped_run, stolen_pages, compressed_pages);
}
#endif
* determine need for wakeups
*/
if ((vm_page_free_count < vm_page_free_min) ||
- ((vm_page_free_count < vm_page_free_target) &&
- ((vm_page_inactive_count + vm_page_speculative_count) < vm_page_inactive_min)))
- thread_wakeup((event_t) &vm_page_free_wanted);
+ ((vm_page_free_count < vm_page_free_target) &&
+ ((vm_page_inactive_count + vm_page_speculative_count) < vm_page_inactive_min)))
+ thread_wakeup((event_t) &vm_page_free_wanted);
VM_CHECK_MEMORYSTATUS;
int j;
vm_page_t m;
vm_page_t local_free_q = VM_PAGE_NULL;
- boolean_t dropped_obj_lock = FALSE;
/*
* pageout_scan takes the vm_page_lock_queues first
mutex_pause(j);
vm_page_lockspin_queues();
}
- dropped_obj_lock = TRUE;
}
for (j = 0; j < dw_count; j++, dwp++) {
m = dwp->dw_m;
- if (dwp->dw_mask & DW_set_list_req_pending) {
- m->list_req_pending = TRUE;
-
- if (dropped_obj_lock == TRUE) {
- /*
- * need to make sure anyone that might have
- * blocked on busy == TRUE when we dropped
- * the object lock gets a chance to re-evaluate
- * its state since we have several places
- * where we avoid potential deadlocks with
- * the fileysystem by stealing pages with
- * list_req_pending == TRUE and busy == TRUE
- */
- dwp->dw_mask |= DW_PAGE_WAKEUP;
- }
- }
if (dwp->dw_mask & DW_vm_pageout_throttle_up)
vm_pageout_throttle_up(m);
}
else if (dwp->dw_mask & DW_vm_page_speculate)
vm_page_speculate(m, TRUE);
+ else if (dwp->dw_mask & DW_enqueue_cleaned) {
+ /*
+ * if we didn't hold the object lock and did this,
+ * we might disconnect the page, then someone might
+ * soft fault it back in, then we would put it on the
+ * cleaned queue, and so we would have a referenced (maybe even dirty)
+ * page on that queue, which we don't want
+ */
+ int refmod_state = pmap_disconnect(m->phys_page);
+
+ if ((refmod_state & VM_MEM_REFERENCED)) {
+ /*
+ * this page has been touched since it got cleaned; let's activate it
+ * if it hasn't already been
+ */
+ vm_pageout_enqueued_cleaned++;
+ vm_pageout_cleaned_reactivated++;
+ vm_pageout_cleaned_commit_reactivated++;
+
+ if (m->active == FALSE)
+ vm_page_activate(m);
+ } else {
+ m->reference = FALSE;
+ vm_page_enqueue_cleaned(m);
+ }
+ }
else if (dwp->dw_mask & DW_vm_page_lru)
vm_page_lru(m);
- else if (dwp->dw_mask & DW_VM_PAGE_QUEUES_REMOVE)
- VM_PAGE_QUEUES_REMOVE(m);
-
+ else if (dwp->dw_mask & DW_VM_PAGE_QUEUES_REMOVE) {
+ if ( !m->pageout_queue)
+ VM_PAGE_QUEUES_REMOVE(m);
+ }
if (dwp->dw_mask & DW_set_reference)
m->reference = TRUE;
else if (dwp->dw_mask & DW_clear_reference)
m->reference = FALSE;
if (dwp->dw_mask & DW_move_page) {
- VM_PAGE_QUEUES_REMOVE(m);
+ if ( !m->pageout_queue) {
+ VM_PAGE_QUEUES_REMOVE(m);
- assert(!m->laundry);
- assert(m->object != kernel_object);
- assert(m->pageq.next == NULL &&
- m->pageq.prev == NULL);
+ assert(m->object != kernel_object);
- VM_PAGE_ENQUEUE_INACTIVE(m, FALSE);
+ VM_PAGE_ENQUEUE_INACTIVE(m, FALSE);
+ }
}
if (dwp->dw_mask & DW_clear_busy)
m->busy = FALSE;
}
-
-
-
-void vm_check_memorystatus()
-{
-#if CONFIG_EMBEDDED
- static boolean_t in_critical = FALSE;
- static unsigned int last_memorystatus = 0;
- unsigned int pages_avail;
-
- if (!kern_memorystatus_delta) {
- return;
- }
-
- pages_avail = (vm_page_active_count +
- vm_page_inactive_count +
- vm_page_speculative_count +
- vm_page_free_count +
- (VM_DYNAMIC_PAGING_ENABLED(memory_manager_default) ? 0 : vm_page_purgeable_count));
- if ( (!in_critical && (pages_avail < kern_memorystatus_delta)) ||
- (pages_avail >= (last_memorystatus + kern_memorystatus_delta)) ||
- (last_memorystatus >= (pages_avail + kern_memorystatus_delta)) ) {
- kern_memorystatus_level = pages_avail * 100 / atop_64(max_mem);
- last_memorystatus = pages_avail;
-
- thread_wakeup((event_t)&kern_memorystatus_wakeup);
-
- in_critical = (pages_avail < kern_memorystatus_delta) ? TRUE : FALSE;
- }
-#endif
-}
-
kern_return_t
vm_page_alloc_list(
int page_count,
extern boolean_t (* volatile consider_buffer_cache_collect)(int);
static int hibernate_drain_pageout_queue(struct vm_pageout_queue *);
-static int hibernate_flush_dirty_pages(void);
+static int hibernate_flush_dirty_pages(int);
static int hibernate_flush_queue(queue_head_t *, int);
-static void hibernate_dirty_page(vm_page_t);
void hibernate_flush_wait(void);
void hibernate_mark_in_progress(void);
void hibernate_clear_in_progress(void);
+void hibernate_free_range(int, int);
+void hibernate_hash_insert_page(vm_page_t);
+uint32_t hibernate_mark_as_unneeded(addr64_t, addr64_t, hibernate_page_list_t *, hibernate_page_list_t *);
+void hibernate_rebuild_vm_structs(void);
+uint32_t hibernate_teardown_vm_structs(hibernate_page_list_t *, hibernate_page_list_t *);
+ppnum_t hibernate_lookup_paddr(unsigned int);
struct hibernate_statistics {
int hibernate_considered;
int hibernate_skipped_cleaning;
int hibernate_skipped_transient;
int hibernate_skipped_precious;
+ int hibernate_skipped_external;
int hibernate_queue_nolock;
int hibernate_queue_paused;
int hibernate_throttled;
int cd_found_cleaning;
int cd_found_laundry;
int cd_found_dirty;
+ int cd_found_xpmapped;
int cd_local_free;
int cd_total_free;
int cd_vm_page_wire_count;
+ int cd_vm_struct_pages_unneeded;
int cd_pages;
int cd_discarded;
int cd_count_wire;
vm_page_lock_queues();
- while (q->pgo_laundry) {
+ while ( !queue_empty(&q->pgo_pending) ) {
q->pgo_draining = TRUE;
wait_result = thread_block(THREAD_CONTINUE_NULL);
- if (wait_result == THREAD_TIMED_OUT) {
+ if (wait_result == THREAD_TIMED_OUT && !queue_empty(&q->pgo_pending)) {
hibernate_stats.hibernate_drain_timeout++;
+
+ if (q == &vm_pageout_queue_external)
+ return (0);
+
return (1);
}
vm_page_lock_queues();
return (0);
}
-static void
-hibernate_dirty_page(vm_page_t m)
-{
- vm_object_t object = m->object;
- struct vm_pageout_queue *q;
-
-#if DEBUG
- lck_mtx_assert(&vm_page_queue_lock, LCK_MTX_ASSERT_OWNED);
-#endif
- vm_object_lock_assert_exclusive(object);
-
- /*
- * protect the object from collapse -
- * locking in the object's paging_offset.
- */
- vm_object_paging_begin(object);
-
- m->list_req_pending = TRUE;
- m->cleaning = TRUE;
- m->busy = TRUE;
- if (object->internal == TRUE)
- q = &vm_pageout_queue_internal;
- else
- q = &vm_pageout_queue_external;
-
- /*
- * pgo_laundry count is tied to the laundry bit
- */
- m->laundry = TRUE;
- q->pgo_laundry++;
-
- m->pageout_queue = TRUE;
- queue_enter(&q->pgo_pending, m, vm_page_t, pageq);
-
- if (q->pgo_idle == TRUE) {
- q->pgo_idle = FALSE;
- thread_wakeup((event_t) &q->pgo_pending);
- }
-}
+boolean_t hibernate_skip_external = FALSE;
static int
hibernate_flush_queue(queue_head_t *q, int qcount)
vm_pageout_scan_wants_object = VM_OBJECT_NULL;
}
}
- if ( !m_object->alive || m->encrypted_cleaning || m->cleaning || m->busy || m->absent || m->error) {
+ if ( !m_object->alive || m->encrypted_cleaning || m->cleaning || m->laundry || m->busy || m->absent || m->error) {
/*
* page is not to be cleaned
* put it back on the head of its queue
goto reenter_pg_on_q;
}
- if ( !m_object->pager_initialized && m_object->pager_created)
- goto reenter_pg_on_q;
-
if (m_object->copy == VM_OBJECT_NULL) {
if (m_object->purgable == VM_PURGABLE_VOLATILE || m_object->purgable == VM_PURGABLE_EMPTY) {
/*
if ( !m->dirty && m->pmapped) {
refmod_state = pmap_get_refmod(m->phys_page);
- if ((refmod_state & VM_MEM_MODIFIED))
- m->dirty = TRUE;
+ if ((refmod_state & VM_MEM_MODIFIED)) {
+ SET_PAGE_DIRTY(m, FALSE);
+ }
} else
refmod_state = 0;
goto reenter_pg_on_q;
}
+
+ if (hibernate_skip_external == TRUE && !m_object->internal) {
+
+ hibernate_stats.hibernate_skipped_external++;
+
+ goto reenter_pg_on_q;
+ }
tq = NULL;
if (m_object->internal) {
}
vm_pageout_scan_wants_object = VM_OBJECT_NULL;
- tq->pgo_throttled = TRUE;
-
while (retval == 0) {
+ tq->pgo_throttled = TRUE;
+
assert_wait_timeout((event_t) &tq->pgo_laundry, THREAD_INTERRUPTIBLE, 1000, 1000*NSEC_PER_USEC);
- vm_page_unlock_queues();
+ vm_page_unlock_queues();
- wait_result = thread_block(THREAD_CONTINUE_NULL);
+ wait_result = thread_block(THREAD_CONTINUE_NULL);
vm_page_lock_queues();
+ if (wait_result != THREAD_TIMED_OUT)
+ break;
+ if (!VM_PAGE_Q_THROTTLED(tq))
+ break;
+
if (hibernate_should_abort())
retval = 1;
- if (wait_result != THREAD_TIMED_OUT)
- break;
-
if (--wait_count == 0) {
- hibernate_stats.hibernate_throttle_timeout++;
- retval = 1;
- }
+
+ hibernate_stats.hibernate_throttle_timeout++;
+
+ if (tq == eq) {
+ hibernate_skip_external = TRUE;
+ break;
+ }
+ retval = 1;
+ }
}
if (retval)
break;
continue;
}
+ /*
+ * we've already factored out pages in the laundry which
+ * means this page can't be on the pageout queue so it's
+ * safe to do the VM_PAGE_QUEUES_REMOVE
+ */
+ assert(!m->pageout_queue);
+
VM_PAGE_QUEUES_REMOVE(m);
- hibernate_dirty_page(m);
+ if (COMPRESSED_PAGER_IS_ACTIVE)
+ pmap_disconnect(m->phys_page);
+
+ vm_pageout_cluster(m, FALSE);
hibernate_stats.hibernate_found_dirty++;
vm_object_unlock(l_object);
l_object = NULL;
}
- vm_pageout_scan_wants_object = VM_OBJECT_NULL;
+ vm_pageout_scan_wants_object = VM_OBJECT_NULL;
vm_page_unlock_queues();
static int
-hibernate_flush_dirty_pages()
+hibernate_flush_dirty_pages(int pass)
{
struct vm_speculative_age_q *aq;
uint32_t i;
return (1);
}
}
- if (hibernate_flush_queue(&vm_page_queue_active, vm_page_active_count))
+ if (hibernate_flush_queue(&vm_page_queue_inactive, vm_page_inactive_count - vm_page_anonymous_count - vm_page_cleaned_count))
return (1);
- if (hibernate_flush_queue(&vm_page_queue_inactive, vm_page_inactive_count - vm_zf_queue_count))
+ if (hibernate_flush_queue(&vm_page_queue_anonymous, vm_page_anonymous_count))
return (1);
- if (hibernate_flush_queue(&vm_page_queue_zf, vm_zf_queue_count))
+ if (hibernate_flush_queue(&vm_page_queue_cleaned, vm_page_cleaned_count))
return (1);
-
if (hibernate_drain_pageout_queue(&vm_pageout_queue_internal))
return (1);
- return (hibernate_drain_pageout_queue(&vm_pageout_queue_external));
-}
+ if (COMPRESSED_PAGER_IS_ACTIVE && pass == 1)
+ vm_compressor_record_warmup_start();
+
+ if (hibernate_flush_queue(&vm_page_queue_active, vm_page_active_count)) {
+ if (COMPRESSED_PAGER_IS_ACTIVE && pass == 1)
+ vm_compressor_record_warmup_end();
+ return (1);
+ }
+ if (hibernate_drain_pageout_queue(&vm_pageout_queue_internal)) {
+ if (COMPRESSED_PAGER_IS_ACTIVE && pass == 1)
+ vm_compressor_record_warmup_end();
+ return (1);
+ }
+ if (COMPRESSED_PAGER_IS_ACTIVE && pass == 1)
+ vm_compressor_record_warmup_end();
+
+ if (hibernate_skip_external == FALSE && hibernate_drain_pageout_queue(&vm_pageout_queue_external))
+ return (1);
+
+ return (0);
+}
-extern void IOSleep(unsigned int);
-extern int sync_internal(void);
int
hibernate_flush_memory()
KERNEL_DEBUG_CONSTANT(IOKDBG_CODE(DBG_HIBERNATE, 3) | DBG_FUNC_START, vm_page_free_count, 0, 0, 0, 0);
- IOSleep(2 * 1000);
+ hibernate_cleaning_in_progress = TRUE;
+ hibernate_skip_external = FALSE;
+
+ if ((retval = hibernate_flush_dirty_pages(1)) == 0) {
+
+ if (COMPRESSED_PAGER_IS_ACTIVE) {
- KERNEL_DEBUG_CONSTANT(IOKDBG_CODE(DBG_HIBERNATE, 3) | DBG_FUNC_NONE, vm_page_free_count, 0, 0, 0, 0);
+ if ((retval = hibernate_flush_dirty_pages(2)) == 0) {
- if ((retval = hibernate_flush_dirty_pages()) == 0) {
- if (consider_buffer_cache_collect != NULL) {
+ KERNEL_DEBUG_CONSTANT(IOKDBG_CODE(DBG_HIBERNATE, 10) | DBG_FUNC_START, VM_PAGE_COMPRESSOR_COUNT, 0, 0, 0, 0);
+
+ vm_compressor_flush();
+
+ KERNEL_DEBUG_CONSTANT(IOKDBG_CODE(DBG_HIBERNATE, 10) | DBG_FUNC_END, VM_PAGE_COMPRESSOR_COUNT, 0, 0, 0, 0);
+ }
+ }
+ if (retval == 0 && consider_buffer_cache_collect != NULL) {
+ unsigned int orig_wire_count;
- KERNEL_DEBUG_CONSTANT(IOKDBG_CODE(DBG_HIBERNATE, 7) | DBG_FUNC_START, vm_page_wire_count, 0, 0, 0, 0);
+ KERNEL_DEBUG_CONSTANT(IOKDBG_CODE(DBG_HIBERNATE, 7) | DBG_FUNC_START, 0, 0, 0, 0, 0);
+ orig_wire_count = vm_page_wire_count;
- sync_internal();
(void)(*consider_buffer_cache_collect)(1);
consider_zone_gc(TRUE);
- KERNEL_DEBUG_CONSTANT(IOKDBG_CODE(DBG_HIBERNATE, 7) | DBG_FUNC_END, vm_page_wire_count, 0, 0, 0, 0);
+ HIBLOG("hibernate_flush_memory: buffer_cache_gc freed up %d wired pages\n", orig_wire_count - vm_page_wire_count);
+
+ KERNEL_DEBUG_CONSTANT(IOKDBG_CODE(DBG_HIBERNATE, 7) | DBG_FUNC_END, orig_wire_count - vm_page_wire_count, 0, 0, 0, 0);
}
}
+ hibernate_cleaning_in_progress = FALSE;
+
KERNEL_DEBUG_CONSTANT(IOKDBG_CODE(DBG_HIBERNATE, 3) | DBG_FUNC_END, vm_page_free_count, hibernate_stats.hibernate_found_dirty, retval, 0, 0);
+ if (retval && COMPRESSED_PAGER_IS_ACTIVE)
+ HIBLOG("hibernate_flush_memory() failed to finish - vm_page_compressor_count(%d)\n", VM_PAGE_COMPRESSOR_COUNT);
+
+
HIBPRINT("hibernate_flush_memory() considered(%d) reentered_on_q(%d) found_dirty(%d)\n",
hibernate_stats.hibernate_considered,
hibernate_stats.hibernate_reentered_on_q,
hibernate_stats.hibernate_found_dirty);
- HIBPRINT(" skipped_cleaning(%d) skipped_transient(%d) skipped_precious(%d) queue_nolock(%d)\n",
+ HIBPRINT(" skipped_cleaning(%d) skipped_transient(%d) skipped_precious(%d) skipped_external(%d) queue_nolock(%d)\n",
hibernate_stats.hibernate_skipped_cleaning,
hibernate_stats.hibernate_skipped_transient,
hibernate_stats.hibernate_skipped_precious,
+ hibernate_stats.hibernate_skipped_external,
hibernate_stats.hibernate_queue_nolock);
HIBPRINT(" queue_paused(%d) throttled(%d) throttle_timeout(%d) drained(%d) drain_timeout(%d)\n",
hibernate_stats.hibernate_queue_paused,
}
static boolean_t
-hibernate_consider_discard(vm_page_t m)
+hibernate_consider_discard(vm_page_t m, boolean_t preflight)
{
vm_object_t object = NULL;
int refmod_state;
panic("hibernate_consider_discard: private");
if (!vm_object_lock_try(m->object)) {
- hibernate_stats.cd_lock_failed++;
+ if (!preflight) hibernate_stats.cd_lock_failed++;
break;
}
object = m->object;
if (VM_PAGE_WIRED(m)) {
- hibernate_stats.cd_found_wired++;
+ if (!preflight) hibernate_stats.cd_found_wired++;
break;
}
if (m->precious) {
- hibernate_stats.cd_found_precious++;
+ if (!preflight) hibernate_stats.cd_found_precious++;
break;
}
if (m->busy || !object->alive) {
/*
* Somebody is playing with this page.
*/
- hibernate_stats.cd_found_busy++;
+ if (!preflight) hibernate_stats.cd_found_busy++;
break;
}
if (m->absent || m->unusual || m->error) {
/*
* If it's unusual in anyway, ignore it
*/
- hibernate_stats.cd_found_unusual++;
+ if (!preflight) hibernate_stats.cd_found_unusual++;
break;
}
if (m->cleaning) {
- hibernate_stats.cd_found_cleaning++;
+ if (!preflight) hibernate_stats.cd_found_cleaning++;
break;
}
- if (m->laundry || m->list_req_pending) {
- hibernate_stats.cd_found_laundry++;
+ if (m->laundry) {
+ if (!preflight) hibernate_stats.cd_found_laundry++;
break;
}
if (!m->dirty)
if (refmod_state & VM_MEM_REFERENCED)
m->reference = TRUE;
- if (refmod_state & VM_MEM_MODIFIED)
- m->dirty = TRUE;
+ if (refmod_state & VM_MEM_MODIFIED) {
+ SET_PAGE_DIRTY(m, FALSE);
+ }
}
/*
|| (VM_PURGABLE_VOLATILE == object->purgable)
|| (VM_PURGABLE_EMPTY == object->purgable);
- if (discard == FALSE)
- hibernate_stats.cd_found_dirty++;
+
+ if (discard == FALSE) {
+ if (!preflight)
+ hibernate_stats.cd_found_dirty++;
+ } else if (m->xpmapped && m->reference) {
+ if (!preflight)
+ hibernate_stats.cd_found_xpmapped++;
+ discard = FALSE;
+ }
}
while (FALSE);
*/
return;
+#if DEBUG
+ vm_object_t object = m->object;
+ if (!vm_object_lock_try(m->object))
+ panic("hibernate_discard_page(%p) !vm_object_lock_try", m);
+#else
+ /* No need to lock page queue for token delete, hibernate_vm_unlock()
+ makes sure these locks are uncontended before sleep */
+#endif /* !DEBUG */
+
if (m->pmapped == TRUE)
{
__unused int refmod_state = pmap_disconnect(m->phys_page);
assert((m->object->objq.next != NULL) && (m->object->objq.prev != NULL));
purgeable_q_t old_queue = vm_purgeable_object_remove(m->object);
assert(old_queue);
- /* No need to lock page queue for token delete, hibernate_vm_unlock()
- makes sure these locks are uncontended before sleep */
- vm_purgeable_token_delete_first(old_queue);
+ if (m->object->purgeable_when_ripe) {
+ vm_purgeable_token_delete_first(old_queue);
+ }
m->object->purgable = VM_PURGABLE_EMPTY;
}
vm_page_free(m);
+
+#if DEBUG
+ vm_object_unlock(object);
+#endif /* DEBUG */
+}
+
+/*
+ Grab locks for hibernate_page_list_setall()
+*/
+void
+hibernate_vm_lock_queues(void)
+{
+ vm_object_lock(compressor_object);
+ vm_page_lock_queues();
+ lck_mtx_lock(&vm_page_queue_free_lock);
+
+ if (vm_page_local_q) {
+ uint32_t i;
+ for (i = 0; i < vm_page_local_q_count; i++) {
+ struct vpl *lq;
+ lq = &vm_page_local_q[i].vpl_un.vpl;
+ VPL_LOCK(&lq->vpl_lock);
+ }
+ }
+}
+
+void
+hibernate_vm_unlock_queues(void)
+{
+ if (vm_page_local_q) {
+ uint32_t i;
+ for (i = 0; i < vm_page_local_q_count; i++) {
+ struct vpl *lq;
+ lq = &vm_page_local_q[i].vpl_un.vpl;
+ VPL_UNLOCK(&lq->vpl_lock);
+ }
+ }
+ lck_mtx_unlock(&vm_page_queue_free_lock);
+ vm_page_unlock_queues();
+ vm_object_unlock(compressor_object);
}
/*
hibernate_page_list_setall(hibernate_page_list_t * page_list,
hibernate_page_list_t * page_list_wired,
hibernate_page_list_t * page_list_pal,
+ boolean_t preflight,
+ boolean_t will_discard,
uint32_t * pagesOut)
{
uint64_t start, end, nsec;
vm_page_t m;
+ vm_page_t next;
uint32_t pages = page_list->page_count;
- uint32_t count_zf = 0, count_throttled = 0;
- uint32_t count_inactive = 0, count_active = 0, count_speculative = 0;
+ uint32_t count_anonymous = 0, count_throttled = 0, count_compressor = 0;
+ uint32_t count_inactive = 0, count_active = 0, count_speculative = 0, count_cleaned = 0;
uint32_t count_wire = pages;
uint32_t count_discard_active = 0;
uint32_t count_discard_inactive = 0;
+ uint32_t count_discard_cleaned = 0;
uint32_t count_discard_purgeable = 0;
uint32_t count_discard_speculative = 0;
+ uint32_t count_discard_vm_struct_pages = 0;
uint32_t i;
uint32_t bank;
hibernate_bitmap_t * bitmap;
hibernate_bitmap_t * bitmap_wired;
+ boolean_t discard_all;
+ boolean_t discard;
+
+ HIBLOG("hibernate_page_list_setall(preflight %d) start %p, %p\n", preflight, page_list, page_list_wired);
+
+ if (preflight) {
+ page_list = NULL;
+ page_list_wired = NULL;
+ page_list_pal = NULL;
+ discard_all = FALSE;
+ } else {
+ discard_all = will_discard;
+ }
+#if DEBUG
+ if (!preflight)
+ {
+ vm_page_lock_queues();
+ if (vm_page_local_q) {
+ for (i = 0; i < vm_page_local_q_count; i++) {
+ struct vpl *lq;
+ lq = &vm_page_local_q[i].vpl_un.vpl;
+ VPL_LOCK(&lq->vpl_lock);
+ }
+ }
+ }
+#endif /* DEBUG */
- HIBLOG("hibernate_page_list_setall start %p, %p\n", page_list, page_list_wired);
KERNEL_DEBUG_CONSTANT(IOKDBG_CODE(DBG_HIBERNATE, 8) | DBG_FUNC_START, count_wire, 0, 0, 0, 0);
clock_get_uptime(&start);
- hibernate_page_list_zero(page_list);
- hibernate_page_list_zero(page_list_wired);
- hibernate_page_list_zero(page_list_pal);
-
- hibernate_stats.cd_vm_page_wire_count = vm_page_wire_count;
- hibernate_stats.cd_pages = pages;
+ if (!preflight) {
+ hibernate_page_list_zero(page_list);
+ hibernate_page_list_zero(page_list_wired);
+ hibernate_page_list_zero(page_list_pal);
+
+ hibernate_stats.cd_vm_page_wire_count = vm_page_wire_count;
+ hibernate_stats.cd_pages = pages;
+ }
if (vm_page_local_q) {
for (i = 0; i < vm_page_local_q_count; i++)
- vm_page_reactivate_local(i, TRUE, TRUE);
+ vm_page_reactivate_local(i, TRUE, !preflight);
+ }
+
+ if (preflight) {
+ vm_object_lock(compressor_object);
+ vm_page_lock_queues();
+ lck_mtx_lock(&vm_page_queue_free_lock);
}
m = (vm_page_t) hibernate_gobble_queue;
- while(m)
+ while (m)
{
pages--;
count_wire--;
- hibernate_page_bitset(page_list, TRUE, m->phys_page);
- hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
+ if (!preflight) {
+ hibernate_page_bitset(page_list, TRUE, m->phys_page);
+ hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
+ }
m = (vm_page_t) m->pageq.next;
}
- for( i = 0; i < real_ncpus; i++ )
+ if (!preflight) for( i = 0; i < real_ncpus; i++ )
{
if (cpu_data_ptr[i] && cpu_data_ptr[i]->cpu_processor)
{
{
pages--;
count_wire--;
- hibernate_page_bitset(page_list, TRUE, m->phys_page);
- hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
-
- hibernate_stats.cd_total_free++;
+ if (!preflight) {
+ hibernate_page_bitset(page_list, TRUE, m->phys_page);
+ hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
+
+ hibernate_stats.cd_total_free++;
+ }
}
}
{
pages--;
count_wire--;
- hibernate_page_bitset(page_list, TRUE, m->phys_page);
- hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
-
- hibernate_stats.cd_total_free++;
+ if (!preflight) {
+ hibernate_page_bitset(page_list, TRUE, m->phys_page);
+ hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
+
+ hibernate_stats.cd_total_free++;
+ }
}
- queue_iterate( &vm_page_queue_throttled,
- m,
- vm_page_t,
- pageq )
+ m = (vm_page_t) queue_first(&vm_page_queue_throttled);
+ while (m && !queue_end(&vm_page_queue_throttled, (queue_entry_t)m))
{
+ next = (vm_page_t) m->pageq.next;
+ discard = FALSE;
if ((kIOHibernateModeDiscardCleanInactive & gIOHibernateMode)
- && hibernate_consider_discard(m))
+ && hibernate_consider_discard(m, preflight))
{
- hibernate_page_bitset(page_list, TRUE, m->phys_page);
+ if (!preflight) hibernate_page_bitset(page_list, TRUE, m->phys_page);
count_discard_inactive++;
+ discard = discard_all;
}
else
count_throttled++;
count_wire--;
- hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
+ if (!preflight) hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
+
+ if (discard) hibernate_discard_page(m);
+ m = next;
}
- queue_iterate( &vm_page_queue_zf,
- m,
- vm_page_t,
- pageq )
+ m = (vm_page_t) queue_first(&vm_page_queue_anonymous);
+ while (m && !queue_end(&vm_page_queue_anonymous, (queue_entry_t)m))
{
+ next = (vm_page_t) m->pageq.next;
+ discard = FALSE;
if ((kIOHibernateModeDiscardCleanInactive & gIOHibernateMode)
- && hibernate_consider_discard(m))
+ && hibernate_consider_discard(m, preflight))
{
- hibernate_page_bitset(page_list, TRUE, m->phys_page);
+ if (!preflight) hibernate_page_bitset(page_list, TRUE, m->phys_page);
if (m->dirty)
count_discard_purgeable++;
else
count_discard_inactive++;
+ discard = discard_all;
}
else
- count_zf++;
+ count_anonymous++;
count_wire--;
- hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
+ if (!preflight) hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
+ if (discard) hibernate_discard_page(m);
+ m = next;
}
- queue_iterate( &vm_page_queue_inactive,
- m,
- vm_page_t,
- pageq )
+ m = (vm_page_t) queue_first(&vm_page_queue_inactive);
+ while (m && !queue_end(&vm_page_queue_inactive, (queue_entry_t)m))
{
+ next = (vm_page_t) m->pageq.next;
+ discard = FALSE;
if ((kIOHibernateModeDiscardCleanInactive & gIOHibernateMode)
- && hibernate_consider_discard(m))
+ && hibernate_consider_discard(m, preflight))
{
- hibernate_page_bitset(page_list, TRUE, m->phys_page);
+ if (!preflight) hibernate_page_bitset(page_list, TRUE, m->phys_page);
if (m->dirty)
count_discard_purgeable++;
else
count_discard_inactive++;
+ discard = discard_all;
}
else
count_inactive++;
count_wire--;
- hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
+ if (!preflight) hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
+ if (discard) hibernate_discard_page(m);
+ m = next;
+ }
+
+ m = (vm_page_t) queue_first(&vm_page_queue_cleaned);
+ while (m && !queue_end(&vm_page_queue_cleaned, (queue_entry_t)m))
+ {
+ next = (vm_page_t) m->pageq.next;
+ discard = FALSE;
+ if ((kIOHibernateModeDiscardCleanInactive & gIOHibernateMode)
+ && hibernate_consider_discard(m, preflight))
+ {
+ if (!preflight) hibernate_page_bitset(page_list, TRUE, m->phys_page);
+ if (m->dirty)
+ count_discard_purgeable++;
+ else
+ count_discard_cleaned++;
+ discard = discard_all;
+ }
+ else
+ count_cleaned++;
+ count_wire--;
+ if (!preflight) hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
+ if (discard) hibernate_discard_page(m);
+ m = next;
}
for( i = 0; i <= VM_PAGE_MAX_SPECULATIVE_AGE_Q; i++ )
{
- queue_iterate(&vm_page_queue_speculative[i].age_q,
- m,
- vm_page_t,
- pageq)
- {
- if ((kIOHibernateModeDiscardCleanInactive & gIOHibernateMode)
- && hibernate_consider_discard(m))
- {
- hibernate_page_bitset(page_list, TRUE, m->phys_page);
- count_discard_speculative++;
- }
- else
- count_speculative++;
- count_wire--;
- hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
- }
+ m = (vm_page_t) queue_first(&vm_page_queue_speculative[i].age_q);
+ while (m && !queue_end(&vm_page_queue_speculative[i].age_q, (queue_entry_t)m))
+ {
+ next = (vm_page_t) m->pageq.next;
+ discard = FALSE;
+ if ((kIOHibernateModeDiscardCleanInactive & gIOHibernateMode)
+ && hibernate_consider_discard(m, preflight))
+ {
+ if (!preflight) hibernate_page_bitset(page_list, TRUE, m->phys_page);
+ count_discard_speculative++;
+ discard = discard_all;
+ }
+ else
+ count_speculative++;
+ count_wire--;
+ if (!preflight) hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
+ if (discard) hibernate_discard_page(m);
+ m = next;
+ }
}
- queue_iterate( &vm_page_queue_active,
- m,
- vm_page_t,
- pageq )
+ m = (vm_page_t) queue_first(&vm_page_queue_active);
+ while (m && !queue_end(&vm_page_queue_active, (queue_entry_t)m))
{
+ next = (vm_page_t) m->pageq.next;
+ discard = FALSE;
if ((kIOHibernateModeDiscardCleanActive & gIOHibernateMode)
- && hibernate_consider_discard(m))
+ && hibernate_consider_discard(m, preflight))
{
- hibernate_page_bitset(page_list, TRUE, m->phys_page);
+ if (!preflight) hibernate_page_bitset(page_list, TRUE, m->phys_page);
if (m->dirty)
count_discard_purgeable++;
else
count_discard_active++;
+ discard = discard_all;
}
else
count_active++;
count_wire--;
- hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
+ if (!preflight) hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
+ if (discard) hibernate_discard_page(m);
+ m = next;
}
- // pull wired from hibernate_bitmap
-
- bitmap = &page_list->bank_bitmap[0];
- bitmap_wired = &page_list_wired->bank_bitmap[0];
- for (bank = 0; bank < page_list->bank_count; bank++)
+ queue_iterate(&compressor_object->memq, m, vm_page_t, listq)
{
- for (i = 0; i < bitmap->bitmapwords; i++)
- bitmap->bitmap[i] = bitmap->bitmap[i] | ~bitmap_wired->bitmap[i];
- bitmap = (hibernate_bitmap_t *) &bitmap->bitmap [bitmap->bitmapwords];
- bitmap_wired = (hibernate_bitmap_t *) &bitmap_wired->bitmap[bitmap_wired->bitmapwords];
+ count_compressor++;
+ count_wire--;
+ if (!preflight) hibernate_page_bitset(page_list_wired, TRUE, m->phys_page);
+ }
+
+ if (preflight == FALSE && discard_all == TRUE) {
+ KERNEL_DEBUG_CONSTANT(IOKDBG_CODE(DBG_HIBERNATE, 12) | DBG_FUNC_START, 0, 0, 0, 0, 0);
+
+ HIBLOG("hibernate_teardown started\n");
+ count_discard_vm_struct_pages = hibernate_teardown_vm_structs(page_list, page_list_wired);
+ HIBLOG("hibernate_teardown completed - discarded %d\n", count_discard_vm_struct_pages);
+
+ pages -= count_discard_vm_struct_pages;
+ count_wire -= count_discard_vm_struct_pages;
+
+ hibernate_stats.cd_vm_struct_pages_unneeded = count_discard_vm_struct_pages;
+
+ KERNEL_DEBUG_CONSTANT(IOKDBG_CODE(DBG_HIBERNATE, 13) | DBG_FUNC_END, 0, 0, 0, 0, 0);
+ }
+
+ if (!preflight) {
+ // pull wired from hibernate_bitmap
+ bitmap = &page_list->bank_bitmap[0];
+ bitmap_wired = &page_list_wired->bank_bitmap[0];
+ for (bank = 0; bank < page_list->bank_count; bank++)
+ {
+ for (i = 0; i < bitmap->bitmapwords; i++)
+ bitmap->bitmap[i] = bitmap->bitmap[i] | ~bitmap_wired->bitmap[i];
+ bitmap = (hibernate_bitmap_t *) &bitmap->bitmap [bitmap->bitmapwords];
+ bitmap_wired = (hibernate_bitmap_t *) &bitmap_wired->bitmap[bitmap_wired->bitmapwords];
+ }
}
// machine dependent adjustments
- hibernate_page_list_setall_machine(page_list, page_list_wired, &pages);
+ hibernate_page_list_setall_machine(page_list, page_list_wired, preflight, &pages);
- hibernate_stats.cd_count_wire = count_wire;
- hibernate_stats.cd_discarded = count_discard_active + count_discard_inactive + count_discard_purgeable + count_discard_speculative;
+ if (!preflight) {
+ hibernate_stats.cd_count_wire = count_wire;
+ hibernate_stats.cd_discarded = count_discard_active + count_discard_inactive + count_discard_purgeable +
+ count_discard_speculative + count_discard_cleaned + count_discard_vm_struct_pages;
+ }
clock_get_uptime(&end);
absolutetime_to_nanoseconds(end - start, &nsec);
HIBLOG("hibernate_page_list_setall time: %qd ms\n", nsec / 1000000ULL);
- HIBLOG("pages %d, wire %d, act %d, inact %d, spec %d, zf %d, throt %d, could discard act %d inact %d purgeable %d spec %d\n",
- pages, count_wire, count_active, count_inactive, count_speculative, count_zf, count_throttled,
- count_discard_active, count_discard_inactive, count_discard_purgeable, count_discard_speculative);
+ HIBLOG("pages %d, wire %d, act %d, inact %d, cleaned %d spec %d, zf %d, throt %d, compr %d, xpmapped %d\n %s discard act %d inact %d purgeable %d spec %d cleaned %d\n",
+ pages, count_wire, count_active, count_inactive, count_cleaned, count_speculative, count_anonymous, count_throttled, count_compressor, hibernate_stats.cd_found_xpmapped,
+ discard_all ? "did" : "could",
+ count_discard_active, count_discard_inactive, count_discard_purgeable, count_discard_speculative, count_discard_cleaned);
- *pagesOut = pages - count_discard_active - count_discard_inactive - count_discard_purgeable - count_discard_speculative;
+ *pagesOut = pages - count_discard_active - count_discard_inactive - count_discard_purgeable - count_discard_speculative - count_discard_cleaned;
+
+ if (preflight && will_discard) *pagesOut -= count_compressor + count_throttled + count_anonymous + count_inactive + count_cleaned + count_speculative + count_active;
+
+#if DEBUG
+ if (!preflight)
+ {
+ if (vm_page_local_q) {
+ for (i = 0; i < vm_page_local_q_count; i++) {
+ struct vpl *lq;
+ lq = &vm_page_local_q[i].vpl_un.vpl;
+ VPL_UNLOCK(&lq->vpl_lock);
+ }
+ }
+ vm_page_unlock_queues();
+ }
+#endif /* DEBUG */
+
+ if (preflight) {
+ lck_mtx_unlock(&vm_page_queue_free_lock);
+ vm_page_unlock_queues();
+ vm_object_unlock(compressor_object);
+ }
KERNEL_DEBUG_CONSTANT(IOKDBG_CODE(DBG_HIBERNATE, 8) | DBG_FUNC_END, count_wire, *pagesOut, 0, 0, 0);
}
uint32_t count_discard_active = 0;
uint32_t count_discard_inactive = 0;
uint32_t count_discard_purgeable = 0;
+ uint32_t count_discard_cleaned = 0;
uint32_t count_discard_speculative = 0;
+
+#if DEBUG
+ vm_page_lock_queues();
+ if (vm_page_local_q) {
+ for (i = 0; i < vm_page_local_q_count; i++) {
+ struct vpl *lq;
+ lq = &vm_page_local_q[i].vpl_un.vpl;
+ VPL_LOCK(&lq->vpl_lock);
+ }
+ }
+#endif /* DEBUG */
+
clock_get_uptime(&start);
- m = (vm_page_t) queue_first(&vm_page_queue_zf);
- while (m && !queue_end(&vm_page_queue_zf, (queue_entry_t)m))
+ m = (vm_page_t) queue_first(&vm_page_queue_anonymous);
+ while (m && !queue_end(&vm_page_queue_anonymous, (queue_entry_t)m))
{
next = (vm_page_t) m->pageq.next;
if (hibernate_page_bittst(page_list, m->phys_page))
m = next;
}
+ m = (vm_page_t) queue_first(&vm_page_queue_cleaned);
+ while (m && !queue_end(&vm_page_queue_cleaned, (queue_entry_t)m))
+ {
+ next = (vm_page_t) m->pageq.next;
+ if (hibernate_page_bittst(page_list, m->phys_page))
+ {
+ if (m->dirty)
+ count_discard_purgeable++;
+ else
+ count_discard_cleaned++;
+ hibernate_discard_page(m);
+ }
+ m = next;
+ }
+
+#if DEBUG
+ if (vm_page_local_q) {
+ for (i = 0; i < vm_page_local_q_count; i++) {
+ struct vpl *lq;
+ lq = &vm_page_local_q[i].vpl_un.vpl;
+ VPL_UNLOCK(&lq->vpl_lock);
+ }
+ }
+ vm_page_unlock_queues();
+#endif /* DEBUG */
+
clock_get_uptime(&end);
absolutetime_to_nanoseconds(end - start, &nsec);
- HIBLOG("hibernate_page_list_discard time: %qd ms, discarded act %d inact %d purgeable %d spec %d\n",
+ HIBLOG("hibernate_page_list_discard time: %qd ms, discarded act %d inact %d purgeable %d spec %d cleaned %d\n",
nsec / 1000000ULL,
- count_discard_active, count_discard_inactive, count_discard_purgeable, count_discard_speculative);
+ count_discard_active, count_discard_inactive, count_discard_purgeable, count_discard_speculative, count_discard_cleaned);
}
+boolean_t hibernate_paddr_map_inited = FALSE;
+boolean_t hibernate_rebuild_needed = FALSE;
+unsigned int hibernate_teardown_last_valid_compact_indx = -1;
+vm_page_t hibernate_rebuild_hash_list = NULL;
+
+unsigned int hibernate_teardown_found_tabled_pages = 0;
+unsigned int hibernate_teardown_found_created_pages = 0;
+unsigned int hibernate_teardown_found_free_pages = 0;
+unsigned int hibernate_teardown_vm_page_free_count;
+
+
+struct ppnum_mapping {
+ struct ppnum_mapping *ppnm_next;
+ ppnum_t ppnm_base_paddr;
+ unsigned int ppnm_sindx;
+ unsigned int ppnm_eindx;
+};
+
+struct ppnum_mapping *ppnm_head;
+struct ppnum_mapping *ppnm_last_found = NULL;
+
+
+void
+hibernate_create_paddr_map()
+{
+ unsigned int i;
+ ppnum_t next_ppnum_in_run = 0;
+ struct ppnum_mapping *ppnm = NULL;
+
+ if (hibernate_paddr_map_inited == FALSE) {
+
+ for (i = 0; i < vm_pages_count; i++) {
+
+ if (ppnm)
+ ppnm->ppnm_eindx = i;
+
+ if (ppnm == NULL || vm_pages[i].phys_page != next_ppnum_in_run) {
+
+ ppnm = kalloc(sizeof(struct ppnum_mapping));
+
+ ppnm->ppnm_next = ppnm_head;
+ ppnm_head = ppnm;
+
+ ppnm->ppnm_sindx = i;
+ ppnm->ppnm_base_paddr = vm_pages[i].phys_page;
+ }
+ next_ppnum_in_run = vm_pages[i].phys_page + 1;
+ }
+ ppnm->ppnm_eindx++;
+
+ hibernate_paddr_map_inited = TRUE;
+ }
+}
+
+ppnum_t
+hibernate_lookup_paddr(unsigned int indx)
+{
+ struct ppnum_mapping *ppnm = NULL;
+
+ ppnm = ppnm_last_found;
+
+ if (ppnm) {
+ if (indx >= ppnm->ppnm_sindx && indx < ppnm->ppnm_eindx)
+ goto done;
+ }
+ for (ppnm = ppnm_head; ppnm; ppnm = ppnm->ppnm_next) {
+
+ if (indx >= ppnm->ppnm_sindx && indx < ppnm->ppnm_eindx) {
+ ppnm_last_found = ppnm;
+ break;
+ }
+ }
+ if (ppnm == NULL)
+ panic("hibernate_lookup_paddr of %d failed\n", indx);
+done:
+ return (ppnm->ppnm_base_paddr + (indx - ppnm->ppnm_sindx));
+}
+
+
+uint32_t
+hibernate_mark_as_unneeded(addr64_t saddr, addr64_t eaddr, hibernate_page_list_t *page_list, hibernate_page_list_t *page_list_wired)
+{
+ addr64_t saddr_aligned;
+ addr64_t eaddr_aligned;
+ addr64_t addr;
+ ppnum_t paddr;
+ unsigned int mark_as_unneeded_pages = 0;
+
+ saddr_aligned = (saddr + PAGE_MASK_64) & ~PAGE_MASK_64;
+ eaddr_aligned = eaddr & ~PAGE_MASK_64;
+
+ for (addr = saddr_aligned; addr < eaddr_aligned; addr += PAGE_SIZE_64) {
+
+ paddr = pmap_find_phys(kernel_pmap, addr);
+
+ assert(paddr);
+
+ hibernate_page_bitset(page_list, TRUE, paddr);
+ hibernate_page_bitset(page_list_wired, TRUE, paddr);
+
+ mark_as_unneeded_pages++;
+ }
+ return (mark_as_unneeded_pages);
+}
+
+
+void
+hibernate_hash_insert_page(vm_page_t mem)
+{
+ vm_page_bucket_t *bucket;
+ int hash_id;
+
+ assert(mem->hashed);
+ assert(mem->object);
+ assert(mem->offset != (vm_object_offset_t) -1);
+
+ /*
+ * Insert it into the object_object/offset hash table
+ */
+ hash_id = vm_page_hash(mem->object, mem->offset);
+ bucket = &vm_page_buckets[hash_id];
+
+ mem->next = bucket->pages;
+ bucket->pages = mem;
+}
+
+
+void
+hibernate_free_range(int sindx, int eindx)
+{
+ vm_page_t mem;
+ unsigned int color;
+
+ while (sindx < eindx) {
+ mem = &vm_pages[sindx];
+
+ vm_page_init(mem, hibernate_lookup_paddr(sindx), FALSE);
+
+ mem->lopage = FALSE;
+ mem->free = TRUE;
+
+ color = mem->phys_page & vm_color_mask;
+ queue_enter_first(&vm_page_queue_free[color],
+ mem,
+ vm_page_t,
+ pageq);
+ vm_page_free_count++;
+
+ sindx++;
+ }
+}
+
+
+extern void hibernate_rebuild_pmap_structs(void);
+
+void
+hibernate_rebuild_vm_structs(void)
+{
+ int cindx, sindx, eindx;
+ vm_page_t mem, tmem, mem_next;
+ AbsoluteTime startTime, endTime;
+ uint64_t nsec;
+
+ if (hibernate_rebuild_needed == FALSE)
+ return;
+
+ KERNEL_DEBUG_CONSTANT(IOKDBG_CODE(DBG_HIBERNATE, 13) | DBG_FUNC_START, 0, 0, 0, 0, 0);
+ HIBLOG("hibernate_rebuild started\n");
+
+ clock_get_uptime(&startTime);
+
+ hibernate_rebuild_pmap_structs();
+
+ bzero(&vm_page_buckets[0], vm_page_bucket_count * sizeof(vm_page_bucket_t));
+ eindx = vm_pages_count;
+
+ for (cindx = hibernate_teardown_last_valid_compact_indx; cindx >= 0; cindx--) {
+
+ mem = &vm_pages[cindx];
+ /*
+ * hibernate_teardown_vm_structs leaves the location where
+ * this vm_page_t must be located in "next".
+ */
+ tmem = mem->next;
+ mem->next = NULL;
+
+ sindx = (int)(tmem - &vm_pages[0]);
+
+ if (mem != tmem) {
+ /*
+ * this vm_page_t was moved by hibernate_teardown_vm_structs,
+ * so move it back to its real location
+ */
+ *tmem = *mem;
+ mem = tmem;
+ }
+ if (mem->hashed)
+ hibernate_hash_insert_page(mem);
+ /*
+ * the 'hole' between this vm_page_t and the previous
+ * vm_page_t we moved needs to be initialized as
+ * a range of free vm_page_t's
+ */
+ hibernate_free_range(sindx + 1, eindx);
+
+ eindx = sindx;
+ }
+ if (sindx)
+ hibernate_free_range(0, sindx);
+
+ assert(vm_page_free_count == hibernate_teardown_vm_page_free_count);
+
+ /*
+ * process the list of vm_page_t's that were entered in the hash,
+ * but were not located in the vm_pages arrary... these are
+ * vm_page_t's that were created on the fly (i.e. fictitious)
+ */
+ for (mem = hibernate_rebuild_hash_list; mem; mem = mem_next) {
+ mem_next = mem->next;
+
+ mem->next = NULL;
+ hibernate_hash_insert_page(mem);
+ }
+ hibernate_rebuild_hash_list = NULL;
+
+ clock_get_uptime(&endTime);
+ SUB_ABSOLUTETIME(&endTime, &startTime);
+ absolutetime_to_nanoseconds(endTime, &nsec);
+
+ HIBLOG("hibernate_rebuild completed - took %qd msecs\n", nsec / 1000000ULL);
+
+ hibernate_rebuild_needed = FALSE;
+
+ KERNEL_DEBUG_CONSTANT(IOKDBG_CODE(DBG_HIBERNATE, 13) | DBG_FUNC_END, 0, 0, 0, 0, 0);
+}
+
+
+extern void hibernate_teardown_pmap_structs(addr64_t *, addr64_t *);
+
+uint32_t
+hibernate_teardown_vm_structs(hibernate_page_list_t *page_list, hibernate_page_list_t *page_list_wired)
+{
+ unsigned int i;
+ unsigned int compact_target_indx;
+ vm_page_t mem, mem_next;
+ vm_page_bucket_t *bucket;
+ unsigned int mark_as_unneeded_pages = 0;
+ unsigned int unneeded_vm_page_bucket_pages = 0;
+ unsigned int unneeded_vm_pages_pages = 0;
+ unsigned int unneeded_pmap_pages = 0;
+ addr64_t start_of_unneeded = 0;
+ addr64_t end_of_unneeded = 0;
+
+
+ if (hibernate_should_abort())
+ return (0);
+
+ HIBLOG("hibernate_teardown: wired_pages %d, free_pages %d, active_pages %d, inactive_pages %d, speculative_pages %d, cleaned_pages %d, compressor_pages %d\n",
+ vm_page_wire_count, vm_page_free_count, vm_page_active_count, vm_page_inactive_count, vm_page_speculative_count,
+ vm_page_cleaned_count, compressor_object->resident_page_count);
+
+ for (i = 0; i < vm_page_bucket_count; i++) {
+
+ bucket = &vm_page_buckets[i];
+
+ for (mem = bucket->pages; mem != VM_PAGE_NULL; mem = mem_next) {
+ assert(mem->hashed);
+
+ mem_next = mem->next;
+
+ if (mem < &vm_pages[0] || mem >= &vm_pages[vm_pages_count]) {
+ mem->next = hibernate_rebuild_hash_list;
+ hibernate_rebuild_hash_list = mem;
+ }
+ }
+ }
+ unneeded_vm_page_bucket_pages = hibernate_mark_as_unneeded((addr64_t)&vm_page_buckets[0], (addr64_t)&vm_page_buckets[vm_page_bucket_count], page_list, page_list_wired);
+ mark_as_unneeded_pages += unneeded_vm_page_bucket_pages;
+
+ hibernate_teardown_vm_page_free_count = vm_page_free_count;
+
+ compact_target_indx = 0;
+
+ for (i = 0; i < vm_pages_count; i++) {
+
+ mem = &vm_pages[i];
+
+ if (mem->free) {
+ unsigned int color;
+
+ assert(mem->busy);
+ assert(!mem->lopage);
+
+ color = mem->phys_page & vm_color_mask;
+
+ queue_remove(&vm_page_queue_free[color],
+ mem,
+ vm_page_t,
+ pageq);
+ mem->pageq.next = NULL;
+ mem->pageq.prev = NULL;
+
+ vm_page_free_count--;
+
+ hibernate_teardown_found_free_pages++;
+
+ if ( !vm_pages[compact_target_indx].free)
+ compact_target_indx = i;
+ } else {
+ /*
+ * record this vm_page_t's original location
+ * we need this even if it doesn't get moved
+ * as an indicator to the rebuild function that
+ * we don't have to move it
+ */
+ mem->next = mem;
+
+ if (vm_pages[compact_target_indx].free) {
+ /*
+ * we've got a hole to fill, so
+ * move this vm_page_t to it's new home
+ */
+ vm_pages[compact_target_indx] = *mem;
+ mem->free = TRUE;
+
+ hibernate_teardown_last_valid_compact_indx = compact_target_indx;
+ compact_target_indx++;
+ } else
+ hibernate_teardown_last_valid_compact_indx = i;
+ }
+ }
+ unneeded_vm_pages_pages = hibernate_mark_as_unneeded((addr64_t)&vm_pages[hibernate_teardown_last_valid_compact_indx+1],
+ (addr64_t)&vm_pages[vm_pages_count-1], page_list, page_list_wired);
+ mark_as_unneeded_pages += unneeded_vm_pages_pages;
+
+ hibernate_teardown_pmap_structs(&start_of_unneeded, &end_of_unneeded);
+
+ if (start_of_unneeded) {
+ unneeded_pmap_pages = hibernate_mark_as_unneeded(start_of_unneeded, end_of_unneeded, page_list, page_list_wired);
+ mark_as_unneeded_pages += unneeded_pmap_pages;
+ }
+ HIBLOG("hibernate_teardown: mark_as_unneeded_pages %d, %d, %d\n", unneeded_vm_page_bucket_pages, unneeded_vm_pages_pages, unneeded_pmap_pages);
+
+ hibernate_rebuild_needed = TRUE;
+
+ return (mark_as_unneeded_pages);
+}
+
+
#endif /* HIBERNATION */
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
}
#endif /* MACH_VM_DEBUG */
-#include <mach_kdb.h>
-#if MACH_KDB
-
-#include <ddb/db_output.h>
-#include <vm/vm_print.h>
-#define printf kdbprintf
-
-/*
- * Routine: vm_page_print [exported]
- */
+#if VM_PAGE_BUCKETS_CHECK
void
-vm_page_print(
- db_addr_t db_addr)
+vm_page_buckets_check(void)
{
- vm_page_t p;
+ unsigned int i;
+ vm_page_t p;
+ unsigned int p_hash;
+ vm_page_bucket_t *bucket;
+ lck_spin_t *bucket_lock;
- p = (vm_page_t) (long) db_addr;
+ if (!vm_page_buckets_check_ready) {
+ return;
+ }
- iprintf("page 0x%x\n", p);
+#if HIBERNATION
+ if (hibernate_rebuild_needed ||
+ hibernate_rebuild_hash_list) {
+ panic("BUCKET_CHECK: hibernation in progress: "
+ "rebuild_needed=%d rebuild_hash_list=%p\n",
+ hibernate_rebuild_needed,
+ hibernate_rebuild_hash_list);
+ }
+#endif /* HIBERNATION */
+
+#if VM_PAGE_FAKE_BUCKETS
+ char *cp;
+ for (cp = (char *) vm_page_fake_buckets_start;
+ cp < (char *) vm_page_fake_buckets_end;
+ cp++) {
+ if (*cp != 0x5a) {
+ panic("BUCKET_CHECK: corruption at %p in fake buckets "
+ "[0x%llx:0x%llx]\n",
+ cp,
+ vm_page_fake_buckets_start,
+ vm_page_fake_buckets_end);
+ }
+ }
+#endif /* VM_PAGE_FAKE_BUCKETS */
- db_indent += 2;
+ for (i = 0; i < vm_page_bucket_count; i++) {
+ bucket = &vm_page_buckets[i];
+ if (bucket->pages == VM_PAGE_NULL) {
+ continue;
+ }
- iprintf("object=0x%x", p->object);
- printf(", offset=0x%x", p->offset);
- printf(", wire_count=%d", p->wire_count);
+ bucket_lock = &vm_page_bucket_locks[i / BUCKETS_PER_LOCK];
+ lck_spin_lock(bucket_lock);
+ p = bucket->pages;
+ while (p != VM_PAGE_NULL) {
+ if (!p->hashed) {
+ panic("BUCKET_CHECK: page %p (%p,0x%llx) "
+ "hash %d in bucket %d at %p "
+ "is not hashed\n",
+ p, p->object, p->offset,
+ p_hash, i, bucket);
+ }
+ p_hash = vm_page_hash(p->object, p->offset);
+ if (p_hash != i) {
+ panic("BUCKET_CHECK: corruption in bucket %d "
+ "at %p: page %p object %p offset 0x%llx "
+ "hash %d\n",
+ i, bucket, p, p->object, p->offset,
+ p_hash);
+ }
+ p = p->next;
+ }
+ lck_spin_unlock(bucket_lock);
+ }
- iprintf("%slocal, %sinactive, %sactive, %sthrottled, %sgobbled, %slaundry, %sfree, %sref, %sencrypted\n",
- (p->local ? "" : "!"),
- (p->inactive ? "" : "!"),
- (p->active ? "" : "!"),
- (p->throttled ? "" : "!"),
- (p->gobbled ? "" : "!"),
- (p->laundry ? "" : "!"),
- (p->free ? "" : "!"),
- (p->reference ? "" : "!"),
- (p->encrypted ? "" : "!"));
- iprintf("%sbusy, %swanted, %stabled, %sfictitious, %sprivate, %sprecious\n",
- (p->busy ? "" : "!"),
- (p->wanted ? "" : "!"),
- (p->tabled ? "" : "!"),
- (p->fictitious ? "" : "!"),
- (p->private ? "" : "!"),
- (p->precious ? "" : "!"));
- iprintf("%sabsent, %serror, %sdirty, %scleaning, %spageout, %sclustered\n",
- (p->absent ? "" : "!"),
- (p->error ? "" : "!"),
- (p->dirty ? "" : "!"),
- (p->cleaning ? "" : "!"),
- (p->pageout ? "" : "!"),
- (p->clustered ? "" : "!"));
- iprintf("%soverwriting, %srestart, %sunusual\n",
- (p->overwriting ? "" : "!"),
- (p->restart ? "" : "!"),
- (p->unusual ? "" : "!"));
-
- iprintf("phys_page=0x%x", p->phys_page);
-
- db_indent -= 2;
+// printf("BUCKET_CHECK: checked buckets\n");
}
-#endif /* MACH_KDB */
+#endif /* VM_PAGE_BUCKETS_CHECK */
projects / apple / xnu.git / blobdiff