a20b1c888d
git-svn-id: svn://kolibrios.org@2971 a494cfbc-eb01-0410-851d-a64ba20cac60
465 lines
11 KiB
C
465 lines
11 KiB
C
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#include <types.h>
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#include <core.h>
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#include <spinlock.h>
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#include <link.h>
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#include <mm.h>
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#include <slab.h>
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extern zone_t z_core;
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static LIST_INITIALIZE(slab_cache_list);
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static slab_cache_t *slab_cache;
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static slab_cache_t slab_cache_cache;
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static slab_t *slab_create();
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static slab_cache_t * slab_cache_alloc();
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/**
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* Allocate frames for slab space and initialize
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*
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*/
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static slab_t * slab_space_alloc(slab_cache_t *cache, int flags)
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{
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void *data;
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slab_t *slab;
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size_t fsize;
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unsigned int i;
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u32_t p;
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DBG("%s order %d\n", __FUNCTION__, cache->order);
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data = (void*)PA2KA(frame_alloc(1 << cache->order));
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if (!data) {
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return NULL;
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}
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slab = (slab_t*)slab_create();
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if (!slab) {
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frame_free(KA2PA(data));
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return NULL;
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}
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/* Fill in slab structures */
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for (i = 0; i < ((u32_t) 1 << cache->order); i++)
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frame_set_parent(ADDR2PFN(KA2PA(data)) + i, slab);
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slab->start = data;
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slab->available = cache->objects;
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slab->nextavail = (void*)data;
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slab->cache = cache;
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for (i = 0, p = (u32_t)slab->start; i < cache->objects; i++)
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{
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*(addr_t *)p = p+cache->size;
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p = p+cache->size;
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};
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atomic_inc(&cache->allocated_slabs);
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return slab;
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}
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/**
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* Take new object from slab or create new if needed
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*
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* @return Object address or null
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*/
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static void * slab_obj_create(slab_cache_t *cache, int flags)
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{
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slab_t *slab;
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void *obj;
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spinlock_lock(&cache->slablock);
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if (list_empty(&cache->partial_slabs)) {
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slab = slab_space_alloc(cache, flags);
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if (!slab)
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{
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spinlock_unlock(&cache->slablock);
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return NULL;
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}
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} else {
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slab = list_get_instance(cache->partial_slabs.next, slab_t, link);
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list_remove(&slab->link);
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}
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obj = slab->nextavail;
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slab->nextavail = *(void**)obj;
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slab->available--;
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if (!slab->available)
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list_prepend(&slab->link, &cache->full_slabs);
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else
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list_prepend(&slab->link, &cache->partial_slabs);
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spinlock_unlock(&cache->slablock);
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// if (cache->constructor && cache->constructor(obj, flags)) {
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/* Bad, bad, construction failed */
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// slab_obj_destroy(cache, obj, slab);
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// return NULL;
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// }
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return obj;
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}
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/** Map object to slab structure */
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static slab_t * obj2slab(void *obj)
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{
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return (slab_t *) frame_get_parent(ADDR2PFN(KA2PA(obj)));
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}
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/** Allocate new object from cache - if no flags given, always returns
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memory */
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void* __fastcall slab_alloc(slab_cache_t *cache, int flags)
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{
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eflags_t efl;
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void *result = NULL;
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/* Disable interrupts to avoid deadlocks with interrupt handlers */
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efl = safe_cli();
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// if (!(cache->flags & SLAB_CACHE_NOMAGAZINE)) {
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// result = magazine_obj_get(cache);
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// }
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// if (!result)
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result = slab_obj_create(cache, flags);
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safe_sti(efl);
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// if (result)
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// atomic_inc(&cache->allocated_objs);
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return result;
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}
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/**************************************/
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/* Slab cache functions */
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/** Return number of objects that fit in certain cache size */
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static unsigned int comp_objects(slab_cache_t *cache)
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{
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if (cache->flags & SLAB_CACHE_SLINSIDE)
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return ((PAGE_SIZE << cache->order) - sizeof(slab_t)) / cache->size;
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else
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return (PAGE_SIZE << cache->order) / cache->size;
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}
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/** Return wasted space in slab */
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static unsigned int badness(slab_cache_t *cache)
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{
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unsigned int objects;
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unsigned int ssize;
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size_t val;
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objects = comp_objects(cache);
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ssize = PAGE_SIZE << cache->order;
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if (cache->flags & SLAB_CACHE_SLINSIDE)
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ssize -= sizeof(slab_t);
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val = ssize - objects * cache->size;
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return val;
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}
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/** Initialize allocated memory as a slab cache */
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static void
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_slab_cache_create(slab_cache_t *cache,
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size_t size,
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size_t align,
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int (*constructor)(void *obj, int kmflag),
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int (*destructor)(void *obj),
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int flags)
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{
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int pages;
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// ipl_t ipl;
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// memsetb((uintptr_t)cache, sizeof(*cache), 0);
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// cache->name = name;
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//if (align < sizeof(unative_t))
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// align = sizeof(unative_t);
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// size = ALIGN_UP(size, align);
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cache->size = size;
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// cache->constructor = constructor;
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// cache->destructor = destructor;
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cache->flags = flags;
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list_initialize(&cache->full_slabs);
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list_initialize(&cache->partial_slabs);
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list_initialize(&cache->magazines);
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// spinlock_initialize(&cache->slablock, "slab_lock");
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// spinlock_initialize(&cache->maglock, "slab_maglock");
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// if (! (cache->flags & SLAB_CACHE_NOMAGAZINE))
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// make_magcache(cache);
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/* Compute slab sizes, object counts in slabs etc. */
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/* Minimum slab order */
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pages = SIZE2FRAMES(cache->size);
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/* We need the 2^order >= pages */
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if (pages <= 1)
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cache->order = 0;
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else
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cache->order = fnzb(pages-1)+1;
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while (badness(cache) > SLAB_MAX_BADNESS(cache)) {
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cache->order += 1;
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}
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cache->objects = comp_objects(cache);
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/* Add cache to cache list */
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// ipl = interrupts_disable();
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// spinlock_lock(&slab_cache_lock);
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list_append(&cache->link, &slab_cache_list);
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// spinlock_unlock(&slab_cache_lock);
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// interrupts_restore(ipl);
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}
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/** Create slab cache */
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slab_cache_t * slab_cache_create(
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size_t size,
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size_t align,
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int (*constructor)(void *obj, int kmflag),
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int (*destructor)(void *obj),
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int flags)
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{
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slab_cache_t *cache;
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DBG("%s\n", __FUNCTION__);
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cache = (slab_cache_t*)slab_cache_alloc();
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_slab_cache_create(cache, size, align, constructor, destructor, flags);
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return cache;
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}
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/**
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* Deallocate space associated with slab
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*
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* @return number of freed frames
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*/
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static count_t slab_space_free(slab_cache_t *cache, slab_t *slab)
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{
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frame_free(KA2PA(slab->start));
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if (! (cache->flags & SLAB_CACHE_SLINSIDE))
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slab_free(slab_cache, slab);
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// atomic_dec(&cache->allocated_slabs);
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return 1 << cache->order;
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}
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/**
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* Return object to slab and call a destructor
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*
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* @param slab If the caller knows directly slab of the object, otherwise NULL
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*
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* @return Number of freed pages
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*/
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static count_t slab_obj_destroy(slab_cache_t *cache, void *obj,
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slab_t *slab)
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{
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int freed = 0;
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if (!slab)
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slab = obj2slab(obj);
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// ASSERT(slab->cache == cache);
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// if (cache->destructor)
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// freed = cache->destructor(obj);
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// spinlock_lock(&cache->slablock);
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// ASSERT(slab->available < cache->objects);
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*(void**)obj = slab->nextavail;
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slab->nextavail = obj;
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slab->available++;
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/* Move it to correct list */
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if (slab->available == cache->objects) {
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/* Free associated memory */
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list_remove(&slab->link);
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// spinlock_unlock(&cache->slablock);
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return freed + slab_space_free(cache, slab);
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} else if (slab->available == 1) {
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/* It was in full, move to partial */
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list_remove(&slab->link);
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list_prepend(&slab->link, &cache->partial_slabs);
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}
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// spinlock_unlock(&cache->slablock);
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return freed;
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}
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/** Return object to cache, use slab if known */
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static void _slab_free(slab_cache_t *cache, void *obj, slab_t *slab)
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{
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eflags_t efl;
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efl = safe_cli();
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// if ((cache->flags & SLAB_CACHE_NOMAGAZINE) \
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// || magazine_obj_put(cache, obj)) {
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slab_obj_destroy(cache, obj, slab);
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// }
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safe_sti(efl);
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atomic_dec(&cache->allocated_objs);
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}
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/** Return slab object to cache */
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void __fastcall slab_free(slab_cache_t *cache, void *obj)
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{
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_slab_free(cache, obj, NULL);
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}
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static slab_t *slab_create()
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{
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slab_t *slab;
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void *obj;
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u32_t p;
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DBG("%s\n", __FUNCTION__);
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// spinlock_lock(&cache->slablock);
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if (list_empty(&slab_cache->partial_slabs)) {
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// spinlock_unlock(&cache->slablock);
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// slab = slab_create();
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void *data;
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unsigned int i;
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data = (void*)PA2KA(alloc_page());
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if (!data) {
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return NULL;
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}
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slab = (slab_t*)((u32_t)data + PAGE_SIZE - sizeof(slab_t));
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/* Fill in slab structures */
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frame_set_parent(ADDR2PFN(KA2PA(data)), slab);
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slab->start = data;
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slab->available = slab_cache->objects;
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slab->nextavail = (void*)data;
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slab->cache = slab_cache;
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for (i = 0,p = (u32_t)slab->start;i < slab_cache->objects; i++)
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{
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*(int *)p = p+slab_cache->size;
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p = p+slab_cache->size;
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};
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atomic_inc(&slab_cache->allocated_slabs);
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// spinlock_lock(&cache->slablock);
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} else {
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slab = list_get_instance(slab_cache->partial_slabs.next, slab_t, link);
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list_remove(&slab->link);
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}
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obj = slab->nextavail;
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slab->nextavail = *((void**)obj);
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slab->available--;
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if (!slab->available)
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list_prepend(&slab->link, &slab_cache->full_slabs);
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else
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list_prepend(&slab->link, &slab_cache->partial_slabs);
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// spinlock_unlock(&cache->slablock);
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return (slab_t*)obj;
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}
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static slab_cache_t * slab_cache_alloc()
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{
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slab_t *slab;
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void *obj;
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u32_t *p;
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DBG("%s\n", __FUNCTION__);
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if (list_empty(&slab_cache_cache.partial_slabs))
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{
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// spinlock_unlock(&cache->slablock);
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// slab = slab_create();
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void *data;
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unsigned int i;
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data = (void*)(PA2KA(alloc_page()));
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if (!data) {
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return NULL;
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}
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slab = (slab_t*)((u32_t)data + PAGE_SIZE - sizeof(slab_t));
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/* Fill in slab structures */
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frame_set_parent(ADDR2PFN(KA2PA(data)), slab);
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slab->start = data;
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slab->available = slab_cache_cache.objects;
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slab->nextavail = (void*)data;
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slab->cache = &slab_cache_cache;
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for (i = 0,p = (u32_t*)slab->start;i < slab_cache_cache.objects; i++)
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{
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*p = (u32_t)p+slab_cache_cache.size;
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p = (u32_t*)((u32_t)p+slab_cache_cache.size);
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};
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atomic_inc(&slab_cache_cache.allocated_slabs);
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// spinlock_lock(&cache->slablock);
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}
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else {
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slab = list_get_instance(slab_cache_cache.partial_slabs.next, slab_t, link);
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list_remove(&slab->link);
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}
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obj = slab->nextavail;
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slab->nextavail = *((void**)obj);
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slab->available--;
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if (!slab->available)
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list_prepend(&slab->link, &slab_cache_cache.full_slabs);
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else
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list_prepend(&slab->link, &slab_cache_cache.partial_slabs);
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// spinlock_unlock(&cache->slablock);
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return (slab_cache_t*)obj;
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}
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void slab_cache_init(void)
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{
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DBG("%s\n", __FUNCTION__);
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_slab_cache_create(&slab_cache_cache, sizeof(slab_cache_t),
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sizeof(void *), NULL, NULL,
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SLAB_CACHE_NOMAGAZINE | SLAB_CACHE_SLINSIDE);
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/* Initialize external slab cache */
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slab_cache = slab_cache_create(sizeof(slab_t),
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0, NULL, NULL,SLAB_CACHE_MAGDEFERRED);
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};
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