src/sys/kern/subr_pool.c - diff

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Diff for /src/sys/kern/subr_pool.c between version 1.87.2.6 and 1.92

version 1.87.2.6, 2005/11/10 14:09:45

version 1.92, 2004/02/22 00:19:48

Line 70 __KERNEL_RCSID(0, "$NetBSD$");

/* List of all pools */

LIST_HEAD(,pool) pool_head = LIST_HEAD_INITIALIZER(pool_head);

TAILQ_HEAD(,pool) pool_head = TAILQ_HEAD_INITIALIZER(pool_head);

/* Private pool for page header structures */

#define PHPOOL_MAX 8

static struct pool phpool;

static struct pool phpool[PHPOOL_MAX];

#define PHPOOL_FREELIST_NELEM(idx) (((idx) == 0) ? 0 : (1 << (idx)))

#ifdef POOL_SUBPAGE

/* Pool of subpages for use by normal pools. */

static struct pool psppool;

#endif

static void *pool_page_alloc_meta(struct pool *, int);

static void pool_page_free_meta(struct pool *, void *);

/* allocator for pool metadata */

static struct pool_allocator pool_allocator_meta = {

pool_page_alloc_meta, pool_page_free_meta

};

/* # of seconds to retain page after last use */

int pool_inactive_time = 10;

Line 99 static struct pool *drainpp;

Line 89 static struct pool *drainpp;

/* This spin lock protects both pool_head and drainpp. */

struct simplelock pool_head_slock = SIMPLELOCK_INITIALIZER;

typedef uint8_t pool_item_freelist_t;

struct pool_item_header {

/* Page headers */

LIST_ENTRY(pool_item_header)

ph_pagelist; /* pool page list */

TAILQ_HEAD(,pool_item) ph_itemlist; /* chunk list for this page */

SPLAY_ENTRY(pool_item_header)

ph_node; /* Off-page page headers */

unsigned int ph_nmissing; /* # of chunks in use */

caddr_t ph_page; /* this page's address */

struct timeval ph_time; /* last referenced */

union {

/* !PR_NOTOUCH */

struct {

LIST_HEAD(, pool_item)

phu_itemlist; /* chunk list for this page */

} phu_normal;

/* PR_NOTOUCH */

struct {

uint16_t

phu_off; /* start offset in page */

pool_item_freelist_t

phu_firstfree; /* first free item */

* XXX it might be better to use

* a simple bitmap and ffs(3)

} phu_notouch;

} ph_u;

uint16_t ph_nmissing; /* # of chunks in use */

};

#define ph_itemlist ph_u.phu_normal.phu_itemlist

#define ph_off ph_u.phu_notouch.phu_off

#define ph_firstfree ph_u.phu_notouch.phu_firstfree

struct pool_item {

#ifdef DIAGNOSTIC

Line 139 struct pool_item {

Line 107 struct pool_item {

#endif

#define PI_MAGIC 0xdeadbeefU

/* Other entries use only this list entry */

LIST_ENTRY(pool_item) pi_list;

TAILQ_ENTRY(pool_item) pi_list;

};

#define POOL_NEEDS_CATCHUP(pp) \

Line 174 struct pool_item {

Line 142 struct pool_item {

/* The cache group pool. */

static struct pool pcgpool;

static void pool_cache_reclaim(struct pool_cache *, struct pool_pagelist *,

static void pool_cache_reclaim(struct pool_cache *);

struct pool_cache_grouplist *);

static void pcg_grouplist_free(struct pool_cache_grouplist *);

static int pool_catchup(struct pool *);

static void pool_prime_page(struct pool *, caddr_t,

Line 186 static void pool_update_curpage(struct p

Line 152 static void pool_update_curpage(struct p

void *pool_allocator_alloc(struct pool *, int);

void pool_allocator_free(struct pool *, void *);

static void pool_print_pagelist(struct pool *, struct pool_pagelist *,

static void pool_print_pagelist(struct pool_pagelist *,

void (*)(const char *, ...));

static void pool_print1(struct pool *, const char *,

void (*)(const char *, ...));

Line 313 pr_enter_check(struct pool *pp, void (*p

Line 279 pr_enter_check(struct pool *pp, void (*p

#endif /* POOL_DIAGNOSTIC */

static __inline int

pr_item_notouch_index(const struct pool *pp, const struct pool_item_header *ph,

const void *v)

{

const char *cp = v;

int idx;

KASSERT(pp->pr_roflags & PR_NOTOUCH);

idx = (cp - ph->ph_page - ph->ph_off) / pp->pr_size;

KASSERT(idx < pp->pr_itemsperpage);

return idx;

}

#define PR_FREELIST_ALIGN(p) \

roundup((uintptr_t)(p), sizeof(pool_item_freelist_t))

#define PR_FREELIST(ph) ((pool_item_freelist_t *)PR_FREELIST_ALIGN((ph) + 1))

#define PR_INDEX_USED ((pool_item_freelist_t)-1)

#define PR_INDEX_EOL ((pool_item_freelist_t)-2)

static __inline void

pr_item_notouch_put(const struct pool *pp, struct pool_item_header *ph,

void *obj)

{

int idx = pr_item_notouch_index(pp, ph, obj);

pool_item_freelist_t *freelist = PR_FREELIST(ph);

KASSERT(freelist[idx] == PR_INDEX_USED);

freelist[idx] = ph->ph_firstfree;

ph->ph_firstfree = idx;

}

static __inline void *

pr_item_notouch_get(const struct pool *pp, struct pool_item_header *ph)

{

int idx = ph->ph_firstfree;

pool_item_freelist_t *freelist = PR_FREELIST(ph);

KASSERT(freelist[idx] != PR_INDEX_USED);

ph->ph_firstfree = freelist[idx];

freelist[idx] = PR_INDEX_USED;

return ph->ph_page + ph->ph_off + idx * pp->pr_size;

}

static __inline int

phtree_compare(struct pool_item_header *a, struct pool_item_header *b)

{

if (a->ph_page < b->ph_page)

Line 386 pr_find_pagehead(struct pool *pp, caddr_

Line 308 pr_find_pagehead(struct pool *pp, caddr_

return ph;

}

static void

pr_pagelist_free(struct pool *pp, struct pool_pagelist *pq)

{

struct pool_item_header *ph;

int s;

while ((ph = LIST_FIRST(pq)) != NULL) {

LIST_REMOVE(ph, ph_pagelist);

pool_allocator_free(pp, ph->ph_page);

if ((pp->pr_roflags & PR_PHINPAGE) == 0) {

s = splvm();

pool_put(pp->pr_phpool, ph);

splx(s);

}

* Remove a page from the pool.

Line 410 static __inline void

Line 315 static __inline void

pr_rmpage(struct pool *pp, struct pool_item_header *ph,

struct pool_pagelist *pq)

{

int s;

LOCK_ASSERT(simple_lock_held(&pp->pr_slock));

LOCK_ASSERT(!simple_lock_held(&pp->pr_slock) || pq != NULL);

* If the page was idle, decrement the idle page count.

Line 429 pr_rmpage(struct pool *pp, struct pool_i

Line 335 pr_rmpage(struct pool *pp, struct pool_i

pp->pr_nitems -= pp->pr_itemsperpage;

* Unlink the page from the pool and queue it for release.

* Unlink a page from the pool and release it (or queue it for release).

LIST_REMOVE(ph, ph_pagelist);

if ((pp->pr_roflags & PR_PHINPAGE) == 0)

SPLAY_REMOVE(phtree, &pp->pr_phtree, ph);

LIST_INSERT_HEAD(pq, ph, ph_pagelist);

if (pq) {

LIST_INSERT_HEAD(pq, ph, ph_pagelist);

} else {

pool_allocator_free(pp, ph->ph_page);

if ((pp->pr_roflags & PR_PHINPAGE) == 0) {

s = splvm();

pool_put(&phpool, ph);

splx(s);

}

pp->pr_npages--;

pp->pr_npagefree++;

Line 443 pr_rmpage(struct pool *pp, struct pool_i

Line 357 pr_rmpage(struct pool *pp, struct pool_i

}

* Initialize all the pools listed in the "pools" link set.

void

link_pool_init(void)

{

__link_set_decl(pools, struct link_pool_init);

struct link_pool_init * const *pi;

__link_set_foreach(pi, pools)

pool_init((*pi)->pp, (*pi)->size, (*pi)->align,

(*pi)->align_offset, (*pi)->flags, (*pi)->wchan,

(*pi)->palloc);

}

* Initialize the given pool resource structure.

* We export this routine to allow other kernel parts to declare

Line 469 pool_init(struct pool *pp, size_t size,

Line 368 pool_init(struct pool *pp, size_t size,

{

int off, slack;

size_t trysize, phsize;

int s;

KASSERT((1UL << (CHAR_BIT * sizeof(pool_item_freelist_t))) - 2 >=

PHPOOL_FREELIST_NELEM(PHPOOL_MAX - 1));

#ifdef POOL_DIAGNOSTIC

Line 539 pool_init(struct pool *pp, size_t size,

Line 434 pool_init(struct pool *pp, size_t size,

LIST_INIT(&pp->pr_emptypages);

LIST_INIT(&pp->pr_fullpages);

LIST_INIT(&pp->pr_partpages);

LIST_INIT(&pp->pr_cachelist);

TAILQ_INIT(&pp->pr_cachelist);

pp->pr_curpage = NULL;

pp->pr_npages = 0;

pp->pr_minitems = 0;

Line 579 pool_init(struct pool *pp, size_t size,

Line 474 pool_init(struct pool *pp, size_t size,

/* See the comment below about reserved bytes. */

trysize = palloc->pa_pagesz - ((align - ioff) % align);

phsize = ALIGN(sizeof(struct pool_item_header));

if ((pp->pr_roflags & PR_NOTOUCH) == 0 &&

if (pp->pr_size < MIN(palloc->pa_pagesz / 16, phsize << 3) ||

(pp->pr_size < MIN(palloc->pa_pagesz / 16, phsize << 3) ||

trysize / pp->pr_size == (trysize - phsize) / pp->pr_size) {

trysize / pp->pr_size == (trysize - phsize) / pp->pr_size)) {

/* Use the end of the page for the page header */

pp->pr_roflags |= PR_PHINPAGE;

pp->pr_phoffset = off = palloc->pa_pagesz - phsize;

Line 599 pool_init(struct pool *pp, size_t size,

Line 493 pool_init(struct pool *pp, size_t size,

pp->pr_itemsperpage = (off - ((align - ioff) % align)) / pp->pr_size;

KASSERT(pp->pr_itemsperpage != 0);

if ((pp->pr_roflags & PR_NOTOUCH)) {

int idx;

for (idx = 0; pp->pr_itemsperpage > PHPOOL_FREELIST_NELEM(idx);

idx++) {

/* nothing */

}

if (idx >= PHPOOL_MAX) {

* if you see this panic, consider to tweak

* PHPOOL_MAX and PHPOOL_FREELIST_NELEM.

panic("%s: too large itemsperpage(%d) for PR_NOTOUCH",

pp->pr_wchan, pp->pr_itemsperpage);

}

pp->pr_phpool = &phpool[idx];

} else if ((pp->pr_roflags & PR_PHINPAGE) == 0) {

pp->pr_phpool = &phpool[0];

}

#if defined(DIAGNOSTIC)

else {

pp->pr_phpool = NULL;

}

#endif

* Use the slack between the chunks and the page header

Line 661 pool_init(struct pool *pp, size_t size,

Line 531 pool_init(struct pool *pp, size_t size,

* haven't done so yet.

* XXX LOCKING.

if (phpool[0].pr_size == 0) {

if (phpool.pr_size == 0) {

int idx;

for (idx = 0; idx < PHPOOL_MAX; idx++) {

static char phpool_names[PHPOOL_MAX][6+1+6+1];

int nelem;

size_t sz;

nelem = PHPOOL_FREELIST_NELEM(idx);

snprintf(phpool_names[idx], sizeof(phpool_names[idx]),

"phpool-%d", nelem);

sz = sizeof(struct pool_item_header);

if (nelem) {

sz = PR_FREELIST_ALIGN(sz)

+ nelem * sizeof(pool_item_freelist_t);

}

pool_init(&phpool[idx], sz, 0, 0, 0,

phpool_names[idx], &pool_allocator_meta);

}

#ifdef POOL_SUBPAGE

pool_init(&phpool, sizeof(struct pool_item_header), 0, 0, 0,

"phpool", &pool_allocator_kmem);

pool_init(&psppool, POOL_SUBPAGE, POOL_SUBPAGE, 0,

PR_RECURSIVE, "psppool", &pool_allocator_meta);

PR_RECURSIVE, "psppool", &pool_allocator_kmem);

#else

pool_init(&phpool, sizeof(struct pool_item_header), 0, 0,

0, "phpool", NULL);

#endif

pool_init(&pcgpool, sizeof(struct pool_cache_group), 0, 0,

0, "pcgpool", &pool_allocator_meta);

0, "pcgpool", NULL);

}

/* Insert into the list of all pools. */

simple_lock(&pool_head_slock);

LIST_INSERT_HEAD(&pool_head, pp, pr_poollist);

TAILQ_INSERT_TAIL(&pool_head, pp, pr_poollist);

simple_unlock(&pool_head_slock);

/* Insert this into the list of pools using this allocator. */

s = splvm();

simple_lock(&palloc->pa_slock);

TAILQ_INSERT_TAIL(&palloc->pa_list, pp, pr_alloc_list);

simple_unlock(&palloc->pa_slock);

splx(s);

}

Line 706 pool_init(struct pool *pp, size_t size,

Line 562 pool_init(struct pool *pp, size_t size,

void

pool_destroy(struct pool *pp)

{

struct pool_pagelist pq;

struct pool_item_header *ph;

int s;

struct pool_cache *pc;

/* Remove from global pool list */

simple_lock(&pool_head_slock);

LIST_REMOVE(pp, pr_poollist);

if (drainpp == pp)

drainpp = NULL;

simple_unlock(&pool_head_slock);

/* Remove this pool from its allocator's list of pools. */

/* Locking order: pool_allocator -> pool */

s = splvm();

simple_lock(&pp->pr_alloc->pa_slock);

TAILQ_REMOVE(&pp->pr_alloc->pa_list, pp, pr_alloc_list);

simple_unlock(&pp->pr_alloc->pa_slock);

splx(s);

s = splvm();

simple_lock(&pp->pr_slock);

KASSERT(LIST_EMPTY(&pp->pr_cachelist));

/* Destroy all caches for this pool. */

while ((pc = TAILQ_FIRST(&pp->pr_cachelist)) != NULL)

pool_cache_destroy(pc);

#ifdef DIAGNOSTIC

if (pp->pr_nout != 0) {

Line 737 pool_destroy(struct pool *pp)

Line 582 pool_destroy(struct pool *pp)

}

#endif

KASSERT(LIST_EMPTY(&pp->pr_fullpages));

KASSERT(LIST_EMPTY(&pp->pr_partpages));

/* Remove all pages */

LIST_INIT(&pq);

while ((ph = LIST_FIRST(&pp->pr_emptypages)) != NULL)

pr_rmpage(pp, ph, &pq);

pr_rmpage(pp, ph, NULL);

KASSERT(LIST_EMPTY(&pp->pr_fullpages));

simple_unlock(&pp->pr_slock);

KASSERT(LIST_EMPTY(&pp->pr_partpages));

splx(s);

pr_pagelist_free(pp, &pq);

/* Remove from global pool list */

simple_lock(&pool_head_slock);

TAILQ_REMOVE(&pool_head, pp, pr_poollist);

if (drainpp == pp) {

drainpp = NULL;

}

simple_unlock(&pool_head_slock);

#ifdef POOL_DIAGNOSTIC

if ((pp->pr_roflags & PR_LOGGING) != 0)

Line 781 pool_alloc_item_header(struct pool *pp,

Line 627 pool_alloc_item_header(struct pool *pp,

ph = (struct pool_item_header *) (storage + pp->pr_phoffset);

else {

s = splvm();

ph = pool_get(pp->pr_phpool, flags);

ph = pool_get(&phpool, flags);

splx(s);

}

Line 803 pool_get(struct pool *pp, int flags)

Line 649 pool_get(struct pool *pp, int flags)

void *v;

#ifdef DIAGNOSTIC

if (__predict_false(pp->pr_itemsperpage == 0))

panic("pool_get: pool %p: pr_itemsperpage is zero, "

"pool not initialized?", pp);

if (__predict_false(curlwp == NULL && doing_shutdown == 0 &&

(flags & PR_WAITOK) != 0))

panic("pool_get: %s: must have NOWAIT", pp->pr_wchan);

#endif /* DIAGNOSTIC */

#ifdef LOCKDEBUG

if (flags & PR_WAITOK)

simple_lock_only_held(NULL, "pool_get(PR_WAITOK)");

SCHED_ASSERT_UNLOCKED();

#endif

#endif /* DIAGNOSTIC */

simple_lock(&pp->pr_slock);

pr_enter(pp, file, line);

Line 949 pool_get(struct pool *pp, int flags)

Line 791 pool_get(struct pool *pp, int flags)

/* Start the allocation process over. */

goto startover;

}

if (pp->pr_roflags & PR_NOTOUCH) {

if (__predict_false((v = pi = TAILQ_FIRST(&ph->ph_itemlist)) == NULL)) {

#ifdef DIAGNOSTIC

pr_leave(pp);

if (__predict_false(ph->ph_nmissing == pp->pr_itemsperpage)) {

simple_unlock(&pp->pr_slock);

pr_leave(pp);

panic("pool_get: %s: page empty", pp->pr_wchan);

simple_unlock(&pp->pr_slock);

}

panic("pool_get: %s: page empty", pp->pr_wchan);

}

#endif

v = pr_item_notouch_get(pp, ph);

#ifdef POOL_DIAGNOSTIC

pr_log(pp, v, PRLOG_GET, file, line);

#endif

} else {

v = pi = LIST_FIRST(&ph->ph_itemlist);

if (__predict_false(v == NULL)) {

pr_leave(pp);

simple_unlock(&pp->pr_slock);

panic("pool_get: %s: page empty", pp->pr_wchan);

}

#ifdef DIAGNOSTIC

if (__predict_false(pp->pr_nitems == 0)) {

pr_leave(pp);

simple_unlock(&pp->pr_slock);

printf("pool_get: %s: items on itemlist, nitems %u\n",

pp->pr_wchan, pp->pr_nitems);

panic("pool_get: nitems inconsistent");

}

#endif

#ifdef POOL_DIAGNOSTIC

pr_log(pp, v, PRLOG_GET, file, line);

#endif

#ifdef DIAGNOSTIC

if (__predict_false(pi->pi_magic != PI_MAGIC)) {

pr_printlog(pp, pi, printf);

panic("pool_get(%s): free list modified: "

panic("pool_get(%s): free list modified: magic=%x; page %p;"

"magic=%x; page %p; item addr %p\n",

" item addr %p\n",

pp->pr_wchan, pi->pi_magic, ph->ph_page, pi);

}

#endif

* Remove from item list.

LIST_REMOVE(pi, pi_list);

TAILQ_REMOVE(&ph->ph_itemlist, pi, pi_list);

}

pp->pr_nitems--;

pp->pr_nout++;

if (ph->ph_nmissing == 0) {

Line 1013 pool_get(struct pool *pp, int flags)

Line 840 pool_get(struct pool *pp, int flags)

LIST_INSERT_HEAD(&pp->pr_partpages, ph, ph_pagelist);

}

ph->ph_nmissing++;

if (ph->ph_nmissing == pp->pr_itemsperpage) {

if (TAILQ_EMPTY(&ph->ph_itemlist)) {

#ifdef DIAGNOSTIC

if (__predict_false((pp->pr_roflags & PR_NOTOUCH) == 0 &&

if (__predict_false(ph->ph_nmissing != pp->pr_itemsperpage)) {

!LIST_EMPTY(&ph->ph_itemlist))) {

pr_leave(pp);

simple_unlock(&pp->pr_slock);

panic("pool_get: %s: nmissing inconsistent",

Line 1055 pool_get(struct pool *pp, int flags)

Line 881 pool_get(struct pool *pp, int flags)

* Internal version of pool_put(). Pool is already locked/entered.

static void

pool_do_put(struct pool *pp, void *v, struct pool_pagelist *pq)

pool_do_put(struct pool *pp, void *v)

{

struct pool_item *pi = v;

struct pool_item_header *ph;

Line 1063 pool_do_put(struct pool *pp, void *v, st

Line 889 pool_do_put(struct pool *pp, void *v, st

int s;

LOCK_ASSERT(simple_lock_held(&pp->pr_slock));

SCHED_ASSERT_UNLOCKED();

page = (caddr_t)((u_long)v & pp->pr_alloc->pa_pagemask);

Line 1090 pool_do_put(struct pool *pp, void *v, st

Line 915 pool_do_put(struct pool *pp, void *v, st

* Return to item list.

if (pp->pr_roflags & PR_NOTOUCH) {

pr_item_notouch_put(pp, ph, v);

} else {

#ifdef DIAGNOSTIC

pi->pi_magic = PI_MAGIC;

#endif

#ifdef DEBUG

{

int i, *ip = v;

for (i = 0; i < pp->pr_size / sizeof(int); i++) {

*ip++ = PI_MAGIC;

}

#endif

LIST_INSERT_HEAD(&ph->ph_itemlist, pi, pi_list);

TAILQ_INSERT_HEAD(&ph->ph_itemlist, pi, pi_list);

}

KDASSERT(ph->ph_nmissing != 0);

ph->ph_nmissing--;

pp->pr_nput++;

Line 1130 pool_do_put(struct pool *pp, void *v, st

Line 951 pool_do_put(struct pool *pp, void *v, st

* If this page is now empty, do one of two things:

* (1) If we have more pages than the page high water mark,

* free the page back to the system. ONLY CONSIDER

* or if we are flagged as immediately freeing back idle

* pages, free the page back to the system. ONLY CONSIDER

* FREEING BACK A PAGE IF WE HAVE MORE THAN OUR MINIMUM PAGE

* CLAIM.

Line 1143 pool_do_put(struct pool *pp, void *v, st

Line 965 pool_do_put(struct pool *pp, void *v, st

pp->pr_nidle++;

if (pp->pr_npages > pp->pr_minpages &&

(pp->pr_npages > pp->pr_maxpages ||

(pp->pr_roflags & PR_IMMEDRELEASE) != 0 ||

(pp->pr_alloc->pa_flags & PA_WANT) != 0)) {

pr_rmpage(pp, ph, pq);

simple_unlock(&pp->pr_slock);

pr_rmpage(pp, ph, NULL);

simple_lock(&pp->pr_slock);

} else {

LIST_REMOVE(ph, ph_pagelist);

LIST_INSERT_HEAD(&pp->pr_emptypages, ph, ph_pagelist);

Line 1182 pool_do_put(struct pool *pp, void *v, st

Line 1007 pool_do_put(struct pool *pp, void *v, st

void

_pool_put(struct pool *pp, void *v, const char *file, long line)

{

struct pool_pagelist pq;

LIST_INIT(&pq);

simple_lock(&pp->pr_slock);

pr_enter(pp, file, line);

pr_log(pp, v, PRLOG_PUT, file, line);

pool_do_put(pp, v, &pq);

pool_do_put(pp, v);

pr_leave(pp);

simple_unlock(&pp->pr_slock);

pr_pagelist_free(pp, &pq);

}

#undef pool_put

#endif /* POOL_DIAGNOSTIC */

Line 1204 _pool_put(struct pool *pp, void *v, cons

Line 1024 _pool_put(struct pool *pp, void *v, cons

void

pool_put(struct pool *pp, void *v)

{

struct pool_pagelist pq;

LIST_INIT(&pq);

simple_lock(&pp->pr_slock);

pool_do_put(pp, v, &pq);

simple_unlock(&pp->pr_slock);

pr_pagelist_free(pp, &pq);

pool_do_put(pp, v);

simple_unlock(&pp->pr_slock);

}

#ifdef POOL_DIAGNOSTIC

Line 1285 pool_prime_page(struct pool *pp, caddr_t

Line 1102 pool_prime_page(struct pool *pp, caddr_t

* Insert page header.

LIST_INSERT_HEAD(&pp->pr_emptypages, ph, ph_pagelist);

LIST_INIT(&ph->ph_itemlist);

TAILQ_INIT(&ph->ph_itemlist);

ph->ph_page = storage;

ph->ph_nmissing = 0;

s = splclock();

Line 1315 pool_prime_page(struct pool *pp, caddr_t

Line 1132 pool_prime_page(struct pool *pp, caddr_t

n = pp->pr_itemsperpage;

pp->pr_nitems += n;

if (pp->pr_roflags & PR_NOTOUCH) {

while (n--) {

pool_item_freelist_t *freelist = PR_FREELIST(ph);

pi = (struct pool_item *)cp;

int i;

ph->ph_off = cp - storage;

ph->ph_firstfree = 0;

for (i = 0; i < n - 1; i++)

freelist[i] = i + 1;

freelist[n - 1] = PR_INDEX_EOL;

} else {

while (n--) {

pi = (struct pool_item *)cp;

KASSERT(((((vaddr_t)pi) + ioff) & (align - 1)) == 0);

/* Insert on page list */

LIST_INSERT_HEAD(&ph->ph_itemlist, pi, pi_list);

TAILQ_INSERT_TAIL(&ph->ph_itemlist, pi, pi_list);

#ifdef DIAGNOSTIC

pi->pi_magic = PI_MAGIC;

#endif

cp = (caddr_t)(cp + pp->pr_size);

}

Line 1472 pool_reclaim(struct pool *pp)

Line 1278 pool_reclaim(struct pool *pp)

{

struct pool_item_header *ph, *phnext;

struct pool_cache *pc;

struct timeval curtime;

struct pool_pagelist pq;

struct pool_cache_grouplist pcgl;

struct timeval diff;

struct timeval curtime, diff;

int s;

if (pp->pr_drain_hook != NULL) {

Line 1489 pool_reclaim(struct pool *pp)

Line 1295 pool_reclaim(struct pool *pp)

pr_enter(pp, file, line);

LIST_INIT(&pq);

LIST_INIT(&pcgl);

* Reclaim items from the pool's caches.

LIST_FOREACH(pc, &pp->pr_cachelist, pc_poollist)

TAILQ_FOREACH(pc, &pp->pr_cachelist, pc_poollist)

pool_cache_reclaim(pc, &pq, &pcgl);

pool_cache_reclaim(pc);

s = splclock();

curtime = mono_time;

Line 1526 pool_reclaim(struct pool *pp)

Line 1331 pool_reclaim(struct pool *pp)

pr_leave(pp);

simple_unlock(&pp->pr_slock);

if (LIST_EMPTY(&pq) && LIST_EMPTY(&pcgl))

if (LIST_EMPTY(&pq))

return 0;

return (0);

while ((ph = LIST_FIRST(&pq)) != NULL) {

LIST_REMOVE(ph, ph_pagelist);

pool_allocator_free(pp, ph->ph_page);

if (pp->pr_roflags & PR_PHINPAGE) {

continue;

}

s = splvm();

pool_put(&phpool, ph);

splx(s);

}

pr_pagelist_free(pp, &pq);

pcg_grouplist_free(&pcgl);

return (1);

}

Line 1549 pool_drain(void *arg)

Line 1363 pool_drain(void *arg)

s = splvm();

simple_lock(&pool_head_slock);

if (drainpp == NULL) {

drainpp = LIST_FIRST(&pool_head);

drainpp = TAILQ_FIRST(&pool_head);

}

if (drainpp) {

pp = drainpp;

drainpp = LIST_NEXT(pp, pr_poollist);

drainpp = TAILQ_NEXT(pp, pr_poollist);

}

simple_unlock(&pool_head_slock);

pool_reclaim(pp);

Line 1583 pool_print(struct pool *pp, const char *

Line 1397 pool_print(struct pool *pp, const char *

void

pool_printit(struct pool *pp, const char *modif, void (*pr)(const char *, ...))

{

int didlock = 0;

if (pp == NULL) {

(*pr)("Must specify a pool to print.\n");

Line 1601 pool_printit(struct pool *pp, const char

Line 1416 pool_printit(struct pool *pp, const char

if (simple_lock_try(&pp->pr_slock) == 0)

(*pr)("WARNING: pool %s is locked\n", pp->pr_wchan);

else

simple_unlock(&pp->pr_slock);

didlock = 1;

pool_print1(pp, modif, pr);

if (didlock)

simple_unlock(&pp->pr_slock);

}

static void

pool_print_pagelist(struct pool *pp, struct pool_pagelist *pl,

pool_print_pagelist(struct pool_pagelist *pl, void (*pr)(const char *, ...))

void (*pr)(const char *, ...))

{

struct pool_item_header *ph;

#ifdef DIAGNOSTIC

Line 1621 pool_print_pagelist(struct pool *pp, str

Line 1438 pool_print_pagelist(struct pool *pp, str

(u_long)ph->ph_time.tv_sec,

(u_long)ph->ph_time.tv_usec);

#ifdef DIAGNOSTIC

if (!(pp->pr_roflags & PR_NOTOUCH)) {

TAILQ_FOREACH(pi, &ph->ph_itemlist, pi_list) {

LIST_FOREACH(pi, &ph->ph_itemlist, pi_list) {

if (pi->pi_magic != PI_MAGIC) {

(*pr)("\t\t\titem %p, magic 0x%x\n",

pi, pi->pi_magic);

}

#endif

Line 1670 pool_print1(struct pool *pp, const char

Line 1485 pool_print1(struct pool *pp, const char

if ((ph = LIST_FIRST(&pp->pr_emptypages)) != NULL)

(*pr)("\n\tempty page list:\n");

pool_print_pagelist(pp, &pp->pr_emptypages, pr);

pool_print_pagelist(&pp->pr_emptypages, pr);

if ((ph = LIST_FIRST(&pp->pr_fullpages)) != NULL)

(*pr)("\n\tfull page list:\n");

pool_print_pagelist(pp, &pp->pr_fullpages, pr);

pool_print_pagelist(&pp->pr_fullpages, pr);

if ((ph = LIST_FIRST(&pp->pr_partpages)) != NULL)

(*pr)("\n\tpartial-page list:\n");

pool_print_pagelist(pp, &pp->pr_partpages, pr);

pool_print_pagelist(&pp->pr_partpages, pr);

if (pp->pr_curpage == NULL)

(*pr)("\tno current page\n");

Line 1697 pool_print1(struct pool *pp, const char

Line 1512 pool_print1(struct pool *pp, const char

if (print_cache == 0)

goto skip_cache;

#define PR_GROUPLIST(pcg) \

TAILQ_FOREACH(pc, &pp->pr_cachelist, pc_poollist) {

(*pr)("\t\tgroup %p: avail %d\n", pcg, pcg->pcg_avail); \

(*pr)("\tcache %p: allocfrom %p freeto %p\n", pc,

for (i = 0; i < PCG_NOBJECTS; i++) { \

pc->pc_allocfrom, pc->pc_freeto);

if (pcg->pcg_objects[i].pcgo_pa != \

POOL_PADDR_INVALID) { \

(*pr)("\t\t\t%p, 0x%llx\n", \

pcg->pcg_objects[i].pcgo_va, \

(unsigned long long) \

pcg->pcg_objects[i].pcgo_pa); \

} else { \

(*pr)("\t\t\t%p\n", \

pcg->pcg_objects[i].pcgo_va); \

} \

}

LIST_FOREACH(pc, &pp->pr_cachelist, pc_poollist) {

(*pr)("\tcache %p\n", pc);

(*pr)("\t hits %lu misses %lu ngroups %lu nitems %lu\n",

pc->pc_hits, pc->pc_misses, pc->pc_ngroups, pc->pc_nitems);

(*pr)("\t full groups:\n");

TAILQ_FOREACH(pcg, &pc->pc_grouplist, pcg_list) {

LIST_FOREACH(pcg, &pc->pc_fullgroups, pcg_list) {

(*pr)("\t\tgroup %p: avail %d\n", pcg, pcg->pcg_avail);

PR_GROUPLIST(pcg);

for (i = 0; i < PCG_NOBJECTS; i++) {

}

if (pcg->pcg_objects[i].pcgo_pa !=

(*pr)("\t partial groups:\n");

POOL_PADDR_INVALID) {

LIST_FOREACH(pcg, &pc->pc_partgroups, pcg_list) {

(*pr)("\t\t\t%p, 0x%llx\n",

PR_GROUPLIST(pcg);

pcg->pcg_objects[i].pcgo_va,

}

(unsigned long long)

(*pr)("\t empty groups:\n");

pcg->pcg_objects[i].pcgo_pa);

LIST_FOREACH(pcg, &pc->pc_emptygroups, pcg_list) {

} else {

PR_GROUPLIST(pcg);

(*pr)("\t\t\t%p\n",

pcg->pcg_objects[i].pcgo_va);

}

#undef PR_GROUPLIST

skip_cache:

pr_enter_check(pp, pr);

Line 1754 pool_chk_page(struct pool *pp, const cha

Line 1557 pool_chk_page(struct pool *pp, const cha

return 1;

}

if ((pp->pr_roflags & PR_NOTOUCH) != 0)

for (pi = TAILQ_FIRST(&ph->ph_itemlist), n = 0;

return 0;

for (pi = LIST_FIRST(&ph->ph_itemlist), n = 0;

pi != NULL;

pi = LIST_NEXT(pi,pi_list), n++) {

pi = TAILQ_NEXT(pi,pi_list), n++) {

#ifdef DIAGNOSTIC

if (pi->pi_magic != PI_MAGIC) {

Line 1836 pool_cache_init(struct pool_cache *pc, s

Line 1636 pool_cache_init(struct pool_cache *pc, s

void *arg)

{

LIST_INIT(&pc->pc_emptygroups);

TAILQ_INIT(&pc->pc_grouplist);

LIST_INIT(&pc->pc_fullgroups);

LIST_INIT(&pc->pc_partgroups);

simple_lock_init(&pc->pc_slock);

pc->pc_allocfrom = NULL;

pc->pc_freeto = NULL;

pc->pc_pool = pp;

pc->pc_ctor = ctor;

Line 1855 pool_cache_init(struct pool_cache *pc, s

Line 1655 pool_cache_init(struct pool_cache *pc, s

pc->pc_nitems = 0;

simple_lock(&pp->pr_slock);

LIST_INSERT_HEAD(&pp->pr_cachelist, pc, pc_poollist);

TAILQ_INSERT_TAIL(&pp->pr_cachelist, pc, pc_poollist);

simple_unlock(&pp->pr_slock);

}

Line 1874 pool_cache_destroy(struct pool_cache *pc

Line 1674 pool_cache_destroy(struct pool_cache *pc

/* ...and remove it from the pool's cache list. */

simple_lock(&pp->pr_slock);

LIST_REMOVE(pc, pc_poollist);

TAILQ_REMOVE(&pp->pr_cachelist, pc, pc_poollist);

simple_unlock(&pp->pr_slock);

}

Line 1910 pcg_put(struct pool_cache_group *pcg, vo

Line 1710 pcg_put(struct pool_cache_group *pcg, vo

pcg->pcg_objects[idx].pcgo_pa = pa;

}

static void

pcg_grouplist_free(struct pool_cache_grouplist *pcgl)

{

struct pool_cache_group *pcg;

int s;

s = splvm();

while ((pcg = LIST_FIRST(pcgl)) != NULL) {

LIST_REMOVE(pcg, pcg_list);

pool_put(&pcgpool, pcg);

}

splx(s);

}

* pool_cache_get{,_paddr}:

Line 1943 pool_cache_get_paddr(struct pool_cache *

Line 1729 pool_cache_get_paddr(struct pool_cache *

simple_lock(&pc->pc_slock);

pcg = LIST_FIRST(&pc->pc_partgroups);

if ((pcg = pc->pc_allocfrom) == NULL) {

if (pcg == NULL) {

TAILQ_FOREACH(pcg, &pc->pc_grouplist, pcg_list) {

pcg = LIST_FIRST(&pc->pc_fullgroups);

if (pcg->pcg_avail != 0) {

if (pcg != NULL) {

pc->pc_allocfrom = pcg;

LIST_REMOVE(pcg, pcg_list);

goto have_group;

LIST_INSERT_HEAD(&pc->pc_partgroups, pcg, pcg_list);

}

if (pcg == NULL) {

* No groups with any available objects. Allocate

Line 1978 pool_cache_get_paddr(struct pool_cache *

Line 1762 pool_cache_get_paddr(struct pool_cache *

return (object);

}

have_group:

pc->pc_hits++;

pc->pc_nitems--;

object = pcg_get(pcg, pap);

if (pcg->pcg_avail == 0) {

if (pcg->pcg_avail == 0)

LIST_REMOVE(pcg, pcg_list);

pc->pc_allocfrom = NULL;

LIST_INSERT_HEAD(&pc->pc_emptygroups, pcg, pcg_list);

}

simple_unlock(&pc->pc_slock);

return (object);

Line 2005 pool_cache_put_paddr(struct pool_cache *

Line 1789 pool_cache_put_paddr(struct pool_cache *

simple_lock(&pc->pc_slock);

pcg = LIST_FIRST(&pc->pc_partgroups);

if ((pcg = pc->pc_freeto) == NULL) {

if (pcg == NULL) {

TAILQ_FOREACH(pcg, &pc->pc_grouplist, pcg_list) {

pcg = LIST_FIRST(&pc->pc_emptygroups);

if (pcg->pcg_avail != PCG_NOBJECTS) {

if (pcg != NULL) {

pc->pc_freeto = pcg;

LIST_REMOVE(pcg, pcg_list);

goto have_group;

LIST_INSERT_HEAD(&pc->pc_partgroups, pcg, pcg_list);

}

if (pcg == NULL) {

* No empty groups to free the object to. Attempt to

Line 2023 pool_cache_put_paddr(struct pool_cache *

Line 1805 pool_cache_put_paddr(struct pool_cache *

s = splvm();

pcg = pool_get(&pcgpool, PR_NOWAIT);

splx(s);

if (pcg == NULL) {

if (pcg != NULL) {

memset(pcg, 0, sizeof(*pcg));

simple_lock(&pc->pc_slock);

* Unable to allocate a cache group; destruct the object

pc->pc_ngroups++;

* and free it back to the pool.

TAILQ_INSERT_TAIL(&pc->pc_grouplist, pcg, pcg_list);

if (pc->pc_freeto == NULL)

pool_cache_destruct_object(pc, object);

pc->pc_freeto = pcg;

return;

goto have_group;

}

memset(pcg, 0, sizeof(*pcg));

simple_lock(&pc->pc_slock);

pc->pc_ngroups++;

* Unable to allocate a cache group; destruct the object

LIST_INSERT_HEAD(&pc->pc_partgroups, pcg, pcg_list);

* and free it back to the pool.

pool_cache_destruct_object(pc, object);

return;

}

have_group:

pc->pc_nitems++;

pcg_put(pcg, object, pa);

if (pcg->pcg_avail == PCG_NOBJECTS) {

if (pcg->pcg_avail == PCG_NOBJECTS)

LIST_REMOVE(pcg, pcg_list);

pc->pc_freeto = NULL;

LIST_INSERT_HEAD(&pc->pc_fullgroups, pcg, pcg_list);

}

simple_unlock(&pc->pc_slock);

}

Line 2063 pool_cache_destruct_object(struct pool_c

Line 1848 pool_cache_destruct_object(struct pool_c

pool_put(pc->pc_pool, object);

}

* pool_cache_do_invalidate:

* This internal function implements pool_cache_invalidate() and

* pool_cache_reclaim().

static void

pool_do_cache_invalidate_grouplist(struct pool_cache_grouplist *pcgsl,

pool_cache_do_invalidate(struct pool_cache *pc, int free_groups,

struct pool_cache *pc, struct pool_pagelist *pq,

void (*putit)(struct pool *, void *))

struct pool_cache_grouplist *pcgdl)

{

struct pool_cache_group *pcg, *npcg;

void *object;

int s;

for (pcg = LIST_FIRST(pcgsl); pcg != NULL; pcg = npcg) {

for (pcg = TAILQ_FIRST(&pc->pc_grouplist); pcg != NULL;

npcg = LIST_NEXT(pcg, pcg_list);

pcg = npcg) {

npcg = TAILQ_NEXT(pcg, pcg_list);

while (pcg->pcg_avail != 0) {

pc->pc_nitems--;

object = pcg_get(pcg, NULL);

if (pcg->pcg_avail == 0 && pc->pc_allocfrom == pcg)

pc->pc_allocfrom = NULL;

if (pc->pc_dtor != NULL)

(*pc->pc_dtor)(pc->pc_arg, object);

pool_do_put(pc->pc_pool, object, pq);

(*putit)(pc->pc_pool, object);

}

if (free_groups) {

pc->pc_ngroups--;

TAILQ_REMOVE(&pc->pc_grouplist, pcg, pcg_list);

if (pc->pc_freeto == pcg)

pc->pc_freeto = NULL;

s = splvm();

pool_put(&pcgpool, pcg);

splx(s);

}

pc->pc_ngroups--;

LIST_REMOVE(pcg, pcg_list);

LIST_INSERT_HEAD(pcgdl, pcg, pcg_list);

}

static void

pool_do_cache_invalidate(struct pool_cache *pc, struct pool_pagelist *pq,

struct pool_cache_grouplist *pcgl)

{

LOCK_ASSERT(simple_lock_held(&pc->pc_slock));

LOCK_ASSERT(simple_lock_held(&pc->pc_pool->pr_slock));

pool_do_cache_invalidate_grouplist(&pc->pc_fullgroups, pc, pq, pcgl);

pool_do_cache_invalidate_grouplist(&pc->pc_partgroups, pc, pq, pcgl);

KASSERT(LIST_EMPTY(&pc->pc_partgroups));

KASSERT(LIST_EMPTY(&pc->pc_fullgroups));

KASSERT(pc->pc_nitems == 0);

}

* pool_cache_invalidate:

Line 2111 pool_do_cache_invalidate(struct pool_cac

Line 1895 pool_do_cache_invalidate(struct pool_cac

void

pool_cache_invalidate(struct pool_cache *pc)

{

struct pool_pagelist pq;

struct pool_cache_grouplist pcgl;

LIST_INIT(&pq);

LIST_INIT(&pcgl);

simple_lock(&pc->pc_slock);

simple_lock(&pc->pc_pool->pr_slock);

pool_cache_do_invalidate(pc, 0, pool_put);

pool_do_cache_invalidate(pc, &pq, &pcgl);

simple_unlock(&pc->pc_pool->pr_slock);

simple_unlock(&pc->pc_slock);

pr_pagelist_free(pc->pc_pool, &pq);

pcg_grouplist_free(&pcgl);

}

Line 2135 pool_cache_invalidate(struct pool_cache

Line 1907 pool_cache_invalidate(struct pool_cache

* Reclaim a pool cache for pool_reclaim().

static void

pool_cache_reclaim(struct pool_cache *pc, struct pool_pagelist *pq,

pool_cache_reclaim(struct pool_cache *pc)

struct pool_cache_grouplist *pcgl)

{

simple_lock(&pc->pc_slock);

* We're locking in the wrong order (normally pool_cache -> pool,

pool_cache_do_invalidate(pc, 1, pool_do_put);

* but the pool is already locked when we get here), so we have

* to use trylock. If we can't lock the pool_cache, it's not really

* a big deal here.

if (simple_lock_try(&pc->pc_slock) == 0)

return;

pool_do_cache_invalidate(pc, pq, pcgl);

simple_unlock(&pc->pc_slock);

}

Line 2314 pool_page_alloc(struct pool *pp, int fla

Line 2076 pool_page_alloc(struct pool *pp, int fla

{

boolean_t waitok = (flags & PR_WAITOK) ? TRUE : FALSE;

return ((void *) uvm_km_alloc_poolpage_cache(kmem_map, waitok));

return ((void *) uvm_km_alloc_poolpage(waitok));

}

void

pool_page_free(struct pool *pp, void *v)

{

uvm_km_free_poolpage_cache(kmem_map, (vaddr_t) v);

uvm_km_free_poolpage((vaddr_t) v);

}

static void *

pool_page_alloc_meta(struct pool *pp, int flags)

{

boolean_t waitok = (flags & PR_WAITOK) ? TRUE : FALSE;

return ((void *) uvm_km_alloc_poolpage(kmem_map, waitok));

}

static void

pool_page_free_meta(struct pool *pp, void *v)

{

uvm_km_free_poolpage(kmem_map, (vaddr_t) v);

}

#ifdef POOL_SUBPAGE

Line 2344 pool_page_free_meta(struct pool *pp, voi

Line 2091 pool_page_free_meta(struct pool *pp, voi

void *

pool_subpage_alloc(struct pool *pp, int flags)

{

void *v;

int s;

return (pool_get(&psppool, flags));

s = splvm();

v = pool_get(&psppool, flags);

splx(s);

return v;

}

void

pool_subpage_free(struct pool *pp, void *v)

{

int s;

s = splvm();

pool_put(&psppool, v);

splx(s);

}

/* We don't provide a real nointr allocator. Maybe later. */

Line 2381 pool_page_alloc_nointr(struct pool *pp,

Line 2122 pool_page_alloc_nointr(struct pool *pp,

{

boolean_t waitok = (flags & PR_WAITOK) ? TRUE : FALSE;

return ((void *) uvm_km_alloc_poolpage_cache(kernel_map, waitok));

return ((void *) uvm_km_alloc_poolpage1(kernel_map,

uvm.kernel_object, waitok));

}

void

pool_page_free_nointr(struct pool *pp, void *v)

{

uvm_km_free_poolpage_cache(kernel_map, (vaddr_t) v);

uvm_km_free_poolpage1(kernel_map, (vaddr_t) v);

}

#endif /* POOL_SUBPAGE */

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