src/sys/kern/subr_pool.c - diff

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Diff for /src/sys/kern/subr_pool.c between version 1.112.2.5 and 1.128

version 1.112.2.5, 2006/08/11 15:45:46

version 1.128, 2007/03/04 06:03:07

Line 1

/* $NetBSD$ */

/*-

* This code is derived from software contributed to The NetBSD Foundation

Line 53 __KERNEL_RCSID(0, "$NetBSD$");

#include <sys/lock.h>

#include <sys/pool.h>

#include <sys/syslog.h>

#include <sys/debug.h>

#include <uvm/uvm.h>

Line 111 struct pool_item_header {

Line 112 struct pool_item_header {

ph_pagelist; /* pool page list */

SPLAY_ENTRY(pool_item_header)

ph_node; /* Off-page page headers */

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

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

struct timeval ph_time; /* last referenced */

union {

/* !PR_NOTOUCH */

Line 183 static void pool_cache_reclaim(struct po

Line 184 static void pool_cache_reclaim(struct po

static void pcg_grouplist_free(struct pool_cache_grouplist *);

static int pool_catchup(struct pool *);

static void pool_prime_page(struct pool *, caddr_t,

static void pool_prime_page(struct pool *, void *,

struct pool_item_header *);

static void pool_update_curpage(struct pool *);

Line 325 pr_item_notouch_index(const struct pool

Line 326 pr_item_notouch_index(const struct pool

int idx;

KASSERT(pp->pr_roflags & PR_NOTOUCH);

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

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

KASSERT(idx < pp->pr_itemsperpage);

return idx;

}

Line 358 pr_item_notouch_get(const struct pool *p

Line 359 pr_item_notouch_get(const struct pool *p

ph->ph_firstfree = freelist[idx];

freelist[idx] = PR_INDEX_USED;

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

return (char *)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)

{

* we consider pool_item_header with smaller ph_page bigger.

* (this unnatural ordering is for the benefit of pr_find_pagehead.)

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

return (-1);

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

return (1);

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

return (-1);

else

return (0);

}

Line 376 SPLAY_PROTOTYPE(phtree, pool_item_header

Line 383 SPLAY_PROTOTYPE(phtree, pool_item_header

SPLAY_GENERATE(phtree, pool_item_header, ph_node, phtree_compare);

* Return the pool page header based on page address.

* Return the pool page header based on item address.

static inline struct pool_item_header *

pr_find_pagehead(struct pool *pp, caddr_t page)

pr_find_pagehead(struct pool *pp, void *v)

{

struct pool_item_header *ph, tmp;

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

if ((pp->pr_roflags & PR_NOALIGN) != 0) {

return ((struct pool_item_header *)(page + pp->pr_phoffset));

tmp.ph_page = (void *)(uintptr_t)v;

ph = SPLAY_FIND(phtree, &pp->pr_phtree, &tmp);

if (ph == NULL) {

ph = SPLAY_ROOT(&pp->pr_phtree);

if (ph != NULL && phtree_compare(&tmp, ph) >= 0) {

ph = SPLAY_NEXT(phtree, &pp->pr_phtree, ph);

}

KASSERT(ph == NULL || phtree_compare(&tmp, ph) < 0);

}

} else {

void *page =

(void *)((uintptr_t)v & pp->pr_alloc->pa_pagemask);

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

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

} else {

tmp.ph_page = page;

ph = SPLAY_FIND(phtree, &pp->pr_phtree, &tmp);

}

tmp.ph_page = page;

KASSERT(ph == NULL || ((pp->pr_roflags & PR_PHINPAGE) != 0) ||

ph = SPLAY_FIND(phtree, &pp->pr_phtree, &tmp);

((char *)ph->ph_page <= (char *)v &&

(char *)v < (char *)ph->ph_page + pp->pr_alloc->pa_pagesz));

return ph;

}

Line 447 pr_rmpage(struct pool *pp, struct pool_i

Line 474 pr_rmpage(struct pool *pp, struct pool_i

pool_update_curpage(pp);

}

static boolean_t

static bool

pa_starved_p(struct pool_allocator *pa)

{

if (pa->pa_backingmap != NULL) {

return vm_map_starved_p(pa->pa_backingmap);

}

return FALSE;

return false;

}

static int

Line 611 pool_init(struct pool *pp, size_t size,

Line 638 pool_init(struct pool *pp, size_t size,

if (align == 0)

align = ALIGN(1);

if (size < sizeof(struct pool_item))

if ((flags & PR_NOTOUCH) == 0 && size < sizeof(struct pool_item))

size = sizeof(struct pool_item);

size = roundup(size, align);

#ifdef DIAGNOSTIC

if (size > palloc->pa_pagesz)

panic("pool_init: pool item size (%lu) too large",

panic("pool_init: pool item size (%zu) too large", size);

(u_long)size);

#endif

Line 649 pool_init(struct pool *pp, size_t size,

Line 675 pool_init(struct pool *pp, size_t size,

pp->pr_hardlimit_warning_last.tv_usec = 0;

pp->pr_drain_hook = NULL;

pp->pr_drain_hook_arg = NULL;

pp->pr_freecheck = NULL;

* Decide whether to put the page header off page to avoid

Line 667 pool_init(struct pool *pp, size_t size,

Line 694 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_roflags & (PR_NOTOUCH | PR_NOALIGN)) == 0 &&

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

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

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

Line 860 pool_set_drain_hook(struct pool *pp, voi

Line 887 pool_set_drain_hook(struct pool *pp, voi

}

static struct pool_item_header *

pool_alloc_item_header(struct pool *pp, caddr_t storage, int flags)

pool_alloc_item_header(struct pool *pp, void *storage, int flags)

{

struct pool_item_header *ph;

int s;

Line 868 pool_alloc_item_header(struct pool *pp,

Line 895 pool_alloc_item_header(struct pool *pp,

LOCK_ASSERT(simple_lock_held(&pp->pr_slock) == 0);

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

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

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

else {

s = splvm();

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

Line 904 pool_get(struct pool *pp, int flags)

Line 931 pool_get(struct pool *pp, int flags)

#ifdef LOCKDEBUG

if (flags & PR_WAITOK)

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

SCHED_ASSERT_UNLOCKED();

#endif

simple_lock(&pp->pr_slock);

Line 1110 pool_get(struct pool *pp, int flags)

Line 1136 pool_get(struct pool *pp, int flags)

}

simple_unlock(&pp->pr_slock);

KASSERT((((vaddr_t)v + pp->pr_itemoffset) & (pp->pr_align - 1)) == 0);

FREECHECK_OUT(&pp->pr_freecheck, v);

return (v);

}

Line 1121 pool_do_put(struct pool *pp, void *v, st

Line 1149 pool_do_put(struct pool *pp, void *v, st

{

struct pool_item *pi = v;

struct pool_item_header *ph;

caddr_t page;

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

SCHED_ASSERT_UNLOCKED();

FREECHECK_IN(&pp->pr_freecheck, v);

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

#ifdef DIAGNOSTIC

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

Line 1136 pool_do_put(struct pool *pp, void *v, st

Line 1161 pool_do_put(struct pool *pp, void *v, st

}

#endif

if (__predict_false((ph = pr_find_pagehead(pp, page)) == NULL)) {

if (__predict_false((ph = pr_find_pagehead(pp, v)) == NULL)) {

pr_printlog(pp, NULL, printf);

panic("pool_put: %s: page header missing", pp->pr_wchan);

}

Line 1145 pool_do_put(struct pool *pp, void *v, st

Line 1170 pool_do_put(struct pool *pp, void *v, st

* Check if we're freeing a locked simple lock.

simple_lock_freecheck((caddr_t)pi, ((caddr_t)pi) + pp->pr_size);

simple_lock_freecheck(pi, (char *)pi + pp->pr_size);

#endif

Line 1183 pool_do_put(struct pool *pp, void *v, st

Line 1208 pool_do_put(struct pool *pp, void *v, st

pp->pr_flags &= ~PR_WANTED;

if (ph->ph_nmissing == 0)

pp->pr_nidle++;

wakeup((caddr_t)pp);

wakeup((void *)pp);

return;

}

Line 1345 pool_prime(struct pool *pp, int n)

Line 1370 pool_prime(struct pool *pp, int n)

* Note, we must be called with the pool descriptor LOCKED.

static void

pool_prime_page(struct pool *pp, caddr_t storage, struct pool_item_header *ph)

pool_prime_page(struct pool *pp, void *storage, struct pool_item_header *ph)

{

struct pool_item *pi;

caddr_t cp = storage;

void *cp = storage;

unsigned int align = pp->pr_align;

const unsigned int align = pp->pr_align;

unsigned int ioff = pp->pr_itemoffset;

const unsigned int ioff = pp->pr_itemoffset;

int n;

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

#ifdef DIAGNOSTIC

if (((u_long)cp & (pp->pr_alloc->pa_pagesz - 1)) != 0)

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

((uintptr_t)cp & (pp->pr_alloc->pa_pagesz - 1)) != 0)

panic("pool_prime_page: %s: unaligned page", pp->pr_wchan);

#endif

Line 1376 pool_prime_page(struct pool *pp, caddr_t

Line 1402 pool_prime_page(struct pool *pp, caddr_t

* Color this page.

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

cp = (char *)cp + pp->pr_curcolor;

if ((pp->pr_curcolor += align) > pp->pr_maxcolor)

pp->pr_curcolor = 0;

Line 1384 pool_prime_page(struct pool *pp, caddr_t

Line 1410 pool_prime_page(struct pool *pp, caddr_t

* Adjust storage to apply aligment to `pr_itemoffset' in each item.

if (ioff != 0)

cp = (caddr_t)(cp + (align - ioff));

cp = (char *)cp + align - ioff;

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

* Insert remaining chunks on the bucket list.

Line 1396 pool_prime_page(struct pool *pp, caddr_t

Line 1424 pool_prime_page(struct pool *pp, caddr_t

pool_item_freelist_t *freelist = PR_FREELIST(ph);

int i;

ph->ph_off = cp - storage;

ph->ph_off = (char *)cp - (char *)storage;

ph->ph_firstfree = 0;

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

freelist[i] = i + 1;

Line 1412 pool_prime_page(struct pool *pp, caddr_t

Line 1440 pool_prime_page(struct pool *pp, caddr_t

#ifdef DIAGNOSTIC

pi->pi_magic = PI_MAGIC;

#endif

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

cp = (char *)cp + pp->pr_size;

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

}

Line 1763 pool_print1(struct pool *pp, const char

Line 1793 pool_print1(struct pool *pp, const char

(*pr)("\n");

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

(*pr)("\tno log\n");

else

else {

pr_printlog(pp, NULL, pr);

}

skip_log:

if (print_cache == 0)

Line 1812 static int

Line 1843 static int

pool_chk_page(struct pool *pp, const char *label, struct pool_item_header *ph)

{

struct pool_item *pi;

caddr_t page;

void *page;

int n;

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

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

if (page != ph->ph_page &&

page = (void *)((uintptr_t)ph & pp->pr_alloc->pa_pagemask);

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

if (page != ph->ph_page &&

if (label != NULL)

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

printf("%s: ", label);

if (label != NULL)

printf("pool(%p:%s): page inconsistency: page %p;"

printf("%s: ", label);

" at page head addr %p (p %p)\n", pp,

printf("pool(%p:%s): page inconsistency: page %p;"

pp->pr_wchan, ph->ph_page,

" at page head addr %p (p %p)\n", pp,

ph, page);

pp->pr_wchan, ph->ph_page,

return 1;

ph, page);

return 1;

}

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

Line 1839 pool_chk_page(struct pool *pp, const cha

Line 1872 pool_chk_page(struct pool *pp, const cha

if (label != NULL)

printf("%s: ", label);

printf("pool(%s): free list modified: magic=%x;"

" page %p; item ordinal %d;"

" page %p; item ordinal %d; addr %p\n",

" addr %p (p %p)\n",

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

n, pi, page);

n, pi);

panic("pool");

}

#endif

page =

if ((pp->pr_roflags & PR_NOALIGN) != 0) {

(caddr_t)((u_long)pi & pp->pr_alloc->pa_pagemask);

continue;

}

page = (void *)((uintptr_t)pi & pp->pr_alloc->pa_pagemask);

if (page == ph->ph_page)

continue;

Line 2041 pool_cache_get_paddr(struct pool_cache *

Line 2075 pool_cache_get_paddr(struct pool_cache *

return (NULL);

}

KASSERT((((vaddr_t)object + pc->pc_pool->pr_itemoffset) &

(pc->pc_pool->pr_align - 1)) == 0);

if (object != NULL && pap != NULL) {

#ifdef POOL_VTOPHYS

*pap = POOL_VTOPHYS(object);

Line 2048 pool_cache_get_paddr(struct pool_cache *

Line 2084 pool_cache_get_paddr(struct pool_cache *

*pap = POOL_PADDR_INVALID;

#endif

}

FREECHECK_OUT(&pc->pc_freecheck, object);

return (object);

}

Line 2061 pool_cache_get_paddr(struct pool_cache *

Line 2099 pool_cache_get_paddr(struct pool_cache *

}

simple_unlock(&pc->pc_slock);

KASSERT((((vaddr_t)object + pc->pc_pool->pr_itemoffset) &

(pc->pc_pool->pr_align - 1)) == 0);

FREECHECK_OUT(&pc->pc_freecheck, object);

return (object);

}

Line 2076 pool_cache_put_paddr(struct pool_cache *

Line 2117 pool_cache_put_paddr(struct pool_cache *

struct pool_cache_group *pcg;

int s;

FREECHECK_IN(&pc->pc_freecheck, object);

if (__predict_false((pc->pc_pool->pr_flags & PR_WANTED) != 0)) {

goto destruct;

}

Line 2328 pool_allocator_free(struct pool *pp, voi

Line 2371 pool_allocator_free(struct pool *pp, voi

void *

pool_page_alloc(struct pool *pp, int flags)

{

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

bool waitok = (flags & PR_WAITOK) ? true : false;

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

}

Line 2343 pool_page_free(struct pool *pp, void *v)

Line 2386 pool_page_free(struct pool *pp, void *v)

static void *

pool_page_alloc_meta(struct pool *pp, int flags)

{

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

bool waitok = (flags & PR_WAITOK) ? true : false;

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

}

Line 2395 pool_subpage_free_nointr(struct pool *pp

Line 2438 pool_subpage_free_nointr(struct pool *pp

void *

pool_page_alloc_nointr(struct pool *pp, int flags)

{

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

bool waitok = (flags & PR_WAITOK) ? true : false;

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

}

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