src/sys/kern/subr_pool.c - diff

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Diff for /src/sys/kern/subr_pool.c between version 1.137.2.1 and 1.144

version 1.137.2.1, 2007/12/08 17:57:46

version 1.144, 2007/12/22 04:31:34

Line 40

#include <sys/cdefs.h>

__KERNEL_RCSID(0, "$NetBSD$");

#include "opt_ddb.h"

#include "opt_pool.h"

#include "opt_poollog.h"

#include "opt_lockdebug.h"

Line 127 struct pool_item_header {

Line 128 struct pool_item_header {

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

struct timeval ph_time; /* last referenced */

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

uint16_t ph_off; /* start offset in page */

union {

/* !PR_NOTOUCH */

struct {

Line 135 struct pool_item_header {

Line 137 struct pool_item_header {

} phu_normal;

/* PR_NOTOUCH */

struct {

uint16_t phu_off; /* start offset in page */

pool_item_bitmap_t phu_bitmap[1];

pool_item_bitmap_t phu_bitmap[];

} phu_notouch;

} ph_u;

};

#define ph_itemlist ph_u.phu_normal.phu_itemlist

#define ph_off ph_u.phu_notouch.phu_off

#define ph_bitmap ph_u.phu_notouch.phu_bitmap

struct pool_item {

Line 181 struct pool_item {

* from it.

static struct pool pcgpool;

static struct pool pcg_normal_pool;

static struct pool pcg_large_pool;

static struct pool cache_pool;

static struct pool cache_cpu_pool;

Line 412 phtree_compare(struct pool_item_header *

Line 413 phtree_compare(struct pool_item_header *

SPLAY_PROTOTYPE(phtree, pool_item_header, ph_node, phtree_compare);

SPLAY_GENERATE(phtree, pool_item_header, ph_node, phtree_compare);

static inline struct pool_item_header *

pr_find_pagehead_noalign(struct pool *pp, void *v)

{

struct pool_item_header *ph, tmp;

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);

}

return ph;

}

* Return the pool page header based on item address.

Line 421 pr_find_pagehead(struct pool *pp, void *

Line 440 pr_find_pagehead(struct pool *pp, void *

struct pool_item_header *ph, tmp;

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

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

ph = pr_find_pagehead_noalign(pp, 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);

Line 840 pool_init(struct pool *pp, size_t size,

Line 851 pool_init(struct pool *pp, size_t size,

pool_init(&psppool, POOL_SUBPAGE, POOL_SUBPAGE, 0,

PR_RECURSIVE, "psppool", &pool_allocator_meta, IPL_VM);

#endif

pool_init(&pcgpool, sizeof(pcg_t), CACHE_LINE_SIZE, 0, 0,

"cachegrp", &pool_allocator_meta, IPL_VM);

size = sizeof(pcg_t) +

(PCG_NOBJECTS_NORMAL - 1) * sizeof(pcgpair_t);

pool_init(&pcg_normal_pool, size, CACHE_LINE_SIZE, 0, 0,

"pcgnormal", &pool_allocator_meta, IPL_VM);

size = sizeof(pcg_t) +

(PCG_NOBJECTS_LARGE - 1) * sizeof(pcgpair_t);

pool_init(&pcg_large_pool, size, CACHE_LINE_SIZE, 0, 0,

"pcglarge", &pool_allocator_meta, IPL_VM);

}

if (__predict_true(!cold)) {

Line 1436 pool_prime_page(struct pool *pp, void *s

Line 1455 pool_prime_page(struct pool *pp, void *s

* Color this page.

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

ph->ph_off = pp->pr_curcolor;

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

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

pp->pr_curcolor = 0;

Line 1866 pool_print1(struct pool *pp, const char

Line 1886 pool_print1(struct pool *pp, const char

#define PR_GROUPLIST(pcg) \

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

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

for (i = 0; i < pcg->pcg_size; i++) { \

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

POOL_PADDR_INVALID) { \

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

Line 2078 pool_cache_bootstrap(pool_cache_t pc, si

Line 2098 pool_cache_bootstrap(pool_cache_t pc, si

pc->pc_refcnt = 0;

pc->pc_freecheck = NULL;

if ((flags & PR_LARGECACHE) != 0) {

pc->pc_pcgsize = PCG_NOBJECTS_LARGE;

} else {

pc->pc_pcgsize = PCG_NOBJECTS_NORMAL;

}

/* Allocate per-CPU caches. */

memset(pc->pc_cpus, 0, sizeof(pc->pc_cpus));

pc->pc_ncpu = 0;

if (ncpu == 0) {

if (ncpu < 2) {

/* XXX For sparc: boot CPU is not attached yet. */

pool_cache_cpu_init1(curcpu(), pc);

} else {

Line 2279 pool_cache_invalidate_groups(pool_cache_

Line 2305 pool_cache_invalidate_groups(pool_cache_

pool_cache_destruct_object1(pc, object);

}

pool_put(&pcgpool, pcg);

if (pcg->pcg_size == PCG_NOBJECTS_LARGE) {

pool_put(&pcg_large_pool, pcg);

} else {

KASSERT(pcg->pcg_size == PCG_NOBJECTS_NORMAL);

pool_put(&pcg_normal_pool, pcg);

}

Line 2419 pool_cache_get_slow(pool_cache_cpu_t *cc

Line 2450 pool_cache_get_slow(pool_cache_cpu_t *cc

pc->pc_emptygroups = cur;

pc->pc_nempty++;

}

KASSERT(pcg->pcg_avail == PCG_NOBJECTS);

KASSERT(pcg->pcg_avail == pcg->pcg_size);

cc->cc_current = pcg;

pc->pc_fullgroups = pcg->pcg_next;

pc->pc_hits++;

Line 2491 pool_cache_get_paddr(pool_cache_t pc, in

Line 2522 pool_cache_get_paddr(pool_cache_t pc, in

if (pap != NULL)

*pap = pcg->pcg_objects[pcg->pcg_avail].pcgo_pa;

pcg->pcg_objects[pcg->pcg_avail].pcgo_va = NULL;

KASSERT(pcg->pcg_avail <= PCG_NOBJECTS);

KASSERT(pcg->pcg_avail <= pcg->pcg_size);

KASSERT(object != NULL);

cc->cc_hits++;

pool_cache_cpu_exit(cc, &s);

Line 2531 pool_cache_put_slow(pool_cache_cpu_t *cc

Line 2562 pool_cache_put_slow(pool_cache_cpu_t *cc

pcg_t *pcg, *cur;

uint64_t ncsw;

pool_cache_t pc;

u_int nobj;

pc = cc->cc_cache;

cc->cc_misses++;

Line 2563 pool_cache_put_slow(pool_cache_cpu_t *cc

Line 2595 pool_cache_put_slow(pool_cache_cpu_t *cc

* group as cc_current and return.

if ((cur = cc->cc_current) != NULL) {

KASSERT(cur->pcg_avail == PCG_NOBJECTS);

KASSERT(cur->pcg_avail == pcg->pcg_size);

cur->pcg_next = pc->pc_fullgroups;

pc->pc_fullgroups = cur;

pc->pc_nfull++;

Line 2590 pool_cache_put_slow(pool_cache_cpu_t *cc

Line 2622 pool_cache_put_slow(pool_cache_cpu_t *cc

* If we can't allocate a new group, just throw the

* object away.

pcg = pool_get(&pcgpool, PR_NOWAIT);

nobj = pc->pc_pcgsize;

if (nobj == PCG_NOBJECTS_LARGE) {

pcg = pool_get(&pcg_large_pool, PR_NOWAIT);

} else {

pcg = pool_get(&pcg_normal_pool, PR_NOWAIT);

}

if (pcg == NULL) {

pool_cache_destruct_object(pc, object);

return NULL;

}

#ifdef DIAGNOSTIC

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

#else

pcg->pcg_avail = 0;

#endif

pcg->pcg_size = nobj;

* Add the empty group to the cache and try again.

Line 2632 pool_cache_put_paddr(pool_cache_t pc, vo

Line 2666 pool_cache_put_paddr(pool_cache_t pc, vo

do {

/* If the current group isn't full, release it there. */

pcg = cc->cc_current;

if (pcg != NULL && pcg->pcg_avail < PCG_NOBJECTS) {

if (pcg != NULL && pcg->pcg_avail < pcg->pcg_size) {

KASSERT(pcg->pcg_objects[pcg->pcg_avail].pcgo_va

== NULL);

pcg->pcg_objects[pcg->pcg_avail].pcgo_va = object;

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

pcg->pcg_avail++;

Line 2692 pool_cache_xcall(pool_cache_t pc)

Line 2724 pool_cache_xcall(pool_cache_t pc)

s = splvm();

mutex_enter(&pc->pc_lock);

if (cur != NULL) {

if (cur->pcg_avail == PCG_NOBJECTS) {

if (cur->pcg_avail == cur->pcg_size) {

list = &pc->pc_fullgroups;

pc->pc_nfull++;

} else if (cur->pcg_avail == 0) {

Line 2706 pool_cache_xcall(pool_cache_t pc)

Line 2738 pool_cache_xcall(pool_cache_t pc)

*list = cur;

}

if (prev != NULL) {

if (prev->pcg_avail == PCG_NOBJECTS) {

if (prev->pcg_avail == prev->pcg_size) {

list = &pc->pc_fullgroups;

pc->pc_nfull++;

} else if (prev->pcg_avail == 0) {

Line 2886 pool_page_free_nointr(struct pool *pp, v

Line 2918 pool_page_free_nointr(struct pool *pp, v

uvm_km_free_poolpage_cache(kernel_map, (vaddr_t) v);

}

#if defined(DDB)

static bool

pool_in_page(struct pool *pp, struct pool_item_header *ph, uintptr_t addr)

{

return (uintptr_t)ph->ph_page <= addr &&

addr < (uintptr_t)ph->ph_page + pp->pr_alloc->pa_pagesz;

}

static bool

pool_in_item(struct pool *pp, void *item, uintptr_t addr)

{

return (uintptr_t)item <= addr && addr < (uintptr_t)item + pp->pr_size;

}

static bool

pool_in_cg(struct pool *pp, struct pool_cache_group *pcg, uintptr_t addr)

{

int i;

if (pcg == NULL) {

return false;

}

for (i = 0; i < pcg->pcg_avail; i++) {

if (pool_in_item(pp, pcg->pcg_objects[i].pcgo_va, addr)) {

return true;

}

return false;

}

static bool

pool_allocated(struct pool *pp, struct pool_item_header *ph, uintptr_t addr)

{

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

unsigned int idx = pr_item_notouch_index(pp, ph, (void *)addr);

pool_item_bitmap_t *bitmap =

ph->ph_bitmap + (idx / BITMAP_SIZE);

pool_item_bitmap_t mask = 1 << (idx & BITMAP_MASK);

return (*bitmap & mask) == 0;

} else {

struct pool_item *pi;

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

if (pool_in_item(pp, pi, addr)) {

return false;

}

return true;

}

void

pool_whatis(uintptr_t addr, void (*pr)(const char *, ...))

{

struct pool *pp;

LIST_FOREACH(pp, &pool_head, pr_poollist) {

struct pool_item_header *ph;

uintptr_t item;

bool allocated = true;

bool incache = false;

bool incpucache = false;

char cpucachestr[32];

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

LIST_FOREACH(ph, &pp->pr_fullpages, ph_pagelist) {

if (pool_in_page(pp, ph, addr)) {

goto found;

}

LIST_FOREACH(ph, &pp->pr_partpages, ph_pagelist) {

if (pool_in_page(pp, ph, addr)) {

allocated =

pool_allocated(pp, ph, addr);

goto found;

}

LIST_FOREACH(ph, &pp->pr_emptypages, ph_pagelist) {

if (pool_in_page(pp, ph, addr)) {

allocated = false;

goto found;

}

continue;

} else {

ph = pr_find_pagehead_noalign(pp, (void *)addr);

if (ph == NULL || !pool_in_page(pp, ph, addr)) {

continue;

}

allocated = pool_allocated(pp, ph, addr);

}

found:

if (allocated && pp->pr_cache) {

pool_cache_t pc = pp->pr_cache;

struct pool_cache_group *pcg;

int i;

for (pcg = pc->pc_fullgroups; pcg != NULL;

pcg = pcg->pcg_next) {

if (pool_in_cg(pp, pcg, addr)) {

incache = true;

goto print;

}

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

pool_cache_cpu_t *cc;

if ((cc = pc->pc_cpus[i]) == NULL) {

continue;

}

if (pool_in_cg(pp, cc->cc_current, addr) ||

pool_in_cg(pp, cc->cc_previous, addr)) {

struct cpu_info *ci =

cpu_lookup_byindex(i);

incpucache = true;

snprintf(cpucachestr,

sizeof(cpucachestr),

"cached by CPU %u",

(u_int)ci->ci_cpuid);

goto print;

}

print:

item = (uintptr_t)ph->ph_page + ph->ph_off;

item = item + rounddown(addr - item, pp->pr_size);

(*pr)("%p is %p+%zu in POOL '%s' (%s)\n",

(void *)addr, item, (size_t)(addr - item),

pp->pr_wchan,

incpucache ? cpucachestr :

incache ? "cached" : allocated ? "allocated" : "free");

}

#endif /* defined(DDB) */

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