hat_refmod.c revision 7c478bd95313f5f23a4c958a745db2134aa03244
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License, Version 1.0 only
* (the "License"). You may not use this file except in compliance
* with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2004 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#pragma ident "%Z%%M% %I% %E% SMI"
/*
* The following routines implement the hat layer's
* recording of the referenced and modified bits.
*/
#include <sys/types.h>
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/debug.h>
#include <sys/kmem.h>
/*
* Note, usage of cmn_err requires you not hold any hat layer locks.
*/
#include <sys/cmn_err.h>
#include <vm/as.h>
#include <vm/hat.h>
kmutex_t hat_statlock; /* protects all hat statistics data */
struct hrmstat *hrm_memlist; /* tracks memory alloced for hrm_blist blocks */
struct hrmstat **hrm_hashtab; /* hash table for finding blocks quickly */
struct hrmstat *hrm_blist;
int hrm_blist_incr = HRM_BLIST_INCR;
int hrm_blist_lowater = HRM_BLIST_INCR/2;
int hrm_blist_num = 0;
int hrm_blist_total = 0;
int hrm_mlockinited = 0;
int hrm_allocfailmsg = 0; /* print a message when allocations fail */
int hrm_allocfail = 0;
static struct hrmstat *hrm_balloc(void);
static int hrm_init(void);
static void hrm_link(struct hrmstat *);
static void hrm_setbits(struct hrmstat *, caddr_t, uint_t);
static void hrm_hashout(struct hrmstat *);
static void hrm_getblk(int);
#define hrm_hash(as, addr) \
(HRM_HASHMASK & \
(((uintptr_t)(addr) >> HRM_BASESHIFT) ^ ((uintptr_t)(as) >> 2)))
#define hrm_match(hrm, as, addr) \
(((hrm)->hrm_as == (as) && \
((hrm)->hrm_base == ((uintptr_t)(addr) & HRM_BASEMASK))) ? 1 : 0)
/*
* reserve enough statistic blocks for
* chunk of bytes (pages) in a given as.
*/
/* ARGSUSED */
void
hat_resvstat(size_t chunk, struct as *as, caddr_t addr)
{
int nhrm = btop(chunk)/HRM_PAGES;
if (nhrm < HRM_BLIST_INCR)
nhrm = 0; /* preallocate at least HRM_BLIST_INCR */
hrm_getblk(nhrm);
}
/*
* Start the statistics gathering for an address space.
* Return -1 if we can't do it, otherwise return an opaque
* identifier to be used when querying for the gathered statistics.
* The identifier is an unused bit in a_vbits.
* Bit 0 is reserved for swsmon.
*/
int
hat_startstat(struct as *as)
{
uint_t nbits; /* number of bits */
uint_t bn; /* bit number */
uint_t id; /* new vbit, identifier */
uint_t vbits; /* used vbits of address space */
size_t chunk; /* mapped size for stats */
/*
* Initialize global data, if needed.
*/
if (hrm_init() == -1)
return (-1);
/*
* If the refmod saving memory allocator runs out, print
* a warning message about how to fix it, see comment at
* the beginning of hat_setstat.
*/
if (hrm_allocfailmsg) {
cmn_err(CE_WARN,
"hrm_balloc failures occured, increase hrm_blist_incr");
hrm_allocfailmsg = 0;
}
/*
* Verify that a buffer of statistics blocks exists
* and allocate more, if needed.
*/
chunk = hat_get_mapped_size(as->a_hat);
chunk = (btop(chunk)/HRM_PAGES);
if (chunk < HRM_BLIST_INCR)
chunk = 0;
hrm_getblk((int)chunk);
/*
* Find a unused id in the given address space.
*/
hat_enter(as->a_hat);
vbits = as->a_vbits;
nbits = sizeof (as->a_vbits) * NBBY;
for (bn = 1, id = 2; bn < (nbits - 1); bn++, id <<= 1)
if ((id & vbits) == 0)
break;
if (bn >= (nbits - 1)) {
hat_exit(as->a_hat);
return (-1);
}
as->a_vbits |= id;
hat_exit(as->a_hat);
(void) hat_stats_enable(as->a_hat);
return (id);
}
/*
* Record referenced and modified information for an address space.
* Rmbits is a word containing the referenced bit in bit position 1
* and the modified bit in bit position 0.
*
* For current informational uses, one can rerun any program using
* this facility after modifying the hrm_blist_incr to be a larger
* amount so that a larger buffer of blocks will be maintained.
*/
void
hat_setstat(struct as *as, caddr_t addr, size_t len, uint_t rmbits)
{
struct hrmstat *hrm;
uint_t vbits, newbits, nb;
int h;
ASSERT(len == PAGESIZE);
ASSERT((rmbits & ~(P_MOD|P_REF)) == 0);
if (rmbits == 0)
return;
/*
* Initialize global data, if needed.
*/
if (hrm_init() == -1)
return;
mutex_enter(&hat_statlock);
/*
* Search the hash list for the as and addr we are looking for
* and set the ref and mod bits in every block that matches.
*/
vbits = 0;
h = hrm_hash(as, addr);
for (hrm = hrm_hashtab[h]; hrm; hrm = hrm->hrm_hnext) {
if (hrm_match(hrm, as, addr)) {
hrm_setbits(hrm, addr, rmbits);
vbits |= hrm->hrm_id;
}
}
/*
* If we didn't find a block for all of the enabled
* vpages bits, then allocate and initialize a block
* for each bit that was not found.
*/
if (vbits != as->a_vbits) {
newbits = vbits ^ as->a_vbits;
while (newbits) {
if (ffs(newbits))
nb = 1 << (ffs(newbits)-1);
hrm = (struct hrmstat *)hrm_balloc();
if (hrm == NULL) {
hrm_allocfailmsg = 1;
hrm_allocfail++;
mutex_exit(&hat_statlock);
return;
}
hrm->hrm_as = as;
hrm->hrm_base = (uintptr_t)addr & HRM_BASEMASK;
hrm->hrm_id = nb;
hrm_link(hrm);
hrm_setbits(hrm, addr, rmbits);
newbits &= ~nb;
}
}
mutex_exit(&hat_statlock);
}
/*
* Free the resources used to maintain the referenced and modified
* statistics for the virtual page view of an address space
* identified by id.
*/
void
hat_freestat(struct as *as, int id)
{
struct hrmstat *hrm, *prev_ahrm;
hat_stats_disable(as->a_hat); /* tell the hat layer to stop */
hat_enter(as->a_hat);
if (id == 0)
as->a_vbits = 0;
else
as->a_vbits &= ~id;
if ((hrm = as->a_hrm) == NULL) {
hat_exit(as->a_hat);
return;
}
hat_exit(as->a_hat);
mutex_enter(&hat_statlock);
if (hrm_hashtab == NULL) {
/* can't happen? */
mutex_exit(&hat_statlock);
return;
}
for (prev_ahrm = NULL; hrm; hrm = hrm->hrm_anext) {
if ((id == hrm->hrm_id) || (id == NULL)) {
hrm_hashout(hrm);
hrm->hrm_hnext = hrm_blist;
hrm_blist = hrm;
hrm_blist_num++;
if (prev_ahrm == NULL)
as->a_hrm = hrm->hrm_anext;
else
prev_ahrm->hrm_anext = hrm->hrm_anext;
} else
prev_ahrm = hrm;
}
/*
* If all statistics blocks are free,
* return the memory to the system.
*/
if (hrm_blist_num == hrm_blist_total) {
/* zero the block list since we are giving back its memory */
hrm_blist = NULL;
hrm_blist_num = 0;
hrm_blist_total = 0;
while (hrm_memlist) {
hrm = hrm_memlist;
hrm_memlist = hrm->hrm_hnext;
kmem_free(hrm, hrm->hrm_base);
}
ASSERT(hrm_memlist == NULL);
kmem_free(hrm_hashtab, HRM_HASHSIZE * sizeof (char *));
hrm_hashtab = NULL;
}
mutex_exit(&hat_statlock);
}
/*
* Initialize any global state for the statistics handling.
* Hrm_lock protects the globally allocted memory:
* hrm_memlist and hrm_hashtab.
*/
static int
hrm_init(void)
{
/*
* Alloacte the hashtable if it doesn't exist yet.
*/
mutex_enter(&hat_statlock);
if (hrm_hashtab == NULL)
hrm_hashtab =
kmem_zalloc(HRM_HASHSIZE * sizeof (char *), KM_SLEEP);
mutex_exit(&hat_statlock);
return (0);
}
/*
* Grab memory for statistics gathering of the hat layer.
*/
static void
hrm_getblk(int chunk)
{
struct hrmstat *hrm, *l;
int i;
int hrm_incr;
mutex_enter(&hat_statlock);
if ((hrm_blist == NULL) ||
(hrm_blist_num <= hrm_blist_lowater) ||
chunk) {
mutex_exit(&hat_statlock);
hrm_incr = chunk? chunk : hrm_blist_incr;
hrm = kmem_zalloc(sizeof (struct hrmstat) * hrm_incr, KM_SLEEP);
hrm->hrm_base = sizeof (struct hrmstat) * hrm_incr;
/*
* thread the allocated blocks onto a freelist
* using the first block to hold information for
* freeing them all later
*/
mutex_enter(&hat_statlock);
hrm->hrm_hnext = hrm_memlist;
hrm_memlist = hrm;
hrm_blist_total += (hrm_incr - 1);
for (i = 1; i < hrm_incr; i++) {
l = &hrm[i];
l->hrm_hnext = hrm_blist;
hrm_blist = l;
hrm_blist_num++;
}
}
mutex_exit(&hat_statlock);
}
static void
hrm_hashin(struct hrmstat *hrm)
{
int h;
ASSERT(MUTEX_HELD(&hat_statlock));
h = hrm_hash(hrm->hrm_as, hrm->hrm_base);
hrm->hrm_hnext = hrm_hashtab[h];
hrm_hashtab[h] = hrm;
}
static void
hrm_hashout(struct hrmstat *hrm)
{
struct hrmstat *list, **prev_hrm;
int h;
ASSERT(MUTEX_HELD(&hat_statlock));
h = hrm_hash(hrm->hrm_as, hrm->hrm_base);
list = hrm_hashtab[h];
prev_hrm = &hrm_hashtab[h];
while (list) {
if (list == hrm) {
*prev_hrm = list->hrm_hnext;
return;
}
prev_hrm = &list->hrm_hnext;
list = list->hrm_hnext;
}
}
/*
* Link a statistic block into an address space and also put it
* on the hash list for future references.
*/
static void
hrm_link(struct hrmstat *hrm)
{
struct as *as = hrm->hrm_as;
ASSERT(MUTEX_HELD(&hat_statlock));
hrm->hrm_anext = as->a_hrm;
as->a_hrm = hrm;
hrm_hashin(hrm);
}
/*
* Allocate a block for statistics keeping.
* Returns NULL if blocks are unavailable.
*/
static struct hrmstat *
hrm_balloc(void)
{
struct hrmstat *hrm;
ASSERT(MUTEX_HELD(&hat_statlock));
hrm = hrm_blist;
if (hrm != NULL) {
hrm_blist = hrm->hrm_hnext;
hrm_blist_num--;
hrm->hrm_hnext = NULL;
}
return (hrm);
}
/*
* Set the ref and mod bits for addr within statistics block hrm.
*/
static void
hrm_setbits(struct hrmstat *hrm, caddr_t addr, uint_t bits)
{
uint_t po, bo, spb;
uint_t nbits;
po = ((uintptr_t)addr & HRM_BASEOFFSET) >> MMU_PAGESHIFT; /* pg off */
bo = po / (NBBY / 2); /* which byte in bit array */
spb = (3 - (po & 3)) * 2; /* shift position within byte */
nbits = bits << spb; /* bit mask */
hrm->hrm_bits[bo] |= nbits;
}
/*
* Return collected statistics about an address space.
* If clearflag is set, atomically read and zero the bits.
*
* Fill in the data array supplied with the referenced and
* modified bits collected for address range [addr ... addr + len]
* in address space, as, uniquely identified by id.
* The destination is a byte array. We fill in three bits per byte:
* referenced, modified, and hwmapped bits.
* Kernel only interface, can't fault on destination data array.
*
*/
void
hat_getstat(struct as *as, caddr_t addr, size_t len, uint_t id,
caddr_t datap, int clearflag)
{
size_t np; /* number of pages */
caddr_t a;
char *dp;
np = btop(len);
bzero(datap, np);
hat_sync(as->a_hat, addr, len, clearflag);
/* allocate more statistics blocks if needed */
hrm_getblk(0);
mutex_enter(&hat_statlock);
if (hrm_hashtab == NULL) {
/* can happen when victim process exits */
mutex_exit(&hat_statlock);
return;
}
dp = datap;
a = (caddr_t)((uintptr_t)addr & (uintptr_t)PAGEMASK);
while (a < addr + len) {
struct hrmstat *hrm;
size_t n; /* number of pages, temp */
int h; /* hash index */
uint_t po;
h = hrm_hash(as, a);
n = (HRM_PAGES -
(((uintptr_t)a & HRM_PAGEMASK) >> MMU_PAGESHIFT));
if (n > np)
n = np;
po = ((uintptr_t)a & HRM_BASEOFFSET) >> MMU_PAGESHIFT;
for (hrm = hrm_hashtab[h]; hrm; hrm = hrm->hrm_hnext) {
if (hrm->hrm_as == as &&
hrm->hrm_base == ((uintptr_t)a & HRM_BASEMASK) &&
id == hrm->hrm_id) {
int i, nr;
uint_t bo, spb;
/*
* Extract leading unaligned bits.
*/
i = 0;
while (i < n && (po & 3)) {
bo = po / (NBBY / 2);
spb = (3 - (po & 3)) * 2;
*dp++ |= (hrm->hrm_bits[bo] >> spb) & 3;
if (clearflag)
hrm->hrm_bits[bo] &= ~(3<<spb);
po++;
i++;
}
/*
* Extract aligned bits.
*/
nr = n/4*4;
bo = po / (NBBY / 2);
while (i < nr) {
int bits = hrm->hrm_bits[bo];
*dp++ |= (bits >> 6) & 3;
*dp++ |= (bits >> 4) & 3;
*dp++ |= (bits >> 2) & 3;
*dp++ |= (bits >> 0) & 3;
if (clearflag)
hrm->hrm_bits[bo] = 0;
bo++;
po += 4;
i += 4;
}
/*
* Extract trailing unaligned bits.
*/
while (i < n) {
bo = po / (NBBY / 2);
spb = (3 - (po & 3)) * 2;
*dp++ |= (hrm->hrm_bits[bo] >> spb) & 3;
if (clearflag)
hrm->hrm_bits[bo] &= ~(3<<spb);
po++;
i++;
}
break;
}
}
if (hrm == NULL)
dp += n;
np -= n;
a += n * MMU_PAGESIZE;
}
mutex_exit(&hat_statlock);
}