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|
/* $OpenBSD: subr_extent.c,v 1.3 1997/07/12 22:50:06 weingart Exp $ */
/* $NetBSD: subr_extent.c,v 1.7 1996/11/21 18:46:34 cgd Exp $ */
/*-
* Copyright (c) 1996 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This code is derived from software contributed to The NetBSD Foundation
* by Jason R. Thorpe and Matthias Drochner.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the NetBSD
* Foundation, Inc. and its contributors.
* 4. Neither the name of The NetBSD Foundation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
/*
* General purpose extent manager.
*/
#ifdef _KERNEL
#include <sys/param.h>
#include <sys/extent.h>
#include <sys/malloc.h>
#include <sys/time.h>
#include <sys/systm.h>
#include <sys/proc.h>
#include <sys/queue.h>
#else
/*
* user-land definitions, so it can fit into a testing harness.
*/
#include <sys/param.h>
#include <sys/extent.h>
#include <sys/queue.h>
#include <errno.h>
#include <stdlib.h>
#include <stdio.h>
#define malloc(s, t, flags) malloc(s)
#define free(p, t) free(p)
#define tsleep(chan, pri, str, timo) (EWOULDBLOCK)
#define wakeup(chan) ((void)0)
#endif
static void extent_insert_and_optimize __P((struct extent *, u_long, u_long,
int, struct extent_region *, struct extent_region *));
static struct extent_region *extent_alloc_region_descriptor
__P((struct extent *, int));
static void extent_free_region_descriptor __P((struct extent *,
struct extent_region *));
static void extent_register __P((struct extent *));
/*
* Macro to align to an arbitrary power-of-two boundary.
*/
#define EXTENT_ALIGN(_start, _align) \
(((_start) + ((_align) - 1)) & (-(_align)))
/*
* Register the extent on a doubly linked list.
* Should work, no?
*/
static LIST_HEAD(listhead, extent) ext_list;
static struct listhead *ext_listp;
static void
extent_register(ex)
struct extent *ex;
{
/* Is this redundant? */
if(ext_listp == NULL){
LIST_INIT(&ext_list);
ext_listp = &ext_list;
}
/* Insert into list */
LIST_INSERT_HEAD(ext_listp, ex, ex_link);
}
/*
* Find a given extent, and return a pointer to
* it so that other extent functions can be used
* on it.
*
* Returns NULL on failure.
*/
struct extent *
extent_find(name)
char *name;
{
struct extent *ep;
for(ep = ext_listp->lh_first; ep != NULL; ep = ep->ex_link.le_next){
if(!strcmp(ep->ex_name, name)) return(ep);
}
return(NULL);
}
/*
* Print out all extents registered. This is used in
* DDB show extents
*/
void
extent_print_all(void)
{
struct extent *ep;
for(ep = ext_listp->lh_first; ep != NULL; ep = ep->ex_link.le_next){
extent_print(ep);
}
}
/*
* Allocate and initialize an extent map.
*/
struct extent *
extent_create(name, start, end, mtype, storage, storagesize, flags)
char *name;
u_long start, end;
int mtype;
caddr_t storage;
size_t storagesize;
int flags;
{
struct extent *ex;
caddr_t cp = storage;
size_t sz = storagesize;
struct extent_region *rp;
int fixed_extent = (storage != NULL);
#ifdef DIAGNOSTIC
/* Check arguments. */
if (name == NULL)
panic("extent_create: name == NULL");
if (end < start) {
printf("extent_create: extent `%s', start 0x%lx, end 0x%lx\n",
name, start, end);
panic("extent_create: end < start");
}
if (fixed_extent && (storagesize < sizeof(struct extent_fixed)))
panic("extent_create: fixed extent, bad storagesize 0x%x",
storagesize);
if (fixed_extent == 0 && (storagesize != 0 || storage != NULL))
panic("extent_create: storage provided for non-fixed");
#endif
/* Allocate extent descriptor. */
if (fixed_extent) {
struct extent_fixed *fex;
bzero(storage, storagesize);
/*
* Align all descriptors on "long" boundaries.
*/
fex = (struct extent_fixed *)cp;
ex = (struct extent *)fex;
cp += ALIGN(sizeof(struct extent_fixed));
sz -= ALIGN(sizeof(struct extent_fixed));
fex->fex_storage = storage;
fex->fex_storagesize = storagesize;
/*
* In a fixed extent, we have to pre-allocate region
* descriptors and place them in the extent's freelist.
*/
LIST_INIT(&fex->fex_freelist);
while (sz >= ALIGN(sizeof(struct extent_region))) {
rp = (struct extent_region *)cp;
cp += ALIGN(sizeof(struct extent_region));
sz -= ALIGN(sizeof(struct extent_region));
LIST_INSERT_HEAD(&fex->fex_freelist, rp, er_link);
}
} else {
ex = (struct extent *)malloc(sizeof(struct extent),
mtype, (flags & EX_WAITOK) ? M_WAITOK : M_NOWAIT);
if (ex == NULL)
return (NULL);
}
/* Fill in the extent descriptor and return it to the caller. */
LIST_INIT(&ex->ex_regions);
ex->ex_name = name;
ex->ex_start = start;
ex->ex_end = end;
ex->ex_mtype = mtype;
ex->ex_flags = 0;
if (fixed_extent)
ex->ex_flags |= EXF_FIXED;
if (flags & EX_NOCOALESCE)
ex->ex_flags |= EXF_NOCOALESCE;
extent_register(ex);
return (ex);
}
/*
* Destroy an extent map.
*/
void
extent_destroy(ex)
struct extent *ex;
{
struct extent_region *rp, *orp;
#ifdef DIAGNOSTIC
/* Check arguments. */
if (ex == NULL)
panic("extent_destroy: NULL extent");
#endif
/* Free all region descriptors in extent. */
for (rp = ex->ex_regions.lh_first; rp != NULL; ) {
orp = rp;
rp = rp->er_link.le_next;
LIST_REMOVE(orp, er_link);
extent_free_region_descriptor(ex, orp);
}
/* If we're not a fixed extent, free the extent descriptor itself. */
if ((ex->ex_flags & EXF_FIXED) == 0)
free(ex, ex->ex_mtype);
}
/*
* Insert a region descriptor into the sorted region list after the
* entry "after" or at the head of the list (if "after" is NULL).
* The region descriptor we insert is passed in "rp". We must
* allocate the region descriptor before calling this function!
* If we don't need the region descriptor, it will be freed here.
*/
static void
extent_insert_and_optimize(ex, start, size, flags, after, rp)
struct extent *ex;
u_long start, size;
int flags;
struct extent_region *after, *rp;
{
struct extent_region *nextr;
int appended = 0;
if (after == NULL) {
/*
* We're the first in the region list. If there's
* a region after us, attempt to coalesce to save
* descriptor overhead.
*/
if (((ex->ex_flags & EXF_NOCOALESCE) == 0) &&
(ex->ex_regions.lh_first != NULL) &&
((start + size) == ex->ex_regions.lh_first->er_start)) {
/*
* We can coalesce. Prepend us to the first region.
*/
ex->ex_regions.lh_first->er_start = start;
extent_free_region_descriptor(ex, rp);
return;
}
/*
* Can't coalesce. Fill in the region descriptor
* in, and insert us at the head of the region list.
*/
rp->er_start = start;
rp->er_end = start + (size - 1);
LIST_INSERT_HEAD(&ex->ex_regions, rp, er_link);
return;
}
/*
* If EXF_NOCOALESCE is set, coalescing is disallowed.
*/
if (ex->ex_flags & EXF_NOCOALESCE)
goto cant_coalesce;
/*
* Attempt to coalesce with the region before us.
*/
if ((after->er_end + 1) == start) {
/*
* We can coalesce. Append ourselves and make
* note of it.
*/
after->er_end = start + (size - 1);
appended = 1;
}
/*
* Attempt to coalesce with the region after us.
*/
if ((after->er_link.le_next != NULL) &&
((start + size) == after->er_link.le_next->er_start)) {
/*
* We can coalesce. Note that if we appended ourselves
* to the previous region, we exactly fit the gap, and
* can free the "next" region descriptor.
*/
if (appended) {
/*
* Yup, we can free it up.
*/
after->er_end = after->er_link.le_next->er_end;
nextr = after->er_link.le_next;
LIST_REMOVE(nextr, er_link);
extent_free_region_descriptor(ex, nextr);
} else {
/*
* Nope, just prepend us to the next region.
*/
after->er_link.le_next->er_start = start;
}
extent_free_region_descriptor(ex, rp);
return;
}
/*
* We weren't able to coalesce with the next region, but
* we don't need to allocate a region descriptor if we
* appended ourselves to the previous region.
*/
if (appended) {
extent_free_region_descriptor(ex, rp);
return;
}
cant_coalesce:
/*
* Fill in the region descriptor and insert ourselves
* into the region list.
*/
rp->er_start = start;
rp->er_end = start + (size - 1);
LIST_INSERT_AFTER(after, rp, er_link);
}
/*
* Allocate a specific region in an extent map.
*/
int
extent_alloc_region(ex, start, size, flags)
struct extent *ex;
u_long start, size;
int flags;
{
struct extent_region *rp, *last, *myrp;
u_long end = start + (size - 1);
int error;
#ifdef DIAGNOSTIC
/* Check arguments. */
if (ex == NULL)
panic("extent_alloc_region: NULL extent");
if (size < 1) {
printf("extent_alloc_region: extent `%s', size 0x%lx\n",
ex->ex_name, size);
panic("extent_alloc_region: bad size");
}
if (end < start) {
printf(
"extent_alloc_region: extent `%s', start 0x%lx, size 0x%lx\n",
ex->ex_name, start, size);
panic("extent_alloc_region: overflow");
}
#endif
/*
* Make sure the requested region lies within the
* extent.
*/
if ((start < ex->ex_start) || (end > ex->ex_end)) {
#ifdef DIAGNOSTIC
printf("extent_alloc_region: extent `%s' (0x%lx - 0x%lx)\n",
ex->ex_name, ex->ex_start, ex->ex_end);
printf("extent_alloc_region: start 0x%lx, end 0x%lx\n",
start, end);
panic("extent_alloc_region: region lies outside extent");
#else
return (EINVAL);
#endif
}
/*
* Allocate the region descriptor. It will be freed later
* if we can coalesce with another region.
*/
myrp = extent_alloc_region_descriptor(ex, flags);
if (myrp == NULL) {
#ifdef DIAGNOSTIC
printf(
"extent_alloc_region: can't allocate region descriptor\n");
#endif
return (ENOMEM);
}
alloc_start:
/*
* Attempt to place ourselves in the desired area of the
* extent. We save ourselves some work by keeping the list sorted.
* In other words, if the start of the current region is greater
* than the end of our region, we don't have to search any further.
*/
/*
* Keep a pointer to the last region we looked at so
* that we don't have to traverse the list again when
* we insert ourselves. If "last" is NULL when we
* finally insert ourselves, we go at the head of the
* list. See extent_insert_and_optimize() for details.
*/
last = NULL;
for (rp = ex->ex_regions.lh_first; rp != NULL;
rp = rp->er_link.le_next) {
if (rp->er_start > end) {
/*
* We lie before this region and don't
* conflict.
*/
break;
}
/*
* The current region begins before we end.
* Check for a conflict.
*/
if (rp->er_end >= start) {
/*
* We conflict. If we can (and want to) wait,
* do so.
*/
if (flags & EX_WAITSPACE) {
ex->ex_flags |= EXF_WANTED;
error = tsleep(ex,
PRIBIO | ((flags & EX_CATCH) ? PCATCH : 0),
"extnt", 0);
if (error)
return (error);
goto alloc_start;
}
extent_free_region_descriptor(ex, myrp);
return (EAGAIN);
}
/*
* We don't conflict, but this region lies before
* us. Keep a pointer to this region, and keep
* trying.
*/
last = rp;
}
/*
* We don't conflict with any regions. "last" points
* to the region we fall after, or is NULL if we belong
* at the beginning of the region list. Insert ourselves.
*/
extent_insert_and_optimize(ex, start, size, flags, last, myrp);
return (0);
}
/*
* Macro to check (x + y) <= z. This check is designed to fail
* if an overflow occurs.
*/
#define LE_OV(x, y, z) ((((x) + (y)) >= (x)) && (((x) + (y)) <= (z)))
/*
* Allocate a region in an extent map subregion.
*
* If EX_FAST is specified, we return the first fit in the map.
* Otherwise, we try to minimize fragmentation by finding the
* smallest gap that will hold the request.
*
* The allocated region is aligned to "alignment", which must be
* a power of 2.
*/
int
extent_alloc_subregion(ex, substart, subend, size, alignment, boundary,
flags, result)
struct extent *ex;
u_long substart, subend, size, alignment, boundary;
int flags;
u_long *result;
{
struct extent_region *rp, *myrp, *last, *bestlast;
u_long newstart, newend, beststart, bestovh, ovh;
u_long dontcross, odontcross;
int error;
#ifdef DIAGNOSTIC
/* Check arguments. */
if (ex == NULL)
panic("extent_alloc_subregion: NULL extent");
if (result == NULL)
panic("extent_alloc_subregion: NULL result pointer");
if ((substart < ex->ex_start) || (substart >= ex->ex_end) ||
(subend > ex->ex_end) || (subend <= ex->ex_start)) {
printf("extent_alloc_subregion: extent `%s', ex_start 0x%lx, ex_end 0x%lx\n",
ex->ex_name, ex->ex_start, ex->ex_end);
printf("extent_alloc_subregion: substart 0x%lx, subend 0x%lx\n",
substart, subend);
panic("extent_alloc_subregion: bad subregion");
}
if ((size < 1) || (size > ((subend - substart) + 1))) {
printf("extent_alloc_subregion: extent `%s', size 0x%lx\n",
ex->ex_name, size);
panic("extent_alloc_subregion: bad size");
}
if (alignment == 0)
panic("extent_alloc_subregion: bad alignment");
if (boundary && (boundary < size)) {
printf(
"extent_alloc_subregion: extent `%s', size 0x%lx,
boundary 0x%lx\n", ex->ex_name, size, boundary);
panic("extent_alloc_subregion: bad boundary");
}
#endif
/*
* Allocate the region descriptor. It will be freed later
* if we can coalesce with another region.
*/
myrp = extent_alloc_region_descriptor(ex, flags);
if (myrp == NULL) {
#ifdef DIAGNOSTIC
printf(
"extent_alloc_subregion: can't allocate region descriptor\n");
#endif
return (ENOMEM);
}
alloc_start:
/*
* Keep a pointer to the last region we looked at so
* that we don't have to traverse the list again when
* we insert ourselves. If "last" is NULL when we
* finally insert ourselves, we go at the head of the
* list. See extent_insert_and_optimize() for deatails.
*/
last = NULL;
/*
* Initialize the "don't cross" boundary, a.k.a a line
* that a region should not cross. If the boundary lies
* before the region starts, we add the "boundary" argument
* until we get a meaningful comparison.
*
* Start the boundary lines at 0 if the caller requests it.
*/
dontcross = 0;
if (boundary) {
dontcross =
((flags & EX_BOUNDZERO) ? 0 : ex->ex_start) + boundary;
while (dontcross < substart)
dontcross += boundary;
}
/*
* Keep track of size and location of the smallest
* chunk we fit in.
*
* Since the extent can be as large as the numeric range
* of the CPU (0 - 0xffffffff for 32-bit systems), the
* best overhead value can be the maximum unsigned integer.
* Thus, we initialize "bestovh" to 0, since we insert ourselves
* into the region list immediately on an exact match (which
* is the only case where "bestovh" would be set to 0).
*/
bestovh = 0;
beststart = 0;
bestlast = NULL;
/*
* For N allocated regions, we must make (N + 1)
* checks for unallocated space. The first chunk we
* check is the area from the beginning of the subregion
* to the first allocated region.
*/
newstart = EXTENT_ALIGN(substart, alignment);
if (newstart < ex->ex_start) {
#ifdef DIAGNOSTIC
printf(
"extent_alloc_subregion: extent `%s' (0x%lx - 0x%lx), alignment 0x%lx\n",
ex->ex_name, ex->ex_start, ex->ex_end, alignment);
panic("extent_alloc_subregion: overflow after alignment");
#else
extent_free_region_descriptor(ex, myrp);
return (EINVAL);
#endif
}
for (rp = ex->ex_regions.lh_first; rp != NULL;
rp = rp->er_link.le_next) {
/*
* Check the chunk before "rp". Note that our
* comparison is safe from overflow conditions.
*/
if (LE_OV(newstart, size, rp->er_start)) {
/*
* Do a boundary check, if necessary. Note
* that a region may *begin* on the boundary,
* but it must end before the boundary.
*/
if (boundary) {
newend = newstart + (size - 1);
/*
* Adjust boundary for a meaningful
* comparison.
*/
while (dontcross <= newstart) {
odontcross = dontcross;
dontcross += boundary;
/*
* If we run past the end of
* the extent or the boundary
* overflows, then the request
* can't fit.
*/
if ((dontcross > ex->ex_end) ||
(dontcross < odontcross))
goto fail;
}
/* Do the boundary check. */
if (newend >= dontcross) {
/*
* Candidate region crosses
* boundary. Try again.
*/
continue;
}
}
/*
* We would fit into this space. Calculate
* the overhead (wasted space). If we exactly
* fit, or we're taking the first fit, insert
* ourselves into the region list.
*/
ovh = rp->er_start - newstart - size;
if ((flags & EX_FAST) || (ovh == 0))
goto found;
/*
* Don't exactly fit, but check to see
* if we're better than any current choice.
*/
if ((bestovh == 0) || (ovh < bestovh)) {
bestovh = ovh;
beststart = newstart;
bestlast = last;
}
}
/*
* Skip past the current region and check again.
*/
newstart = EXTENT_ALIGN((rp->er_end + 1), alignment);
if (newstart < rp->er_end) {
/*
* Overflow condition. Don't error out, since
* we might have a chunk of space that we can
* use.
*/
goto fail;
}
last = rp;
}
/*
* The final check is from the current starting point to the
* end of the subregion. If there were no allocated regions,
* "newstart" is set to the beginning of the subregion, or
* just past the end of the last allocated region, adjusted
* for alignment in either case.
*/
if (LE_OV(newstart, (size - 1), subend)) {
/*
* We would fit into this space. Calculate
* the overhead (wasted space). If we exactly
* fit, or we're taking the first fit, insert
* ourselves into the region list.
*/
ovh = ex->ex_end - newstart - (size - 1);
if ((flags & EX_FAST) || (ovh == 0))
goto found;
/*
* Don't exactly fit, but check to see
* if we're better than any current choice.
*/
if ((bestovh == 0) || (ovh < bestovh)) {
bestovh = ovh;
beststart = newstart;
bestlast = last;
}
}
fail:
/*
* One of the following two conditions have
* occurred:
*
* There is no chunk large enough to hold the request.
*
* If EX_FAST was not specified, there is not an
* exact match for the request.
*
* Note that if we reach this point and EX_FAST is
* set, then we know there is no space in the extent for
* the request.
*/
if (((flags & EX_FAST) == 0) && (bestovh != 0)) {
/*
* We have a match that's "good enough".
*/
newstart = beststart;
last = bestlast;
goto found;
}
/*
* No space currently available. Wait for it to free up,
* if possible.
*/
if (flags & EX_WAITSPACE) {
ex->ex_flags |= EXF_WANTED;
error = tsleep(ex,
PRIBIO | ((flags & EX_CATCH) ? PCATCH : 0), "extnt", 0);
if (error)
return (error);
goto alloc_start;
}
extent_free_region_descriptor(ex, myrp);
return (EAGAIN);
found:
/*
* Insert ourselves into the region list.
*/
extent_insert_and_optimize(ex, newstart, size, flags, last, myrp);
*result = newstart;
return (0);
}
int
extent_free(ex, start, size, flags)
struct extent *ex;
u_long start, size;
int flags;
{
struct extent_region *rp;
u_long end = start + (size - 1);
#ifdef DIAGNOSTIC
/* Check arguments. */
if (ex == NULL)
panic("extent_free: NULL extent");
if ((start < ex->ex_start) || (start > ex->ex_end)) {
extent_print(ex);
printf("extent_free: extent `%s', start 0x%lx, size 0x%lx\n",
ex->ex_name, start, size);
panic("extent_free: extent `%s', region not within extent",
ex->ex_name);
}
/* Check for an overflow. */
if (end < start) {
extent_print(ex);
printf("extent_free: extent `%s', start 0x%lx, size 0x%lx\n",
ex->ex_name, start, size);
panic("extent_free: overflow");
}
#endif
/*
* Find region and deallocate. Several possibilities:
*
* 1. (start == er_start) && (end == er_end):
* Free descriptor.
*
* 2. (start == er_start) && (end < er_end):
* Adjust er_start.
*
* 3. (start > er_start) && (end == er_end):
* Adjust er_end.
*
* 4. (start > er_start) && (end < er_end):
* Fragment region. Requires descriptor alloc.
*
* Cases 2, 3, and 4 require that the EXF_NOCOALESCE flag
* is not set.
*/
for (rp = ex->ex_regions.lh_first; rp != NULL;
rp = rp->er_link.le_next) {
/*
* Save ourselves some comparisons; does the current
* region end before chunk to be freed begins? If so,
* then we haven't found the appropriate region descriptor.
*/
if (rp->er_end < start)
continue;
/*
* Save ourselves some traversal; does the current
* region begin after the chunk to be freed ends? If so,
* then we've already passed any possible region descriptors
* that might have contained the chunk to be freed.
*/
if (rp->er_start > end)
break;
/* Case 1. */
if ((start == rp->er_start) && (end == rp->er_end)) {
LIST_REMOVE(rp, er_link);
extent_free_region_descriptor(ex, rp);
goto done;
}
/*
* The following cases all require that EXF_NOCOALESCE
* is not set.
*/
if (ex->ex_flags & EXF_NOCOALESCE)
continue;
/* Case 2. */
if ((start == rp->er_start) && (end < rp->er_end)) {
rp->er_start = (end + 1);
goto done;
}
/* Case 3. */
if ((start > rp->er_start) && (end == rp->er_end)) {
rp->er_end = (start - 1);
goto done;
}
/* Case 4. */
if ((start > rp->er_start) && (end < rp->er_end)) {
struct extent_region *nrp;
/* Allocate a region descriptor. */
nrp = extent_alloc_region_descriptor(ex, flags);
if (nrp == NULL)
return (ENOMEM);
/* Fill in new descriptor. */
nrp->er_start = end + 1;
nrp->er_end = rp->er_end;
/* Adjust current descriptor. */
rp->er_end = start - 1;
/* Instert new descriptor after current. */
LIST_INSERT_AFTER(rp, nrp, er_link);
goto done;
}
}
/* Region not found, or request otherwise invalid. */
extent_print(ex);
printf("extent_free: start 0x%lx, end 0x%lx\n", start, end);
panic("extent_free: region not found");
done:
if (ex->ex_flags & EXF_WANTED) {
ex->ex_flags &= ~EXF_WANTED;
wakeup(ex);
}
return (0);
}
static struct extent_region *
extent_alloc_region_descriptor(ex, flags)
struct extent *ex;
int flags;
{
struct extent_region *rp;
if (ex->ex_flags & EXF_FIXED) {
struct extent_fixed *fex = (struct extent_fixed *)ex;
while (fex->fex_freelist.lh_first == NULL) {
if (flags & EX_MALLOCOK)
goto alloc;
if ((flags & EX_WAITOK) == 0)
return (NULL);
ex->ex_flags |= EXF_FLWANTED;
if (tsleep(&fex->fex_freelist,
PRIBIO | ((flags & EX_CATCH) ? PCATCH : 0),
"extnt", 0))
return (NULL);
}
rp = fex->fex_freelist.lh_first;
LIST_REMOVE(rp, er_link);
/*
* Don't muck with flags after pulling it off the
* freelist; it may be a dynamiclly allocated
* region pointer that was kindly given to us,
* and we need to preserve that information.
*/
return (rp);
}
alloc:
rp = (struct extent_region *)
malloc(sizeof(struct extent_region), ex->ex_mtype,
(flags & EX_WAITOK) ? M_WAITOK : M_NOWAIT);
if (rp != NULL)
rp->er_flags = ER_ALLOC;
return (rp);
}
static void
extent_free_region_descriptor(ex, rp)
struct extent *ex;
struct extent_region *rp;
{
if (ex->ex_flags & EXF_FIXED) {
struct extent_fixed *fex = (struct extent_fixed *)ex;
/*
* If someone's waiting for a region descriptor,
* be nice and give them this one, rather than
* just free'ing it back to the system.
*/
if (rp->er_flags & ER_ALLOC) {
if (ex->ex_flags & EXF_FLWANTED) {
/* Clear all but ER_ALLOC flag. */
rp->er_flags = ER_ALLOC;
LIST_INSERT_HEAD(&fex->fex_freelist, rp,
er_link);
goto wake_em_up;
} else {
free(rp, ex->ex_mtype);
}
} else {
/* Clear all flags. */
rp->er_flags = 0;
LIST_INSERT_HEAD(&fex->fex_freelist, rp, er_link);
}
if (ex->ex_flags & EXF_FLWANTED) {
wake_em_up:
ex->ex_flags &= ~EXF_FLWANTED;
wakeup(&fex->fex_freelist);
}
return;
}
/*
* We know it's dynamically allocated if we get here.
*/
free(rp, ex->ex_mtype);
}
void
extent_print(ex)
struct extent *ex;
{
struct extent_region *rp;
if (ex == NULL)
panic("extent_print: NULL extent");
printf("extent `%s' (0x%lx - 0x%lx), flags = 0x%x\n", ex->ex_name,
ex->ex_start, ex->ex_end, ex->ex_flags);
for (rp = ex->ex_regions.lh_first; rp != NULL;
rp = rp->er_link.le_next)
printf(" 0x%lx - 0x%lx\n", rp->er_start, rp->er_end);
}
|