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|
/*-
* See the file LICENSE for redistribution information.
*
* Copyright (c) 1996, 1997, 1998
* Sleepycat Software. All rights reserved.
*/
#include "config.h"
#ifndef lint
static const char sccsid[] = "@(#)db_region.c 10.46 (Sleepycat) 5/26/98";
#endif /* not lint */
#ifndef NO_SYSTEM_INCLUDES
#include <sys/types.h>
#include <errno.h>
#include <string.h>
#include <unistd.h>
#endif
#include "db_int.h"
#include "common_ext.h"
static int __db_growregion __P((REGINFO *, size_t));
/*
* __db_rattach --
* Optionally create and attach to a shared memory region.
*
* PUBLIC: int __db_rattach __P((REGINFO *));
*/
int
__db_rattach(infop)
REGINFO *infop;
{
RLAYOUT *rlp, rl;
size_t grow_region, size;
ssize_t nr, nw;
u_int32_t flags, mbytes, bytes;
u_int8_t *p;
int malloc_possible, ret, retry_cnt;
grow_region = 0;
malloc_possible = 1;
ret = retry_cnt = 0;
/* Round off the requested size to the next page boundary. */
DB_ROUNDOFF(infop->size);
/* Some architectures have hard limits on the maximum region size. */
#ifdef DB_REGIONSIZE_MAX
if (infop->size > DB_REGIONSIZE_MAX) {
__db_err(infop->dbenv, "__db_rattach: cache size too large");
return (EINVAL);
}
#endif
/* Intialize the return information in the REGINFO structure. */
loop: infop->addr = NULL;
infop->fd = -1;
infop->segid = INVALID_SEGID;
if (infop->name != NULL) {
FREES(infop->name);
infop->name = NULL;
}
F_CLR(infop, REGION_CANGROW | REGION_CREATED);
#ifndef HAVE_SPINLOCKS
/*
* XXX
* Lacking spinlocks, we must have a file descriptor for fcntl(2)
* locking, which implies using mmap(2) to map in a regular file.
* (Theoretically, we could probably get a file descriptor to lock
* other types of shared regions, but I don't see any reason to
* bother.)
*/
malloc_possible = 0;
#endif
#ifdef __hppa
/*
* XXX
* HP-UX won't permit mutexes to live in anything but shared memory.
* Instantiate a shared region file on that architecture, regardless.
*/
malloc_possible = 0;
#endif
/*
* If a region is truly private, malloc the memory. That's faster
* than either anonymous memory or a shared file.
*/
if (malloc_possible && F_ISSET(infop, REGION_PRIVATE)) {
if ((infop->addr = __db_malloc(infop->size)) == NULL)
return (ENOMEM);
/*
* It's sometimes significantly faster to page-fault in all
* of the region's pages before we run the application, as
* we can see fairly nasty side-effects when we page-fault
* while holding various locks, i.e., the lock takes a long
* time, and other threads convoy behind the lock holder.
*/
if (DB_GLOBAL(db_region_init))
for (p = infop->addr;
p < (u_int8_t *)infop->addr + infop->size;
p += DB_VMPAGESIZE)
p[0] = '\0';
F_SET(infop, REGION_CREATED | REGION_MALLOC);
goto region_init;
}
/*
* Get the name of the region (creating the file if a temporary file
* is being used). The dbenv contains the current DB environment,
* including naming information. The path argument may be a file or
* a directory. If path is a directory, it must exist and file is the
* file name to be created inside the directory. If path is a file,
* then file must be NULL.
*/
if ((ret = __db_appname(infop->dbenv, infop->appname, infop->path,
infop->file, infop->dbflags, &infop->fd, &infop->name)) != 0)
return (ret);
if (infop->fd != -1)
F_SET(infop, REGION_CREATED);
/*
* Try to create the file, if we have authority. We have to make sure
* that multiple threads/processes attempting to simultaneously create
* the region are properly ordered, so we open it using DB_CREATE and
* DB_EXCL, so two attempts to create the region will return failure in
* one.
*/
if (infop->fd == -1 && infop->dbflags & DB_CREATE) {
flags = infop->dbflags;
LF_SET(DB_EXCL);
if ((ret = __db_open(infop->name,
flags, flags, infop->mode, &infop->fd)) == 0)
F_SET(infop, REGION_CREATED);
else
if (ret != EEXIST)
goto errmsg;
}
/* If we couldn't create the file, try and open it. */
if (infop->fd == -1) {
flags = infop->dbflags;
LF_CLR(DB_CREATE | DB_EXCL);
if ((ret = __db_open(infop->name,
flags, flags, infop->mode, &infop->fd)) != 0)
goto errmsg;
}
/*
* There are three cases we support:
* 1. Named anonymous memory (shmget(2)).
* 2. Unnamed anonymous memory (mmap(2): MAP_ANON/MAP_ANONYMOUS).
* 3. Memory backed by a regular file (mmap(2)).
*
* We instantiate a backing file in all cases, which contains at least
* the RLAYOUT structure, and in case #4, contains the actual region.
* This is necessary for a couple of reasons:
*
* First, the mpool region uses temporary files to name regions, and
* since you may have multiple regions in the same directory, we need
* a filesystem name to ensure that they don't collide.
*
* Second, applications are allowed to forcibly remove regions, even
* if they don't know anything about them other than the name. If a
* region is backed by anonymous memory, there has to be some way for
* the application to find out that information, and, in some cases,
* determine ID information for the anonymous memory.
*/
if (F_ISSET(infop, REGION_CREATED)) {
/*
* If we're using anonymous memory to back this region, set
* the flag.
*/
if (DB_GLOBAL(db_region_anon))
F_SET(infop, REGION_ANONYMOUS);
/*
* If we're using a regular file to back a region we created,
* grow it to the specified size.
*/
if (!DB_GLOBAL(db_region_anon) &&
(ret = __db_growregion(infop, infop->size)) != 0)
goto err;
} else {
/*
* If we're joining a region, figure out what it looks like.
*
* XXX
* We have to figure out if the file is a regular file backing
* a region that we want to map into our address space, or a
* file with the information we need to find a shared anonymous
* region that we want to map into our address space.
*
* All this noise is because some systems don't have a coherent
* VM and buffer cache, and worse, if you mix operations on the
* VM and buffer cache, half the time you hang the system.
*
* There are two possibilities. If the file is the size of an
* RLAYOUT structure, then we know that the real region is in
* shared memory, because otherwise it would be bigger. (As
* the RLAYOUT structure size is smaller than a disk sector,
* the only way it can be this size is if deliberately written
* that way.) In which case, retrieve the information we need
* from the RLAYOUT structure and use it to acquire the shared
* memory.
*
* If the structure is larger than an RLAYOUT structure, then
* the file is backing the shared memory region, and we use
* the current size of the file without reading any information
* from the file itself so that we don't confuse the VM.
*
* And yes, this makes me want to take somebody and kill them,
* but I can't think of any other solution.
*/
if ((ret = __db_ioinfo(infop->name,
infop->fd, &mbytes, &bytes, NULL)) != 0)
goto errmsg;
size = mbytes * MEGABYTE + bytes;
if (size <= sizeof(RLAYOUT)) {
/*
* If the size is too small, the read fails or the
* valid flag is incorrect, assume it's because the
* RLAYOUT information hasn't been written out yet,
* and retry.
*/
if (size < sizeof(RLAYOUT))
goto retry;
if ((ret =
__db_read(infop->fd, &rl, sizeof(rl), &nr)) != 0)
goto retry;
if (rl.valid != DB_REGIONMAGIC)
goto retry;
/* Copy the size, memory id and characteristics. */
size = rl.size;
infop->segid = rl.segid;
if (F_ISSET(&rl, REGION_ANONYMOUS))
F_SET(infop, REGION_ANONYMOUS);
}
/*
* If the region is larger than we think, that's okay, use the
* current size. If it's smaller than we think, and we were
* just using the default size, that's okay, use the current
* size. If it's smaller than we think and we really care,
* save the size and we'll catch that further down -- we can't
* correct it here because we have to have a lock to grow the
* region.
*/
if (infop->size > size && !F_ISSET(infop, REGION_SIZEDEF))
grow_region = infop->size;
infop->size = size;
}
/*
* Map the region into our address space. If we're creating it, the
* underlying routines will make it the right size.
*
* There are at least two cases where we can "reasonably" fail when
* we attempt to map in the region. On Windows/95, closing the last
* reference to a region causes it to be zeroed out. On UNIX, when
* using the shmget(2) interfaces, the region will no longer exist
* if the system was rebooted. In these cases, the underlying map call
* returns EAGAIN, and we *remove* our file and try again. There are
* obvious races in doing this, but it should eventually settle down
* to a winner and then things should proceed normally.
*/
if ((ret = __db_mapregion(infop->name, infop)) != 0)
if (ret == EAGAIN) {
/*
* Pretend we created the region even if we didn't so
* that our error processing unlinks it.
*/
F_SET(infop, REGION_CREATED);
ret = 0;
goto retry;
} else
goto err;
region_init:
/*
* Initialize the common region information.
*
* !!!
* We have to order the region creates so that two processes don't try
* to simultaneously create the region. This is handled by using the
* DB_CREATE and DB_EXCL flags when we create the "backing" region file.
*
* We also have to order region joins so that processes joining regions
* never see inconsistent data. We'd like to play permissions games
* with the backing file, but we can't because WNT filesystems won't
* open a file mode 0.
*/
rlp = (RLAYOUT *)infop->addr;
if (F_ISSET(infop, REGION_CREATED)) {
/*
* The process creating the region acquires a lock before it
* sets the valid flag. Any processes joining the region will
* check the valid flag before acquiring the lock.
*
* Check the return of __db_mutex_init() and __db_mutex_lock(),
* even though we don't usually check elsewhere. This is the
* first lock we initialize and acquire, and we have to know if
* it fails. (It CAN fail, e.g., SunOS, when using fcntl(2)
* for locking, with an in-memory filesystem specified as the
* database home.)
*/
if ((ret = __db_mutex_init(&rlp->lock,
MUTEX_LOCK_OFFSET(rlp, &rlp->lock))) != 0 ||
(ret = __db_mutex_lock(&rlp->lock, infop->fd)) != 0)
goto err;
/* Initialize the remaining region information. */
rlp->refcnt = 1;
rlp->size = infop->size;
db_version(&rlp->majver, &rlp->minver, &rlp->patch);
rlp->segid = infop->segid;
rlp->flags = 0;
if (F_ISSET(infop, REGION_ANONYMOUS))
F_SET(rlp, REGION_ANONYMOUS);
/*
* Fill in the valid field last -- use a magic number, memory
* may not be zero-filled, and we want to minimize the chance
* for collision.
*/
rlp->valid = DB_REGIONMAGIC;
/*
* If the region is anonymous, write the RLAYOUT information
* into the backing file so that future region join and unlink
* calls can find it.
*
* XXX
* We MUST do the seek before we do the write. On Win95, while
* closing the last reference to an anonymous shared region
* doesn't discard the region, it does zero it out. So, the
* REGION_CREATED may be set, but the file may have already
* been written and the file descriptor may be at the end of
* the file.
*/
if (F_ISSET(infop, REGION_ANONYMOUS)) {
if ((ret = __db_seek(infop->fd, 0, 0, 0, 0, 0)) != 0)
goto err;
if ((ret =
__db_write(infop->fd, rlp, sizeof(*rlp), &nw)) != 0)
goto err;
}
} else {
/*
* Check the valid flag to ensure the region is initialized.
* If the valid flag has not been set, the mutex may not have
* been initialized, and an attempt to get it could lead to
* random behavior.
*/
if (rlp->valid != DB_REGIONMAGIC)
goto retry;
/* Get the region lock. */
(void)__db_mutex_lock(&rlp->lock, infop->fd);
/*
* We now own the region. There are a couple of things that
* may have gone wrong, however.
*
* Problem #1: while we were waiting for the lock, the region
* was deleted. Detected by re-checking the valid flag, since
* it's cleared by the delete region routines.
*/
if (rlp->valid != DB_REGIONMAGIC) {
(void)__db_mutex_unlock(&rlp->lock, infop->fd);
goto retry;
}
/*
* Problem #2: We want a bigger region than has previously been
* created. Detected by checking if the region is smaller than
* our caller requested. If it is, we grow the region, (which
* does the detach and re-attach for us).
*/
if (grow_region != 0 &&
(ret = __db_rgrow(infop, grow_region)) != 0) {
(void)__db_mutex_unlock(&rlp->lock, infop->fd);
goto err;
}
/*
* Problem #3: when we checked the size of the file, it was
* still growing as part of creation. Detected by the fact
* that infop->size isn't the same size as the region.
*/
if (infop->size != rlp->size) {
(void)__db_mutex_unlock(&rlp->lock, infop->fd);
goto retry;
}
/* Increment the reference count. */
++rlp->refcnt;
}
/* Return the region in a locked condition. */
if (0) {
errmsg: __db_err(infop->dbenv, "%s: %s", infop->name, strerror(ret));
err:
retry: /* Discard the region. */
if (infop->addr != NULL) {
(void)__db_unmapregion(infop);
infop->addr = NULL;
}
/* Discard the backing file. */
if (infop->fd != -1) {
(void)__db_close(infop->fd);
infop->fd = -1;
if (F_ISSET(infop, REGION_CREATED))
(void)__db_unlink(infop->name);
}
/* Discard the name. */
if (infop->name != NULL) {
FREES(infop->name);
infop->name = NULL;
}
/*
* If we had a temporary error, wait a few seconds and
* try again.
*/
if (ret == 0) {
if (++retry_cnt <= 3) {
__db_sleep(retry_cnt * 2, 0);
goto loop;
}
ret = EAGAIN;
}
}
/*
* XXX
* HP-UX won't permit mutexes to live in anything but shared memory.
* Instantiate a shared region file on that architecture, regardless.
*
* XXX
* There's a problem in cleaning this up on application exit, or on
* application failure. If an application opens a database without
* an environment, we create a temporary backing mpool region for it.
* That region is marked REGION_PRIVATE, but as HP-UX won't permit
* mutexes to live in anything but shared memory, we instantiate a
* real file plus a memory region of some form. If the application
* crashes, the necessary information to delete the backing file and
* any system region (e.g., the shmget(2) segment ID) is no longer
* available. We can't completely fix the problem, but we try.
*
* The underlying UNIX __db_mapregion() code preferentially uses the
* mmap(2) interface with the MAP_ANON/MAP_ANONYMOUS flags for regions
* that are marked REGION_PRIVATE. This means that we normally aren't
* holding any system resources when we get here, in which case we can
* delete the backing file. This results in a short race, from the
* __db_open() call above to here.
*
* If, for some reason, we are holding system resources when we get
* here, we don't have any choice -- we can't delete the backing file
* because we may need it to detach from the resources. Set the
* REGION_LASTDETACH flag, so that we do all necessary cleanup when
* the application closes the region.
*/
if (F_ISSET(infop, REGION_PRIVATE) && !F_ISSET(infop, REGION_MALLOC))
if (F_ISSET(infop, REGION_HOLDINGSYS))
F_SET(infop, REGION_LASTDETACH);
else {
F_SET(infop, REGION_REMOVED);
F_CLR(infop, REGION_CANGROW);
(void)__db_close(infop->fd);
(void)__db_unlink(infop->name);
}
return (ret);
}
/*
* __db_rdetach --
* De-attach from a shared memory region.
*
* PUBLIC: int __db_rdetach __P((REGINFO *));
*/
int
__db_rdetach(infop)
REGINFO *infop;
{
RLAYOUT *rlp;
int detach, ret, t_ret;
ret = 0;
/*
* If the region was removed when it was created, no further action
* is required.
*/
if (F_ISSET(infop, REGION_REMOVED))
goto done;
/*
* If the region was created in memory returned by malloc, the only
* action required is freeing the memory.
*/
if (F_ISSET(infop, REGION_MALLOC)) {
__db_free(infop->addr);
goto done;
}
/* Otherwise, attach to the region and optionally delete it. */
rlp = infop->addr;
/* Get the lock. */
(void)__db_mutex_lock(&rlp->lock, infop->fd);
/* Decrement the reference count. */
if (rlp->refcnt == 0)
__db_err(infop->dbenv,
"region rdetach: reference count went to zero!");
else
--rlp->refcnt;
/*
* If we're going to remove the region, clear the valid flag so
* that any region join that's blocked waiting for us will know
* what happened.
*/
detach = 0;
if (F_ISSET(infop, REGION_LASTDETACH))
if (rlp->refcnt == 0) {
detach = 1;
rlp->valid = 0;
} else
ret = EBUSY;
/* Release the lock. */
(void)__db_mutex_unlock(&rlp->lock, infop->fd);
/* Close the backing file descriptor. */
(void)__db_close(infop->fd);
infop->fd = -1;
/* Discard our mapping of the region. */
if ((t_ret = __db_unmapregion(infop)) != 0 && ret == 0)
ret = t_ret;
/* Discard the region itself. */
if (detach) {
if ((t_ret =
__db_unlinkregion(infop->name, infop) != 0) && ret == 0)
ret = t_ret;
if ((t_ret = __db_unlink(infop->name) != 0) && ret == 0)
ret = t_ret;
}
done: /* Discard the name. */
if (infop->name != NULL) {
FREES(infop->name);
infop->name = NULL;
}
return (ret);
}
/*
* __db_runlink --
* Remove a region.
*
* PUBLIC: int __db_runlink __P((REGINFO *, int));
*/
int
__db_runlink(infop, force)
REGINFO *infop;
int force;
{
RLAYOUT rl, *rlp;
size_t size;
ssize_t nr;
u_int32_t mbytes, bytes;
int fd, ret, t_ret;
char *name;
/*
* XXX
* We assume that we've created a new REGINFO structure for this
* call, not used one that was already initialized. Regardless,
* if anyone is planning to use it after we're done, they're going
* to be sorely disappointed.
*
* If force isn't set, we attach to the region, set a flag to delete
* the region on last close, and let the region delete code do the
* work.
*/
if (!force) {
if ((ret = __db_rattach(infop)) != 0)
return (ret);
rlp = (RLAYOUT *)infop->addr;
(void)__db_mutex_unlock(&rlp->lock, infop->fd);
F_SET(infop, REGION_LASTDETACH);
return (__db_rdetach(infop));
}
/*
* Otherwise, we don't want to attach to the region. We may have been
* called to clean up if a process died leaving a region locked and/or
* corrupted, which could cause the attach to hang.
*/
if ((ret = __db_appname(infop->dbenv, infop->appname,
infop->path, infop->file, infop->dbflags, NULL, &name)) != 0)
return (ret);
/*
* An underlying file is created for all regions other than private
* (REGION_PRIVATE) ones, regardless of whether or not it's used to
* back the region. If that file doesn't exist, we're done.
*/
if (__db_exists(name, NULL) != 0) {
FREES(name);
return (0);
}
/*
* See the comments in __db_rattach -- figure out if this is a regular
* file backing a region or if it's a regular file with information
* about a region.
*/
if ((ret = __db_open(name, DB_RDONLY, DB_RDONLY, 0, &fd)) != 0)
goto errmsg;
if ((ret = __db_ioinfo(name, fd, &mbytes, &bytes, NULL)) != 0)
goto errmsg;
size = mbytes * MEGABYTE + bytes;
if (size <= sizeof(RLAYOUT)) {
if ((ret = __db_read(fd, &rl, sizeof(rl), &nr)) != 0)
goto errmsg;
if (rl.valid != DB_REGIONMAGIC) {
__db_err(infop->dbenv,
"%s: illegal region magic number", name);
ret = EINVAL;
goto err;
}
/* Set the size, memory id and characteristics. */
infop->size = rl.size;
infop->segid = rl.segid;
if (F_ISSET(&rl, REGION_ANONYMOUS))
F_SET(infop, REGION_ANONYMOUS);
} else {
infop->size = size;
infop->segid = INVALID_SEGID;
}
/* Remove the underlying region. */
ret = __db_unlinkregion(name, infop);
/*
* Unlink the backing file. Close the open file descriptor first,
* because some architectures (e.g., Win32) won't unlink a file if
* open file descriptors remain.
*/
(void)__db_close(fd);
if ((t_ret = __db_unlink(name)) != 0 && ret == 0)
ret = t_ret;
if (0) {
errmsg: __db_err(infop->dbenv, "%s: %s", name, strerror(ret));
err: (void)__db_close(fd);
}
FREES(name);
return (ret);
}
/*
* __db_rgrow --
* Extend a region.
*
* PUBLIC: int __db_rgrow __P((REGINFO *, size_t));
*/
int
__db_rgrow(infop, new_size)
REGINFO *infop;
size_t new_size;
{
RLAYOUT *rlp;
size_t increment;
int ret;
/*
* !!!
* This routine MUST be called with the region already locked.
*/
/* The underlying routines have flagged if this region can grow. */
if (!F_ISSET(infop, REGION_CANGROW))
return (EINVAL);
/*
* Round off the requested size to the next page boundary, and
* determine the additional space required.
*/
rlp = (RLAYOUT *)infop->addr;
DB_ROUNDOFF(new_size);
increment = new_size - rlp->size;
if ((ret = __db_growregion(infop, increment)) != 0)
return (ret);
/* Update the on-disk region size. */
rlp->size = new_size;
/* Detach from and reattach to the region. */
return (__db_rreattach(infop, new_size));
}
/*
* __db_growregion --
* Grow a shared memory region.
*/
static int
__db_growregion(infop, increment)
REGINFO *infop;
size_t increment;
{
db_pgno_t pages;
size_t i;
ssize_t nr, nw;
u_int32_t relative;
int ret;
char buf[DB_VMPAGESIZE];
/* Seek to the end of the region. */
if ((ret = __db_seek(infop->fd, 0, 0, 0, 0, SEEK_END)) != 0)
goto err;
/* Write nuls to the new bytes. */
memset(buf, 0, sizeof(buf));
/*
* Some systems require that all of the bytes of the region be
* written before it can be mapped and accessed randomly, and
* other systems don't zero out the pages.
*/
if (__db_mapinit())
/* Extend the region by writing each new page. */
for (i = 0; i < increment; i += DB_VMPAGESIZE) {
if ((ret =
__db_write(infop->fd, buf, sizeof(buf), &nw)) != 0)
goto err;
if (nw != sizeof(buf))
goto eio;
}
else {
/*
* Extend the region by writing the last page. If the region
* is >4Gb, increment may be larger than the maximum possible
* seek "relative" argument, as it's an unsigned 32-bit value.
* Break the offset into pages of 1MB each so that we don't
* overflow (2^20 + 2^32 is bigger than any memory I expect
* to see for awhile).
*/
pages = (increment - DB_VMPAGESIZE) / MEGABYTE;
relative = (increment - DB_VMPAGESIZE) % MEGABYTE;
if ((ret = __db_seek(infop->fd,
MEGABYTE, pages, relative, 0, SEEK_CUR)) != 0)
goto err;
if ((ret = __db_write(infop->fd, buf, sizeof(buf), &nw)) != 0)
goto err;
if (nw != sizeof(buf))
goto eio;
/*
* It's sometimes significantly faster to page-fault in all
* of the region's pages before we run the application, as
* we can see fairly nasty side-effects when we page-fault
* while holding various locks, i.e., the lock takes a long
* time, and other threads convoy behind the lock holder.
*/
if (DB_GLOBAL(db_region_init)) {
pages = increment / MEGABYTE;
relative = increment % MEGABYTE;
if ((ret = __db_seek(infop->fd,
MEGABYTE, pages, relative, 1, SEEK_END)) != 0)
goto err;
/* Read a byte from each page. */
for (i = 0; i < increment; i += DB_VMPAGESIZE) {
if ((ret =
__db_read(infop->fd, buf, 1, &nr)) != 0)
goto err;
if (nr != 1)
goto eio;
if ((ret = __db_seek(infop->fd,
0, 0, DB_VMPAGESIZE - 1, 0, SEEK_CUR)) != 0)
goto err;
}
}
}
return (0);
eio: ret = EIO;
err: __db_err(infop->dbenv, "region grow: %s", strerror(ret));
return (ret);
}
/*
* __db_rreattach --
* Detach from and reattach to a region.
*
* PUBLIC: int __db_rreattach __P((REGINFO *, size_t));
*/
int
__db_rreattach(infop, new_size)
REGINFO *infop;
size_t new_size;
{
int ret;
#ifdef DIAGNOSTIC
if (infop->name == NULL) {
__db_err(infop->dbenv, "__db_rreattach: name was NULL");
return (EINVAL);
}
#endif
/*
* If we're growing an already mapped region, we have to unmap it
* and get it back. We have it locked, so nobody else can get in,
* which makes it fairly straight-forward to do, as everybody else
* is going to block while we do the unmap/remap. NB: if we fail
* to get it back, the pooch is genuinely screwed, because we can
* never release the lock we're holding.
*
* Detach from the region. We have to do this first so architectures
* that don't permit a file to be mapped into different places in the
* address space simultaneously, e.g., HP's PaRisc, will work.
*/
if ((ret = __db_unmapregion(infop)) != 0)
return (ret);
/* Update the caller's REGINFO size to the new map size. */
infop->size = new_size;
/* Attach to the region. */
ret = __db_mapregion(infop->name, infop);
return (ret);
}
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