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|
/*
Unix SMB/CIFS implementation.
byte range locking code
Updated to handle range splits/merges.
Copyright (C) Andrew Tridgell 1992-2000
Copyright (C) Jeremy Allison 1992-2000
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/* This module implements a tdb based byte range locking service,
replacing the fcntl() based byte range locking previously
used. This allows us to provide the same semantics as NT */
#include "includes.h"
#define ZERO_ZERO 0
/* This contains elements that differentiate locks. The smbpid is a
client supplied pid, and is essentially the locking context for
this client */
struct lock_context {
uint16 smbpid;
uint16 tid;
pid_t pid;
};
/* The data in brlock records is an unsorted linear array of these
records. It is unnecessary to store the count as tdb provides the
size of the record */
struct lock_struct {
struct lock_context context;
br_off start;
br_off size;
int fnum;
enum brl_type lock_type;
};
/* The key used in the brlock database. */
struct lock_key {
SMB_DEV_T device;
SMB_INO_T inode;
};
/* The open brlock.tdb database. */
static TDB_CONTEXT *tdb;
/****************************************************************************
Create a locking key - ensuring zero filled for pad purposes.
****************************************************************************/
static TDB_DATA locking_key(SMB_DEV_T dev, SMB_INO_T inode)
{
static struct lock_key key;
TDB_DATA kbuf;
memset(&key, '\0', sizeof(key));
key.device = dev;
key.inode = inode;
kbuf.dptr = (char *)&key;
kbuf.dsize = sizeof(key);
return kbuf;
}
/****************************************************************************
See if two locking contexts are equal.
****************************************************************************/
static BOOL brl_same_context(struct lock_context *ctx1,
struct lock_context *ctx2)
{
return (ctx1->pid == ctx2->pid) &&
(ctx1->smbpid == ctx2->smbpid) &&
(ctx1->tid == ctx2->tid);
}
/****************************************************************************
See if lock2 can be added when lock1 is in place.
****************************************************************************/
static BOOL brl_conflict(struct lock_struct *lck1,
struct lock_struct *lck2)
{
if (lck1->lock_type == PENDING_LOCK || lck2->lock_type == PENDING_LOCK )
return False;
if (lck1->lock_type == READ_LOCK && lck2->lock_type == READ_LOCK) {
return False;
}
if (brl_same_context(&lck1->context, &lck2->context) &&
lck2->lock_type == READ_LOCK && lck1->fnum == lck2->fnum) {
return False;
}
if (lck1->start >= (lck2->start + lck2->size) ||
lck2->start >= (lck1->start + lck1->size)) {
return False;
}
return True;
}
#if ZERO_ZERO
static BOOL brl_conflict1(struct lock_struct *lck1,
struct lock_struct *lck2)
{
if (lck1->lock_type == PENDING_LOCK || lck2->lock_type == PENDING_LOCK )
return False;
if (lck1->lock_type == READ_LOCK && lck2->lock_type == READ_LOCK) {
return False;
}
if (brl_same_context(&lck1->context, &lck2->context) &&
lck2->lock_type == READ_LOCK && lck1->fnum == lck2->fnum) {
return False;
}
if (lck2->start == 0 && lck2->size == 0 && lck1->size != 0) {
return True;
}
if (lck1->start >= (lck2->start + lck2->size) ||
lck2->start >= (lck1->start + lck1->size)) {
return False;
}
return True;
}
#endif
/****************************************************************************
Check to see if this lock conflicts, but ignore our own locks on the
same fnum only.
****************************************************************************/
static BOOL brl_conflict_other(struct lock_struct *lck1, struct lock_struct *lck2)
{
if (lck1->lock_type == PENDING_LOCK || lck2->lock_type == PENDING_LOCK )
return False;
if (lck1->lock_type == READ_LOCK && lck2->lock_type == READ_LOCK)
return False;
/*
* Incoming WRITE locks conflict with existing READ locks even
* if the context is the same. JRA. See LOCKTEST7 in smbtorture.
*/
if (!(lck2->lock_type == WRITE_LOCK && lck1->lock_type == READ_LOCK)) {
if (brl_same_context(&lck1->context, &lck2->context) &&
lck1->fnum == lck2->fnum)
return False;
}
if (lck1->start >= (lck2->start + lck2->size) ||
lck2->start >= (lck1->start + lck1->size)) return False;
return True;
}
#if DONT_DO_THIS
/* doing this traversal could kill solaris machines under high load (tridge) */
/* delete any dead locks */
/****************************************************************************
Delete a record if it is for a dead process, if check_self is true, then
delete any records belonging to this pid also (there shouldn't be any).
****************************************************************************/
static int delete_fn(TDB_CONTEXT *ttdb, TDB_DATA kbuf, TDB_DATA dbuf, void *state)
{
struct lock_struct *locks;
int count, i;
BOOL check_self = *(BOOL *)state;
pid_t mypid = sys_getpid();
tdb_chainlock(tdb, kbuf);
locks = (struct lock_struct *)dbuf.dptr;
count = dbuf.dsize / sizeof(*locks);
for (i=0; i<count; i++) {
struct lock_struct *lock = &locks[i];
/* If check_self is true we want to remove our own records. */
if (check_self && (mypid == lock->context.pid)) {
DEBUG(0,("brlock : delete_fn. LOGIC ERROR ! Shutting down and a record for my pid (%u) exists !\n",
(unsigned int)lock->context.pid ));
} else if (process_exists(lock->context.pid)) {
DEBUG(10,("brlock : delete_fn. pid %u exists.\n", (unsigned int)lock->context.pid ));
continue;
}
DEBUG(10,("brlock : delete_fn. Deleting record for process %u\n",
(unsigned int)lock->context.pid ));
if (count > 1 && i < count-1) {
memmove(&locks[i], &locks[i+1],
sizeof(*locks)*((count-1) - i));
}
count--;
i--;
}
if (count == 0) {
tdb_delete(tdb, kbuf);
} else if (count < (dbuf.dsize / sizeof(*locks))) {
dbuf.dsize = count * sizeof(*locks);
tdb_store(tdb, kbuf, dbuf, TDB_REPLACE);
}
tdb_chainunlock(tdb, kbuf);
return 0;
}
#endif
/****************************************************************************
Open up the brlock.tdb database.
****************************************************************************/
void brl_init(int read_only)
{
if (tdb)
return;
tdb = tdb_open_log(lock_path("brlock.tdb"), 0, TDB_DEFAULT|(read_only?0x0:TDB_CLEAR_IF_FIRST),
read_only?O_RDONLY:(O_RDWR|O_CREAT), 0644);
if (!tdb) {
DEBUG(0,("Failed to open byte range locking database\n"));
return;
}
#if DONT_DO_THIS
/* doing this traversal could kill solaris machines under high load (tridge) */
/* delete any dead locks */
if (!read_only) {
BOOL check_self = False;
tdb_traverse(tdb, delete_fn, &check_self);
}
#endif
}
/****************************************************************************
Close down the brlock.tdb database.
****************************************************************************/
void brl_shutdown(int read_only)
{
if (!tdb)
return;
#if DONT_DO_THIS
/* doing this traversal could kill solaris machines under high load (tridge) */
/* delete any dead locks */
if (!read_only) {
BOOL check_self = True;
tdb_traverse(tdb, delete_fn, &check_self);
}
#endif
tdb_close(tdb);
}
#if ZERO_ZERO
/****************************************************************************
compare two locks for sorting
****************************************************************************/
static int lock_compare(struct lock_struct *lck1,
struct lock_struct *lck2)
{
if (lck1->start != lck2->start) return (lck1->start - lck2->start);
if (lck2->size != lck1->size) {
return ((int)lck1->size - (int)lck2->size);
}
return 0;
}
#endif
/****************************************************************************
Lock a range of bytes.
****************************************************************************/
NTSTATUS brl_lock(SMB_DEV_T dev, SMB_INO_T ino, int fnum,
uint16 smbpid, pid_t pid, uint16 tid,
br_off start, br_off size,
enum brl_type lock_type)
{
TDB_DATA kbuf, dbuf;
int count, i;
struct lock_struct lock, *locks;
char *tp;
NTSTATUS status = NT_STATUS_OK;
static int last_failed = -1;
static br_off last_failed_start;
kbuf = locking_key(dev,ino);
dbuf.dptr = NULL;
#if !ZERO_ZERO
if (start == 0 && size == 0) {
DEBUG(0,("client sent 0/0 lock - please report this\n"));
}
#endif
tdb_chainlock(tdb, kbuf);
dbuf = tdb_fetch(tdb, kbuf);
lock.context.smbpid = smbpid;
lock.context.pid = pid;
lock.context.tid = tid;
lock.start = start;
lock.size = size;
lock.fnum = fnum;
lock.lock_type = lock_type;
if (dbuf.dptr) {
/* there are existing locks - make sure they don't conflict */
locks = (struct lock_struct *)dbuf.dptr;
count = dbuf.dsize / sizeof(*locks);
for (i=0; i<count; i++) {
if (brl_conflict(&locks[i], &lock)) {
status = NT_STATUS_LOCK_NOT_GRANTED;
goto fail;
}
#if ZERO_ZERO
if (lock.start == 0 && lock.size == 0 &&
locks[i].size == 0) {
break;
}
#endif
}
}
/* no conflicts - add it to the list of locks */
tp = Realloc(dbuf.dptr, dbuf.dsize + sizeof(*locks));
if (!tp) {
status = NT_STATUS_NO_MEMORY;
goto fail;
} else {
dbuf.dptr = tp;
}
memcpy(dbuf.dptr + dbuf.dsize, &lock, sizeof(lock));
dbuf.dsize += sizeof(lock);
#if ZERO_ZERO
/* sort the lock list */
qsort(dbuf.dptr, dbuf.dsize/sizeof(lock), sizeof(lock), QSORT_CAST lock_compare);
#endif
tdb_store(tdb, kbuf, dbuf, TDB_REPLACE);
SAFE_FREE(dbuf.dptr);
tdb_chainunlock(tdb, kbuf);
return NT_STATUS_OK;
fail:
/* this is a nasty hack to try to simulate the lock result cache code in w2k.
It isn't completely accurate as I haven't yet worked out the correct
semantics (tridge)
*/
if (last_failed == fnum &&
last_failed_start == start &&
NT_STATUS_EQUAL(status, NT_STATUS_LOCK_NOT_GRANTED)) {
status = NT_STATUS_FILE_LOCK_CONFLICT;
}
last_failed = fnum;
last_failed_start = start;
SAFE_FREE(dbuf.dptr);
tdb_chainunlock(tdb, kbuf);
return status;
}
/****************************************************************************
Check if an unlock overlaps a pending lock.
****************************************************************************/
static BOOL brl_pending_overlap(struct lock_struct *lock, struct lock_struct *pend_lock)
{
if ((lock->start <= pend_lock->start) && (lock->start + lock->size > pend_lock->start))
return True;
if ((lock->start >= pend_lock->start) && (lock->start <= pend_lock->start + pend_lock->size))
return True;
return False;
}
/****************************************************************************
Unlock a range of bytes.
****************************************************************************/
BOOL brl_unlock(SMB_DEV_T dev, SMB_INO_T ino, int fnum,
uint16 smbpid, pid_t pid, uint16 tid,
br_off start, br_off size,
BOOL remove_pending_locks_only)
{
TDB_DATA kbuf, dbuf;
int count, i, j;
struct lock_struct *locks;
struct lock_context context;
kbuf = locking_key(dev,ino);
dbuf.dptr = NULL;
tdb_chainlock(tdb, kbuf);
dbuf = tdb_fetch(tdb, kbuf);
if (!dbuf.dptr) {
DEBUG(10,("brl_unlock: tdb_fetch failed !\n"));
goto fail;
}
context.smbpid = smbpid;
context.pid = pid;
context.tid = tid;
/* there are existing locks - find a match */
locks = (struct lock_struct *)dbuf.dptr;
count = dbuf.dsize / sizeof(*locks);
#if ZERO_ZERO
for (i=0; i<count; i++) {
struct lock_struct *lock = &locks[i];
if (lock->lock_type == WRITE_LOCK &&
brl_same_context(&lock->context, &context) &&
lock->fnum == fnum &&
lock->start == start &&
lock->size == size) {
/* found it - delete it */
if (count == 1) {
tdb_delete(tdb, kbuf);
} else {
if (i < count-1) {
memmove(&locks[i], &locks[i+1],
sizeof(*locks)*((count-1) - i));
}
dbuf.dsize -= sizeof(*locks);
tdb_store(tdb, kbuf, dbuf, TDB_REPLACE);
}
SAFE_FREE(dbuf.dptr);
tdb_chainunlock(tdb, kbuf);
return True;
}
}
#endif
locks = (struct lock_struct *)dbuf.dptr;
count = dbuf.dsize / sizeof(*locks);
for (i=0; i<count; i++) {
struct lock_struct *lock = &locks[i];
if (brl_same_context(&lock->context, &context) &&
lock->fnum == fnum &&
lock->start == start &&
lock->size == size) {
if (remove_pending_locks_only && lock->lock_type != PENDING_LOCK)
continue;
if (lock->lock_type != PENDING_LOCK) {
/* Send unlock messages to any pending waiters that overlap. */
for (j=0; j<count; j++) {
struct lock_struct *pend_lock = &locks[j];
/* Ignore non-pending locks. */
if (pend_lock->lock_type != PENDING_LOCK)
continue;
/* We could send specific lock info here... */
if (brl_pending_overlap(lock, pend_lock)) {
DEBUG(10,("brl_unlock: sending unlock message to pid %u\n",
(unsigned int)pend_lock->context.pid ));
message_send_pid(pend_lock->context.pid,
MSG_SMB_UNLOCK,
NULL, 0, True);
}
}
}
/* found it - delete it */
if (count == 1) {
tdb_delete(tdb, kbuf);
} else {
if (i < count-1) {
memmove(&locks[i], &locks[i+1],
sizeof(*locks)*((count-1) - i));
}
dbuf.dsize -= sizeof(*locks);
tdb_store(tdb, kbuf, dbuf, TDB_REPLACE);
}
SAFE_FREE(dbuf.dptr);
tdb_chainunlock(tdb, kbuf);
return True;
}
}
/* we didn't find it */
fail:
SAFE_FREE(dbuf.dptr);
tdb_chainunlock(tdb, kbuf);
return False;
}
/****************************************************************************
Test if we could add a lock if we wanted to.
****************************************************************************/
BOOL brl_locktest(SMB_DEV_T dev, SMB_INO_T ino, int fnum,
uint16 smbpid, pid_t pid, uint16 tid,
br_off start, br_off size,
enum brl_type lock_type, int check_self)
{
TDB_DATA kbuf, dbuf;
int count, i;
struct lock_struct lock, *locks;
kbuf = locking_key(dev,ino);
dbuf.dptr = NULL;
tdb_chainlock(tdb, kbuf);
dbuf = tdb_fetch(tdb, kbuf);
lock.context.smbpid = smbpid;
lock.context.pid = pid;
lock.context.tid = tid;
lock.start = start;
lock.size = size;
lock.fnum = fnum;
lock.lock_type = lock_type;
if (dbuf.dptr) {
/* there are existing locks - make sure they don't conflict */
locks = (struct lock_struct *)dbuf.dptr;
count = dbuf.dsize / sizeof(*locks);
for (i=0; i<count; i++) {
if (check_self) {
if (brl_conflict(&locks[i], &lock))
goto fail;
} else {
/*
* Our own locks don't conflict.
*/
if (brl_conflict_other(&locks[i], &lock))
goto fail;
}
}
}
/* no conflicts - we could have added it */
SAFE_FREE(dbuf.dptr);
tdb_chainunlock(tdb, kbuf);
return True;
fail:
SAFE_FREE(dbuf.dptr);
tdb_chainunlock(tdb, kbuf);
return False;
}
/****************************************************************************
Remove any locks associated with a open file.
****************************************************************************/
void brl_close(SMB_DEV_T dev, SMB_INO_T ino, pid_t pid, int tid, int fnum)
{
TDB_DATA kbuf, dbuf;
int count, i, j, dcount=0;
struct lock_struct *locks;
kbuf = locking_key(dev,ino);
dbuf.dptr = NULL;
tdb_chainlock(tdb, kbuf);
dbuf = tdb_fetch(tdb, kbuf);
if (!dbuf.dptr) goto fail;
/* there are existing locks - remove any for this fnum */
locks = (struct lock_struct *)dbuf.dptr;
count = dbuf.dsize / sizeof(*locks);
for (i=0; i<count; i++) {
struct lock_struct *lock = &locks[i];
if (lock->context.tid == tid &&
lock->context.pid == pid &&
lock->fnum == fnum) {
/* Send unlock messages to any pending waiters that overlap. */
for (j=0; j<count; j++) {
struct lock_struct *pend_lock = &locks[j];
/* Ignore our own or non-pending locks. */
if (pend_lock->lock_type != PENDING_LOCK)
continue;
if (pend_lock->context.tid == tid &&
pend_lock->context.pid == pid &&
pend_lock->fnum == fnum)
continue;
/* We could send specific lock info here... */
if (brl_pending_overlap(lock, pend_lock))
message_send_pid(pend_lock->context.pid,
MSG_SMB_UNLOCK,
NULL, 0, True);
}
/* found it - delete it */
if (count > 1 && i < count-1) {
memmove(&locks[i], &locks[i+1],
sizeof(*locks)*((count-1) - i));
}
count--;
i--;
dcount++;
}
}
if (count == 0) {
tdb_delete(tdb, kbuf);
} else if (count < (dbuf.dsize / sizeof(*locks))) {
dbuf.dsize -= dcount * sizeof(*locks);
tdb_store(tdb, kbuf, dbuf, TDB_REPLACE);
}
/* we didn't find it */
fail:
SAFE_FREE(dbuf.dptr);
tdb_chainunlock(tdb, kbuf);
}
/****************************************************************************
Traverse the whole database with this function, calling traverse_callback
on each lock.
****************************************************************************/
static int traverse_fn(TDB_CONTEXT *ttdb, TDB_DATA kbuf, TDB_DATA dbuf, void *state)
{
struct lock_struct *locks;
struct lock_key *key;
int i;
BRLOCK_FN(traverse_callback) = (BRLOCK_FN_CAST())state;
locks = (struct lock_struct *)dbuf.dptr;
key = (struct lock_key *)kbuf.dptr;
for (i=0;i<dbuf.dsize/sizeof(*locks);i++) {
traverse_callback(key->device, key->inode,
locks[i].context.pid,
locks[i].lock_type,
locks[i].start,
locks[i].size);
}
return 0;
}
/*******************************************************************
Call the specified function on each lock in the database.
********************************************************************/
int brl_forall(BRLOCK_FN(fn))
{
if (!tdb) return 0;
return tdb_traverse(tdb, traverse_fn, (void *)fn);
}
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