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|
/*
Unix SMB/CIFS implementation.
Locking functions
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.
Revision History:
12 aug 96: Erik.Devriendt@te6.siemens.be
added support for shared memory implementation of share mode locking
May 1997. Jeremy Allison (jallison@whistle.com). Modified share mode
locking to deal with multiple share modes per open file.
September 1997. Jeremy Allison (jallison@whistle.com). Added oplock
support.
rewrtten completely to use new tdb code. Tridge, Dec '99
Added POSIX locking support. Jeremy Allison (jeremy@valinux.com), Apr. 2000.
*/
#include "includes.h"
uint16 global_smbpid;
/* the locking database handle */
static TDB_CONTEXT *tdb;
struct locking_data {
union {
int num_share_mode_entries;
share_mode_entry dummy; /* Needed for alignment. */
} u;
/* the following two entries are implicit
share_mode_entry modes[num_share_mode_entries];
char file_name[];
*/
};
/****************************************************************************
Debugging aid :-).
****************************************************************************/
static const char *lock_type_name(enum brl_type lock_type)
{
return (lock_type == READ_LOCK) ? "READ" : "WRITE";
}
/****************************************************************************
Utility function called to see if a file region is locked.
If check_self is True, then checks on our own fd with the same locking context
are still made. If check_self is False, then checks are not made on our own fd
with the same locking context are not made.
****************************************************************************/
BOOL is_locked(files_struct *fsp,connection_struct *conn,
SMB_BIG_UINT count,SMB_BIG_UINT offset,
enum brl_type lock_type, BOOL check_self)
{
int snum = SNUM(conn);
BOOL ret;
if (count == 0)
return(False);
if (!lp_locking(snum) || !lp_strict_locking(snum))
return(False);
ret = !brl_locktest(fsp->dev, fsp->inode, fsp->fnum,
global_smbpid, sys_getpid(), conn->cnum,
offset, count, lock_type, check_self);
DEBUG(10,("is_locked: brl start=%.0f len=%.0f %s for file %s\n",
(double)offset, (double)count, ret ? "locked" : "unlocked",
fsp->fsp_name ));
/*
* There is no lock held by an SMB daemon, check to
* see if there is a POSIX lock from a UNIX or NFS process.
*/
if(!ret && lp_posix_locking(snum)) {
ret = is_posix_locked(fsp, offset, count, lock_type);
DEBUG(10,("is_locked: posix start=%.0f len=%.0f %s for file %s\n",
(double)offset, (double)count, ret ? "locked" : "unlocked",
fsp->fsp_name ));
}
return ret;
}
/****************************************************************************
Utility function called by locking requests.
****************************************************************************/
static NTSTATUS do_lock(files_struct *fsp,connection_struct *conn, uint16 lock_pid,
SMB_BIG_UINT count,SMB_BIG_UINT offset,enum brl_type lock_type, BOOL *my_lock_ctx)
{
NTSTATUS status = NT_STATUS_LOCK_NOT_GRANTED;
if (!lp_locking(SNUM(conn)))
return NT_STATUS_OK;
/* NOTE! 0 byte long ranges ARE allowed and should be stored */
DEBUG(10,("do_lock: lock type %s start=%.0f len=%.0f requested for file %s\n",
lock_type_name(lock_type), (double)offset, (double)count, fsp->fsp_name ));
if (OPEN_FSP(fsp) && fsp->can_lock && (fsp->conn == conn)) {
status = brl_lock(fsp->dev, fsp->inode, fsp->fnum,
lock_pid, sys_getpid(), conn->cnum,
offset, count,
lock_type, my_lock_ctx);
if (NT_STATUS_IS_OK(status) && lp_posix_locking(SNUM(conn))) {
/*
* Try and get a POSIX lock on this range.
* Note that this is ok if it is a read lock
* overlapping on a different fd. JRA.
*/
if (!set_posix_lock(fsp, offset, count, lock_type)) {
if (errno == EACCES || errno == EAGAIN)
status = NT_STATUS_FILE_LOCK_CONFLICT;
else
status = map_nt_error_from_unix(errno);
/*
* We failed to map - we must now remove the brl
* lock entry.
*/
(void)brl_unlock(fsp->dev, fsp->inode, fsp->fnum,
lock_pid, sys_getpid(), conn->cnum,
offset, count, False,
NULL, NULL);
}
}
}
return status;
}
/****************************************************************************
Utility function called by locking requests. This is *DISGUSTING*. It also
appears to be "What Windows Does" (tm). Andrew, ever wonder why Windows 2000
is so slow on the locking tests...... ? This is the reason. Much though I hate
it, we need this. JRA.
****************************************************************************/
NTSTATUS do_lock_spin(files_struct *fsp,connection_struct *conn, uint16 lock_pid,
SMB_BIG_UINT count,SMB_BIG_UINT offset,enum brl_type lock_type, BOOL *my_lock_ctx)
{
int j, maxj = lp_lock_spin_count();
int sleeptime = lp_lock_sleep_time();
NTSTATUS status, ret;
if (maxj <= 0)
maxj = 1;
ret = NT_STATUS_OK; /* to keep dumb compilers happy */
for (j = 0; j < maxj; j++) {
status = do_lock(fsp, conn, lock_pid, count, offset, lock_type, my_lock_ctx);
if (!NT_STATUS_EQUAL(status, NT_STATUS_LOCK_NOT_GRANTED) &&
!NT_STATUS_EQUAL(status, NT_STATUS_FILE_LOCK_CONFLICT)) {
return status;
}
/* if we do fail then return the first error code we got */
if (j == 0) {
ret = status;
/* Don't spin if we blocked ourselves. */
if (*my_lock_ctx)
return ret;
}
if (sleeptime)
sys_usleep(sleeptime);
}
return ret;
}
/* Struct passed to brl_unlock. */
struct posix_unlock_data_struct {
files_struct *fsp;
SMB_BIG_UINT offset;
SMB_BIG_UINT count;
};
/****************************************************************************
Function passed to brl_unlock to allow POSIX unlock to be done first.
****************************************************************************/
static void posix_unlock(void *pre_data)
{
struct posix_unlock_data_struct *pdata = (struct posix_unlock_data_struct *)pre_data;
if (lp_posix_locking(SNUM(pdata->fsp->conn)))
release_posix_lock(pdata->fsp, pdata->offset, pdata->count);
}
/****************************************************************************
Utility function called by unlocking requests.
****************************************************************************/
NTSTATUS do_unlock(files_struct *fsp,connection_struct *conn, uint16 lock_pid,
SMB_BIG_UINT count,SMB_BIG_UINT offset)
{
BOOL ok = False;
struct posix_unlock_data_struct posix_data;
if (!lp_locking(SNUM(conn)))
return NT_STATUS_OK;
if (!OPEN_FSP(fsp) || !fsp->can_lock || (fsp->conn != conn)) {
return NT_STATUS_INVALID_HANDLE;
}
DEBUG(10,("do_unlock: unlock start=%.0f len=%.0f requested for file %s\n",
(double)offset, (double)count, fsp->fsp_name ));
/*
* Remove the existing lock record from the tdb lockdb
* before looking at POSIX locks. If this record doesn't
* match then don't bother looking to remove POSIX locks.
*/
posix_data.fsp = fsp;
posix_data.offset = offset;
posix_data.count = count;
ok = brl_unlock(fsp->dev, fsp->inode, fsp->fnum,
lock_pid, sys_getpid(), conn->cnum, offset, count,
False, posix_unlock, (void *)&posix_data);
if (!ok) {
DEBUG(10,("do_unlock: returning ERRlock.\n" ));
return NT_STATUS_RANGE_NOT_LOCKED;
}
return NT_STATUS_OK;
}
/****************************************************************************
Remove any locks on this fd. Called from file_close().
****************************************************************************/
void locking_close_file(files_struct *fsp)
{
pid_t pid = sys_getpid();
if (!lp_locking(SNUM(fsp->conn)))
return;
/*
* Just release all the brl locks, no need to release individually.
*/
brl_close(fsp->dev, fsp->inode, pid, fsp->conn->cnum, fsp->fnum);
if(lp_posix_locking(SNUM(fsp->conn))) {
/*
* Release all the POSIX locks.
*/
posix_locking_close_file(fsp);
}
}
/****************************************************************************
Initialise the locking functions.
****************************************************************************/
static int open_read_only;
BOOL locking_init(int read_only)
{
brl_init(read_only);
if (tdb)
return True;
tdb = tdb_open_log(lock_path("locking.tdb"),
0, TDB_DEFAULT|(read_only?0x0:TDB_CLEAR_IF_FIRST),
read_only?O_RDONLY:O_RDWR|O_CREAT,
0644);
if (!tdb) {
DEBUG(0,("ERROR: Failed to initialise locking database\n"));
return False;
}
if (!posix_locking_init(read_only))
return False;
open_read_only = read_only;
return True;
}
/*******************************************************************
Deinitialize the share_mode management.
******************************************************************/
BOOL locking_end(void)
{
brl_shutdown(open_read_only);
if (tdb) {
if (tdb_close(tdb) != 0)
return False;
}
return True;
}
/*******************************************************************
Form a static locking key for a dev/inode pair.
******************************************************************/
static TDB_DATA locking_key(SMB_DEV_T dev, SMB_INO_T inode)
{
static struct locking_key key;
TDB_DATA kbuf;
memset(&key, '\0', sizeof(key));
key.dev = dev;
key.inode = inode;
kbuf.dptr = (char *)&key;
kbuf.dsize = sizeof(key);
return kbuf;
}
static TDB_DATA locking_key_fsp(files_struct *fsp)
{
return locking_key(fsp->dev, fsp->inode);
}
/*******************************************************************
Lock a hash bucket entry.
******************************************************************/
BOOL lock_share_entry(connection_struct *conn,
SMB_DEV_T dev, SMB_INO_T inode)
{
return tdb_chainlock(tdb, locking_key(dev, inode)) == 0;
}
/*******************************************************************
Unlock a hash bucket entry.
******************************************************************/
void unlock_share_entry(connection_struct *conn,
SMB_DEV_T dev, SMB_INO_T inode)
{
tdb_chainunlock(tdb, locking_key(dev, inode));
}
/*******************************************************************
Lock a hash bucket entry. use a fsp for convenience
******************************************************************/
BOOL lock_share_entry_fsp(files_struct *fsp)
{
return tdb_chainlock(tdb, locking_key(fsp->dev, fsp->inode)) == 0;
}
/*******************************************************************
Unlock a hash bucket entry.
******************************************************************/
void unlock_share_entry_fsp(files_struct *fsp)
{
tdb_chainunlock(tdb, locking_key(fsp->dev, fsp->inode));
}
/*******************************************************************
Print out a share mode.
********************************************************************/
char *share_mode_str(int num, share_mode_entry *e)
{
static pstring share_str;
slprintf(share_str, sizeof(share_str)-1, "share_mode_entry[%d]: \
pid = %lu, share_mode = 0x%x, desired_access = 0x%x, port = 0x%x, type= 0x%x, file_id = %lu, dev = 0x%x, inode = %.0f",
num, (unsigned long)e->pid, e->share_mode, (unsigned int)e->desired_access, e->op_port, e->op_type, e->share_file_id,
(unsigned int)e->dev, (double)e->inode );
return share_str;
}
/*******************************************************************
Print out a share mode table.
********************************************************************/
static void print_share_mode_table(struct locking_data *data)
{
int num_share_modes = data->u.num_share_mode_entries;
share_mode_entry *shares = (share_mode_entry *)(data + 1);
int i;
for (i = 0; i < num_share_modes; i++) {
share_mode_entry *entry_p = &shares[i];
DEBUG(10,("print_share_mode_table: %s\n", share_mode_str(i, entry_p) ));
}
}
/*******************************************************************
Get all share mode entries for a dev/inode pair.
********************************************************************/
int get_share_modes(connection_struct *conn,
SMB_DEV_T dev, SMB_INO_T inode,
share_mode_entry **pp_shares)
{
TDB_DATA dbuf;
struct locking_data *data;
int num_share_modes;
share_mode_entry *shares = NULL;
TDB_DATA key = locking_key(dev, inode);
*pp_shares = NULL;
dbuf = tdb_fetch(tdb, key);
if (!dbuf.dptr)
return 0;
data = (struct locking_data *)dbuf.dptr;
num_share_modes = data->u.num_share_mode_entries;
if(num_share_modes) {
pstring fname;
int i;
int del_count = 0;
shares = (share_mode_entry *)memdup(dbuf.dptr + sizeof(*data),
num_share_modes * sizeof(share_mode_entry));
if (!shares) {
SAFE_FREE(dbuf.dptr);
return 0;
}
/* Save off the associated filename. */
pstrcpy(fname, dbuf.dptr + sizeof(*data) + num_share_modes * sizeof(share_mode_entry));
/*
* Ensure that each entry has a real process attached.
*/
for (i = 0; i < num_share_modes; ) {
share_mode_entry *entry_p = &shares[i];
if (process_exists(entry_p->pid)) {
DEBUG(10,("get_share_modes: %s\n", share_mode_str(i, entry_p) ));
i++;
} else {
DEBUG(10,("get_share_modes: deleted %s\n", share_mode_str(i, entry_p) ));
if (num_share_modes - i - 1 > 0) {
memcpy( &shares[i], &shares[i+1],
sizeof(share_mode_entry) * (num_share_modes - i - 1));
}
num_share_modes--;
del_count++;
}
}
/* Did we delete any ? If so, re-store in tdb. */
if (del_count) {
data->u.num_share_mode_entries = num_share_modes;
if (num_share_modes) {
memcpy(dbuf.dptr + sizeof(*data), shares,
num_share_modes * sizeof(share_mode_entry));
/* Append the filename. */
pstrcpy(dbuf.dptr + sizeof(*data) + num_share_modes * sizeof(share_mode_entry), fname);
}
/* The record has shrunk a bit */
dbuf.dsize -= del_count * sizeof(share_mode_entry);
if (data->u.num_share_mode_entries == 0) {
if (tdb_delete(tdb, key) == -1) {
SAFE_FREE(shares);
SAFE_FREE(dbuf.dptr);
return 0;
}
} else {
if (tdb_store(tdb, key, dbuf, TDB_REPLACE) == -1) {
SAFE_FREE(shares);
SAFE_FREE(dbuf.dptr);
return 0;
}
}
}
}
SAFE_FREE(dbuf.dptr);
*pp_shares = shares;
return num_share_modes;
}
/*******************************************************************
Fill a share mode entry.
********************************************************************/
static void fill_share_mode(char *p, files_struct *fsp, uint16 port, uint16 op_type)
{
share_mode_entry *e = (share_mode_entry *)p;
void *x = &e->time; /* Needed to force alignment. p may not be aligned.... */
memset(e, '\0', sizeof(share_mode_entry));
e->pid = sys_getpid();
e->share_mode = fsp->share_mode;
e->desired_access = fsp->desired_access;
e->op_port = port;
e->op_type = op_type;
memcpy(x, &fsp->open_time, sizeof(struct timeval));
e->share_file_id = fsp->file_id;
e->dev = fsp->dev;
e->inode = fsp->inode;
}
/*******************************************************************
Check if two share mode entries are identical, ignoring oplock
and port info and desired_access.
********************************************************************/
BOOL share_modes_identical( share_mode_entry *e1, share_mode_entry *e2)
{
#if 1 /* JRA PARANOIA TEST - REMOVE LATER */
if (e1->pid == e2->pid &&
e1->share_file_id == e2->share_file_id &&
e1->dev == e2->dev &&
e1->inode == e2->inode &&
(e1->share_mode & ~DELETE_ON_CLOSE_FLAG) != (e2->share_mode & ~DELETE_ON_CLOSE_FLAG)) {
DEBUG(0,("PANIC: share_modes_identical: share_mode missmatch (e1 = %u, e2 = %u). Logic error.\n",
(unsigned int)(e1->share_mode & ~DELETE_ON_CLOSE_FLAG),
(unsigned int)(e2->share_mode & ~DELETE_ON_CLOSE_FLAG) ));
smb_panic("PANIC: share_modes_identical logic error.\n");
}
#endif
return (e1->pid == e2->pid &&
(e1->share_mode & ~DELETE_ON_CLOSE_FLAG) == (e2->share_mode & ~DELETE_ON_CLOSE_FLAG) &&
e1->dev == e2->dev &&
e1->inode == e2->inode &&
e1->share_file_id == e2->share_file_id );
}
/*******************************************************************
Delete a specific share mode. Return the number
of entries left, and a memdup'ed copy of the entry deleted (if required).
Ignore if no entry deleted.
********************************************************************/
ssize_t del_share_entry( SMB_DEV_T dev, SMB_INO_T inode,
share_mode_entry *entry, share_mode_entry **ppse)
{
TDB_DATA dbuf;
struct locking_data *data;
int i, del_count=0;
share_mode_entry *shares;
ssize_t count = 0;
TDB_DATA key = locking_key(dev, inode);
if (ppse)
*ppse = NULL;
/* read in the existing share modes */
dbuf = tdb_fetch(tdb, key);
if (!dbuf.dptr)
return -1;
data = (struct locking_data *)dbuf.dptr;
shares = (share_mode_entry *)(dbuf.dptr + sizeof(*data));
/*
* Find any with this pid and delete it
* by overwriting with the rest of the data
* from the record.
*/
DEBUG(10,("del_share_entry: num_share_modes = %d\n", data->u.num_share_mode_entries ));
for (i=0;i<data->u.num_share_mode_entries;) {
if (share_modes_identical(&shares[i], entry)) {
DEBUG(10,("del_share_entry: deleted %s\n",
share_mode_str(i, &shares[i]) ));
if (ppse)
*ppse = memdup(&shares[i], sizeof(*shares));
data->u.num_share_mode_entries--;
if ((dbuf.dsize - (sizeof(*data) + (i+1)*sizeof(*shares))) > 0) {
memmove(&shares[i], &shares[i+1],
dbuf.dsize - (sizeof(*data) + (i+1)*sizeof(*shares)));
}
del_count++;
DEBUG(10,("del_share_entry: deleting entry %d\n", i ));
} else {
i++;
}
}
if (del_count) {
/* the record may have shrunk a bit */
dbuf.dsize -= del_count * sizeof(*shares);
count = (ssize_t)data->u.num_share_mode_entries;
/* store it back in the database */
if (data->u.num_share_mode_entries == 0) {
if (tdb_delete(tdb, key) == -1)
count = -1;
} else {
if (tdb_store(tdb, key, dbuf, TDB_REPLACE) == -1)
count = -1;
}
}
DEBUG(10,("del_share_entry: Remaining table.\n"));
print_share_mode_table((struct locking_data *)dbuf.dptr);
SAFE_FREE(dbuf.dptr);
return count;
}
/*******************************************************************
Del the share mode of a file for this process. Return the number
of entries left, and a memdup'ed copy of the entry deleted.
********************************************************************/
ssize_t del_share_mode(files_struct *fsp, share_mode_entry **ppse)
{
share_mode_entry entry;
/*
* Fake up a share_mode_entry for comparisons.
*/
fill_share_mode((char *)&entry, fsp, 0, 0);
return del_share_entry(fsp->dev, fsp->inode, &entry, ppse);
}
/*******************************************************************
Set the share mode of a file. Return False on fail, True on success.
********************************************************************/
BOOL set_share_mode(files_struct *fsp, uint16 port, uint16 op_type)
{
TDB_DATA dbuf;
struct locking_data *data;
char *p=NULL;
int size;
TDB_DATA key = locking_key_fsp(fsp);
BOOL ret = True;
/* read in the existing share modes if any */
dbuf = tdb_fetch(tdb, key);
if (!dbuf.dptr) {
size_t offset;
/* we'll need to create a new record */
pstring fname;
pstrcpy(fname, fsp->conn->connectpath);
pstrcat(fname, "/");
pstrcat(fname, fsp->fsp_name);
size = sizeof(*data) + sizeof(share_mode_entry) + strlen(fname) + 1;
p = (char *)malloc(size);
if (!p)
return False;
data = (struct locking_data *)p;
data->u.num_share_mode_entries = 1;
DEBUG(10,("set_share_mode: creating entry for file %s. num_share_modes = 1\n",
fsp->fsp_name ));
offset = sizeof(*data) + sizeof(share_mode_entry);
safe_strcpy(p + offset, fname, size - offset - 1);
fill_share_mode(p + sizeof(*data), fsp, port, op_type);
dbuf.dptr = p;
dbuf.dsize = size;
if (tdb_store(tdb, key, dbuf, TDB_REPLACE) == -1)
ret = False;
print_share_mode_table((struct locking_data *)p);
SAFE_FREE(p);
return ret;
}
/* we're adding to an existing entry - this is a bit fiddly */
data = (struct locking_data *)dbuf.dptr;
data->u.num_share_mode_entries++;
DEBUG(10,("set_share_mode: adding entry for file %s. new num_share_modes = %d\n",
fsp->fsp_name, data->u.num_share_mode_entries ));
size = dbuf.dsize + sizeof(share_mode_entry);
p = malloc(size);
if (!p) {
SAFE_FREE(dbuf.dptr);
return False;
}
memcpy(p, dbuf.dptr, sizeof(*data));
fill_share_mode(p + sizeof(*data), fsp, port, op_type);
memcpy(p + sizeof(*data) + sizeof(share_mode_entry), dbuf.dptr + sizeof(*data),
dbuf.dsize - sizeof(*data));
SAFE_FREE(dbuf.dptr);
dbuf.dptr = p;
dbuf.dsize = size;
if (tdb_store(tdb, key, dbuf, TDB_REPLACE) == -1)
ret = False;
print_share_mode_table((struct locking_data *)p);
SAFE_FREE(p);
return ret;
}
/*******************************************************************
A generic in-place modification call for share mode entries.
********************************************************************/
static BOOL mod_share_mode( SMB_DEV_T dev, SMB_INO_T inode, share_mode_entry *entry,
void (*mod_fn)(share_mode_entry *, SMB_DEV_T, SMB_INO_T, void *),
void *param)
{
TDB_DATA dbuf;
struct locking_data *data;
int i;
share_mode_entry *shares;
BOOL need_store=False;
BOOL ret = True;
TDB_DATA key = locking_key(dev, inode);
/* read in the existing share modes */
dbuf = tdb_fetch(tdb, key);
if (!dbuf.dptr)
return False;
data = (struct locking_data *)dbuf.dptr;
shares = (share_mode_entry *)(dbuf.dptr + sizeof(*data));
/* find any with our pid and call the supplied function */
for (i=0;i<data->u.num_share_mode_entries;i++) {
if (share_modes_identical(entry, &shares[i])) {
mod_fn(&shares[i], dev, inode, param);
need_store=True;
}
}
/* if the mod fn was called then store it back */
if (need_store) {
if (data->u.num_share_mode_entries == 0) {
if (tdb_delete(tdb, key) == -1)
ret = False;
} else {
if (tdb_store(tdb, key, dbuf, TDB_REPLACE) == -1)
ret = False;
}
}
SAFE_FREE(dbuf.dptr);
return ret;
}
/*******************************************************************
Static function that actually does the work for the generic function
below.
********************************************************************/
static void remove_share_oplock_fn(share_mode_entry *entry, SMB_DEV_T dev, SMB_INO_T inode,
void *param)
{
DEBUG(10,("remove_share_oplock_fn: removing oplock info for entry dev=%x ino=%.0f\n",
(unsigned int)dev, (double)inode ));
/* Delete the oplock info. */
entry->op_port = 0;
entry->op_type = NO_OPLOCK;
}
/*******************************************************************
Remove an oplock port and mode entry from a share mode.
********************************************************************/
BOOL remove_share_oplock(files_struct *fsp)
{
share_mode_entry entry;
/*
* Fake up an entry for comparisons...
*/
fill_share_mode((char *)&entry, fsp, 0, 0);
return mod_share_mode(fsp->dev, fsp->inode, &entry, remove_share_oplock_fn, NULL);
}
/*******************************************************************
Static function that actually does the work for the generic function
below.
********************************************************************/
static void downgrade_share_oplock_fn(share_mode_entry *entry, SMB_DEV_T dev, SMB_INO_T inode,
void *param)
{
DEBUG(10,("downgrade_share_oplock_fn: downgrading oplock info for entry dev=%x ino=%.0f\n",
(unsigned int)dev, (double)inode ));
entry->op_type = LEVEL_II_OPLOCK;
}
/*******************************************************************
Downgrade a oplock type from exclusive to level II.
********************************************************************/
BOOL downgrade_share_oplock(files_struct *fsp)
{
share_mode_entry entry;
/*
* Fake up an entry for comparisons...
*/
fill_share_mode((char *)&entry, fsp, 0, 0);
return mod_share_mode(fsp->dev, fsp->inode, &entry, downgrade_share_oplock_fn, NULL);
}
/*******************************************************************
Get/Set the delete on close flag in a set of share modes.
Return False on fail, True on success.
********************************************************************/
BOOL modify_delete_flag( SMB_DEV_T dev, SMB_INO_T inode, BOOL delete_on_close)
{
TDB_DATA dbuf;
struct locking_data *data;
int i;
share_mode_entry *shares;
TDB_DATA key = locking_key(dev, inode);
/* read in the existing share modes */
dbuf = tdb_fetch(tdb, key);
if (!dbuf.dptr)
return False;
data = (struct locking_data *)dbuf.dptr;
shares = (share_mode_entry *)(dbuf.dptr + sizeof(*data));
/* Set/Unset the delete on close element. */
for (i=0;i<data->u.num_share_mode_entries;i++,shares++) {
shares->share_mode = (delete_on_close ?
(shares->share_mode | DELETE_ON_CLOSE_FLAG) :
(shares->share_mode & ~DELETE_ON_CLOSE_FLAG) );
}
/* store it back */
if (data->u.num_share_mode_entries) {
if (tdb_store(tdb, key, dbuf, TDB_REPLACE)==-1) {
SAFE_FREE(dbuf.dptr);
return False;
}
}
SAFE_FREE(dbuf.dptr);
return True;
}
/*******************************************************************
Print out a deferred open entry.
********************************************************************/
char *deferred_open_str(int num, deferred_open_entry *e)
{
static pstring de_str;
slprintf(de_str, sizeof(de_str)-1, "deferred_open_entry[%d]: \
pid = %lu, mid = %u, dev = 0x%x, inode = %.0f, port = %u, time = [%u.%06u]",
num, (unsigned long)e->pid, (unsigned int)e->mid, (unsigned int)e->dev, (double)e->inode,
(unsigned int)e->port,
(unsigned int)e->time.tv_sec, (unsigned int)e->time.tv_usec );
return de_str;
}
/* Internal data structures for deferred opens... */
struct de_locking_key {
char name[4];
SMB_DEV_T dev;
SMB_INO_T inode;
};
struct deferred_open_data {
union {
int num_deferred_open_entries;
deferred_open_entry dummy; /* Needed for alignment. */
} u;
/* the following two entries are implicit
deferred_open_entry de_entries[num_deferred_open_entries];
char file_name[];
*/
};
/*******************************************************************
Print out a deferred open table.
********************************************************************/
static void print_deferred_open_table(struct deferred_open_data *data)
{
int num_de_entries = data->u.num_deferred_open_entries;
deferred_open_entry *de_entries = (deferred_open_entry *)(data + 1);
int i;
for (i = 0; i < num_de_entries; i++) {
deferred_open_entry *entry_p = &de_entries[i];
DEBUG(10,("print_deferred_open_table: %s\n", deferred_open_str(i, entry_p) ));
}
}
/*******************************************************************
Form a static deferred open locking key for a dev/inode pair.
******************************************************************/
static TDB_DATA deferred_open_locking_key(SMB_DEV_T dev, SMB_INO_T inode)
{
static struct de_locking_key key;
TDB_DATA kbuf;
memset(&key, '\0', sizeof(key));
memcpy(&key.name[0], "DOE", 4);
key.dev = dev;
key.inode = inode;
kbuf.dptr = (char *)&key;
kbuf.dsize = sizeof(key);
return kbuf;
}
/*******************************************************************
Get all deferred open entries for a dev/inode pair.
********************************************************************/
int get_deferred_opens(connection_struct *conn,
SMB_DEV_T dev, SMB_INO_T inode,
deferred_open_entry **pp_de_entries)
{
TDB_DATA dbuf;
struct deferred_open_data *data;
int num_de_entries;
deferred_open_entry *de_entries = NULL;
TDB_DATA key = deferred_open_locking_key(dev, inode);
*pp_de_entries = NULL;
dbuf = tdb_fetch(tdb, key);
if (!dbuf.dptr)
return 0;
data = (struct deferred_open_data *)dbuf.dptr;
num_de_entries = data->u.num_deferred_open_entries;
if(num_de_entries) {
pstring fname;
int i;
int del_count = 0;
de_entries = (deferred_open_entry *)memdup(dbuf.dptr + sizeof(*data),
num_de_entries * sizeof(deferred_open_entry));
if (!de_entries) {
SAFE_FREE(dbuf.dptr);
return 0;
}
/* Save off the associated filename. */
pstrcpy(fname, dbuf.dptr + sizeof(*data) + num_de_entries * sizeof(deferred_open_entry));
/*
* Ensure that each entry has a real process attached.
*/
for (i = 0; i < num_de_entries; ) {
deferred_open_entry *entry_p = &de_entries[i];
if (process_exists(entry_p->pid)) {
DEBUG(10,("get_deferred_opens: %s\n", deferred_open_str(i, entry_p) ));
i++;
} else {
DEBUG(10,("get_deferred_opens: deleted %s\n", deferred_open_str(i, entry_p) ));
if (num_de_entries - i - 1 > 0) {
memcpy( &de_entries[i], &de_entries[i+1],
sizeof(deferred_open_entry) * (num_de_entries - i - 1));
}
num_de_entries--;
del_count++;
}
}
/* Did we delete any ? If so, re-store in tdb. */
if (del_count) {
data->u.num_deferred_open_entries = num_de_entries;
if (num_de_entries) {
memcpy(dbuf.dptr + sizeof(*data), de_entries,
num_de_entries * sizeof(deferred_open_entry));
/* Append the filename. */
pstrcpy(dbuf.dptr + sizeof(*data) + num_de_entries * sizeof(deferred_open_entry), fname);
}
/* The record has shrunk a bit */
dbuf.dsize -= del_count * sizeof(deferred_open_entry);
if (data->u.num_deferred_open_entries == 0) {
if (tdb_delete(tdb, key) == -1) {
SAFE_FREE(de_entries);
SAFE_FREE(dbuf.dptr);
return 0;
}
} else {
if (tdb_store(tdb, key, dbuf, TDB_REPLACE) == -1) {
SAFE_FREE(de_entries);
SAFE_FREE(dbuf.dptr);
return 0;
}
}
}
}
SAFE_FREE(dbuf.dptr);
*pp_de_entries = de_entries;
return num_de_entries;
}
/*******************************************************************
Check if two deferred open entries are identical.
********************************************************************/
static BOOL deferred_open_entries_identical( deferred_open_entry *e1, deferred_open_entry *e2)
{
#if 1 /* JRA PARANOIA TEST - REMOVE LATER */
if (e1->pid == e2->pid &&
e1->port == e2->port &&
e1->dev == e2->dev &&
e1->inode == e2->inode &&
((e1->time.tv_sec != e2->time.tv_sec) ||
(e1->time.tv_usec != e2->time.tv_usec) ||
(e1->mid != e2->mid))) {
smb_panic("PANIC: deferred_open_entries_identical: logic error.\n");
}
#endif
return (e1->pid == e2->pid &&
e1->mid == e2->mid &&
e1->port == e2->port &&
e1->dev == e2->dev &&
e1->inode == e2->inode &&
e1->time.tv_sec == e2->time.tv_sec &&
e1->time.tv_usec == e2->time.tv_usec);
}
/*******************************************************************
Delete a specific deferred open entry.
Ignore if no entry deleted.
********************************************************************/
BOOL delete_deferred_open_entry(deferred_open_entry *entry)
{
TDB_DATA dbuf;
struct deferred_open_data *data;
int i, del_count=0;
deferred_open_entry *de_entries;
BOOL ret = True;
TDB_DATA key = deferred_open_locking_key(entry->dev, entry->inode);
/* read in the existing share modes */
dbuf = tdb_fetch(tdb, key);
if (!dbuf.dptr)
return -1;
data = (struct deferred_open_data *)dbuf.dptr;
de_entries = (deferred_open_entry *)(dbuf.dptr + sizeof(*data));
/*
* Find any with this pid and delete it
* by overwriting with the rest of the data
* from the record.
*/
DEBUG(10,("delete_deferred_open_entry: num_deferred_open_entries = %d\n",
data->u.num_deferred_open_entries ));
for (i=0;i<data->u.num_deferred_open_entries;) {
if (deferred_open_entries_identical(&de_entries[i], entry)) {
DEBUG(10,("delete_deferred_open_entry: deleted %s\n",
deferred_open_str(i, &de_entries[i]) ));
data->u.num_deferred_open_entries--;
if ((dbuf.dsize - (sizeof(*data) + (i+1)*sizeof(*de_entries))) > 0) {
memmove(&de_entries[i], &de_entries[i+1],
dbuf.dsize - (sizeof(*data) + (i+1)*sizeof(*de_entries)));
}
del_count++;
DEBUG(10,("delete_deferred_open_entry: deleting entry %d\n", i ));
} else {
i++;
}
}
SMB_ASSERT(del_count == 0 || del_count == 1);
if (del_count) {
/* the record may have shrunk a bit */
dbuf.dsize -= del_count * sizeof(*de_entries);
/* store it back in the database */
if (data->u.num_deferred_open_entries == 0) {
if (tdb_delete(tdb, key) == -1)
ret = False;
} else {
if (tdb_store(tdb, key, dbuf, TDB_REPLACE) == -1)
ret = False;
}
}
DEBUG(10,("delete_deferred_open_entry: Remaining table.\n"));
print_deferred_open_table((struct deferred_open_data*)dbuf.dptr);
SAFE_FREE(dbuf.dptr);
return ret;
}
/*******************************************************************
Fill a deferred open entry.
********************************************************************/
static void fill_deferred_open(char *p, uint16 mid, struct timeval *ptv, SMB_DEV_T dev, SMB_INO_T inode, uint16 port)
{
deferred_open_entry *e = (deferred_open_entry *)p;
void *x = &e->time; /* Needed to force alignment. p may not be aligned.... */
memset(e, '\0', sizeof(deferred_open_entry));
e->mid = mid;
e->pid = sys_getpid();
memcpy(x, ptv, sizeof(struct timeval));
e->dev = dev;
e->inode = inode;
e->port = port;
}
/*******************************************************************
Add a deferred open record. Return False on fail, True on success.
********************************************************************/
BOOL add_deferred_open(uint16 mid, struct timeval *ptv, SMB_DEV_T dev, SMB_INO_T inode, uint16 port, const char *fname)
{
TDB_DATA dbuf;
struct deferred_open_data *data;
char *p=NULL;
int size;
TDB_DATA key = deferred_open_locking_key(dev, inode);
BOOL ret = True;
/* read in the existing deferred open records if any */
dbuf = tdb_fetch(tdb, key);
if (!dbuf.dptr) {
size_t offset;
/* we'll need to create a new record */
size = sizeof(*data) + sizeof(deferred_open_entry) + strlen(fname) + 1;
p = (char *)malloc(size);
if (!p)
return False;
data = (struct deferred_open_data *)p;
data->u.num_deferred_open_entries = 1;
DEBUG(10,("add_deferred_open: creating entry for file %s. num_deferred_open_entries = 1\n",
fname ));
offset = sizeof(*data) + sizeof(deferred_open_entry);
safe_strcpy(p + offset, fname, size - offset - 1);
fill_deferred_open(p + sizeof(*data), mid, ptv, dev, inode, port);
dbuf.dptr = p;
dbuf.dsize = size;
if (tdb_store(tdb, key, dbuf, TDB_REPLACE) == -1)
ret = False;
print_deferred_open_table((struct deferred_open_data *)p);
SAFE_FREE(p);
return ret;
}
/* we're adding to an existing entry - this is a bit fiddly */
data = (struct deferred_open_data *)dbuf.dptr;
data->u.num_deferred_open_entries++;
DEBUG(10,("add_deferred_open: adding entry for file %s. new num_deferred_open_entries = %d\n",
fname, data->u.num_deferred_open_entries ));
size = dbuf.dsize + sizeof(deferred_open_entry);
p = malloc(size);
if (!p) {
SAFE_FREE(dbuf.dptr);
return False;
}
memcpy(p, dbuf.dptr, sizeof(*data));
fill_deferred_open(p + sizeof(*data), mid, ptv, dev, inode, port);
memcpy(p + sizeof(*data) + sizeof(deferred_open_entry), dbuf.dptr + sizeof(*data),
dbuf.dsize - sizeof(*data));
SAFE_FREE(dbuf.dptr);
dbuf.dptr = p;
dbuf.dsize = size;
if (tdb_store(tdb, key, dbuf, TDB_REPLACE) == -1)
ret = False;
print_deferred_open_table((struct deferred_open_data *)p);
SAFE_FREE(p);
return ret;
}
/****************************************************************************
Traverse the whole database with this function, calling traverse_callback
on each share mode
****************************************************************************/
static int traverse_fn(TDB_CONTEXT *the_tdb, TDB_DATA kbuf, TDB_DATA dbuf,
void* state)
{
struct locking_data *data;
share_mode_entry *shares;
char *name;
int i;
SHAREMODE_FN(traverse_callback) = (SHAREMODE_FN_CAST())state;
/* Ensure this is a locking_key record. */
if (kbuf.dsize != sizeof(struct locking_key))
return 0;
data = (struct locking_data *)dbuf.dptr;
shares = (share_mode_entry *)(dbuf.dptr + sizeof(*data));
name = dbuf.dptr + sizeof(*data) + data->u.num_share_mode_entries*sizeof(*shares);
for (i=0;i<data->u.num_share_mode_entries;i++) {
traverse_callback(&shares[i], name);
}
return 0;
}
/*******************************************************************
Call the specified function on each entry under management by the
share mode system.
********************************************************************/
int share_mode_forall(SHAREMODE_FN(fn))
{
if (!tdb)
return 0;
return tdb_traverse(tdb, traverse_fn, (void*)fn);
}
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