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|
/*
Unix SMB/CIFS implementation.
generic byte range locking code - ctdb backend
Copyright (C) Andrew Tridgell 2006
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.
*/
#include "includes.h"
#include "system/filesys.h"
#include "lib/tdb/include/tdb.h"
#include "messaging/messaging.h"
#include "db_wrap.h"
#include "lib/messaging/irpc.h"
#include "libcli/libcli.h"
#include "cluster/cluster.h"
#include "ntvfs/common/brlock.h"
#include "include/ctdb.h"
enum my_functions {FUNC_BRL_LOCK=1, FUNC_BRL_UNLOCK=2,
FUNC_BRL_REMOVE_PENDING=3, FUNC_BRL_LOCKTEST=4,
FUNC_BRL_CLOSE=5};
/*
in this module a "DATA_BLOB *file_key" is a blob that uniquely identifies
a file. For a local posix filesystem this will usually be a combination
of the device and inode numbers of the file, but it can be anything
that uniquely idetifies a file for locking purposes, as long
as it is applied consistently.
*/
/* this struct is typically attached to tcon */
struct brl_context {
struct ctdb_context *ctdb;
struct server_id server;
struct messaging_context *messaging_ctx;
};
/*
the lock context contains the elements that define whether one
lock is the same as another lock
*/
struct lock_context {
struct server_id server;
uint16_t smbpid;
struct brl_context *ctx;
};
/* 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;
struct ntvfs_handle *ntvfs;
uint64_t start;
uint64_t size;
enum brl_type lock_type;
void *notify_ptr;
};
/* this struct is attached to on open file handle */
struct brl_handle {
DATA_BLOB key;
struct ntvfs_handle *ntvfs;
struct lock_struct last_lock;
};
#if 0
static void show_locks(const char *op, struct lock_struct *locks, int count)
{
int i;
DEBUG(0,("OP: %s\n", op));
if (locks == NULL) return;
for (i=0;i<count;i++) {
DEBUG(0,("%2d: %4d %4d %d.%d.%d %p %p\n",
i, (int)locks[i].start, (int)locks[i].size,
locks[i].context.server.node,
locks[i].context.server.id,
locks[i].context.smbpid,
locks[i].context.ctx,
locks[i].ntvfs));
}
}
#endif
/*
Open up the brlock.tdb database. Close it down using
talloc_free(). We need the messaging_ctx to allow for
pending lock notifications.
*/
static struct brl_context *brl_ctdb_init(TALLOC_CTX *mem_ctx, struct server_id server,
struct messaging_context *messaging_ctx)
{
struct ctdb_context *ctdb = talloc_get_type(cluster_private(), struct ctdb_context);
struct brl_context *brl;
brl = talloc(mem_ctx, struct brl_context);
if (brl == NULL) {
return NULL;
}
brl->ctdb = ctdb;
brl->server = server;
brl->messaging_ctx = messaging_ctx;
return brl;
}
static struct brl_handle *brl_ctdb_create_handle(TALLOC_CTX *mem_ctx, struct ntvfs_handle *ntvfs,
DATA_BLOB *file_key)
{
struct brl_handle *brlh;
brlh = talloc(mem_ctx, struct brl_handle);
if (brlh == NULL) {
return NULL;
}
brlh->key = *file_key;
brlh->ntvfs = ntvfs;
ZERO_STRUCT(brlh->last_lock);
return brlh;
}
/*
see if two locking contexts are equal
*/
static BOOL brl_ctdb_same_context(struct lock_context *ctx1, struct lock_context *ctx2)
{
return (cluster_id_equal(&ctx1->server, &ctx2->server) &&
ctx1->smbpid == ctx2->smbpid &&
ctx1->ctx == ctx2->ctx);
}
/*
see if lck1 and lck2 overlap
*/
static BOOL brl_ctdb_overlap(struct lock_struct *lck1,
struct lock_struct *lck2)
{
/* this extra check is not redundent - it copes with locks
that go beyond the end of 64 bit file space */
if (lck1->size != 0 &&
lck1->start == lck2->start &&
lck1->size == lck2->size) {
return True;
}
if (lck1->start >= (lck2->start+lck2->size) ||
lck2->start >= (lck1->start+lck1->size)) {
return False;
}
return True;
}
/*
See if lock2 can be added when lock1 is in place.
*/
static BOOL brl_ctdb_conflict(struct lock_struct *lck1,
struct lock_struct *lck2)
{
/* pending locks don't conflict with anything */
if (lck1->lock_type >= PENDING_READ_LOCK ||
lck2->lock_type >= PENDING_READ_LOCK) {
return False;
}
if (lck1->lock_type == READ_LOCK && lck2->lock_type == READ_LOCK) {
return False;
}
if (brl_ctdb_same_context(&lck1->context, &lck2->context) &&
lck2->lock_type == READ_LOCK && lck1->ntvfs == lck2->ntvfs) {
return False;
}
return brl_ctdb_overlap(lck1, lck2);
}
/*
Check to see if this lock conflicts, but ignore our own locks on the
same fnum only.
*/
static BOOL brl_ctdb_conflict_other(struct lock_struct *lck1, struct lock_struct *lck2)
{
/* pending locks don't conflict with anything */
if (lck1->lock_type >= PENDING_READ_LOCK ||
lck2->lock_type >= PENDING_READ_LOCK) {
return False;
}
if (lck1->lock_type == READ_LOCK && lck2->lock_type == READ_LOCK)
return False;
/*
* note that incoming write calls conflict with existing READ
* locks even if the context is the same. JRA. See LOCKTEST7
* in smbtorture.
*/
if (brl_ctdb_same_context(&lck1->context, &lck2->context) &&
lck1->ntvfs == lck2->ntvfs &&
(lck2->lock_type == READ_LOCK || lck1->lock_type == WRITE_LOCK)) {
return False;
}
return brl_ctdb_overlap(lck1, lck2);
}
/*
amazingly enough, w2k3 "remembers" whether the last lock failure
is the same as this one and changes its error code. I wonder if any
app depends on this?
*/
static NTSTATUS brl_ctdb_lock_failed(struct brl_handle *brlh, struct lock_struct *lock)
{
/*
* this function is only called for non pending lock!
*/
/*
* if the notify_ptr is non NULL,
* it means that we're at the end of a pending lock
* and the real lock is requested after the timeout went by
* In this case we need to remember the last_lock and always
* give FILE_LOCK_CONFLICT
*/
if (lock->notify_ptr) {
brlh->last_lock = *lock;
return NT_STATUS_FILE_LOCK_CONFLICT;
}
/*
* amazing the little things you learn with a test
* suite. Locks beyond this offset (as a 64 bit
* number!) always generate the conflict error code,
* unless the top bit is set
*/
if (lock->start >= 0xEF000000 && (lock->start >> 63) == 0) {
brlh->last_lock = *lock;
return NT_STATUS_FILE_LOCK_CONFLICT;
}
/*
* if the current lock matches the last failed lock on the file handle
* and starts at the same offset, then FILE_LOCK_CONFLICT should be returned
*/
if (cluster_id_equal(&lock->context.server, &brlh->last_lock.context.server) &&
lock->context.ctx == brlh->last_lock.context.ctx &&
lock->ntvfs == brlh->last_lock.ntvfs &&
lock->start == brlh->last_lock.start) {
return NT_STATUS_FILE_LOCK_CONFLICT;
}
brlh->last_lock = *lock;
return NT_STATUS_LOCK_NOT_GRANTED;
}
struct ctdb_lock_req {
uint16_t smbpid;
uint64_t start;
uint64_t size;
enum brl_type lock_type;
void *notify_ptr;
struct server_id server;
struct brl_context *brl;
struct ntvfs_handle *ntvfs;
};
/*
ctdb call handling brl_lock()
*/
static int brl_ctdb_lock_func(struct ctdb_call_info *call)
{
struct ctdb_lock_req *req = (struct ctdb_lock_req *)call->call_data->dptr;
TDB_DATA dbuf;
int count=0, i;
struct lock_struct lock, *locks=NULL;
NTSTATUS status = NT_STATUS_OK;
/* if this is a pending lock, then with the chainlock held we
try to get the real lock. If we succeed then we don't need
to make it pending. This prevents a possible race condition
where the pending lock gets created after the lock that is
preventing the real lock gets removed */
if (req->lock_type >= PENDING_READ_LOCK) {
enum brl_type lock_type = req->lock_type;
req->lock_type = (req->lock_type==PENDING_READ_LOCK? READ_LOCK : WRITE_LOCK);
if (brl_ctdb_lock_func(call) == 0 && call->status == NT_STATUS_V(NT_STATUS_OK)) {
return 0;
}
req->lock_type = lock_type;
}
dbuf = call->record_data;
ZERO_STRUCT(lock);
lock.context.smbpid = req->smbpid;
lock.context.server = req->server;
lock.context.ctx = req->brl;
lock.ntvfs = req->ntvfs;
lock.start = req->start;
lock.size = req->size;
lock.lock_type = req->lock_type;
lock.notify_ptr = req->notify_ptr;
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_ctdb_conflict(&locks[i], &lock)) {
status = NT_STATUS_LOCK_NOT_GRANTED;
goto reply;
}
}
}
call->new_data = talloc(call, TDB_DATA);
if (call->new_data == NULL) {
return CTDB_ERR_NOMEM;
}
call->new_data->dptr = talloc_size(call, dbuf.dsize + sizeof(lock));
if (call->new_data->dptr == NULL) {
return CTDB_ERR_NOMEM;
}
memcpy(call->new_data->dptr, locks, dbuf.dsize);
memcpy(call->new_data->dptr+dbuf.dsize, &lock, sizeof(lock));
call->new_data->dsize = dbuf.dsize + sizeof(lock);
if (req->lock_type >= PENDING_READ_LOCK) {
status = NT_STATUS_LOCK_NOT_GRANTED;
}
reply:
call->status = NT_STATUS_V(status);
return 0;
}
/*
Lock a range of bytes. The lock_type can be a PENDING_*_LOCK, in
which case a real lock is first tried, and if that fails then a
pending lock is created. When the pending lock is triggered (by
someone else closing an overlapping lock range) a messaging
notification is sent, identified by the notify_ptr
*/
static NTSTATUS brl_ctdb_lock(struct brl_context *brl,
struct brl_handle *brlh,
uint16_t smbpid,
uint64_t start, uint64_t size,
enum brl_type lock_type,
void *notify_ptr)
{
struct ctdb_lock_req req;
struct ctdb_call call;
int ret;
NTSTATUS status;
call.call_id = FUNC_BRL_LOCK;
call.key.dptr = brlh->key.data;
call.key.dsize = brlh->key.length;
call.call_data.dptr = (uint8_t *)&req;
call.call_data.dsize = sizeof(req);
ZERO_STRUCT(req);
req.smbpid = smbpid;
req.start = start;
req.size = size;
req.lock_type = lock_type;
req.notify_ptr = notify_ptr;
req.server = brl->server;
req.brl = brl;
req.ntvfs = brlh->ntvfs;
ret = ctdb_call(brl->ctdb, &call);
if (ret == -1) {
return NT_STATUS_INTERNAL_DB_CORRUPTION;
}
status = NT_STATUS(call.status);
if (NT_STATUS_EQUAL(status, NT_STATUS_LOCK_NOT_GRANTED)) {
struct lock_struct lock;
lock.context.smbpid = smbpid;
lock.context.server = brl->server;
lock.context.ctx = brl;
lock.ntvfs = brlh->ntvfs;
lock.start = start;
lock.size = size;
lock.lock_type = lock_type;
lock.notify_ptr = notify_ptr;
status = brl_ctdb_lock_failed(brlh, &lock);
}
return status;
}
/*
we are removing a lock that might be holding up a pending lock. Scan
for pending locks that cover this range and if we find any then
notify the server that it should retry the lock. In this backend, we
notify by sending the list of locks that need to be notified on back
in the reply_data of the ctdb call. The caller then does the
messaging for us.
*/
static int brl_ctdb_notify_unlock(struct ctdb_call_info *call,
struct lock_struct *locks, int count,
struct lock_struct *removed_lock)
{
int i, last_notice;
/* the last_notice logic is to prevent stampeding on a lock
range. It prevents us sending hundreds of notifies on the
same range of bytes. It doesn't prevent all possible
stampedes, but it does prevent the most common problem */
last_notice = -1;
for (i=0;i<count;i++) {
if (locks[i].lock_type >= PENDING_READ_LOCK &&
brl_ctdb_overlap(&locks[i], removed_lock)) {
struct lock_struct *nlocks;
int ncount;
if (last_notice != -1 && brl_ctdb_overlap(&locks[i], &locks[last_notice])) {
continue;
}
if (locks[i].lock_type == PENDING_WRITE_LOCK) {
last_notice = i;
}
if (call->reply_data == NULL) {
call->reply_data = talloc_zero(call, TDB_DATA);
if (call->reply_data == NULL) {
return CTDB_ERR_NOMEM;
}
}
/* add to the list of pending locks to notify caller of */
ncount = call->reply_data->dsize / sizeof(struct lock_struct);
nlocks = talloc_realloc(call->reply_data, call->reply_data->dptr,
struct lock_struct, ncount + 1);
if (nlocks == NULL) {
return CTDB_ERR_NOMEM;
}
call->reply_data->dptr = (uint8_t *)nlocks;
nlocks[ncount] = locks[i];
call->reply_data->dsize += sizeof(struct lock_struct);
}
}
return 0;
}
/*
send notifications for all pending locks - the file is being closed by this
user
*/
static int brl_ctdb_notify_all(struct ctdb_call_info *call,
struct lock_struct *locks, int count)
{
int i;
for (i=0;i<count;i++) {
if (locks->lock_type >= PENDING_READ_LOCK) {
int ret = brl_ctdb_notify_unlock(call, locks, count, &locks[i]);
if (ret != 0) return ret;
}
}
return 0;
}
/*
send off any messages needed to notify of pending locks that should now retry
*/
static void brl_ctdb_notify_send(struct brl_context *brl, TDB_DATA *reply_data)
{
struct lock_struct *locks = (struct lock_struct *)reply_data->dptr;
int i, count = reply_data->dsize / sizeof(struct lock_struct);
for (i=0;i<count;i++) {
messaging_send_ptr(brl->messaging_ctx, locks[i].context.server,
MSG_BRL_RETRY, locks[i].notify_ptr);
}
}
struct ctdb_unlock_req {
uint16_t smbpid;
uint64_t start;
uint64_t size;
struct server_id server;
struct brl_context *brl;
struct ntvfs_handle *ntvfs;
};
/*
Unlock a range of bytes.
*/
static int brl_ctdb_unlock_func(struct ctdb_call_info *call)
{
struct ctdb_unlock_req *req = (struct ctdb_unlock_req *)call->call_data->dptr;
TDB_DATA dbuf;
int count, i;
struct lock_struct *locks, *lock;
struct lock_context context;
NTSTATUS status = NT_STATUS_OK;
dbuf = call->record_data;
context.smbpid = req->smbpid;
context.server = req->server;
context.ctx = req->brl;
/* there are existing locks - find a match */
locks = (struct lock_struct *)dbuf.dptr;
count = dbuf.dsize / sizeof(*locks);
for (i=0; i<count; i++) {
lock = &locks[i];
if (brl_ctdb_same_context(&lock->context, &context) &&
lock->ntvfs == req->ntvfs &&
lock->start == req->start &&
lock->size == req->size &&
lock->lock_type == WRITE_LOCK) {
break;
}
}
if (i < count) goto found;
for (i=0; i<count; i++) {
lock = &locks[i];
if (brl_ctdb_same_context(&lock->context, &context) &&
lock->ntvfs == req->ntvfs &&
lock->start == req->start &&
lock->size == req->size &&
lock->lock_type < PENDING_READ_LOCK) {
break;
}
}
found:
if (i < count) {
struct lock_struct removed_lock = *lock;
call->new_data = talloc(call, TDB_DATA);
if (call->new_data == NULL) {
return CTDB_ERR_NOMEM;
}
call->new_data->dptr = talloc_size(call, dbuf.dsize - sizeof(*lock));
if (call->new_data->dptr == NULL) {
return CTDB_ERR_NOMEM;
}
call->new_data->dsize = dbuf.dsize - sizeof(*lock);
memcpy(call->new_data->dptr, locks, i*sizeof(*lock));
memcpy(call->new_data->dptr+i*sizeof(*lock), locks+i+1,
(count-(i+1))*sizeof(*lock));
if (count > 1) {
int ret = brl_ctdb_notify_unlock(call, locks, count, &removed_lock);
if (ret != 0) return ret;
}
}
if (i == count) {
/* we didn't find it */
status = NT_STATUS_RANGE_NOT_LOCKED;
}
call->status = NT_STATUS_V(status);
return 0;
}
/*
Unlock a range of bytes.
*/
static NTSTATUS brl_ctdb_unlock(struct brl_context *brl,
struct brl_handle *brlh,
uint16_t smbpid,
uint64_t start, uint64_t size)
{
struct ctdb_call call;
struct ctdb_unlock_req req;
int ret;
call.call_id = FUNC_BRL_UNLOCK;
call.key.dptr = brlh->key.data;
call.key.dsize = brlh->key.length;
call.call_data.dptr = (uint8_t *)&req;
call.call_data.dsize = sizeof(req);
ZERO_STRUCT(req);
req.smbpid = smbpid;
req.start = start;
req.size = size;
req.server = brl->server;
req.brl = brl;
req.ntvfs = brlh->ntvfs;
ret = ctdb_call(brl->ctdb, &call);
if (ret == -1) {
DEBUG(0,("ctdb_call failed - %s\n", __location__));
return NT_STATUS_INTERNAL_DB_CORRUPTION;
}
brl_ctdb_notify_send(brl, &call.reply_data);
return NT_STATUS(call.status);
}
struct ctdb_remove_pending_req {
struct server_id server;
void *notify_ptr;
};
/*
remove a pending lock. This is called when the caller has either
given up trying to establish a lock or when they have succeeded in
getting it. In either case they no longer need to be notified.
*/
static int brl_ctdb_remove_pending_func(struct ctdb_call_info *call)
{
struct ctdb_remove_pending_req *req = (struct ctdb_remove_pending_req *)call->call_data->dptr;
TDB_DATA dbuf;
int count, i;
struct lock_struct *locks;
NTSTATUS status = NT_STATUS_OK;
dbuf = call->record_data;
/* there are existing locks - find a match */
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->lock_type >= PENDING_READ_LOCK &&
lock->notify_ptr == req->notify_ptr &&
cluster_id_equal(&lock->context.server, &req->server)) {
call->new_data = talloc(call, TDB_DATA);
if (call->new_data == NULL) {
return CTDB_ERR_NOMEM;
}
call->new_data->dptr = talloc_size(call, dbuf.dsize - sizeof(*lock));
if (call->new_data->dptr == NULL) {
return CTDB_ERR_NOMEM;
}
call->new_data->dsize = dbuf.dsize - sizeof(*lock);
memcpy(call->new_data->dptr, locks, i*sizeof(*lock));
memcpy(call->new_data->dptr+i*sizeof(*lock), locks+i+1,
(count-(i+1))*sizeof(*lock));
break;
}
}
if (i == count) {
/* we didn't find it */
status = NT_STATUS_RANGE_NOT_LOCKED;
}
call->status = NT_STATUS_V(status);
return 0;
}
static NTSTATUS brl_ctdb_remove_pending(struct brl_context *brl,
struct brl_handle *brlh,
void *notify_ptr)
{
struct ctdb_call call;
struct ctdb_remove_pending_req req;
int ret;
call.call_id = FUNC_BRL_REMOVE_PENDING;
call.key.dptr = brlh->key.data;
call.key.dsize = brlh->key.length;
call.call_data.dptr = (uint8_t *)&req;
call.call_data.dsize = sizeof(req);
ZERO_STRUCT(req);
req.notify_ptr = notify_ptr;
req.server = brl->server;
ret = ctdb_call(brl->ctdb, &call);
if (ret == -1) {
DEBUG(0,("ctdb_call failed - %s\n", __location__));
return NT_STATUS_INTERNAL_DB_CORRUPTION;
}
return NT_STATUS(call.status);
}
struct ctdb_locktest_req {
uint16_t smbpid;
uint64_t start;
uint64_t size;
enum brl_type lock_type;
struct brl_context *brl;
struct server_id server;
struct ntvfs_handle *ntvfs;
};
/*
remove a pending lock. This is called when the caller has either
given up trying to establish a lock or when they have succeeded in
getting it. In either case they no longer need to be notified.
*/
static int brl_ctdb_locktest_func(struct ctdb_call_info *call)
{
struct ctdb_locktest_req *req = (struct ctdb_locktest_req *)call->call_data->dptr;
TDB_DATA dbuf;
int count, i;
struct lock_struct *locks, lock;
NTSTATUS status = NT_STATUS_OK;
lock.context.smbpid = req->smbpid;
lock.context.server = req->server;
lock.context.ctx = req->brl;
lock.ntvfs = req->ntvfs;
lock.start = req->start;
lock.size = req->size;
lock.lock_type = req->lock_type;
dbuf = call->record_data;
/* there are existing locks - find a match */
locks = (struct lock_struct *)dbuf.dptr;
count = dbuf.dsize / sizeof(*locks);
for (i=0; i<count; i++) {
if (brl_ctdb_conflict_other(&locks[i], &lock)) {
status = NT_STATUS_FILE_LOCK_CONFLICT;
break;
}
}
call->status = NT_STATUS_V(status);
return 0;
}
/*
Test if we are allowed to perform IO on a region of an open file
*/
static NTSTATUS brl_ctdb_locktest(struct brl_context *brl,
struct brl_handle *brlh,
uint16_t smbpid,
uint64_t start, uint64_t size,
enum brl_type lock_type)
{
struct ctdb_call call;
struct ctdb_locktest_req req;
int ret;
call.call_id = FUNC_BRL_LOCKTEST;
call.key.dptr = brlh->key.data;
call.key.dsize = brlh->key.length;
call.call_data.dptr = (uint8_t *)&req;
call.call_data.dsize = sizeof(req);
ZERO_STRUCT(req);
req.smbpid = smbpid;
req.start = start;
req.size = size;
req.lock_type = lock_type;
req.server = brl->server;
req.brl = brl;
req.ntvfs = brlh->ntvfs;
ret = ctdb_call(brl->ctdb, &call);
if (ret == -1) {
DEBUG(0,("ctdb_call failed - %s\n", __location__));
return NT_STATUS_INTERNAL_DB_CORRUPTION;
}
return NT_STATUS(call.status);
}
struct ctdb_close_req {
struct brl_context *brl;
struct server_id server;
struct ntvfs_handle *ntvfs;
};
/*
remove a pending lock. This is called when the caller has either
given up trying to establish a lock or when they have succeeded in
getting it. In either case they no longer need to be notified.
*/
static int brl_ctdb_close_func(struct ctdb_call_info *call)
{
struct ctdb_close_req *req = (struct ctdb_close_req *)call->call_data->dptr;
TDB_DATA dbuf;
int count, dcount=0, i;
struct lock_struct *locks;
NTSTATUS status = NT_STATUS_OK;
dbuf = call->record_data;
/* there are existing locks - find a match */
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.ctx == req->brl &&
cluster_id_equal(&lock->context.server, &req->server) &&
lock->ntvfs == req->ntvfs) {
/* 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 (dcount > 0) {
call->new_data = talloc(call, TDB_DATA);
if (call->new_data == NULL) {
return CTDB_ERR_NOMEM;
}
brl_ctdb_notify_all(call, locks, count);
call->new_data->dptr = talloc_size(call, count*sizeof(struct lock_struct));
if (call->new_data->dptr == NULL) {
return CTDB_ERR_NOMEM;
}
call->new_data->dsize = count*sizeof(struct lock_struct);
memcpy(call->new_data->dptr, locks, count*sizeof(struct lock_struct));
}
call->status = NT_STATUS_V(status);
return 0;
}
/*
Test if we are allowed to perform IO on a region of an open file
*/
static NTSTATUS brl_ctdb_close(struct brl_context *brl,
struct brl_handle *brlh)
{
struct ctdb_call call;
struct ctdb_close_req req;
int ret;
call.call_id = FUNC_BRL_CLOSE;
call.key.dptr = brlh->key.data;
call.key.dsize = brlh->key.length;
call.call_data.dptr = (uint8_t *)&req;
call.call_data.dsize = sizeof(req);
ZERO_STRUCT(req);
req.brl = brl;
req.server = brl->server;
req.ntvfs = brlh->ntvfs;
ret = ctdb_call(brl->ctdb, &call);
if (ret == -1) {
DEBUG(0,("ctdb_call failed - %s\n", __location__));
return NT_STATUS_INTERNAL_DB_CORRUPTION;
}
brl_ctdb_notify_send(brl, &call.reply_data);
return NT_STATUS(call.status);
}
static const struct brlock_ops brlock_tdb_ops = {
.brl_init = brl_ctdb_init,
.brl_create_handle = brl_ctdb_create_handle,
.brl_lock = brl_ctdb_lock,
.brl_unlock = brl_ctdb_unlock,
.brl_remove_pending = brl_ctdb_remove_pending,
.brl_locktest = brl_ctdb_locktest,
.brl_close = brl_ctdb_close
};
void brl_ctdb_init_ops(void)
{
struct ctdb_context *ctdb = talloc_get_type(cluster_private(), struct ctdb_context);
brl_set_ops(&brlock_tdb_ops);
ctdb_set_call(ctdb, brl_ctdb_lock_func, FUNC_BRL_LOCK);
ctdb_set_call(ctdb, brl_ctdb_unlock_func, FUNC_BRL_UNLOCK);
ctdb_set_call(ctdb, brl_ctdb_remove_pending_func, FUNC_BRL_REMOVE_PENDING);
ctdb_set_call(ctdb, brl_ctdb_locktest_func, FUNC_BRL_LOCKTEST);
ctdb_set_call(ctdb, brl_ctdb_close_func, FUNC_BRL_CLOSE);
}
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