/*
Unix SMB/CIFS implementation.
POSIX NTVFS backend - locking
Copyright (C) Andrew Tridgell 2004
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 3 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, see .
*/
#include "includes.h"
#include "vfs_posix.h"
#include "system/time.h"
#include "lib/util/dlinklist.h"
#include "messaging/messaging.h"
/*
check if we can perform IO on a range that might be locked
*/
NTSTATUS pvfs_check_lock(struct pvfs_state *pvfs,
struct pvfs_file *f,
uint16_t smbpid,
uint64_t offset, uint64_t count,
enum brl_type rw)
{
if (!(pvfs->flags & PVFS_FLAG_STRICT_LOCKING)) {
return NT_STATUS_OK;
}
return brl_locktest(pvfs->brl_context,
f->brl_handle,
smbpid,
offset, count, rw);
}
/* this state structure holds information about a lock we are waiting on */
struct pvfs_pending_lock {
struct pvfs_pending_lock *next, *prev;
struct pvfs_state *pvfs;
union smb_lock *lck;
struct pvfs_file *f;
struct ntvfs_request *req;
int pending_lock;
struct pvfs_wait *wait_handle;
struct timeval end_time;
};
/*
a secondary attempt to setup a lock has failed - back out
the locks we did get and send an error
*/
static void pvfs_lock_async_failed(struct pvfs_state *pvfs,
struct ntvfs_request *req,
struct pvfs_file *f,
struct smb_lock_entry *locks,
int i,
NTSTATUS status)
{
/* undo the locks we just did */
for (i--;i>=0;i--) {
brl_unlock(pvfs->brl_context,
f->brl_handle,
locks[i].pid,
locks[i].offset,
locks[i].count);
f->lock_count--;
}
req->async_states->status = status;
req->async_states->send_fn(req);
}
/*
called when we receive a pending lock notification. It means that
either our lock timed out or someone else has unlocked a overlapping
range, so we should try the lock again. Note that on timeout we
do retry the lock, giving it a last chance.
*/
static void pvfs_pending_lock_continue(void *private, enum pvfs_wait_notice reason)
{
struct pvfs_pending_lock *pending = private;
struct pvfs_state *pvfs = pending->pvfs;
struct pvfs_file *f = pending->f;
struct ntvfs_request *req = pending->req;
union smb_lock *lck = pending->lck;
struct smb_lock_entry *locks;
enum brl_type rw;
NTSTATUS status;
int i;
bool timed_out;
timed_out = (reason != PVFS_WAIT_EVENT);
locks = lck->lockx.in.locks + lck->lockx.in.ulock_cnt;
if (lck->lockx.in.mode & LOCKING_ANDX_SHARED_LOCK) {
rw = READ_LOCK;
} else {
rw = WRITE_LOCK;
}
DLIST_REMOVE(f->pending_list, pending);
/* we don't retry on a cancel */
if (reason == PVFS_WAIT_CANCEL) {
status = NT_STATUS_FILE_LOCK_CONFLICT;
} else {
/*
* here it's important to pass the pending pointer
* because with this we'll get the correct error code
* FILE_LOCK_CONFLICT in the error case
*/
status = brl_lock(pvfs->brl_context,
f->brl_handle,
locks[pending->pending_lock].pid,
locks[pending->pending_lock].offset,
locks[pending->pending_lock].count,
rw, pending);
}
if (NT_STATUS_IS_OK(status)) {
f->lock_count++;
timed_out = false;
}
/* if we have failed and timed out, or succeeded, then we
don't need the pending lock any more */
if (NT_STATUS_IS_OK(status) || timed_out) {
NTSTATUS status2;
status2 = brl_remove_pending(pvfs->brl_context,
f->brl_handle, pending);
if (!NT_STATUS_IS_OK(status2)) {
DEBUG(0,("pvfs_lock: failed to remove pending lock - %s\n", nt_errstr(status2)));
}
talloc_free(pending->wait_handle);
}
if (!NT_STATUS_IS_OK(status)) {
if (timed_out) {
/* no more chances */
pvfs_lock_async_failed(pvfs, req, f, locks, pending->pending_lock, status);
talloc_free(pending);
} else {
/* we can try again */
DLIST_ADD(f->pending_list, pending);
}
return;
}
/* if we haven't timed out yet, then we can do more pending locks */
if (rw == READ_LOCK) {
rw = PENDING_READ_LOCK;
} else {
rw = PENDING_WRITE_LOCK;
}
/* we've now got the pending lock. try and get the rest, which might
lead to more pending locks */
for (i=pending->pending_lock+1;ilockx.in.lock_cnt;i++) {
if (pending) {
pending->pending_lock = i;
}
status = brl_lock(pvfs->brl_context,
f->brl_handle,
locks[i].pid,
locks[i].offset,
locks[i].count,
rw, pending);
if (!NT_STATUS_IS_OK(status)) {
if (pending) {
/* a timed lock failed - setup a wait message to handle
the pending lock notification or a timeout */
pending->wait_handle = pvfs_wait_message(pvfs, req, MSG_BRL_RETRY,
pending->end_time,
pvfs_pending_lock_continue,
pending);
if (pending->wait_handle == NULL) {
pvfs_lock_async_failed(pvfs, req, f, locks, i, NT_STATUS_NO_MEMORY);
talloc_free(pending);
} else {
talloc_steal(pending, pending->wait_handle);
DLIST_ADD(f->pending_list, pending);
}
return;
}
pvfs_lock_async_failed(pvfs, req, f, locks, i, status);
talloc_free(pending);
return;
}
f->lock_count++;
}
/* we've managed to get all the locks. Tell the client */
req->async_states->status = NT_STATUS_OK;
req->async_states->send_fn(req);
talloc_free(pending);
}
/*
called when we close a file that might have locks
*/
void pvfs_lock_close(struct pvfs_state *pvfs, struct pvfs_file *f)
{
struct pvfs_pending_lock *p, *next;
if (f->lock_count || f->pending_list) {
DEBUG(5,("pvfs_lock: removing %.0f locks on close\n",
(double)f->lock_count));
brl_close(f->pvfs->brl_context, f->brl_handle);
f->lock_count = 0;
}
/* reply to all the pending lock requests, telling them the
lock failed */
for (p=f->pending_list;p;p=next) {
next = p->next;
DLIST_REMOVE(f->pending_list, p);
p->req->async_states->status = NT_STATUS_RANGE_NOT_LOCKED;
p->req->async_states->send_fn(p->req);
}
}
/*
cancel a set of locks
*/
static NTSTATUS pvfs_lock_cancel(struct pvfs_state *pvfs, struct ntvfs_request *req, union smb_lock *lck,
struct pvfs_file *f)
{
struct pvfs_pending_lock *p;
for (p=f->pending_list;p;p=p->next) {
/* check if the lock request matches exactly - you can only cancel with exact matches */
if (p->lck->lockx.in.ulock_cnt == lck->lockx.in.ulock_cnt &&
p->lck->lockx.in.lock_cnt == lck->lockx.in.lock_cnt &&
p->lck->lockx.in.file.ntvfs== lck->lockx.in.file.ntvfs &&
p->lck->lockx.in.mode == (lck->lockx.in.mode & ~LOCKING_ANDX_CANCEL_LOCK)) {
int i;
for (i=0;ilockx.in.ulock_cnt + lck->lockx.in.lock_cnt;i++) {
if (p->lck->lockx.in.locks[i].pid != lck->lockx.in.locks[i].pid ||
p->lck->lockx.in.locks[i].offset != lck->lockx.in.locks[i].offset ||
p->lck->lockx.in.locks[i].count != lck->lockx.in.locks[i].count) {
break;
}
}
if (i < lck->lockx.in.ulock_cnt) continue;
/* an exact match! we can cancel it, which is equivalent
to triggering the timeout early */
pvfs_pending_lock_continue(p, PVFS_WAIT_TIMEOUT);
return NT_STATUS_OK;
}
}
return NT_STATUS_DOS(ERRDOS, ERRcancelviolation);
}
/*
lock or unlock a byte range
*/
NTSTATUS pvfs_lock(struct ntvfs_module_context *ntvfs,
struct ntvfs_request *req, union smb_lock *lck)
{
struct pvfs_state *pvfs = ntvfs->private_data;
struct pvfs_file *f;
struct smb_lock_entry *locks;
int i;
enum brl_type rw;
struct pvfs_pending_lock *pending = NULL;
NTSTATUS status;
if (lck->generic.level != RAW_LOCK_GENERIC) {
return ntvfs_map_lock(ntvfs, req, lck);
}
if (lck->lockx.in.mode & LOCKING_ANDX_OPLOCK_RELEASE) {
return pvfs_oplock_release(ntvfs, req, lck);
}
f = pvfs_find_fd(pvfs, req, lck->lockx.in.file.ntvfs);
if (!f) {
return NT_STATUS_INVALID_HANDLE;
}
if (f->handle->fd == -1) {
return NT_STATUS_FILE_IS_A_DIRECTORY;
}
status = pvfs_break_level2_oplocks(f);
NT_STATUS_NOT_OK_RETURN(status);
if (lck->lockx.in.timeout != 0 &&
(req->async_states->state & NTVFS_ASYNC_STATE_MAY_ASYNC)) {
pending = talloc(f, struct pvfs_pending_lock);
if (pending == NULL) {
return NT_STATUS_NO_MEMORY;
}
pending->pvfs = pvfs;
pending->lck = lck;
pending->f = f;
pending->req = req;
pending->end_time =
timeval_current_ofs(lck->lockx.in.timeout/1000,
1000*(lck->lockx.in.timeout%1000));
}
if (lck->lockx.in.mode & LOCKING_ANDX_SHARED_LOCK) {
rw = pending? PENDING_READ_LOCK : READ_LOCK;
} else {
rw = pending? PENDING_WRITE_LOCK : WRITE_LOCK;
}
if (lck->lockx.in.mode & LOCKING_ANDX_CANCEL_LOCK) {
talloc_free(pending);
return pvfs_lock_cancel(pvfs, req, lck, f);
}
if (lck->lockx.in.mode & LOCKING_ANDX_CHANGE_LOCKTYPE) {
/* this seems to not be supported by any windows server,
or used by any clients */
talloc_free(pending);
return NT_STATUS_DOS(ERRDOS, ERRnoatomiclocks);
}
/* the unlocks happen first */
locks = lck->lockx.in.locks;
for (i=0;ilockx.in.ulock_cnt;i++) {
status = brl_unlock(pvfs->brl_context,
f->brl_handle,
locks[i].pid,
locks[i].offset,
locks[i].count);
if (!NT_STATUS_IS_OK(status)) {
talloc_free(pending);
return status;
}
f->lock_count--;
}
locks += i;
for (i=0;ilockx.in.lock_cnt;i++) {
if (pending) {
pending->pending_lock = i;
}
status = brl_lock(pvfs->brl_context,
f->brl_handle,
locks[i].pid,
locks[i].offset,
locks[i].count,
rw, pending);
if (!NT_STATUS_IS_OK(status)) {
if (pending) {
/* a timed lock failed - setup a wait message to handle
the pending lock notification or a timeout */
pending->wait_handle = pvfs_wait_message(pvfs, req, MSG_BRL_RETRY,
pending->end_time,
pvfs_pending_lock_continue,
pending);
if (pending->wait_handle == NULL) {
talloc_free(pending);
return NT_STATUS_NO_MEMORY;
}
talloc_steal(pending, pending->wait_handle);
DLIST_ADD(f->pending_list, pending);
return NT_STATUS_OK;
}
/* undo the locks we just did */
for (i--;i>=0;i--) {
brl_unlock(pvfs->brl_context,
f->brl_handle,
locks[i].pid,
locks[i].offset,
locks[i].count);
f->lock_count--;
}
talloc_free(pending);
return status;
}
f->lock_count++;
}
talloc_free(pending);
return NT_STATUS_OK;
}