/*
Bacula® - The Network Backup Solution
- Copyright (C) 2000-2007 Free Software Foundation Europe e.V.
+ Copyright (C) 2000-2010 Free Software Foundation Europe e.V.
The main author of Bacula is Kern Sibbald, with contributions from
many others, a complete list can be found in the file AUTHORS.
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
02110-1301, USA.
- Bacula® is a registered trademark of John Walker.
+ Bacula® is a registered trademark of Kern Sibbald.
The licensor of Bacula is the Free Software Foundation Europe
(FSFE), Fiduciary Program, Sumatrastrasse 25, 8006 Zürich,
Switzerland, email:ftf@fsfeurope.org.
*
* Kern Sibbald, 2000-2007. June 2007
*
- * Version $Id$
*/
#include "bacula.h" /* pull in global headers */
* 2. dlock() simple mutex that locks the device structure. A dlock
* can be acquired while a device is blocked if it is not
* locked.
- * 3. r_dlock "recursive" dlock, when means that a dlock (mutex)
+ * 3. r_dlock(locked) "recursive" dlock, when means that a dlock (mutex)
* will be acquired on the device if it is not blocked
* by some other thread. If the device was blocked by
* the current thread, it will acquire the lock.
* If some other thread has set a block on the device,
* this call will wait until the device is unblocked.
+ * Can be called with locked true, which means the
+ * dlock is already set
*
* A lock is normally set when modifying the device structure.
* A r_lock is normally acquired when you want to block the device
* DEVICE::dlock() does P(m_mutex) (in dev.h)
* DEVICE::dunlock() does V(m_mutex)
*
- * DEVICE::r_dlock() allows locking the device when this thread
- already has the device blocked.
- * dlock()
+ * DEVICE::r_dlock(locked) allows locking the device when this thread
+ * already has the device blocked.
+ * if (!locked)
+ * dlock()
* if blocked and not same thread that locked
* pthread_cond_wait
* leaves device locked
#ifdef SD_DEBUG_LOCK
+void DCR::_dlock(const char *file, int line)
+{
+ dev->_dlock(file, line);
+ m_dev_locked = true;
+}
+void DCR::_dunlock(const char *file, int line)
+{
+ m_dev_locked = false;
+ dev->_dunlock(file, line);
+
+}
+
void DEVICE::_dlock(const char *file, int line)
{
- Dmsg4(sd_dbglvl, "dlock from %s:%d precnt=%d JobId=%u\n", file, line,
- m_count, get_jobid_from_tid());
+ Dmsg3(sd_dbglvl, "dlock from %s:%d precnt=%d\n", file, line, m_count);
/* Note, this *really* should be protected by a mutex, but
* since it is only debug code we don't worry too much.
*/
if (m_count > 0 && pthread_equal(m_pid, pthread_self())) {
- Dmsg5(sd_dbglvl, "Possible DEADLOCK!! lock held by JobId=%u from %s:%d m_count=%d JobId=%u\n",
+ Dmsg4(sd_dbglvl, "Possible DEADLOCK!! lock held by JobId=%u from %s:%d m_count=%d\n",
get_jobid_from_tid(m_pid),
- file, line, m_count, get_jobid_from_tid());
+ file, line, m_count);
}
P(m_mutex);
m_pid = pthread_self();
void DEVICE::_dunlock(const char *file, int line)
{
m_count--;
- Dmsg4(sd_dbglvl+1, "dunlock from %s:%d postcnt=%d JobId=%u\n", file, line,
- m_count, get_jobid_from_tid());
+ Dmsg3(sd_dbglvl+1, "dunlock from %s:%d postcnt=%d\n", file, line, m_count);
V(m_mutex);
}
* and preparing the label.
*/
#ifdef SD_DEBUG_LOCK
-void DEVICE::_r_dlock(const char *file, int line)
+void DEVICE::_r_dlock(const char *file, int line, bool locked)
{
- Dmsg4(sd_dbglvl+1, "r_dlock blked=%s from %s:%d JobId=%u\n", this->print_blocked(),
- file, line, get_jobid_from_tid());
+ Dmsg3(sd_dbglvl+1, "r_dlock blked=%s from %s:%d\n", this->print_blocked(),
+ file, line);
#else
-void DEVICE::r_dlock()
+void DEVICE::r_dlock(bool locked)
{
#endif
int stat;
- this->dlock();
+ if (!locked) {
+ P(m_mutex); /* this->dlock(); */
+ m_count++; /* this->dlock() */
+ }
if (this->blocked() && !pthread_equal(this->no_wait_id, pthread_self())) {
this->num_waiting++; /* indicate that I am waiting */
while (this->blocked()) {
+#ifndef HAVE_WIN32
+ /* thread id on Win32 may be a struct */
Dmsg3(sd_dbglvl, "r_dlock blked=%s no_wait=%p me=%p\n", this->print_blocked(),
this->no_wait_id, pthread_self());
+#endif
if ((stat = pthread_cond_wait(&this->wait, &m_mutex)) != 0) {
berrno be;
this->dunlock();
*/
void _block_device(const char *file, int line, DEVICE *dev, int state)
{
+// ASSERT(lmgr_mutex_is_locked(&dev->m_mutex) == 1);
ASSERT(dev->blocked() == BST_NOT_BLOCKED);
dev->set_blocked(state); /* make other threads wait */
dev->no_wait_id = pthread_self(); /* allow us to continue */
void _unblock_device(const char *file, int line, DEVICE *dev)
{
Dmsg3(sd_dbglvl, "unblock %s from %s:%d\n", dev->print_blocked(), file, line);
+// ASSERT(lmgr_mutex_is_locked(&dev->m_mutex) == 1);
ASSERT(dev->blocked());
dev->set_blocked(BST_NOT_BLOCKED);
- dev->no_wait_id = 0;
+ clear_thread_id(dev->no_wait_id);
if (dev->num_waiting > 0) {
pthread_cond_broadcast(&dev->wait); /* wake them up */
}
return "BST_MOUNT";
case BST_DESPOOLING:
return "BST_DESPOOLING";
+ case BST_RELEASING:
+ return "BST_RELEASING";
default:
return _("unknown blocked code");
}
/*
* Check if the device is blocked or not
*/
-bool is_device_unmounted(DEVICE *dev)
+bool DEVICE::is_device_unmounted()
{
bool stat;
- int blocked = dev->blocked();
- stat = (blocked == BST_UNMOUNTED) ||
- (blocked == BST_UNMOUNTED_WAITING_FOR_SYSOP);
+ int blk = blocked();
+ stat = (blk == BST_UNMOUNTED) ||
+ (blk == BST_UNMOUNTED_WAITING_FOR_SYSOP);
return stat;
}