/*!
* \internal
* \brief astdb sync thread
*
* This thread is in charge of syncing astdb to disk after a change.
* By pushing it off to this thread to take care of, this I/O bound operation
* will not block other threads from performing other critical processing.
* If changes happen rapidly, this thread will also ensure that the sync
* operations are rate limited.
*/
static void *db_sync_thread(void *data)
{
ast_mutex_lock(&dblock);
ast_db_begin_transaction();
for (;;) {
/* We're ok with spurious wakeups, so we don't worry about a predicate */
ast_cond_wait(&dbcond, &dblock);
if (ast_db_commit_transaction()) {
ast_db_rollback_transaction();
}
if (doexit) {
ast_mutex_unlock(&dblock);
break;
}
ast_db_begin_transaction();
ast_mutex_unlock(&dblock);
sleep(1);
ast_mutex_lock(&dblock);
/* Unfortunately, it is possible for signaling to happen
* when we're not waiting: in the bit when we're unlocked
* above. Do the do-exit check here again. (We could do
* it once, but that would impose a forced delay of 1
* second always.) */
if (doexit) {
ast_mutex_unlock(&dblock);
break;
}
}
return NULL;
}
/*!
* \internal
* \brief astdb sync thread
*
* This thread is in charge of syncing astdb to disk after a change.
* By pushing it off to this thread to take care of, this I/O bound operation
* will not block other threads from performing other critical processing.
* If changes happen rapidly, this thread will also ensure that the sync
* operations are rate limited.
*/
static void *db_sync_thread(void *data)
{
ast_mutex_lock(&dblock);
ast_db_begin_transaction();
for (;;) {
/* If dosync is set, db_sync() was called during sleep(1),
* and the pending transaction should be committed.
* Otherwise, block until db_sync() is called.
*/
while (!dosync) {
ast_cond_wait(&dbcond, &dblock);
}
dosync = 0;
if (ast_db_commit_transaction()) {
ast_db_rollback_transaction();
}
if (doexit) {
ast_mutex_unlock(&dblock);
break;
}
ast_db_begin_transaction();
ast_mutex_unlock(&dblock);
sleep(1);
ast_mutex_lock(&dblock);
}
return NULL;
}
