Esempio n. 1
0
/*
 * __wt_lsm_tree_drop --
 *	Drop an LSM tree.
 */
int
__wt_lsm_tree_drop(
    WT_SESSION_IMPL *session, const char *name, const char *cfg[])
{
	WT_DECL_RET;
	WT_LSM_CHUNK *chunk;
	WT_LSM_TREE *lsm_tree;
	u_int i;
	int locked;

	locked = 0;

	/* Get the LSM tree. */
	WT_RET(__wt_lsm_tree_get(session, name, 1, &lsm_tree));

	/* Shut down the LSM worker. */
	WT_ERR(__lsm_tree_close(session, lsm_tree));

	/* Prevent any new opens. */
	WT_ERR(__wt_try_writelock(session, lsm_tree->rwlock));
	locked = 1;

	/* Drop the chunks. */
	for (i = 0; i < lsm_tree->nchunks; i++) {
		chunk = lsm_tree->chunk[i];
		WT_ERR(__wt_schema_drop(session, chunk->uri, cfg));
		if (F_ISSET(chunk, WT_LSM_CHUNK_BLOOM))
			WT_ERR(
			    __wt_schema_drop(session, chunk->bloom_uri, cfg));
	}
	/* Drop any chunks on the obsolete list. */
	for (i = 0; i < lsm_tree->nold_chunks; i++) {
		if ((chunk = lsm_tree->old_chunks[i]) == NULL)
			continue;
		WT_ERR(__wt_schema_drop(session, chunk->uri, cfg));
		if (F_ISSET(chunk, WT_LSM_CHUNK_BLOOM))
			WT_ERR(
			    __wt_schema_drop(session, chunk->bloom_uri, cfg));
	}

	ret = __wt_rwunlock(session, lsm_tree->rwlock);
	locked = 0;
	if (ret == 0)
		ret = __wt_metadata_remove(session, name);

err:	if (locked)
		WT_TRET(__wt_rwunlock(session, lsm_tree->rwlock));
	WT_TRET(__lsm_tree_discard(session, lsm_tree));
	return (ret);
}
Esempio n. 2
0
/*
 * __wt_lsm_tree_truncate --
 *	Truncate an LSM tree.
 */
int
__wt_lsm_tree_truncate(
    WT_SESSION_IMPL *session, const char *name, const char *cfg[])
{
	WT_DECL_RET;
	WT_LSM_CHUNK *chunk;
	WT_LSM_TREE *lsm_tree;
	int locked;

	WT_UNUSED(cfg);
	locked = 0;

	/* Get the LSM tree. */
	WT_RET(__wt_lsm_tree_get(session, name, 1, &lsm_tree));

	/* Shut down the LSM worker. */
	WT_RET(__lsm_tree_close(session, lsm_tree));

	/* Prevent any new opens. */
	WT_RET(__wt_try_writelock(session, lsm_tree->rwlock));
	locked = 1;

	/* Create the new chunk. */
	WT_ERR(__wt_calloc_def(session, 1, &chunk));
	chunk->id = WT_ATOMIC_ADD(lsm_tree->last, 1);
	WT_ERR(__wt_lsm_tree_setup_chunk(session, lsm_tree, chunk));

	/* Mark all chunks old. */
	WT_ERR(__wt_lsm_merge_update_tree(
	    session, lsm_tree, 0, lsm_tree->nchunks, chunk));

	WT_ERR(__wt_lsm_meta_write(session, lsm_tree));

	WT_ERR(__lsm_tree_start_worker(session, lsm_tree));
	ret = __wt_rwunlock(session, lsm_tree->rwlock);
	locked = 0;
	if (ret == 0)
		__wt_lsm_tree_release(session, lsm_tree);

err:	if (locked) 
		WT_TRET(__wt_rwunlock(session, lsm_tree->rwlock));
	/*
	 * Don't discard the LSM tree structure unless there has been an
	 * error. The handle remains valid for future operations.
	 */
	if (ret != 0)
		WT_TRET(__lsm_tree_discard(session, lsm_tree));
	return (ret);
}
Esempio n. 3
0
/*
 * __log_server --
 *	The log server thread.
 */
static WT_THREAD_RET
__log_server(void *arg)
{
	WT_CONNECTION_IMPL *conn;
	WT_DECL_RET;
	WT_LOG *log;
	WT_SESSION_IMPL *session;
	u_int locked;

	session = arg;
	conn = S2C(session);
	log = conn->log;
	locked = 0;
	while (F_ISSET(conn, WT_CONN_LOG_SERVER_RUN)) {
		/*
		 * Perform log pre-allocation.
		 */
		if (conn->log_prealloc > 0)
			WT_ERR(__log_prealloc_once(session));

		/*
		 * Perform the archive.
		 */
		if (FLD_ISSET(conn->log_flags, WT_CONN_LOG_ARCHIVE)) {
			if (__wt_try_writelock(
			    session, log->log_archive_lock) == 0) {
				locked = 1;
				WT_ERR(__log_archive_once(session, 0));
				WT_ERR(	__wt_writeunlock(
				    session, log->log_archive_lock));
				locked = 0;
			} else
				WT_ERR(__wt_verbose(session, WT_VERB_LOG,
				    "log_archive: Blocked due to open log "
				    "cursor holding archive lock"));
		}
		/* Wait until the next event. */
		WT_ERR(__wt_cond_wait(session, conn->log_cond, WT_MILLION));
	}

	if (0) {
err:		__wt_err(session, ret, "log server error");
	}
	if (locked)
		(void)__wt_writeunlock(session, log->log_archive_lock);
	return (WT_THREAD_RET_VALUE);
}
Esempio n. 4
0
/*
 * __wt_thread_group_start_one --
 *	Start a new thread if possible.
 */
int
__wt_thread_group_start_one(
    WT_SESSION_IMPL *session, WT_THREAD_GROUP *group, bool wait)
{
	WT_DECL_RET;

	if (group->current_threads >= group->max)
		return (0);

	if (wait)
		__wt_writelock(session, group->lock);
	else if (__wt_try_writelock(session, group->lock) != 0)
		return (0);

	/* Recheck the bounds now that we hold the lock */
	if (group->current_threads < group->max)
		WT_TRET(__thread_group_grow(
		    session, group, group->current_threads + 1));
	__wt_writeunlock(session, group->lock);

	return (ret);
}
Esempio n. 5
0
/*
 * __log_server --
 *	The log server thread.
 */
static WT_THREAD_RET
__log_server(void *arg)
{
	WT_CONNECTION_IMPL *conn;
	WT_DECL_RET;
	WT_LOG *log;
	WT_SESSION_IMPL *session;
	int freq_per_sec, signalled;

	session = arg;
	conn = S2C(session);
	log = conn->log;
	signalled = 0;

	/*
	 * Set this to the number of times per second we want to force out the
	 * log slot buffer.
	 */
#define	WT_FORCE_PER_SECOND	20
	freq_per_sec = WT_FORCE_PER_SECOND;

	/*
	 * The log server thread does a variety of work.  It forces out any
	 * buffered log writes.  It pre-allocates log files and it performs
	 * log archiving.  The reason the wrlsn thread does not force out
	 * the buffered writes is because we want to process and move the
	 * write_lsn forward as quickly as possible.  The same reason applies
	 * to why the log file server thread does not force out the writes.
	 * That thread does fsync calls which can take a long time and we
	 * don't want log records sitting in the buffer over the time it
	 * takes to sync out an earlier file.
	 */
	while (F_ISSET(conn, WT_CONN_LOG_SERVER_RUN)) {
		/*
		 * Slots depend on future activity.  Force out buffered
		 * writes in case we are idle.  This cannot be part of the
		 * wrlsn thread because of interaction advancing the write_lsn
		 * and a buffer may need to wait for the write_lsn to advance
		 * in the case of a synchronous buffer.  We end up with a hang.
		 */
		WT_ERR_BUSY_OK(__wt_log_force_write(session, 0));

		/*
		 * We don't want to archive or pre-allocate files as often as
		 * we want to force out log buffers.  Only do it once per second
		 * or if the condition was signalled.
		 */
		if (--freq_per_sec <= 0 || signalled != 0) {
			freq_per_sec = WT_FORCE_PER_SECOND;

			/*
			 * Perform log pre-allocation.
			 */
			if (conn->log_prealloc > 0)
				WT_ERR(__log_prealloc_once(session));

			/*
			 * Perform the archive.
			 */
			if (FLD_ISSET(conn->log_flags, WT_CONN_LOG_ARCHIVE)) {
				if (__wt_try_writelock(
				    session, log->log_archive_lock) == 0) {
					ret = __log_archive_once(session, 0);
					WT_TRET(__wt_writeunlock(
					    session, log->log_archive_lock));
					WT_ERR(ret);
				} else
					WT_ERR(
					    __wt_verbose(session, WT_VERB_LOG,
					    "log_archive: Blocked due to open "
					    "log cursor holding archive lock"));
			}
		}

		/* Wait until the next event. */
		WT_ERR(__wt_cond_wait_signal(session, conn->log_cond,
		    WT_MILLION / WT_FORCE_PER_SECOND, &signalled));
	}

	if (0) {
err:		__wt_err(session, ret, "log server error");
	}
	return (WT_THREAD_RET_VALUE);
}
Esempio n. 6
0
/*
 * __wt_lsm_tree_rename --
 *	Rename an LSM tree.
 */
int
__wt_lsm_tree_rename(WT_SESSION_IMPL *session,
    const char *oldname, const char *newname, const char *cfg[])
{
	WT_DECL_RET;
	WT_ITEM buf;
	WT_LSM_CHUNK *chunk;
	WT_LSM_TREE *lsm_tree;
	const char *old;
	u_int i;
	int locked;

	old = NULL;
	WT_CLEAR(buf);
	locked = 0;

	/* Get the LSM tree. */
	WT_RET(__wt_lsm_tree_get(session, oldname, 1, &lsm_tree));

	/* Shut down the LSM worker. */
	WT_ERR(__lsm_tree_close(session, lsm_tree));

	/* Prevent any new opens. */
	WT_ERR(__wt_try_writelock(session, lsm_tree->rwlock));
	locked = 1;

	/* Set the new name. */
	WT_ERR(__lsm_tree_set_name(session, lsm_tree, newname));

	/* Rename the chunks. */
	for (i = 0; i < lsm_tree->nchunks; i++) {
		chunk = lsm_tree->chunk[i];
		old = chunk->uri;
		chunk->uri = NULL;

		WT_ERR(__wt_lsm_tree_chunk_name(
		    session, lsm_tree, chunk->id, &buf));
		chunk->uri = __wt_buf_steal(session, &buf, NULL);
		WT_ERR(__wt_schema_rename(session, old, chunk->uri, cfg));
		__wt_free(session, old);

		if (F_ISSET(chunk, WT_LSM_CHUNK_BLOOM)) {
			old = chunk->bloom_uri;
			chunk->bloom_uri = NULL;
			WT_ERR(__wt_lsm_tree_bloom_name(
			    session, lsm_tree, chunk->id, &buf));
			chunk->bloom_uri = __wt_buf_steal(session, &buf, NULL);
			F_SET(chunk, WT_LSM_CHUNK_BLOOM);
			WT_ERR(__wt_schema_rename(
			    session, old, chunk->uri, cfg));
			__wt_free(session, old);
		}
	}

	ret = __wt_rwunlock(session, lsm_tree->rwlock);
	locked = 0;
	if (ret == 0)
		ret = __wt_lsm_meta_write(session, lsm_tree);
	if (ret == 0)
		ret = __wt_metadata_remove(session, oldname);

err:	if (locked)
		WT_TRET(__wt_rwunlock(session, lsm_tree->rwlock));
	if (old != NULL)
		__wt_free(session, old);
	/*
	 * Discard this LSM tree structure. The first operation on the renamed
	 * tree will create a new one.
	 */
	WT_TRET(__lsm_tree_discard(session, lsm_tree));
	return (ret);
}
Esempio n. 7
0
/*
 * __log_server --
 *	The log server thread.
 */
static WT_THREAD_RET
__log_server(void *arg)
{
	struct timespec start, now;
	WT_CONNECTION_IMPL *conn;
	WT_DECL_RET;
	WT_LOG *log;
	WT_SESSION_IMPL *session;
	uint64_t timediff;
	bool did_work, locked, signalled;

	session = arg;
	conn = S2C(session);
	log = conn->log;
	locked = signalled = false;

	/*
	 * Set this to the number of milliseconds we want to run archive and
	 * pre-allocation.  Start it so that we run on the first time through.
	 */
	timediff = WT_THOUSAND;

	/*
	 * The log server thread does a variety of work.  It forces out any
	 * buffered log writes.  It pre-allocates log files and it performs
	 * log archiving.  The reason the wrlsn thread does not force out
	 * the buffered writes is because we want to process and move the
	 * write_lsn forward as quickly as possible.  The same reason applies
	 * to why the log file server thread does not force out the writes.
	 * That thread does fsync calls which can take a long time and we
	 * don't want log records sitting in the buffer over the time it
	 * takes to sync out an earlier file.
	 */
	did_work = true;
	while (F_ISSET(conn, WT_CONN_LOG_SERVER_RUN)) {
		/*
		 * Slots depend on future activity.  Force out buffered
		 * writes in case we are idle.  This cannot be part of the
		 * wrlsn thread because of interaction advancing the write_lsn
		 * and a buffer may need to wait for the write_lsn to advance
		 * in the case of a synchronous buffer.  We end up with a hang.
		 */
		WT_ERR_BUSY_OK(__wt_log_force_write(session, 0, &did_work));

		/*
		 * We don't want to archive or pre-allocate files as often as
		 * we want to force out log buffers.  Only do it once per second
		 * or if the condition was signalled.
		 */
		if (timediff >= WT_THOUSAND || signalled) {

			/*
			 * Perform log pre-allocation.
			 */
			if (conn->log_prealloc > 0) {
				/*
				 * Log file pre-allocation is disabled when a
				 * hot backup cursor is open because we have
				 * agreed not to rename or remove any files in
				 * the database directory.
				 */
				WT_ERR(__wt_readlock(
				    session, conn->hot_backup_lock));
				locked = true;
				if (!conn->hot_backup)
					WT_ERR(__log_prealloc_once(session));
				WT_ERR(__wt_readunlock(
				    session, conn->hot_backup_lock));
				locked = false;
			}

			/*
			 * Perform the archive.
			 */
			if (FLD_ISSET(conn->log_flags, WT_CONN_LOG_ARCHIVE)) {
				if (__wt_try_writelock(
				    session, log->log_archive_lock) == 0) {
					ret = __log_archive_once(session, 0);
					WT_TRET(__wt_writeunlock(
					    session, log->log_archive_lock));
					WT_ERR(ret);
				} else
					WT_ERR(
					    __wt_verbose(session, WT_VERB_LOG,
					    "log_archive: Blocked due to open "
					    "log cursor holding archive lock"));
			}
		}

		/* Wait until the next event. */

		WT_ERR(__wt_epoch(session, &start));
		WT_ERR(__wt_cond_auto_wait_signal(session, conn->log_cond,
		    did_work, &signalled));
		WT_ERR(__wt_epoch(session, &now));
		timediff = WT_TIMEDIFF_MS(now, start);
	}

	if (0) {
err:		__wt_err(session, ret, "log server error");
		if (locked)
			WT_TRET(__wt_readunlock(
			    session, conn->hot_backup_lock));
	}
	return (WT_THREAD_RET_VALUE);
}
Esempio n. 8
0
/*
 * __sweep --
 *	Close unused dhandles on the connection dhandle list.
 */
static int
__sweep(WT_SESSION_IMPL *session)
{
	WT_CONNECTION_IMPL *conn;
	WT_DATA_HANDLE *dhandle, *dhandle_next;
	WT_DECL_RET;
	time_t now;

	conn = S2C(session);

	/*
	 * Session's cache handles unless the session itself is closed, at which
	 * time the handle reference counts are immediately decremented.  Don't
	 * discard handles that have been open recently.
	 */
	WT_RET(__wt_seconds(session, &now));

	dhandle = SLIST_FIRST(&conn->dhlh);
	for (; dhandle != NULL; dhandle = dhandle_next) {
		dhandle_next = SLIST_NEXT(dhandle, l);
		if (dhandle->session_ref != 0 ||
		    now - dhandle->timeofdeath <= WT_DHANDLE_SWEEP_WAIT)
			continue;

		/*
		 * We have a candidate for closing; if it's open, acquire an
		 * exclusive lock on the handle and close it (the lock blocks
		 * threads from opening the handle).  We might be blocking an
		 * open for a fairly long time (over disk I/O), but the handle
		 * has been quiescent for awhile.
		 *
		 * The close can fail if an update cannot be written (updates in
		 * a no-longer-referenced file might not yet be globally visible
		 * if sessions have disjoint sets of files open).  If the handle
		 * is busy, skip it, we'll retry the close the next time, after
		 * the transaction state has progressed.
		 */
		if (F_ISSET(dhandle, WT_DHANDLE_OPEN)) {
			/*
			 * We don't set WT_DHANDLE_EXCLUSIVE deliberately, we
			 * want opens to block on us rather than returning an
			 * EBUSY error to the application.
			 */
			ret = __wt_try_writelock(session, dhandle->rwlock);
			if (ret == EBUSY) {
				ret = 0;
				continue;
			}
			WT_RET(ret);

			WT_WITH_DHANDLE(session, dhandle,
			    ret = __wt_conn_btree_sync_and_close(session));
			if (ret == EBUSY)
				ret = 0;

			WT_TRET(__wt_rwunlock(session, dhandle->rwlock));
			WT_RET(ret);
		}

		/*
		 * Attempt to discard the handle (the called function checks the
		 * handle-open flag after acquiring appropriate locks, which is
		 * why we don't do any special handling of EBUSY returns above,
		 * that path never cleared the handle-open flag.
		 */
		ret = __wt_conn_dhandle_discard_single(session, dhandle, 0);
		if (ret == EBUSY)
			ret = 0;
		WT_RET(ret);
	}
	return (0);
}
Esempio n. 9
0
/*
 * __wt_txn_update_oldest --
 *	Sweep the running transactions to update the oldest ID required.
 */
int
__wt_txn_update_oldest(WT_SESSION_IMPL *session, uint32_t flags)
{
	WT_CONNECTION_IMPL *conn;
	WT_DECL_RET;
	WT_SESSION_IMPL *oldest_session;
	WT_TXN_GLOBAL *txn_global;
	uint64_t current_id, last_running, oldest_id;
	uint64_t prev_last_running, prev_oldest_id;
	bool strict, wait;

	conn = S2C(session);
	txn_global = &conn->txn_global;
	strict = LF_ISSET(WT_TXN_OLDEST_STRICT);
	wait = LF_ISSET(WT_TXN_OLDEST_WAIT);

	current_id = last_running = txn_global->current;
	prev_last_running = txn_global->last_running;
	prev_oldest_id = txn_global->oldest_id;

	/*
	 * For pure read-only workloads, or if the update isn't forced and the
	 * oldest ID isn't too far behind, avoid scanning.
	 */
	if (prev_oldest_id == current_id ||
	    (!strict && WT_TXNID_LT(current_id, prev_oldest_id + 100)))
		return (0);

	/* First do a read-only scan. */
	if (wait)
		__wt_readlock(session, txn_global->scan_rwlock);
	else if ((ret =
	    __wt_try_readlock(session, txn_global->scan_rwlock)) != 0)
		return (ret == EBUSY ? 0 : ret);
	__txn_oldest_scan(session, &oldest_id, &last_running, &oldest_session);
	__wt_readunlock(session, txn_global->scan_rwlock);

	/*
	 * If the state hasn't changed (or hasn't moved far enough for
	 * non-forced updates), give up.
	 */
	if ((oldest_id == prev_oldest_id ||
	    (!strict && WT_TXNID_LT(oldest_id, prev_oldest_id + 100))) &&
	    ((last_running == prev_last_running) ||
	    (!strict && WT_TXNID_LT(last_running, prev_last_running + 100))))
		return (0);

	/* It looks like an update is necessary, wait for exclusive access. */
	if (wait)
		__wt_writelock(session, txn_global->scan_rwlock);
	else if ((ret =
	    __wt_try_writelock(session, txn_global->scan_rwlock)) != 0)
		return (ret == EBUSY ? 0 : ret);

	/*
	 * If the oldest ID has been updated while we waited, don't bother
	 * scanning.
	 */
	if (WT_TXNID_LE(oldest_id, txn_global->oldest_id) &&
	    WT_TXNID_LE(last_running, txn_global->last_running))
		goto done;

	/*
	 * Re-scan now that we have exclusive access.  This is necessary because
	 * threads get transaction snapshots with read locks, and we have to be
	 * sure that there isn't a thread that has got a snapshot locally but
	 * not yet published its snap_min.
	 */
	__txn_oldest_scan(session, &oldest_id, &last_running, &oldest_session);

#ifdef HAVE_DIAGNOSTIC
	{
	/*
	 * Make sure the ID doesn't move past any named snapshots.
	 *
	 * Don't include the read/assignment in the assert statement.  Coverity
	 * complains if there are assignments only done in diagnostic builds,
	 * and when the read is from a volatile.
	 */
	uint64_t id = txn_global->nsnap_oldest_id;
	WT_ASSERT(session,
	    id == WT_TXN_NONE || !WT_TXNID_LT(id, oldest_id));
	}
#endif
	/* Update the oldest ID. */
	if (WT_TXNID_LT(txn_global->oldest_id, oldest_id))
		txn_global->oldest_id = oldest_id;
	if (WT_TXNID_LT(txn_global->last_running, last_running)) {
		txn_global->last_running = last_running;

#ifdef HAVE_VERBOSE
		/* Output a verbose message about long-running transactions,
		 * but only when some progress is being made. */
		if (WT_VERBOSE_ISSET(session, WT_VERB_TRANSACTION) &&
		    current_id - oldest_id > 10000 && oldest_session != NULL) {
			__wt_verbose(session, WT_VERB_TRANSACTION,
			    "old snapshot %" PRIu64
			    " pinned in session %" PRIu32 " [%s]"
			    " with snap_min %" PRIu64 "\n",
			    oldest_id, oldest_session->id,
			    oldest_session->lastop,
			    oldest_session->txn.snap_min);
		}
#endif
	}

done:	__wt_writeunlock(session, txn_global->scan_rwlock);
	return (ret);
}
Esempio n. 10
0
/*
 * __sweep --
 *	Close unused dhandles on the connection dhandle list.
 */
static int
__sweep(WT_SESSION_IMPL *session)
{
	WT_CONNECTION_IMPL *conn;
	WT_DATA_HANDLE *dhandle, *dhandle_next;
	WT_DECL_RET;
	time_t now;
	int locked;

	conn = S2C(session);

	/* Don't discard handles that have been open recently. */
	WT_RET(__wt_seconds(session, &now));

	WT_STAT_FAST_CONN_INCR(session, dh_conn_sweeps);
	dhandle = SLIST_FIRST(&conn->dhlh);
	for (; dhandle != NULL; dhandle = dhandle_next) {
		dhandle_next = SLIST_NEXT(dhandle, l);
		if (WT_IS_METADATA(dhandle))
			continue;
		if (dhandle->session_inuse != 0 ||
		    now <= dhandle->timeofdeath + WT_DHANDLE_SWEEP_WAIT)
			continue;
		if (dhandle->timeofdeath == 0) {
			dhandle->timeofdeath = now;
			WT_STAT_FAST_CONN_INCR(session, dh_conn_tod);
			continue;
		}

		/*
		 * We have a candidate for closing; if it's open, acquire an
		 * exclusive lock on the handle and close it. We might be
		 * blocking opens for a long time (over disk I/O), but the
		 * handle was quiescent for awhile.
		 *
		 * The close can fail if an update cannot be written (updates
		 * in a no-longer-referenced file might not yet be globally
		 * visible if sessions have disjoint sets of files open).  If
		 * the handle is busy, skip it, we'll retry the close the next
		 * time, after the transaction state has progressed.
		 *
		 * We don't set WT_DHANDLE_EXCLUSIVE deliberately, we want
		 * opens to block on us rather than returning an EBUSY error to
		 * the application.
		 */
		if ((ret =
		    __wt_try_writelock(session, dhandle->rwlock)) == EBUSY)
			continue;
		WT_RET(ret);
		locked = 1;

		/* If the handle is open, try to close it. */
		if (F_ISSET(dhandle, WT_DHANDLE_OPEN)) {
			WT_WITH_DHANDLE(session, dhandle,
			    ret = __wt_conn_btree_sync_and_close(session, 0));
			if (ret != 0)
				goto unlock;

			/* We closed the btree handle, bump the statistic. */
			WT_STAT_FAST_CONN_INCR(session, dh_conn_handles);
		}

		/*
		 * If there are no longer any references to the handle in any
		 * sessions, attempt to discard it.  The called function
		 * re-checks that the handle is not in use, which is why we
		 * don't do any special handling of EBUSY returns above.
		 */
		if (dhandle->session_inuse == 0 && dhandle->session_ref == 0) {
			WT_WITH_DHANDLE(session, dhandle,
			    ret = __wt_conn_dhandle_discard_single(session, 0));
			if (ret != 0)
				goto unlock;

			/* If the handle was discarded, it isn't locked. */
			locked = 0;
		} else
			WT_STAT_FAST_CONN_INCR(session, dh_conn_ref);

unlock:		if (locked)
			WT_TRET(__wt_writeunlock(session, dhandle->rwlock));

		WT_RET_BUSY_OK(ret);
	}
	return (0);
}
Esempio n. 11
0
/*
 * __conn_dhandle_open_lock --
 *	Spin on the current data handle until either (a) it is open, read
 *	locked; or (b) it is closed, write locked.  If exclusive access is
 *	requested and cannot be granted immediately because the handle is
 *	in use, fail with EBUSY.
 *
 *	Here is a brief summary of how different operations synchronize using
 *	either the schema lock, handle locks or handle flags:
 *
 *	open -- holds the schema lock, one thread gets the handle exclusive,
 *		reverts to a shared handle lock and drops the schema lock
 *		once the handle is open;
 *	bulk load -- sets bulk and exclusive;
 *	salvage, truncate, update, verify -- hold the schema lock, set a
 *		"special" flag;
 *	sweep -- gets a write lock on the handle, doesn't set exclusive
 *
 *	The schema lock prevents a lot of potential conflicts: we should never
 *	see handles being salvaged or verified because those operation hold the
 *	schema lock.  However, it is possible to see a handle that is being
 *	bulk loaded, or that the sweep server is closing.
 *
 *	The principle here is that application operations can cause other
 *	application operations to fail (so attempting to open a cursor on a
 *	file while it is being bulk-loaded will fail), but internal or
 *	database-wide operations should not prevent application-initiated
 *	operations.  For example, attempting to verify a file should not fail
 *	because the sweep server happens to be in the process of closing that
 *	file.
 */
static int
__conn_dhandle_open_lock(
    WT_SESSION_IMPL *session, WT_DATA_HANDLE *dhandle, uint32_t flags)
{
	WT_BTREE *btree;
	WT_DECL_RET;
	int is_open, lock_busy, want_exclusive;

	btree = dhandle->handle;
	lock_busy = 0;
	want_exclusive = LF_ISSET(WT_DHANDLE_EXCLUSIVE) ? 1 : 0;

	/*
	 * Check that the handle is open.  We've already incremented
	 * the reference count, so once the handle is open it won't be
	 * closed by another thread.
	 *
	 * If we can see the WT_DHANDLE_OPEN flag set while holding a
	 * lock on the handle, then it's really open and we can start
	 * using it.  Alternatively, if we can get an exclusive lock
	 * and WT_DHANDLE_OPEN is still not set, we need to do the open.
	 */
	for (;;) {
		/*
		 * If the handle is already open for a special operation,
		 * give up.
		 */
		if (F_ISSET(btree, WT_BTREE_SPECIAL_FLAGS))
			return (EBUSY);

		/*
		 * If the handle is open, get a read lock and recheck.
		 *
		 * Wait for a read lock if we want exclusive access and failed
		 * to get it: the sweep server may be closing this handle, and
		 * we need to wait for it to complete.  If we want exclusive
		 * access and find the handle open once we get the read lock,
		 * give up: some other thread has it locked for real.
		 */
		if (F_ISSET(dhandle, WT_DHANDLE_OPEN) &&
		    (!want_exclusive || lock_busy)) {
			WT_RET(__wt_readlock(session, dhandle->rwlock));
			is_open = F_ISSET(dhandle, WT_DHANDLE_OPEN) ? 1 : 0;
			if (is_open && !want_exclusive)
				return (0);
			WT_RET(__wt_readunlock(session, dhandle->rwlock));
		} else
			is_open = 0;

		/*
		 * It isn't open or we want it exclusive: try to get an
		 * exclusive lock.  There is some subtlety here: if we race
		 * with another thread that successfully opens the file, we
		 * don't want to block waiting to get exclusive access.
		 */
		if ((ret = __wt_try_writelock(session, dhandle->rwlock)) == 0) {
			/*
			 * If it was opened while we waited, drop the write
			 * lock and get a read lock instead.
			 */
			if (F_ISSET(dhandle, WT_DHANDLE_OPEN) &&
			    !want_exclusive) {
				lock_busy = 0;
				WT_RET(
				    __wt_writeunlock(session, dhandle->rwlock));
				continue;
			}

			/* We have an exclusive lock, we're done. */
			F_SET(dhandle, WT_DHANDLE_EXCLUSIVE);
			return (0);
		} else if (ret != EBUSY || (is_open && want_exclusive))
			return (ret);
		else
			lock_busy = 1;

		/* Give other threads a chance to make progress. */
		__wt_yield();
	}
}