/** @param e Error. */ void onError(Throwable e) { tx.commitError(e); if (err.compareAndSet(null, e)) { boolean marked = tx.setRollbackOnly(); if (e instanceof GridCacheTxRollbackException) { if (marked) { try { tx.rollback(); } catch (GridException ex) { U.error(log, "Failed to automatically rollback transaction: " + tx, ex); } } } else if (tx.implicit() && tx.isSystemInvalidate()) { // Finish implicit transaction on heuristic error. try { tx.close(); } catch (GridException ex) { U.error(log, "Failed to invalidate transaction: " + tx, ex); } } onComplete(); } }
/** @param lsnr Listener to external collision events. */ public void setCollisionExternalListener(@Nullable GridCollisionExternalListener lsnr) { if (enabled()) { if (lsnr != null && !extLsnr.compareAndSet(null, lsnr)) assert false : "Collision external listener has already been set " + "(perhaps need to add support for multiple listeners)"; else if (log.isDebugEnabled()) log.debug("Successfully set external collision listener: " + lsnr); } }
/** * Basically, future mapping consists from two parts. First, we must determine the topology * version this future will map on. Locking is performed within a user transaction, we must * continue to map keys on the same topology version as it started. If topology version is * undefined, we get current topology future and wait until it completes so the topology is ready * to use. * * <p>During the second part we map keys to primary nodes using topology snapshot we obtained * during the first part. Note that if primary node leaves grid, the future will fail and * transaction will be rolled back. */ void map() { // Obtain the topology version to use. GridDiscoveryTopologySnapshot snapshot = tx != null ? tx.topologySnapshot() : cctx.mvcc().lastExplicitLockTopologySnapshot(Thread.currentThread().getId()); if (snapshot != null) { // Continue mapping on the same topology version as it was before. topSnapshot.compareAndSet(null, snapshot); map(keys); markInitialized(); return; } // Must get topology snapshot and map on that version. mapOnTopology(); }
/** * Acquires topology future and checks it completeness under the read lock. If it is not complete, * will asynchronously wait for it's completeness and then try again. */ void mapOnTopology() { // We must acquire topology snapshot from the topology version future. try { cctx.topology().readLock(); try { GridDhtTopologyFuture fut = cctx.topologyVersionFuture(); if (fut.isDone()) { GridDiscoveryTopologySnapshot snapshot = fut.topologySnapshot(); if (tx != null) { tx.topologyVersion(snapshot.topologyVersion()); tx.topologySnapshot(snapshot); } topSnapshot.compareAndSet(null, snapshot); map(keys); markInitialized(); } else { fut.listenAsync( new CI1<GridFuture<Long>>() { @Override public void apply(GridFuture<Long> t) { mapOnTopology(); } }); } } finally { cctx.topology().readUnlock(); } } catch (GridException e) { onDone(e); } }
/** @param t Error. */ private void onError(Throwable t) { err.compareAndSet(null, t instanceof GridCacheLockTimeoutException ? null : t); }