/** {@inheritDoc} */ @Override public void spiStop() throws GridSpiException { unregisterMBean(); // Ack ok stop. if (log.isDebugEnabled()) log.debug(stopInfo()); }
/** {@inheritDoc} */ @Override public void spiStart(String gridName) throws GridSpiException { assertParameter(parallelJobsNum > 0, "parallelJobsNum > 0"); assertParameter(waitJobsNum >= 0, "waitingJobsNum >= 0"); assertParameter(taskAttrKey != null, "taskAttrKey != null"); assertParameter(jobAttrKey != null, "jobAttrKey != null"); // Start SPI start stopwatch. startStopwatch(); // Ack parameters. if (log.isDebugEnabled()) { log.debug(configInfo("parallelJobsNum", parallelJobsNum)); log.debug(configInfo("taskAttrKey", taskAttrKey)); log.debug(configInfo("jobAttrKey", jobAttrKey)); log.debug(configInfo("dfltPriority", dfltPriority)); log.debug(configInfo("starvationInc", starvationInc)); log.debug(configInfo("preventStarvation", preventStarvation)); } registerMBean(gridName, this, GridPriorityQueueCollisionSpiMBean.class); // Ack start. if (log.isDebugEnabled()) log.debug(startInfo()); }
/** * Gets job priority. At first tries to get from job context. If job context has no priority, then * tries to get from task session. If task session has no priority default one will be used. * * @param ctx Collision job context. * @return Job priority. */ private int getJobPriority(GridCollisionJobContext ctx) { assert ctx != null; Integer p = null; GridJobContext jctx = ctx.getJobContext(); try { p = (Integer) jctx.getAttribute(jobAttrKey); } catch (ClassCastException e) { LT.error( log, e, "Type of job context priority attribute '" + jobAttrKey + "' is not java.lang.Integer [type=" + jctx.getAttribute(jobAttrKey).getClass() + ']'); } if (p == null) { GridTaskSession ses = ctx.getTaskSession(); try { p = (Integer) ses.getAttribute(taskAttrKey); } catch (ClassCastException e) { LT.error( log, e, "Type of task session priority attribute '" + taskAttrKey + "' is not java.lang.Integer [type=" + ses.getAttribute(taskAttrKey).getClass() + ']'); } if (p == null) { if (log.isDebugEnabled()) { log.debug( "Failed get priority from job context attribute '" + jobAttrKey + "' and task session attribute '" + taskAttrKey + "' (will use default priority): " + dfltPriority); } p = dfltPriority; } } assert p != null; return p; }
/** @throws GridException If operation failed. */ private void initializeLatch() throws GridException { if (initGuard.compareAndSet(false, true)) { try { internalLatch = CU.outTx( new Callable<CountDownLatch>() { @Override public CountDownLatch call() throws Exception { GridCacheTx tx = CU.txStartInternal(ctx, latchView, PESSIMISTIC, REPEATABLE_READ); try { GridCacheCountDownLatchValue val = latchView.get(key); if (val == null) { if (log.isDebugEnabled()) log.debug("Failed to find count down latch with given name: " + name); assert cnt == 0; return new CountDownLatch(cnt); } tx.commit(); return new CountDownLatch(val.get()); } finally { tx.end(); } } }, ctx); if (log.isDebugEnabled()) log.debug("Initialized internal latch: " + internalLatch); } finally { initLatch.countDown(); } } else { try { initLatch.await(); } catch (InterruptedException ignored) { throw new GridException("Thread has been interrupted."); } if (internalLatch == null) throw new GridException("Internal latch has not been properly initialized."); } }