@Override public JobHandle scheduleJob(Job job, JobContext ctx, Trigger trigger) { return timerService.scheduleJob(job, ctx, trigger); }
public void internalAddTimer(final TimerInstance timer) { long delay; Date lastTriggered = timer.getLastTriggered(); if (lastTriggered == null) { Date activated = timer.getActivated(); Date now = new Date(); long timespan = now.getTime() - activated.getTime(); delay = timer.getDelay() - timespan; if (delay < 0) { delay = 0; } } else { Date now = new Date(); long timespan = now.getTime() - lastTriggered.getTime(); delay = timespan - timer.getPeriod(); if (delay < 0) { delay = 0; } } Trigger trigger = new IntervalTrigger(timerService.getCurrentTime(), null, null, -1, delay, timer.getPeriod(), null, null); ProcessJobContext ctx = new ProcessJobContext(timer, trigger, timer.getProcessInstanceId(), this.kruntime); JobHandle jobHandle = this.timerService.scheduleJob(processJob, ctx, trigger); timer.setJobHandle(jobHandle); timers.put(timer.getId(), timer); }
null, null ) ; JobHandle handle = timerService.scheduleJob(deadlineJob, new TaskDeadlineJobContext(deadlineJob.getId(), task.getTaskData().getProcessInstanceId(), deploymentId), trigger); logger.debug( "scheduling timer job for deadline {} and task {} using timer service {}", deadlineJob.getId(), taskId, timerService); jobHandles.put(deadlineJob.getId(), handle);
public void registerTimer(final TimerInstance timer, String processId, Map<String, Object> params) { try { kruntime.startOperation(); timer.setId(++timerId); timer.setProcessInstanceId(-1l); timer.setSessionId(((StatefulKnowledgeSession) kruntime).getIdentifier()); timer.setActivated(new Date()); Trigger trigger = null; if (timer.getCronExpression() != null) { Date startTime = new Date(timerService.getCurrentTime() + 1000); trigger = new CronTrigger(timerService.getCurrentTime(), startTime, null, -1, timer.getCronExpression(), null, null); // cron timers are by nature repeatable timer.setPeriod(1); } else { trigger = new IntervalTrigger(timerService.getCurrentTime(), null, null, timer.getRepeatLimit(), timer.getDelay(), timer.getPeriod(), null, null); } StartProcessJobContext ctx = new StartProcessJobContext(timer, trigger, processId, params, this.kruntime); JobHandle jobHandle = this.timerService.scheduleJob(startProcessJob, ctx, trigger); timer.setJobHandle(jobHandle); timers.put(timer.getId(), timer); } finally { kruntime.endOperation(); } }
public void registerTimer(final TimerInstance timer, ProcessInstance processInstance) { try { kruntime.startOperation(); timer.setId(++timerId); timer.setProcessInstanceId(processInstance.getId()); timer.setSessionId(((KieSession) kruntime).getIdentifier()); timer.setActivated(new Date()); Trigger trigger = null; if (timer.getCronExpression() != null) { Date startTime = new Date(timerService.getCurrentTime() + 1000); trigger = new CronTrigger(timerService.getCurrentTime(), startTime, null, -1, timer.getCronExpression(), null, null); // cron timers are by nature repeatable timer.setPeriod(1); } else { trigger = new IntervalTrigger(timerService.getCurrentTime(), null, null, timer.getRepeatLimit(), timer.getDelay(), timer.getPeriod(), null, null); } ProcessJobContext ctx = new ProcessJobContext(timer, trigger, processInstance.getId(), this.kruntime); JobHandle jobHandle = this.timerService.scheduleJob(processJob, ctx, trigger); timer.setJobHandle(jobHandle); timers.put(timer.getId(), timer); } finally { kruntime.endOperation(); } }
public void deserialize(MarshallerReaderContext inCtx, Timer timer) throws ClassNotFoundException { JBPMMessages.ProcessTimer ptimer = timer.getExtension(JBPMMessages.procTimer); TimerService ts = inCtx.wm.getTimerService(); long processInstanceId = ptimer.getTimer().getProcessInstanceId(); Trigger trigger = ProtobufInputMarshaller.readTrigger(inCtx, ptimer.getTrigger()); TimerInstance timerInstance = ProtobufProcessMarshaller.readTimer(inCtx, ptimer.getTimer()); TimerManager tm = ((InternalProcessRuntime) inCtx.wm.getProcessRuntime()).getTimerManager(); // check if the timer instance is not already registered to avoid duplicated timers if (!tm.getTimerMap().containsKey(timerInstance.getId())) { ProcessJobContext pctx = new ProcessJobContext(timerInstance, trigger, processInstanceId, inCtx.wm.getKnowledgeRuntime(), false); Date date = trigger.hasNextFireTime(); if (date != null) { long then = date.getTime(); long now = pctx.getKnowledgeRuntime().getSessionClock().getCurrentTime(); // overdue timer if (then < now) { trigger = new OverdueTrigger(trigger, pctx.getKnowledgeRuntime()); } } JobHandle jobHandle = ts.scheduleJob(processJob, pctx, trigger); timerInstance.setJobHandle(jobHandle); pctx.setJobHandle(jobHandle); tm.getTimerMap().put(timerInstance.getId(), timerInstance); } } }
@Override public JobHandle scheduleJob(Job job, JobContext ctx, Trigger trigger) { return timerService.scheduleJob(job, ctx, trigger); }
@Test public void testSingleExecutionJob() throws Exception { SessionConfiguration config = SessionConfiguration.newInstance(); config.setClockType(ClockType.REALTIME_CLOCK); TimerService timeService = TimerServiceFactory.getTimerService( config ); Trigger trigger = new DelayedTrigger( 100 ); HelloWorldJobContext ctx = new HelloWorldJobContext( "hello world", timeService); timeService.scheduleJob( new HelloWorldJob(), ctx, trigger); Thread.sleep( 500 ); timeService.shutdown(); assertEquals( 1, ctx.getList().size() ); }
@Test public void testRepeatedExecutionJob() throws Exception { SessionConfiguration config = SessionConfiguration.newInstance(); config.setClockType(ClockType.REALTIME_CLOCK); TimerService timeService = TimerServiceFactory.getTimerService( config ); Trigger trigger = new DelayedTrigger( new long[] { 100, 100, 100} ); HelloWorldJobContext ctx = new HelloWorldJobContext( "hello world", timeService); timeService.scheduleJob( new HelloWorldJob(), ctx, trigger); Thread.sleep( 500 ); timeService.shutdown(); assertEquals( 3, ctx.getList().size() ); }
@Test public void testRepeatedExecutionJobWithRemove() throws Exception { SessionConfiguration config = SessionConfiguration.newInstance(); config.setClockType(ClockType.REALTIME_CLOCK); TimerService timeService = TimerServiceFactory.getTimerService( config ); Trigger trigger = new DelayedTrigger( new long[] {100, 100, 100, 100, 100, 100, 100, 100} ); HelloWorldJobContext ctx = new HelloWorldJobContext( "hello world", timeService); ctx.setLimit( 3 ); timeService.scheduleJob( new HelloWorldJob(), ctx, trigger); Thread.sleep( 1000 ); timeService.shutdown(); assertEquals( 5, ctx.getList().size() ); }
public void internalAddTimer(final TimerInstance timer) { long delay; Date lastTriggered = timer.getLastTriggered(); if (lastTriggered == null) { Date activated = timer.getActivated(); Date now = new Date(); long timespan = now.getTime() - activated.getTime(); delay = timer.getDelay() - timespan; if (delay < 0) { delay = 0; } } else { Date now = new Date(); long timespan = now.getTime() - lastTriggered.getTime(); delay = timespan - timer.getPeriod(); if (delay < 0) { delay = 0; } } Trigger trigger = new IntervalTrigger(timerService.getCurrentTime(), null, null, -1, delay, timer.getPeriod(), null, null); ProcessJobContext ctx = new ProcessJobContext(timer, trigger, timer.getProcessInstanceId(), this.kruntime); JobHandle jobHandle = this.timerService.scheduleJob(processJob, ctx, trigger); timer.setJobHandle(jobHandle); timers.put(timer.getId(), timer); }
public void execute(JobContext context) { this.sink.receive( ((FeedContext) context).event ); if ( this.source.hasNext() ) { ((FeedContext) context).setEvent( this.source.getNext() ); this.trigger.setNextFireTime( ((FeedContext) context).getEvent().getDate() ); clock.scheduleJob( this, context, trigger ); } } }
/** * For this simple demo, we are loading the * whole stream of events into the memory. */ public void feed() { if ( source.hasNext() ) { Event< ? > event = source.getNext(); FeedContext context = new FeedContext( event ); FeedTrigger trigger = new FeedTrigger(); trigger.setNextFireTime( event.getDate() ); FeedJob job = new FeedJob( source, sink, trigger, clock ); clock.scheduleJob( job, context, trigger ); } }
public void registerTimer(final TimerInstance timer, String processId, Map<String, Object> params) { try { kruntime.startOperation(); timer.setId(++timerId); timer.setProcessInstanceId(-1l); timer.setSessionId(((StatefulKnowledgeSession) kruntime).getIdentifier()); timer.setActivated(new Date()); Trigger trigger = null; if (timer.getCronExpression() != null) { Date startTime = new Date(timerService.getCurrentTime() + 1000); trigger = new CronTrigger(timerService.getCurrentTime(), startTime, null, -1, timer.getCronExpression(), null, null); // cron timers are by nature repeatable timer.setPeriod(1); } else { trigger = new IntervalTrigger(timerService.getCurrentTime(), null, null, timer.getRepeatLimit(), timer.getDelay(), timer.getPeriod(), null, null); } StartProcessJobContext ctx = new StartProcessJobContext(timer, trigger, processId, params, this.kruntime); JobHandle jobHandle = this.timerService.scheduleJob(startProcessJob, ctx, trigger); timer.setJobHandle(jobHandle); timers.put(timer.getId(), timer); } finally { kruntime.endOperation(); } }
public void registerTimer(final TimerInstance timer, ProcessInstance processInstance) { try { kruntime.startOperation(); timer.setId(++timerId); timer.setProcessInstanceId(processInstance.getId()); timer.setSessionId(((KieSession) kruntime).getIdentifier()); timer.setActivated(new Date()); Trigger trigger = null; if (timer.getCronExpression() != null) { Date startTime = new Date(timerService.getCurrentTime() + 1000); trigger = new CronTrigger(timerService.getCurrentTime(), startTime, null, -1, timer.getCronExpression(), null, null); // cron timers are by nature repeatable timer.setPeriod(1); } else { trigger = new IntervalTrigger(timerService.getCurrentTime(), null, null, timer.getRepeatLimit(), timer.getDelay(), timer.getPeriod(), null, null); } ProcessJobContext ctx = new ProcessJobContext(timer, trigger, processInstance.getId(), this.kruntime); JobHandle jobHandle = this.timerService.scheduleJob(processJob, ctx, trigger); timer.setJobHandle(jobHandle); timers.put(timer.getId(), timer); } finally { kruntime.endOperation(); } }
public void deserialize(MarshallerReaderContext inCtx, Timer timer) throws ClassNotFoundException { JBPMMessages.ProcessTimer ptimer = timer.getExtension(JBPMMessages.procTimer); TimerService ts = inCtx.wm.getTimerService(); long processInstanceId = ptimer.getTimer().getProcessInstanceId(); Trigger trigger = ProtobufInputMarshaller.readTrigger(inCtx, ptimer.getTrigger()); TimerInstance timerInstance = ProtobufProcessMarshaller.readTimer(inCtx, ptimer.getTimer()); TimerManager tm = ((InternalProcessRuntime) inCtx.wm.getProcessRuntime()).getTimerManager(); // check if the timer instance is not already registered to avoid duplicated timers if (!tm.getTimerMap().containsKey(timerInstance.getId())) { ProcessJobContext pctx = new ProcessJobContext(timerInstance, trigger, processInstanceId, inCtx.wm.getKnowledgeRuntime(), false); Date date = trigger.hasNextFireTime(); if (date != null) { long then = date.getTime(); long now = pctx.getKnowledgeRuntime().getSessionClock().getCurrentTime(); // overdue timer if (then < now) { trigger = new OverdueTrigger(trigger, pctx.getKnowledgeRuntime()); } } JobHandle jobHandle = ts.scheduleJob(processJob, pctx, trigger); timerInstance.setJobHandle(jobHandle); pctx.setJobHandle(jobHandle); tm.getTimerMap().put(timerInstance.getId(), timerInstance); } } }