/** * Save a task in the database. * * @param task the <code>TaskDefinition</code> to save */ public void saveTaskDefinition(TaskDefinition task) { if (task.getId() != null) { getSchedulerDAO().updateTask(task); } else { getSchedulerDAO().createTask(task); } }
/** * Stops a running task. * * @param taskDefinition the task to be stopped * @see org.openmrs.scheduler.SchedulerService#shutdownTask(TaskDefinition) */ public void shutdownTask(TaskDefinition taskDefinition) throws SchedulerException { if (taskDefinition != null) { // Remove the task from the scheduled tasks and shutdown the timer TimerSchedulerTask schedulerTask = scheduledTasks.remove(taskDefinition.getId()); if (schedulerTask != null) { schedulerTask .shutdown(); // Stops the timer and tells the timer task to release its resources } // Update task that has been started taskDefinition.setStarted(false); saveTask(taskDefinition); } }
/** * Saves and stops all active tasks * * @return OpenmrsMemento */ public OpenmrsMemento saveToMemento() { Set<Integer> tasks = new HashSet<Integer>(); for (TaskDefinition task : getScheduledTasks()) { tasks.add(task.getId()); try { shutdownTask(task); } catch (SchedulerException e) { // just swallow exceptions log.debug("Failed to stop task while saving memento " + task.getName(), e); } } TimerSchedulerMemento memento = new TimerSchedulerMemento(tasks); memento.saveErrorTasks(); return memento; }
/** * Schedule the given task according to the given schedule. * * @param taskDefinition the task to be scheduled * @should should handle zero repeat interval */ public Task scheduleTask(TaskDefinition taskDefinition) throws SchedulerException { Task clientTask = null; if (taskDefinition != null) { // Cancel any existing timer tasks for the same task definition // TODO Make sure this is the desired behavior // TODO Do we ever want the same task definition to run more than once? TimerSchedulerTask schedulerTask = scheduledTasks.get(taskDefinition.getId()); if (schedulerTask != null) { // schedulerTask.cancel(); log.info("Shutting down the existing instance of this task to avoid conflicts!!"); schedulerTask.shutdown(); } try { // Create new task from task definition clientTask = TaskFactory.getInstance().createInstance(taskDefinition); // if we were unable to get a class, just quit if (clientTask != null) { schedulerTask = new TimerSchedulerTask(clientTask); taskDefinition.setTaskInstance(clientTask); // Once this method is called, the timer is set to start at the given start time. // NOTE: We need to adjust the repeat interval as the JDK Timer expects time in // milliseconds and // we record by seconds. long repeatInterval = 0; if (taskDefinition.getRepeatInterval() != null) repeatInterval = taskDefinition.getRepeatInterval() * SchedulerConstants.SCHEDULER_MILLIS_PER_SECOND; if (taskDefinition.getStartTime() != null) { // Need to calculate the "next execution time" because the scheduled time is most likely // in the past // and the JDK timer will run the task X number of times from the start time until now // to catch up. Date nextTime = SchedulerUtil.getNextExecution(taskDefinition); // Start task at fixed rate at given future date and repeat as directed log.info("Starting task ... the task will execute for the first time at " + nextTime); if (repeatInterval > 0) { // Schedule the task to run at a fixed rate getTimer(taskDefinition).scheduleAtFixedRate(schedulerTask, nextTime, repeatInterval); } else { // Schedule the task to be non-repeating getTimer(taskDefinition).schedule(schedulerTask, nextTime); } } else if (repeatInterval > 0) { // Start task on repeating schedule, delay for SCHEDULER_DEFAULT_DELAY seconds log.info( "Delaying start time by " + SchedulerConstants.SCHEDULER_DEFAULT_DELAY + " seconds"); getTimer(taskDefinition) .scheduleAtFixedRate( schedulerTask, SchedulerConstants.SCHEDULER_DEFAULT_DELAY, repeatInterval); } else { // schedule for single execution, starting now log.info("Starting one-shot task"); getTimer(taskDefinition).schedule(schedulerTask, new Date()); } // Update task that has been started log.debug("Registering timer for task " + taskDefinition.getId()); // Add the new timer to the scheduler running task list scheduledTasks.put(taskDefinition.getId(), schedulerTask); // Update the timer status in the database taskDefinition.setStarted(true); saveTask(taskDefinition); } } catch (Exception e) { log.error("Failed to schedule task " + taskDefinition.getName(), e); throw new SchedulerException("Failed to schedule task", e); } } return clientTask; }