/** * Remove the index from cache for a given project. Passing null as a job family discards them * all. */ public void discardJobs(String jobFamily) { if (VERBOSE) Util.verbose("DISCARD background job family - " + jobFamily); // $NON-NLS-1$ try { org.eclipse.jdt.internal.core.search.processing.IJob currentJob; // cancel current job if it belongs to the given family synchronized (this) { currentJob = currentJob(); disable(); } if (currentJob != null && (jobFamily == null || currentJob.belongsTo(jobFamily))) { currentJob.cancel(); // wait until current active job has finished while (this.processingThread != null && this.executing) { try { if (VERBOSE) Util.verbose( "-> waiting end of current background job - " + currentJob); // $NON-NLS-1$ Thread.sleep(50); } catch (InterruptedException e) { // ignore } } } // flush and compact awaiting jobs int loc = -1; synchronized (this) { for (int i = this.jobStart; i <= this.jobEnd; i++) { currentJob = this.awaitingJobs[i]; if (currentJob != null) { // sanity check this.awaitingJobs[i] = null; if (!(jobFamily == null || currentJob.belongsTo(jobFamily))) { // copy down, compacting this.awaitingJobs[++loc] = currentJob; } else { if (VERBOSE) Util.verbose("-> discarding background job - " + currentJob); // $NON-NLS-1$ currentJob.cancel(); } } } this.jobStart = 0; this.jobEnd = loc; } } finally { enable(); } if (VERBOSE) Util.verbose("DISCARD DONE with background job family - " + jobFamily); // $NON-NLS-1$ }
public synchronized void request(IJob job) { job.ensureReadyToRun(); // append the job to the list of ones to process later on int size = this.awaitingJobs.length; if (++this.jobEnd == size) { // when growing, relocate jobs starting at position 0 this.jobEnd -= this.jobStart; // jobEnd now equals the number of jobs if (this.jobEnd < 50 && this.jobEnd < this.jobStart) { // plenty of free space in the queue so shift the remaining jobs to the beginning instead of // growing it System.arraycopy(this.awaitingJobs, this.jobStart, this.awaitingJobs, 0, this.jobEnd); for (int i = this.jobStart; i < size; i++) this.awaitingJobs[i] = null; } else { System.arraycopy( this.awaitingJobs, this.jobStart, this.awaitingJobs = new IJob[size * 2], 0, this.jobEnd); } this.jobStart = 0; } this.awaitingJobs[this.jobEnd] = job; if (VERBOSE) { Util.verbose("REQUEST background job - " + job); // $NON-NLS-1$ Util.verbose("AWAITING JOBS count: " + awaitingJobsCount()); // $NON-NLS-1$ } notifyAll(); // wake up the background thread if it is waiting }
protected synchronized boolean isJobWaiting( org.eclipse.jdt.internal.core.search.processing.IJob request) { for (int i = this.jobEnd; i > this.jobStart; i--) // don't check job at jobStart, as it may have already started if (request.equals(this.awaitingJobs[i])) return true; return false; }
protected IStatus run(IProgressMonitor monitor) { IJob job = currentJob(); while (!monitor.isCanceled() && job != null) { String taskName = new StringBuffer(Messages.jobmanager_indexing) .append( Messages.bind( Messages.jobmanager_filesToIndex, job.getJobFamily(), Integer.toString(awaitingJobsCount()))) .toString(); monitor.subTask(taskName); setName(taskName); try { Thread.sleep(500); } catch (InterruptedException e) { // ignore } job = currentJob(); } return Status.OK_STATUS; }
/** Infinite loop performing resource indexing */ public void run() { long idlingStart = -1; activateProcessing(); try { class ProgressJob extends Job { ProgressJob(String name) { super(name); } protected IStatus run(IProgressMonitor monitor) { IJob job = currentJob(); while (!monitor.isCanceled() && job != null) { String taskName = new StringBuffer(Messages.jobmanager_indexing) .append( Messages.bind( Messages.jobmanager_filesToIndex, job.getJobFamily(), Integer.toString(awaitingJobsCount()))) .toString(); monitor.subTask(taskName); setName(taskName); try { Thread.sleep(500); } catch (InterruptedException e) { // ignore } job = currentJob(); } return Status.OK_STATUS; } } this.progressJob = null; while (this.processingThread != null) { try { IJob job; synchronized (this) { // handle shutdown case when notifyAll came before the wait but after the while loop was // entered if (this.processingThread == null) continue; // must check for new job inside this sync block to avoid timing hole if ((job = currentJob()) == null) { if (this.progressJob != null) { this.progressJob.cancel(); this.progressJob = null; } if (idlingStart < 0) idlingStart = System.currentTimeMillis(); else notifyIdle(System.currentTimeMillis() - idlingStart); this.wait(); // wait until a new job is posted (or reenabled:38901) } else { idlingStart = -1; } } if (job == null) { notifyIdle(System.currentTimeMillis() - idlingStart); // just woke up, delay before processing any new jobs, allow some time for the active // thread to finish Thread.sleep(500); continue; } if (VERBOSE) { Util.verbose(awaitingJobsCount() + " awaiting jobs"); // $NON-NLS-1$ Util.verbose("STARTING background job - " + job); // $NON-NLS-1$ } try { this.executing = true; if (this.progressJob == null) { this.progressJob = new ProgressJob( Messages.bind( Messages.jobmanager_indexing, "", "")); // $NON-NLS-1$ //$NON-NLS-2$ this.progressJob.setPriority(Job.LONG); this.progressJob.setSystem(true); this.progressJob.schedule(); } /*boolean status = */ job.execute(null); // if (status == FAILED) request(job); } finally { this.executing = false; if (VERBOSE) Util.verbose("FINISHED background job - " + job); // $NON-NLS-1$ moveToNextJob(); if (this.awaitingClients == 0) Thread.sleep(50); } } catch (InterruptedException e) { // background indexing was interrupted } } } catch (RuntimeException e) { if (this.processingThread != null) { // if not shutting down // log exception Util.log(e, "Background Indexer Crash Recovery"); // $NON-NLS-1$ // keep job manager alive discardJobs(null); this.processingThread = null; reset(); // this will fork a new thread with no waiting jobs, some indexes will be // inconsistent } throw e; } catch (Error e) { if (this.processingThread != null && !(e instanceof ThreadDeath)) { // log exception Util.log(e, "Background Indexer Crash Recovery"); // $NON-NLS-1$ // keep job manager alive discardJobs(null); this.processingThread = null; reset(); // this will fork a new thread with no waiting jobs, some indexes will be // inconsistent } throw e; } }
/** * This API is allowing to run one job in concurrence with background processing. Indeed since * other jobs are performed in background, resource sharing might be an issue.Therefore, this * functionality allows a given job to be run without colliding with background ones. Note: * multiple thread might attempt to perform concurrent jobs at the same time, and should * synchronize (it is deliberately left to clients to decide whether concurrent jobs might * interfere or not. In general, multiple read jobs are ok). * * <p>Waiting policy can be: IJobConstants.ForceImmediateSearch * IJobConstants.CancelIfNotReadyToSearch IJobConstants.WaitUntilReadyToSearch */ public boolean performConcurrentJob( IJob searchJob, int waitingPolicy, IProgressMonitor progress) { if (VERBOSE) Util.verbose("STARTING concurrent job - " + searchJob); // $NON-NLS-1$ searchJob.ensureReadyToRun(); boolean status = IJob.FAILED; try { int concurrentJobWork = 100; if (progress != null) progress.beginTask("", concurrentJobWork); // $NON-NLS-1$ if (awaitingJobsCount() > 0) { switch (waitingPolicy) { case IJob.ForceImmediate: if (VERBOSE) Util.verbose("-> NOT READY - forcing immediate - " + searchJob); // $NON-NLS-1$ try { disable(); // pause indexing status = searchJob.execute( progress == null ? null : new SubProgressMonitor(progress, concurrentJobWork)); } finally { enable(); } if (VERBOSE) Util.verbose("FINISHED concurrent job - " + searchJob); // $NON-NLS-1$ return status; case IJob.CancelIfNotReady: if (VERBOSE) Util.verbose("-> NOT READY - cancelling - " + searchJob); // $NON-NLS-1$ if (VERBOSE) Util.verbose("CANCELED concurrent job - " + searchJob); // $NON-NLS-1$ throw new OperationCanceledException(); case IJob.WaitUntilReady: IProgressMonitor subProgress = null; try { int totalWork = 1000; if (progress != null) { subProgress = new SubProgressMonitor(progress, concurrentJobWork * 8 / 10); subProgress.beginTask("", totalWork); // $NON-NLS-1$ concurrentJobWork = concurrentJobWork * 2 / 10; } // use local variable to avoid potential NPE (see bug 20435 NPE when searching java // method // and bug 42760 NullPointerException in JobManager when searching) Thread t = this.processingThread; int originalPriority = t == null ? -1 : t.getPriority(); try { if (t != null) t.setPriority(Thread.currentThread().getPriority()); synchronized (this) { this.awaitingClients++; } IJob previousJob = null; int awaitingJobsCount; int lastJobsCount = totalWork; float lastWorked = 0; float totalWorked = 0; while ((awaitingJobsCount = awaitingJobsCount()) > 0) { if ((subProgress != null && subProgress.isCanceled()) || this.processingThread == null) throw new OperationCanceledException(); IJob currentJob = currentJob(); // currentJob can be null when jobs have been added to the queue but job manager // is not enabled if (currentJob != null && currentJob != previousJob) { if (VERBOSE) Util.verbose( "-> NOT READY - waiting until ready - " + searchJob); // $NON-NLS-1$ if (subProgress != null) { String indexing = Messages.bind( Messages.jobmanager_filesToIndex, currentJob.getJobFamily(), Integer.toString(awaitingJobsCount)); subProgress.subTask(indexing); // ratio of the amount of work relative to the total work float ratio = awaitingJobsCount < totalWork ? 1 : ((float) totalWork) / awaitingJobsCount; if (lastJobsCount > awaitingJobsCount) { totalWorked += (lastJobsCount - awaitingJobsCount) * ratio; } else { // more jobs were added, just increment by the ratio totalWorked += ratio; } if (totalWorked - lastWorked >= 1) { subProgress.worked((int) (totalWorked - lastWorked)); lastWorked = totalWorked; } lastJobsCount = awaitingJobsCount; } previousJob = currentJob; } try { if (VERBOSE) Util.verbose("-> GOING TO SLEEP - " + searchJob); // $NON-NLS-1$ Thread.sleep(50); } catch (InterruptedException e) { // ignore } } } finally { synchronized (this) { this.awaitingClients--; } if (t != null && originalPriority > -1 && t.isAlive()) t.setPriority(originalPriority); } } finally { if (subProgress != null) subProgress.done(); } } } status = searchJob.execute( progress == null ? null : new SubProgressMonitor(progress, concurrentJobWork)); } finally { if (progress != null) progress.done(); if (VERBOSE) Util.verbose("FINISHED concurrent job - " + searchJob); // $NON-NLS-1$ } return status; }