@Test public void testSubmitToKeyOwnerCallable() throws Exception { final int k = simpleTestNodeCount; TestHazelcastInstanceFactory factory = createHazelcastInstanceFactory(k); final HazelcastInstance[] instances = factory.newInstances(new Config()); final AtomicInteger count = new AtomicInteger(0); final CountDownLatch latch = new CountDownLatch(k / 2); final ExecutionCallback callback = new ExecutionCallback() { public void onResponse(Object response) { if ((Boolean) response) count.incrementAndGet(); latch.countDown(); } public void onFailure(Throwable t) {} }; for (int i = 0; i < k; i++) { final HazelcastInstance instance = instances[i]; final IExecutorService service = instance.getExecutorService("testSubmitToKeyOwnerCallable"); final String script = "hazelcast.getCluster().getLocalMember().equals(member)"; final HashMap map = new HashMap(); final Member localMember = instance.getCluster().getLocalMember(); map.put("member", localMember); int key = 0; while (!localMember.equals(instance.getPartitionService().getPartition(++key).getOwner())) ; if (i % 2 == 0) { final Future f = service.submitToKeyOwner(new ScriptCallable(script, map), key); assertTrue((Boolean) f.get(5, TimeUnit.SECONDS)); } else { service.submitToKeyOwner(new ScriptCallable(script, map), key, callback); } } assertTrue(latch.await(30, TimeUnit.SECONDS)); assertEquals(k / 2, count.get()); }
public FlushResult call() throws Exception { // For each measure and each star, ask the index // which headers intersect. final List<SegmentHeader> headers = new ArrayList<SegmentHeader>(); final List<Member> measures = CacheControlImpl.findMeasures(region); final SegmentColumn[] flushRegion = CacheControlImpl.findAxisValues(region); final List<RolapStar> starList = CacheControlImpl.getStarList(region); for (Member member : measures) { if (!(member instanceof RolapStoredMeasure)) { continue; } final RolapStoredMeasure storedMeasure = (RolapStoredMeasure) member; final RolapStar star = storedMeasure.getCube().getStar(); final SegmentCacheIndex index = cacheMgr.indexRegistry.getIndex(star); headers.addAll( index.intersectRegion( member.getDimension().getSchema().getName(), ((RolapSchema) member.getDimension().getSchema()).getChecksum(), storedMeasure.getCube().getName(), storedMeasure.getName(), storedMeasure.getCube().getStar().getFactTable().getAlias(), flushRegion)); } // If flushRegion is empty, this means we must clear all // segments for the region's measures. if (flushRegion.length == 0) { for (final SegmentHeader header : headers) { for (RolapStar star : starList) { cacheMgr.indexRegistry.getIndex(star).remove(header); } // Remove the segment from external caches. Use an // executor, because it may take some time. We discard // the future, because we don't care too much if it fails. cacheControlImpl.trace( "discard segment - it cannot be constrained and maintain consistency:\n" + header.getDescription()); final Future<?> task = cacheMgr.cacheExecutor.submit( new Runnable() { public void run() { try { // Note that the SegmentCache API doesn't // require us to verify that the segment // exists (by calling "contains") before we // call "remove". cacheMgr.compositeCache.remove(header); } catch (Throwable e) { LOGGER.warn("remove header failed: " + header, e); } } }); Util.safeGet(task, "SegmentCacheManager.flush"); } return new FlushResult(Collections.<Callable<Boolean>>emptyList()); } // Now we know which headers intersect. For each of them, // we append an excluded region. // // TODO: Optimize the logic here. If a segment is mostly // empty, we should trash it completely. final List<Callable<Boolean>> callableList = new ArrayList<Callable<Boolean>>(); for (final SegmentHeader header : headers) { if (!header.canConstrain(flushRegion)) { // We have to delete that segment altogether. cacheControlImpl.trace( "discard segment - it cannot be constrained and maintain consistency:\n" + header.getDescription()); for (RolapStar star : starList) { cacheMgr.indexRegistry.getIndex(star).remove(header); } continue; } final SegmentHeader newHeader = header.constrain(flushRegion); for (final SegmentCacheWorker worker : cacheMgr.segmentCacheWorkers) { callableList.add( new Callable<Boolean>() { public Boolean call() throws Exception { boolean existed; if (worker.supportsRichIndex()) { final SegmentBody sb = worker.get(header); existed = worker.remove(header); if (sb != null) { worker.put(newHeader, sb); } } else { // The cache doesn't support rich index. We // have to clear the segment entirely. existed = worker.remove(header); } return existed; } }); } for (RolapStar star : starList) { SegmentCacheIndex index = cacheMgr.indexRegistry.getIndex(star); index.remove(header); index.add(newHeader, false, null); } } // Done return new FlushResult(callableList); }