HBASE-15065 SimpleRegionNormalizer should return multiple normalization plans in one run
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bc4b9eb084
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@ -1374,12 +1374,16 @@ public class HMaster extends HRegionServer implements MasterServices, Server {
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continue;
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}
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}
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NormalizationPlan plan = this.normalizer.computePlanForTable(table, types);
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plan.execute(clusterConnection.getAdmin());
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if (plan.getType() == PlanType.SPLIT) {
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splitPlanCount++;
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} else if (plan.getType() == PlanType.MERGE) {
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mergePlanCount++;
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List<NormalizationPlan> plans = this.normalizer.computePlanForTable(table, types);
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if (plans != null) {
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for (NormalizationPlan plan : plans) {
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plan.execute(clusterConnection.getAdmin());
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if (plan.getType() == PlanType.SPLIT) {
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splitPlanCount++;
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} else if (plan.getType() == PlanType.MERGE) {
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mergePlanCount++;
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}
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}
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}
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}
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}
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@ -50,8 +50,8 @@ public interface RegionNormalizer {
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* Computes next optimal normalization plan.
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* @param table table to normalize
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* @param types desired types of NormalizationPlan
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* @return Next (perhaps most urgent) normalization action to perform
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* @return normalization actions to perform. Null if no action to take
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*/
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NormalizationPlan computePlanForTable(TableName table, List<PlanType> types)
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List<NormalizationPlan> computePlanForTable(TableName table, List<PlanType> types)
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throws HBaseIOException;
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}
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@ -39,7 +39,7 @@ public class RegionNormalizerChore extends ScheduledChore {
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public RegionNormalizerChore(HMaster master) {
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super(master.getServerName() + "-RegionNormalizerChore", master,
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master.getConfiguration().getInt("hbase.normalizer.period", 1800000));
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master.getConfiguration().getInt("hbase.normalizer.period", 300000));
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this.master = master;
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}
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@ -71,19 +71,14 @@ public class SimpleRegionNormalizer implements RegionNormalizer {
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this.masterServices = masterServices;
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}
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/*
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* This comparator compares the region size.
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* The second element in the triple is region size while the 3rd element
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* is the index of the region in the underlying List
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*/
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private Comparator<Triple<HRegionInfo, Long, Integer>> regionSizeComparator =
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new Comparator<Triple<HRegionInfo, Long, Integer>>() {
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// Comparator that gives higher priority to region Split plan
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private Comparator<NormalizationPlan> planComparator =
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new Comparator<NormalizationPlan>() {
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@Override
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public int compare(Triple<HRegionInfo, Long, Integer> pair,
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Triple<HRegionInfo, Long, Integer> pair2) {
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long sz = pair.getSecond();
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long sz2 = pair2.getSecond();
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return (sz < sz2) ? -1 : ((sz == sz2) ? 0 : 1);
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public int compare(NormalizationPlan plan, NormalizationPlan plan2) {
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if (plan instanceof SplitNormalizationPlan) return -1;
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if (plan2 instanceof SplitNormalizationPlan) return 1;
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return 0;
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}
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};
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@ -96,13 +91,14 @@ public class SimpleRegionNormalizer implements RegionNormalizer {
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* @return normalization plan to execute
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*/
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@Override
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public NormalizationPlan computePlanForTable(TableName table, List<PlanType> types)
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public List<NormalizationPlan> computePlanForTable(TableName table, List<PlanType> types)
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throws HBaseIOException {
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if (table == null || table.isSystemTable()) {
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LOG.debug("Normalization of system table " + table + " isn't allowed");
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return EmptyNormalizationPlan.getInstance();
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return null;
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}
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List<NormalizationPlan> plans = new ArrayList<NormalizationPlan>();
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List<HRegionInfo> tableRegions = masterServices.getAssignmentManager().getRegionStates().
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getRegionsOfTable(table);
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@ -111,7 +107,7 @@ public class SimpleRegionNormalizer implements RegionNormalizer {
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int nrRegions = tableRegions == null ? 0 : tableRegions.size();
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LOG.debug("Table " + table + " has " + nrRegions + " regions, required min number"
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+ " of regions for normalizer to run is " + MIN_REGION_COUNT + ", not running normalizer");
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return EmptyNormalizationPlan.getInstance();
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return null;
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}
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LOG.debug("Computing normalization plan for table: " + table +
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@ -119,56 +115,49 @@ public class SimpleRegionNormalizer implements RegionNormalizer {
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long totalSizeMb = 0;
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ArrayList<Triple<HRegionInfo, Long, Integer>> regionsWithSize =
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new ArrayList<Triple<HRegionInfo, Long, Integer>>(tableRegions.size());
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for (int i = 0; i < tableRegions.size(); i++) {
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HRegionInfo hri = tableRegions.get(i);
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long regionSize = getRegionSize(hri);
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regionsWithSize.add(new Triple<HRegionInfo, Long, Integer>(hri, regionSize, i));
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totalSizeMb += regionSize;
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}
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Collections.sort(regionsWithSize, regionSizeComparator);
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Triple<HRegionInfo, Long, Integer> largestRegion = regionsWithSize.get(tableRegions.size()-1);
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double avgRegionSize = totalSizeMb / (double) tableRegions.size();
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LOG.debug("Table " + table + ", total aggregated regions size: " + totalSizeMb);
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LOG.debug("Table " + table + ", average region size: " + avgRegionSize);
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// now; if the largest region is >2 times large than average, we split it, split
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// is more high priority normalization action than merge.
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if (types.contains(PlanType.SPLIT) && largestRegion.getSecond() > 2 * avgRegionSize) {
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LOG.debug("Table " + table + ", largest region "
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+ largestRegion.getFirst().getRegionNameAsString() + " has size "
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+ largestRegion.getSecond() + ", more than 2 times than avg size, splitting");
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return new SplitNormalizationPlan(largestRegion.getFirst(), null);
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}
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int candidateIdx = 0;
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// look for two successive entries whose indices are adjacent
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while (candidateIdx < tableRegions.size()-1) {
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if (Math.abs(regionsWithSize.get(candidateIdx).getThird() -
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regionsWithSize.get(candidateIdx + 1).getThird()) == 1) {
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break;
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while (candidateIdx < tableRegions.size()) {
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HRegionInfo hri = tableRegions.get(candidateIdx);
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long regionSize = getRegionSize(hri);
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// if the region is > 2 times larger than average, we split it, split
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// is more high priority normalization action than merge.
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if (types.contains(PlanType.SPLIT) && regionSize > 2 * avgRegionSize) {
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LOG.debug("Table " + table + ", large region " + hri.getRegionNameAsString() + " has size "
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+ regionSize + ", more than twice avg size, splitting");
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plans.add(new SplitNormalizationPlan(hri, null));
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} else {
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if (candidateIdx == tableRegions.size()-1) {
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break;
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}
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HRegionInfo hri2 = tableRegions.get(candidateIdx+1);
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long regionSize2 = getRegionSize(hri2);
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if (types.contains(PlanType.MERGE) && regionSize + regionSize2 < avgRegionSize) {
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LOG.debug("Table " + table + ", small region size: " + regionSize
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+ " plus its neighbor size: " + regionSize2
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+ ", less than the avg size " + avgRegionSize + ", merging them");
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plans.add(new MergeNormalizationPlan(hri, hri2));
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candidateIdx++;
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}
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}
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candidateIdx++;
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}
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if (candidateIdx == tableRegions.size()-1) {
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LOG.debug("No neighboring regions found for table: " + table);
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return EmptyNormalizationPlan.getInstance();
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if (plans.isEmpty()) {
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LOG.debug("No normalization needed, regions look good for table: " + table);
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return null;
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}
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Triple<HRegionInfo, Long, Integer> candidateRegion = regionsWithSize.get(candidateIdx);
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Triple<HRegionInfo, Long, Integer> candidateRegion2 = regionsWithSize.get(candidateIdx+1);
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if (types.contains(PlanType.MERGE) &&
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candidateRegion.getSecond() + candidateRegion2.getSecond() < avgRegionSize) {
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LOG.debug("Table " + table + ", smallest region size: " + candidateRegion.getSecond()
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+ " and its smallest neighbor size: " + candidateRegion2.getSecond()
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+ ", less than the avg size, merging them");
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return new MergeNormalizationPlan(candidateRegion.getFirst(),
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candidateRegion2.getFirst());
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}
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LOG.debug("No normalization needed, regions look good for table: " + table);
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return EmptyNormalizationPlan.getInstance();
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Collections.sort(plans, planComparator);
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return plans;
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}
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private long getRegionSize(HRegionInfo hri) {
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@ -82,8 +82,8 @@ public class TestSimpleRegionNormalizer {
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Map<byte[], Integer> regionSizes = new HashMap<>();
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setupMocksForNormalizer(regionSizes, hris);
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NormalizationPlan plan = normalizer.computePlanForTable(testTable, bothTypes);
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assertTrue(plan instanceof EmptyNormalizationPlan);
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List<NormalizationPlan> plans = normalizer.computePlanForTable(testTable, bothTypes);
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assertTrue(plans == null);
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}
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@Test
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@ -101,8 +101,8 @@ public class TestSimpleRegionNormalizer {
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regionSizes.put(hri2.getRegionName(), 15);
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setupMocksForNormalizer(regionSizes, hris);
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NormalizationPlan plan = normalizer.computePlanForTable(testTable, bothTypes);
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assertTrue((plan instanceof EmptyNormalizationPlan));
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List<NormalizationPlan> plans = normalizer.computePlanForTable(testTable, bothTypes);
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assertTrue(plans == null);
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}
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@Test
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@ -128,8 +128,8 @@ public class TestSimpleRegionNormalizer {
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regionSizes.put(hri4.getRegionName(), 10);
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setupMocksForNormalizer(regionSizes, hris);
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NormalizationPlan plan = normalizer.computePlanForTable(testTable, bothTypes);
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assertTrue(plan instanceof EmptyNormalizationPlan);
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List<NormalizationPlan> plans = normalizer.computePlanForTable(testTable, bothTypes);
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assertTrue(plans == null);
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}
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@Test
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@ -164,15 +164,16 @@ public class TestSimpleRegionNormalizer {
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regionSizes.put(hri5.getRegionName(), 16);
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setupMocksForNormalizer(regionSizes, hris);
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NormalizationPlan plan = normalizer.computePlanForTable(testTable,
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List<NormalizationPlan> plans = normalizer.computePlanForTable(testTable,
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mergeDesired ? bothTypes : splitType);
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if (mergeDesired) {
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NormalizationPlan plan = plans.get(0);
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assertTrue(plan instanceof MergeNormalizationPlan);
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assertEquals(hri2, ((MergeNormalizationPlan) plan).getFirstRegion());
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assertEquals(hri3, ((MergeNormalizationPlan) plan).getSecondRegion());
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} else {
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assertTrue(plan instanceof EmptyNormalizationPlan);
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assertTrue(plans == null);
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}
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}
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@ -208,7 +209,8 @@ public class TestSimpleRegionNormalizer {
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regionSizes.put(hri6.getRegionName(), 2700);
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setupMocksForNormalizer(regionSizes, hris);
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NormalizationPlan plan = normalizer.computePlanForTable(testTable, bothTypes);
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List<NormalizationPlan> plans = normalizer.computePlanForTable(testTable, bothTypes);
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NormalizationPlan plan = plans.get(0);
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assertTrue(plan instanceof MergeNormalizationPlan);
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assertEquals(hri5, ((MergeNormalizationPlan) plan).getFirstRegion());
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@ -242,9 +244,9 @@ public class TestSimpleRegionNormalizer {
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regionSizes.put(hri5.getRegionName(), 5);
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setupMocksForNormalizer(regionSizes, hris);
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NormalizationPlan plan = normalizer.computePlanForTable(testTable, bothTypes);
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List<NormalizationPlan> plans = normalizer.computePlanForTable(testTable, bothTypes);
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assertTrue(plan instanceof EmptyNormalizationPlan);
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assertTrue(plans == null);
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}
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@Test
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@ -270,7 +272,8 @@ public class TestSimpleRegionNormalizer {
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regionSizes.put(hri4.getRegionName(), 30);
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setupMocksForNormalizer(regionSizes, hris);
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NormalizationPlan plan = normalizer.computePlanForTable(testTable, bothTypes);
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List<NormalizationPlan> plans = normalizer.computePlanForTable(testTable, bothTypes);
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NormalizationPlan plan = plans.get(0);
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assertTrue(plan instanceof SplitNormalizationPlan);
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assertEquals(hri4, ((SplitNormalizationPlan) plan).getRegionInfo());
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@ -126,13 +126,19 @@ public class TestSimpleRegionNormalizerOnCluster {
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Thread.sleep(5000); // to let region load to update
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m.normalizeRegions();
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while (MetaTableAccessor.getRegionCount(TEST_UTIL.getConnection(), TABLENAME) < 6) {
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LOG.info("Waiting for normalization split to complete");
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Thread.sleep(100);
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while (true) {
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List<HRegion> regions = TEST_UTIL.getHBaseCluster().getRegions(TABLENAME);
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int cnt = 0;
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for (HRegion region : regions) {
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String regionName = region.getRegionInfo().getRegionNameAsString();
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if (regionName.startsWith("testRegionNormalizationSplitOnCluster,zzzzz")) {
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cnt++;
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}
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}
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if (cnt >= 2) {
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break;
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}
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}
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assertEquals(6, MetaTableAccessor.getRegionCount(TEST_UTIL.getConnection(), TABLENAME));
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admin.disableTable(TABLENAME);
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admin.deleteTable(TABLENAME);
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}
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