HBASE-16229 Cleaning up size and heapSize calculation.
This commit is contained in:
parent
831fb3ccb8
commit
2ab3384669
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@ -46,6 +46,12 @@ public class ClassSize {
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/** Overhead for ArrayList(0) */
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public static final int ARRAYLIST;
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/** Overhead for LinkedList(0) */
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public static final int LINKEDLIST;
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/** Overhead for a single entry in LinkedList */
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public static final int LINKEDLIST_ENTRY;
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/** Overhead for ByteBuffer */
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public static final int BYTE_BUFFER;
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@ -100,6 +106,9 @@ public class ClassSize {
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/** Overhead for AtomicBoolean */
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public static final int ATOMIC_BOOLEAN;
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/** Overhead for AtomicReference */
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public static final int ATOMIC_REFERENCE;
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/** Overhead for CopyOnWriteArraySet */
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public static final int COPYONWRITE_ARRAYSET;
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@ -240,6 +249,10 @@ public class ClassSize {
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ARRAYLIST = align(OBJECT + REFERENCE + (2 * Bytes.SIZEOF_INT)) + align(ARRAY);
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LINKEDLIST = align(OBJECT + (2 * Bytes.SIZEOF_INT) + (2 * REFERENCE));
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LINKEDLIST_ENTRY = align(OBJECT + (2 * REFERENCE));
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//noinspection PointlessArithmeticExpression
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BYTE_BUFFER = align(OBJECT + REFERENCE +
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(5 * Bytes.SIZEOF_INT) +
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@ -292,6 +305,8 @@ public class ClassSize {
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ATOMIC_BOOLEAN = align(OBJECT + Bytes.SIZEOF_BOOLEAN);
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ATOMIC_REFERENCE = align(OBJECT + REFERENCE);
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COPYONWRITE_ARRAYSET = align(OBJECT + REFERENCE);
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COPYONWRITE_ARRAYLIST = align(OBJECT + (2 * REFERENCE) + ARRAY);
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@ -52,34 +52,29 @@ public abstract class AbstractMemStore implements MemStore {
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private final CellComparator comparator;
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// active segment absorbs write operations
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private volatile MutableSegment active;
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protected volatile MutableSegment active;
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// Snapshot of memstore. Made for flusher.
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private volatile ImmutableSegment snapshot;
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protected volatile ImmutableSegment snapshot;
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protected volatile long snapshotId;
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// Used to track when to flush
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private volatile long timeOfOldestEdit;
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public final static long FIXED_OVERHEAD = ClassSize.align(
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ClassSize.OBJECT +
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(4 * ClassSize.REFERENCE) +
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(2 * Bytes.SIZEOF_LONG));
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public final static long DEEP_OVERHEAD = ClassSize.align(FIXED_OVERHEAD +
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(ClassSize.ATOMIC_LONG + ClassSize.TIMERANGE_TRACKER +
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ClassSize.CELL_SET + ClassSize.CONCURRENT_SKIPLISTMAP));
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public final static long FIXED_OVERHEAD = ClassSize
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.align(ClassSize.OBJECT + (4 * ClassSize.REFERENCE) + (2 * Bytes.SIZEOF_LONG));
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public final static long DEEP_OVERHEAD = FIXED_OVERHEAD;
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protected AbstractMemStore(final Configuration conf, final CellComparator c) {
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this.conf = conf;
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this.comparator = c;
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resetActive();
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this.snapshot = SegmentFactory.instance().createImmutableSegment(c, 0);
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this.snapshot = SegmentFactory.instance().createImmutableSegment(c);
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this.snapshotId = NO_SNAPSHOT_ID;
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}
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protected void resetActive() {
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// Reset heap to not include any keys
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this.active = SegmentFactory.instance().createMutableSegment(conf, comparator, DEEP_OVERHEAD);
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this.active = SegmentFactory.instance().createMutableSegment(conf, comparator);
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this.timeOfOldestEdit = Long.MAX_VALUE;
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}
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@ -200,8 +195,7 @@ public abstract class AbstractMemStore implements MemStore {
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// create a new snapshot and let the old one go.
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Segment oldSnapshot = this.snapshot;
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if (!this.snapshot.isEmpty()) {
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this.snapshot = SegmentFactory.instance().createImmutableSegment(
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getComparator(), 0);
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this.snapshot = SegmentFactory.instance().createImmutableSegment(this.comparator);
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}
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this.snapshotId = NO_SNAPSHOT_ID;
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oldSnapshot.close();
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@ -213,12 +207,12 @@ public abstract class AbstractMemStore implements MemStore {
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*/
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@Override
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public long heapSize() {
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return getActive().getSize();
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return size();
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}
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@Override
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public long getSnapshotSize() {
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return getSnapshot().getSize();
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return this.snapshot.keySize();
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}
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@Override
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@ -385,7 +379,7 @@ public abstract class AbstractMemStore implements MemStore {
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// so we cant add the new Cell w/o knowing what's there already, but we also
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// want to take this chance to delete some cells. So two loops (sad)
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SortedSet<Cell> ss = getActive().tailSet(firstCell);
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SortedSet<Cell> ss = this.active.tailSet(firstCell);
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for (Cell cell : ss) {
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// if this isnt the row we are interested in, then bail:
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if (!CellUtil.matchingColumn(cell, family, qualifier)
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@ -433,38 +427,33 @@ public abstract class AbstractMemStore implements MemStore {
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}
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}
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/**
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* @return The size of the active segment. Means sum of all cell's size.
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*/
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protected long keySize() {
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return heapSize() - DEEP_OVERHEAD;
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return this.active.keySize();
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}
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protected CellComparator getComparator() {
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return comparator;
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}
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protected MutableSegment getActive() {
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@VisibleForTesting
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MutableSegment getActive() {
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return active;
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}
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protected ImmutableSegment getSnapshot() {
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@VisibleForTesting
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ImmutableSegment getSnapshot() {
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return snapshot;
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}
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protected AbstractMemStore setSnapshot(ImmutableSegment snapshot) {
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this.snapshot = snapshot;
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return this;
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}
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protected void setSnapshotSize(long snapshotSize) {
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getSnapshot().setSize(snapshotSize);
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}
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/**
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* Check whether anything need to be done based on the current active set size
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*/
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protected abstract void checkActiveSize();
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/**
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* Returns an ordered list of segments from most recent to oldest in memstore
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* @return an ordered list of segments from most recent to oldest in memstore
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*/
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protected abstract List<Segment> getSegments() throws IOException;
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@ -22,7 +22,6 @@ import com.google.common.annotations.VisibleForTesting;
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import java.io.IOException;
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import java.util.ArrayList;
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import java.util.Collections;
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import java.util.LinkedList;
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import java.util.List;
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import java.util.concurrent.ThreadPoolExecutor;
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import java.util.concurrent.atomic.AtomicBoolean;
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@ -52,13 +51,6 @@ import org.apache.hadoop.hbase.wal.WAL;
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@InterfaceAudience.Private
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public class CompactingMemStore extends AbstractMemStore {
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public final static long DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM = ClassSize.align(
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ClassSize.TIMERANGE_TRACKER + ClassSize.CELL_SET + ClassSize.CONCURRENT_SKIPLISTMAP);
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public final static long DEEP_OVERHEAD_PER_PIPELINE_CELL_ARRAY_ITEM = ClassSize.align(
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ClassSize.TIMERANGE_TRACKER + ClassSize.TIMERANGE +
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ClassSize.CELL_SET + ClassSize.CELL_ARRAY_MAP);
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// Default fraction of in-memory-flush size w.r.t. flush-to-disk size
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public static final String IN_MEMORY_FLUSH_THRESHOLD_FACTOR_KEY =
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"hbase.memstore.inmemoryflush.threshold.factor";
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@ -75,6 +67,13 @@ public class CompactingMemStore extends AbstractMemStore {
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@VisibleForTesting
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private final AtomicBoolean allowCompaction = new AtomicBoolean(true);
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public static final long DEEP_OVERHEAD = AbstractMemStore.DEEP_OVERHEAD
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+ 6 * ClassSize.REFERENCE // Store, RegionServicesForStores, CompactionPipeline,
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// MemStoreCompactor, inMemoryFlushInProgress, allowCompaction
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+ Bytes.SIZEOF_LONG // inmemoryFlushSize
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+ 2 * ClassSize.ATOMIC_BOOLEAN// inMemoryFlushInProgress and allowCompaction
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+ CompactionPipeline.DEEP_OVERHEAD + MemStoreCompactor.DEEP_OVERHEAD;
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public CompactingMemStore(Configuration conf, CellComparator c,
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HStore store, RegionServicesForStores regionServices) throws IOException {
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super(conf, c);
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@ -100,28 +99,18 @@ public class CompactingMemStore extends AbstractMemStore {
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LOG.info("Setting in-memory flush size threshold to " + inmemoryFlushSize);
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}
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public static long getSegmentSize(Segment segment) {
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return segment.keySize();
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}
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public static long getSegmentsSize(List<? extends Segment> list) {
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long res = 0;
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for (Segment segment : list) {
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res += getSegmentSize(segment);
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}
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return res;
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}
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/**
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* @return Total memory occupied by this MemStore.
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* This is not thread safe and the memstore may be changed while computing its size.
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* It is the responsibility of the caller to make sure this doesn't happen.
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* @return Total memory occupied by this MemStore. This includes active segment size and heap size
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* overhead of this memstore but won't include any size occupied by the snapshot. We
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* assume the snapshot will get cleared soon. This is not thread safe and the memstore may
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* be changed while computing its size. It is the responsibility of the caller to make
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* sure this doesn't happen.
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*/
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@Override
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public long size() {
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long res = 0;
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for (Segment item : getSegments()) {
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res += item.getSize();
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long res = DEEP_OVERHEAD + this.active.size();
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for (Segment item : pipeline.getSegments()) {
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res += CompactionPipeline.ENTRY_OVERHEAD + item.size();
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}
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return res;
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}
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@ -131,11 +120,13 @@ public class CompactingMemStore extends AbstractMemStore {
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* The store may do any post-flush actions at this point.
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* One example is to update the WAL with sequence number that is known only at the store level.
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*/
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@Override public void finalizeFlush() {
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@Override
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public void finalizeFlush() {
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updateLowestUnflushedSequenceIdInWAL(false);
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}
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@Override public boolean isSloppy() {
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@Override
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public boolean isSloppy() {
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return true;
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}
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@ -148,10 +139,9 @@ public class CompactingMemStore extends AbstractMemStore {
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*/
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@Override
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public MemStoreSnapshot snapshot() {
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MutableSegment active = getActive();
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// If snapshot currently has entries, then flusher failed or didn't call
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// cleanup. Log a warning.
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if (!getSnapshot().isEmpty()) {
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if (!this.snapshot.isEmpty()) {
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LOG.warn("Snapshot called again without clearing previous. " +
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"Doing nothing. Another ongoing flush or did we fail last attempt?");
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} else {
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@ -161,21 +151,22 @@ public class CompactingMemStore extends AbstractMemStore {
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+ getFamilyName());
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}
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stopCompaction();
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pushActiveToPipeline(active);
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pushActiveToPipeline(this.active);
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snapshotId = EnvironmentEdgeManager.currentTime();
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pushTailToSnapshot();
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}
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return new MemStoreSnapshot(snapshotId, getSnapshot());
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return new MemStoreSnapshot(snapshotId, this.snapshot);
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}
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/**
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* On flush, how much memory we will clear.
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* @return size of data that is going to be flushed
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*/
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@Override public long getFlushableSize() {
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long snapshotSize = getSnapshot().getSize();
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if(snapshotSize == 0) {
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//if snapshot is empty the tail of the pipeline is flushed
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@Override
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public long getFlushableSize() {
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long snapshotSize = getSnapshotSize();
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if (snapshotSize == 0) {
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// if snapshot is empty the tail of the pipeline is flushed
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snapshotSize = pipeline.getTailSize();
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}
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return snapshotSize > 0 ? snapshotSize : keySize();
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@ -186,7 +177,7 @@ public class CompactingMemStore extends AbstractMemStore {
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long minSequenceId = pipeline.getMinSequenceId();
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if(minSequenceId != Long.MAX_VALUE) {
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byte[] encodedRegionName = getRegionServices().getRegionInfo().getEncodedNameAsBytes();
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byte[] familyName = getFamilyNameInByte();
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byte[] familyName = getFamilyNameInBytes();
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WAL WAL = getRegionServices().getWAL();
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if (WAL != null) {
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WAL.updateStore(encodedRegionName, familyName, minSequenceId, onlyIfGreater);
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@ -197,10 +188,10 @@ public class CompactingMemStore extends AbstractMemStore {
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@Override
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public List<Segment> getSegments() {
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List<Segment> pipelineList = pipeline.getSegments();
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List<Segment> list = new LinkedList<Segment>();
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list.add(getActive());
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List<Segment> list = new ArrayList<Segment>(pipelineList.size() + 2);
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list.add(this.active);
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list.addAll(pipelineList);
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list.add(getSnapshot());
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list.add(this.snapshot);
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return list;
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}
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@ -235,7 +226,7 @@ public class CompactingMemStore extends AbstractMemStore {
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}
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public String getFamilyName() {
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return Bytes.toString(getFamilyNameInByte());
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return Bytes.toString(getFamilyNameInBytes());
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}
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@Override
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@ -248,12 +239,12 @@ public class CompactingMemStore extends AbstractMemStore {
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// The list of elements in pipeline + the active element + the snapshot segment
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// TODO : This will change when the snapshot is made of more than one element
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List<KeyValueScanner> list = new ArrayList<KeyValueScanner>(pipelineList.size() + 2);
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list.add(getActive().getScanner(readPt, order + 1));
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list.add(this.active.getScanner(readPt, order + 1));
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for (Segment item : pipelineList) {
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list.add(item.getScanner(readPt, order));
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order--;
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}
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list.add(getSnapshot().getScanner(readPt, order));
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list.add(this.snapshot.getScanner(readPt, order));
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return Collections.<KeyValueScanner> singletonList(new MemStoreScanner(getComparator(), list));
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}
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@ -291,11 +282,10 @@ public class CompactingMemStore extends AbstractMemStore {
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// Phase I: Update the pipeline
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getRegionServices().blockUpdates();
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try {
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MutableSegment active = getActive();
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if (LOG.isDebugEnabled()) {
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LOG.debug("IN-MEMORY FLUSH: Pushing active segment into compaction pipeline");
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}
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pushActiveToPipeline(active);
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pushActiveToPipeline(this.active);
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} finally {
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getRegionServices().unblockUpdates();
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}
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@ -319,7 +309,7 @@ public class CompactingMemStore extends AbstractMemStore {
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}
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}
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private byte[] getFamilyNameInByte() {
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private byte[] getFamilyNameInBytes() {
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return store.getFamily().getName();
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}
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@ -328,7 +318,7 @@ public class CompactingMemStore extends AbstractMemStore {
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}
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private boolean shouldFlushInMemory() {
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if(getActive().getSize() > inmemoryFlushSize) { // size above flush threshold
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if (this.active.size() > inmemoryFlushSize) { // size above flush threshold
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// the inMemoryFlushInProgress is CASed to be true here in order to mutual exclude
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// the insert of the active into the compaction pipeline
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return (inMemoryFlushInProgress.compareAndSet(false,true));
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@ -350,8 +340,6 @@ public class CompactingMemStore extends AbstractMemStore {
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private void pushActiveToPipeline(MutableSegment active) {
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if (!active.isEmpty()) {
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long delta = DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM - DEEP_OVERHEAD;
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active.incSize(delta);
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pipeline.pushHead(active);
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resetActive();
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}
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@ -360,9 +348,7 @@ public class CompactingMemStore extends AbstractMemStore {
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private void pushTailToSnapshot() {
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ImmutableSegment tail = pipeline.pullTail();
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if (!tail.isEmpty()) {
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setSnapshot(tail);
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long size = getSegmentSize(tail);
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setSnapshotSize(size);
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this.snapshot = tail;
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}
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}
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@ -428,7 +414,7 @@ public class CompactingMemStore extends AbstractMemStore {
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// debug method
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public void debug() {
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String msg = "active size="+getActive().getSize();
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String msg = "active size=" + this.active.size();
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msg += " threshold="+IN_MEMORY_FLUSH_THRESHOLD_FACTOR_DEFAULT* inmemoryFlushSize;
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msg += " allow compaction is "+ (allowCompaction.get() ? "true" : "false");
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msg += " inMemoryFlushInProgress is "+ (inMemoryFlushInProgress.get() ? "true" : "false");
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@ -24,7 +24,10 @@ import java.util.List;
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import org.apache.commons.logging.Log;
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import org.apache.commons.logging.LogFactory;
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import org.apache.hadoop.hbase.CellComparator;
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import org.apache.hadoop.hbase.classification.InterfaceAudience;
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import org.apache.hadoop.hbase.util.Bytes;
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import org.apache.hadoop.hbase.util.ClassSize;
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/**
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* The compaction pipeline of a {@link CompactingMemStore}, is a FIFO queue of segments.
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@ -39,13 +42,17 @@ import org.apache.hadoop.hbase.classification.InterfaceAudience;
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public class CompactionPipeline {
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private static final Log LOG = LogFactory.getLog(CompactionPipeline.class);
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public final static long FIXED_OVERHEAD = ClassSize
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.align(ClassSize.OBJECT + (2 * ClassSize.REFERENCE) + Bytes.SIZEOF_LONG);
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public final static long DEEP_OVERHEAD = FIXED_OVERHEAD + ClassSize.LINKEDLIST;
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public final static long ENTRY_OVERHEAD = ClassSize.LINKEDLIST_ENTRY;
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private final RegionServicesForStores region;
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private LinkedList<ImmutableSegment> pipeline;
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private long version;
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private static final ImmutableSegment EMPTY_MEM_STORE_SEGMENT = SegmentFactory.instance()
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.createImmutableSegment(null,
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CompactingMemStore.DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM);
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.createImmutableSegment((CellComparator) null);
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public CompactionPipeline(RegionServicesForStores region) {
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this.region = region;
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@ -105,8 +112,8 @@ public class CompactionPipeline {
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}
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if (region != null) {
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// update the global memstore size counter
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long suffixSize = CompactingMemStore.getSegmentsSize(suffix);
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long newSize = CompactingMemStore.getSegmentSize(segment);
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long suffixSize = getSegmentsKeySize(suffix);
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long newSize = segment.keySize();
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long delta = suffixSize - newSize;
|
||||
long globalMemstoreSize = region.addAndGetGlobalMemstoreSize(-delta);
|
||||
if (LOG.isDebugEnabled()) {
|
||||
|
@ -117,6 +124,14 @@ public class CompactionPipeline {
|
|||
return true;
|
||||
}
|
||||
|
||||
private static long getSegmentsKeySize(List<? extends Segment> list) {
|
||||
long res = 0;
|
||||
for (Segment segment : list) {
|
||||
res += segment.keySize();
|
||||
}
|
||||
return res;
|
||||
}
|
||||
|
||||
/**
|
||||
* If the caller holds the current version, go over the the pipeline and try to flatten each
|
||||
* segment. Flattening is replacing the ConcurrentSkipListMap based CellSet to CellArrayMap based.
|
||||
|
@ -178,20 +193,20 @@ public class CompactionPipeline {
|
|||
|
||||
public long getMinSequenceId() {
|
||||
long minSequenceId = Long.MAX_VALUE;
|
||||
if(!isEmpty()) {
|
||||
if (!isEmpty()) {
|
||||
minSequenceId = pipeline.getLast().getMinSequenceId();
|
||||
}
|
||||
return minSequenceId;
|
||||
}
|
||||
|
||||
public long getTailSize() {
|
||||
if(isEmpty()) return 0;
|
||||
return CompactingMemStore.getSegmentSize(pipeline.peekLast());
|
||||
if (isEmpty()) return 0;
|
||||
return pipeline.peekLast().keySize();
|
||||
}
|
||||
|
||||
private void swapSuffix(LinkedList<ImmutableSegment> suffix, ImmutableSegment segment) {
|
||||
version++;
|
||||
for(Segment itemInSuffix : suffix) {
|
||||
for (Segment itemInSuffix : suffix) {
|
||||
itemInSuffix.close();
|
||||
}
|
||||
pipeline.removeAll(suffix);
|
||||
|
|
|
@ -83,20 +83,19 @@ public class DefaultMemStore extends AbstractMemStore {
|
|||
public MemStoreSnapshot snapshot() {
|
||||
// If snapshot currently has entries, then flusher failed or didn't call
|
||||
// cleanup. Log a warning.
|
||||
if (!getSnapshot().isEmpty()) {
|
||||
if (!this.snapshot.isEmpty()) {
|
||||
LOG.warn("Snapshot called again without clearing previous. " +
|
||||
"Doing nothing. Another ongoing flush or did we fail last attempt?");
|
||||
} else {
|
||||
this.snapshotId = EnvironmentEdgeManager.currentTime();
|
||||
if (!getActive().isEmpty()) {
|
||||
if (!this.active.isEmpty()) {
|
||||
ImmutableSegment immutableSegment = SegmentFactory.instance().
|
||||
createImmutableSegment(getActive());
|
||||
setSnapshot(immutableSegment);
|
||||
setSnapshotSize(keySize());
|
||||
createImmutableSegment(this.active);
|
||||
this.snapshot = immutableSegment;
|
||||
resetActive();
|
||||
}
|
||||
}
|
||||
return new MemStoreSnapshot(this.snapshotId, getSnapshot());
|
||||
return new MemStoreSnapshot(this.snapshotId, this.snapshot);
|
||||
}
|
||||
|
||||
/**
|
||||
|
@ -106,7 +105,7 @@ public class DefaultMemStore extends AbstractMemStore {
|
|||
*/
|
||||
@Override
|
||||
public long getFlushableSize() {
|
||||
long snapshotSize = getSnapshot().getSize();
|
||||
long snapshotSize = getSnapshotSize();
|
||||
return snapshotSize > 0 ? snapshotSize : keySize();
|
||||
}
|
||||
|
||||
|
@ -116,8 +115,8 @@ public class DefaultMemStore extends AbstractMemStore {
|
|||
*/
|
||||
public List<KeyValueScanner> getScanners(long readPt) throws IOException {
|
||||
List<KeyValueScanner> list = new ArrayList<KeyValueScanner>(2);
|
||||
list.add(getActive().getScanner(readPt, 1));
|
||||
list.add(getSnapshot().getScanner(readPt, 0));
|
||||
list.add(this.active.getScanner(readPt, 1));
|
||||
list.add(this.snapshot.getScanner(readPt, 0));
|
||||
return Collections.<KeyValueScanner> singletonList(
|
||||
new MemStoreScanner(getComparator(), list));
|
||||
}
|
||||
|
@ -125,8 +124,8 @@ public class DefaultMemStore extends AbstractMemStore {
|
|||
@Override
|
||||
protected List<Segment> getSegments() throws IOException {
|
||||
List<Segment> list = new ArrayList<Segment>(2);
|
||||
list.add(getActive());
|
||||
list.add(getSnapshot());
|
||||
list.add(this.active);
|
||||
list.add(this.snapshot);
|
||||
return list;
|
||||
}
|
||||
|
||||
|
@ -137,19 +136,16 @@ public class DefaultMemStore extends AbstractMemStore {
|
|||
*/
|
||||
Cell getNextRow(final Cell cell) {
|
||||
return getLowest(
|
||||
getNextRow(cell, getActive().getCellSet()),
|
||||
getNextRow(cell, getSnapshot().getCellSet()));
|
||||
getNextRow(cell, this.active.getCellSet()),
|
||||
getNextRow(cell, this.snapshot.getCellSet()));
|
||||
}
|
||||
|
||||
@Override public void updateLowestUnflushedSequenceIdInWAL(boolean onlyIfMoreRecent) {
|
||||
}
|
||||
|
||||
/**
|
||||
* @return Total memory occupied by this MemStore.
|
||||
*/
|
||||
@Override
|
||||
public long size() {
|
||||
return heapSize();
|
||||
return this.active.size() + DEEP_OVERHEAD;
|
||||
}
|
||||
|
||||
/**
|
||||
|
|
|
@ -21,6 +21,7 @@ package org.apache.hadoop.hbase.regionserver;
|
|||
|
||||
import org.apache.hadoop.hbase.Cell;
|
||||
import org.apache.hadoop.hbase.CellComparator;
|
||||
import org.apache.hadoop.hbase.CellUtil;
|
||||
import org.apache.hadoop.hbase.classification.InterfaceAudience;
|
||||
import org.apache.hadoop.hbase.util.ClassSize;
|
||||
import org.apache.hadoop.hbase.client.Scan;
|
||||
|
@ -37,11 +38,12 @@ import java.io.IOException;
|
|||
*/
|
||||
@InterfaceAudience.Private
|
||||
public class ImmutableSegment extends Segment {
|
||||
/**
|
||||
* This is an immutable segment so use the read-only TimeRange rather than the heavy-weight
|
||||
* TimeRangeTracker with all its synchronization when doing time range stuff.
|
||||
*/
|
||||
private final TimeRange timeRange;
|
||||
|
||||
private static final long DEEP_OVERHEAD = Segment.DEEP_OVERHEAD
|
||||
+ (2 * ClassSize.REFERENCE) // Refs to timeRange and type
|
||||
+ ClassSize.TIMERANGE;
|
||||
public static final long DEEP_OVERHEAD_CSLM = DEEP_OVERHEAD + ClassSize.CONCURRENT_SKIPLISTMAP;
|
||||
public static final long DEEP_OVERHEAD_CAM = DEEP_OVERHEAD + ClassSize.CELL_ARRAY_MAP;
|
||||
|
||||
/**
|
||||
* Types of ImmutableSegment
|
||||
|
@ -51,6 +53,12 @@ public class ImmutableSegment extends Segment {
|
|||
ARRAY_MAP_BASED,
|
||||
}
|
||||
|
||||
/**
|
||||
* This is an immutable segment so use the read-only TimeRange rather than the heavy-weight
|
||||
* TimeRangeTracker with all its synchronization when doing time range stuff.
|
||||
*/
|
||||
private final TimeRange timeRange;
|
||||
|
||||
private Type type = Type.SKIPLIST_MAP_BASED;
|
||||
|
||||
// whether it is based on CellFlatMap or ConcurrentSkipListMap
|
||||
|
@ -66,9 +74,8 @@ public class ImmutableSegment extends Segment {
|
|||
*/
|
||||
protected ImmutableSegment(Segment segment) {
|
||||
super(segment);
|
||||
type = Type.SKIPLIST_MAP_BASED;
|
||||
TimeRangeTracker trt = getTimeRangeTracker();
|
||||
this.timeRange = trt == null? null: trt.toTimeRange();
|
||||
this.type = Type.SKIPLIST_MAP_BASED;
|
||||
this.timeRange = this.timeRangeTracker == null ? null : this.timeRangeTracker.toTimeRange();
|
||||
}
|
||||
|
||||
/**------------------------------------------------------------------------
|
||||
|
@ -80,20 +87,14 @@ public class ImmutableSegment extends Segment {
|
|||
*/
|
||||
protected ImmutableSegment(CellComparator comparator, MemStoreCompactorIterator iterator,
|
||||
MemStoreLAB memStoreLAB, int numOfCells, Type type) {
|
||||
|
||||
super(null, // initiailize the CellSet with NULL
|
||||
comparator, memStoreLAB,
|
||||
// initial size of segment metadata (the data per cell is added in createCellArrayMapSet)
|
||||
CompactingMemStore.DEEP_OVERHEAD_PER_PIPELINE_CELL_ARRAY_ITEM,
|
||||
ClassSize.CELL_ARRAY_MAP_ENTRY);
|
||||
|
||||
comparator, memStoreLAB);
|
||||
this.type = type;
|
||||
// build the true CellSet based on CellArrayMap
|
||||
CellSet cs = createCellArrayMapSet(numOfCells, iterator);
|
||||
|
||||
this.setCellSet(null, cs); // update the CellSet of the new Segment
|
||||
this.type = type;
|
||||
TimeRangeTracker trt = getTimeRangeTracker();
|
||||
this.timeRange = trt == null? null: trt.toTimeRange();
|
||||
this.timeRange = this.timeRangeTracker == null ? null : this.timeRangeTracker.toTimeRange();
|
||||
}
|
||||
|
||||
/**------------------------------------------------------------------------
|
||||
|
@ -101,15 +102,11 @@ public class ImmutableSegment extends Segment {
|
|||
* list of older ImmutableSegments.
|
||||
* The given iterator returns the Cells that "survived" the compaction.
|
||||
*/
|
||||
protected ImmutableSegment(
|
||||
CellComparator comparator, MemStoreCompactorIterator iterator, MemStoreLAB memStoreLAB) {
|
||||
|
||||
protected ImmutableSegment(CellComparator comparator, MemStoreCompactorIterator iterator,
|
||||
MemStoreLAB memStoreLAB) {
|
||||
super(new CellSet(comparator), // initiailize the CellSet with empty CellSet
|
||||
comparator, memStoreLAB,
|
||||
// initial size of segment metadata (the data per cell is added in internalAdd)
|
||||
CompactingMemStore.DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM,
|
||||
ClassSize.CONCURRENT_SKIPLISTMAP_ENTRY);
|
||||
|
||||
comparator, memStoreLAB);
|
||||
type = Type.SKIPLIST_MAP_BASED;
|
||||
while (iterator.hasNext()) {
|
||||
Cell c = iterator.next();
|
||||
// The scanner is doing all the elimination logic
|
||||
|
@ -118,9 +115,7 @@ public class ImmutableSegment extends Segment {
|
|||
boolean usedMSLAB = (newKV != c);
|
||||
internalAdd(newKV, usedMSLAB); //
|
||||
}
|
||||
type = Type.SKIPLIST_MAP_BASED;
|
||||
TimeRangeTracker trt = getTimeRangeTracker();
|
||||
this.timeRange = trt == null? null: trt.toTimeRange();
|
||||
this.timeRange = this.timeRangeTracker == null ? null : this.timeRangeTracker.toTimeRange();
|
||||
}
|
||||
|
||||
///////////////////// PUBLIC METHODS /////////////////////
|
||||
|
@ -144,14 +139,16 @@ public class ImmutableSegment extends Segment {
|
|||
return this.timeRange.getMin();
|
||||
}
|
||||
|
||||
|
||||
@Override
|
||||
public long keySize() {
|
||||
switch (type){
|
||||
public long size() {
|
||||
switch (this.type) {
|
||||
case SKIPLIST_MAP_BASED:
|
||||
return size.get() - CompactingMemStore.DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM;
|
||||
return keySize() + DEEP_OVERHEAD_CSLM;
|
||||
case ARRAY_MAP_BASED:
|
||||
return size.get() - CompactingMemStore.DEEP_OVERHEAD_PER_PIPELINE_CELL_ARRAY_ITEM;
|
||||
default: throw new IllegalStateException();
|
||||
return keySize() + DEEP_OVERHEAD_CAM;
|
||||
default:
|
||||
throw new RuntimeException("Unknown type " + type);
|
||||
}
|
||||
}
|
||||
|
||||
|
@ -171,9 +168,6 @@ public class ImmutableSegment extends Segment {
|
|||
CellSet oldCellSet = getCellSet();
|
||||
int numOfCells = getCellsCount();
|
||||
|
||||
// each Cell is now represented in CellArrayMap
|
||||
constantCellMetaDataSize = ClassSize.CELL_ARRAY_MAP_ENTRY;
|
||||
|
||||
// build the new (CellSet CellArrayMap based)
|
||||
CellSet newCellSet = recreateCellArrayMapSet(numOfCells);
|
||||
type = Type.ARRAY_MAP_BASED;
|
||||
|
@ -214,6 +208,19 @@ public class ImmutableSegment extends Segment {
|
|||
return new CellSet(cam);
|
||||
}
|
||||
|
||||
protected long heapSizeChange(Cell cell, boolean succ) {
|
||||
if (succ) {
|
||||
switch (this.type) {
|
||||
case SKIPLIST_MAP_BASED:
|
||||
return ClassSize
|
||||
.align(ClassSize.CONCURRENT_SKIPLISTMAP_ENTRY + CellUtil.estimatedHeapSizeOf(cell));
|
||||
case ARRAY_MAP_BASED:
|
||||
return ClassSize.align(ClassSize.CELL_ARRAY_MAP_ENTRY + CellUtil.estimatedHeapSizeOf(cell));
|
||||
}
|
||||
}
|
||||
return 0;
|
||||
}
|
||||
|
||||
/*------------------------------------------------------------------------*/
|
||||
// Create CellSet based on CellArrayMap from current ConcurrentSkipListMap based CellSet
|
||||
// (without compacting iterator)
|
||||
|
@ -239,5 +246,4 @@ public class ImmutableSegment extends Segment {
|
|||
CellArrayMap cam = new CellArrayMap(getComparator(), cells, 0, idx, false);
|
||||
return new CellSet(cam);
|
||||
}
|
||||
|
||||
}
|
||||
|
|
|
@ -126,7 +126,11 @@ public interface MemStore extends HeapSize {
|
|||
List<KeyValueScanner> getScanners(long readPt) throws IOException;
|
||||
|
||||
/**
|
||||
* @return Total memory occupied by this MemStore.
|
||||
* @return Total memory occupied by this MemStore. This includes active segment size and heap size
|
||||
* overhead of this memstore but won't include any size occupied by the snapshot. We
|
||||
* assume the snapshot will get cleared soon. This is not thread safe and the memstore may
|
||||
* be changed while computing its size. It is the responsibility of the caller to make
|
||||
* sure this doesn't happen.
|
||||
*/
|
||||
long size();
|
||||
|
||||
|
|
|
@ -22,6 +22,8 @@ import org.apache.commons.logging.Log;
|
|||
import org.apache.commons.logging.LogFactory;
|
||||
import org.apache.hadoop.hbase.HConstants;
|
||||
import org.apache.hadoop.hbase.classification.InterfaceAudience;
|
||||
import org.apache.hadoop.hbase.util.Bytes;
|
||||
import org.apache.hadoop.hbase.util.ClassSize;
|
||||
|
||||
import java.io.IOException;
|
||||
import java.util.concurrent.atomic.AtomicBoolean;
|
||||
|
@ -38,7 +40,11 @@ import java.util.concurrent.atomic.AtomicBoolean;
|
|||
* therefore no special synchronization is required.
|
||||
*/
|
||||
@InterfaceAudience.Private
|
||||
class MemStoreCompactor {
|
||||
public class MemStoreCompactor {
|
||||
|
||||
public static final long DEEP_OVERHEAD = ClassSize
|
||||
.align(ClassSize.OBJECT + 4 * ClassSize.REFERENCE + 2 * Bytes.SIZEOF_INT + Bytes.SIZEOF_DOUBLE
|
||||
+ ClassSize.ATOMIC_BOOLEAN);
|
||||
|
||||
// Option for external guidance whether flattening is allowed
|
||||
static final String MEMSTORE_COMPACTOR_FLATTENING = "hbase.hregion.compacting.memstore.flatten";
|
||||
|
@ -59,6 +65,15 @@ class MemStoreCompactor {
|
|||
static final boolean MEMSTORE_COMPACTOR_AVOID_SPECULATIVE_SCAN_DEFAULT = false;
|
||||
|
||||
private static final Log LOG = LogFactory.getLog(MemStoreCompactor.class);
|
||||
|
||||
/**
|
||||
* Types of Compaction
|
||||
*/
|
||||
private enum Type {
|
||||
COMPACT_TO_SKIPLIST_MAP,
|
||||
COMPACT_TO_ARRAY_MAP
|
||||
}
|
||||
|
||||
private CompactingMemStore compactingMemStore;
|
||||
|
||||
// a static version of the segment list from the pipeline
|
||||
|
@ -73,13 +88,6 @@ class MemStoreCompactor {
|
|||
double fraction = 0.8;
|
||||
|
||||
int immutCellsNum = 0; // number of immutable for compaction cells
|
||||
/**
|
||||
* Types of Compaction
|
||||
*/
|
||||
private enum Type {
|
||||
COMPACT_TO_SKIPLIST_MAP,
|
||||
COMPACT_TO_ARRAY_MAP
|
||||
}
|
||||
|
||||
private Type type = Type.COMPACT_TO_ARRAY_MAP;
|
||||
|
||||
|
|
|
@ -36,7 +36,7 @@ public class MemStoreSnapshot {
|
|||
public MemStoreSnapshot(long id, ImmutableSegment snapshot) {
|
||||
this.id = id;
|
||||
this.cellsCount = snapshot.getCellsCount();
|
||||
this.size = snapshot.getSize();
|
||||
this.size = snapshot.keySize();
|
||||
this.timeRangeTracker = snapshot.getTimeRangeTracker();
|
||||
this.scanner = snapshot.getKeyValueScanner();
|
||||
this.tagsPresent = snapshot.isTagsPresent();
|
||||
|
|
|
@ -21,17 +21,21 @@ package org.apache.hadoop.hbase.regionserver;
|
|||
import org.apache.hadoop.hbase.Cell;
|
||||
import org.apache.hadoop.hbase.CellComparator;
|
||||
import org.apache.hadoop.hbase.classification.InterfaceAudience;
|
||||
import org.apache.hadoop.hbase.util.ClassSize;
|
||||
import org.apache.hadoop.hbase.client.Scan;
|
||||
import org.apache.hadoop.hbase.util.ClassSize;
|
||||
|
||||
import com.google.common.annotations.VisibleForTesting;
|
||||
|
||||
/**
|
||||
* A mutable segment in memstore, specifically the active segment.
|
||||
*/
|
||||
@InterfaceAudience.Private
|
||||
public class MutableSegment extends Segment {
|
||||
protected MutableSegment(CellSet cellSet, CellComparator comparator, MemStoreLAB memStoreLAB,
|
||||
long size) {
|
||||
super(cellSet, comparator, memStoreLAB, size, ClassSize.CONCURRENT_SKIPLISTMAP_ENTRY);
|
||||
|
||||
public final static long DEEP_OVERHEAD = Segment.DEEP_OVERHEAD + ClassSize.CONCURRENT_SKIPLISTMAP;
|
||||
|
||||
protected MutableSegment(CellSet cellSet, CellComparator comparator, MemStoreLAB memStoreLAB) {
|
||||
super(cellSet, comparator, memStoreLAB);
|
||||
}
|
||||
|
||||
/**
|
||||
|
@ -44,29 +48,28 @@ public class MutableSegment extends Segment {
|
|||
return internalAdd(cell, mslabUsed);
|
||||
}
|
||||
|
||||
//methods for test
|
||||
|
||||
/**
|
||||
* Returns the first cell in the segment
|
||||
* @return the first cell in the segment
|
||||
*/
|
||||
@VisibleForTesting
|
||||
Cell first() {
|
||||
return this.getCellSet().first();
|
||||
}
|
||||
|
||||
@Override
|
||||
public boolean shouldSeek(Scan scan, long oldestUnexpiredTS) {
|
||||
return (getTimeRangeTracker().includesTimeRange(scan.getTimeRange())
|
||||
&& (getTimeRangeTracker().getMax() >= oldestUnexpiredTS));
|
||||
return (this.timeRangeTracker.includesTimeRange(scan.getTimeRange())
|
||||
&& (this.timeRangeTracker.getMax() >= oldestUnexpiredTS));
|
||||
}
|
||||
|
||||
@Override
|
||||
public long getMinTimestamp() {
|
||||
return getTimeRangeTracker().getMin();
|
||||
return this.timeRangeTracker.getMin();
|
||||
}
|
||||
|
||||
@Override
|
||||
public long keySize() {
|
||||
return size.get() - CompactingMemStore.DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM;
|
||||
public long size() {
|
||||
return keySize() + DEEP_OVERHEAD;
|
||||
}
|
||||
}
|
||||
|
|
|
@ -24,7 +24,6 @@ import java.util.concurrent.atomic.AtomicLong;
|
|||
import java.util.concurrent.atomic.AtomicReference;
|
||||
|
||||
import org.apache.commons.logging.Log;
|
||||
import org.apache.commons.logging.LogFactory;
|
||||
import org.apache.hadoop.hbase.Cell;
|
||||
import org.apache.hadoop.hbase.CellComparator;
|
||||
import org.apache.hadoop.hbase.CellUtil;
|
||||
|
@ -33,6 +32,7 @@ import org.apache.hadoop.hbase.KeyValueUtil;
|
|||
import org.apache.hadoop.hbase.classification.InterfaceAudience;
|
||||
import org.apache.hadoop.hbase.client.Scan;
|
||||
import org.apache.hadoop.hbase.util.ByteRange;
|
||||
import org.apache.hadoop.hbase.util.Bytes;
|
||||
import org.apache.hadoop.hbase.util.ClassSize;
|
||||
|
||||
import com.google.common.annotations.VisibleForTesting;
|
||||
|
@ -47,28 +47,31 @@ import com.google.common.annotations.VisibleForTesting;
|
|||
@InterfaceAudience.Private
|
||||
public abstract class Segment {
|
||||
|
||||
private static final Log LOG = LogFactory.getLog(Segment.class);
|
||||
final static long FIXED_OVERHEAD = ClassSize.align(ClassSize.OBJECT
|
||||
+ 5 * ClassSize.REFERENCE // cellSet, comparator, memStoreLAB, size, timeRangeTracker
|
||||
+ Bytes.SIZEOF_LONG // minSequenceId
|
||||
+ Bytes.SIZEOF_BOOLEAN); // tagsPresent
|
||||
public final static long DEEP_OVERHEAD = FIXED_OVERHEAD + ClassSize.ATOMIC_REFERENCE
|
||||
+ ClassSize.CELL_SET + ClassSize.ATOMIC_LONG + ClassSize.TIMERANGE_TRACKER;
|
||||
|
||||
private AtomicReference<CellSet> cellSet= new AtomicReference<CellSet>();
|
||||
private final CellComparator comparator;
|
||||
private long minSequenceId;
|
||||
private volatile MemStoreLAB memStoreLAB;
|
||||
/* The size includes everything allocated for this segment,
|
||||
* use keySize() to get only size of the cells */
|
||||
private MemStoreLAB memStoreLAB;
|
||||
// Sum of sizes of all Cells added to this Segment. Cell's heapSize is considered. This is not
|
||||
// including the heap overhead of this class.
|
||||
protected final AtomicLong size;
|
||||
protected final TimeRangeTracker timeRangeTracker;
|
||||
protected volatile boolean tagsPresent;
|
||||
private final TimeRangeTracker timeRangeTracker;
|
||||
protected long constantCellMetaDataSize;
|
||||
|
||||
protected Segment(
|
||||
CellSet cellSet, CellComparator comparator, MemStoreLAB memStoreLAB, long size,
|
||||
long constantCellSize) {
|
||||
// This constructor is used to create empty Segments.
|
||||
protected Segment(CellSet cellSet, CellComparator comparator, MemStoreLAB memStoreLAB) {
|
||||
this.cellSet.set(cellSet);
|
||||
this.comparator = comparator;
|
||||
this.minSequenceId = Long.MAX_VALUE;
|
||||
this.memStoreLAB = memStoreLAB;
|
||||
this.size = new AtomicLong(size);
|
||||
this.size = new AtomicLong(0);
|
||||
this.tagsPresent = false;
|
||||
this.constantCellMetaDataSize = constantCellSize;
|
||||
this.timeRangeTracker = new TimeRangeTracker();
|
||||
}
|
||||
|
||||
|
@ -77,9 +80,8 @@ public abstract class Segment {
|
|||
this.comparator = segment.getComparator();
|
||||
this.minSequenceId = segment.getMinSequenceId();
|
||||
this.memStoreLAB = segment.getMemStoreLAB();
|
||||
this.size = new AtomicLong(segment.getSize());
|
||||
this.size = new AtomicLong(segment.keySize());
|
||||
this.tagsPresent = segment.isTagsPresent();
|
||||
this.constantCellMetaDataSize = segment.getConstantCellMetaDataSize();
|
||||
this.timeRangeTracker = segment.getTimeRangeTracker();
|
||||
}
|
||||
|
||||
|
@ -100,7 +102,6 @@ public abstract class Segment {
|
|||
}
|
||||
|
||||
/**
|
||||
* Returns whether the segment has any cells
|
||||
* @return whether the segment has any cells
|
||||
*/
|
||||
public boolean isEmpty() {
|
||||
|
@ -108,7 +109,6 @@ public abstract class Segment {
|
|||
}
|
||||
|
||||
/**
|
||||
* Returns number of cells in segment
|
||||
* @return number of cells in segment
|
||||
*/
|
||||
public int getCellsCount() {
|
||||
|
@ -116,7 +116,6 @@ public abstract class Segment {
|
|||
}
|
||||
|
||||
/**
|
||||
* Returns the first cell in the segment that has equal or greater key than the given cell
|
||||
* @return the first cell in the segment that has equal or greater key than the given cell
|
||||
*/
|
||||
public Cell getFirstAfter(Cell cell) {
|
||||
|
@ -131,9 +130,8 @@ public abstract class Segment {
|
|||
* Closing a segment before it is being discarded
|
||||
*/
|
||||
public void close() {
|
||||
MemStoreLAB mslab = getMemStoreLAB();
|
||||
if(mslab != null) {
|
||||
mslab.close();
|
||||
if (this.memStoreLAB != null) {
|
||||
this.memStoreLAB.close();
|
||||
}
|
||||
// do not set MSLab to null as scanners may still be reading the data here and need to decrease
|
||||
// the counter when they finish
|
||||
|
@ -145,12 +143,12 @@ public abstract class Segment {
|
|||
* @return either the given cell or its clone
|
||||
*/
|
||||
public Cell maybeCloneWithAllocator(Cell cell) {
|
||||
if (getMemStoreLAB() == null) {
|
||||
if (this.memStoreLAB == null) {
|
||||
return cell;
|
||||
}
|
||||
|
||||
int len = getCellLength(cell);
|
||||
ByteRange alloc = getMemStoreLAB().allocateBytes(len);
|
||||
ByteRange alloc = this.memStoreLAB.allocateBytes(len);
|
||||
if (alloc == null) {
|
||||
// The allocation was too large, allocator decided
|
||||
// not to do anything with it.
|
||||
|
@ -180,27 +178,17 @@ public abstract class Segment {
|
|||
}
|
||||
|
||||
public void incScannerCount() {
|
||||
if(getMemStoreLAB() != null) {
|
||||
getMemStoreLAB().incScannerCount();
|
||||
if (this.memStoreLAB != null) {
|
||||
this.memStoreLAB.incScannerCount();
|
||||
}
|
||||
}
|
||||
|
||||
public void decScannerCount() {
|
||||
if(getMemStoreLAB() != null) {
|
||||
getMemStoreLAB().decScannerCount();
|
||||
if (this.memStoreLAB != null) {
|
||||
this.memStoreLAB.decScannerCount();
|
||||
}
|
||||
}
|
||||
|
||||
/**
|
||||
* Setting the heap size of the segment - used to account for different class overheads
|
||||
* @return this object
|
||||
*/
|
||||
|
||||
public Segment setSize(long size) {
|
||||
this.size.set(size);
|
||||
return this;
|
||||
}
|
||||
|
||||
/**
|
||||
* Setting the CellSet of the segment - used only for flat immutable segment for setting
|
||||
* immutable CellSet after its creation in immutable segment constructor
|
||||
|
@ -212,22 +200,23 @@ public abstract class Segment {
|
|||
return this;
|
||||
}
|
||||
|
||||
/* return only cell's heap size */
|
||||
public abstract long keySize();
|
||||
/**
|
||||
* @return Sum of all cell's size.
|
||||
*/
|
||||
public long keySize() {
|
||||
return this.size.get();
|
||||
}
|
||||
|
||||
/**
|
||||
* Returns the heap size of the segment
|
||||
* @return the heap size of the segment
|
||||
*/
|
||||
public long getSize() {
|
||||
return size.get();
|
||||
}
|
||||
public abstract long size();
|
||||
|
||||
/**
|
||||
* Updates the heap size counter of the segment by the given delta
|
||||
*/
|
||||
public void incSize(long delta) {
|
||||
size.addAndGet(delta);
|
||||
this.size.addAndGet(delta);
|
||||
}
|
||||
|
||||
public long getMinSequenceId() {
|
||||
|
@ -260,7 +249,6 @@ public abstract class Segment {
|
|||
}
|
||||
|
||||
/**
|
||||
* Returns a set of all cells in the segment
|
||||
* @return a set of all cells in the segment
|
||||
*/
|
||||
protected CellSet getCellSet() {
|
||||
|
@ -302,6 +290,11 @@ public abstract class Segment {
|
|||
return s;
|
||||
}
|
||||
|
||||
protected long heapSizeChange(Cell cell, boolean succ) {
|
||||
return succ ? ClassSize
|
||||
.align(ClassSize.CONCURRENT_SKIPLISTMAP_ENTRY + CellUtil.estimatedHeapSizeOf(cell)) : 0;
|
||||
}
|
||||
|
||||
/**
|
||||
* Returns a subset of the segment cell set, which starts with the given cell
|
||||
* @param firstCell a cell in the segment
|
||||
|
@ -312,7 +305,7 @@ public abstract class Segment {
|
|||
}
|
||||
|
||||
@VisibleForTesting
|
||||
public MemStoreLAB getMemStoreLAB() {
|
||||
MemStoreLAB getMemStoreLAB() {
|
||||
return memStoreLAB;
|
||||
}
|
||||
|
||||
|
@ -326,29 +319,13 @@ public abstract class Segment {
|
|||
}
|
||||
}
|
||||
|
||||
/*
|
||||
* Calculate how the MemStore size has changed. Includes overhead of the
|
||||
* backing Map.
|
||||
* @param cell
|
||||
* @param notPresent True if the cell was NOT present in the set.
|
||||
* @return change in size
|
||||
*/
|
||||
protected long heapSizeChange(final Cell cell, final boolean notPresent){
|
||||
return
|
||||
notPresent ?
|
||||
ClassSize.align(constantCellMetaDataSize + CellUtil.estimatedHeapSizeOf(cell)) : 0;
|
||||
}
|
||||
|
||||
public long getConstantCellMetaDataSize() {
|
||||
return this.constantCellMetaDataSize;
|
||||
}
|
||||
|
||||
@Override
|
||||
public String toString() {
|
||||
String res = "Store segment of type "+this.getClass().getName()+"; ";
|
||||
res += "isEmpty "+(isEmpty()?"yes":"no")+"; ";
|
||||
res += "cellCount "+getCellsCount()+"; ";
|
||||
res += "size "+getSize()+"; ";
|
||||
res += "cellsSize "+keySize()+"; ";
|
||||
res += "heapSize "+size()+"; ";
|
||||
res += "Min ts "+getMinTimestamp()+"; ";
|
||||
return res;
|
||||
}
|
||||
|
|
|
@ -39,6 +39,7 @@ public final class SegmentFactory {
|
|||
|
||||
private SegmentFactory() {}
|
||||
private static SegmentFactory instance = new SegmentFactory();
|
||||
|
||||
public static SegmentFactory instance() {
|
||||
return instance;
|
||||
}
|
||||
|
@ -46,47 +47,43 @@ public final class SegmentFactory {
|
|||
// create skip-list-based (non-flat) immutable segment from compacting old immutable segments
|
||||
public ImmutableSegment createImmutableSegment(final Configuration conf,
|
||||
final CellComparator comparator, MemStoreCompactorIterator iterator) {
|
||||
MemStoreLAB memStoreLAB = getMemStoreLAB(conf);
|
||||
return
|
||||
new ImmutableSegment(comparator, iterator, memStoreLAB);
|
||||
return new ImmutableSegment(comparator, iterator, getMemStoreLAB(conf));
|
||||
}
|
||||
|
||||
// create new flat immutable segment from compacting old immutable segment
|
||||
public ImmutableSegment createImmutableSegment(final Configuration conf,
|
||||
final CellComparator comparator, MemStoreCompactorIterator iterator, int numOfCells,
|
||||
ImmutableSegment.Type segmentType) throws IOException {
|
||||
Preconditions.checkArgument(segmentType != ImmutableSegment.Type.SKIPLIST_MAP_BASED,
|
||||
"wrong immutable segment type");
|
||||
return new ImmutableSegment(comparator, iterator, getMemStoreLAB(conf), numOfCells,
|
||||
segmentType);
|
||||
}
|
||||
|
||||
// create empty immutable segment
|
||||
public ImmutableSegment createImmutableSegment(CellComparator comparator, long size) {
|
||||
MutableSegment segment = generateMutableSegment(null, comparator, null, size);
|
||||
public ImmutableSegment createImmutableSegment(CellComparator comparator) {
|
||||
MutableSegment segment = generateMutableSegment(null, comparator, null);
|
||||
return createImmutableSegment(segment);
|
||||
}
|
||||
|
||||
// create immutable segment from mutable
|
||||
// create immutable segment from mutable segment
|
||||
public ImmutableSegment createImmutableSegment(MutableSegment segment) {
|
||||
return new ImmutableSegment(segment);
|
||||
}
|
||||
|
||||
// create mutable segment
|
||||
public MutableSegment createMutableSegment(final Configuration conf,
|
||||
CellComparator comparator, long size) {
|
||||
public MutableSegment createMutableSegment(final Configuration conf, CellComparator comparator) {
|
||||
MemStoreLAB memStoreLAB = getMemStoreLAB(conf);
|
||||
return generateMutableSegment(conf, comparator, memStoreLAB, size);
|
||||
}
|
||||
|
||||
// create new flat immutable segment from compacting old immutable segment
|
||||
public ImmutableSegment createImmutableSegment(final Configuration conf, final CellComparator comparator,
|
||||
MemStoreCompactorIterator iterator, int numOfCells, ImmutableSegment.Type segmentType)
|
||||
throws IOException {
|
||||
Preconditions.checkArgument(
|
||||
segmentType != ImmutableSegment.Type.SKIPLIST_MAP_BASED, "wrong immutable segment type");
|
||||
MemStoreLAB memStoreLAB = getMemStoreLAB(conf);
|
||||
return
|
||||
new ImmutableSegment(comparator, iterator, memStoreLAB, numOfCells, segmentType);
|
||||
return generateMutableSegment(conf, comparator, memStoreLAB);
|
||||
}
|
||||
|
||||
//****** private methods to instantiate concrete store segments **********//
|
||||
|
||||
private MutableSegment generateMutableSegment(
|
||||
final Configuration conf, CellComparator comparator, MemStoreLAB memStoreLAB, long size) {
|
||||
private MutableSegment generateMutableSegment(final Configuration conf, CellComparator comparator,
|
||||
MemStoreLAB memStoreLAB) {
|
||||
// TBD use configuration to set type of segment
|
||||
CellSet set = new CellSet(comparator);
|
||||
return new MutableSegment(set, comparator, memStoreLAB, size);
|
||||
return new MutableSegment(set, comparator, memStoreLAB);
|
||||
}
|
||||
|
||||
private MemStoreLAB getMemStoreLAB(Configuration conf) {
|
||||
|
|
|
@ -40,6 +40,7 @@ import java.lang.management.ManagementFactory;
|
|||
import java.lang.management.RuntimeMXBean;
|
||||
import java.nio.ByteBuffer;
|
||||
import java.util.ArrayList;
|
||||
import java.util.LinkedList;
|
||||
import java.util.Map;
|
||||
import java.util.TreeMap;
|
||||
import java.util.concurrent.ConcurrentHashMap;
|
||||
|
@ -49,6 +50,7 @@ import java.util.concurrent.CopyOnWriteArraySet;
|
|||
import java.util.concurrent.atomic.AtomicBoolean;
|
||||
import java.util.concurrent.atomic.AtomicInteger;
|
||||
import java.util.concurrent.atomic.AtomicLong;
|
||||
import java.util.concurrent.atomic.AtomicReference;
|
||||
import java.util.concurrent.locks.ReentrantReadWriteLock;
|
||||
|
||||
import static org.junit.Assert.assertEquals;
|
||||
|
@ -310,19 +312,107 @@ public class TestHeapSize {
|
|||
// DefaultMemStore Deep Overhead
|
||||
actual = DefaultMemStore.DEEP_OVERHEAD;
|
||||
expected = ClassSize.estimateBase(cl, false);
|
||||
if (expected != actual) {
|
||||
ClassSize.estimateBase(cl, true);
|
||||
assertEquals(expected, actual);
|
||||
}
|
||||
|
||||
// CompactingMemStore Deep Overhead
|
||||
cl = CompactingMemStore.class;
|
||||
actual = CompactingMemStore.DEEP_OVERHEAD;
|
||||
expected = ClassSize.estimateBase(cl, false);
|
||||
expected += ClassSize.estimateBase(AtomicBoolean.class, false);
|
||||
expected += ClassSize.estimateBase(AtomicBoolean.class, false);
|
||||
expected += ClassSize.estimateBase(CompactionPipeline.class, false);
|
||||
expected += ClassSize.estimateBase(LinkedList.class, false);
|
||||
expected += ClassSize.estimateBase(MemStoreCompactor.class, false);
|
||||
expected += ClassSize.estimateBase(AtomicBoolean.class, false);
|
||||
if (expected != actual) {
|
||||
ClassSize.estimateBase(cl, true);
|
||||
ClassSize.estimateBase(AtomicBoolean.class, true);
|
||||
ClassSize.estimateBase(AtomicBoolean.class, true);
|
||||
ClassSize.estimateBase(CompactionPipeline.class, true);
|
||||
ClassSize.estimateBase(LinkedList.class, true);
|
||||
ClassSize.estimateBase(MemStoreCompactor.class, true);
|
||||
ClassSize.estimateBase(AtomicBoolean.class, true);
|
||||
assertEquals(expected, actual);
|
||||
}
|
||||
|
||||
// Segment Deep overhead
|
||||
cl = Segment.class;
|
||||
actual = Segment.DEEP_OVERHEAD;
|
||||
expected = ClassSize.estimateBase(cl, false);
|
||||
expected += ClassSize.estimateBase(AtomicLong.class, false);
|
||||
expected += ClassSize.estimateBase(AtomicReference.class, false);
|
||||
expected += ClassSize.estimateBase(CellSet.class, false);
|
||||
expected += ClassSize.estimateBase(ConcurrentSkipListMap.class, false);
|
||||
expected += ClassSize.estimateBase(TimeRangeTracker.class, false);
|
||||
if(expected != actual) {
|
||||
if (expected != actual) {
|
||||
ClassSize.estimateBase(cl, true);
|
||||
ClassSize.estimateBase(AtomicLong.class, true);
|
||||
ClassSize.estimateBase(AtomicReference.class, true);
|
||||
ClassSize.estimateBase(CellSet.class, true);
|
||||
ClassSize.estimateBase(ConcurrentSkipListMap.class, true);
|
||||
ClassSize.estimateBase(TimeRangeTracker.class, true);
|
||||
assertEquals(expected, actual);
|
||||
}
|
||||
|
||||
// MutableSegment Deep overhead
|
||||
cl = MutableSegment.class;
|
||||
actual = MutableSegment.DEEP_OVERHEAD;
|
||||
expected = ClassSize.estimateBase(cl, false);
|
||||
expected += ClassSize.estimateBase(AtomicLong.class, false);
|
||||
expected += ClassSize.estimateBase(AtomicReference.class, false);
|
||||
expected += ClassSize.estimateBase(CellSet.class, false);
|
||||
expected += ClassSize.estimateBase(TimeRangeTracker.class, false);
|
||||
expected += ClassSize.estimateBase(ConcurrentSkipListMap.class, false);
|
||||
if (expected != actual) {
|
||||
ClassSize.estimateBase(cl, true);
|
||||
ClassSize.estimateBase(AtomicLong.class, true);
|
||||
ClassSize.estimateBase(AtomicReference.class, true);
|
||||
ClassSize.estimateBase(CellSet.class, true);
|
||||
ClassSize.estimateBase(TimeRangeTracker.class, true);
|
||||
ClassSize.estimateBase(ConcurrentSkipListMap.class, true);
|
||||
assertEquals(expected, actual);
|
||||
}
|
||||
|
||||
// ImmutableSegment Deep overhead
|
||||
cl = ImmutableSegment.class;
|
||||
actual = ImmutableSegment.DEEP_OVERHEAD_CSLM;
|
||||
expected = ClassSize.estimateBase(cl, false);
|
||||
expected += ClassSize.estimateBase(AtomicLong.class, false);
|
||||
expected += ClassSize.estimateBase(AtomicReference.class, false);
|
||||
expected += ClassSize.estimateBase(CellSet.class, false);
|
||||
expected += ClassSize.estimateBase(TimeRangeTracker.class, false);
|
||||
expected += ClassSize.estimateBase(TimeRange.class, false);
|
||||
expected += ClassSize.estimateBase(ConcurrentSkipListMap.class, false);
|
||||
if (expected != actual) {
|
||||
ClassSize.estimateBase(cl, true);
|
||||
ClassSize.estimateBase(AtomicLong.class, true);
|
||||
ClassSize.estimateBase(AtomicReference.class, true);
|
||||
ClassSize.estimateBase(CellSet.class, true);
|
||||
ClassSize.estimateBase(TimeRangeTracker.class, true);
|
||||
ClassSize.estimateBase(TimeRange.class, true);
|
||||
ClassSize.estimateBase(ConcurrentSkipListMap.class, true);
|
||||
assertEquals(expected, actual);
|
||||
}
|
||||
actual = ImmutableSegment.DEEP_OVERHEAD_CAM;
|
||||
expected = ClassSize.estimateBase(cl, false);
|
||||
expected += ClassSize.estimateBase(AtomicLong.class, false);
|
||||
expected += ClassSize.estimateBase(AtomicReference.class, false);
|
||||
expected += ClassSize.estimateBase(CellSet.class, false);
|
||||
expected += ClassSize.estimateBase(TimeRangeTracker.class, false);
|
||||
expected += ClassSize.estimateBase(TimeRange.class, false);
|
||||
expected += ClassSize.estimateBase(CellArrayMap.class, false);
|
||||
if (expected != actual) {
|
||||
ClassSize.estimateBase(cl, true);
|
||||
ClassSize.estimateBase(AtomicLong.class, true);
|
||||
ClassSize.estimateBase(AtomicReference.class, true);
|
||||
ClassSize.estimateBase(CellSet.class, true);
|
||||
ClassSize.estimateBase(TimeRangeTracker.class, true);
|
||||
ClassSize.estimateBase(TimeRange.class, true);
|
||||
ClassSize.estimateBase(CellArrayMap.class, true);
|
||||
assertEquals(expected, actual);
|
||||
}
|
||||
|
||||
// Store Overhead
|
||||
cl = HStore.class;
|
||||
actual = HStore.FIXED_OVERHEAD;
|
||||
|
|
|
@ -377,7 +377,7 @@ public class TestCompactingMemStore extends TestDefaultMemStore {
|
|||
private long runSnapshot(final AbstractMemStore hmc, boolean useForce)
|
||||
throws IOException {
|
||||
// Save off old state.
|
||||
long oldHistorySize = hmc.getSnapshot().getSize();
|
||||
long oldHistorySize = hmc.getSnapshot().keySize();
|
||||
long prevTimeStamp = hmc.timeOfOldestEdit();
|
||||
|
||||
hmc.snapshot();
|
||||
|
@ -547,10 +547,6 @@ public class TestCompactingMemStore extends TestDefaultMemStore {
|
|||
memstore.add(new KeyValue(row, fam, qf1, 3, val));
|
||||
assertEquals(3, memstore.getActive().getCellsCount());
|
||||
|
||||
while (((CompactingMemStore)memstore).isMemStoreFlushingInMemory()) {
|
||||
Threads.sleep(10);
|
||||
}
|
||||
|
||||
assertTrue(chunkPool.getPoolSize() == 0);
|
||||
|
||||
// Chunks will be put back to pool after close scanners;
|
||||
|
@ -597,9 +593,6 @@ public class TestCompactingMemStore extends TestDefaultMemStore {
|
|||
|
||||
long size = memstore.getFlushableSize();
|
||||
((CompactingMemStore)memstore).flushInMemory(); // push keys to pipeline and compact
|
||||
while (((CompactingMemStore)memstore).isMemStoreFlushingInMemory()) {
|
||||
Threads.sleep(10);
|
||||
}
|
||||
assertEquals(0, memstore.getSnapshot().getCellsCount());
|
||||
assertEquals(264, regionServicesForStores.getGlobalMemstoreTotalSize());
|
||||
|
||||
|
@ -625,9 +618,6 @@ public class TestCompactingMemStore extends TestDefaultMemStore {
|
|||
|
||||
long size = memstore.getFlushableSize();
|
||||
((CompactingMemStore)memstore).flushInMemory(); // push keys to pipeline and compact
|
||||
while (((CompactingMemStore)memstore).isMemStoreFlushingInMemory()) {
|
||||
Threads.sleep(1000);
|
||||
}
|
||||
int counter = 0;
|
||||
for ( Segment s : memstore.getSegments()) {
|
||||
counter += s.getCellsCount();
|
||||
|
@ -641,9 +631,6 @@ public class TestCompactingMemStore extends TestDefaultMemStore {
|
|||
|
||||
size = memstore.getFlushableSize();
|
||||
((CompactingMemStore)memstore).flushInMemory(); // push keys to pipeline and compact
|
||||
while (((CompactingMemStore)memstore).isMemStoreFlushingInMemory()) {
|
||||
Threads.sleep(10);
|
||||
}
|
||||
assertEquals(0, memstore.getSnapshot().getCellsCount());
|
||||
assertEquals(368, regionServicesForStores.getGlobalMemstoreTotalSize());
|
||||
|
||||
|
@ -672,9 +659,6 @@ public class TestCompactingMemStore extends TestDefaultMemStore {
|
|||
|
||||
String tstStr = "\n\nFlushable size after first flush in memory:" + size
|
||||
+ ". Is MemmStore in compaction?:" + ((CompactingMemStore)memstore).isMemStoreFlushingInMemory();
|
||||
while (((CompactingMemStore)memstore).isMemStoreFlushingInMemory()) {
|
||||
Threads.sleep(10);
|
||||
}
|
||||
assertEquals(0, memstore.getSnapshot().getCellsCount());
|
||||
assertEquals(264, regionServicesForStores.getGlobalMemstoreTotalSize());
|
||||
|
||||
|
@ -719,7 +703,7 @@ public class TestCompactingMemStore extends TestDefaultMemStore {
|
|||
private void addRowsByKeys(final AbstractMemStore hmc, String[] keys) {
|
||||
byte[] fam = Bytes.toBytes("testfamily");
|
||||
byte[] qf = Bytes.toBytes("testqualifier");
|
||||
long size = hmc.getActive().getSize();
|
||||
long size = hmc.getActive().keySize();
|
||||
for (int i = 0; i < keys.length; i++) {
|
||||
long timestamp = System.currentTimeMillis();
|
||||
Threads.sleep(1); // to make sure each kv gets a different ts
|
||||
|
@ -729,7 +713,7 @@ public class TestCompactingMemStore extends TestDefaultMemStore {
|
|||
hmc.add(kv);
|
||||
LOG.debug("added kv: " + kv.getKeyString() + ", timestamp:" + kv.getTimestamp());
|
||||
}
|
||||
regionServicesForStores.addAndGetGlobalMemstoreSize(hmc.getActive().getSize() - size);
|
||||
regionServicesForStores.addAndGetGlobalMemstoreSize(hmc.getActive().keySize() - size);
|
||||
}
|
||||
|
||||
private class EnvironmentEdgeForMemstoreTest implements EnvironmentEdge {
|
||||
|
|
|
@ -333,7 +333,7 @@ public class TestCompactingToCellArrayMapMemStore extends TestCompactingMemStore
|
|||
private void addRowsByKeys(final AbstractMemStore hmc, String[] keys) {
|
||||
byte[] fam = Bytes.toBytes("testfamily");
|
||||
byte[] qf = Bytes.toBytes("testqualifier");
|
||||
long size = hmc.getActive().getSize();//
|
||||
long size = hmc.getActive().size();//
|
||||
for (int i = 0; i < keys.length; i++) {
|
||||
long timestamp = System.currentTimeMillis();
|
||||
Threads.sleep(1); // to make sure each kv gets a different ts
|
||||
|
@ -343,7 +343,7 @@ public class TestCompactingToCellArrayMapMemStore extends TestCompactingMemStore
|
|||
hmc.add(kv);
|
||||
LOG.debug("added kv: " + kv.getKeyString() + ", timestamp" + kv.getTimestamp());
|
||||
}
|
||||
regionServicesForStores.addAndGetGlobalMemstoreSize(hmc.getActive().getSize() - size);//
|
||||
regionServicesForStores.addAndGetGlobalMemstoreSize(hmc.getActive().size() - size);//
|
||||
}
|
||||
|
||||
private class EnvironmentEdgeForMemstoreTest implements EnvironmentEdge {
|
||||
|
|
|
@ -172,8 +172,9 @@ public class TestPerColumnFamilyFlush {
|
|||
|
||||
// The total memstore size should be the same as the sum of the sizes of
|
||||
// memstores of CF1, CF2 and CF3.
|
||||
assertEquals(totalMemstoreSize + 3 * DefaultMemStore.DEEP_OVERHEAD, cf1MemstoreSize
|
||||
+ cf2MemstoreSize + cf3MemstoreSize);
|
||||
assertEquals(
|
||||
totalMemstoreSize + (3 * (DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD)),
|
||||
cf1MemstoreSize + cf2MemstoreSize + cf3MemstoreSize);
|
||||
|
||||
// Flush!
|
||||
region.flush(false);
|
||||
|
@ -192,7 +193,7 @@ public class TestPerColumnFamilyFlush {
|
|||
|
||||
// We should have cleared out only CF1, since we chose the flush thresholds
|
||||
// and number of puts accordingly.
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf1MemstoreSize);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD, cf1MemstoreSize);
|
||||
// Nothing should have happened to CF2, ...
|
||||
assertEquals(cf2MemstoreSize, oldCF2MemstoreSize);
|
||||
// ... or CF3
|
||||
|
@ -201,8 +202,9 @@ public class TestPerColumnFamilyFlush {
|
|||
// LSN in the memstore of CF2.
|
||||
assertEquals(smallestSeqInRegionCurrentMemstore, smallestSeqCF2);
|
||||
// Of course, this should hold too.
|
||||
assertEquals(totalMemstoreSize + 2 * DefaultMemStore.DEEP_OVERHEAD, cf2MemstoreSize
|
||||
+ cf3MemstoreSize);
|
||||
assertEquals(
|
||||
totalMemstoreSize + (2 * (DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD)),
|
||||
cf2MemstoreSize + cf3MemstoreSize);
|
||||
|
||||
// Now add more puts (mostly for CF2), so that we only flush CF2 this time.
|
||||
for (int i = 1200; i < 2400; i++) {
|
||||
|
@ -229,11 +231,12 @@ public class TestPerColumnFamilyFlush {
|
|||
.getEarliestMemstoreSeqNum(region.getRegionInfo().getEncodedNameAsBytes());
|
||||
|
||||
// CF1 and CF2, both should be absent.
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf1MemstoreSize);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf2MemstoreSize);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD, cf1MemstoreSize);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD, cf2MemstoreSize);
|
||||
// CF3 shouldn't have been touched.
|
||||
assertEquals(cf3MemstoreSize, oldCF3MemstoreSize);
|
||||
assertEquals(totalMemstoreSize + DefaultMemStore.DEEP_OVERHEAD, cf3MemstoreSize);
|
||||
assertEquals(totalMemstoreSize + (DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD),
|
||||
cf3MemstoreSize);
|
||||
assertEquals(smallestSeqInRegionCurrentMemstore, smallestSeqCF3);
|
||||
|
||||
// What happens when we hit the memstore limit, but we are not able to find
|
||||
|
@ -296,8 +299,9 @@ public class TestPerColumnFamilyFlush {
|
|||
|
||||
// The total memstore size should be the same as the sum of the sizes of
|
||||
// memstores of CF1, CF2 and CF3.
|
||||
assertEquals(totalMemstoreSize + 3 * DefaultMemStore.DEEP_OVERHEAD, cf1MemstoreSize
|
||||
+ cf2MemstoreSize + cf3MemstoreSize);
|
||||
assertEquals(
|
||||
totalMemstoreSize + (3 * (DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD)),
|
||||
cf1MemstoreSize + cf2MemstoreSize + cf3MemstoreSize);
|
||||
|
||||
// Flush!
|
||||
region.flush(false);
|
||||
|
@ -310,9 +314,9 @@ public class TestPerColumnFamilyFlush {
|
|||
region.getWAL().getEarliestMemstoreSeqNum(region.getRegionInfo().getEncodedNameAsBytes());
|
||||
|
||||
// Everything should have been cleared
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf1MemstoreSize);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf2MemstoreSize);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf3MemstoreSize);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD, cf1MemstoreSize);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD, cf2MemstoreSize);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD, cf3MemstoreSize);
|
||||
assertEquals(0, totalMemstoreSize);
|
||||
assertEquals(HConstants.NO_SEQNUM, smallestSeqInRegionCurrentMemstore);
|
||||
HBaseTestingUtility.closeRegionAndWAL(region);
|
||||
|
@ -379,12 +383,13 @@ public class TestPerColumnFamilyFlush {
|
|||
cf3MemstoreSize = desiredRegion.getStore(FAMILY3).getMemStoreSize();
|
||||
|
||||
// CF1 Should have been flushed
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf1MemstoreSize);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD, cf1MemstoreSize);
|
||||
// CF2 and CF3 shouldn't have been flushed.
|
||||
assertTrue(cf2MemstoreSize > 0);
|
||||
assertTrue(cf3MemstoreSize > 0);
|
||||
assertEquals(totalMemstoreSize + 2 * DefaultMemStore.DEEP_OVERHEAD, cf2MemstoreSize
|
||||
+ cf3MemstoreSize);
|
||||
assertEquals(
|
||||
totalMemstoreSize + (2 * (DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD)),
|
||||
cf2MemstoreSize + cf3MemstoreSize);
|
||||
|
||||
// Wait for the RS report to go across to the master, so that the master
|
||||
// is aware of which sequence ids have been flushed, before we kill the RS.
|
||||
|
@ -521,11 +526,11 @@ public class TestPerColumnFamilyFlush {
|
|||
});
|
||||
LOG.info("Finished waiting on flush after too many WALs...");
|
||||
// Individual families should have been flushed.
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD,
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD,
|
||||
desiredRegion.getStore(FAMILY1).getMemStoreSize());
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD,
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD,
|
||||
desiredRegion.getStore(FAMILY2).getMemStoreSize());
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD,
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD,
|
||||
desiredRegion.getStore(FAMILY3).getMemStoreSize());
|
||||
// let WAL cleanOldLogs
|
||||
assertNull(getWAL(desiredRegion).rollWriter(true));
|
||||
|
|
|
@ -19,10 +19,7 @@ package org.apache.hadoop.hbase.regionserver;
|
|||
|
||||
import java.io.IOException;
|
||||
import java.util.Arrays;
|
||||
import java.util.List;
|
||||
|
||||
import org.apache.commons.logging.Log;
|
||||
import org.apache.commons.logging.LogFactory;
|
||||
import org.apache.hadoop.conf.Configuration;
|
||||
import org.apache.hadoop.fs.Path;
|
||||
import org.apache.hadoop.hbase.HBaseConfiguration;
|
||||
|
@ -31,19 +28,14 @@ import org.apache.hadoop.hbase.HColumnDescriptor;
|
|||
import org.apache.hadoop.hbase.HConstants;
|
||||
import org.apache.hadoop.hbase.HRegionInfo;
|
||||
import org.apache.hadoop.hbase.HTableDescriptor;
|
||||
import org.apache.hadoop.hbase.MiniHBaseCluster;
|
||||
import org.apache.hadoop.hbase.TableName;
|
||||
import org.apache.hadoop.hbase.client.Get;
|
||||
import org.apache.hadoop.hbase.client.Put;
|
||||
import org.apache.hadoop.hbase.client.Result;
|
||||
import org.apache.hadoop.hbase.client.Table;
|
||||
import org.apache.hadoop.hbase.regionserver.wal.FSHLog;
|
||||
import org.apache.hadoop.hbase.testclassification.LargeTests;
|
||||
import org.apache.hadoop.hbase.testclassification.RegionServerTests;
|
||||
import org.apache.hadoop.hbase.util.Bytes;
|
||||
import org.apache.hadoop.hbase.util.JVMClusterUtil;
|
||||
import org.apache.hadoop.hbase.util.Pair;
|
||||
import org.apache.hadoop.hbase.util.Threads;
|
||||
import org.apache.hadoop.hbase.wal.WAL;
|
||||
import org.junit.Test;
|
||||
import org.junit.experimental.categories.Category;
|
||||
|
@ -59,7 +51,6 @@ import static org.junit.Assert.assertTrue;
|
|||
@Category({ RegionServerTests.class, LargeTests.class })
|
||||
public class TestWalAndCompactingMemStoreFlush {
|
||||
|
||||
private static final Log LOG = LogFactory.getLog(TestWalAndCompactingMemStoreFlush.class);
|
||||
private static final HBaseTestingUtility TEST_UTIL = new HBaseTestingUtility();
|
||||
private static final Path DIR = TEST_UTIL.getDataTestDir("TestHRegion");
|
||||
public static final TableName TABLENAME = TableName.valueOf("TestWalAndCompactingMemStoreFlush",
|
||||
|
@ -201,12 +192,13 @@ public class TestWalAndCompactingMemStoreFlush {
|
|||
// memstores of CF1, CF2 and CF3.
|
||||
String msg = "totalMemstoreSize="+totalMemstoreSize +
|
||||
" DefaultMemStore.DEEP_OVERHEAD="+DefaultMemStore.DEEP_OVERHEAD +
|
||||
" DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM="+CompactingMemStore.DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM
|
||||
+
|
||||
" CompactingMemStore.DEEP_OVERHEAD="+CompactingMemStore.DEEP_OVERHEAD +
|
||||
" cf1MemstoreSizePhaseI="+cf1MemstoreSizePhaseI +
|
||||
" cf2MemstoreSizePhaseI="+cf2MemstoreSizePhaseI +
|
||||
" cf3MemstoreSizePhaseI="+cf3MemstoreSizePhaseI ;
|
||||
assertEquals(msg,totalMemstoreSize + 3 * DefaultMemStore.DEEP_OVERHEAD,
|
||||
assertEquals(msg,
|
||||
totalMemstoreSize + 2 * (CompactingMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD)
|
||||
+ (DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD),
|
||||
cf1MemstoreSizePhaseI + cf2MemstoreSizePhaseI + cf3MemstoreSizePhaseI);
|
||||
|
||||
// Flush!!!!!!!!!!!!!!!!!!!!!!
|
||||
|
@ -220,11 +212,6 @@ public class TestWalAndCompactingMemStoreFlush {
|
|||
((CompactingMemStore) region.getStore(FAMILY3).getMemStore()).flushInMemory();
|
||||
region.flush(false);
|
||||
|
||||
// CF3 should be compacted so wait here to be sure the compaction is done
|
||||
while (((CompactingMemStore) region.getStore(FAMILY3).getMemStore())
|
||||
.isMemStoreFlushingInMemory())
|
||||
Threads.sleep(10);
|
||||
|
||||
// Recalculate everything
|
||||
long cf1MemstoreSizePhaseII = region.getStore(FAMILY1).getMemStoreSize();
|
||||
long cf2MemstoreSizePhaseII = region.getStore(FAMILY2).getMemStoreSize();
|
||||
|
@ -239,8 +226,6 @@ public class TestWalAndCompactingMemStoreFlush {
|
|||
|
||||
s = s + "DefaultMemStore DEEP_OVERHEAD is:" + DefaultMemStore.DEEP_OVERHEAD
|
||||
+ ", CompactingMemStore DEEP_OVERHEAD is:" + CompactingMemStore.DEEP_OVERHEAD
|
||||
+ ", CompactingMemStore DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM is:" + CompactingMemStore
|
||||
.DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM
|
||||
+ "\n----After first flush! CF1 should be flushed to memory, but not compacted.---\n"
|
||||
+ "Size of CF1 is:" + cf1MemstoreSizePhaseII + ", size of CF2 is:" + cf2MemstoreSizePhaseII
|
||||
+ ", size of CF3 is:" + cf3MemstoreSizePhaseII + "\n";
|
||||
|
@ -249,12 +234,13 @@ public class TestWalAndCompactingMemStoreFlush {
|
|||
assertTrue(cf1MemstoreSizePhaseII < cf1MemstoreSizePhaseI);
|
||||
|
||||
// CF2 should become empty
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf2MemstoreSizePhaseII);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD,
|
||||
cf2MemstoreSizePhaseII);
|
||||
|
||||
// verify that CF3 was flushed to memory and was compacted (this is approximation check)
|
||||
assertTrue(cf3MemstoreSizePhaseI/2+DefaultMemStore.DEEP_OVERHEAD +
|
||||
CompactingMemStore.DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM >
|
||||
cf3MemstoreSizePhaseII);
|
||||
assertTrue(cf3MemstoreSizePhaseI / 2 + CompactingMemStore.DEEP_OVERHEAD
|
||||
+ ImmutableSegment.DEEP_OVERHEAD_CAM
|
||||
+ CompactionPipeline.ENTRY_OVERHEAD > cf3MemstoreSizePhaseII);
|
||||
|
||||
// CF3 was compacted and flattened!
|
||||
assertTrue("\n<<< Size of CF3 in phase I - " + cf3MemstoreSizePhaseI
|
||||
|
@ -315,7 +301,8 @@ public class TestWalAndCompactingMemStoreFlush {
|
|||
// CF1's pipeline component (inserted before first flush) should be flushed to disk
|
||||
// CF2 should be flushed to disk
|
||||
assertTrue(cf1MemstoreSizePhaseIII > cf1MemstoreSizePhaseIV);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf2MemstoreSizePhaseIV);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD,
|
||||
cf2MemstoreSizePhaseIV);
|
||||
|
||||
// CF3 shouldn't have been touched.
|
||||
assertEquals(cf3MemstoreSizePhaseIV, cf3MemstoreSizePhaseII);
|
||||
|
@ -340,12 +327,16 @@ public class TestWalAndCompactingMemStoreFlush {
|
|||
long smallestSeqInRegionCurrentMemstorePhaseV = getWAL(region)
|
||||
.getEarliestMemstoreSeqNum(region.getRegionInfo().getEncodedNameAsBytes());
|
||||
|
||||
assertTrue(DefaultMemStore.DEEP_OVERHEAD < cf1MemstoreSizePhaseV);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf2MemstoreSizePhaseV);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf3MemstoreSizePhaseV);
|
||||
assertTrue(
|
||||
CompactingMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD < cf1MemstoreSizePhaseV);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD,
|
||||
cf2MemstoreSizePhaseV);
|
||||
assertEquals(CompactingMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD,
|
||||
cf3MemstoreSizePhaseV);
|
||||
|
||||
region.flush(true); // flush once again in order to be sure that everything is empty
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, region.getStore(FAMILY1).getMemStoreSize());
|
||||
assertEquals(CompactingMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD,
|
||||
region.getStore(FAMILY1).getMemStoreSize());
|
||||
|
||||
// What happens when we hit the memstore limit, but we are not able to find
|
||||
// any Column Family above the threshold?
|
||||
|
@ -453,12 +444,12 @@ public class TestWalAndCompactingMemStoreFlush {
|
|||
// memstores of CF1, CF2 and CF3.
|
||||
String msg = "totalMemstoreSize="+totalMemstoreSize +
|
||||
" DefaultMemStore.DEEP_OVERHEAD="+DefaultMemStore.DEEP_OVERHEAD +
|
||||
" DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM="+CompactingMemStore.DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM
|
||||
+
|
||||
" cf1MemstoreSizePhaseI="+cf1MemstoreSizePhaseI +
|
||||
" cf2MemstoreSizePhaseI="+cf2MemstoreSizePhaseI +
|
||||
" cf3MemstoreSizePhaseI="+cf3MemstoreSizePhaseI ;
|
||||
assertEquals(msg,totalMemstoreSize + 3 * DefaultMemStore.DEEP_OVERHEAD,
|
||||
assertEquals(msg,
|
||||
totalMemstoreSize + 2 * (CompactingMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD)
|
||||
+ (DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD),
|
||||
cf1MemstoreSizePhaseI + cf2MemstoreSizePhaseI + cf3MemstoreSizePhaseI);
|
||||
|
||||
// Flush!!!!!!!!!!!!!!!!!!!!!!
|
||||
|
@ -472,11 +463,6 @@ public class TestWalAndCompactingMemStoreFlush {
|
|||
((CompactingMemStore) region.getStore(FAMILY3).getMemStore()).flushInMemory();
|
||||
region.flush(false);
|
||||
|
||||
// CF3 should be compacted so wait here to be sure the compaction is done
|
||||
while (((CompactingMemStore) region.getStore(FAMILY3).getMemStore())
|
||||
.isMemStoreFlushingInMemory())
|
||||
Threads.sleep(10);
|
||||
|
||||
// Recalculate everything
|
||||
long cf1MemstoreSizePhaseII = region.getStore(FAMILY1).getMemStoreSize();
|
||||
long cf2MemstoreSizePhaseII = region.getStore(FAMILY2).getMemStoreSize();
|
||||
|
@ -491,24 +477,23 @@ public class TestWalAndCompactingMemStoreFlush {
|
|||
|
||||
s = s + "DefaultMemStore DEEP_OVERHEAD is:" + DefaultMemStore.DEEP_OVERHEAD
|
||||
+ ", CompactingMemStore DEEP_OVERHEAD is:" + CompactingMemStore.DEEP_OVERHEAD
|
||||
+ ", CompactingMemStore DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM is:" + CompactingMemStore
|
||||
.DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM
|
||||
+ "\n----After first flush! CF1 should be flushed to memory, but not compacted.---\n"
|
||||
+ "Size of CF1 is:" + cf1MemstoreSizePhaseII + ", size of CF2 is:" + cf2MemstoreSizePhaseII
|
||||
+ ", size of CF3 is:" + cf3MemstoreSizePhaseII + "\n";
|
||||
|
||||
// CF1 was flushed to memory, but there is nothing to compact, should
|
||||
// remain the same size plus renewed empty skip-list
|
||||
assertEquals(s, cf1MemstoreSizePhaseII,
|
||||
cf1MemstoreSizePhaseI + CompactingMemStore.DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM);
|
||||
assertEquals(s, cf1MemstoreSizePhaseII, cf1MemstoreSizePhaseI
|
||||
+ ImmutableSegment.DEEP_OVERHEAD_CAM + CompactionPipeline.ENTRY_OVERHEAD);
|
||||
|
||||
// CF2 should become empty
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf2MemstoreSizePhaseII);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD,
|
||||
cf2MemstoreSizePhaseII);
|
||||
|
||||
// verify that CF3 was flushed to memory and was compacted (this is approximation check)
|
||||
assertTrue(cf3MemstoreSizePhaseI/2+DefaultMemStore.DEEP_OVERHEAD +
|
||||
CompactingMemStore.DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM >
|
||||
cf3MemstoreSizePhaseII);
|
||||
assertTrue(cf3MemstoreSizePhaseI / 2 + CompactingMemStore.DEEP_OVERHEAD
|
||||
+ ImmutableSegment.DEEP_OVERHEAD_CAM
|
||||
+ CompactionPipeline.ENTRY_OVERHEAD > cf3MemstoreSizePhaseII);
|
||||
assertTrue(cf3MemstoreSizePhaseI/2 < cf3MemstoreSizePhaseII);
|
||||
|
||||
|
||||
|
@ -564,9 +549,10 @@ public class TestWalAndCompactingMemStoreFlush {
|
|||
|
||||
// CF1's pipeline component (inserted before first flush) should be flushed to disk
|
||||
// CF2 should be flushed to disk
|
||||
assertEquals(cf1MemstoreSizePhaseIII - cf1MemstoreSizePhaseI + DefaultMemStore.DEEP_OVERHEAD,
|
||||
cf1MemstoreSizePhaseIV);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf2MemstoreSizePhaseIV);
|
||||
assertEquals(cf1MemstoreSizePhaseIII - cf1MemstoreSizePhaseI + CompactingMemStore.DEEP_OVERHEAD
|
||||
+ MutableSegment.DEEP_OVERHEAD, cf1MemstoreSizePhaseIV);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD,
|
||||
cf2MemstoreSizePhaseIV);
|
||||
|
||||
// CF3 shouldn't have been touched.
|
||||
assertEquals(cf3MemstoreSizePhaseIV, cf3MemstoreSizePhaseII);
|
||||
|
@ -590,9 +576,12 @@ public class TestWalAndCompactingMemStoreFlush {
|
|||
long smallestSeqInRegionCurrentMemstorePhaseV = getWAL(region)
|
||||
.getEarliestMemstoreSeqNum(region.getRegionInfo().getEncodedNameAsBytes());
|
||||
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf1MemstoreSizePhaseV);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf2MemstoreSizePhaseV);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf3MemstoreSizePhaseV);
|
||||
assertEquals(CompactingMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD,
|
||||
cf1MemstoreSizePhaseV);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD,
|
||||
cf2MemstoreSizePhaseV);
|
||||
assertEquals(CompactingMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD,
|
||||
cf3MemstoreSizePhaseV);
|
||||
|
||||
// Because there is nothing in any memstore the WAL's LSN should be -1
|
||||
assertEquals(smallestSeqInRegionCurrentMemstorePhaseV, HConstants.NO_SEQNUM);
|
||||
|
@ -672,24 +661,17 @@ public class TestWalAndCompactingMemStoreFlush {
|
|||
// memstores of CF1, CF2 and CF3.
|
||||
String msg = "totalMemstoreSize="+totalMemstoreSize +
|
||||
" DefaultMemStore.DEEP_OVERHEAD="+DefaultMemStore.DEEP_OVERHEAD +
|
||||
" DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM="+CompactingMemStore.DEEP_OVERHEAD_PER_PIPELINE_SKIPLIST_ITEM
|
||||
+
|
||||
" cf1MemstoreSizePhaseI="+cf1MemstoreSizePhaseI +
|
||||
" cf2MemstoreSizePhaseI="+cf2MemstoreSizePhaseI +
|
||||
" cf3MemstoreSizePhaseI="+cf3MemstoreSizePhaseI ;
|
||||
assertEquals(msg, totalMemstoreSize + 3 * DefaultMemStore.DEEP_OVERHEAD,
|
||||
assertEquals(msg,
|
||||
totalMemstoreSize + 2 * (CompactingMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD)
|
||||
+ (DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD),
|
||||
cf1MemstoreSizePhaseI + cf2MemstoreSizePhaseI + cf3MemstoreSizePhaseI);
|
||||
|
||||
// Flush!
|
||||
((CompactingMemStore) region.getStore(FAMILY1).getMemStore()).flushInMemory();
|
||||
((CompactingMemStore) region.getStore(FAMILY3).getMemStore()).flushInMemory();
|
||||
// CF1 and CF3 should be compacted so wait here to be sure the compaction is done
|
||||
while (((CompactingMemStore) region.getStore(FAMILY1).getMemStore())
|
||||
.isMemStoreFlushingInMemory())
|
||||
Threads.sleep(10);
|
||||
while (((CompactingMemStore) region.getStore(FAMILY3).getMemStore())
|
||||
.isMemStoreFlushingInMemory())
|
||||
Threads.sleep(10);
|
||||
region.flush(false);
|
||||
|
||||
long cf2MemstoreSizePhaseII = region.getStore(FAMILY2).getMemStoreSize();
|
||||
|
@ -701,7 +683,8 @@ public class TestWalAndCompactingMemStoreFlush {
|
|||
long smallestSeqCF3PhaseII = region.getOldestSeqIdOfStore(FAMILY3);
|
||||
|
||||
// CF2 should have been cleared
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD, cf2MemstoreSizePhaseII);
|
||||
assertEquals(DefaultMemStore.DEEP_OVERHEAD + MutableSegment.DEEP_OVERHEAD,
|
||||
cf2MemstoreSizePhaseII);
|
||||
|
||||
String s = "\n\n----------------------------------\n"
|
||||
+ "Upon initial insert and flush, LSN of CF1 is:"
|
||||
|
@ -739,13 +722,6 @@ public class TestWalAndCompactingMemStoreFlush {
|
|||
// Flush!
|
||||
((CompactingMemStore) region.getStore(FAMILY1).getMemStore()).flushInMemory();
|
||||
((CompactingMemStore) region.getStore(FAMILY3).getMemStore()).flushInMemory();
|
||||
// CF1 and CF3 should be compacted so wait here to be sure the compaction is done
|
||||
while (((CompactingMemStore) region.getStore(FAMILY1).getMemStore())
|
||||
.isMemStoreFlushingInMemory())
|
||||
Threads.sleep(10);
|
||||
while (((CompactingMemStore) region.getStore(FAMILY3).getMemStore())
|
||||
.isMemStoreFlushingInMemory())
|
||||
Threads.sleep(10);
|
||||
region.flush(false);
|
||||
|
||||
long smallestSeqInRegionCurrentMemstorePhaseIV =
|
||||
|
@ -768,24 +744,7 @@ public class TestWalAndCompactingMemStoreFlush {
|
|||
HBaseTestingUtility.closeRegionAndWAL(region);
|
||||
}
|
||||
|
||||
// Find the (first) region which has the specified name.
|
||||
private static Pair<Region, HRegionServer> getRegionWithName(TableName tableName) {
|
||||
MiniHBaseCluster cluster = TEST_UTIL.getMiniHBaseCluster();
|
||||
List<JVMClusterUtil.RegionServerThread> rsts = cluster.getRegionServerThreads();
|
||||
for (int i = 0; i < cluster.getRegionServerThreads().size(); i++) {
|
||||
HRegionServer hrs = rsts.get(i).getRegionServer();
|
||||
for (Region region : hrs.getOnlineRegions(tableName)) {
|
||||
return Pair.newPair(region, hrs);
|
||||
}
|
||||
}
|
||||
return null;
|
||||
}
|
||||
|
||||
private WAL getWAL(Region region) {
|
||||
return ((HRegion)region).getWAL();
|
||||
}
|
||||
|
||||
private int getNumRolledLogFiles(Region region) {
|
||||
return ((FSHLog)getWAL(region)).getNumRolledLogFiles();
|
||||
}
|
||||
}
|
||||
|
|
Loading…
Reference in New Issue