HBASE-13811 Splitting WALs, we are filtering out too many edits -> DATALOSS

This commit is contained in:
stack 2015-06-08 10:55:53 -07:00
parent 9f43a3bea6
commit 5c16b34e32
19 changed files with 907 additions and 479 deletions

View File

@ -645,7 +645,7 @@ public class ZKSplitLogManagerCoordination extends ZooKeeperListener implements
lastSequenceId = lastRecordedFlushedSequenceId;
}
ZKUtil.createSetData(this.watcher, nodePath,
ZKUtil.regionSequenceIdsToByteArray(lastSequenceId, null));
ZKUtil.regionSequenceIdsToByteArray(lastSequenceId, null));
if (LOG.isDebugEnabled()) {
LOG.debug("Marked " + regionEncodeName + " recovering from " + serverName +
": " + nodePath);

View File

@ -414,7 +414,7 @@ public class RegionStates {
ServerName oldServerName = regionAssignments.put(hri, serverName);
if (!serverName.equals(oldServerName)) {
if (LOG.isDebugEnabled()) {
LOG.debug("Onlined " + hri.getShortNameToLog() + " on " + serverName + " " + hri);
LOG.debug("Onlined " + hri.getShortNameToLog() + " on " + serverName);
} else {
LOG.debug("Onlined " + hri.getShortNameToLog() + " on " + serverName);
}
@ -599,7 +599,7 @@ public class RegionStates {
// Region is open on this region server, but in transition.
// This region must be moving away from this server, or splitting/merging.
// SSH will handle it, either skip assigning, or re-assign.
LOG.info("Transitioning " + state + " will be handled by SSH for " + sn);
LOG.info("Transitioning " + state + " will be handled by ServerCrashProcedure for " + sn);
} else if (sn.equals(state.getServerName())) {
// Region is in transition on this region server, and this
// region is not open on this server. So the region must be
@ -610,7 +610,8 @@ public class RegionStates {
// tried several times to open it while this region server is not reachable)
if (isOneOfStates(state, State.OPENING, State.PENDING_OPEN,
State.FAILED_OPEN, State.FAILED_CLOSE, State.OFFLINE)) {
LOG.info("Found region in " + state + " to be reassigned by SSH for " + sn);
LOG.info("Found region in " + state +
" to be reassigned by ServerCrashProcedure for " + sn);
rits.add(hri);
} else if (isOneOfStates(state, State.SPLITTING_NEW)) {
regionsToCleanIfNoMetaEntry.add(state.getRegion());

View File

@ -120,9 +120,15 @@ public class ServerManager {
// Set if we are to shutdown the cluster.
private volatile boolean clusterShutdown = false;
/**
* The last flushed sequence id for a region.
*/
private final ConcurrentNavigableMap<byte[], Long> flushedSequenceIdByRegion =
new ConcurrentSkipListMap<byte[], Long>(Bytes.BYTES_COMPARATOR);
/**
* The last flushed sequence id for a store in a region.
*/
private final ConcurrentNavigableMap<byte[], ConcurrentNavigableMap<byte[], Long>>
storeFlushedSequenceIdsByRegion =
new ConcurrentSkipListMap<byte[], ConcurrentNavigableMap<byte[], Long>>(Bytes.BYTES_COMPARATOR);
@ -291,6 +297,10 @@ public class ServerManager {
Long existingValue = flushedSequenceIdByRegion.get(encodedRegionName);
long l = entry.getValue().getCompleteSequenceId();
// Don't let smaller sequence ids override greater sequence ids.
if (LOG.isTraceEnabled()) {
LOG.trace(Bytes.toString(encodedRegionName) + ", existingValue=" + existingValue +
", completeSequenceId=" + l);
}
if (existingValue == null || (l != HConstants.NO_SEQNUM && l > existingValue)) {
flushedSequenceIdByRegion.put(encodedRegionName, l);
} else if (l != HConstants.NO_SEQNUM && l < existingValue) {
@ -304,6 +314,10 @@ public class ServerManager {
byte[] family = storeSeqId.getFamilyName().toByteArray();
existingValue = storeFlushedSequenceId.get(family);
l = storeSeqId.getSequenceId();
if (LOG.isTraceEnabled()) {
LOG.trace(Bytes.toString(encodedRegionName) + ", family=" + Bytes.toString(family) +
", existingValue=" + existingValue + ", completeSequenceId=" + l);
}
// Don't let smaller sequence ids override greater sequence ids.
if (existingValue == null || (l != HConstants.NO_SEQNUM && l > existingValue.longValue())) {
storeFlushedSequenceId.put(family, l);

View File

@ -76,9 +76,9 @@ public class FlushLargeStoresPolicy extends FlushPolicy {
private boolean shouldFlush(Store store) {
if (store.getMemStoreSize() > this.flushSizeLowerBound) {
if (LOG.isDebugEnabled()) {
LOG.debug("Column Family: " + store.getColumnFamilyName() + " of region " + region
+ " will be flushed because of memstoreSize(" + store.getMemStoreSize()
+ ") is larger than lower bound(" + this.flushSizeLowerBound + ")");
LOG.debug("Flush Column Family " + store.getColumnFamilyName() + " of " +
region.getRegionInfo().getEncodedName() + " because memstoreSize=" +
store.getMemStoreSize() + " > lower bound=" + this.flushSizeLowerBound);
}
return true;
}

View File

@ -22,7 +22,6 @@ import java.io.EOFException;
import java.io.FileNotFoundException;
import java.io.IOException;
import java.io.InterruptedIOException;
import java.io.UnsupportedEncodingException;
import java.lang.reflect.Constructor;
import java.text.ParseException;
import java.util.AbstractList;
@ -216,13 +215,15 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
final AtomicBoolean closing = new AtomicBoolean(false);
/**
* The max sequence id of flushed data on this region. Used doing some rough calculations on
* whether time to flush or not.
* The max sequence id of flushed data on this region. There is no edit in memory that is
* less that this sequence id.
*/
private volatile long maxFlushedSeqId = HConstants.NO_SEQNUM;
/**
* Record the sequence id of last flush operation.
* Record the sequence id of last flush operation. Can be in advance of
* {@link #maxFlushedSeqId} when flushing a single column family. In this case,
* {@link #maxFlushedSeqId} will be older than the oldest edit in memory.
*/
private volatile long lastFlushOpSeqId = HConstants.NO_SEQNUM;
/**
@ -604,6 +605,7 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
* is new), then read them from the supplied path.
* @param htd the table descriptor
* @param rsServices reference to {@link RegionServerServices} or null
* @deprecated Use other constructors.
*/
@Deprecated
public HRegion(final Path tableDir, final WAL wal, final FileSystem fs,
@ -1612,16 +1614,15 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
byte[] encodedRegionName = this.getRegionInfo().getEncodedNameAsBytes();
regionLoadBldr.clearStoreCompleteSequenceId();
for (byte[] familyName : this.stores.keySet()) {
long oldestUnflushedSeqId = this.wal.getEarliestMemstoreSeqNum(encodedRegionName, familyName);
// no oldestUnflushedSeqId means no data has written to the store after last flush, so we use
// lastFlushOpSeqId as complete sequence id for the store.
regionLoadBldr.addStoreCompleteSequenceId(StoreSequenceId
.newBuilder()
.setFamilyName(ByteString.copyFrom(familyName))
.setSequenceId(
oldestUnflushedSeqId < 0 ? lastFlushOpSeqIdLocal : oldestUnflushedSeqId - 1).build());
long earliest = this.wal.getEarliestMemstoreSeqNum(encodedRegionName, familyName);
// Subtract - 1 to go earlier than the current oldest, unflushed edit in memstore; this will
// give us a sequence id that is for sure flushed. We want edit replay to start after this
// sequence id in this region. If NO_SEQNUM, use the regions maximum flush id.
long csid = (earliest == HConstants.NO_SEQNUM)? lastFlushOpSeqIdLocal: earliest - 1;
regionLoadBldr.addStoreCompleteSequenceId(StoreSequenceId.
newBuilder().setFamilyName(ByteString.copyFrom(familyName)).setSequenceId(csid).build());
}
return regionLoadBldr.setCompleteSequenceId(this.maxFlushedSeqId);
return regionLoadBldr.setCompleteSequenceId(getMaxFlushedSeqId());
}
//////////////////////////////////////////////////////////////////////////////
@ -1907,27 +1908,25 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
* returns true which will make a lot of flush requests.
*/
boolean shouldFlushStore(Store store) {
long maxFlushedSeqId =
this.wal.getEarliestMemstoreSeqNum(getRegionInfo().getEncodedNameAsBytes(), store
.getFamily().getName()) - 1;
if (maxFlushedSeqId > 0 && maxFlushedSeqId + flushPerChanges < sequenceId.get()) {
long earliest = this.wal.getEarliestMemstoreSeqNum(getRegionInfo().getEncodedNameAsBytes(),
store.getFamily().getName()) - 1;
if (earliest > 0 && earliest + flushPerChanges < sequenceId.get()) {
if (LOG.isDebugEnabled()) {
LOG.debug("Column Family: " + store.getColumnFamilyName() + " of region " + this
+ " will be flushed because its max flushed seqId(" + maxFlushedSeqId
+ ") is far away from current(" + sequenceId.get() + "), max allowed is "
+ flushPerChanges);
LOG.debug("Flush column family " + store.getColumnFamilyName() + " of " +
getRegionInfo().getEncodedName() + " because unflushed sequenceid=" + earliest +
" is > " + this.flushPerChanges + " from current=" + sequenceId.get());
}
return true;
}
if (flushCheckInterval <= 0) {
if (this.flushCheckInterval <= 0) {
return false;
}
long now = EnvironmentEdgeManager.currentTime();
if (store.timeOfOldestEdit() < now - flushCheckInterval) {
if (store.timeOfOldestEdit() < now - this.flushCheckInterval) {
if (LOG.isDebugEnabled()) {
LOG.debug("Column Family: " + store.getColumnFamilyName() + " of region " + this
+ " will be flushed because time of its oldest edit (" + store.timeOfOldestEdit()
+ ") is far away from now(" + now + "), max allowed is " + flushCheckInterval);
LOG.debug("Flush column family: " + store.getColumnFamilyName() + " of " +
getRegionInfo().getEncodedName() + " because time of oldest edit=" +
store.timeOfOldestEdit() + " is > " + this.flushCheckInterval + " from now =" + now);
}
return true;
}
@ -2081,18 +2080,21 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
}
if (LOG.isInfoEnabled()) {
LOG.info("Started memstore flush for " + this + ", current region memstore size "
+ StringUtils.byteDesc(this.memstoreSize.get()) + ", and " + storesToFlush.size() + "/"
+ stores.size() + " column families' memstores are being flushed."
+ ((wal != null) ? "" : "; wal is null, using passed sequenceid=" + myseqid));
// only log when we are not flushing all stores.
if (this.stores.size() > storesToFlush.size()) {
// Log a fat line detailing what is being flushed.
StringBuilder perCfExtras = null;
if (!isAllFamilies(storesToFlush)) {
perCfExtras = new StringBuilder();
for (Store store: storesToFlush) {
LOG.info("Flushing Column Family: " + store.getColumnFamilyName()
+ " which was occupying "
+ StringUtils.byteDesc(store.getMemStoreSize()) + " of memstore.");
perCfExtras.append("; ");
perCfExtras.append(store.getColumnFamilyName());
perCfExtras.append("=");
perCfExtras.append(StringUtils.byteDesc(store.getMemStoreSize()));
}
}
LOG.info("Flushing " + + storesToFlush.size() + "/" + stores.size() +
" column families, memstore=" + StringUtils.byteDesc(this.memstoreSize.get()) +
((perCfExtras != null && perCfExtras.length() > 0)? perCfExtras.toString(): "") +
((wal != null) ? "" : "; WAL is null, using passed sequenceid=" + myseqid));
}
// Stop updates while we snapshot the memstore of all of these regions' stores. We only have
// to do this for a moment. It is quick. We also set the memstore size to zero here before we
@ -2118,10 +2120,11 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
TreeMap<byte[], List<Path>> committedFiles = new TreeMap<byte[], List<Path>>(
Bytes.BYTES_COMPARATOR);
// The sequence id of this flush operation which is used to log FlushMarker and pass to
// createFlushContext to use as the store file's sequence id.
// createFlushContext to use as the store file's sequence id. It can be in advance of edits
// still in the memstore, edits that are in other column families yet to be flushed.
long flushOpSeqId = HConstants.NO_SEQNUM;
// The max flushed sequence id after this flush operation. Used as completeSequenceId which is
// passed to HMaster.
// The max flushed sequence id after this flush operation completes. All edits in memstore
// will be in advance of this sequence id.
long flushedSeqId = HConstants.NO_SEQNUM;
byte[] encodedRegionName = getRegionInfo().getEncodedNameAsBytes();
@ -2130,21 +2133,21 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
try {
w = mvcc.beginMemstoreInsert();
if (wal != null) {
if (!wal.startCacheFlush(encodedRegionName, flushedFamilyNames)) {
// This should never happen.
String msg = "Flush will not be started for ["
+ this.getRegionInfo().getEncodedName() + "] - because the WAL is closing.";
Long earliestUnflushedSequenceIdForTheRegion =
wal.startCacheFlush(encodedRegionName, flushedFamilyNames);
if (earliestUnflushedSequenceIdForTheRegion == null) {
// This should never happen. This is how startCacheFlush signals flush cannot proceed.
String msg = this.getRegionInfo().getEncodedName() + " flush aborted; WAL closing.";
status.setStatus(msg);
return new PrepareFlushResult(
new FlushResultImpl(FlushResult.Result.CANNOT_FLUSH, msg, false),
myseqid);
}
flushOpSeqId = getNextSequenceId(wal);
long oldestUnflushedSeqId = wal.getEarliestMemstoreSeqNum(encodedRegionName);
// no oldestUnflushedSeqId means we flushed all stores.
// or the unflushed stores are all empty.
flushedSeqId = (oldestUnflushedSeqId == HConstants.NO_SEQNUM) ? flushOpSeqId
: oldestUnflushedSeqId - 1;
// Back up 1, minus 1 from oldest sequence id in memstore to get last 'flushed' edit
flushedSeqId =
earliestUnflushedSequenceIdForTheRegion.longValue() == HConstants.NO_SEQNUM?
flushOpSeqId: earliestUnflushedSequenceIdForTheRegion.longValue() - 1;
} else {
// use the provided sequence Id as WAL is not being used for this flush.
flushedSeqId = flushOpSeqId = myseqid;
@ -2224,6 +2227,14 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
flushedSeqId, totalFlushableSizeOfFlushableStores);
}
/**
* @param families
* @return True if passed Set is all families in the region.
*/
private boolean isAllFamilies(final Collection<Store> families) {
return families == null || this.stores.size() == families.size();
}
/**
* Writes a marker to WAL indicating a flush is requested but cannot be complete due to various
* reasons. Ignores exceptions from WAL. Returns whether the write succeeded.
@ -2339,10 +2350,7 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
this.lastStoreFlushTimeMap.put(store, startTime);
}
// Update the oldest unflushed sequence id for region.
this.maxFlushedSeqId = flushedSeqId;
// Record flush operation sequence id.
this.lastFlushOpSeqId = flushOpSeqId;
// C. Finally notify anyone waiting on memstore to clear:
@ -3696,7 +3704,7 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
// Make request outside of synchronize block; HBASE-818.
this.rsServices.getFlushRequester().requestFlush(this, false);
if (LOG.isDebugEnabled()) {
LOG.debug("Flush requested on " + this);
LOG.debug("Flush requested on " + this.getRegionInfo().getEncodedName());
}
}
@ -4430,7 +4438,7 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
+ seqId + " is greater than current seqId:" + currentSeqId);
// Prepare flush (take a snapshot) and then abort (drop the snapshot)
if (store == null ) {
if (store == null) {
for (Store s : stores.values()) {
totalFreedSize += doDropStoreMemstoreContentsForSeqId(s, currentSeqId);
}
@ -5425,11 +5433,11 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
return scannerContext.setScannerState(NextState.BATCH_LIMIT_REACHED).hasMoreValues();
} else if (scannerContext.checkSizeLimit(limitScope)) {
ScannerContext.NextState state =
moreCellsInRow ? NextState.SIZE_LIMIT_REACHED_MID_ROW : NextState.SIZE_LIMIT_REACHED;
moreCellsInRow? NextState.SIZE_LIMIT_REACHED_MID_ROW: NextState.SIZE_LIMIT_REACHED;
return scannerContext.setScannerState(state).hasMoreValues();
} else if (scannerContext.checkTimeLimit(limitScope)) {
ScannerContext.NextState state =
moreCellsInRow ? NextState.TIME_LIMIT_REACHED_MID_ROW : NextState.TIME_LIMIT_REACHED;
moreCellsInRow? NextState.TIME_LIMIT_REACHED_MID_ROW: NextState.TIME_LIMIT_REACHED;
return scannerContext.setScannerState(state).hasMoreValues();
}
} while (moreCellsInRow);
@ -5869,11 +5877,9 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
* @throws IOException
*/
public static HRegion createHRegion(final HRegionInfo info, final Path rootDir,
final Configuration conf,
final HTableDescriptor hTableDescriptor,
final WAL wal,
final boolean initialize)
throws IOException {
final Configuration conf, final HTableDescriptor hTableDescriptor,
final WAL wal, final boolean initialize)
throws IOException {
LOG.info("creating HRegion " + info.getTable().getNameAsString()
+ " HTD == " + hTableDescriptor + " RootDir = " + rootDir +
" Table name == " + info.getTable().getNameAsString());
@ -6227,6 +6233,7 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
* @param tabledir qualified path for table
* @param name ENCODED region name
* @return Path of HRegion directory
* @deprecated For tests only; to be removed.
*/
@Deprecated
public static Path getRegionDir(final Path tabledir, final String name) {
@ -6239,6 +6246,7 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
* @param rootdir qualified path of HBase root directory
* @param info HRegionInfo for the region
* @return qualified path of region directory
* @deprecated For tests only; to be removed.
*/
@Deprecated
@VisibleForTesting
@ -7058,7 +7066,7 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
newTags.add(itr.next());
}
}
if (i < ( edits.size() - 1) && !CellUtil.matchingQualifier(cell, edits.get(i + 1)))
if (i < (edits.size() - 1) && !CellUtil.matchingQualifier(cell, edits.get(i + 1)))
idx++;
}
@ -7646,6 +7654,8 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
// sync the WAL edit (SYNC and FSYNC treated the same for now)
this.wal.sync(txid);
break;
default:
throw new RuntimeException("Unknown durability " + durability);
}
}
}
@ -7734,8 +7744,7 @@ public class HRegion implements HeapSize, PropagatingConfigurationObserver, Regi
@Override
public long getOldestSeqIdOfStore(byte[] familyName) {
return wal.getEarliestMemstoreSeqNum(getRegionInfo()
.getEncodedNameAsBytes(), familyName);
return wal.getEarliestMemstoreSeqNum(getRegionInfo().getEncodedNameAsBytes(), familyName);
}
@Override

View File

@ -2845,24 +2845,14 @@ public class HRegionServer extends HasThread implements
@Override
public boolean removeFromOnlineRegions(final Region r, ServerName destination) {
Region toReturn = this.onlineRegions.remove(r.getRegionInfo().getEncodedName());
if (destination != null) {
try {
WAL wal = getWAL(r.getRegionInfo());
long closeSeqNum = wal.getEarliestMemstoreSeqNum(r.getRegionInfo().getEncodedNameAsBytes());
if (closeSeqNum == HConstants.NO_SEQNUM) {
// No edits in WAL for this region; get the sequence number when the region was opened.
closeSeqNum = r.getOpenSeqNum();
if (closeSeqNum == HConstants.NO_SEQNUM) {
closeSeqNum = 0;
}
}
addToMovedRegions(r.getRegionInfo().getEncodedName(), destination, closeSeqNum);
} catch (IOException exception) {
LOG.error("Could not retrieve WAL information for region " + r.getRegionInfo() +
"; not adding to moved regions.");
LOG.debug("Exception details for failure to get wal", exception);
long closeSeqNum = r.getMaxFlushedSeqId();
if (closeSeqNum == HConstants.NO_SEQNUM) {
// No edits in WAL for this region; get the sequence number when the region was opened.
closeSeqNum = r.getOpenSeqNum();
if (closeSeqNum == HConstants.NO_SEQNUM) closeSeqNum = 0;
}
addToMovedRegions(r.getRegionInfo().getEncodedName(), destination, closeSeqNum);
}
this.regionFavoredNodesMap.remove(r.getRegionInfo().getEncodedName());
return toReturn != null;

View File

@ -112,16 +112,6 @@ import com.google.common.collect.Sets;
* services is compaction services where files are aggregated once they pass
* a configurable threshold.
*
* <p>The only thing having to do with logs that Store needs to deal with is
* the reconstructionLog. This is a segment of an HRegion's log that might
* NOT be present upon startup. If the param is NULL, there's nothing to do.
* If the param is non-NULL, we need to process the log to reconstruct
* a TreeMap that might not have been written to disk before the process
* died.
*
* <p>It's assumed that after this constructor returns, the reconstructionLog
* file will be deleted (by whoever has instantiated the Store).
*
* <p>Locking and transactions are handled at a higher level. This API should
* not be called directly but by an HRegion manager.
*/
@ -899,8 +889,7 @@ public class HStore implements Store {
}
/**
* Write out current snapshot. Presumes {@link #snapshot()} has been called
* previously.
* Write out current snapshot. Presumes {@link #snapshot()} has been called previously.
* @param logCacheFlushId flush sequence number
* @param snapshot
* @param status

View File

@ -49,6 +49,7 @@ import org.apache.hadoop.hbase.protobuf.generated.ClientProtos.CoprocessorServic
import org.apache.hadoop.hbase.util.Pair;
import org.apache.hadoop.hbase.wal.WALSplitter.MutationReplay;
import com.google.common.annotations.VisibleForTesting;
import com.google.protobuf.Message;
import com.google.protobuf.RpcController;
import com.google.protobuf.Service;
@ -124,10 +125,19 @@ public interface Region extends ConfigurationObserver {
/** @return the latest sequence number that was read from storage when this region was opened */
long getOpenSeqNum();
/** @return the max sequence id of flushed data on this region */
/** @return the max sequence id of flushed data on this region; no edit in memory will have
* a sequence id that is less that what is returned here.
*/
long getMaxFlushedSeqId();
/** @return the oldest sequence id found in the store for the given family */
/** @return the oldest flushed sequence id for the given family; can be beyond
* {@link #getMaxFlushedSeqId()} in case where we've flushed a subset of a regions column
* families
* @deprecated Since version 1.2.0. Exposes too much about our internals; shutting it down.
* Do not use.
*/
@VisibleForTesting
@Deprecated
public long getOldestSeqIdOfStore(byte[] familyName);
/**

View File

@ -29,16 +29,13 @@ import java.net.URLEncoder;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Comparator;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.NavigableMap;
import java.util.Set;
import java.util.TreeMap;
import java.util.UUID;
import java.util.concurrent.BlockingQueue;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
import java.util.concurrent.ConcurrentSkipListMap;
import java.util.concurrent.CopyOnWriteArrayList;
import java.util.concurrent.CountDownLatch;
@ -90,7 +87,6 @@ import org.apache.htrace.Trace;
import org.apache.htrace.TraceScope;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.collect.Maps;
import com.lmax.disruptor.BlockingWaitStrategy;
import com.lmax.disruptor.EventHandler;
import com.lmax.disruptor.ExceptionHandler;
@ -167,7 +163,7 @@ public class FSHLog implements WAL {
private final Disruptor<RingBufferTruck> disruptor;
/**
* An executorservice that runs the disrutpor AppendEventHandler append executor.
* An executorservice that runs the disruptor AppendEventHandler append executor.
*/
private final ExecutorService appendExecutor;
@ -209,6 +205,7 @@ public class FSHLog implements WAL {
* WAL directory, where all WAL files would be placed.
*/
private final Path fullPathLogDir;
/**
* dir path where old logs are kept.
*/
@ -240,6 +237,7 @@ public class FSHLog implements WAL {
* conf object
*/
protected final Configuration conf;
/** Listeners that are called on WAL events. */
private final List<WALActionsListener> listeners = new CopyOnWriteArrayList<WALActionsListener>();
@ -257,6 +255,7 @@ public class FSHLog implements WAL {
public WALCoprocessorHost getCoprocessorHost() {
return coprocessorHost;
}
/**
* FSDataOutputStream associated with the current SequenceFile.writer
*/
@ -287,6 +286,13 @@ public class FSHLog implements WAL {
// Enable it if the replications recover.
private volatile boolean lowReplicationRollEnabled = true;
/**
* Class that does accounting of sequenceids in WAL subsystem. Holds oldest outstanding
* sequence id as yet not flushed as well as the most recent edit sequence id appended to the
* WAL. Has facility for answering questions such as "Is it safe to GC a WAL?".
*/
private SequenceIdAccounting sequenceIdAccounting = new SequenceIdAccounting();
/**
* Current log file.
*/
@ -333,52 +339,6 @@ public class FSHLog implements WAL {
private final AtomicInteger closeErrorCount = new AtomicInteger();
// Region sequence id accounting across flushes and for knowing when we can GC a WAL. These
// sequence id numbers are by region and unrelated to the ring buffer sequence number accounting
// done above in failedSequence, highest sequence, etc.
/**
* This lock ties all operations on lowestFlushingStoreSequenceIds and
* oldestUnflushedStoreSequenceIds Maps with the exception of append's putIfAbsent call into
* oldestUnflushedStoreSequenceIds. We use these Maps to find out the low bound regions
* sequence id, or to find regions with old sequence ids to force flush; we are interested in
* old stuff not the new additions (TODO: IS THIS SAFE? CHECK!).
*/
private final Object regionSequenceIdLock = new Object();
/**
* Map of encoded region names and family names to their OLDEST -- i.e. their first,
* the longest-lived -- sequence id in memstore. Note that this sequence id is the region
* sequence id. This is not related to the id we use above for {@link #highestSyncedSequence}
* and {@link #highestUnsyncedSequence} which is the sequence from the disruptor
* ring buffer.
*/
private final ConcurrentMap<byte[], ConcurrentMap<byte[], Long>> oldestUnflushedStoreSequenceIds
= new ConcurrentSkipListMap<byte[], ConcurrentMap<byte[], Long>>(
Bytes.BYTES_COMPARATOR);
/**
* Map of encoded region names and family names to their lowest or OLDEST sequence/edit id in
* memstore currently being flushed out to hfiles. Entries are moved here from
* {@link #oldestUnflushedStoreSequenceIds} while the lock {@link #regionSequenceIdLock} is held
* (so movement between the Maps is atomic). This is not related to the id we use above for
* {@link #highestSyncedSequence} and {@link #highestUnsyncedSequence} which is the sequence from
* the disruptor ring buffer, an internal detail.
*/
private final Map<byte[], Map<byte[], Long>> lowestFlushingStoreSequenceIds =
new TreeMap<byte[], Map<byte[], Long>>(Bytes.BYTES_COMPARATOR);
/**
* Map of region encoded names to the latest region sequence id. Updated on each append of
* WALEdits to the WAL. We create one map for each WAL file at the time it is rolled.
* <p>When deciding whether to archive a WAL file, we compare the sequence IDs in this map to
* {@link #lowestFlushingRegionSequenceIds} and {@link #oldestUnflushedRegionSequenceIds}.
* See {@link FSHLog#areAllRegionsFlushed(Map, Map, Map)} for more info.
* <p>
* This map uses byte[] as the key, and uses reference equality. It works in our use case as we
* use {@link HRegionInfo#getEncodedNameAsBytes()} as keys. For a given region, it always returns
* the same array.
*/
private Map<byte[], Long> highestRegionSequenceIds = new HashMap<byte[], Long>();
/**
* WAL Comparator; it compares the timestamp (log filenum), present in the log file name.
@ -395,7 +355,7 @@ public class FSHLog implements WAL {
};
/**
* Map of wal log file to the latest sequence ids of all regions it has entries of.
* Map of WAL log file to the latest sequence ids of all regions it has entries of.
* The map is sorted by the log file creation timestamp (contained in the log file name).
*/
private NavigableMap<Path, Map<byte[], Long>> byWalRegionSequenceIds =
@ -541,7 +501,7 @@ public class FSHLog implements WAL {
(long)(blocksize * conf.getFloat("hbase.regionserver.logroll.multiplier", 0.95f));
this.maxLogs = conf.getInt("hbase.regionserver.maxlogs", 32);
this.minTolerableReplication = conf.getInt( "hbase.regionserver.hlog.tolerable.lowreplication",
this.minTolerableReplication = conf.getInt("hbase.regionserver.hlog.tolerable.lowreplication",
FSUtils.getDefaultReplication(fs, this.fullPathLogDir));
this.lowReplicationRollLimit =
conf.getInt("hbase.regionserver.hlog.lowreplication.rolllimit", 5);
@ -744,128 +704,37 @@ public class FSHLog implements WAL {
return DefaultWALProvider.createWriter(conf, fs, path, false);
}
private long getLowestSeqId(Map<byte[], Long> seqIdMap) {
long result = HConstants.NO_SEQNUM;
for (Long seqNum: seqIdMap.values()) {
if (result == HConstants.NO_SEQNUM || seqNum.longValue() < result) {
result = seqNum.longValue();
}
}
return result;
}
private <T extends Map<byte[], Long>> Map<byte[], Long> copyMapWithLowestSeqId(
Map<byte[], T> mapToCopy) {
Map<byte[], Long> copied = Maps.newHashMap();
for (Map.Entry<byte[], T> entry: mapToCopy.entrySet()) {
long lowestSeqId = getLowestSeqId(entry.getValue());
if (lowestSeqId != HConstants.NO_SEQNUM) {
copied.put(entry.getKey(), lowestSeqId);
}
}
return copied;
}
/**
* Archive old logs that could be archived: a log is eligible for archiving if all its WALEdits
* have been flushed to hfiles.
* <p>
* For each log file, it compares its region to sequenceId map
* (@link {@link FSHLog#highestRegionSequenceIds} with corresponding region entries in
* {@link FSHLog#lowestFlushingRegionSequenceIds} and
* {@link FSHLog#oldestUnflushedRegionSequenceIds}. If all the regions in the map are flushed
* past of their value, then the wal is eligible for archiving.
* Archive old logs. A WAL is eligible for archiving if all its WALEdits have been flushed.
* @throws IOException
*/
private void cleanOldLogs() throws IOException {
Map<byte[], Long> lowestFlushingRegionSequenceIdsLocal = null;
Map<byte[], Long> oldestUnflushedRegionSequenceIdsLocal = null;
List<Path> logsToArchive = new ArrayList<Path>();
// make a local copy so as to avoid locking when we iterate over these maps.
synchronized (regionSequenceIdLock) {
lowestFlushingRegionSequenceIdsLocal =
copyMapWithLowestSeqId(this.lowestFlushingStoreSequenceIds);
oldestUnflushedRegionSequenceIdsLocal =
copyMapWithLowestSeqId(this.oldestUnflushedStoreSequenceIds);
}
for (Map.Entry<Path, Map<byte[], Long>> e : byWalRegionSequenceIds.entrySet()) {
// iterate over the log file.
List<Path> logsToArchive = null;
// For each log file, look at its Map of regions to highest sequence id; if all sequence ids
// are older than what is currently in memory, the WAL can be GC'd.
for (Map.Entry<Path, Map<byte[], Long>> e : this.byWalRegionSequenceIds.entrySet()) {
Path log = e.getKey();
Map<byte[], Long> sequenceNums = e.getValue();
// iterate over the map for this log file, and tell whether it should be archive or not.
if (areAllRegionsFlushed(sequenceNums, lowestFlushingRegionSequenceIdsLocal,
oldestUnflushedRegionSequenceIdsLocal)) {
if (this.sequenceIdAccounting.areAllLower(sequenceNums)) {
if (logsToArchive == null) logsToArchive = new ArrayList<Path>();
logsToArchive.add(log);
LOG.debug("WAL file ready for archiving " + log);
if (LOG.isTraceEnabled()) LOG.trace("WAL file ready for archiving " + log);
}
}
for (Path p : logsToArchive) {
this.totalLogSize.addAndGet(-this.fs.getFileStatus(p).getLen());
archiveLogFile(p);
this.byWalRegionSequenceIds.remove(p);
}
}
/**
* Takes a region:sequenceId map for a WAL file, and checks whether the file can be archived.
* It compares the region entries present in the passed sequenceNums map with the local copy of
* {@link #oldestUnflushedRegionSequenceIds} and {@link #lowestFlushingRegionSequenceIds}. If,
* for all regions, the value is lesser than the minimum of values present in the
* oldestFlushing/UnflushedSeqNums, then the wal file is eligible for archiving.
* @param sequenceNums for a WAL, at the time when it was rolled.
* @param oldestFlushingMap
* @param oldestUnflushedMap
* @return true if wal is eligible for archiving, false otherwise.
*/
static boolean areAllRegionsFlushed(Map<byte[], Long> sequenceNums,
Map<byte[], Long> oldestFlushingMap, Map<byte[], Long> oldestUnflushedMap) {
for (Map.Entry<byte[], Long> regionSeqIdEntry : sequenceNums.entrySet()) {
// find region entries in the flushing/unflushed map. If there is no entry, it meansj
// a region doesn't have any unflushed entry.
long oldestFlushing = oldestFlushingMap.containsKey(regionSeqIdEntry.getKey()) ?
oldestFlushingMap.get(regionSeqIdEntry.getKey()) : Long.MAX_VALUE;
long oldestUnFlushed = oldestUnflushedMap.containsKey(regionSeqIdEntry.getKey()) ?
oldestUnflushedMap.get(regionSeqIdEntry.getKey()) : Long.MAX_VALUE;
// do a minimum to be sure to contain oldest sequence Id
long minSeqNum = Math.min(oldestFlushing, oldestUnFlushed);
if (minSeqNum <= regionSeqIdEntry.getValue()) return false;// can't archive
}
return true;
}
/**
* Iterates over the given map of regions, and compares their sequence numbers with corresponding
* entries in {@link #oldestUnflushedRegionSequenceIds}. If the sequence number is greater or
* equal, the region is eligible to flush, otherwise, there is no benefit to flush (from the
* perspective of passed regionsSequenceNums map), because the region has already flushed the
* entries present in the WAL file for which this method is called for (typically, the oldest
* wal file).
* @param regionsSequenceNums
* @return regions which should be flushed (whose sequence numbers are larger than their
* corresponding un-flushed entries.
*/
private byte[][] findEligibleMemstoresToFlush(Map<byte[], Long> regionsSequenceNums) {
List<byte[]> regionsToFlush = null;
// Keeping the old behavior of iterating unflushedSeqNums under oldestSeqNumsLock.
synchronized (regionSequenceIdLock) {
for (Map.Entry<byte[], Long> e: regionsSequenceNums.entrySet()) {
long unFlushedVal = getEarliestMemstoreSeqNum(e.getKey());
if (unFlushedVal != HConstants.NO_SEQNUM && unFlushedVal <= e.getValue()) {
if (regionsToFlush == null)
regionsToFlush = new ArrayList<byte[]>();
regionsToFlush.add(e.getKey());
}
if (logsToArchive != null) {
for (Path p : logsToArchive) {
this.totalLogSize.addAndGet(-this.fs.getFileStatus(p).getLen());
archiveLogFile(p);
this.byWalRegionSequenceIds.remove(p);
}
}
return regionsToFlush == null ? null : regionsToFlush
.toArray(new byte[][] { HConstants.EMPTY_BYTE_ARRAY });
}
/**
* If the number of un-archived WAL files is greater than maximum allowed, it checks
* the first (oldest) WAL file, and returns the regions which should be flushed so that it could
* If the number of un-archived WAL files is greater than maximum allowed, check the first
* (oldest) WAL file, and returns those regions which should be flushed so that it can
* be archived.
* @return regions to flush in order to archive oldest wal file.
* @return regions (encodedRegionNames) to flush in order to archive oldest WAL file.
* @throws IOException
*/
byte[][] findRegionsToForceFlush() throws IOException {
@ -874,7 +743,7 @@ public class FSHLog implements WAL {
if (logCount > this.maxLogs && logCount > 0) {
Map.Entry<Path, Map<byte[], Long>> firstWALEntry =
this.byWalRegionSequenceIds.firstEntry();
regions = findEligibleMemstoresToFlush(firstWALEntry.getValue());
regions = this.sequenceIdAccounting.findLower(firstWALEntry.getValue());
}
if (regions != null) {
StringBuilder sb = new StringBuilder();
@ -882,9 +751,8 @@ public class FSHLog implements WAL {
if (i > 0) sb.append(", ");
sb.append(Bytes.toStringBinary(regions[i]));
}
LOG.info("Too many wals: logs=" + logCount + ", maxlogs=" +
this.maxLogs + "; forcing flush of " + regions.length + " regions(s): " +
sb.toString());
LOG.info("Too many WALs; count=" + logCount + ", max=" + this.maxLogs +
"; forcing flush of " + regions.length + " regions(s): " + sb.toString());
}
return regions;
}
@ -962,8 +830,7 @@ public class FSHLog implements WAL {
this.numEntries.set(0);
final String newPathString = (null == newPath ? null : FSUtils.getPath(newPath));
if (oldPath != null) {
this.byWalRegionSequenceIds.put(oldPath, this.highestRegionSequenceIds);
this.highestRegionSequenceIds = new HashMap<byte[], Long>();
this.byWalRegionSequenceIds.put(oldPath, this.sequenceIdAccounting.resetHighest());
long oldFileLen = this.fs.getFileStatus(oldPath).getLen();
this.totalLogSize.addAndGet(oldFileLen);
LOG.info("Rolled WAL " + FSUtils.getPath(oldPath) + " with entries=" + oldNumEntries +
@ -1107,7 +974,7 @@ public class FSHLog implements WAL {
LOG.debug("Moved " + files.length + " WAL file(s) to " +
FSUtils.getPath(this.fullPathArchiveDir));
}
LOG.info("Closed WAL: " + toString() );
LOG.info("Closed WAL: " + toString());
}
@Override
@ -1630,108 +1497,24 @@ public class FSHLog implements WAL {
}
@Override
public boolean startCacheFlush(final byte[] encodedRegionName,
Set<byte[]> flushedFamilyNames) {
Map<byte[], Long> oldStoreSeqNum = Maps.newTreeMap(Bytes.BYTES_COMPARATOR);
public Long startCacheFlush(final byte[] encodedRegionName, Set<byte[]> families) {
if (!closeBarrier.beginOp()) {
LOG.info("Flush will not be started for " + Bytes.toString(encodedRegionName) +
" - because the server is closing.");
return false;
LOG.info("Flush not started for " + Bytes.toString(encodedRegionName) + "; server closing.");
return null;
}
synchronized (regionSequenceIdLock) {
ConcurrentMap<byte[], Long> oldestUnflushedStoreSequenceIdsOfRegion =
oldestUnflushedStoreSequenceIds.get(encodedRegionName);
if (oldestUnflushedStoreSequenceIdsOfRegion != null) {
for (byte[] familyName: flushedFamilyNames) {
Long seqId = oldestUnflushedStoreSequenceIdsOfRegion.remove(familyName);
if (seqId != null) {
oldStoreSeqNum.put(familyName, seqId);
}
}
if (!oldStoreSeqNum.isEmpty()) {
Map<byte[], Long> oldValue = this.lowestFlushingStoreSequenceIds.put(
encodedRegionName, oldStoreSeqNum);
assert oldValue == null: "Flushing map not cleaned up for "
+ Bytes.toString(encodedRegionName);
}
if (oldestUnflushedStoreSequenceIdsOfRegion.isEmpty()) {
// Remove it otherwise it will be in oldestUnflushedStoreSequenceIds for ever
// even if the region is already moved to other server.
// Do not worry about data racing, we held write lock of region when calling
// startCacheFlush, so no one can add value to the map we removed.
oldestUnflushedStoreSequenceIds.remove(encodedRegionName);
}
}
}
if (oldStoreSeqNum.isEmpty()) {
// TODO: if we have no oldStoreSeqNum, and WAL is not disabled, presumably either
// the region is already flushing (which would make this call invalid), or there
// were no appends after last flush, so why are we starting flush? Maybe we should
// assert not empty. Less rigorous, but safer, alternative is telling the caller to stop.
// For now preserve old logic.
LOG.warn("Couldn't find oldest seqNum for the region we are about to flush: ["
+ Bytes.toString(encodedRegionName) + "]");
}
return true;
return this.sequenceIdAccounting.startCacheFlush(encodedRegionName, families);
}
@Override
public void completeCacheFlush(final byte [] encodedRegionName) {
synchronized (regionSequenceIdLock) {
this.lowestFlushingStoreSequenceIds.remove(encodedRegionName);
}
this.sequenceIdAccounting.completeCacheFlush(encodedRegionName);
closeBarrier.endOp();
}
private ConcurrentMap<byte[], Long> getOrCreateOldestUnflushedStoreSequenceIdsOfRegion(
byte[] encodedRegionName) {
ConcurrentMap<byte[], Long> oldestUnflushedStoreSequenceIdsOfRegion =
oldestUnflushedStoreSequenceIds.get(encodedRegionName);
if (oldestUnflushedStoreSequenceIdsOfRegion != null) {
return oldestUnflushedStoreSequenceIdsOfRegion;
}
oldestUnflushedStoreSequenceIdsOfRegion =
new ConcurrentSkipListMap<byte[], Long>(Bytes.BYTES_COMPARATOR);
ConcurrentMap<byte[], Long> alreadyPut =
oldestUnflushedStoreSequenceIds.putIfAbsent(encodedRegionName,
oldestUnflushedStoreSequenceIdsOfRegion);
return alreadyPut == null ? oldestUnflushedStoreSequenceIdsOfRegion : alreadyPut;
}
@Override
public void abortCacheFlush(byte[] encodedRegionName) {
Map<byte[], Long> storeSeqNumsBeforeFlushStarts;
Map<byte[], Long> currentStoreSeqNums = new TreeMap<byte[], Long>(Bytes.BYTES_COMPARATOR);
synchronized (regionSequenceIdLock) {
storeSeqNumsBeforeFlushStarts = this.lowestFlushingStoreSequenceIds.remove(
encodedRegionName);
if (storeSeqNumsBeforeFlushStarts != null) {
ConcurrentMap<byte[], Long> oldestUnflushedStoreSequenceIdsOfRegion =
getOrCreateOldestUnflushedStoreSequenceIdsOfRegion(encodedRegionName);
for (Map.Entry<byte[], Long> familyNameAndSeqId: storeSeqNumsBeforeFlushStarts
.entrySet()) {
currentStoreSeqNums.put(familyNameAndSeqId.getKey(),
oldestUnflushedStoreSequenceIdsOfRegion.put(familyNameAndSeqId.getKey(),
familyNameAndSeqId.getValue()));
}
}
}
this.sequenceIdAccounting.abortCacheFlush(encodedRegionName);
closeBarrier.endOp();
if (storeSeqNumsBeforeFlushStarts != null) {
for (Map.Entry<byte[], Long> familyNameAndSeqId : storeSeqNumsBeforeFlushStarts.entrySet()) {
Long currentSeqNum = currentStoreSeqNums.get(familyNameAndSeqId.getKey());
if (currentSeqNum != null
&& currentSeqNum.longValue() <= familyNameAndSeqId.getValue().longValue()) {
String errorStr =
"Region " + Bytes.toString(encodedRegionName) + " family "
+ Bytes.toString(familyNameAndSeqId.getKey())
+ " acquired edits out of order current memstore seq=" + currentSeqNum
+ ", previous oldest unflushed id=" + familyNameAndSeqId.getValue();
LOG.error(errorStr);
Runtime.getRuntime().halt(1);
}
}
}
}
@VisibleForTesting
@ -1761,23 +1544,21 @@ public class FSHLog implements WAL {
@Override
public long getEarliestMemstoreSeqNum(byte[] encodedRegionName) {
ConcurrentMap<byte[], Long> oldestUnflushedStoreSequenceIdsOfRegion =
this.oldestUnflushedStoreSequenceIds.get(encodedRegionName);
return oldestUnflushedStoreSequenceIdsOfRegion != null ?
getLowestSeqId(oldestUnflushedStoreSequenceIdsOfRegion) : HConstants.NO_SEQNUM;
// Used by tests. Deprecated as too subtle for general usage.
return this.sequenceIdAccounting.getLowestSequenceId(encodedRegionName);
}
@Override
public long getEarliestMemstoreSeqNum(byte[] encodedRegionName,
byte[] familyName) {
ConcurrentMap<byte[], Long> oldestUnflushedStoreSequenceIdsOfRegion =
this.oldestUnflushedStoreSequenceIds.get(encodedRegionName);
if (oldestUnflushedStoreSequenceIdsOfRegion != null) {
Long result = oldestUnflushedStoreSequenceIdsOfRegion.get(familyName);
return result != null ? result.longValue() : HConstants.NO_SEQNUM;
} else {
return HConstants.NO_SEQNUM;
}
public long getEarliestMemstoreSeqNum(byte[] encodedRegionName, byte[] familyName) {
// This method is used by tests and for figuring if we should flush or not because our
// sequenceids are too old. It is also used reporting the master our oldest sequenceid for use
// figuring what edits can be skipped during log recovery. getEarliestMemStoreSequenceId
// from this.sequenceIdAccounting is looking first in flushingOldestStoreSequenceIds, the
// currently flushing sequence ids, and if anything found there, it is returning these. This is
// the right thing to do for the reporting oldest sequenceids to master; we won't skip edits if
// we crash during the flush. For figuring what to flush, we might get requeued if our sequence
// id is old even though we are currently flushing. This may mean we do too much flushing.
return this.sequenceIdAccounting.getLowestSequenceId(encodedRegionName, familyName);
}
/**
@ -1819,10 +1600,10 @@ public class FSHLog implements WAL {
/**
* For Thread A to call when it is ready to wait on the 'safe point' to be attained.
* Thread A will be held in here until Thread B calls {@link #safePointAttained()}
* @throws InterruptedException
* @throws ExecutionException
* @param syncFuture We need this as barometer on outstanding syncs. If it comes home with
* an exception, then something is up w/ our syncing.
* @throws InterruptedException
* @throws ExecutionException
* @return The passed <code>syncFuture</code>
* @throws FailedSyncBeforeLogCloseException
*/
@ -2013,15 +1794,6 @@ public class FSHLog implements WAL {
}
}
private void updateOldestUnflushedSequenceIds(byte[] encodedRegionName,
Set<byte[]> familyNameSet, Long lRegionSequenceId) {
ConcurrentMap<byte[], Long> oldestUnflushedStoreSequenceIdsOfRegion =
getOrCreateOldestUnflushedStoreSequenceIdsOfRegion(encodedRegionName);
for (byte[] familyName : familyNameSet) {
oldestUnflushedStoreSequenceIdsOfRegion.putIfAbsent(familyName, lRegionSequenceId);
}
}
/**
* Append to the WAL. Does all CP and WAL listener calls.
* @param entry
@ -2066,13 +1838,8 @@ public class FSHLog implements WAL {
writer.append(entry);
assert highestUnsyncedSequence < entry.getSequence();
highestUnsyncedSequence = entry.getSequence();
Long lRegionSequenceId = Long.valueOf(regionSequenceId);
highestRegionSequenceIds.put(encodedRegionName, lRegionSequenceId);
if (entry.isInMemstore()) {
updateOldestUnflushedSequenceIds(encodedRegionName,
entry.getFamilyNames(), lRegionSequenceId);
}
sequenceIdAccounting.update(encodedRegionName, entry.getFamilyNames(), regionSequenceId,
entry.isInMemstore());
coprocessorHost.postWALWrite(entry.getHRegionInfo(), entry.getKey(), entry.getEdit());
// Update metrics.
postAppend(entry, EnvironmentEdgeManager.currentTime() - start);

View File

@ -0,0 +1,363 @@
/**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.hadoop.hbase.regionserver.wal;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.TreeMap;
import java.util.concurrent.ConcurrentMap;
import java.util.concurrent.ConcurrentSkipListMap;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.apache.hadoop.hbase.HConstants;
import org.apache.hadoop.hbase.util.Bytes;
import com.google.common.collect.Maps;
/**
* Accounting of sequence ids per region and then by column family. So we can our accounting
* current, call startCacheFlush and then finishedCacheFlush or abortCacheFlush so this instance
* can keep abreast of the state of sequence id persistence. Also call update per append.
*/
class SequenceIdAccounting {
private static final Log LOG = LogFactory.getLog(SequenceIdAccounting.class);
/**
* This lock ties all operations on {@link SequenceIdAccounting#flushingSequenceIds} and
* {@link #lowestUnflushedSequenceIds} Maps. {@link #lowestUnflushedSequenceIds} has the
* lowest outstanding sequence ids EXCEPT when flushing. When we flush, the current
* lowest set for the region/column family are moved (atomically because of this lock) to
* {@link #flushingSequenceIds}.
*
* <p>The two Maps are tied by this locking object EXCEPT when we go to update the lowest
* entry; see {@link #lowest(byte[], Set, Long)}. In here is a putIfAbsent call on
* {@link #lowestUnflushedSequenceIds}. In this latter case, we will add this lowest
* sequence id if we find that there is no entry for the current column family. There will be no
* entry only if we just came up OR we have moved aside current set of lowest sequence ids
* because the current set are being flushed (by putting them into {@link #flushingSequenceIds}).
* This is how we pick up the next 'lowest' sequence id per region per column family to be used
* figuring what is in the next flush.
*/
private final Object tieLock = new Object();
/**
* Map of encoded region names and family names to their OLDEST -- i.e. their first,
* the longest-lived, their 'earliest', the 'lowest' -- sequence id.
*
* <p>When we flush, the current lowest sequence ids get cleared and added to
* {@link #flushingSequenceIds}. The next append that comes in, is then added
* here to {@link #lowestUnflushedSequenceIds} as the next lowest sequenceid.
*
* <p>If flush fails, currently server is aborted so no need to restore previous sequence ids.
* <p>Needs to be concurrent Maps because we use putIfAbsent updating oldest.
*/
private final ConcurrentMap<byte[], ConcurrentMap<byte[], Long>> lowestUnflushedSequenceIds
= new ConcurrentSkipListMap<byte[], ConcurrentMap<byte[], Long>>(
Bytes.BYTES_COMPARATOR);
/**
* Map of encoded region names and family names to their lowest or OLDEST sequence/edit id
* currently being flushed out to hfiles. Entries are moved here from
* {@link #lowestUnflushedSequenceIds} while the lock {@link #tieLock} is held
* (so movement between the Maps is atomic).
*/
private final Map<byte[], Map<byte[], Long>> flushingSequenceIds =
new TreeMap<byte[], Map<byte[], Long>>(Bytes.BYTES_COMPARATOR);
/**
* Map of region encoded names to the latest/highest region sequence id. Updated on each
* call to append.
* <p>
* This map uses byte[] as the key, and uses reference equality. It works in our use case as we
* use {@link HRegionInfo#getEncodedNameAsBytes()} as keys. For a given region, it always returns
* the same array.
*/
private Map<byte[], Long> highestSequenceIds = new HashMap<byte[], Long>();
/**
* Returns the lowest unflushed sequence id for the region.
* @param encodedRegionName
* @return Lowest outstanding unflushed sequenceid for <code>encodedRegionName</code>. Will
* return {@link HConstants#NO_SEQNUM} when none.
*/
long getLowestSequenceId(final byte [] encodedRegionName) {
synchronized (this.tieLock) {
Map<byte[], Long> m = this.flushingSequenceIds.get(encodedRegionName);
long flushingLowest = m != null? getLowestSequenceId(m): Long.MAX_VALUE;
m = this.lowestUnflushedSequenceIds.get(encodedRegionName);
long unflushedLowest = m != null? getLowestSequenceId(m): HConstants.NO_SEQNUM;
return Math.min(flushingLowest, unflushedLowest);
}
}
/**
* @param encodedRegionName
* @param familyName
* @return Lowest outstanding unflushed sequenceid for <code>encodedRegionname</code> and
* <code>familyName</code>. Returned sequenceid may be for an edit currently being flushed.
*/
long getLowestSequenceId(final byte [] encodedRegionName, final byte [] familyName) {
synchronized (this.tieLock) {
Map<byte[], Long> m = this.flushingSequenceIds.get(encodedRegionName);
if (m != null) {
Long lowest = m.get(familyName);
if (lowest != null) return lowest;
}
m = this.lowestUnflushedSequenceIds.get(encodedRegionName);
if (m != null) {
Long lowest = m.get(familyName);
if (lowest != null) return lowest;
}
}
return HConstants.NO_SEQNUM;
}
/**
* Reset the accounting of highest sequenceid by regionname.
* @return Return the previous accounting Map of regions to the last sequence id written into
* each.
*/
Map<byte[], Long> resetHighest() {
Map<byte[], Long> old = this.highestSequenceIds;
this.highestSequenceIds = new HashMap<byte[], Long>();
return old;
}
/**
* We've been passed a new sequenceid for the region. Set it as highest seen for this region and
* if we are to record oldest, or lowest sequenceids, save it as oldest seen if nothing
* currently older.
* @param encodedRegionName
* @param families
* @param sequenceid
* @param lowest Whether to keep running account of oldest sequence id.
*/
void update(byte[] encodedRegionName, Set<byte[]> families, long sequenceid,
final boolean lowest) {
Long l = Long.valueOf(sequenceid);
this.highestSequenceIds.put(encodedRegionName, l);
if (lowest) {
ConcurrentMap<byte[], Long> m = getOrCreateLowestSequenceIds(encodedRegionName);
for (byte[] familyName : families) {
m.putIfAbsent(familyName, l);
}
}
}
ConcurrentMap<byte[], Long> getOrCreateLowestSequenceIds(byte[] encodedRegionName) {
// Intentionally, this access is done outside of this.regionSequenceIdLock. Done per append.
ConcurrentMap<byte[], Long> m = this.lowestUnflushedSequenceIds.get(encodedRegionName);
if (m != null) return m;
m = new ConcurrentSkipListMap<byte[], Long>(Bytes.BYTES_COMPARATOR);
// Another thread may have added it ahead of us.
ConcurrentMap<byte[], Long> alreadyPut =
this.lowestUnflushedSequenceIds.putIfAbsent(encodedRegionName, m);
return alreadyPut == null? m : alreadyPut;
}
/**
* @param sequenceids Map to search for lowest value.
* @return Lowest value found in <code>sequenceids</code>.
*/
static long getLowestSequenceId(Map<byte[], Long> sequenceids) {
long lowest = HConstants.NO_SEQNUM;
for (Long sid: sequenceids.values()) {
if (lowest == HConstants.NO_SEQNUM || sid.longValue() < lowest) {
lowest = sid.longValue();
}
}
return lowest;
}
/**
* @param src
* @return New Map that has same keys as <code>src</code> but instead of a Map for a value, it
* instead has found the smallest sequence id and it returns that as the value instead.
*/
private <T extends Map<byte[], Long>> Map<byte[], Long> flattenToLowestSequenceId(
Map<byte[], T> src) {
if (src == null || src.isEmpty()) return null;
Map<byte[], Long> tgt = Maps.newHashMap();
for (Map.Entry<byte[], T> entry: src.entrySet()) {
long lowestSeqId = getLowestSequenceId(entry.getValue());
if (lowestSeqId != HConstants.NO_SEQNUM) {
tgt.put(entry.getKey(), lowestSeqId);
}
}
return tgt;
}
/**
* @param encodedRegionName Region to flush.
* @param families Families to flush. May be a subset of all families in the region.
* @return Returns {@link HConstants#NO_SEQNUM} if we are flushing the whole region OR if
* we are flushing a subset of all families but there are no edits in those families not
* being flushed; in other words, this is effectively same as a flush of all of the region
* though we were passed a subset of regions. Otherwise, it returns the sequence id of the
* oldest/lowest outstanding edit.
*/
Long startCacheFlush(final byte[] encodedRegionName, final Set<byte[]> families) {
Map<byte[], Long> oldSequenceIds = null;
Long lowestUnflushedInRegion = HConstants.NO_SEQNUM;
synchronized (tieLock) {
Map<byte[], Long> m = this.lowestUnflushedSequenceIds.get(encodedRegionName);
if (m != null) {
// NOTE: Removal from this.lowestUnflushedSequenceIds must be done in controlled
// circumstance because another concurrent thread now may add sequenceids for this family
// (see above in getOrCreateLowestSequenceId). Make sure you are ok with this. Usually it
// is fine because updates are blocked when this method is called. Make sure!!!
for (byte[] familyName: families) {
Long seqId = m.remove(familyName);
if (seqId != null) {
if (oldSequenceIds == null) oldSequenceIds = Maps.newTreeMap(Bytes.BYTES_COMPARATOR);
oldSequenceIds.put(familyName, seqId);
}
}
if (oldSequenceIds != null && !oldSequenceIds.isEmpty()) {
if (this.flushingSequenceIds.put(encodedRegionName, oldSequenceIds) != null) {
LOG.warn("Flushing Map not cleaned up for " + Bytes.toString(encodedRegionName) +
", sequenceid=" + oldSequenceIds);
}
}
if (m.isEmpty()) {
// Remove it otherwise it will be in oldestUnflushedStoreSequenceIds for ever
// even if the region is already moved to other server.
// Do not worry about data racing, we held write lock of region when calling
// startCacheFlush, so no one can add value to the map we removed.
this.lowestUnflushedSequenceIds.remove(encodedRegionName);
} else {
// Flushing a subset of the region families. Return the sequence id of the oldest entry.
lowestUnflushedInRegion = Collections.min(m.values());
}
}
}
// Do this check outside lock.
if (oldSequenceIds != null && oldSequenceIds.isEmpty()) {
// TODO: if we have no oldStoreSeqNum, and WAL is not disabled, presumably either
// the region is already flushing (which would make this call invalid), or there
// were no appends after last flush, so why are we starting flush? Maybe we should
// assert not empty. Less rigorous, but safer, alternative is telling the caller to stop.
// For now preserve old logic.
LOG.warn("Couldn't find oldest sequenceid for " + Bytes.toString(encodedRegionName));
}
return lowestUnflushedInRegion;
}
void completeCacheFlush(final byte [] encodedRegionName) {
synchronized (tieLock) {
this.flushingSequenceIds.remove(encodedRegionName);
}
}
void abortCacheFlush(final byte[] encodedRegionName) {
// Method is called when we are crashing down because failed write flush AND it is called
// if we fail prepare. The below is for the fail prepare case; we restore the old sequence ids.
Map<byte[], Long> flushing = null;
Map<byte[], Long> tmpMap = new TreeMap<byte[], Long>(Bytes.BYTES_COMPARATOR);
// Here we are moving sequenceids from flushing back to unflushed; doing opposite of what
// happened in startCacheFlush. During prepare phase, we have update lock on the region so
// no edits should be coming in via append.
synchronized (tieLock) {
flushing = this.flushingSequenceIds.remove(encodedRegionName);
if (flushing != null) {
Map<byte[], Long> unflushed = getOrCreateLowestSequenceIds(encodedRegionName);
for (Map.Entry<byte[], Long> e: flushing.entrySet()) {
// Set into unflushed the 'old' oldest sequenceid and if any value in flushed with this
// value, it will now be in tmpMap.
tmpMap.put(e.getKey(), unflushed.put(e.getKey(), e.getValue()));
}
}
}
// Here we are doing some 'test' to see if edits are going in out of order. What is it for?
// Carried over from old code.
if (flushing != null) {
for (Map.Entry<byte[], Long> e : flushing.entrySet()) {
Long currentId = tmpMap.get(e.getKey());
if (currentId != null && currentId.longValue() <= e.getValue().longValue()) {
String errorStr = Bytes.toString(encodedRegionName) + " family " +
Bytes.toString(e.getKey()) + " acquired edits out of order current memstore seq=" +
currentId + ", previous oldest unflushed id=" + e.getValue();
LOG.error(errorStr);
Runtime.getRuntime().halt(1);
}
}
}
}
/**
* See if passed <code>sequenceids</code> are lower -- i.e. earlier -- than any outstanding
* sequenceids, sequenceids we are holding on to in this accounting instance.
* @param sequenceids Keyed by encoded region name. Cannot be null (doesn't make
* sense for it to be null).
* @return true if all sequenceids are lower, older than, the old sequenceids in this instance.
*/
boolean areAllLower(Map<byte[], Long> sequenceids) {
Map<byte[], Long> flushing = null;
Map<byte[], Long> unflushed = null;
synchronized (this.tieLock) {
// Get a flattened -- only the oldest sequenceid -- copy of current flushing and unflushed
// data structures to use in tests below.
flushing = flattenToLowestSequenceId(this.flushingSequenceIds);
unflushed = flattenToLowestSequenceId(this.lowestUnflushedSequenceIds);
}
for (Map.Entry<byte[], Long> e : sequenceids.entrySet()) {
long oldestFlushing = Long.MAX_VALUE;
long oldestUnflushed = Long.MAX_VALUE;
if (flushing != null) {
if (flushing.containsKey(e.getKey())) oldestFlushing = flushing.get(e.getKey());
}
if (unflushed != null) {
if (unflushed.containsKey(e.getKey())) oldestUnflushed = unflushed.get(e.getKey());
}
long min = Math.min(oldestFlushing, oldestUnflushed);
if (min <= e.getValue()) return false;
}
return true;
}
/**
* Iterates over the given Map and compares sequence ids with corresponding
* entries in {@link #oldestUnflushedRegionSequenceIds}. If a region in
* {@link #oldestUnflushedRegionSequenceIds} has a sequence id less than that passed
* in <code>sequenceids</code> then return it.
* @param sequenceids Sequenceids keyed by encoded region name.
* @return regions found in this instance with sequence ids less than those passed in.
*/
byte[][] findLower(Map<byte[], Long> sequenceids) {
List<byte[]> toFlush = null;
// Keeping the old behavior of iterating unflushedSeqNums under oldestSeqNumsLock.
synchronized (tieLock) {
for (Map.Entry<byte[], Long> e: sequenceids.entrySet()) {
Map<byte[], Long> m = this.lowestUnflushedSequenceIds.get(e.getKey());
if (m == null) continue;
// The lowest sequence id outstanding for this region.
long lowest = getLowestSequenceId(m);
if (lowest != HConstants.NO_SEQNUM && lowest <= e.getValue()) {
if (toFlush == null) toFlush = new ArrayList<byte[]>();
toFlush.add(e.getKey());
}
}
}
return toFlush == null? null: toFlush.toArray(new byte[][] { HConstants.EMPTY_BYTE_ARRAY });
}
}

View File

@ -186,8 +186,9 @@ class DisabledWALProvider implements WALProvider {
}
@Override
public boolean startCacheFlush(final byte[] encodedRegionName, Set<byte[]> flushedFamilyNames) {
return !(closed.get());
public Long startCacheFlush(final byte[] encodedRegionName, Set<byte[]> flushedFamilyNames) {
if (closed.get()) return null;
return HConstants.NO_SEQNUM;
}
@Override

View File

@ -28,6 +28,7 @@ import java.util.concurrent.atomic.AtomicLong;
import org.apache.hadoop.hbase.classification.InterfaceStability;
import org.apache.hadoop.hbase.classification.InterfaceAudience;
import org.apache.hadoop.hbase.Cell;
import org.apache.hadoop.hbase.HConstants;
import org.apache.hadoop.hbase.HRegionInfo;
import org.apache.hadoop.hbase.HTableDescriptor;
@ -39,6 +40,8 @@ import org.apache.hadoop.hbase.regionserver.wal.WALActionsListener;
import org.apache.hadoop.hbase.regionserver.wal.WALCoprocessorHost;
import org.apache.hadoop.hbase.regionserver.wal.WALEdit;
import com.google.common.annotations.VisibleForTesting;
/**
* A Write Ahead Log (WAL) provides service for reading, writing waledits. This interface provides
* APIs for WAL users (such as RegionServer) to use the WAL (do append, sync, etc).
@ -140,31 +143,36 @@ public interface WAL {
void sync(long txid) throws IOException;
/**
* WAL keeps track of the sequence numbers that were not yet flushed from memstores
* in order to be able to do cleanup. This method tells WAL that some region is about
* to flush memstore.
* WAL keeps track of the sequence numbers that are as yet not flushed im memstores
* in order to be able to do accounting to figure which WALs can be let go. This method tells WAL
* that some region is about to flush. The flush can be the whole region or for a column family
* of the region only.
*
* <p>We stash the oldest seqNum for the region, and let the the next edit inserted in this
* region be recorded in {@link #append(HTableDescriptor, HRegionInfo, WALKey, WALEdit,
* AtomicLong, boolean, List)} as new oldest seqnum.
* In case of flush being aborted, we put the stashed value back; in case of flush succeeding,
* the seqNum of that first edit after start becomes the valid oldest seqNum for this region.
*
* @return true if the flush can proceed, false in case wal is closing (ususally, when server is
* closing) and flush couldn't be started.
* <p>Currently, it is expected that the update lock is held for the region; i.e. no
* concurrent appends while we set up cache flush.
* @param families Families to flush. May be a subset of all families in the region.
* @return Returns {@link HConstants#NO_SEQNUM} if we are flushing the whole region OR if
* we are flushing a subset of all families but there are no edits in those families not
* being flushed; in other words, this is effectively same as a flush of all of the region
* though we were passed a subset of regions. Otherwise, it returns the sequence id of the
* oldest/lowest outstanding edit.
* @see #completeCacheFlush(byte[])
* @see #abortCacheFlush(byte[])
*/
boolean startCacheFlush(final byte[] encodedRegionName, Set<byte[]> flushedFamilyNames);
Long startCacheFlush(final byte[] encodedRegionName, Set<byte[]> families);
/**
* Complete the cache flush.
* @param encodedRegionName Encoded region name.
* @see #startCacheFlush(byte[], Set)
* @see #abortCacheFlush(byte[])
*/
void completeCacheFlush(final byte[] encodedRegionName);
/**
* Abort a cache flush. Call if the flush fails. Note that the only recovery
* for an aborted flush currently is a restart of the regionserver so the
* snapshot content dropped by the failure gets restored to the memstore.v
* snapshot content dropped by the failure gets restored to the memstore.
* @param encodedRegionName Encoded region name.
*/
void abortCacheFlush(byte[] encodedRegionName);
@ -174,19 +182,22 @@ public interface WAL {
*/
WALCoprocessorHost getCoprocessorHost();
/** Gets the earliest sequence number in the memstore for this particular region.
* This can serve as best-effort "recent" WAL number for this region.
/**
* Gets the earliest unflushed sequence id in the memstore for the region.
* @param encodedRegionName The region to get the number for.
* @return The number if present, HConstants.NO_SEQNUM if absent.
* @return The earliest/lowest/oldest sequence id if present, HConstants.NO_SEQNUM if absent.
* @deprecated Since version 1.2.0. Removing because not used and exposes subtle internal
* workings. Use {@link #getEarliestMemstoreSeqNum(byte[], byte[])}
*/
@VisibleForTesting
@Deprecated
long getEarliestMemstoreSeqNum(byte[] encodedRegionName);
/**
* Gets the earliest sequence number in the memstore for this particular region and store.
* Gets the earliest unflushed sequence id in the memstore for the store.
* @param encodedRegionName The region to get the number for.
* @param familyName The family to get the number for.
* @return The number if present, HConstants.NO_SEQNUM if absent.
* @return The earliest/lowest/oldest sequence id if present, HConstants.NO_SEQNUM if absent.
*/
long getEarliestMemstoreSeqNum(byte[] encodedRegionName, byte[] familyName);

View File

@ -123,6 +123,7 @@ import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.Preconditions;
import com.google.common.collect.Lists;
import com.google.protobuf.ServiceException;
import com.google.protobuf.TextFormat;
/**
* This class is responsible for splitting up a bunch of regionserver commit log
@ -315,15 +316,19 @@ public class WALSplitter {
failedServerName = (serverName == null) ? "" : serverName.getServerName();
while ((entry = getNextLogLine(in, logPath, skipErrors)) != null) {
byte[] region = entry.getKey().getEncodedRegionName();
String key = Bytes.toString(region);
lastFlushedSequenceId = lastFlushedSequenceIds.get(key);
String encodedRegionNameAsStr = Bytes.toString(region);
lastFlushedSequenceId = lastFlushedSequenceIds.get(encodedRegionNameAsStr);
if (lastFlushedSequenceId == null) {
if (this.distributedLogReplay) {
RegionStoreSequenceIds ids =
csm.getSplitLogWorkerCoordination().getRegionFlushedSequenceId(failedServerName,
key);
encodedRegionNameAsStr);
if (ids != null) {
lastFlushedSequenceId = ids.getLastFlushedSequenceId();
if (LOG.isDebugEnabled()) {
LOG.debug("DLR Last flushed sequenceid for " + encodedRegionNameAsStr + ": " +
TextFormat.shortDebugString(ids));
}
}
} else if (sequenceIdChecker != null) {
RegionStoreSequenceIds ids = sequenceIdChecker.getLastSequenceId(region);
@ -332,13 +337,17 @@ public class WALSplitter {
maxSeqIdInStores.put(storeSeqId.getFamilyName().toByteArray(),
storeSeqId.getSequenceId());
}
regionMaxSeqIdInStores.put(key, maxSeqIdInStores);
regionMaxSeqIdInStores.put(encodedRegionNameAsStr, maxSeqIdInStores);
lastFlushedSequenceId = ids.getLastFlushedSequenceId();
if (LOG.isDebugEnabled()) {
LOG.debug("DLS Last flushed sequenceid for " + encodedRegionNameAsStr + ": " +
TextFormat.shortDebugString(ids));
}
}
if (lastFlushedSequenceId == null) {
lastFlushedSequenceId = -1L;
}
lastFlushedSequenceIds.put(key, lastFlushedSequenceId);
lastFlushedSequenceIds.put(encodedRegionNameAsStr, lastFlushedSequenceId);
}
if (lastFlushedSequenceId >= entry.getKey().getLogSeqNum()) {
editsSkipped++;
@ -1063,7 +1072,7 @@ public class WALSplitter {
}
private void doRun() throws IOException {
LOG.debug("Writer thread " + this + ": starting");
if (LOG.isTraceEnabled()) LOG.trace("Writer thread starting");
while (true) {
RegionEntryBuffer buffer = entryBuffers.getChunkToWrite();
if (buffer == null) {
@ -1218,7 +1227,8 @@ public class WALSplitter {
}
}
controller.checkForErrors();
LOG.info("Split writers finished");
LOG.info((this.writerThreads == null? 0: this.writerThreads.size()) +
" split writers finished; closing...");
return (!progress_failed);
}
@ -1309,12 +1319,14 @@ public class WALSplitter {
CompletionService<Void> completionService =
new ExecutorCompletionService<Void>(closeThreadPool);
for (final Map.Entry<byte[], SinkWriter> writersEntry : writers.entrySet()) {
LOG.debug("Submitting close of " + ((WriterAndPath)writersEntry.getValue()).p);
if (LOG.isTraceEnabled()) {
LOG.trace("Submitting close of " + ((WriterAndPath)writersEntry.getValue()).p);
}
completionService.submit(new Callable<Void>() {
@Override
public Void call() throws Exception {
WriterAndPath wap = (WriterAndPath) writersEntry.getValue();
LOG.debug("Closing " + wap.p);
if (LOG.isTraceEnabled()) LOG.trace("Closing " + wap.p);
try {
wap.w.close();
} catch (IOException ioe) {
@ -1322,8 +1334,8 @@ public class WALSplitter {
thrown.add(ioe);
return null;
}
LOG.info("Closed wap " + wap.p + " (wrote " + wap.editsWritten + " edits in "
+ (wap.nanosSpent / 1000 / 1000) + "ms)");
LOG.info("Closed " + wap.p + "; wrote " + wap.editsWritten + " edit(s) in "
+ (wap.nanosSpent / 1000 / 1000) + "ms");
if (wap.editsWritten == 0) {
// just remove the empty recovered.edits file
@ -1482,8 +1494,8 @@ public class WALSplitter {
}
}
Writer w = createWriter(regionedits);
LOG.info("Creating writer path=" + regionedits + " region=" + Bytes.toStringBinary(region));
return (new WriterAndPath(regionedits, w));
LOG.debug("Creating writer path=" + regionedits);
return new WriterAndPath(regionedits, w);
}
private void filterCellByStore(Entry logEntry) {
@ -1497,6 +1509,7 @@ public class WALSplitter {
if (!CellUtil.matchingFamily(cell, WALEdit.METAFAMILY)) {
byte[] family = CellUtil.cloneFamily(cell);
Long maxSeqId = maxSeqIdInStores.get(family);
LOG.info("CHANGE REMOVE " + Bytes.toString(family) + ", max=" + maxSeqId);
// Do not skip cell even if maxSeqId is null. Maybe we are in a rolling upgrade,
// or the master was crashed before and we can not get the information.
if (maxSeqId != null && maxSeqId.longValue() >= logEntry.getKey().getLogSeqNum()) {
@ -1536,9 +1549,9 @@ public class WALSplitter {
filterCellByStore(logEntry);
if (!logEntry.getEdit().isEmpty()) {
wap.w.append(logEntry);
this.updateRegionMaximumEditLogSeqNum(logEntry);
editsCount++;
}
this.updateRegionMaximumEditLogSeqNum(logEntry);
editsCount++;
}
// Pass along summary statistics
wap.incrementEdits(editsCount);

View File

@ -19,7 +19,6 @@ package org.apache.hadoop.hbase.ipc;
import org.apache.hadoop.hbase.testclassification.RPCTests;
import org.apache.hadoop.hbase.testclassification.SmallTests;
import org.apache.hadoop.hbase.security.UserProvider;
import org.junit.Test;
import org.junit.experimental.categories.Category;
import org.mockito.Mockito;

View File

@ -91,6 +91,7 @@ public class TestGetLastFlushedSequenceId {
testUtil.getHBaseCluster().getMaster()
.getLastSequenceId(region.getRegionInfo().getEncodedNameAsBytes());
assertEquals(HConstants.NO_SEQNUM, ids.getLastFlushedSequenceId());
// This will be the sequenceid just before that of the earliest edit in memstore.
long storeSequenceId = ids.getStoreSequenceId(0).getSequenceId();
assertTrue(storeSequenceId > 0);
testUtil.getHBaseAdmin().flush(tableName);

View File

@ -230,6 +230,35 @@ public class TestHRegion {
return name.getMethodName();
}
/**
* Test that I can use the max flushed sequence id after the close.
* @throws IOException
*/
@Test (timeout = 100000)
public void testSequenceId() throws IOException {
HRegion region = initHRegion(tableName, name.getMethodName(), CONF, COLUMN_FAMILY_BYTES);
assertEquals(HConstants.NO_SEQNUM, region.getMaxFlushedSeqId());
// Weird. This returns 0 if no store files or no edits. Afraid to change it.
assertEquals(0, (long)region.getMaxStoreSeqId().get(COLUMN_FAMILY_BYTES));
region.close();
assertEquals(HConstants.NO_SEQNUM, region.getMaxFlushedSeqId());
assertEquals(0, (long)region.getMaxStoreSeqId().get(COLUMN_FAMILY_BYTES));
// Open region again.
region = initHRegion(tableName, name.getMethodName(), CONF, COLUMN_FAMILY_BYTES);
byte [] value = Bytes.toBytes(name.getMethodName());
// Make a random put against our cf.
Put put = new Put(value);
put.addColumn(COLUMN_FAMILY_BYTES, null, value);
region.put(put);
// No flush yet so init numbers should still be in place.
assertEquals(HConstants.NO_SEQNUM, region.getMaxFlushedSeqId());
assertEquals(0, (long)region.getMaxStoreSeqId().get(COLUMN_FAMILY_BYTES));
region.flush(true);
long max = region.getMaxFlushedSeqId();
region.close();
assertEquals(max, region.getMaxFlushedSeqId());
}
/**
* Test for Bug 2 of HBASE-10466.
* "Bug 2: Conditions for the first flush of region close (so-called pre-flush) If memstoreSize

View File

@ -0,0 +1,149 @@
/**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.hadoop.hbase.regionserver;
import static org.junit.Assert.assertArrayEquals;
import static org.junit.Assert.assertTrue;
import static org.mockito.Mockito.doAnswer;
import static org.mockito.Mockito.spy;
import java.io.IOException;
import java.util.Collection;
import org.apache.commons.lang.mutable.MutableBoolean;
import org.apache.hadoop.hbase.DroppedSnapshotException;
import org.apache.hadoop.hbase.HBaseTestingUtility;
import org.apache.hadoop.hbase.HColumnDescriptor;
import org.apache.hadoop.hbase.HConstants;
import org.apache.hadoop.hbase.HTableDescriptor;
import org.apache.hadoop.hbase.NamespaceDescriptor;
import org.apache.hadoop.hbase.TableName;
import org.apache.hadoop.hbase.client.Connection;
import org.apache.hadoop.hbase.client.Get;
import org.apache.hadoop.hbase.client.HBaseAdmin;
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.monitoring.MonitoredTask;
import org.apache.hadoop.hbase.regionserver.HRegion.PrepareFlushResult;
import org.apache.hadoop.hbase.regionserver.Region.FlushResult;
import org.apache.hadoop.hbase.testclassification.MediumTests;
import org.apache.hadoop.hbase.util.Bytes;
import org.apache.hadoop.hbase.util.EnvironmentEdgeManager;
import org.apache.hadoop.hbase.wal.WAL;
import org.junit.After;
import org.junit.Before;
import org.junit.Test;
import org.junit.experimental.categories.Category;
import org.mockito.Matchers;
import org.mockito.invocation.InvocationOnMock;
import org.mockito.stubbing.Answer;
import org.mortbay.log.Log;
/**
* Testcase for https://issues.apache.org/jira/browse/HBASE-13811
*/
@Category({ MediumTests.class })
public class TestSplitWalDataLoss {
private final HBaseTestingUtility testUtil = new HBaseTestingUtility();
private NamespaceDescriptor namespace = NamespaceDescriptor.create(getClass().getSimpleName())
.build();
private TableName tableName = TableName.valueOf(namespace.getName(), "dataloss");
private byte[] family = Bytes.toBytes("f");
private byte[] qualifier = Bytes.toBytes("q");
@Before
public void setUp() throws Exception {
testUtil.getConfiguration().setInt("hbase.regionserver.msginterval", 30000);
testUtil.getConfiguration().setBoolean(HConstants.DISTRIBUTED_LOG_REPLAY_KEY, false);
testUtil.startMiniCluster(2);
HBaseAdmin admin = testUtil.getHBaseAdmin();
admin.createNamespace(namespace);
admin.createTable(new HTableDescriptor(tableName).addFamily(new HColumnDescriptor(family)));
testUtil.waitTableAvailable(tableName);
}
@After
public void tearDown() throws Exception {
testUtil.shutdownMiniCluster();
}
@Test
public void test() throws IOException, InterruptedException {
final HRegionServer rs = testUtil.getRSForFirstRegionInTable(tableName);
final HRegion region = (HRegion) rs.getOnlineRegions(tableName).get(0);
HRegion spiedRegion = spy(region);
final MutableBoolean flushed = new MutableBoolean(false);
final MutableBoolean reported = new MutableBoolean(false);
doAnswer(new Answer<FlushResult>() {
@Override
public FlushResult answer(InvocationOnMock invocation) throws Throwable {
synchronized (flushed) {
flushed.setValue(true);
flushed.notifyAll();
}
synchronized (reported) {
while (!reported.booleanValue()) {
reported.wait();
}
}
rs.getWAL(region.getRegionInfo()).abortCacheFlush(
region.getRegionInfo().getEncodedNameAsBytes());
throw new DroppedSnapshotException("testcase");
}
}).when(spiedRegion).internalFlushCacheAndCommit(Matchers.<WAL> any(),
Matchers.<MonitoredTask> any(), Matchers.<PrepareFlushResult> any(),
Matchers.<Collection<Store>> any());
rs.onlineRegions.put(rs.onlineRegions.keySet().iterator().next(), spiedRegion);
Connection conn = testUtil.getConnection();
try (Table table = conn.getTable(tableName)) {
table.put(new Put(Bytes.toBytes("row0")).addColumn(family, qualifier, Bytes.toBytes("val0")));
}
long oldestSeqIdOfStore = region.getOldestSeqIdOfStore(family);
Log.info("CHANGE OLDEST " + oldestSeqIdOfStore);
assertTrue(oldestSeqIdOfStore > HConstants.NO_SEQNUM);
rs.cacheFlusher.requestFlush(spiedRegion, false);
synchronized (flushed) {
while (!flushed.booleanValue()) {
flushed.wait();
}
}
try (Table table = conn.getTable(tableName)) {
table.put(new Put(Bytes.toBytes("row1")).addColumn(family, qualifier, Bytes.toBytes("val1")));
}
long now = EnvironmentEdgeManager.currentTime();
rs.tryRegionServerReport(now - 500, now);
synchronized (reported) {
reported.setValue(true);
reported.notifyAll();
}
while (testUtil.getRSForFirstRegionInTable(tableName) == rs) {
Thread.sleep(100);
}
try (Table table = conn.getTable(tableName)) {
Result result = table.get(new Get(Bytes.toBytes("row0")));
assertArrayEquals(Bytes.toBytes("val0"), result.getValue(family, qualifier));
}
}
}

View File

@ -19,7 +19,6 @@
package org.apache.hadoop.hbase.regionserver.wal;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertNotNull;
import static org.junit.Assert.assertTrue;
import static org.junit.Assert.fail;
@ -27,9 +26,7 @@ import static org.junit.Assert.fail;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Comparator;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.UUID;
import java.util.concurrent.atomic.AtomicLong;
@ -322,53 +319,6 @@ public class TestFSHLog {
}
}
/**
* Simulates WAL append ops for a region and tests
* {@link FSHLog#areAllRegionsFlushed(Map, Map, Map)} API.
* It compares the region sequenceIds with oldestFlushing and oldestUnFlushed entries.
* If a region's entries are larger than min of (oldestFlushing, oldestUnFlushed), then the
* region should be flushed before archiving this WAL.
*/
@Test
public void testAllRegionsFlushed() {
LOG.debug("testAllRegionsFlushed");
Map<byte[], Long> oldestFlushingSeqNo = new HashMap<byte[], Long>();
Map<byte[], Long> oldestUnFlushedSeqNo = new HashMap<byte[], Long>();
Map<byte[], Long> seqNo = new HashMap<byte[], Long>();
// create a table
TableName t1 = TableName.valueOf("t1");
// create a region
HRegionInfo hri1 = new HRegionInfo(t1, HConstants.EMPTY_START_ROW, HConstants.EMPTY_END_ROW);
// variables to mock region sequenceIds
final AtomicLong sequenceId1 = new AtomicLong(1);
// test empty map
assertTrue(FSHLog.areAllRegionsFlushed(seqNo, oldestFlushingSeqNo, oldestUnFlushedSeqNo));
// add entries in the region
seqNo.put(hri1.getEncodedNameAsBytes(), sequenceId1.incrementAndGet());
oldestUnFlushedSeqNo.put(hri1.getEncodedNameAsBytes(), sequenceId1.get());
// should say region1 is not flushed.
assertFalse(FSHLog.areAllRegionsFlushed(seqNo, oldestFlushingSeqNo, oldestUnFlushedSeqNo));
// test with entries in oldestFlushing map.
oldestUnFlushedSeqNo.clear();
oldestFlushingSeqNo.put(hri1.getEncodedNameAsBytes(), sequenceId1.get());
assertFalse(FSHLog.areAllRegionsFlushed(seqNo, oldestFlushingSeqNo, oldestUnFlushedSeqNo));
// simulate region flush, i.e., clear oldestFlushing and oldestUnflushed maps
oldestFlushingSeqNo.clear();
oldestUnFlushedSeqNo.clear();
assertTrue(FSHLog.areAllRegionsFlushed(seqNo, oldestFlushingSeqNo, oldestUnFlushedSeqNo));
// insert some large values for region1
oldestUnFlushedSeqNo.put(hri1.getEncodedNameAsBytes(), 1000l);
seqNo.put(hri1.getEncodedNameAsBytes(), 1500l);
assertFalse(FSHLog.areAllRegionsFlushed(seqNo, oldestFlushingSeqNo, oldestUnFlushedSeqNo));
// tests when oldestUnFlushed/oldestFlushing contains larger value.
// It means region is flushed.
oldestFlushingSeqNo.put(hri1.getEncodedNameAsBytes(), 1200l);
oldestUnFlushedSeqNo.clear();
seqNo.put(hri1.getEncodedNameAsBytes(), 1199l);
assertTrue(FSHLog.areAllRegionsFlushed(seqNo, oldestFlushingSeqNo, oldestUnFlushedSeqNo));
}
@Test(expected=IOException.class)
public void testFailedToCreateWALIfParentRenamed() throws IOException {
final String name = "testFailedToCreateWALIfParentRenamed";

View File

@ -0,0 +1,132 @@
/**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.hadoop.hbase.regionserver.wal;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertTrue;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;
import org.apache.hadoop.hbase.HConstants;
import org.apache.hadoop.hbase.testclassification.SmallTests;
import org.apache.hadoop.hbase.util.Bytes;
import org.junit.Test;
import org.junit.experimental.categories.Category;
@Category(SmallTests.class)
public class TestSequenceIdAccounting {
private static final byte [] ENCODED_REGION_NAME = Bytes.toBytes("r");
private static final byte [] FAMILY_NAME = Bytes.toBytes("cf");
private static final Set<byte[]> FAMILIES;
static {
FAMILIES = new HashSet<byte[]>();
FAMILIES.add(FAMILY_NAME);
}
@Test
public void testStartCacheFlush() {
SequenceIdAccounting sida = new SequenceIdAccounting();
sida.getOrCreateLowestSequenceIds(ENCODED_REGION_NAME);
Map<byte[], Long> m = new HashMap<byte[], Long>();
m.put(ENCODED_REGION_NAME, HConstants.NO_SEQNUM);
assertEquals(HConstants.NO_SEQNUM, (long)sida.startCacheFlush(ENCODED_REGION_NAME, FAMILIES));
sida.completeCacheFlush(ENCODED_REGION_NAME);
long sequenceid = 1;
sida.update(ENCODED_REGION_NAME, FAMILIES, sequenceid, true);
// Only one family so should return NO_SEQNUM still.
assertEquals(HConstants.NO_SEQNUM, (long)sida.startCacheFlush(ENCODED_REGION_NAME, FAMILIES));
sida.completeCacheFlush(ENCODED_REGION_NAME);
long currentSequenceId = sequenceid;
sida.update(ENCODED_REGION_NAME, FAMILIES, sequenceid, true);
final Set<byte[]> otherFamily = new HashSet<byte[]>(1);
otherFamily.add(Bytes.toBytes("otherCf"));
sida.update(ENCODED_REGION_NAME, FAMILIES, ++sequenceid, true);
// Should return oldest sequence id in the region.
assertEquals(currentSequenceId, (long)sida.startCacheFlush(ENCODED_REGION_NAME, otherFamily));
sida.completeCacheFlush(ENCODED_REGION_NAME);
}
@Test
public void testAreAllLower() {
SequenceIdAccounting sida = new SequenceIdAccounting();
sida.getOrCreateLowestSequenceIds(ENCODED_REGION_NAME);
Map<byte[], Long> m = new HashMap<byte[], Long>();
m.put(ENCODED_REGION_NAME, HConstants.NO_SEQNUM);
assertTrue(sida.areAllLower(m));
long sequenceid = 1;
sida.update(ENCODED_REGION_NAME, FAMILIES, sequenceid, true);
sida.update(ENCODED_REGION_NAME, FAMILIES, sequenceid++, true);
sida.update(ENCODED_REGION_NAME, FAMILIES, sequenceid++, true);
assertTrue(sida.areAllLower(m));
m.put(ENCODED_REGION_NAME, sequenceid);
assertFalse(sida.areAllLower(m));
long lowest = sida.getLowestSequenceId(ENCODED_REGION_NAME);
assertEquals("Lowest should be first sequence id inserted", 1, lowest);
m.put(ENCODED_REGION_NAME, lowest);
assertFalse(sida.areAllLower(m));
// Now make sure above works when flushing.
sida.startCacheFlush(ENCODED_REGION_NAME, FAMILIES);
assertFalse(sida.areAllLower(m));
m.put(ENCODED_REGION_NAME, HConstants.NO_SEQNUM);
assertTrue(sida.areAllLower(m));
// Let the flush complete and if we ask if the sequenceid is lower, should be yes since no edits
sida.completeCacheFlush(ENCODED_REGION_NAME);
m.put(ENCODED_REGION_NAME, sequenceid);
assertTrue(sida.areAllLower(m));
// Flush again but add sequenceids while we are flushing.
sida.update(ENCODED_REGION_NAME, FAMILIES, sequenceid++, true);
sida.update(ENCODED_REGION_NAME, FAMILIES, sequenceid++, true);
sida.update(ENCODED_REGION_NAME, FAMILIES, sequenceid++, true);
lowest = sida.getLowestSequenceId(ENCODED_REGION_NAME);
m.put(ENCODED_REGION_NAME, lowest);
assertFalse(sida.areAllLower(m));
sida.startCacheFlush(ENCODED_REGION_NAME, FAMILIES);
// The cache flush will clear out all sequenceid accounting by region.
assertEquals(HConstants.NO_SEQNUM, sida.getLowestSequenceId(ENCODED_REGION_NAME));
sida.completeCacheFlush(ENCODED_REGION_NAME);
// No new edits have gone in so no sequenceid to work with.
assertEquals(HConstants.NO_SEQNUM, sida.getLowestSequenceId(ENCODED_REGION_NAME));
// Make an edit behind all we'll put now into sida.
m.put(ENCODED_REGION_NAME, sequenceid);
sida.update(ENCODED_REGION_NAME, FAMILIES, ++sequenceid, true);
sida.update(ENCODED_REGION_NAME, FAMILIES, ++sequenceid, true);
sida.update(ENCODED_REGION_NAME, FAMILIES, ++sequenceid, true);
assertTrue(sida.areAllLower(m));
}
@Test
public void testFindLower() {
SequenceIdAccounting sida = new SequenceIdAccounting();
sida.getOrCreateLowestSequenceIds(ENCODED_REGION_NAME);
Map<byte[], Long> m = new HashMap<byte[], Long>();
m.put(ENCODED_REGION_NAME, HConstants.NO_SEQNUM);
long sequenceid = 1;
sida.update(ENCODED_REGION_NAME, FAMILIES, sequenceid, true);
sida.update(ENCODED_REGION_NAME, FAMILIES, sequenceid++, true);
sida.update(ENCODED_REGION_NAME, FAMILIES, sequenceid++, true);
assertTrue(sida.findLower(m) == null);
m.put(ENCODED_REGION_NAME, sida.getLowestSequenceId(ENCODED_REGION_NAME));
assertTrue(sida.findLower(m).length == 1);
m.put(ENCODED_REGION_NAME, sida.getLowestSequenceId(ENCODED_REGION_NAME) - 1);
assertTrue(sida.findLower(m) == null);
}
}