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apache / cassandra / d40ac784d3a8ddaf71a2df8b21745827392294cc / . / src / java / org / apache / cassandra / service / StorageService.java
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/*
* 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.cassandra.service;
import java.io.*;
import java.lang.management.ManagementFactory;
import java.net.InetAddress;
import java.net.UnknownHostException;
import java.nio.ByteBuffer;
import java.util.*;
import java.util.Map.Entry;
import java.util.concurrent.*;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.regex.MatchResult;
import java.util.regex.Pattern;
import javax.annotation.Nullable;
import javax.management.*;
import javax.management.openmbean.TabularData;
import javax.management.openmbean.TabularDataSupport;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.Predicate;
import com.google.common.collect.*;
import com.google.common.util.concurrent.*;
import org.apache.commons.lang3.StringUtils;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import ch.qos.logback.classic.LoggerContext;
import ch.qos.logback.classic.jmx.JMXConfiguratorMBean;
import ch.qos.logback.classic.spi.ILoggingEvent;
import ch.qos.logback.core.Appender;
import org.apache.cassandra.auth.AuthKeyspace;
import org.apache.cassandra.auth.AuthMigrationListener;
import org.apache.cassandra.batchlog.BatchRemoveVerbHandler;
import org.apache.cassandra.batchlog.BatchStoreVerbHandler;
import org.apache.cassandra.batchlog.BatchlogManager;
import org.apache.cassandra.concurrent.ScheduledExecutors;
import org.apache.cassandra.concurrent.Stage;
import org.apache.cassandra.concurrent.StageManager;
import org.apache.cassandra.config.CFMetaData;
import org.apache.cassandra.config.DatabaseDescriptor;
import org.apache.cassandra.config.Schema;
import org.apache.cassandra.db.*;
import org.apache.cassandra.db.commitlog.CommitLog;
import org.apache.cassandra.db.compaction.CompactionManager;
import org.apache.cassandra.db.lifecycle.LifecycleTransaction;
import org.apache.cassandra.dht.*;
import org.apache.cassandra.dht.Range;
import org.apache.cassandra.dht.Token.TokenFactory;
import org.apache.cassandra.exceptions.*;
import org.apache.cassandra.gms.*;
import org.apache.cassandra.hints.HintVerbHandler;
import org.apache.cassandra.hints.HintsService;
import org.apache.cassandra.io.sstable.SSTableLoader;
import org.apache.cassandra.io.util.FileUtils;
import org.apache.cassandra.locator.*;
import org.apache.cassandra.metrics.StorageMetrics;
import org.apache.cassandra.net.*;
import org.apache.cassandra.repair.*;
import org.apache.cassandra.repair.messages.RepairOption;
import org.apache.cassandra.schema.CompactionParams.TombstoneOption;
import org.apache.cassandra.schema.KeyspaceMetadata;
import org.apache.cassandra.service.paxos.CommitVerbHandler;
import org.apache.cassandra.service.paxos.PrepareVerbHandler;
import org.apache.cassandra.service.paxos.ProposeVerbHandler;
import org.apache.cassandra.streaming.*;
import org.apache.cassandra.thrift.EndpointDetails;
import org.apache.cassandra.thrift.TokenRange;
import org.apache.cassandra.thrift.cassandraConstants;
import org.apache.cassandra.tracing.TraceKeyspace;
import org.apache.cassandra.utils.*;
import org.apache.cassandra.utils.progress.ProgressEvent;
import org.apache.cassandra.utils.progress.ProgressEventType;
import org.apache.cassandra.utils.progress.jmx.JMXProgressSupport;
import org.apache.cassandra.utils.progress.jmx.LegacyJMXProgressSupport;
import static java.util.Arrays.asList;
import static java.util.stream.Collectors.toList;
import static org.apache.cassandra.index.SecondaryIndexManager.getIndexName;
import static org.apache.cassandra.index.SecondaryIndexManager.isIndexColumnFamily;
/**
* This abstraction contains the token/identifier of this node
* on the identifier space. This token gets gossiped around.
* This class will also maintain histograms of the load information
* of other nodes in the cluster.
*/
public class StorageService extends NotificationBroadcasterSupport implements IEndpointStateChangeSubscriber, StorageServiceMBean
{
private static final Logger logger = LoggerFactory.getLogger(StorageService.class);
public static final int RING_DELAY = getRingDelay(); // delay after which we assume ring has stablized
private final JMXProgressSupport progressSupport = new JMXProgressSupport(this);
/**
* @deprecated backward support to previous notification interface
* Will be removed on 4.0
*/
@Deprecated
private final LegacyJMXProgressSupport legacyProgressSupport;
private static int getRingDelay()
{
String newdelay = System.getProperty("cassandra.ring_delay_ms");
if (newdelay != null)
{
logger.info("Overriding RING_DELAY to {}ms", newdelay);
return Integer.parseInt(newdelay);
}
else
return 30 * 1000;
}
/* This abstraction maintains the token/endpoint metadata information */
private TokenMetadata tokenMetadata = new TokenMetadata();
public volatile VersionedValue.VersionedValueFactory valueFactory = new VersionedValue.VersionedValueFactory(tokenMetadata.partitioner);
private Thread drainOnShutdown = null;
private volatile boolean inShutdownHook = false;
public static final StorageService instance = new StorageService();
public boolean isInShutdownHook()
{
return inShutdownHook;
}
public Collection<Range<Token>> getLocalRanges(String keyspaceName)
{
return getRangesForEndpoint(keyspaceName, FBUtilities.getBroadcastAddress());
}
public Collection<Range<Token>> getPrimaryRanges(String keyspace)
{
return getPrimaryRangesForEndpoint(keyspace, FBUtilities.getBroadcastAddress());
}
public Collection<Range<Token>> getPrimaryRangesWithinDC(String keyspace)
{
return getPrimaryRangeForEndpointWithinDC(keyspace, FBUtilities.getBroadcastAddress());
}
private final Set<InetAddress> replicatingNodes = Collections.synchronizedSet(new HashSet<InetAddress>());
private CassandraDaemon daemon;
private InetAddress removingNode;
/* Are we starting this node in bootstrap mode? */
private volatile boolean isBootstrapMode;
/* we bootstrap but do NOT join the ring unless told to do so */
private boolean isSurveyMode = Boolean.parseBoolean(System.getProperty("cassandra.write_survey", "false"));
/* true if node is rebuilding and receiving data */
private final AtomicBoolean isRebuilding = new AtomicBoolean();
private volatile boolean initialized = false;
private volatile boolean joined = false;
private volatile boolean gossipActive = false;
private volatile boolean authSetupComplete = false;
/* the probability for tracing any particular request, 0 disables tracing and 1 enables for all */
private double traceProbability = 0.0;
private static enum Mode { STARTING, NORMAL, JOINING, LEAVING, DECOMMISSIONED, MOVING, DRAINING, DRAINED }
private Mode operationMode = Mode.STARTING;
/* Used for tracking drain progress */
private volatile int totalCFs, remainingCFs;
private static final AtomicInteger nextRepairCommand = new AtomicInteger();
private final List<IEndpointLifecycleSubscriber> lifecycleSubscribers = new CopyOnWriteArrayList<>();
private final ObjectName jmxObjectName;
private Collection<Token> bootstrapTokens = null;
// true when keeping strict consistency while bootstrapping
private boolean useStrictConsistency = Boolean.parseBoolean(System.getProperty("cassandra.consistent.rangemovement", "true"));
private static final boolean allowSimultaneousMoves = Boolean.valueOf(System.getProperty("cassandra.consistent.simultaneousmoves.allow","false"));
private boolean replacing;
private final StreamStateStore streamStateStore = new StreamStateStore();
/** This method updates the local token on disk */
public void setTokens(Collection<Token> tokens)
{
if (logger.isDebugEnabled())
logger.debug("Setting tokens to {}", tokens);
SystemKeyspace.updateTokens(tokens);
tokenMetadata.updateNormalTokens(tokens, FBUtilities.getBroadcastAddress());
Collection<Token> localTokens = getLocalTokens();
setGossipTokens(localTokens);
setMode(Mode.NORMAL, false);
}
public void setGossipTokens(Collection<Token> tokens)
{
List<Pair<ApplicationState, VersionedValue>> states = new ArrayList<Pair<ApplicationState, VersionedValue>>();
states.add(Pair.create(ApplicationState.TOKENS, valueFactory.tokens(tokens)));
states.add(Pair.create(ApplicationState.STATUS, valueFactory.normal(tokens)));
Gossiper.instance.addLocalApplicationStates(states);
}
public StorageService()
{
// use dedicated executor for sending JMX notifications
super(Executors.newSingleThreadExecutor());
MBeanServer mbs = ManagementFactory.getPlatformMBeanServer();
try
{
jmxObjectName = new ObjectName("org.apache.cassandra.db:type=StorageService");
mbs.registerMBean(this, jmxObjectName);
mbs.registerMBean(StreamManager.instance, new ObjectName(StreamManager.OBJECT_NAME));
}
catch (Exception e)
{
throw new RuntimeException(e);
}
legacyProgressSupport = new LegacyJMXProgressSupport(this, jmxObjectName);
/* register the verb handlers */
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.MUTATION, new MutationVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.READ_REPAIR, new ReadRepairVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.READ, new ReadCommandVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.RANGE_SLICE, new RangeSliceVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.PAGED_RANGE, new RangeSliceVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.COUNTER_MUTATION, new CounterMutationVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.TRUNCATE, new TruncateVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.PAXOS_PREPARE, new PrepareVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.PAXOS_PROPOSE, new ProposeVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.PAXOS_COMMIT, new CommitVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.HINT, new HintVerbHandler());
// see BootStrapper for a summary of how the bootstrap verbs interact
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.REPLICATION_FINISHED, new ReplicationFinishedVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.REQUEST_RESPONSE, new ResponseVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.INTERNAL_RESPONSE, new ResponseVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.REPAIR_MESSAGE, new RepairMessageVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.GOSSIP_SHUTDOWN, new GossipShutdownVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.GOSSIP_DIGEST_SYN, new GossipDigestSynVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.GOSSIP_DIGEST_ACK, new GossipDigestAckVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.GOSSIP_DIGEST_ACK2, new GossipDigestAck2VerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.DEFINITIONS_UPDATE, new DefinitionsUpdateVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.SCHEMA_CHECK, new SchemaCheckVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.MIGRATION_REQUEST, new MigrationRequestVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.SNAPSHOT, new SnapshotVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.ECHO, new EchoVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.BATCH_STORE, new BatchStoreVerbHandler());
MessagingService.instance().registerVerbHandlers(MessagingService.Verb.BATCH_REMOVE, new BatchRemoveVerbHandler());
}
public void registerDaemon(CassandraDaemon daemon)
{
this.daemon = daemon;
}
public void register(IEndpointLifecycleSubscriber subscriber)
{
lifecycleSubscribers.add(subscriber);
}
public void unregister(IEndpointLifecycleSubscriber subscriber)
{
lifecycleSubscribers.remove(subscriber);
}
// should only be called via JMX
public void stopGossiping()
{
if (gossipActive)
{
logger.warn("Stopping gossip by operator request");
Gossiper.instance.stop();
gossipActive = false;
}
}
// should only be called via JMX
public void startGossiping()
{
if (!gossipActive)
{
logger.warn("Starting gossip by operator request");
setGossipTokens(getLocalTokens());
Gossiper.instance.forceNewerGeneration();
Gossiper.instance.start((int) (System.currentTimeMillis() / 1000));
gossipActive = true;
}
}
// should only be called via JMX
public boolean isGossipRunning()
{
return Gossiper.instance.isEnabled();
}
// should only be called via JMX
public void startRPCServer()
{
if (daemon == null)
{
throw new IllegalStateException("No configured daemon");
}
daemon.thriftServer.start();
}
public void stopRPCServer()
{
if (daemon == null)
{
throw new IllegalStateException("No configured daemon");
}
if (daemon.thriftServer != null)
daemon.thriftServer.stop();
}
public boolean isRPCServerRunning()
{
if ((daemon == null) || (daemon.thriftServer == null))
{
return false;
}
return daemon.thriftServer.isRunning();
}
public void startNativeTransport()
{
if (daemon == null)
{
throw new IllegalStateException("No configured daemon");
}
try
{
daemon.startNativeTransport();
}
catch (Exception e)
{
throw new RuntimeException("Error starting native transport: " + e.getMessage());
}
}
public void stopNativeTransport()
{
if (daemon == null)
{
throw new IllegalStateException("No configured daemon");
}
daemon.stopNativeTransport();
}
public boolean isNativeTransportRunning()
{
if (daemon == null)
{
return false;
}
return daemon.isNativeTransportRunning();
}
public void stopTransports()
{
if (isGossipActive())
{
logger.error("Stopping gossiper");
stopGossiping();
}
if (isRPCServerRunning())
{
logger.error("Stopping RPC server");
stopRPCServer();
}
if (isNativeTransportRunning())
{
logger.error("Stopping native transport");
stopNativeTransport();
}
}
private void shutdownClientServers()
{
stopRPCServer();
stopNativeTransport();
}
public void stopClient()
{
Gossiper.instance.unregister(this);
Gossiper.instance.stop();
MessagingService.instance().shutdown();
// give it a second so that task accepted before the MessagingService shutdown gets submitted to the stage (to avoid RejectedExecutionException)
Uninterruptibles.sleepUninterruptibly(1, TimeUnit.SECONDS);
StageManager.shutdownNow();
}
public boolean isInitialized()
{
return initialized;
}
public boolean isGossipActive()
{
return gossipActive;
}
public boolean isDaemonSetupCompleted()
{
return daemon == null
? false
: daemon.setupCompleted();
}
public void stopDaemon()
{
if (daemon == null)
throw new IllegalStateException("No configured daemon");
daemon.deactivate();
}
private synchronized UUID prepareReplacementInfo(InetAddress replaceAddress) throws ConfigurationException
{
logger.info("Gathering node replacement information for {}", DatabaseDescriptor.getReplaceAddress());
Gossiper.instance.doShadowRound();
// as we've completed the shadow round of gossip, we should be able to find the node we're replacing
if (Gossiper.instance.getEndpointStateForEndpoint(replaceAddress) == null)
throw new RuntimeException(String.format("Cannot replace_address %s because it doesn't exist in gossip", replaceAddress));
try
{
VersionedValue tokensVersionedValue = Gossiper.instance.getEndpointStateForEndpoint(replaceAddress).getApplicationState(ApplicationState.TOKENS);
if (tokensVersionedValue == null)
throw new RuntimeException(String.format("Could not find tokens for %s to replace", replaceAddress));
bootstrapTokens = TokenSerializer.deserialize(tokenMetadata.partitioner, new DataInputStream(new ByteArrayInputStream(tokensVersionedValue.toBytes())));
}
catch (IOException e)
{
throw new RuntimeException(e);
}
// we'll use the replacee's host Id as our own so we receive hints, etc
UUID localHostId = Gossiper.instance.getHostId(replaceAddress);
SystemKeyspace.setLocalHostId(localHostId);
Gossiper.instance.resetEndpointStateMap(); // clean up since we have what we need
return localHostId;
}
private synchronized void checkForEndpointCollision(UUID localHostId) throws ConfigurationException
{
if (Boolean.getBoolean("cassandra.allow_unsafe_join"))
{
logger.warn("Skipping endpoint collision check as cassandra.allow_unsafe_join=true");
return;
}
logger.debug("Starting shadow gossip round to check for endpoint collision");
Gossiper.instance.doShadowRound();
// If bootstrapping, check whether any previously known status for the endpoint makes it unsafe to do so.
// If not bootstrapping, compare the host id for this endpoint learned from gossip (if any) with the local
// one, which was either read from system.local or generated at startup. If a learned id is present &
// doesn't match the local, then the node needs replacing
if (!Gossiper.instance.isSafeForStartup(FBUtilities.getBroadcastAddress(), localHostId, shouldBootstrap()))
{
throw new RuntimeException(String.format("A node with address %s already exists, cancelling join. " +
"Use cassandra.replace_address if you want to replace this node.",
FBUtilities.getBroadcastAddress()));
}
if (shouldBootstrap() && useStrictConsistency && !allowSimultaneousMoves())
{
for (Map.Entry<InetAddress, EndpointState> entry : Gossiper.instance.getEndpointStates())
{
// ignore local node or empty status
if (entry.getKey().equals(FBUtilities.getBroadcastAddress()) || entry.getValue().getApplicationState(ApplicationState.STATUS) == null)
continue;
String[] pieces = entry.getValue().getApplicationState(ApplicationState.STATUS).value.split(VersionedValue.DELIMITER_STR, -1);
assert (pieces.length > 0);
String state = pieces[0];
if (state.equals(VersionedValue.STATUS_BOOTSTRAPPING) || state.equals(VersionedValue.STATUS_LEAVING) || state.equals(VersionedValue.STATUS_MOVING))
throw new UnsupportedOperationException("Other bootstrapping/leaving/moving nodes detected, cannot bootstrap while cassandra.consistent.rangemovement is true");
}
}
logger.debug("Resetting gossip state after shadow round");
Gossiper.instance.resetEndpointStateMap();
}
private boolean allowSimultaneousMoves()
{
return allowSimultaneousMoves && DatabaseDescriptor.getNumTokens() == 1;
}
// for testing only
public void unsafeInitialize() throws ConfigurationException
{
initialized = true;
gossipActive = true;
Gossiper.instance.register(this);
Gossiper.instance.start((int) (System.currentTimeMillis() / 1000)); // needed for node-ring gathering.
Gossiper.instance.addLocalApplicationState(ApplicationState.NET_VERSION, valueFactory.networkVersion());
if (!MessagingService.instance().isListening())
MessagingService.instance().listen();
}
public void populateTokenMetadata()
{
if (Boolean.parseBoolean(System.getProperty("cassandra.load_ring_state", "true")))
{
logger.info("Populating token metadata from system tables");
Multimap<InetAddress, Token> loadedTokens = SystemKeyspace.loadTokens();
if (!shouldBootstrap()) // if we have not completed bootstrapping, we should not add ourselves as a normal token
loadedTokens.putAll(FBUtilities.getBroadcastAddress(), SystemKeyspace.getSavedTokens());
for (InetAddress ep : loadedTokens.keySet())
tokenMetadata.updateNormalTokens(loadedTokens.get(ep), ep);
logger.info("Token metadata: {}", tokenMetadata);
}
}
public synchronized void initServer() throws ConfigurationException
{
initServer(RING_DELAY);
}
public synchronized void initServer(int delay) throws ConfigurationException
{
logger.info("Cassandra version: {}", FBUtilities.getReleaseVersionString());
logger.info("Thrift API version: {}", cassandraConstants.VERSION);
logger.info("CQL supported versions: {} (default: {})",
StringUtils.join(ClientState.getCQLSupportedVersion(), ","), ClientState.DEFAULT_CQL_VERSION);
try
{
// Ensure StorageProxy is initialized on start-up; see CASSANDRA-3797.
Class.forName("org.apache.cassandra.service.StorageProxy");
// also IndexSummaryManager, which is otherwise unreferenced
Class.forName("org.apache.cassandra.io.sstable.IndexSummaryManager");
}
catch (ClassNotFoundException e)
{
throw new AssertionError(e);
}
// daemon threads, like our executors', continue to run while shutdown hooks are invoked
drainOnShutdown = new Thread(new WrappedRunnable()
{
@Override
public void runMayThrow() throws InterruptedException
{
inShutdownHook = true;
ExecutorService viewMutationStage = StageManager.getStage(Stage.VIEW_MUTATION);
ExecutorService counterMutationStage = StageManager.getStage(Stage.COUNTER_MUTATION);
ExecutorService mutationStage = StageManager.getStage(Stage.MUTATION);
if (mutationStage.isShutdown()
&& counterMutationStage.isShutdown()
&& viewMutationStage.isShutdown())
return; // drained already
if (daemon != null)
shutdownClientServers();
ScheduledExecutors.optionalTasks.shutdown();
Gossiper.instance.stop();
// In-progress writes originating here could generate hints to be written, so shut down MessagingService
// before mutation stage, so we can get all the hints saved before shutting down
MessagingService.instance().shutdown();
viewMutationStage.shutdown();
BatchlogManager.instance.shutdown();
HintsService.instance.pauseDispatch();
counterMutationStage.shutdown();
mutationStage.shutdown();
viewMutationStage.awaitTermination(3600, TimeUnit.SECONDS);
counterMutationStage.awaitTermination(3600, TimeUnit.SECONDS);
mutationStage.awaitTermination(3600, TimeUnit.SECONDS);
StorageProxy.instance.verifyNoHintsInProgress();
List<Future<?>> flushes = new ArrayList<>();
for (Keyspace keyspace : Keyspace.all())
{
KeyspaceMetadata ksm = Schema.instance.getKSMetaData(keyspace.getName());
if (!ksm.params.durableWrites)
for (ColumnFamilyStore cfs : keyspace.getColumnFamilyStores())
flushes.add(cfs.forceFlush());
}
try
{
FBUtilities.waitOnFutures(flushes);
}
catch (Throwable t)
{
JVMStabilityInspector.inspectThrowable(t);
// don't let this stop us from shutting down the commitlog and other thread pools
logger.warn("Caught exception while waiting for memtable flushes during shutdown hook", t);
}
CommitLog.instance.shutdownBlocking();
if (FBUtilities.isWindows())
WindowsTimer.endTimerPeriod(DatabaseDescriptor.getWindowsTimerInterval());
HintsService.instance.shutdownBlocking();
// wait for miscellaneous tasks like sstable and commitlog segment deletion
ScheduledExecutors.nonPeriodicTasks.shutdown();
if (!ScheduledExecutors.nonPeriodicTasks.awaitTermination(1, TimeUnit.MINUTES))
logger.warn("Miscellaneous task executor still busy after one minute; proceeding with shutdown");
}
}, "StorageServiceShutdownHook");
Runtime.getRuntime().addShutdownHook(drainOnShutdown);
replacing = DatabaseDescriptor.isReplacing();
if (!Boolean.parseBoolean(System.getProperty("cassandra.start_gossip", "true")))
{
logger.info("Not starting gossip as requested.");
// load ring state in preparation for starting gossip later
loadRingState();
initialized = true;
return;
}
prepareToJoin();
// Has to be called after the host id has potentially changed in prepareToJoin().
try
{
CacheService.instance.counterCache.loadSavedAsync().get();
}
catch (Throwable t)
{
JVMStabilityInspector.inspectThrowable(t);
logger.warn("Error loading counter cache", t);
}
if (Boolean.parseBoolean(System.getProperty("cassandra.join_ring", "true")))
{
joinTokenRing(delay);
}
else
{
Collection<Token> tokens = SystemKeyspace.getSavedTokens();
if (!tokens.isEmpty())
{
tokenMetadata.updateNormalTokens(tokens, FBUtilities.getBroadcastAddress());
// order is important here, the gossiper can fire in between adding these two states. It's ok to send TOKENS without STATUS, but *not* vice versa.
List<Pair<ApplicationState, VersionedValue>> states = new ArrayList<Pair<ApplicationState, VersionedValue>>();
states.add(Pair.create(ApplicationState.TOKENS, valueFactory.tokens(tokens)));
states.add(Pair.create(ApplicationState.STATUS, valueFactory.hibernate(true)));
Gossiper.instance.addLocalApplicationStates(states);
}
logger.info("Not joining ring as requested. Use JMX (StorageService->joinRing()) to initiate ring joining");
}
initialized = true;
}
private void loadRingState()
{
if (Boolean.parseBoolean(System.getProperty("cassandra.load_ring_state", "true")))
{
logger.info("Loading persisted ring state");
Multimap<InetAddress, Token> loadedTokens = SystemKeyspace.loadTokens();
Map<InetAddress, UUID> loadedHostIds = SystemKeyspace.loadHostIds();
for (InetAddress ep : loadedTokens.keySet())
{
if (ep.equals(FBUtilities.getBroadcastAddress()))
{
// entry has been mistakenly added, delete it
SystemKeyspace.removeEndpoint(ep);
}
else
{
if (loadedHostIds.containsKey(ep))
tokenMetadata.updateHostId(loadedHostIds.get(ep), ep);
Gossiper.instance.addSavedEndpoint(ep);
}
}
}
}
/**
* In the event of forceful termination we need to remove the shutdown hook to prevent hanging (OOM for instance)
*/
public void removeShutdownHook()
{
if (drainOnShutdown != null)
Runtime.getRuntime().removeShutdownHook(drainOnShutdown);
if (FBUtilities.isWindows())
WindowsTimer.endTimerPeriod(DatabaseDescriptor.getWindowsTimerInterval());
}
private boolean shouldBootstrap()
{
return DatabaseDescriptor.isAutoBootstrap() && !SystemKeyspace.bootstrapComplete() && !DatabaseDescriptor.getSeeds().contains(FBUtilities.getBroadcastAddress());
}
private void prepareToJoin() throws ConfigurationException
{
if (!joined)
{
Map<ApplicationState, VersionedValue> appStates = new EnumMap<>(ApplicationState.class);
if (SystemKeyspace.wasDecommissioned())
{
if (Boolean.getBoolean("cassandra.override_decommission"))
{
logger.warn("This node was decommissioned, but overriding by operator request.");
SystemKeyspace.setBootstrapState(SystemKeyspace.BootstrapState.COMPLETED);
}
else
throw new ConfigurationException("This node was decommissioned and will not rejoin the ring unless cassandra.override_decommission=true has been set, or all existing data is removed and the node is bootstrapped again");
}
if (DatabaseDescriptor.getReplaceTokens().size() > 0 || DatabaseDescriptor.getReplaceNode() != null)
throw new RuntimeException("Replace method removed; use cassandra.replace_address instead");
if (!MessagingService.instance().isListening())
MessagingService.instance().listen();
UUID localHostId = SystemKeyspace.getLocalHostId();
if (replacing)
{
if (SystemKeyspace.bootstrapComplete())
throw new RuntimeException("Cannot replace address with a node that is already bootstrapped");
if (!(Boolean.parseBoolean(System.getProperty("cassandra.join_ring", "true"))))
throw new ConfigurationException("Cannot set both join_ring=false and attempt to replace a node");
if (!DatabaseDescriptor.isAutoBootstrap() && !Boolean.getBoolean("cassandra.allow_unsafe_replace"))
throw new RuntimeException("Replacing a node without bootstrapping risks invalidating consistency " +
"guarantees as the expected data may not be present until repair is run. " +
"To perform this operation, please restart with " +
"-Dcassandra.allow_unsafe_replace=true");
InetAddress replaceAddress = DatabaseDescriptor.getReplaceAddress();
localHostId = prepareReplacementInfo(replaceAddress);
appStates.put(ApplicationState.TOKENS, valueFactory.tokens(bootstrapTokens));
// if want to bootstrap the ranges of the node we're replacing,
// go into hibernate mode while that happens. Otherwise, persist
// the tokens we're taking over locally so that they don't get
// clobbered with auto generated ones in joinTokenRing
if (DatabaseDescriptor.isAutoBootstrap())
appStates.put(ApplicationState.STATUS, valueFactory.hibernate(true));
else
SystemKeyspace.updateTokens(bootstrapTokens);
}
else
{
checkForEndpointCollision(localHostId);
}
// have to start the gossip service before we can see any info on other nodes. this is necessary
// for bootstrap to get the load info it needs.
// (we won't be part of the storage ring though until we add a counterId to our state, below.)
// Seed the host ID-to-endpoint map with our own ID.
getTokenMetadata().updateHostId(localHostId, FBUtilities.getBroadcastAddress());
appStates.put(ApplicationState.NET_VERSION, valueFactory.networkVersion());
appStates.put(ApplicationState.HOST_ID, valueFactory.hostId(localHostId));
appStates.put(ApplicationState.RPC_ADDRESS, valueFactory.rpcaddress(DatabaseDescriptor.getBroadcastRpcAddress()));
appStates.put(ApplicationState.RELEASE_VERSION, valueFactory.releaseVersion());
// load the persisted ring state. This used to be done earlier in the init process,
// but now we always perform a shadow round when preparing to join and we have to
// clear endpoint states after doing that.
loadRingState();
logger.info("Starting up server gossip");
Gossiper.instance.register(this);
Gossiper.instance.start(SystemKeyspace.incrementAndGetGeneration(), appStates); // needed for node-ring gathering.
gossipActive = true;
// gossip snitch infos (local DC and rack)
gossipSnitchInfo();
// gossip Schema.emptyVersion forcing immediate check for schema updates (see MigrationManager#maybeScheduleSchemaPull)
Schema.instance.updateVersionAndAnnounce(); // Ensure we know our own actual Schema UUID in preparation for updates
LoadBroadcaster.instance.startBroadcasting();
HintsService.instance.startDispatch();
BatchlogManager.instance.start();
}
}
private void joinTokenRing(int delay) throws ConfigurationException
{
joined = true;
// We bootstrap if we haven't successfully bootstrapped before, as long as we are not a seed.
// If we are a seed, or if the user manually sets auto_bootstrap to false,
// we'll skip streaming data from other nodes and jump directly into the ring.
//
// The seed check allows us to skip the RING_DELAY sleep for the single-node cluster case,
// which is useful for both new users and testing.
//
// We attempted to replace this with a schema-presence check, but you need a meaningful sleep
// to get schema info from gossip which defeats the purpose. See CASSANDRA-4427 for the gory details.
Set<InetAddress> current = new HashSet<>();
if (logger.isDebugEnabled())
{
logger.debug("Bootstrap variables: {} {} {} {}",
DatabaseDescriptor.isAutoBootstrap(),
SystemKeyspace.bootstrapInProgress(),
SystemKeyspace.bootstrapComplete(),
DatabaseDescriptor.getSeeds().contains(FBUtilities.getBroadcastAddress()));
}
if (DatabaseDescriptor.isAutoBootstrap() && !SystemKeyspace.bootstrapComplete() && DatabaseDescriptor.getSeeds().contains(FBUtilities.getBroadcastAddress()))
{
logger.info("This node will not auto bootstrap because it is configured to be a seed node.");
}
boolean dataAvailable = true; // make this to false when bootstrap streaming failed
if (shouldBootstrap())
{
if (SystemKeyspace.bootstrapInProgress())
logger.warn("Detected previous bootstrap failure; retrying");
else
SystemKeyspace.setBootstrapState(SystemKeyspace.BootstrapState.IN_PROGRESS);
setMode(Mode.JOINING, "waiting for ring information", true);
// first sleep the delay to make sure we see all our peers
for (int i = 0; i < delay; i += 1000)
{
// if we see schema, we can proceed to the next check directly
if (!Schema.instance.getVersion().equals(Schema.emptyVersion))
{
logger.debug("got schema: {}", Schema.instance.getVersion());
break;
}
Uninterruptibles.sleepUninterruptibly(1, TimeUnit.SECONDS);
}
// if our schema hasn't matched yet, wait until it has
// we do this by waiting for all in-flight migration requests and responses to complete
// (post CASSANDRA-1391 we don't expect this to be necessary very often, but it doesn't hurt to be careful)
if (!MigrationManager.isReadyForBootstrap())
{
setMode(Mode.JOINING, "waiting for schema information to complete", true);
MigrationManager.waitUntilReadyForBootstrap();
}
setMode(Mode.JOINING, "schema complete, ready to bootstrap", true);
setMode(Mode.JOINING, "waiting for pending range calculation", true);
PendingRangeCalculatorService.instance.blockUntilFinished();
setMode(Mode.JOINING, "calculation complete, ready to bootstrap", true);
logger.debug("... got ring + schema info");
if (useStrictConsistency &&
(
tokenMetadata.getBootstrapTokens().valueSet().size() > 0 ||
tokenMetadata.getLeavingEndpoints().size() > 0 ||
tokenMetadata.getMovingEndpoints().size() > 0
))
{
throw new UnsupportedOperationException("Other bootstrapping/leaving/moving nodes detected, cannot bootstrap while cassandra.consistent.rangemovement is true");
}
// get bootstrap tokens
if (!replacing)
{
if (tokenMetadata.isMember(FBUtilities.getBroadcastAddress()))
{
String s = "This node is already a member of the token ring; bootstrap aborted. (If replacing a dead node, remove the old one from the ring first.)";
throw new UnsupportedOperationException(s);
}
setMode(Mode.JOINING, "getting bootstrap token", true);
bootstrapTokens = BootStrapper.getBootstrapTokens(tokenMetadata, FBUtilities.getBroadcastAddress());
}
else
{
if (!DatabaseDescriptor.getReplaceAddress().equals(FBUtilities.getBroadcastAddress()))
{
try
{
// Sleep additionally to make sure that the server actually is not alive
// and giving it more time to gossip if alive.
Thread.sleep(LoadBroadcaster.BROADCAST_INTERVAL);
}
catch (InterruptedException e)
{
throw new AssertionError(e);
}
// check for operator errors...
for (Token token : bootstrapTokens)
{
InetAddress existing = tokenMetadata.getEndpoint(token);
if (existing != null)
{
long nanoDelay = delay * 1000000L;
if (Gossiper.instance.getEndpointStateForEndpoint(existing).getUpdateTimestamp() > (System.nanoTime() - nanoDelay))
throw new UnsupportedOperationException("Cannot replace a live node... ");
current.add(existing);
}
else
{
throw new UnsupportedOperationException("Cannot replace token " + token + " which does not exist!");
}
}
}
else
{
try
{
Thread.sleep(RING_DELAY);
}
catch (InterruptedException e)
{
throw new AssertionError(e);
}
}
setMode(Mode.JOINING, "Replacing a node with token(s): " + bootstrapTokens, true);
}
dataAvailable = bootstrap(bootstrapTokens);
}
else
{
bootstrapTokens = SystemKeyspace.getSavedTokens();
if (bootstrapTokens.isEmpty())
{
Collection<String> initialTokens = DatabaseDescriptor.getInitialTokens();
if (initialTokens.size() < 1)
{
bootstrapTokens = BootStrapper.getRandomTokens(tokenMetadata, DatabaseDescriptor.getNumTokens());
if (DatabaseDescriptor.getNumTokens() == 1)
logger.warn("Generated random token {}. Random tokens will result in an unbalanced ring; see http://wiki.apache.org/cassandra/Operations", bootstrapTokens);
else
logger.info("Generated random tokens. tokens are {}", bootstrapTokens);
}
else
{
bootstrapTokens = new ArrayList<>(initialTokens.size());
for (String token : initialTokens)
bootstrapTokens.add(getTokenFactory().fromString(token));
logger.info("Saved tokens not found. Using configuration value: {}", bootstrapTokens);
}
}
else
{
if (bootstrapTokens.size() != DatabaseDescriptor.getNumTokens())
throw new ConfigurationException("Cannot change the number of tokens from " + bootstrapTokens.size() + " to " + DatabaseDescriptor.getNumTokens());
else
logger.info("Using saved tokens {}", bootstrapTokens);
}
}
// if we don't have system_traces keyspace at this point, then create it manually
maybeAddOrUpdateKeyspace(TraceKeyspace.metadata());
maybeAddOrUpdateKeyspace(SystemDistributedKeyspace.metadata());
if (!isSurveyMode)
{
if (dataAvailable)
{
// start participating in the ring.
SystemKeyspace.setBootstrapState(SystemKeyspace.BootstrapState.COMPLETED);
setTokens(bootstrapTokens);
// remove the existing info about the replaced node.
if (!current.isEmpty())
{
for (InetAddress existing : current)
Gossiper.instance.replacedEndpoint(existing);
}
assert tokenMetadata.sortedTokens().size() > 0;
doAuthSetup();
}
else
{
logger.warn("Some data streaming failed. Use nodetool to check bootstrap state and resume. For more, see `nodetool help bootstrap`. {}", SystemKeyspace.getBootstrapState());
}
}
else
{
logger.info("Startup complete, but write survey mode is active, not becoming an active ring member. Use JMX (StorageService->joinRing()) to finalize ring joining.");
}
}
public void gossipSnitchInfo()
{
IEndpointSnitch snitch = DatabaseDescriptor.getEndpointSnitch();
String dc = snitch.getDatacenter(FBUtilities.getBroadcastAddress());
String rack = snitch.getRack(FBUtilities.getBroadcastAddress());
Gossiper.instance.addLocalApplicationState(ApplicationState.DC, StorageService.instance.valueFactory.datacenter(dc));
Gossiper.instance.addLocalApplicationState(ApplicationState.RACK, StorageService.instance.valueFactory.rack(rack));
}
public synchronized void joinRing() throws IOException
{
if (!joined)
{
logger.info("Joining ring by operator request");
try
{
joinTokenRing(0);
}
catch (ConfigurationException e)
{
throw new IOException(e.getMessage());
}
}
else if (isSurveyMode)
{
setTokens(SystemKeyspace.getSavedTokens());
SystemKeyspace.setBootstrapState(SystemKeyspace.BootstrapState.COMPLETED);
isSurveyMode = false;
logger.info("Leaving write survey mode and joining ring at operator request");
assert tokenMetadata.sortedTokens().size() > 0;
doAuthSetup();
}
}
private void doAuthSetup()
{
maybeAddOrUpdateKeyspace(AuthKeyspace.metadata());
DatabaseDescriptor.getRoleManager().setup();
DatabaseDescriptor.getAuthenticator().setup();
DatabaseDescriptor.getAuthorizer().setup();
MigrationManager.instance.register(new AuthMigrationListener());
authSetupComplete = true;
}
public boolean isAuthSetupComplete()
{
return authSetupComplete;
}
private void maybeAddKeyspace(KeyspaceMetadata ksm)
{
try
{
MigrationManager.announceNewKeyspace(ksm, 0, false);
}
catch (AlreadyExistsException e)
{
logger.debug("Attempted to create new keyspace {}, but it already exists", ksm.name);
}
}
/**
* Ensure the schema of a pseudo-system keyspace (a distributed system keyspace: traces, auth and the so-called distributedKeyspace),
* is up to date with what we expected (creating it if it doesn't exist and updating tables that may have been upgraded).
*/
private void maybeAddOrUpdateKeyspace(KeyspaceMetadata expected)
{
// Note that want to deal with the keyspace and its table a bit differently: for the keyspace definition
// itself, we want to create it if it doesn't exist yet, but if it does exist, we don't want to modify it,
// because user can modify the definition to change the replication factor (#6016) and we don't want to
// override it. For the tables however, we have to deal with the fact that new version can add new columns
// (#8162 being an example), so even if the table definition exists, we still need to force the "current"
// version of the schema, the one the node will be expecting.
KeyspaceMetadata defined = Schema.instance.getKSMetaData(expected.name);
// If the keyspace doesn't exist, create it
if (defined == null)
{
maybeAddKeyspace(expected);
defined = Schema.instance.getKSMetaData(expected.name);
}
// While the keyspace exists, it might miss table or have outdated one
// There is also the potential for a race, as schema migrations add the bare
// keyspace into Schema.instance before adding its tables, so double check that
// all the expected tables are present
for (CFMetaData expectedTable : expected.tables)
{
CFMetaData definedTable = defined.tables.get(expectedTable.cfName).orElse(null);
if (definedTable == null || !definedTable.equals(expectedTable))
MigrationManager.forceAnnounceNewColumnFamily(expectedTable);
}
}
public boolean isJoined()
{
return tokenMetadata.isMember(FBUtilities.getBroadcastAddress());
}
public void rebuild(String sourceDc)
{
rebuild(sourceDc, null, null);
}
public void rebuild(String sourceDc, String keyspace, String tokens)
{
// check on going rebuild
if (!isRebuilding.compareAndSet(false, true))
{
throw new IllegalStateException("Node is still rebuilding. Check nodetool netstats.");
}
// check the arguments
if (keyspace == null && tokens != null)
{
throw new IllegalArgumentException("Cannot specify tokens without keyspace.");
}
logger.info("rebuild from dc: {}, {}, {}", sourceDc == null ? "(any dc)" : sourceDc,
keyspace == null ? "(All keyspaces)" : keyspace,
tokens == null ? "(All tokens)" : tokens);
try
{
RangeStreamer streamer = new RangeStreamer(tokenMetadata,
null,
FBUtilities.getBroadcastAddress(),
"Rebuild",
!replacing && useStrictConsistency,
DatabaseDescriptor.getEndpointSnitch(),
streamStateStore,
false);
streamer.addSourceFilter(new RangeStreamer.FailureDetectorSourceFilter(FailureDetector.instance));
if (sourceDc != null)
streamer.addSourceFilter(new RangeStreamer.SingleDatacenterFilter(DatabaseDescriptor.getEndpointSnitch(), sourceDc));
if (keyspace == null)
{
for (String keyspaceName : Schema.instance.getNonLocalStrategyKeyspaces())
streamer.addRanges(keyspaceName, getLocalRanges(keyspaceName));
}
else if (tokens == null)
{
streamer.addRanges(keyspace, getLocalRanges(keyspace));
}
else
{
Token.TokenFactory factory = getTokenFactory();
List<Range<Token>> ranges = new ArrayList<>();
Pattern rangePattern = Pattern.compile("\\(\\s*(-?\\w+)\\s*,\\s*(-?\\w+)\\s*\\]");
try (Scanner tokenScanner = new Scanner(tokens))
{
while (tokenScanner.findInLine(rangePattern) != null)
{
MatchResult range = tokenScanner.match();
Token startToken = factory.fromString(range.group(1));
Token endToken = factory.fromString(range.group(2));
logger.info(String.format("adding range: (%s,%s]", startToken, endToken));
ranges.add(new Range<>(startToken, endToken));
}
if (tokenScanner.hasNext())
throw new IllegalArgumentException("Unexpected string: " + tokenScanner.next());
}
streamer.addRanges(keyspace, ranges);
}
StreamResultFuture resultFuture = streamer.fetchAsync();
// wait for result
resultFuture.get();
}
catch (InterruptedException e)
{
throw new RuntimeException("Interrupted while waiting on rebuild streaming");
}
catch (ExecutionException e)
{
// This is used exclusively through JMX, so log the full trace but only throw a simple RTE
logger.error("Error while rebuilding node", e.getCause());
throw new RuntimeException("Error while rebuilding node: " + e.getCause().getMessage());
}
finally
{
// rebuild is done (successfully or not)
isRebuilding.set(false);
}
}
public void setRpcTimeout(long value)
{
DatabaseDescriptor.setRpcTimeout(value);
logger.info("set rpc timeout to {} ms", value);
}
public long getRpcTimeout()
{
return DatabaseDescriptor.getRpcTimeout();
}
public void setReadRpcTimeout(long value)
{
DatabaseDescriptor.setReadRpcTimeout(value);
logger.info("set read rpc timeout to {} ms", value);
}
public long getReadRpcTimeout()
{
return DatabaseDescriptor.getReadRpcTimeout();
}
public void setRangeRpcTimeout(long value)
{
DatabaseDescriptor.setRangeRpcTimeout(value);
logger.info("set range rpc timeout to {} ms", value);
}
public long getRangeRpcTimeout()
{
return DatabaseDescriptor.getRangeRpcTimeout();
}
public void setWriteRpcTimeout(long value)
{
DatabaseDescriptor.setWriteRpcTimeout(value);
logger.info("set write rpc timeout to {} ms", value);
}
public long getWriteRpcTimeout()
{
return DatabaseDescriptor.getWriteRpcTimeout();
}
public void setCounterWriteRpcTimeout(long value)
{
DatabaseDescriptor.setCounterWriteRpcTimeout(value);
logger.info("set counter write rpc timeout to {} ms", value);
}
public long getCounterWriteRpcTimeout()
{
return DatabaseDescriptor.getCounterWriteRpcTimeout();
}
public void setCasContentionTimeout(long value)
{
DatabaseDescriptor.setCasContentionTimeout(value);
logger.info("set cas contention rpc timeout to {} ms", value);
}
public long getCasContentionTimeout()
{
return DatabaseDescriptor.getCasContentionTimeout();
}
public void setTruncateRpcTimeout(long value)
{
DatabaseDescriptor.setTruncateRpcTimeout(value);
logger.info("set truncate rpc timeout to {} ms", value);
}
public long getTruncateRpcTimeout()
{
return DatabaseDescriptor.getTruncateRpcTimeout();
}
public void setStreamingSocketTimeout(int value)
{
DatabaseDescriptor.setStreamingSocketTimeout(value);
logger.info("set streaming socket timeout to {} ms", value);
}
public int getStreamingSocketTimeout()
{
return DatabaseDescriptor.getStreamingSocketTimeout();
}
public void setStreamThroughputMbPerSec(int value)
{
DatabaseDescriptor.setStreamThroughputOutboundMegabitsPerSec(value);
logger.info("setstreamthroughput: throttle set to {}", value);
}
public int getStreamThroughputMbPerSec()
{
return DatabaseDescriptor.getStreamThroughputOutboundMegabitsPerSec();
}
public void setInterDCStreamThroughputMbPerSec(int value)
{
DatabaseDescriptor.setInterDCStreamThroughputOutboundMegabitsPerSec(value);
logger.info("setinterdcstreamthroughput: throttle set to {}", value);
}
public int getInterDCStreamThroughputMbPerSec()
{
return DatabaseDescriptor.getInterDCStreamThroughputOutboundMegabitsPerSec();
}
public int getCompactionThroughputMbPerSec()
{
return DatabaseDescriptor.getCompactionThroughputMbPerSec();
}
public void setCompactionThroughputMbPerSec(int value)
{
DatabaseDescriptor.setCompactionThroughputMbPerSec(value);
CompactionManager.instance.setRate(value);
}
public boolean isIncrementalBackupsEnabled()
{
return DatabaseDescriptor.isIncrementalBackupsEnabled();
}
public void setIncrementalBackupsEnabled(boolean value)
{
DatabaseDescriptor.setIncrementalBackupsEnabled(value);
}
private void setMode(Mode m, boolean log)
{
setMode(m, null, log);
}
private void setMode(Mode m, String msg, boolean log)
{
operationMode = m;
String logMsg = msg == null ? m.toString() : String.format("%s: %s", m, msg);
if (log)
logger.info(logMsg);
else
logger.debug(logMsg);
}
/**
* Bootstrap node by fetching data from other nodes.
* If node is bootstrapping as a new node, then this also announces bootstrapping to the cluster.
*
* This blocks until streaming is done.
*
* @param tokens bootstrapping tokens
* @return true if bootstrap succeeds.
*/
private boolean bootstrap(final Collection<Token> tokens)
{
isBootstrapMode = true;
SystemKeyspace.updateTokens(tokens); // DON'T use setToken, that makes us part of the ring locally which is incorrect until we are done bootstrapping
if (!replacing)
{
// if not an existing token then bootstrap
List<Pair<ApplicationState, VersionedValue>> states = new ArrayList<>();
states.add(Pair.create(ApplicationState.TOKENS, valueFactory.tokens(tokens)));
states.add(Pair.create(ApplicationState.STATUS, valueFactory.bootstrapping(tokens)));
Gossiper.instance.addLocalApplicationStates(states);
setMode(Mode.JOINING, "sleeping " + RING_DELAY + " ms for pending range setup", true);
Uninterruptibles.sleepUninterruptibly(RING_DELAY, TimeUnit.MILLISECONDS);
}
else
{
// Dont set any state for the node which is bootstrapping the existing token...
tokenMetadata.updateNormalTokens(tokens, FBUtilities.getBroadcastAddress());
SystemKeyspace.removeEndpoint(DatabaseDescriptor.getReplaceAddress());
}
if (!Gossiper.instance.seenAnySeed())
throw new IllegalStateException("Unable to contact any seeds!");
if (Boolean.getBoolean("cassandra.reset_bootstrap_progress"))
{
logger.info("Resetting bootstrap progress to start fresh");
SystemKeyspace.resetAvailableRanges();
}
setMode(Mode.JOINING, "Starting to bootstrap...", true);
BootStrapper bootstrapper = new BootStrapper(FBUtilities.getBroadcastAddress(), tokens, tokenMetadata);
bootstrapper.addProgressListener(progressSupport);
ListenableFuture<StreamState> bootstrapStream = bootstrapper.bootstrap(streamStateStore, !replacing && useStrictConsistency); // handles token update
Futures.addCallback(bootstrapStream, new FutureCallback<StreamState>()
{
@Override
public void onSuccess(StreamState streamState)
{
isBootstrapMode = false;
logger.info("Bootstrap completed! for the tokens {}", tokens);
}
@Override
public void onFailure(Throwable e)
{
logger.warn("Error during bootstrap.", e);
}
});
try
{
bootstrapStream.get();
return true;
}
catch (Throwable e)
{
logger.error("Error while waiting on bootstrap to complete. Bootstrap will have to be restarted.", e);
return false;
}
}
public boolean resumeBootstrap()
{
if (isBootstrapMode && SystemKeyspace.bootstrapInProgress())
{
logger.info("Resuming bootstrap...");
// get bootstrap tokens saved in system keyspace
final Collection<Token> tokens = SystemKeyspace.getSavedTokens();
// already bootstrapped ranges are filtered during bootstrap
BootStrapper bootstrapper = new BootStrapper(FBUtilities.getBroadcastAddress(), tokens, tokenMetadata);
bootstrapper.addProgressListener(progressSupport);
ListenableFuture<StreamState> bootstrapStream = bootstrapper.bootstrap(streamStateStore, !replacing && useStrictConsistency); // handles token update
Futures.addCallback(bootstrapStream, new FutureCallback<StreamState>()
{
@Override
public void onSuccess(StreamState streamState)
{
isBootstrapMode = false;
// start participating in the ring.
// pretend we are in survey mode so we can use joinRing() here
isSurveyMode = true;
try
{
progressSupport.progress("bootstrap", ProgressEvent.createNotification("Joining ring..."));
joinRing();
}
catch (IOException ignore)
{
// joinRing with survey mode does not throw IOException
}
progressSupport.progress("bootstrap", new ProgressEvent(ProgressEventType.COMPLETE, 1, 1, "Resume bootstrap complete"));
logger.info("Resume complete");
}
@Override
public void onFailure(Throwable e)
{
String message = "Error during bootstrap: " + e.getCause().getMessage();
logger.error(message, e.getCause());
progressSupport.progress("bootstrap", new ProgressEvent(ProgressEventType.ERROR, 1, 1, message));
progressSupport.progress("bootstrap", new ProgressEvent(ProgressEventType.COMPLETE, 1, 1, "Resume bootstrap complete"));
}
});
return true;
}
else
{
logger.info("Resuming bootstrap is requested, but the node is already bootstrapped.");
return false;
}
}
public boolean isBootstrapMode()
{
return isBootstrapMode;
}
public TokenMetadata getTokenMetadata()
{
return tokenMetadata;
}
/**
* for a keyspace, return the ranges and corresponding listen addresses.
* @param keyspace
* @return the endpoint map
*/
public Map<List<String>, List<String>> getRangeToEndpointMap(String keyspace)
{
/* All the ranges for the tokens */
Map<List<String>, List<String>> map = new HashMap<>();
for (Map.Entry<Range<Token>,List<InetAddress>> entry : getRangeToAddressMap(keyspace).entrySet())
{
map.put(entry.getKey().asList(), stringify(entry.getValue()));
}
return map;
}
/**
* Return the rpc address associated with an endpoint as a string.
* @param endpoint The endpoint to get rpc address for
* @return the rpc address
*/
public String getRpcaddress(InetAddress endpoint)
{
if (endpoint.equals(FBUtilities.getBroadcastAddress()))
return DatabaseDescriptor.getBroadcastRpcAddress().getHostAddress();
else if (Gossiper.instance.getEndpointStateForEndpoint(endpoint).getApplicationState(ApplicationState.RPC_ADDRESS) == null)
return endpoint.getHostAddress();
else
return Gossiper.instance.getEndpointStateForEndpoint(endpoint).getApplicationState(ApplicationState.RPC_ADDRESS).value;
}
/**
* for a keyspace, return the ranges and corresponding RPC addresses for a given keyspace.
* @param keyspace
* @return the endpoint map
*/
public Map<List<String>, List<String>> getRangeToRpcaddressMap(String keyspace)
{
/* All the ranges for the tokens */
Map<List<String>, List<String>> map = new HashMap<>();
for (Map.Entry<Range<Token>, List<InetAddress>> entry : getRangeToAddressMap(keyspace).entrySet())
{
List<String> rpcaddrs = new ArrayList<>(entry.getValue().size());
for (InetAddress endpoint: entry.getValue())
{
rpcaddrs.add(getRpcaddress(endpoint));
}
map.put(entry.getKey().asList(), rpcaddrs);
}
return map;
}
public Map<List<String>, List<String>> getPendingRangeToEndpointMap(String keyspace)
{
// some people just want to get a visual representation of things. Allow null and set it to the first
// non-system keyspace.
if (keyspace == null)
keyspace = Schema.instance.getNonLocalStrategyKeyspaces().get(0);
Map<List<String>, List<String>> map = new HashMap<>();
for (Map.Entry<Range<Token>, Collection<InetAddress>> entry : tokenMetadata.getPendingRangesMM(keyspace).asMap().entrySet())
{
List<InetAddress> l = new ArrayList<>(entry.getValue());
map.put(entry.getKey().asList(), stringify(l));
}
return map;
}
public Map<Range<Token>, List<InetAddress>> getRangeToAddressMap(String keyspace)
{
return getRangeToAddressMap(keyspace, tokenMetadata.sortedTokens());
}
public Map<Range<Token>, List<InetAddress>> getRangeToAddressMapInLocalDC(String keyspace)
{
Predicate<InetAddress> isLocalDC = new Predicate<InetAddress>()
{
public boolean apply(InetAddress address)
{
return isLocalDC(address);
}
};
Map<Range<Token>, List<InetAddress>> origMap = getRangeToAddressMap(keyspace, getTokensInLocalDC());
Map<Range<Token>, List<InetAddress>> filteredMap = Maps.newHashMap();
for (Map.Entry<Range<Token>, List<InetAddress>> entry : origMap.entrySet())
{
List<InetAddress> endpointsInLocalDC = Lists.newArrayList(Collections2.filter(entry.getValue(), isLocalDC));
filteredMap.put(entry.getKey(), endpointsInLocalDC);
}
return filteredMap;
}
private List<Token> getTokensInLocalDC()
{
List<Token> filteredTokens = Lists.newArrayList();
for (Token token : tokenMetadata.sortedTokens())
{
InetAddress endpoint = tokenMetadata.getEndpoint(token);
if (isLocalDC(endpoint))
filteredTokens.add(token);
}
return filteredTokens;
}
private boolean isLocalDC(InetAddress targetHost)
{
String remoteDC = DatabaseDescriptor.getEndpointSnitch().getDatacenter(targetHost);
String localDC = DatabaseDescriptor.getEndpointSnitch().getDatacenter(FBUtilities.getBroadcastAddress());
return remoteDC.equals(localDC);
}
private Map<Range<Token>, List<InetAddress>> getRangeToAddressMap(String keyspace, List<Token> sortedTokens)
{
// some people just want to get a visual representation of things. Allow null and set it to the first
// non-system keyspace.
if (keyspace == null)
keyspace = Schema.instance.getNonLocalStrategyKeyspaces().get(0);
List<Range<Token>> ranges = getAllRanges(sortedTokens);
return constructRangeToEndpointMap(keyspace, ranges);
}
/**
* The same as {@code describeRing(String)} but converts TokenRange to the String for JMX compatibility
*
* @param keyspace The keyspace to fetch information about
*
* @return a List of TokenRange(s) converted to String for the given keyspace
*/
public List<String> describeRingJMX(String keyspace) throws IOException
{
List<TokenRange> tokenRanges;
try
{
tokenRanges = describeRing(keyspace);
}
catch (InvalidRequestException e)
{
throw new IOException(e.getMessage());
}
List<String> result = new ArrayList<>(tokenRanges.size());
for (TokenRange tokenRange : tokenRanges)
result.add(tokenRange.toString());
return result;
}
/**
* The TokenRange for a given keyspace.
*
* @param keyspace The keyspace to fetch information about
*
* @return a List of TokenRange(s) for the given keyspace
*
* @throws InvalidRequestException if there is no ring information available about keyspace
*/
public List<TokenRange> describeRing(String keyspace) throws InvalidRequestException
{
return describeRing(keyspace, false);
}
/**
* The same as {@code describeRing(String)} but considers only the part of the ring formed by nodes in the local DC.
*/
public List<TokenRange> describeLocalRing(String keyspace) throws InvalidRequestException
{
return describeRing(keyspace, true);
}
private List<TokenRange> describeRing(String keyspace, boolean includeOnlyLocalDC) throws InvalidRequestException
{
if (!Schema.instance.getKeyspaces().contains(keyspace))
throw new InvalidRequestException("No such keyspace: " + keyspace);
if (keyspace == null || Keyspace.open(keyspace).getReplicationStrategy() instanceof LocalStrategy)
throw new InvalidRequestException("There is no ring for the keyspace: " + keyspace);
List<TokenRange> ranges = new ArrayList<>();
Token.TokenFactory tf = getTokenFactory();
Map<Range<Token>, List<InetAddress>> rangeToAddressMap =
includeOnlyLocalDC
? getRangeToAddressMapInLocalDC(keyspace)
: getRangeToAddressMap(keyspace);
for (Map.Entry<Range<Token>, List<InetAddress>> entry : rangeToAddressMap.entrySet())
{
Range<Token> range = entry.getKey();
List<InetAddress> addresses = entry.getValue();
List<String> endpoints = new ArrayList<>(addresses.size());
List<String> rpc_endpoints = new ArrayList<>(addresses.size());
List<EndpointDetails> epDetails = new ArrayList<>(addresses.size());
for (InetAddress endpoint : addresses)
{
EndpointDetails details = new EndpointDetails();
details.host = endpoint.getHostAddress();
details.datacenter = DatabaseDescriptor.getEndpointSnitch().getDatacenter(endpoint);
details.rack = DatabaseDescriptor.getEndpointSnitch().getRack(endpoint);
endpoints.add(details.host);
rpc_endpoints.add(getRpcaddress(endpoint));
epDetails.add(details);
}
TokenRange tr = new TokenRange(tf.toString(range.left.getToken()), tf.toString(range.right.getToken()), endpoints)
.setEndpoint_details(epDetails)
.setRpc_endpoints(rpc_endpoints);
ranges.add(tr);
}
return ranges;
}
public Map<String, String> getTokenToEndpointMap()
{
Map<Token, InetAddress> mapInetAddress = tokenMetadata.getNormalAndBootstrappingTokenToEndpointMap();
// in order to preserve tokens in ascending order, we use LinkedHashMap here
Map<String, String> mapString = new LinkedHashMap<>(mapInetAddress.size());
List<Token> tokens = new ArrayList<>(mapInetAddress.keySet());
Collections.sort(tokens);
for (Token token : tokens)
{
mapString.put(token.toString(), mapInetAddress.get(token).getHostAddress());
}
return mapString;
}
public String getLocalHostId()
{
return getTokenMetadata().getHostId(FBUtilities.getBroadcastAddress()).toString();
}
public UUID getLocalHostUUID()
{
return getTokenMetadata().getHostId(FBUtilities.getBroadcastAddress());
}
public Map<String, String> getHostIdMap()
{
return getEndpointToHostId();
}
public Map<String, String> getEndpointToHostId()
{
Map<String, String> mapOut = new HashMap<>();
for (Map.Entry<InetAddress, UUID> entry : getTokenMetadata().getEndpointToHostIdMapForReading().entrySet())
mapOut.put(entry.getKey().getHostAddress(), entry.getValue().toString());
return mapOut;
}
public Map<String, String> getHostIdToEndpoint()
{
Map<String, String> mapOut = new HashMap<>();
for (Map.Entry<InetAddress, UUID> entry : getTokenMetadata().getEndpointToHostIdMapForReading().entrySet())
mapOut.put(entry.getValue().toString(), entry.getKey().getHostAddress());
return mapOut;
}
/**
* Construct the range to endpoint mapping based on the true view
* of the world.
* @param ranges
* @return mapping of ranges to the replicas responsible for them.
*/
private Map<Range<Token>, List<InetAddress>> constructRangeToEndpointMap(String keyspace, List<Range<Token>> ranges)
{
Map<Range<Token>, List<InetAddress>> rangeToEndpointMap = new HashMap<>(ranges.size());
for (Range<Token> range : ranges)
{
rangeToEndpointMap.put(range, Keyspace.open(keyspace).getReplicationStrategy().getNaturalEndpoints(range.right));
}
return rangeToEndpointMap;
}
public void beforeChange(InetAddress endpoint, EndpointState currentState, ApplicationState newStateKey, VersionedValue newValue)
{
// no-op
}
/*
* Handle the reception of a new particular ApplicationState for a particular endpoint. Note that the value of the
* ApplicationState has not necessarily "changed" since the last known value, if we already received the same update
* from somewhere else.
*
* onChange only ever sees one ApplicationState piece change at a time (even if many ApplicationState updates were
* received at the same time), so we perform a kind of state machine here. We are concerned with two events: knowing
* the token associated with an endpoint, and knowing its operation mode. Nodes can start in either bootstrap or
* normal mode, and from bootstrap mode can change mode to normal. A node in bootstrap mode needs to have
* pendingranges set in TokenMetadata; a node in normal mode should instead be part of the token ring.
*
* Normal progression of ApplicationState.STATUS values for a node should be like this:
* STATUS_BOOTSTRAPPING,token
* if bootstrapping. stays this way until all files are received.
* STATUS_NORMAL,token
* ready to serve reads and writes.
* STATUS_LEAVING,token
* get ready to leave the cluster as part of a decommission
* STATUS_LEFT,token
* set after decommission is completed.
*
* Other STATUS values that may be seen (possibly anywhere in the normal progression):
* STATUS_MOVING,newtoken
* set if node is currently moving to a new token in the ring
* REMOVING_TOKEN,deadtoken
* set if the node is dead and is being removed by its REMOVAL_COORDINATOR
* REMOVED_TOKEN,deadtoken
* set if the node is dead and has been removed by its REMOVAL_COORDINATOR
*
* Note: Any time a node state changes from STATUS_NORMAL, it will not be visible to new nodes. So it follows that
* you should never bootstrap a new node during a removenode, decommission or move.
*/
public void onChange(InetAddress endpoint, ApplicationState state, VersionedValue value)
{
if (state == ApplicationState.STATUS)
{
String apStateValue = value.value;
String[] pieces = apStateValue.split(VersionedValue.DELIMITER_STR, -1);
assert (pieces.length > 0);
String moveName = pieces[0];
switch (moveName)
{
case VersionedValue.STATUS_BOOTSTRAPPING:
handleStateBootstrap(endpoint);
break;
case VersionedValue.STATUS_NORMAL:
handleStateNormal(endpoint, VersionedValue.STATUS_NORMAL);
break;
case VersionedValue.SHUTDOWN:
handleStateNormal(endpoint, VersionedValue.SHUTDOWN);
break;
case VersionedValue.REMOVING_TOKEN:
case VersionedValue.REMOVED_TOKEN:
handleStateRemoving(endpoint, pieces);
break;
case VersionedValue.STATUS_LEAVING:
handleStateLeaving(endpoint);
break;
case VersionedValue.STATUS_LEFT:
handleStateLeft(endpoint, pieces);
break;
case VersionedValue.STATUS_MOVING:
handleStateMoving(endpoint, pieces);
break;
}
}
else
{
EndpointState epState = Gossiper.instance.getEndpointStateForEndpoint(endpoint);
if (epState == null || Gossiper.instance.isDeadState(epState))
{
logger.debug("Ignoring state change for dead or unknown endpoint: {}", endpoint);
return;
}
if (getTokenMetadata().isMember(endpoint))
{
switch (state)
{
case RELEASE_VERSION:
SystemKeyspace.updatePeerInfo(endpoint, "release_version", value.value);
break;
case DC:
updateTopology(endpoint);
SystemKeyspace.updatePeerInfo(endpoint, "data_center", value.value);
break;
case RACK:
updateTopology(endpoint);
SystemKeyspace.updatePeerInfo(endpoint, "rack", value.value);
break;
case RPC_ADDRESS:
try
{
SystemKeyspace.updatePeerInfo(endpoint, "rpc_address", InetAddress.getByName(value.value));
}
catch (UnknownHostException e)
{
throw new RuntimeException(e);
}
break;
case SCHEMA:
SystemKeyspace.updatePeerInfo(endpoint, "schema_version", UUID.fromString(value.value));
MigrationManager.instance.scheduleSchemaPull(endpoint, epState);
break;
case HOST_ID:
SystemKeyspace.updatePeerInfo(endpoint, "host_id", UUID.fromString(value.value));
break;
case RPC_READY:
notifyRpcChange(endpoint, epState.isRpcReady());
break;
case NET_VERSION:
updateNetVersion(endpoint, value);
break;
}
}
}
}
private void updateNetVersion(InetAddress endpoint, VersionedValue value)
{
try
{
MessagingService.instance().setVersion(endpoint, Integer.parseInt(value.value));
}
catch (NumberFormatException e)
{
throw new AssertionError("Got invalid value for NET_VERSION application state: " + value.value);
}
}
public void updateTopology(InetAddress endpoint)
{
if (getTokenMetadata().isMember(endpoint))
{
getTokenMetadata().updateTopology(endpoint);
}
}
public void updateTopology()
{
getTokenMetadata().updateTopology();
}
private void updatePeerInfo(InetAddress endpoint)
{
EndpointState epState = Gossiper.instance.getEndpointStateForEndpoint(endpoint);
for (Map.Entry<ApplicationState, VersionedValue> entry : epState.states())
{
switch (entry.getKey())
{
case RELEASE_VERSION:
SystemKeyspace.updatePeerInfo(endpoint, "release_version", entry.getValue().value);
break;
case DC:
SystemKeyspace.updatePeerInfo(endpoint, "data_center", entry.getValue().value);
break;
case RACK:
SystemKeyspace.updatePeerInfo(endpoint, "rack", entry.getValue().value);
break;
case RPC_ADDRESS:
try
{
SystemKeyspace.updatePeerInfo(endpoint, "rpc_address", InetAddress.getByName(entry.getValue().value));
}
catch (UnknownHostException e)
{
throw new RuntimeException(e);
}
break;
case SCHEMA:
SystemKeyspace.updatePeerInfo(endpoint, "schema_version", UUID.fromString(entry.getValue().value));
break;
case HOST_ID:
SystemKeyspace.updatePeerInfo(endpoint, "host_id", UUID.fromString(entry.getValue().value));
break;
}
}
}
private void notifyRpcChange(InetAddress endpoint, boolean ready)
{
if (ready)
notifyUp(endpoint);
else
notifyDown(endpoint);
}
private void notifyUp(InetAddress endpoint)
{
if (!isRpcReady(endpoint) || !Gossiper.instance.isAlive(endpoint))
return;
for (IEndpointLifecycleSubscriber subscriber : lifecycleSubscribers)
subscriber.onUp(endpoint);
}
private void notifyDown(InetAddress endpoint)
{
for (IEndpointLifecycleSubscriber subscriber : lifecycleSubscribers)
subscriber.onDown(endpoint);
}
private void notifyJoined(InetAddress endpoint)
{
if (!isStatus(endpoint, VersionedValue.STATUS_NORMAL))
return;
for (IEndpointLifecycleSubscriber subscriber : lifecycleSubscribers)
subscriber.onJoinCluster(endpoint);
}
private void notifyMoved(InetAddress endpoint)
{
for (IEndpointLifecycleSubscriber subscriber : lifecycleSubscribers)
subscriber.onMove(endpoint);
}
private void notifyLeft(InetAddress endpoint)
{
for (IEndpointLifecycleSubscriber subscriber : lifecycleSubscribers)
subscriber.onLeaveCluster(endpoint);
}
private boolean isStatus(InetAddress endpoint, String status)
{
return Gossiper.instance.getEndpointStateForEndpoint(endpoint).getStatus().equals(status);
}
public boolean isRpcReady(InetAddress endpoint)
{
return MessagingService.instance().getVersion(endpoint) < MessagingService.VERSION_22 ||
Gossiper.instance.getEndpointStateForEndpoint(endpoint).isRpcReady();
}
public void setRpcReady(boolean value)
{
Gossiper.instance.addLocalApplicationState(ApplicationState.RPC_READY, valueFactory.rpcReady(value));
}
private Collection<Token> getTokensFor(InetAddress endpoint)
{
try
{
EndpointState state = Gossiper.instance.getEndpointStateForEndpoint(endpoint);
if (state == null)
return Collections.emptyList();
VersionedValue versionedValue = state.getApplicationState(ApplicationState.TOKENS);
if (versionedValue == null)
return Collections.emptyList();
return TokenSerializer.deserialize(tokenMetadata.partitioner, new DataInputStream(new ByteArrayInputStream(versionedValue.toBytes())));
}
catch (IOException e)
{
throw new RuntimeException(e);
}
}
/**
* Handle node bootstrap
*
* @param endpoint bootstrapping node
*/
private void handleStateBootstrap(InetAddress endpoint)
{
Collection<Token> tokens;
// explicitly check for TOKENS, because a bootstrapping node might be bootstrapping in legacy mode; that is, not using vnodes and no token specified
tokens = getTokensFor(endpoint);
if (logger.isDebugEnabled())
logger.debug("Node {} state bootstrapping, token {}", endpoint, tokens);
// if this node is present in token metadata, either we have missed intermediate states
// or the node had crashed. Print warning if needed, clear obsolete stuff and
// continue.
if (tokenMetadata.isMember(endpoint))
{
// If isLeaving is false, we have missed both LEAVING and LEFT. However, if
// isLeaving is true, we have only missed LEFT. Waiting time between completing
// leave operation and rebootstrapping is relatively short, so the latter is quite
// common (not enough time for gossip to spread). Therefore we report only the
// former in the log.
if (!tokenMetadata.isLeaving(endpoint))
logger.info("Node {} state jump to bootstrap", endpoint);
tokenMetadata.removeEndpoint(endpoint);
}
tokenMetadata.addBootstrapTokens(tokens, endpoint);
PendingRangeCalculatorService.instance.update();
tokenMetadata.updateHostId(Gossiper.instance.getHostId(endpoint), endpoint);
}
/**
* Handle node move to normal state. That is, node is entering token ring and participating
* in reads.
*
* @param endpoint node
*/
private void handleStateNormal(final InetAddress endpoint, final String status)
{
Collection<Token> tokens = getTokensFor(endpoint);
Set<Token> tokensToUpdateInMetadata = new HashSet<>();
Set<Token> tokensToUpdateInSystemKeyspace = new HashSet<>();
Set<InetAddress> endpointsToRemove = new HashSet<>();
if (logger.isDebugEnabled())
logger.debug("Node {} state {}, token {}", endpoint, status, tokens);
if (tokenMetadata.isMember(endpoint))
logger.info("Node {} state jump to {}", endpoint, status);
if (tokens.isEmpty() && status.equals(VersionedValue.STATUS_NORMAL))
logger.error("Node {} is in state normal but it has no tokens, state: {}",
endpoint,
Gossiper.instance.getEndpointStateForEndpoint(endpoint));
updatePeerInfo(endpoint);
// Order Matters, TM.updateHostID() should be called before TM.updateNormalToken(), (see CASSANDRA-4300).
UUID hostId = Gossiper.instance.getHostId(endpoint);
InetAddress existing = tokenMetadata.getEndpointForHostId(hostId);
if (replacing && Gossiper.instance.getEndpointStateForEndpoint(DatabaseDescriptor.getReplaceAddress()) != null && (hostId.equals(Gossiper.instance.getHostId(DatabaseDescriptor.getReplaceAddress()))))
logger.warn("Not updating token metadata for {} because I am replacing it", endpoint);
else
{
if (existing != null && !existing.equals(endpoint))
{
if (existing.equals(FBUtilities.getBroadcastAddress()))
{
logger.warn("Not updating host ID {} for {} because it's mine", hostId, endpoint);
tokenMetadata.removeEndpoint(endpoint);
endpointsToRemove.add(endpoint);
}
else if (Gossiper.instance.compareEndpointStartup(endpoint, existing) > 0)
{
logger.warn("Host ID collision for {} between {} and {}; {} is the new owner", hostId, existing, endpoint, endpoint);
tokenMetadata.removeEndpoint(existing);
endpointsToRemove.add(existing);
tokenMetadata.updateHostId(hostId, endpoint);
}
else
{
logger.warn("Host ID collision for {} between {} and {}; ignored {}", hostId, existing, endpoint, endpoint);
tokenMetadata.removeEndpoint(endpoint);
endpointsToRemove.add(endpoint);
}
}
else
tokenMetadata.updateHostId(hostId, endpoint);
}
for (final Token token : tokens)
{
// we don't want to update if this node is responsible for the token and it has a later startup time than endpoint.
InetAddress currentOwner = tokenMetadata.getEndpoint(token);
if (currentOwner == null)
{
logger.debug("New node {} at token {}", endpoint, token);
tokensToUpdateInMetadata.add(token);
tokensToUpdateInSystemKeyspace.add(token);
}
else if (endpoint.equals(currentOwner))
{
// set state back to normal, since the node may have tried to leave, but failed and is now back up
tokensToUpdateInMetadata.add(token);
tokensToUpdateInSystemKeyspace.add(token);
}
else if (Gossiper.instance.compareEndpointStartup(endpoint, currentOwner) > 0)
{
tokensToUpdateInMetadata.add(token);
tokensToUpdateInSystemKeyspace.add(token);
// currentOwner is no longer current, endpoint is. Keep track of these moves, because when
// a host no longer has any tokens, we'll want to remove it.
Multimap<InetAddress, Token> epToTokenCopy = getTokenMetadata().getEndpointToTokenMapForReading();
epToTokenCopy.get(currentOwner).remove(token);
if (epToTokenCopy.get(currentOwner).size() < 1)
endpointsToRemove.add(currentOwner);
logger.info(String.format("Nodes %s and %s have the same token %s. %s is the new owner",
endpoint,
currentOwner,
token,
endpoint));
}
else
{
logger.info(String.format("Nodes %s and %s have the same token %s. Ignoring %s",
endpoint,
currentOwner,
token,
endpoint));
}
}
// capture because updateNormalTokens clears moving and member status
boolean isMember = tokenMetadata.isMember(endpoint);
boolean isMoving = tokenMetadata.isMoving(endpoint);
tokenMetadata.updateNormalTokens(tokensToUpdateInMetadata, endpoint);
for (InetAddress ep : endpointsToRemove)
{
removeEndpoint(ep);
if (replacing && DatabaseDescriptor.getReplaceAddress().equals(ep))
Gossiper.instance.replacementQuarantine(ep); // quarantine locally longer than normally; see CASSANDRA-8260
}
if (!tokensToUpdateInSystemKeyspace.isEmpty())
SystemKeyspace.updateTokens(endpoint, tokensToUpdateInSystemKeyspace);;
if (isMoving || operationMode == Mode.MOVING)
{
tokenMetadata.removeFromMoving(endpoint);
notifyMoved(endpoint);
}
else if (!isMember) // prior to this, the node was not a member
{
notifyJoined(endpoint);
}
PendingRangeCalculatorService.instance.update();
}
/**
* Handle node preparing to leave the ring
*
* @param endpoint node
*/
private void handleStateLeaving(InetAddress endpoint)
{
Collection<Token> tokens = getTokensFor(endpoint);
if (logger.isDebugEnabled())
logger.debug("Node {} state leaving, tokens {}", endpoint, tokens);
// If the node is previously unknown or tokens do not match, update tokenmetadata to
// have this node as 'normal' (it must have been using this token before the
// leave). This way we'll get pending ranges right.
if (!tokenMetadata.isMember(endpoint))
{
logger.info("Node {} state jump to leaving", endpoint);
tokenMetadata.updateNormalTokens(tokens, endpoint);
}
else if (!tokenMetadata.getTokens(endpoint).containsAll(tokens))
{
logger.warn("Node {} 'leaving' token mismatch. Long network partition?", endpoint);
tokenMetadata.updateNormalTokens(tokens, endpoint);
}
// at this point the endpoint is certainly a member with this token, so let's proceed
// normally
tokenMetadata.addLeavingEndpoint(endpoint);
PendingRangeCalculatorService.instance.update();
}
/**
* Handle node leaving the ring. This will happen when a node is decommissioned
*
* @param endpoint If reason for leaving is decommission, endpoint is the leaving node.
* @param pieces STATE_LEFT,token
*/
private void handleStateLeft(InetAddress endpoint, String[] pieces)
{
assert pieces.length >= 2;
Collection<Token> tokens = getTokensFor(endpoint);
if (logger.isDebugEnabled())
logger.debug("Node {} state left, tokens {}", endpoint, tokens);
excise(tokens, endpoint, extractExpireTime(pieces));
}
/**
* Handle node moving inside the ring.
*
* @param endpoint moving endpoint address
* @param pieces STATE_MOVING, token
*/
private void handleStateMoving(InetAddress endpoint, String[] pieces)
{
assert pieces.length >= 2;
Token token = getTokenFactory().fromString(pieces[1]);
if (logger.isDebugEnabled())
logger.debug("Node {} state moving, new token {}", endpoint, token);
tokenMetadata.addMovingEndpoint(token, endpoint);
PendingRangeCalculatorService.instance.update();
}
/**
* Handle notification that a node being actively removed from the ring via 'removenode'
*
* @param endpoint node
* @param pieces either REMOVED_TOKEN (node is gone) or REMOVING_TOKEN (replicas need to be restored)
*/
private void handleStateRemoving(InetAddress endpoint, String[] pieces)
{
assert (pieces.length > 0);
if (endpoint.equals(FBUtilities.getBroadcastAddress()))
{
logger.info("Received removenode gossip about myself. Is this node rejoining after an explicit removenode?");
try
{
drain();
}
catch (Exception e)
{
throw new RuntimeException(e);
}
return;
}
if (tokenMetadata.isMember(endpoint))
{
String state = pieces[0];
Collection<Token> removeTokens = tokenMetadata.getTokens(endpoint);
if (VersionedValue.REMOVED_TOKEN.equals(state))
{
excise(removeTokens, endpoint, extractExpireTime(pieces));
}
else if (VersionedValue.REMOVING_TOKEN.equals(state))
{
if (logger.isDebugEnabled())
logger.debug("Tokens {} removed manually (endpoint was {})", removeTokens, endpoint);
// Note that the endpoint is being removed
tokenMetadata.addLeavingEndpoint(endpoint);
PendingRangeCalculatorService.instance.update();
// find the endpoint coordinating this removal that we need to notify when we're done
String[] coordinator = Gossiper.instance.getEndpointStateForEndpoint(endpoint).getApplicationState(ApplicationState.REMOVAL_COORDINATOR).value.split(VersionedValue.DELIMITER_STR, -1);
UUID hostId = UUID.fromString(coordinator[1]);
// grab any data we are now responsible for and notify responsible node
restoreReplicaCount(endpoint, tokenMetadata.getEndpointForHostId(hostId));
}
}
else // now that the gossiper has told us about this nonexistent member, notify the gossiper to remove it
{
if (VersionedValue.REMOVED_TOKEN.equals(pieces[0]))
addExpireTimeIfFound(endpoint, extractExpireTime(pieces));
removeEndpoint(endpoint);
}
}
private void excise(Collection<Token> tokens, InetAddress endpoint)
{
logger.info("Removing tokens {} for {}", tokens, endpoint);
if (tokenMetadata.isMember(endpoint))
HintsService.instance.excise(tokenMetadata.getHostId(endpoint));
removeEndpoint(endpoint);
tokenMetadata.removeEndpoint(endpoint);
if (!tokens.isEmpty())
tokenMetadata.removeBootstrapTokens(tokens);
notifyLeft(endpoint);
PendingRangeCalculatorService.instance.update();
}
private void excise(Collection<Token> tokens, InetAddress endpoint, long expireTime)
{
addExpireTimeIfFound(endpoint, expireTime);
excise(tokens, endpoint);
}
/** unlike excise we just need this endpoint gone without going through any notifications **/
private void removeEndpoint(InetAddress endpoint)
{
Gossiper.instance.removeEndpoint(endpoint);
SystemKeyspace.removeEndpoint(endpoint);
}
protected void addExpireTimeIfFound(InetAddress endpoint, long expireTime)
{
if (expireTime != 0L)
{
Gossiper.instance.addExpireTimeForEndpoint(endpoint, expireTime);
}
}
protected long extractExpireTime(String[] pieces)
{
return Long.parseLong(pieces[2]);
}
/**
* Finds living endpoints responsible for the given ranges
*
* @param keyspaceName the keyspace ranges belong to
* @param ranges the ranges to find sources for
* @return multimap of addresses to ranges the address is responsible for
*/
private Multimap<InetAddress, Range<Token>> getNewSourceRanges(String keyspaceName, Set<Range<Token>> ranges)
{
InetAddress myAddress = FBUtilities.getBroadcastAddress();
Multimap<Range<Token>, InetAddress> rangeAddresses = Keyspace.open(keyspaceName).getReplicationStrategy().getRangeAddresses(tokenMetadata.cloneOnlyTokenMap());
Multimap<InetAddress, Range<Token>> sourceRanges = HashMultimap.create();
IFailureDetector failureDetector = FailureDetector.instance;
// find alive sources for our new ranges
for (Range<Token> range : ranges)
{
Collection<InetAddress> possibleRanges = rangeAddresses.get(range);
IEndpointSnitch snitch = DatabaseDescriptor.getEndpointSnitch();
List<InetAddress> sources = snitch.getSortedListByProximity(myAddress, possibleRanges);
assert (!sources.contains(myAddress));
for (InetAddress source : sources)
{
if (failureDetector.isAlive(source))
{
sourceRanges.put(source, range);
break;
}
}
}
return sourceRanges;
}
/**
* Sends a notification to a node indicating we have finished replicating data.
*
* @param remote node to send notification to
*/
private void sendReplicationNotification(InetAddress remote)
{
// notify the remote token
MessageOut msg = new MessageOut(MessagingService.Verb.REPLICATION_FINISHED);
IFailureDetector failureDetector = FailureDetector.instance;
if (logger.isDebugEnabled())
logger.debug("Notifying {} of replication completion\n", remote);
while (failureDetector.isAlive(remote))
{
AsyncOneResponse iar = MessagingService.instance().sendRR(msg, remote);
try
{
iar.get(DatabaseDescriptor.getRpcTimeout(), TimeUnit.MILLISECONDS);
return; // done
}
catch(TimeoutException e)
{
// try again
}
}
}
/**
* Called when an endpoint is removed from the ring. This function checks
* whether this node becomes responsible for new ranges as a
* consequence and streams data if needed.
*
* This is rather ineffective, but it does not matter so much
* since this is called very seldom
*
* @param endpoint the node that left
*/
private void restoreReplicaCount(InetAddress endpoint, final InetAddress notifyEndpoint)
{
Multimap<String, Map.Entry<InetAddress, Collection<Range<Token>>>> rangesToFetch = HashMultimap.create();
InetAddress myAddress = FBUtilities.getBroadcastAddress();
for (String keyspaceName : Schema.instance.getNonLocalStrategyKeyspaces())
{
Multimap<Range<Token>, InetAddress> changedRanges = getChangedRangesForLeaving(keyspaceName, endpoint);
Set<Range<Token>> myNewRanges = new HashSet<>();
for (Map.Entry<Range<Token>, InetAddress> entry : changedRanges.entries())
{
if (entry.getValue().equals(myAddress))
myNewRanges.add(entry.getKey());
}
Multimap<InetAddress, Range<Token>> sourceRanges = getNewSourceRanges(keyspaceName, myNewRanges);
for (Map.Entry<InetAddress, Collection<Range<Token>>> entry : sourceRanges.asMap().entrySet())
{
rangesToFetch.put(keyspaceName, entry);
}
}
StreamPlan stream = new StreamPlan("Restore replica count");
for (String keyspaceName : rangesToFetch.keySet())
{
for (Map.Entry<InetAddress, Collection<Range<Token>>> entry : rangesToFetch.get(keyspaceName))
{
InetAddress source = entry.getKey();
InetAddress preferred = SystemKeyspace.getPreferredIP(source);
Collection<Range<Token>> ranges = entry.getValue();
if (logger.isDebugEnabled())
logger.debug("Requesting from {} ranges {}", source, StringUtils.join(ranges, ", "));
stream.requestRanges(source, preferred, keyspaceName, ranges);
}
}
StreamResultFuture future = stream.execute();
Futures.addCallback(future, new FutureCallback<StreamState>()
{
public void onSuccess(StreamState finalState)
{
sendReplicationNotification(notifyEndpoint);
}
public void onFailure(Throwable t)
{
logger.warn("Streaming to restore replica count failed", t);
// We still want to send the notification
sendReplicationNotification(notifyEndpoint);
}
});
}
// needs to be modified to accept either a keyspace or ARS.
private Multimap<Range<Token>, InetAddress> getChangedRangesForLeaving(String keyspaceName, InetAddress endpoint)
{
// First get all ranges the leaving endpoint is responsible for
Collection<Range<Token>> ranges = getRangesForEndpoint(keyspaceName, endpoint);
if (logger.isDebugEnabled())
logger.debug("Node {} ranges [{}]", endpoint, StringUtils.join(ranges, ", "));
Map<Range<Token>, List<InetAddress>> currentReplicaEndpoints = new HashMap<>(ranges.size());
// Find (for each range) all nodes that store replicas for these ranges as well
TokenMetadata metadata = tokenMetadata.cloneOnlyTokenMap(); // don't do this in the loop! #7758
for (Range<Token> range : ranges)
currentReplicaEndpoints.put(range, Keyspace.open(keyspaceName).getReplicationStrategy().calculateNaturalEndpoints(range.right, metadata));
TokenMetadata temp = tokenMetadata.cloneAfterAllLeft();
// endpoint might or might not be 'leaving'. If it was not leaving (that is, removenode
// command was used), it is still present in temp and must be removed.
if (temp.isMember(endpoint))
temp.removeEndpoint(endpoint);
Multimap<Range<Token>, InetAddress> changedRanges = HashMultimap.create();
// Go through the ranges and for each range check who will be
// storing replicas for these ranges when the leaving endpoint
// is gone. Whoever is present in newReplicaEndpoints list, but
// not in the currentReplicaEndpoints list, will be needing the
// range.
for (Range<Token> range : ranges)
{
Collection<InetAddress> newReplicaEndpoints = Keyspace.open(keyspaceName).getReplicationStrategy().calculateNaturalEndpoints(range.right, temp);
newReplicaEndpoints.removeAll(currentReplicaEndpoints.get(range));
if (logger.isDebugEnabled())
if (newReplicaEndpoints.isEmpty())
logger.debug("Range {} already in all replicas", range);
else
logger.debug("Range {} will be responsibility of {}", range, StringUtils.join(newReplicaEndpoints, ", "));
changedRanges.putAll(range, newReplicaEndpoints);
}
return changedRanges;
}
public void onJoin(InetAddress endpoint, EndpointState epState)
{
for (Map.Entry<ApplicationState, VersionedValue> entry : epState.states())
{
onChange(endpoint, entry.getKey(), entry.getValue());
}
MigrationManager.instance.scheduleSchemaPull(endpoint, epState);
}
public void onAlive(InetAddress endpoint, EndpointState state)
{
MigrationManager.instance.scheduleSchemaPull(endpoint, state);
if (tokenMetadata.isMember(endpoint))
notifyUp(endpoint);
}
public void onRemove(InetAddress endpoint)
{
tokenMetadata.removeEndpoint(endpoint);
PendingRangeCalculatorService.instance.update();
}
public void onDead(InetAddress endpoint, EndpointState state)
{
MessagingService.instance().convict(endpoint);
notifyDown(endpoint);
}
public void onRestart(InetAddress endpoint, EndpointState state)
{
// If we have restarted before the node was even marked down, we need to reset the connection pool
if (state.isAlive())
onDead(endpoint, state);
// Then, the node may have been upgraded and changed its messaging protocol version. If so, we
// want to update that before we mark the node live again to avoid problems like CASSANDRA-11128.
VersionedValue netVersion = state.getApplicationState(ApplicationState.NET_VERSION);
if (netVersion != null)
updateNetVersion(endpoint, netVersion);
}
public String getLoadString()
{
return FileUtils.stringifyFileSize(StorageMetrics.load.getCount());
}
public Map<String, String> getLoadMap()
{
Map<String, String> map = new HashMap<>();
for (Map.Entry<InetAddress,Double> entry : LoadBroadcaster.instance.getLoadInfo().entrySet())
{
map.put(entry.getKey().getHostAddress(), FileUtils.stringifyFileSize(entry.getValue()));
}
// gossiper doesn't see its own updates, so we need to special-case the local node
map.put(FBUtilities.getBroadcastAddress().getHostAddress(), getLoadString());
return map;
}
// TODO
public final void deliverHints(String host)
{
throw new UnsupportedOperationException();
}
public Collection<Token> getLocalTokens()
{
Collection<Token> tokens = SystemKeyspace.getSavedTokens();
assert tokens != null && !tokens.isEmpty(); // should not be called before initServer sets this
return tokens;
}
@Nullable
public InetAddress getEndpointForHostId(UUID hostId)
{
return tokenMetadata.getEndpointForHostId(hostId);
}
@Nullable
public UUID getHostIdForEndpoint(InetAddress address)
{
return tokenMetadata.getHostId(address);
}
/* These methods belong to the MBean interface */
public List<String> getTokens()
{
return getTokens(FBUtilities.getBroadcastAddress());
}
public List<String> getTokens(String endpoint) throws UnknownHostException
{
return getTokens(InetAddress.getByName(endpoint));
}
private List<String> getTokens(InetAddress endpoint)
{
List<String> strTokens = new ArrayList<>();
for (Token tok : getTokenMetadata().getTokens(endpoint))
strTokens.add(tok.toString());
return strTokens;
}
public String getReleaseVersion()
{
return FBUtilities.getReleaseVersionString();
}
public String getSchemaVersion()
{
return Schema.instance.getVersion().toString();
}
public List<String> getLeavingNodes()
{
return stringify(tokenMetadata.getLeavingEndpoints());
}
public List<String> getMovingNodes()
{
List<String> endpoints = new ArrayList<>();
for (Pair<Token, InetAddress> node : tokenMetadata.getMovingEndpoints())
{
endpoints.add(node.right.getHostAddress());
}
return endpoints;
}
public List<String> getJoiningNodes()
{
return stringify(tokenMetadata.getBootstrapTokens().valueSet());
}
public List<String> getLiveNodes()
{
return stringify(Gossiper.instance.getLiveMembers());
}
public Set<InetAddress> getLiveRingMembers()
{
return getLiveRingMembers(false);
}
public Set<InetAddress> getLiveRingMembers(boolean excludeDeadStates)
{
Set<InetAddress> ret = new HashSet<>();
for (InetAddress ep : Gossiper.instance.getLiveMembers())
{
if (excludeDeadStates)
{
EndpointState epState = Gossiper.instance.getEndpointStateForEndpoint(ep);
if (epState == null || Gossiper.instance.isDeadState(epState))
continue;
}
if (tokenMetadata.isMember(ep))
ret.add(ep);
}
return ret;
}
public List<String> getUnreachableNodes()
{
return stringify(Gossiper.instance.getUnreachableMembers());
}
public String[] getAllDataFileLocations()
{
String[] locations = DatabaseDescriptor.getAllDataFileLocations();
for (int i = 0; i < locations.length; i++)
locations[i] = FileUtils.getCanonicalPath(locations[i]);
return locations;
}
public String getCommitLogLocation()
{
return FileUtils.getCanonicalPath(DatabaseDescriptor.getCommitLogLocation());
}
public String getSavedCachesLocation()
{
return FileUtils.getCanonicalPath(DatabaseDescriptor.getSavedCachesLocation());
}
private List<String> stringify(Iterable<InetAddress> endpoints)
{
List<String> stringEndpoints = new ArrayList<>();
for (InetAddress ep : endpoints)
{
stringEndpoints.add(ep.getHostAddress());
}
return stringEndpoints;
}
public int getCurrentGenerationNumber()
{
return Gossiper.instance.getCurrentGenerationNumber(FBUtilities.getBroadcastAddress());
}
public int forceKeyspaceCleanup(String keyspaceName, String... tables) throws IOException, ExecutionException, InterruptedException
{
return forceKeyspaceCleanup(0, keyspaceName, tables);
}
public int forceKeyspaceCleanup(int jobs, String keyspaceName, String... tables) throws IOException, ExecutionException, InterruptedException
{
if (Schema.isSystemKeyspace(keyspaceName))
throw new RuntimeException("Cleanup of the system keyspace is neither necessary nor wise");
CompactionManager.AllSSTableOpStatus status = CompactionManager.AllSSTableOpStatus.SUCCESSFUL;
for (ColumnFamilyStore cfStore : getValidColumnFamilies(false, false, keyspaceName, tables))
{
CompactionManager.AllSSTableOpStatus oneStatus = cfStore.forceCleanup(jobs);
if (oneStatus != CompactionManager.AllSSTableOpStatus.SUCCESSFUL)
status = oneStatus;
}
return status.statusCode;
}
public int scrub(boolean disableSnapshot, boolean skipCorrupted, String keyspaceName, String... tables) throws IOException, ExecutionException, InterruptedException
{
return scrub(disableSnapshot, skipCorrupted, true, 0, keyspaceName, tables);
}
public int scrub(boolean disableSnapshot, boolean skipCorrupted, boolean checkData, String keyspaceName, String... tables) throws IOException, ExecutionException, InterruptedException
{
return scrub(disableSnapshot, skipCorrupted, checkData, 0, keyspaceName, tables);
}
public int scrub(boolean disableSnapshot, boolean skipCorrupted, boolean checkData, int jobs, String keyspaceName, String... tables) throws IOException, ExecutionException, InterruptedException
{
CompactionManager.AllSSTableOpStatus status = CompactionManager.AllSSTableOpStatus.SUCCESSFUL;
for (ColumnFamilyStore cfStore : getValidColumnFamilies(true, false, keyspaceName, tables))
{
CompactionManager.AllSSTableOpStatus oneStatus = cfStore.scrub(disableSnapshot, skipCorrupted, checkData, jobs);
if (oneStatus != CompactionManager.AllSSTableOpStatus.SUCCESSFUL)
status = oneStatus;
}
return status.statusCode;
}
public int verify(boolean extendedVerify, String keyspaceName, String... tableNames) throws IOException, ExecutionException, InterruptedException
{
CompactionManager.AllSSTableOpStatus status = CompactionManager.AllSSTableOpStatus.SUCCESSFUL;
for (ColumnFamilyStore cfStore : getValidColumnFamilies(false, false, keyspaceName, tableNames))
{
CompactionManager.AllSSTableOpStatus oneStatus = cfStore.verify(extendedVerify);
if (oneStatus != CompactionManager.AllSSTableOpStatus.SUCCESSFUL)
status = oneStatus;
}
return status.statusCode;
}
public int upgradeSSTables(String keyspaceName, boolean excludeCurrentVersion, String... tableNames) throws IOException, ExecutionException, InterruptedException
{
return upgradeSSTables(keyspaceName, excludeCurrentVersion, 0, tableNames);
}
public int upgradeSSTables(String keyspaceName, boolean excludeCurrentVersion, int jobs, String... tableNames) throws IOException, ExecutionException, InterruptedException
{
CompactionManager.AllSSTableOpStatus status = CompactionManager.AllSSTableOpStatus.SUCCESSFUL;
for (ColumnFamilyStore cfStore : getValidColumnFamilies(true, true, keyspaceName, tableNames))
{
CompactionManager.AllSSTableOpStatus oneStatus = cfStore.sstablesRewrite(excludeCurrentVersion, jobs);
if (oneStatus != CompactionManager.AllSSTableOpStatus.SUCCESSFUL)
status = oneStatus;
}
return status.statusCode;
}
public void forceKeyspaceCompaction(boolean splitOutput, String keyspaceName, String... tableNames) throws IOException, ExecutionException, InterruptedException
{
for (ColumnFamilyStore cfStore : getValidColumnFamilies(true, false, keyspaceName, tableNames))
{
cfStore.forceMajorCompaction(splitOutput);
}
}
public int relocateSSTables(String keyspaceName, String ... columnFamilies) throws IOException, ExecutionException, InterruptedException
{
return relocateSSTables(0, keyspaceName, columnFamilies);
}
public int relocateSSTables(int jobs, String keyspaceName, String ... columnFamilies) throws IOException, ExecutionException, InterruptedException
{
CompactionManager.AllSSTableOpStatus status = CompactionManager.AllSSTableOpStatus.SUCCESSFUL;
for (ColumnFamilyStore cfs : getValidColumnFamilies(false, false, keyspaceName, columnFamilies))
{
CompactionManager.AllSSTableOpStatus oneStatus = cfs.relocateSSTables(jobs);
if (oneStatus != CompactionManager.AllSSTableOpStatus.SUCCESSFUL)
status = oneStatus;
}
return status.statusCode;
}
public int garbageCollect(String tombstoneOptionString, int jobs, String keyspaceName, String ... columnFamilies) throws IOException, ExecutionException, InterruptedException
{
TombstoneOption tombstoneOption = TombstoneOption.valueOf(tombstoneOptionString);
CompactionManager.AllSSTableOpStatus status = CompactionManager.AllSSTableOpStatus.SUCCESSFUL;
for (ColumnFamilyStore cfs : getValidColumnFamilies(false, false, keyspaceName, columnFamilies))
{
CompactionManager.AllSSTableOpStatus oneStatus = cfs.garbageCollect(tombstoneOption, jobs);
if (oneStatus != CompactionManager.AllSSTableOpStatus.SUCCESSFUL)
status = oneStatus;
}
return status.statusCode;
}
/**
* Takes the snapshot of a multiple column family from different keyspaces. A snapshot name must be specified.
*
* @param tag
* the tag given to the snapshot; may not be null or empty
* @param options
* Map of options (skipFlush is the only supported option for now)
* @param entities
* list of keyspaces / tables in the form of empty | ks1 ks2 ... | ks1.cf1,ks2.cf2,...
*/
@Override
public void takeSnapshot(String tag, Map<String, String> options, String... entities) throws IOException
{
boolean skipFlush = Boolean.parseBoolean(options.getOrDefault("skipFlush", "false"));
if (entities != null && entities.length > 0 && entities[0].contains("."))
{
takeMultipleTableSnapshot(tag, skipFlush, entities);
}
else
{
takeSnapshot(tag, skipFlush, entities);
}
}
/**
* Takes the snapshot of a specific table. A snapshot name must be
* specified.
*
* @param keyspaceName
* the keyspace which holds the specified table
* @param tableName
* the table to snapshot
* @param tag
* the tag given to the snapshot; may not be null or empty
*/
public void takeTableSnapshot(String keyspaceName, String tableName, String tag)
throws IOException {
takeMultipleTableSnapshot(tag, false, keyspaceName + "." + tableName);
}
/**
* Takes the snapshot for the given keyspaces. A snapshot name must be specified.
*
* @param tag the tag given to the snapshot; may not be null or empty
* @param keyspaceNames the names of the keyspaces to snapshot; empty means "all."
*/
public void takeSnapshot(String tag, String... keyspaceNames) throws IOException
{
takeSnapshot(tag, false, keyspaceNames);
}
/**
* Takes the snapshot of a multiple column family from different keyspaces. A snapshot name must be specified.
*
* @param tag
* the tag given to the snapshot; may not be null or empty
* @param tableList
* list of tables from different keyspace in the form of ks1.cf1 ks2.cf2
*/
public void takeMultipleTableSnapshot(String tag, String... tableList)
throws IOException
{
takeMultipleTableSnapshot(tag, false, tableList);
}
/**
* Takes the snapshot for the given keyspaces. A snapshot name must be specified.
*
* @param tag the tag given to the snapshot; may not be null or empty
* @param skipFlush Skip blocking flush of memtable
* @param keyspaceNames the names of the keyspaces to snapshot; empty means "all."
*/
private void takeSnapshot(String tag, boolean skipFlush, String... keyspaceNames) throws IOException
{
if (operationMode == Mode.JOINING)
throw new IOException("Cannot snapshot until bootstrap completes");
if (tag == null || tag.equals(""))
throw new IOException("You must supply a snapshot name.");
Iterable<Keyspace> keyspaces;
if (keyspaceNames.length == 0)
{
keyspaces = Keyspace.all();
}
else
{
ArrayList<Keyspace> t = new ArrayList<>(keyspaceNames.length);
for (String keyspaceName : keyspaceNames)
t.add(getValidKeyspace(keyspaceName));
keyspaces = t;
}
// Do a check to see if this snapshot exists before we actually snapshot
for (Keyspace keyspace : keyspaces)
if (keyspace.snapshotExists(tag))
throw new IOException("Snapshot " + tag + " already exists.");
for (Keyspace keyspace : keyspaces)
keyspace.snapshot(tag, null, skipFlush);
}
/**
* Takes the snapshot of a multiple column family from different keyspaces. A snapshot name must be specified.
*
*
* @param tag
* the tag given to the snapshot; may not be null or empty
* @param skipFlush
* Skip blocking flush of memtable
* @param tableList
* list of tables from different keyspace in the form of ks1.cf1 ks2.cf2
*/
private void takeMultipleTableSnapshot(String tag, boolean skipFlush, String... tableList)
throws IOException
{
Map<Keyspace, List<String>> keyspaceColumnfamily = new HashMap<Keyspace, List<String>>();
for (String table : tableList)
{
String splittedString[] = StringUtils.split(table, '.');
if (splittedString.length == 2)
{
String keyspaceName = splittedString[0];
String tableName = splittedString[1];
if (keyspaceName == null)
throw new IOException("You must supply a keyspace name");
if (operationMode.equals(Mode.JOINING))
throw new IOException("Cannot snapshot until bootstrap completes");
if (tableName == null)
throw new IOException("You must supply a table name");
if (tag == null || tag.equals(""))
throw new IOException("You must supply a snapshot name.");
Keyspace keyspace = getValidKeyspace(keyspaceName);
ColumnFamilyStore columnFamilyStore = keyspace.getColumnFamilyStore(tableName);
// As there can be multiple column family from same keyspace check if snapshot exist for that specific
// columnfamily and not for whole keyspace
if (columnFamilyStore.snapshotExists(tag))
throw new IOException("Snapshot " + tag + " already exists.");
if (!keyspaceColumnfamily.containsKey(keyspace))
{
keyspaceColumnfamily.put(keyspace, new ArrayList<String>());
}
// Add Keyspace columnfamily to map in order to support atomicity for snapshot process.
// So no snapshot should happen if any one of the above conditions fail for any keyspace or columnfamily
keyspaceColumnfamily.get(keyspace).add(tableName);
}
else
{
throw new IllegalArgumentException(
"Cannot take a snapshot on secondary index or invalid column family name. You must supply a column family name in the form of keyspace.columnfamily");
}
}
for (Entry<Keyspace, List<String>> entry : keyspaceColumnfamily.entrySet())
{
for (String table : entry.getValue())
entry.getKey().snapshot(tag, table, skipFlush);
}
}
private Keyspace getValidKeyspace(String keyspaceName) throws IOException
{
if (!Schema.instance.getKeyspaces().contains(keyspaceName))
{
throw new IOException("Keyspace " + keyspaceName + " does not exist");
}
return Keyspace.open(keyspaceName);
}
/**
* Remove the snapshot with the given name from the given keyspaces.
* If no tag is specified we will remove all snapshots.
*/
public void clearSnapshot(String tag, String... keyspaceNames) throws IOException
{
if(tag == null)
tag = "";
Set<String> keyspaces = new HashSet<>();
for (String dataDir : DatabaseDescriptor.getAllDataFileLocations())
{
for(String keyspaceDir : new File(dataDir).list())
{
// Only add a ks if it has been specified as a param, assuming params were actually provided.
if (keyspaceNames.length > 0 && !Arrays.asList(keyspaceNames).contains(keyspaceDir))
continue;
keyspaces.add(keyspaceDir);
}
}
for (String keyspace : keyspaces)
Keyspace.clearSnapshot(tag, keyspace);
if (logger.isDebugEnabled())
logger.debug("Cleared out snapshot directories");
}
public Map<String, TabularData> getSnapshotDetails()
{
Map<String, TabularData> snapshotMap = new HashMap<>();
for (Keyspace keyspace : Keyspace.all())
{
if (Schema.isSystemKeyspace(keyspace.getName()))
continue;
for (ColumnFamilyStore cfStore : keyspace.getColumnFamilyStores())
{
for (Map.Entry<String, Pair<Long,Long>> snapshotDetail : cfStore.getSnapshotDetails().entrySet())
{
TabularDataSupport data = (TabularDataSupport)snapshotMap.get(snapshotDetail.getKey());
if (data == null)
{
data = new TabularDataSupport(SnapshotDetailsTabularData.TABULAR_TYPE);
snapshotMap.put(snapshotDetail.getKey(), data);
}
SnapshotDetailsTabularData.from(snapshotDetail.getKey(), keyspace.getName(), cfStore.getColumnFamilyName(), snapshotDetail, data);
}
}
}
return snapshotMap;
}
public long trueSnapshotsSize()
{
long total = 0;
for (Keyspace keyspace : Keyspace.all())
{
if (Schema.isSystemKeyspace(keyspace.getName()))
continue;
for (ColumnFamilyStore cfStore : keyspace.getColumnFamilyStores())
{
total += cfStore.trueSnapshotsSize();
}
}
return total;
}
public void refreshSizeEstimates() throws ExecutionException
{
FBUtilities.waitOnFuture(ScheduledExecutors.optionalTasks.submit(SizeEstimatesRecorder.instance));
}
/**
* @param allowIndexes Allow index CF names to be passed in
* @param autoAddIndexes Automatically add secondary indexes if a CF has them
* @param keyspaceName keyspace
* @param cfNames CFs
* @throws java.lang.IllegalArgumentException when given CF name does not exist
*/
public Iterable<ColumnFamilyStore> getValidColumnFamilies(boolean allowIndexes, boolean autoAddIndexes, String keyspaceName, String... cfNames) throws IOException
{
Keyspace keyspace = getValidKeyspace(keyspaceName);
return keyspace.getValidColumnFamilies(allowIndexes, autoAddIndexes, cfNames);
}
/**
* Flush all memtables for a keyspace and column families.
* @param keyspaceName
* @param tableNames
* @throws IOException
*/
public void forceKeyspaceFlush(String keyspaceName, String... tableNames) throws IOException
{
for (ColumnFamilyStore cfStore : getValidColumnFamilies(true, false, keyspaceName, tableNames))
{
logger.debug("Forcing flush on keyspace {}, CF {}", keyspaceName, cfStore.name);
cfStore.forceBlockingFlush();
}
}
public int repairAsync(String keyspace, Map<String, String> repairSpec)
{
RepairOption option = RepairOption.parse(repairSpec, tokenMetadata.partitioner);
// if ranges are not specified
if (option.getRanges().isEmpty())
{
if (option.isPrimaryRange())
{
// when repairing only primary range, neither dataCenters nor hosts can be set
if (option.getDataCenters().isEmpty() && option.getHosts().isEmpty())
option.getRanges().addAll(getPrimaryRanges(keyspace));
// except dataCenters only contain local DC (i.e. -local)
else if (option.getDataCenters().size() == 1 && option.getDataCenters().contains(DatabaseDescriptor.getLocalDataCenter()))
option.getRanges().addAll(getPrimaryRangesWithinDC(keyspace));
else
throw new IllegalArgumentException("You need to run primary range repair on all nodes in the cluster.");
}
else
{
option.getRanges().addAll(getLocalRanges(keyspace));
}
}
return forceRepairAsync(keyspace, option, false);
}
@Deprecated
public int forceRepairAsync(String keyspace,
boolean isSequential,
Collection<String> dataCenters,
Collection<String> hosts,
boolean primaryRange,
boolean fullRepair,
String... tableNames)
{
return forceRepairAsync(keyspace, isSequential ? RepairParallelism.SEQUENTIAL.ordinal() : RepairParallelism.PARALLEL.ordinal(), dataCenters, hosts, primaryRange, fullRepair, tableNames);
}
@Deprecated
public int forceRepairAsync(String keyspace,
int parallelismDegree,
Collection<String> dataCenters,
Collection<String> hosts,
boolean primaryRange,
boolean fullRepair,
String... tableNames)
{
if (parallelismDegree < 0 || parallelismDegree > RepairParallelism.values().length - 1)
{
throw new IllegalArgumentException("Invalid parallelism degree specified: " + parallelismDegree);
}
RepairParallelism parallelism = RepairParallelism.values()[parallelismDegree];
if (FBUtilities.isWindows() && parallelism != RepairParallelism.PARALLEL)
{
logger.warn("Snapshot-based repair is not yet supported on Windows. Reverting to parallel repair.");
parallelism = RepairParallelism.PARALLEL;
}
RepairOption options = new RepairOption(parallelism, primaryRange, !fullRepair, false, 1, Collections.<Range<Token>>emptyList(), false);
if (dataCenters != null)
{
options.getDataCenters().addAll(dataCenters);
}
if (hosts != null)
{
options.getHosts().addAll(hosts);
}
if (primaryRange)
{
// when repairing only primary range, neither dataCenters nor hosts can be set
if (options.getDataCenters().isEmpty() && options.getHosts().isEmpty())
options.getRanges().addAll(getPrimaryRanges(keyspace));
// except dataCenters only contain local DC (i.e. -local)
else if (options.getDataCenters().size() == 1 && options.getDataCenters().contains(DatabaseDescriptor.getLocalDataCenter()))
options.getRanges().addAll(getPrimaryRangesWithinDC(keyspace));
else
throw new IllegalArgumentException("You need to run primary range repair on all nodes in the cluster.");
}
else
{
options.getRanges().addAll(getLocalRanges(keyspace));
}
if (tableNames != null)
{
for (String table : tableNames)
{
options.getColumnFamilies().add(table);
}
}
return forceRepairAsync(keyspace, options, true);
}
@Deprecated
public int forceRepairAsync(String keyspace,
boolean isSequential,
boolean isLocal,
boolean primaryRange,
boolean fullRepair,
String... tableNames)
{
Set<String> dataCenters = null;
if (isLocal)
{
dataCenters = Sets.newHashSet(DatabaseDescriptor.getLocalDataCenter());
}
return forceRepairAsync(keyspace, isSequential, dataCenters, null, primaryRange, fullRepair, tableNames);
}
@Deprecated
public int forceRepairRangeAsync(String beginToken,
String endToken,
String keyspaceName,
boolean isSequential,
Collection<String> dataCenters,
Collection<String> hosts,
boolean fullRepair,
String... tableNames)
{
return forceRepairRangeAsync(beginToken, endToken, keyspaceName,
isSequential ? RepairParallelism.SEQUENTIAL.ordinal() : RepairParallelism.PARALLEL.ordinal(),
dataCenters, hosts, fullRepair, tableNames);
}
@Deprecated
public int forceRepairRangeAsync(String beginToken,
String endToken,
String keyspaceName,
int parallelismDegree,
Collection<String> dataCenters,
Collection<String> hosts,
boolean fullRepair,
String... tableNames)
{
if (parallelismDegree < 0 || parallelismDegree > RepairParallelism.values().length - 1)
{
throw new IllegalArgumentException("Invalid parallelism degree specified: " + parallelismDegree);
}
RepairParallelism parallelism = RepairParallelism.values()[parallelismDegree];
if (FBUtilities.isWindows() && parallelism != RepairParallelism.PARALLEL)
{
logger.warn("Snapshot-based repair is not yet supported on Windows. Reverting to parallel repair.");
parallelism = RepairParallelism.PARALLEL;
}
if (!fullRepair)
logger.warn("Incremental repair can't be requested with subrange repair " +
"because each subrange repair would generate an anti-compacted table. " +
"The repair will occur but without anti-compaction.");
Collection<Range<Token>> repairingRange = createRepairRangeFrom(beginToken, endToken);
RepairOption options = new RepairOption(parallelism, false, !fullRepair, false, 1, repairingRange, true);
if (dataCenters != null)
{
options.getDataCenters().addAll(dataCenters);
}
if (hosts != null)
{
options.getHosts().addAll(hosts);
}
if (tableNames != null)
{
for (String table : tableNames)
{
options.getColumnFamilies().add(table);
}
}
logger.info("starting user-requested repair of range {} for keyspace {} and column families {}",
repairingRange, keyspaceName, tableNames);
return forceRepairAsync(keyspaceName, options, true);
}
@Deprecated
public int forceRepairRangeAsync(String beginToken,
String endToken,
String keyspaceName,
boolean isSequential,
boolean isLocal,
boolean fullRepair,
String... tableNames)
{
Set<String> dataCenters = null;
if (isLocal)
{
dataCenters = Sets.newHashSet(DatabaseDescriptor.getLocalDataCenter());
}
return forceRepairRangeAsync(beginToken, endToken, keyspaceName, isSequential, dataCenters, null, fullRepair, tableNames);
}
/**
* Create collection of ranges that match ring layout from given tokens.
*
* @param beginToken beginning token of the range
* @param endToken end token of the range
* @return collection of ranges that match ring layout in TokenMetadata
*/
@VisibleForTesting
Collection<Range<Token>> createRepairRangeFrom(String beginToken, String endToken)
{
Token parsedBeginToken = getTokenFactory().fromString(beginToken);
Token parsedEndToken = getTokenFactory().fromString(endToken);
// Break up given range to match ring layout in TokenMetadata
ArrayList<Range<Token>> repairingRange = new ArrayList<>();
ArrayList<Token> tokens = new ArrayList<>(tokenMetadata.sortedTokens());
if (!tokens.contains(parsedBeginToken))
{
tokens.add(parsedBeginToken);
}
if (!tokens.contains(parsedEndToken))
{
tokens.add(parsedEndToken);
}
// tokens now contain all tokens including our endpoints
Collections.sort(tokens);
int start = tokens.indexOf(parsedBeginToken), end = tokens.indexOf(parsedEndToken);
for (int i = start; i != end; i = (i+1) % tokens.size())
{
Range<Token> range = new Range<>(tokens.get(i), tokens.get((i+1) % tokens.size()));
repairingRange.add(range);
}
return repairingRange;
}
public TokenFactory getTokenFactory()
{
return tokenMetadata.partitioner.getTokenFactory();
}
public int forceRepairAsync(String keyspace, RepairOption options, boolean legacy)
{
if (options.getRanges().isEmpty() || Keyspace.open(keyspace).getReplicationStrategy().getReplicationFactor() < 2)
return 0;
int cmd = nextRepairCommand.incrementAndGet();
new Thread(createRepairTask(cmd, keyspace, options, legacy)).start();
return cmd;
}
private FutureTask<Object> createRepairTask(final int cmd, final String keyspace, final RepairOption options, boolean legacy)
{
if (!options.getDataCenters().isEmpty() && !options.getDataCenters().contains(DatabaseDescriptor.getLocalDataCenter()))
{
throw new IllegalArgumentException("the local data center must be part of the repair");
}
RepairRunnable task = new RepairRunnable(this, cmd, options, keyspace);
task.addProgressListener(progressSupport);
if (legacy)
task.addProgressListener(legacyProgressSupport);
return new FutureTask<>(task, null);
}
public void forceTerminateAllRepairSessions() {
ActiveRepairService.instance.terminateSessions();
}
/* End of MBean interface methods */
/**
* Get the "primary ranges" for the specified keyspace and endpoint.
* "Primary ranges" are the ranges that the node is responsible for storing replica primarily.
* The node that stores replica primarily is defined as the first node returned
* by {@link AbstractReplicationStrategy#calculateNaturalEndpoints}.
*
* @param keyspace Keyspace name to check primary ranges
* @param ep endpoint we are interested in.
* @return primary ranges for the specified endpoint.
*/
public Collection<Range<Token>> getPrimaryRangesForEndpoint(String keyspace, InetAddress ep)
{
AbstractReplicationStrategy strategy = Keyspace.open(keyspace).getReplicationStrategy();
Collection<Range<Token>> primaryRanges = new HashSet<>();
TokenMetadata metadata = tokenMetadata.cloneOnlyTokenMap();
for (Token token : metadata.sortedTokens())
{
List<InetAddress> endpoints = strategy.calculateNaturalEndpoints(token, metadata);
if (endpoints.size() > 0 && endpoints.get(0).equals(ep))
primaryRanges.add(new Range<>(metadata.getPredecessor(token), token));
}
return primaryRanges;
}
/**
* Get the "primary ranges" within local DC for the specified keyspace and endpoint.
*
* @see #getPrimaryRangesForEndpoint(String, java.net.InetAddress)
* @param keyspace Keyspace name to check primary ranges
* @param referenceEndpoint endpoint we are interested in.
* @return primary ranges within local DC for the specified endpoint.
*/
public Collection<Range<Token>> getPrimaryRangeForEndpointWithinDC(String keyspace, InetAddress referenceEndpoint)
{
TokenMetadata metadata = tokenMetadata.cloneOnlyTokenMap();
String localDC = DatabaseDescriptor.getEndpointSnitch().getDatacenter(referenceEndpoint);
Collection<InetAddress> localDcNodes = metadata.getTopology().getDatacenterEndpoints().get(localDC);
AbstractReplicationStrategy strategy = Keyspace.open(keyspace).getReplicationStrategy();
Collection<Range<Token>> localDCPrimaryRanges = new HashSet<>();
for (Token token : metadata.sortedTokens())
{
List<InetAddress> endpoints = strategy.calculateNaturalEndpoints(token, metadata);
for (InetAddress endpoint : endpoints)
{
if (localDcNodes.contains(endpoint))
{
if (endpoint.equals(referenceEndpoint))
{
localDCPrimaryRanges.add(new Range<>(metadata.getPredecessor(token), token));
}
break;
}
}
}
return localDCPrimaryRanges;
}
/**
* Get all ranges an endpoint is responsible for (by keyspace)
* @param ep endpoint we are interested in.
* @return ranges for the specified endpoint.
*/
Collection<Range<Token>> getRangesForEndpoint(String keyspaceName, InetAddress ep)
{
return Keyspace.open(keyspaceName).getReplicationStrategy().getAddressRanges().get(ep);
}
/**
* Get all ranges that span the ring given a set
* of tokens. All ranges are in sorted order of
* ranges.
* @return ranges in sorted order
*/
public List<Range<Token>> getAllRanges(List<Token> sortedTokens)
{
if (logger.isTraceEnabled())
logger.trace("computing ranges for {}", StringUtils.join(sortedTokens, ", "));
if (sortedTokens.isEmpty())
return Collections.emptyList();
int size = sortedTokens.size();
List<Range<Token>> ranges = new ArrayList<>(size + 1);
for (int i = 1; i < size; ++i)
{
Range<Token> range = new Range<>(sortedTokens.get(i - 1), sortedTokens.get(i));
ranges.add(range);
}
Range<Token> range = new Range<>(sortedTokens.get(size - 1), sortedTokens.get(0));
ranges.add(range);
return ranges;
}
/**
* This method returns the N endpoints that are responsible for storing the
* specified key i.e for replication.
*
* @param keyspaceName keyspace name also known as keyspace
* @param cf Column family name
* @param key key for which we need to find the endpoint
* @return the endpoint responsible for this key
*/
public List<InetAddress> getNaturalEndpoints(String keyspaceName, String cf, String key)
{
KeyspaceMetadata ksMetaData = Schema.instance.getKSMetaData(keyspaceName);
if (ksMetaData == null)
throw new IllegalArgumentException("Unknown keyspace '" + keyspaceName + "'");
CFMetaData cfMetaData = ksMetaData.getTableOrViewNullable(cf);
if (cfMetaData == null)
throw new IllegalArgumentException("Unknown table '" + cf + "' in keyspace '" + keyspaceName + "'");
return getNaturalEndpoints(keyspaceName, tokenMetadata.partitioner.getToken(cfMetaData.getKeyValidator().fromString(key)));
}
public List<InetAddress> getNaturalEndpoints(String keyspaceName, ByteBuffer key)
{
return getNaturalEndpoints(keyspaceName, tokenMetadata.partitioner.getToken(key));
}
/**
* This method returns the N endpoints that are responsible for storing the
* specified key i.e for replication.
*
* @param keyspaceName keyspace name also known as keyspace
* @param pos position for which we need to find the endpoint
* @return the endpoint responsible for this token
*/
public List<InetAddress> getNaturalEndpoints(String keyspaceName, RingPosition pos)
{
return Keyspace.open(keyspaceName).getReplicationStrategy().getNaturalEndpoints(pos);
}
/**
* Returns the endpoints currently responsible for storing the token plus pending ones
*/
public Iterable<InetAddress> getNaturalAndPendingEndpoints(String keyspaceName, Token token)
{
return Iterables.concat(getNaturalEndpoints(keyspaceName, token), tokenMetadata.pendingEndpointsFor(token, keyspaceName));
}
/**
* This method attempts to return N endpoints that are responsible for storing the
* specified key i.e for replication.
*
* @param keyspace keyspace name also known as keyspace
* @param key key for which we need to find the endpoint
* @return the endpoint responsible for this key
*/
public List<InetAddress> getLiveNaturalEndpoints(Keyspace keyspace, ByteBuffer key)
{
return getLiveNaturalEndpoints(keyspace, tokenMetadata.decorateKey(key));
}
public List<InetAddress> getLiveNaturalEndpoints(Keyspace keyspace, RingPosition pos)
{
List<InetAddress> endpoints = keyspace.getReplicationStrategy().getNaturalEndpoints(pos);
List<InetAddress> liveEps = new ArrayList<>(endpoints.size());
for (InetAddress endpoint : endpoints)
{
if (FailureDetector.instance.isAlive(endpoint))
liveEps.add(endpoint);
}
return liveEps;
}
public void setLoggingLevel(String classQualifier, String rawLevel) throws Exception
{
ch.qos.logback.classic.Logger logBackLogger = (ch.qos.logback.classic.Logger) LoggerFactory.getLogger(classQualifier);
// if both classQualifer and rawLevel are empty, reload from configuration
if (StringUtils.isBlank(classQualifier) && StringUtils.isBlank(rawLevel) )
{
JMXConfiguratorMBean jmxConfiguratorMBean = JMX.newMBeanProxy(ManagementFactory.getPlatformMBeanServer(),
new ObjectName("ch.qos.logback.classic:Name=default,Type=ch.qos.logback.classic.jmx.JMXConfigurator"),
JMXConfiguratorMBean.class);
jmxConfiguratorMBean.reloadDefaultConfiguration();
return;
}
// classQualifer is set, but blank level given
else if (StringUtils.isNotBlank(classQualifier) && StringUtils.isBlank(rawLevel) )
{
if (logBackLogger.getLevel() != null || hasAppenders(logBackLogger))
logBackLogger.setLevel(null);
return;
}
ch.qos.logback.classic.Level level = ch.qos.logback.classic.Level.toLevel(rawLevel);
logBackLogger.setLevel(level);
logger.info("set log level to {} for classes under '{}' (if the level doesn't look like '{}' then the logger couldn't parse '{}')", level, classQualifier, rawLevel, rawLevel);
}
/**
* @return the runtime logging levels for all the configured loggers
*/
@Override
public Map<String,String>getLoggingLevels() {
Map<String, String> logLevelMaps = Maps.newLinkedHashMap();
LoggerContext lc = (LoggerContext) LoggerFactory.getILoggerFactory();
for (ch.qos.logback.classic.Logger logger : lc.getLoggerList())
{
if(logger.getLevel() != null || hasAppenders(logger))
logLevelMaps.put(logger.getName(), logger.getLevel().toString());
}
return logLevelMaps;
}
private boolean hasAppenders(ch.qos.logback.classic.Logger logger) {
Iterator<Appender<ILoggingEvent>> it = logger.iteratorForAppenders();
return it.hasNext();
}
/**
* @return list of Token ranges (_not_ keys!) together with estimated key count,
* breaking up the data this node is responsible for into pieces of roughly keysPerSplit
*/
public List<Pair<Range<Token>, Long>> getSplits(String keyspaceName, String cfName, Range<Token> range, int keysPerSplit)
{
Keyspace t = Keyspace.open(keyspaceName);
ColumnFamilyStore cfs = t.getColumnFamilyStore(cfName);
List<DecoratedKey> keys = keySamples(Collections.singleton(cfs), range);
long totalRowCountEstimate = cfs.estimatedKeysForRange(range);
// splitCount should be much smaller than number of key samples, to avoid huge sampling error
int minSamplesPerSplit = 4;
int maxSplitCount = keys.size() / minSamplesPerSplit + 1;
int splitCount = Math.max(1, Math.min(maxSplitCount, (int)(totalRowCountEstimate / keysPerSplit)));
List<Token> tokens = keysToTokens(range, keys);
return getSplits(tokens, splitCount, cfs);
}
private List<Pair<Range<Token>, Long>> getSplits(List<Token> tokens, int splitCount, ColumnFamilyStore cfs)
{
double step = (double) (tokens.size() - 1) / splitCount;
Token prevToken = tokens.get(0);
List<Pair<Range<Token>, Long>> splits = Lists.newArrayListWithExpectedSize(splitCount);
for (int i = 1; i <= splitCount; i++)
{
int index = (int) Math.round(i * step);
Token token = tokens.get(index);
Range<Token> range = new Range<>(prevToken, token);
// always return an estimate > 0 (see CASSANDRA-7322)
splits.add(Pair.create(range, Math.max(cfs.metadata.params.minIndexInterval, cfs.estimatedKeysForRange(range))));
prevToken = token;
}
return splits;
}
private List<Token> keysToTokens(Range<Token> range, List<DecoratedKey> keys)
{
List<Token> tokens = Lists.newArrayListWithExpectedSize(keys.size() + 2);
tokens.add(range.left);
for (DecoratedKey key : keys)
tokens.add(key.getToken());
tokens.add(range.right);
return tokens;
}
private List<DecoratedKey> keySamples(Iterable<ColumnFamilyStore> cfses, Range<Token> range)
{
List<DecoratedKey> keys = new ArrayList<>();
for (ColumnFamilyStore cfs : cfses)
Iterables.addAll(keys, cfs.keySamples(range));
FBUtilities.sortSampledKeys(keys, range);
return keys;
}
/**
* Broadcast leaving status and update local tokenMetadata accordingly
*/
private void startLeaving()
{
Gossiper.instance.addLocalApplicationState(ApplicationState.STATUS, valueFactory.leaving(getLocalTokens()));
tokenMetadata.addLeavingEndpoint(FBUtilities.getBroadcastAddress());
PendingRangeCalculatorService.instance.update();
}
public void decommission() throws InterruptedException
{
if (!tokenMetadata.isMember(FBUtilities.getBroadcastAddress()))
throw new UnsupportedOperationException("local node is not a member of the token ring yet");
if (tokenMetadata.cloneAfterAllLeft().sortedTokens().size() < 2)
throw new UnsupportedOperationException("no other normal nodes in the ring; decommission would be pointless");
if (operationMode != Mode.NORMAL)
throw new UnsupportedOperationException("Node in " + operationMode + " state; wait for status to become normal or restart");
PendingRangeCalculatorService.instance.blockUntilFinished();
for (String keyspaceName : Schema.instance.getNonLocalStrategyKeyspaces())
{
if (tokenMetadata.getPendingRanges(keyspaceName, FBUtilities.getBroadcastAddress()).size() > 0)
throw new UnsupportedOperationException("data is currently moving to this node; unable to leave the ring");
}
if (logger.isDebugEnabled())
logger.debug("DECOMMISSIONING");
startLeaving();
long timeout = Math.max(RING_DELAY, BatchlogManager.instance.getBatchlogTimeout());
setMode(Mode.LEAVING, "sleeping " + timeout + " ms for batch processing and pending range setup", true);
Thread.sleep(timeout);
Runnable finishLeaving = new Runnable()
{
public void run()
{
shutdownClientServers();
Gossiper.instance.stop();
try {
MessagingService.instance().shutdown();
} catch (IOError ioe) {
logger.info("failed to shutdown message service: {}", ioe);
}
StageManager.shutdownNow();
SystemKeyspace.setBootstrapState(SystemKeyspace.BootstrapState.DECOMMISSIONED);
setMode(Mode.DECOMMISSIONED, true);
// let op be responsible for killing the process
}
};
unbootstrap(finishLeaving);
}
private void leaveRing()
{
SystemKeyspace.setBootstrapState(SystemKeyspace.BootstrapState.NEEDS_BOOTSTRAP);
tokenMetadata.removeEndpoint(FBUtilities.getBroadcastAddress());
PendingRangeCalculatorService.instance.update();
Gossiper.instance.addLocalApplicationState(ApplicationState.STATUS, valueFactory.left(getLocalTokens(),Gossiper.computeExpireTime()));
int delay = Math.max(RING_DELAY, Gossiper.intervalInMillis * 2);
logger.info("Announcing that I have left the ring for {}ms", delay);
Uninterruptibles.sleepUninterruptibly(delay, TimeUnit.MILLISECONDS);
}
private void unbootstrap(Runnable onFinish)
{
Map<String, Multimap<Range<Token>, InetAddress>> rangesToStream = new HashMap<>();
for (String keyspaceName : Schema.instance.getNonLocalStrategyKeyspaces())
{
Multimap<Range<Token>, InetAddress> rangesMM = getChangedRangesForLeaving(keyspaceName, FBUtilities.getBroadcastAddress());
if (logger.isDebugEnabled())
logger.debug("Ranges needing transfer are [{}]", StringUtils.join(rangesMM.keySet(), ","));
rangesToStream.put(keyspaceName, rangesMM);
}
setMode(Mode.LEAVING, "replaying batch log and streaming data to other nodes", true);
// Start with BatchLog replay, which may create hints but no writes since this is no longer a valid endpoint.
Future<?> batchlogReplay = BatchlogManager.instance.startBatchlogReplay();
Future<StreamState> streamSuccess = streamRanges(rangesToStream);
// Wait for batch log to complete before streaming hints.
logger.debug("waiting for batch log processing.");
try
{
batchlogReplay.get();
}
catch (ExecutionException | InterruptedException e)
{
throw new RuntimeException(e);
}
setMode(Mode.LEAVING, "streaming hints to other nodes", true);
Future hintsSuccess = streamHints();
// wait for the transfer runnables to signal the latch.
logger.debug("waiting for stream acks.");
try
{
streamSuccess.get();
hintsSuccess.get();
}
catch (ExecutionException | InterruptedException e)
{
throw new RuntimeException(e);
}
logger.debug("stream acks all received.");
leaveRing();
onFinish.run();
}
private Future streamHints()
{
return HintsService.instance.transferHints(this::getPreferredHintsStreamTarget);
}
/**
* Find the best target to stream hints to. Currently the closest peer according to the snitch
*/
private UUID getPreferredHintsStreamTarget()
{
List<InetAddress> candidates = new ArrayList<>(StorageService.instance.getTokenMetadata().cloneAfterAllLeft().getAllEndpoints());
candidates.remove(FBUtilities.getBroadcastAddress());
for (Iterator<InetAddress> iter = candidates.iterator(); iter.hasNext(); )
{
InetAddress address = iter.next();
if (!FailureDetector.instance.isAlive(address))
iter.remove();
}
if (candidates.isEmpty())
{
logger.warn("Unable to stream hints since no live endpoints seen");
throw new RuntimeException("Unable to stream hints since no live endpoints seen");
}
else
{
// stream to the closest peer as chosen by the snitch
DatabaseDescriptor.getEndpointSnitch().sortByProximity(FBUtilities.getBroadcastAddress(), candidates);
InetAddress hintsDestinationHost = candidates.get(0);
InetAddress preferred = SystemKeyspace.getPreferredIP(hintsDestinationHost);
return tokenMetadata.getHostId(preferred);
}
}
public void move(String newToken) throws IOException
{
try
{
getTokenFactory().validate(newToken);
}
catch (ConfigurationException e)
{
throw new IOException(e.getMessage());
}
move(getTokenFactory().fromString(newToken));
}
/**
* move the node to new token or find a new token to boot to according to load
*
* @param newToken new token to boot to, or if null, find balanced token to boot to
*
* @throws IOException on any I/O operation error
*/
private void move(Token newToken) throws IOException
{
if (newToken == null)
throw new IOException("Can't move to the undefined (null) token.");
if (tokenMetadata.sortedTokens().contains(newToken))
throw new IOException("target token " + newToken + " is already owned by another node.");
// address of the current node
InetAddress localAddress = FBUtilities.getBroadcastAddress();
// This doesn't make any sense in a vnodes environment.
if (getTokenMetadata().getTokens(localAddress).size() > 1)
{
logger.error("Invalid request to move(Token); This node has more than one token and cannot be moved thusly.");
throw new UnsupportedOperationException("This node has more than one token and cannot be moved thusly.");
}
List<String> keyspacesToProcess = Schema.instance.getNonLocalStrategyKeyspaces();
PendingRangeCalculatorService.instance.blockUntilFinished();
// checking if data is moving to this node
for (String keyspaceName : keyspacesToProcess)
{
if (tokenMetadata.getPendingRanges(keyspaceName, localAddress).size() > 0)
throw new UnsupportedOperationException("data is currently moving to this node; unable to leave the ring");
}
Gossiper.instance.addLocalApplicationState(ApplicationState.STATUS, valueFactory.moving(newToken));
setMode(Mode.MOVING, String.format("Moving %s from %s to %s.", localAddress, getLocalTokens().iterator().next(), newToken), true);
setMode(Mode.MOVING, String.format("Sleeping %s ms before start streaming/fetching ranges", RING_DELAY), true);
Uninterruptibles.sleepUninterruptibly(RING_DELAY, TimeUnit.MILLISECONDS);
RangeRelocator relocator = new RangeRelocator(Collections.singleton(newToken), keyspacesToProcess);
if (relocator.streamsNeeded())
{
setMode(Mode.MOVING, "fetching new ranges and streaming old ranges", true);
try
{
relocator.stream().get();
}
catch (ExecutionException | InterruptedException e)
{
throw new RuntimeException("Interrupted while waiting for stream/fetch ranges to finish: " + e.getMessage());
}
}
else
{
setMode(Mode.MOVING, "No ranges to fetch/stream", true);
}
setTokens(Collections.singleton(newToken)); // setting new token as we have everything settled
if (logger.isDebugEnabled())
logger.debug("Successfully moved to new token {}", getLocalTokens().iterator().next());
}
private class RangeRelocator
{
private final StreamPlan streamPlan = new StreamPlan("Relocation");
private RangeRelocator(Collection<Token> tokens, List<String> keyspaceNames)
{
calculateToFromStreams(tokens, keyspaceNames);
}
private void calculateToFromStreams(Collection<Token> newTokens, List<String> keyspaceNames)
{
InetAddress localAddress = FBUtilities.getBroadcastAddress();
IEndpointSnitch snitch = DatabaseDescriptor.getEndpointSnitch();
TokenMetadata tokenMetaCloneAllSettled = tokenMetadata.cloneAfterAllSettled();
// clone to avoid concurrent modification in calculateNaturalEndpoints
TokenMetadata tokenMetaClone = tokenMetadata.cloneOnlyTokenMap();
for (String keyspace : keyspaceNames)
{
// replication strategy of the current keyspace
AbstractReplicationStrategy strategy = Keyspace.open(keyspace).getReplicationStrategy();
Multimap<InetAddress, Range<Token>> endpointToRanges = strategy.getAddressRanges();
logger.debug("Calculating ranges to stream and request for keyspace {}", keyspace);
for (Token newToken : newTokens)
{
// getting collection of the currently used ranges by this keyspace
Collection<Range<Token>> currentRanges = endpointToRanges.get(localAddress);
// collection of ranges which this node will serve after move to the new token
Collection<Range<Token>> updatedRanges = strategy.getPendingAddressRanges(tokenMetaClone, newToken, localAddress);
// ring ranges and endpoints associated with them
// this used to determine what nodes should we ping about range data
Multimap<Range<Token>, InetAddress> rangeAddresses = strategy.getRangeAddresses(tokenMetaClone);
// calculated parts of the ranges to request/stream from/to nodes in the ring
Pair<Set<Range<Token>>, Set<Range<Token>>> rangesPerKeyspace = calculateStreamAndFetchRanges(currentRanges, updatedRanges);
/**
* In this loop we are going through all ranges "to fetch" and determining
* nodes in the ring responsible for data we are interested in
*/
Multimap<Range<Token>, InetAddress> rangesToFetchWithPreferredEndpoints = ArrayListMultimap.create();
for (Range<Token> toFetch : rangesPerKeyspace.right)
{
for (Range<Token> range : rangeAddresses.keySet())
{
if (range.contains(toFetch))
{
List<InetAddress> endpoints = null;
if (useStrictConsistency)
{
Set<InetAddress> oldEndpoints = Sets.newHashSet(rangeAddresses.get(range));
Set<InetAddress> newEndpoints = Sets.newHashSet(strategy.calculateNaturalEndpoints(toFetch.right, tokenMetaCloneAllSettled));
//Due to CASSANDRA-5953 we can have a higher RF then we have endpoints.
//So we need to be careful to only be strict when endpoints == RF
if (oldEndpoints.size() == strategy.getReplicationFactor())
{
oldEndpoints.removeAll(newEndpoints);
//No relocation required
if (oldEndpoints.isEmpty())
continue;
assert oldEndpoints.size() == 1 : "Expected 1 endpoint but found " + oldEndpoints.size();
}
endpoints = Lists.newArrayList(oldEndpoints.iterator().next());
}
else
{
endpoints = snitch.getSortedListByProximity(localAddress, rangeAddresses.get(range));
}
// storing range and preferred endpoint set
rangesToFetchWithPreferredEndpoints.putAll(toFetch, endpoints);
}
}
Collection<InetAddress> addressList = rangesToFetchWithPreferredEndpoints.get(toFetch);
if (addressList == null || addressList.isEmpty())
continue;
if (useStrictConsistency)
{
if (addressList.size() > 1)
throw new IllegalStateException("Multiple strict sources found for " + toFetch);
InetAddress sourceIp = addressList.iterator().next();
if (Gossiper.instance.isEnabled() && !Gossiper.instance.getEndpointStateForEndpoint(sourceIp).isAlive())
throw new RuntimeException("A node required to move the data consistently is down ("+sourceIp+"). If you wish to move the data from a potentially inconsistent replica, restart the node with -Dcassandra.consistent.rangemovement=false");
}
}
// calculating endpoints to stream current ranges to if needed
// in some situations node will handle current ranges as part of the new ranges
Multimap<InetAddress, Range<Token>> endpointRanges = HashMultimap.create();
for (Range<Token> toStream : rangesPerKeyspace.left)
{
Set<InetAddress> currentEndpoints = ImmutableSet.copyOf(strategy.calculateNaturalEndpoints(toStream.right, tokenMetaClone));
Set<InetAddress> newEndpoints = ImmutableSet.copyOf(strategy.calculateNaturalEndpoints(toStream.right, tokenMetaCloneAllSettled));
logger.debug("Range: {} Current endpoints: {} New endpoints: {}", toStream, currentEndpoints, newEndpoints);
for (InetAddress address : Sets.difference(newEndpoints, currentEndpoints))
{
logger.debug("Range {} has new owner {}", toStream, address);
endpointRanges.put(address, toStream);
}
}
// stream ranges
for (InetAddress address : endpointRanges.keySet())
{
logger.debug("Will stream range {} of keyspace {} to endpoint {}", endpointRanges.get(address), keyspace, address);
InetAddress preferred = SystemKeyspace.getPreferredIP(address);
streamPlan.transferRanges(address, preferred, keyspace, endpointRanges.get(address));
}
// stream requests
Multimap<InetAddress, Range<Token>> workMap = RangeStreamer.getWorkMap(rangesToFetchWithPreferredEndpoints, keyspace, FailureDetector.instance, useStrictConsistency);
for (InetAddress address : workMap.keySet())
{
logger.debug("Will request range {} of keyspace {} from endpoint {}", workMap.get(address), keyspace, address);
InetAddress preferred = SystemKeyspace.getPreferredIP(address);
streamPlan.requestRanges(address, preferred, keyspace, workMap.get(address));
}
logger.debug("Keyspace {}: work map {}.", keyspace, workMap);
}
}
}
public Future<StreamState> stream()
{
return streamPlan.execute();
}
public boolean streamsNeeded()
{
return !streamPlan.isEmpty();
}
}
/**
* Get the status of a token removal.
*/
public String getRemovalStatus()
{
if (removingNode == null) {
return "No token removals in process.";
}
return String.format("Removing token (%s). Waiting for replication confirmation from [%s].",
tokenMetadata.getToken(removingNode),
StringUtils.join(replicatingNodes, ","));
}
/**
* Force a remove operation to complete. This may be necessary if a remove operation
* blocks forever due to node/stream failure. removeNode() must be called
* first, this is a last resort measure. No further attempt will be made to restore replicas.
*/
public void forceRemoveCompletion()
{
if (!replicatingNodes.isEmpty() || !tokenMetadata.getLeavingEndpoints().isEmpty())
{
logger.warn("Removal not confirmed for for {}", StringUtils.join(this.replicatingNodes, ","));
for (InetAddress endpoint : tokenMetadata.getLeavingEndpoints())
{
UUID hostId = tokenMetadata.getHostId(endpoint);
Gossiper.instance.advertiseTokenRemoved(endpoint, hostId);
excise(tokenMetadata.getTokens(endpoint), endpoint);
}
replicatingNodes.clear();
removingNode = null;
}
else
{
logger.warn("No nodes to force removal on, call 'removenode' first");
}
}
/**
* Remove a node that has died, attempting to restore the replica count.
* If the node is alive, decommission should be attempted. If decommission
* fails, then removeNode should be called. If we fail while trying to
* restore the replica count, finally forceRemoveCompleteion should be
* called to forcibly remove the node without regard to replica count.
*
* @param hostIdString Host ID for the node
*/
public void removeNode(String hostIdString)
{
InetAddress myAddress = FBUtilities.getBroadcastAddress();
UUID localHostId = tokenMetadata.getHostId(myAddress);
UUID hostId = UUID.fromString(hostIdString);
InetAddress endpoint = tokenMetadata.getEndpointForHostId(hostId);
if (endpoint == null)
throw new UnsupportedOperationException("Host ID not found.");
if (!tokenMetadata.isMember(endpoint))
throw new UnsupportedOperationException("Node to be removed is not a member of the token ring");
if (endpoint.equals(myAddress))
throw new UnsupportedOperationException("Cannot remove self");
if (Gossiper.instance.getLiveMembers().contains(endpoint))
throw new UnsupportedOperationException("Node " + endpoint + " is alive and owns this ID. Use decommission command to remove it from the ring");
// A leaving endpoint that is dead is already being removed.
if (tokenMetadata.isLeaving(endpoint))
logger.warn("Node {} is already being removed, continuing removal anyway", endpoint);
if (!replicatingNodes.isEmpty())
throw new UnsupportedOperationException("This node is already processing a removal. Wait for it to complete, or use 'removenode force' if this has failed.");
Collection<Token> tokens = tokenMetadata.getTokens(endpoint);
// Find the endpoints that are going to become responsible for data
for (String keyspaceName : Schema.instance.getNonLocalStrategyKeyspaces())
{
// if the replication factor is 1 the data is lost so we shouldn't wait for confirmation
if (Keyspace.open(keyspaceName).getReplicationStrategy().getReplicationFactor() == 1)
continue;
// get all ranges that change ownership (that is, a node needs
// to take responsibility for new range)
Multimap<Range<Token>, InetAddress> changedRanges = getChangedRangesForLeaving(keyspaceName, endpoint);
IFailureDetector failureDetector = FailureDetector.instance;
for (InetAddress ep : changedRanges.values())
{
if (failureDetector.isAlive(ep))
replicatingNodes.add(ep);
else
logger.warn("Endpoint {} is down and will not receive data for re-replication of {}", ep, endpoint);
}
}
removingNode = endpoint;
tokenMetadata.addLeavingEndpoint(endpoint);
PendingRangeCalculatorService.instance.update();
// the gossiper will handle spoofing this node's state to REMOVING_TOKEN for us
// we add our own token so other nodes to let us know when they're done
Gossiper.instance.advertiseRemoving(endpoint, hostId, localHostId);
// kick off streaming commands
restoreReplicaCount(endpoint, myAddress);
// wait for ReplicationFinishedVerbHandler to signal we're done
while (!replicatingNodes.isEmpty())
{
Uninterruptibles.sleepUninterruptibly(100, TimeUnit.MILLISECONDS);
}
excise(tokens, endpoint);
// gossiper will indicate the token has left
Gossiper.instance.advertiseTokenRemoved(endpoint, hostId);
replicatingNodes.clear();
removingNode = null;
}
public void confirmReplication(InetAddress node)
{
// replicatingNodes can be empty in the case where this node used to be a removal coordinator,
// but restarted before all 'replication finished' messages arrived. In that case, we'll
// still go ahead and acknowledge it.
if (!replicatingNodes.isEmpty())
{
replicatingNodes.remove(node);
}
else
{
logger.info("Received unexpected REPLICATION_FINISHED message from {}. Was this node recently a removal coordinator?", node);
}
}
public String getOperationMode()
{
return operationMode.toString();
}
public boolean isStarting()
{
return operationMode == Mode.STARTING;
}
public boolean isMoving()
{
return operationMode == Mode.MOVING;
}
public boolean isJoining()
{
return operationMode == Mode.JOINING;
}
public String getDrainProgress()
{
return String.format("Drained %s/%s ColumnFamilies", remainingCFs, totalCFs);
}
/**
* Shuts node off to writes, empties memtables and the commit log.
* There are two differences between drain and the normal shutdown hook:
* - Drain waits for in-progress streaming to complete
* - Drain flushes *all* columnfamilies (shutdown hook only flushes non-durable CFs)
*/
public synchronized void drain() throws IOException, InterruptedException, ExecutionException
{
inShutdownHook = true;
BatchlogManager.instance.shutdown();
HintsService.instance.pauseDispatch();
ExecutorService counterMutationStage = StageManager.getStage(Stage.COUNTER_MUTATION);
ExecutorService viewMutationStage = StageManager.getStage(Stage.VIEW_MUTATION);
ExecutorService mutationStage = StageManager.getStage(Stage.MUTATION);
if (mutationStage.isTerminated()
&& counterMutationStage.isTerminated()
&& viewMutationStage.isTerminated())
{
logger.warn("Cannot drain node (did it already happen?)");
return;
}
setMode(Mode.DRAINING, "starting drain process", true);
shutdownClientServers();
ScheduledExecutors.optionalTasks.shutdown();
Gossiper.instance.stop();
setMode(Mode.DRAINING, "shutting down MessageService", false);
MessagingService.instance().shutdown();
setMode(Mode.DRAINING, "clearing mutation stage", false);
viewMutationStage.shutdown();
counterMutationStage.shutdown();
mutationStage.shutdown();
viewMutationStage.awaitTermination(3600, TimeUnit.SECONDS);
counterMutationStage.awaitTermination(3600, TimeUnit.SECONDS);
mutationStage.awaitTermination(3600, TimeUnit.SECONDS);
StorageProxy.instance.verifyNoHintsInProgress();
setMode(Mode.DRAINING, "flushing column families", false);
// disable autocompaction - we don't want to start any new compactions while we are draining
for (Keyspace keyspace : Keyspace.all())
for (ColumnFamilyStore cfs : keyspace.getColumnFamilyStores())
cfs.disableAutoCompaction();
// count CFs first, since forceFlush could block for the flushWriter to get a queue slot empty
totalCFs = 0;
for (Keyspace keyspace : Keyspace.nonSystem())
totalCFs += keyspace.getColumnFamilyStores().size();
remainingCFs = totalCFs;
// flush
List<Future<?>> flushes = new ArrayList<>();
for (Keyspace keyspace : Keyspace.nonSystem())
{
for (ColumnFamilyStore cfs : keyspace.getColumnFamilyStores())
flushes.add(cfs.forceFlush());
}
// wait for the flushes.
// TODO this is a godawful way to track progress, since they flush in parallel. a long one could
// thus make several short ones "instant" if we wait for them later.
for (Future f : flushes)
{
FBUtilities.waitOnFuture(f);
remainingCFs--;
}
// flush the system ones after all the rest are done, just in case flushing modifies any system state
// like CASSANDRA-5151. don't bother with progress tracking since system data is tiny.
flushes.clear();
for (Keyspace keyspace : Keyspace.system())
{
for (ColumnFamilyStore cfs : keyspace.getColumnFamilyStores())
flushes.add(cfs.forceFlush());
}
FBUtilities.waitOnFutures(flushes);
BatchlogManager.instance.shutdown();
HintsService.instance.shutdownBlocking();
// Interrupt on going compaction and shutdown to prevent further compaction
CompactionManager.instance.forceShutdown();
// whilst we've flushed all the CFs, which will have recycled all completed segments, we want to ensure
// there are no segments to replay, so we force the recycling of any remaining (should be at most one)
CommitLog.instance.forceRecycleAllSegments();
ColumnFamilyStore.shutdownPostFlushExecutor();
CommitLog.instance.shutdownBlocking();
// wait for miscellaneous tasks like sstable and commitlog segment deletion
ScheduledExecutors.nonPeriodicTasks.shutdown();
if (!ScheduledExecutors.nonPeriodicTasks.awaitTermination(1, TimeUnit.MINUTES))
logger.warn("Miscellaneous task executor still busy after one minute; proceeding with shutdown");
setMode(Mode.DRAINED, true);
}
// Never ever do this at home. Used by tests.
@VisibleForTesting
public IPartitioner setPartitionerUnsafe(IPartitioner newPartitioner)
{
IPartitioner oldPartitioner = DatabaseDescriptor.setPartitionerUnsafe(newPartitioner);
tokenMetadata = tokenMetadata.cloneWithNewPartitioner(newPartitioner);
valueFactory = new VersionedValue.VersionedValueFactory(newPartitioner);
return oldPartitioner;
}
TokenMetadata setTokenMetadataUnsafe(TokenMetadata tmd)
{
TokenMetadata old = tokenMetadata;
tokenMetadata = tmd;
return old;
}
public void truncate(String keyspace, String table) throws TimeoutException, IOException
{
try
{
StorageProxy.truncateBlocking(keyspace, table);
}
catch (UnavailableException e)
{
throw new IOException(e.getMessage());
}
}
public Map<InetAddress, Float> getOwnership()
{
List<Token> sortedTokens = tokenMetadata.sortedTokens();
// describeOwnership returns tokens in an unspecified order, let's re-order them
Map<Token, Float> tokenMap = new TreeMap<Token, Float>(tokenMetadata.partitioner.describeOwnership(sortedTokens));
Map<InetAddress, Float> nodeMap = new LinkedHashMap<>();
for (Map.Entry<Token, Float> entry : tokenMap.entrySet())
{
InetAddress endpoint = tokenMetadata.getEndpoint(entry.getKey());
Float tokenOwnership = entry.getValue();
if (nodeMap.containsKey(endpoint))
nodeMap.put(endpoint, nodeMap.get(endpoint) + tokenOwnership);
else
nodeMap.put(endpoint, tokenOwnership);
}
return nodeMap;
}
/**
* Calculates ownership. If there are multiple DC's and the replication strategy is DC aware then ownership will be
* calculated per dc, i.e. each DC will have total ring ownership divided amongst its nodes. Without replication
* total ownership will be a multiple of the number of DC's and this value will then go up within each DC depending
* on the number of replicas within itself. For DC unaware replication strategies, ownership without replication
* will be 100%.
*
* @throws IllegalStateException when node is not configured properly.
*/
public LinkedHashMap<InetAddress, Float> effectiveOwnership(String keyspace) throws IllegalStateException
{
AbstractReplicationStrategy strategy;
if (keyspace != null)
{
Keyspace keyspaceInstance = Schema.instance.getKeyspaceInstance(keyspace);
if (keyspaceInstance == null)
throw new IllegalArgumentException("The keyspace " + keyspace + ", does not exist");
if (keyspaceInstance.getReplicationStrategy() instanceof LocalStrategy)
throw new IllegalStateException("Ownership values for keyspaces with LocalStrategy are meaningless");
strategy = keyspaceInstance.getReplicationStrategy();
}
else
{
List<String> userKeyspaces = Schema.instance.getUserKeyspaces();
if (userKeyspaces.size() > 0)
{
keyspace = userKeyspaces.get(0);
AbstractReplicationStrategy replicationStrategy = Schema.instance.getKeyspaceInstance(keyspace).getReplicationStrategy();
for (String keyspaceName : userKeyspaces)
{
if (!Schema.instance.getKeyspaceInstance(keyspaceName).getReplicationStrategy().hasSameSettings(replicationStrategy))
throw new IllegalStateException("Non-system keyspaces don't have the same replication settings, effective ownership information is meaningless");
}
}
else
{
keyspace = "system_traces";
}
Keyspace keyspaceInstance = Schema.instance.getKeyspaceInstance(keyspace);
if (keyspaceInstance == null)
throw new IllegalArgumentException("The node does not have " + keyspace + " yet, probably still bootstrapping");
strategy = keyspaceInstance.getReplicationStrategy();
}
TokenMetadata metadata = tokenMetadata.cloneOnlyTokenMap();
Collection<Collection<InetAddress>> endpointsGroupedByDc = new ArrayList<>();
// mapping of dc's to nodes, use sorted map so that we get dcs sorted
SortedMap<String, Collection<InetAddress>> sortedDcsToEndpoints = new TreeMap<>();
sortedDcsToEndpoints.putAll(metadata.getTopology().getDatacenterEndpoints().asMap());
for (Collection<InetAddress> endpoints : sortedDcsToEndpoints.values())
endpointsGroupedByDc.add(endpoints);
Map<Token, Float> tokenOwnership = tokenMetadata.partitioner.describeOwnership(tokenMetadata.sortedTokens());
LinkedHashMap<InetAddress, Float> finalOwnership = Maps.newLinkedHashMap();
Multimap<InetAddress, Range<Token>> endpointToRanges = strategy.getAddressRanges();
// calculate ownership per dc
for (Collection<InetAddress> endpoints : endpointsGroupedByDc)
{
// calculate the ownership with replication and add the endpoint to the final ownership map
for (InetAddress endpoint : endpoints)
{
float ownership = 0.0f;
for (Range<Token> range : endpointToRanges.get(endpoint))
{
if (tokenOwnership.containsKey(range.right))
ownership += tokenOwnership.get(range.right);
}
finalOwnership.put(endpoint, ownership);
}
}
return finalOwnership;
}
public List<String> getKeyspaces()
{
List<String> keyspaceNamesList = new ArrayList<>(Schema.instance.getKeyspaces());
return Collections.unmodifiableList(keyspaceNamesList);
}
public List<String> getNonSystemKeyspaces()
{
return Collections.unmodifiableList(Schema.instance.getNonSystemKeyspaces());
}
public List<String> getNonLocalStrategyKeyspaces()
{
return Collections.unmodifiableList(Schema.instance.getNonLocalStrategyKeyspaces());
}
public Map<String, String> getViewBuildStatuses(String keyspace, String view)
{
Map<UUID, String> coreViewStatus = SystemDistributedKeyspace.viewStatus(keyspace, view);
Map<InetAddress, UUID> hostIdToEndpoint = tokenMetadata.getEndpointToHostIdMapForReading();
Map<String, String> result = new HashMap<>();
for (Map.Entry<InetAddress, UUID> entry : hostIdToEndpoint.entrySet())
{
UUID hostId = entry.getValue();
InetAddress endpoint = entry.getKey();
result.put(endpoint.toString(),
coreViewStatus.containsKey(hostId)
? coreViewStatus.get(hostId)
: "UNKNOWN");
}
return Collections.unmodifiableMap(result);
}
public void updateSnitch(String epSnitchClassName, Boolean dynamic, Integer dynamicUpdateInterval, Integer dynamicResetInterval, Double dynamicBadnessThreshold) throws ClassNotFoundException
{
IEndpointSnitch oldSnitch = DatabaseDescriptor.getEndpointSnitch();
// new snitch registers mbean during construction
IEndpointSnitch newSnitch;
try
{
newSnitch = FBUtilities.construct(epSnitchClassName, "snitch");
}
catch (ConfigurationException e)
{
throw new ClassNotFoundException(e.getMessage());
}
if (dynamic)
{
DatabaseDescriptor.setDynamicUpdateInterval(dynamicUpdateInterval);
DatabaseDescriptor.setDynamicResetInterval(dynamicResetInterval);
DatabaseDescriptor.setDynamicBadnessThreshold(dynamicBadnessThreshold);
newSnitch = new DynamicEndpointSnitch(newSnitch);
}
// point snitch references to the new instance
DatabaseDescriptor.setEndpointSnitch(newSnitch);
for (String ks : Schema.instance.getKeyspaces())
{
Keyspace.open(ks).getReplicationStrategy().snitch = newSnitch;
}
if (oldSnitch instanceof DynamicEndpointSnitch)
((DynamicEndpointSnitch)oldSnitch).unregisterMBean();
updateTopology();
}
/**
* Seed data to the endpoints that will be responsible for it at the future
*
* @param rangesToStreamByKeyspace keyspaces and data ranges with endpoints included for each
* @return async Future for whether stream was success
*/
private Future<StreamState> streamRanges(Map<String, Multimap<Range<Token>, InetAddress>> rangesToStreamByKeyspace)
{
// First, we build a list of ranges to stream to each host, per table
Map<String, Map<InetAddress, List<Range<Token>>>> sessionsToStreamByKeyspace = new HashMap<>();
for (Map.Entry<String, Multimap<Range<Token>, InetAddress>> entry : rangesToStreamByKeyspace.entrySet())
{
String keyspace = entry.getKey();
Multimap<Range<Token>, InetAddress> rangesWithEndpoints = entry.getValue();
if (rangesWithEndpoints.isEmpty())
continue;
Map<InetAddress, List<Range<Token>>> rangesPerEndpoint = new HashMap<>();
for (Map.Entry<Range<Token>, InetAddress> endPointEntry : rangesWithEndpoints.entries())
{
Range<Token> range = endPointEntry.getKey();
InetAddress endpoint = endPointEntry.getValue();
List<Range<Token>> curRanges = rangesPerEndpoint.get(endpoint);
if (curRanges == null)
{
curRanges = new LinkedList<>();
rangesPerEndpoint.put(endpoint, curRanges);
}
curRanges.add(range);
}
sessionsToStreamByKeyspace.put(keyspace, rangesPerEndpoint);
}
StreamPlan streamPlan = new StreamPlan("Unbootstrap");
for (Map.Entry<String, Map<InetAddress, List<Range<Token>>>> entry : sessionsToStreamByKeyspace.entrySet())
{
String keyspaceName = entry.getKey();
Map<InetAddress, List<Range<Token>>> rangesPerEndpoint = entry.getValue();
for (Map.Entry<InetAddress, List<Range<Token>>> rangesEntry : rangesPerEndpoint.entrySet())
{
List<Range<Token>> ranges = rangesEntry.getValue();
InetAddress newEndpoint = rangesEntry.getKey();
InetAddress preferred = SystemKeyspace.getPreferredIP(newEndpoint);
// TODO each call to transferRanges re-flushes, this is potentially a lot of waste
streamPlan.transferRanges(newEndpoint, preferred, keyspaceName, ranges);
}
}
return streamPlan.execute();
}
/**
* Calculate pair of ranges to stream/fetch for given two range collections
* (current ranges for keyspace and ranges after move to new token)
*
* @param current collection of the ranges by current token
* @param updated collection of the ranges after token is changed
* @return pair of ranges to stream/fetch for given current and updated range collections
*/
public Pair<Set<Range<Token>>, Set<Range<Token>>> calculateStreamAndFetchRanges(Collection<Range<Token>> current, Collection<Range<Token>> updated)
{
Set<Range<Token>> toStream = new HashSet<>();
Set<Range<Token>> toFetch = new HashSet<>();
for (Range<Token> r1 : current)
{
boolean intersect = false;
for (Range<Token> r2 : updated)
{
if (r1.intersects(r2))
{
// adding difference ranges to fetch from a ring
toStream.addAll(r1.subtract(r2));
intersect = true;
}
}
if (!intersect)
{
toStream.add(r1); // should seed whole old range
}
}
for (Range<Token> r2 : updated)
{
boolean intersect = false;
for (Range<Token> r1 : current)
{
if (r2.intersects(r1))
{
// adding difference ranges to fetch from a ring
toFetch.addAll(r2.subtract(r1));
intersect = true;
}
}
if (!intersect)
{
toFetch.add(r2); // should fetch whole old range
}
}
return Pair.create(toStream, toFetch);
}
public void bulkLoad(String directory)
{
try
{
bulkLoadInternal(directory).get();
}
catch (Exception e)
{
throw new RuntimeException(e);
}
}
public String bulkLoadAsync(String directory)
{
return bulkLoadInternal(directory).planId.toString();
}
private StreamResultFuture bulkLoadInternal(String directory)
{
File dir = new File(directory);
if (!dir.exists() || !dir.isDirectory())
throw new IllegalArgumentException("Invalid directory " + directory);
SSTableLoader.Client client = new SSTableLoader.Client()
{
private String keyspace;
public void init(String keyspace)
{
this.keyspace = keyspace;
try
{
for (Map.Entry<Range<Token>, List<InetAddress>> entry : StorageService.instance.getRangeToAddressMap(keyspace).entrySet())
{
Range<Token> range = entry.getKey();
for (InetAddress endpoint : entry.getValue())
addRangeForEndpoint(range, endpoint);
}
}
catch (Exception e)
{
throw new RuntimeException(e);
}
}
public CFMetaData getTableMetadata(String tableName)
{
return Schema.instance.getCFMetaData(keyspace, tableName);
}
};
return new SSTableLoader(dir, client, new OutputHandler.LogOutput()).stream();
}
public void rescheduleFailedDeletions()
{
LifecycleTransaction.rescheduleFailedDeletions();
}
/**
* #{@inheritDoc}
*/
public void loadNewSSTables(String ksName, String cfName)
{
ColumnFamilyStore.loadNewSSTables(ksName, cfName);
}
/**
* #{@inheritDoc}
*/
public List<String> sampleKeyRange() // do not rename to getter - see CASSANDRA-4452 for details
{
List<DecoratedKey> keys = new ArrayList<>();
for (Keyspace keyspace : Keyspace.nonLocalStrategy())
{
for (Range<Token> range : getPrimaryRangesForEndpoint(keyspace.getName(), FBUtilities.getBroadcastAddress()))
keys.addAll(keySamples(keyspace.getColumnFamilyStores(), range));
}
List<String> sampledKeys = new ArrayList<>(keys.size());
for (DecoratedKey key : keys)
sampledKeys.add(key.getToken().toString());
return sampledKeys;
}
public void rebuildSecondaryIndex(String ksName, String cfName, String... idxNames)
{
String[] indices = asList(idxNames).stream()
.map(p -> isIndexColumnFamily(p) ? getIndexName(p) : p)
.collect(toList())
.toArray(new String[idxNames.length]);
ColumnFamilyStore.rebuildSecondaryIndex(ksName, cfName, indices);
}
public void resetLocalSchema() throws IOException
{
MigrationManager.resetLocalSchema();
}
public void setTraceProbability(double probability)
{
this.traceProbability = probability;
}
public double getTraceProbability()
{
return traceProbability;
}
public void disableAutoCompaction(String ks, String... tables) throws IOException
{
for (ColumnFamilyStore cfs : getValidColumnFamilies(true, true, ks, tables))
{
cfs.disableAutoCompaction();
}
}
public void enableAutoCompaction(String ks, String... tables) throws IOException
{
for (ColumnFamilyStore cfs : getValidColumnFamilies(true, true, ks, tables))
{
cfs.enableAutoCompaction();
}
}
/** Returns the name of the cluster */
public String getClusterName()
{
return DatabaseDescriptor.getClusterName();
}
/** Returns the cluster partitioner */
public String getPartitionerName()
{
return DatabaseDescriptor.getPartitionerName();
}
public int getTombstoneWarnThreshold()
{
return DatabaseDescriptor.getTombstoneWarnThreshold();
}
public void setTombstoneWarnThreshold(int threshold)
{
DatabaseDescriptor.setTombstoneWarnThreshold(threshold);
}
public int getTombstoneFailureThreshold()
{
return DatabaseDescriptor.getTombstoneFailureThreshold();
}
public void setTombstoneFailureThreshold(int threshold)
{
DatabaseDescriptor.setTombstoneFailureThreshold(threshold);
}
public int getBatchSizeFailureThreshold()
{
return DatabaseDescriptor.getBatchSizeFailThresholdInKB();
}
public void setBatchSizeFailureThreshold(int threshold)
{
DatabaseDescriptor.setBatchSizeFailThresholdInKB(threshold);
}
public void setHintedHandoffThrottleInKB(int throttleInKB)
{
DatabaseDescriptor.setHintedHandoffThrottleInKB(throttleInKB);
logger.info(String.format("Updated hinted_handoff_throttle_in_kb to %d", throttleInKB));
}
public static List<PartitionPosition> getDiskBoundaries(ColumnFamilyStore cfs, Directories.DataDirectory[] directories)
{
if (!cfs.getPartitioner().splitter().isPresent())
return null;
Collection<Range<Token>> lr;
if (StorageService.instance.isBootstrapMode())
{
lr = StorageService.instance.getTokenMetadata().getPendingRanges(cfs.keyspace.getName(), FBUtilities.getBroadcastAddress());
}
else
{
// Reason we use use the future settled TMD is that if we decommission a node, we want to stream
// from that node to the correct location on disk, if we didn't, we would put new files in the wrong places.
// We do this to minimize the amount of data we need to move in rebalancedisks once everything settled
TokenMetadata tmd = StorageService.instance.getTokenMetadata().cloneAfterAllSettled();
lr = cfs.keyspace.getReplicationStrategy().getAddressRanges(tmd).get(FBUtilities.getBroadcastAddress());
}
if (lr == null || lr.isEmpty())
return null;
List<Range<Token>> localRanges = Range.sort(lr);
return getDiskBoundaries(localRanges, cfs.getPartitioner(), directories);
}
public static List<PartitionPosition> getDiskBoundaries(ColumnFamilyStore cfs)
{
return getDiskBoundaries(cfs, cfs.getDirectories().getWriteableLocations());
}
/**
* Returns a list of disk boundaries, the result will differ depending on whether vnodes are enabled or not.
*
* What is returned are upper bounds for the disks, meaning everything from partitioner.minToken up to
* getDiskBoundaries(..).get(0) should be on the first disk, everything between 0 to 1 should be on the second disk
* etc.
*
* The final entry in the returned list will always be the partitioner maximum tokens upper key bound
*
* @param localRanges
* @param partitioner
* @param dataDirectories
* @return
*/
public static List<PartitionPosition> getDiskBoundaries(List<Range<Token>> localRanges, IPartitioner partitioner, Directories.DataDirectory[] dataDirectories)
{
assert partitioner.splitter().isPresent();
Splitter splitter = partitioner.splitter().get();
List<Token> boundaries = splitter.splitOwnedRanges(dataDirectories.length, localRanges, DatabaseDescriptor.getNumTokens() > 1);
List<PartitionPosition> diskBoundaries = new ArrayList<>();
for (int i = 0; i < boundaries.size() - 1; i++)
diskBoundaries.add(boundaries.get(i).maxKeyBound());
diskBoundaries.add(partitioner.getMaximumToken().maxKeyBound());
return diskBoundaries;
}
}