Example 6 with AbstractReplicationStrategy
use of org.apache.cassandra.locator.AbstractReplicationStrategy in project cassandra by apache.
the class AlterKeyspaceStatement method warnIfIncreasingRF.
private void warnIfIncreasingRF(KeyspaceMetadata ksm, KeyspaceParams params) {
AbstractReplicationStrategy oldStrategy = AbstractReplicationStrategy.createReplicationStrategy(ksm.name, ksm.params.replication.klass, StorageService.instance.getTokenMetadata(), DatabaseDescriptor.getEndpointSnitch(), ksm.params.replication.options);
AbstractReplicationStrategy newStrategy = AbstractReplicationStrategy.createReplicationStrategy(keyspace(), params.replication.klass, StorageService.instance.getTokenMetadata(), DatabaseDescriptor.getEndpointSnitch(), params.replication.options);
if (newStrategy.getReplicationFactor() > oldStrategy.getReplicationFactor())
ClientWarn.instance.warn("When increasing replication factor you need to run a full (-full) repair to distribute the data.");
}
Also used :
AbstractReplicationStrategy(org.apache.cassandra.locator.AbstractReplicationStrategy)
Example 7 with AbstractReplicationStrategy
use of org.apache.cassandra.locator.AbstractReplicationStrategy in project cassandra by apache.
the class BootStrapper method allocateTokens.
static Collection<Token> allocateTokens(final TokenMetadata metadata, InetAddress address, String allocationKeyspace, int numTokens, int schemaWaitDelay) {
StorageService.instance.waitForSchema(schemaWaitDelay);
if (!FBUtilities.getBroadcastAddress().equals(InetAddress.getLoopbackAddress()))
Gossiper.waitToSettle();
Keyspace ks = Keyspace.open(allocationKeyspace);
if (ks == null)
throw new ConfigurationException("Problem opening token allocation keyspace " + allocationKeyspace);
AbstractReplicationStrategy rs = ks.getReplicationStrategy();
return TokenAllocation.allocateTokens(metadata, rs, address, numTokens);
}
Also used :
ConfigurationException(org.apache.cassandra.exceptions.ConfigurationException)
Keyspace(org.apache.cassandra.db.Keyspace)
AbstractReplicationStrategy(org.apache.cassandra.locator.AbstractReplicationStrategy)
Example 8 with AbstractReplicationStrategy
use of org.apache.cassandra.locator.AbstractReplicationStrategy in project cassandra by apache.
the class BootStrapper method bootstrap.
public ListenableFuture<StreamState> bootstrap(StreamStateStore stateStore, boolean useStrictConsistency) {
logger.trace("Beginning bootstrap process");
RangeStreamer streamer = new RangeStreamer(tokenMetadata, tokens, address, "Bootstrap", useStrictConsistency, DatabaseDescriptor.getEndpointSnitch(), stateStore, true, DatabaseDescriptor.getStreamingConnectionsPerHost());
streamer.addSourceFilter(new RangeStreamer.FailureDetectorSourceFilter(FailureDetector.instance));
streamer.addSourceFilter(new RangeStreamer.ExcludeLocalNodeFilter());
for (String keyspaceName : Schema.instance.getNonLocalStrategyKeyspaces()) {
AbstractReplicationStrategy strategy = Keyspace.open(keyspaceName).getReplicationStrategy();
streamer.addRanges(keyspaceName, strategy.getPendingAddressRanges(tokenMetadata, tokens, address));
}
StreamResultFuture bootstrapStreamResult = streamer.fetchAsync();
bootstrapStreamResult.addEventListener(new StreamEventHandler() {
private final AtomicInteger receivedFiles = new AtomicInteger();
private final AtomicInteger totalFilesToReceive = new AtomicInteger();
@Override
public void handleStreamEvent(StreamEvent event) {
switch(event.eventType) {
case STREAM_PREPARED:
StreamEvent.SessionPreparedEvent prepared = (StreamEvent.SessionPreparedEvent) event;
int currentTotal = totalFilesToReceive.addAndGet((int) prepared.session.getTotalFilesToReceive());
ProgressEvent prepareProgress = new ProgressEvent(ProgressEventType.PROGRESS, receivedFiles.get(), currentTotal, "prepare with " + prepared.session.peer + " complete");
fireProgressEvent("bootstrap", prepareProgress);
break;
case FILE_PROGRESS:
StreamEvent.ProgressEvent progress = (StreamEvent.ProgressEvent) event;
if (progress.progress.isCompleted()) {
int received = receivedFiles.incrementAndGet();
ProgressEvent currentProgress = new ProgressEvent(ProgressEventType.PROGRESS, received, totalFilesToReceive.get(), "received file " + progress.progress.fileName);
fireProgressEvent("bootstrap", currentProgress);
}
break;
case STREAM_COMPLETE:
StreamEvent.SessionCompleteEvent completeEvent = (StreamEvent.SessionCompleteEvent) event;
ProgressEvent completeProgress = new ProgressEvent(ProgressEventType.PROGRESS, receivedFiles.get(), totalFilesToReceive.get(), "session with " + completeEvent.peer + " complete");
fireProgressEvent("bootstrap", completeProgress);
break;
}
}
@Override
public void onSuccess(StreamState streamState) {
ProgressEventType type;
String message;
if (streamState.hasFailedSession()) {
type = ProgressEventType.ERROR;
message = "Some bootstrap stream failed";
} else {
type = ProgressEventType.SUCCESS;
message = "Bootstrap streaming success";
}
ProgressEvent currentProgress = new ProgressEvent(type, receivedFiles.get(), totalFilesToReceive.get(), message);
fireProgressEvent("bootstrap", currentProgress);
}
@Override
public void onFailure(Throwable throwable) {
ProgressEvent currentProgress = new ProgressEvent(ProgressEventType.ERROR, receivedFiles.get(), totalFilesToReceive.get(), throwable.getMessage());
fireProgressEvent("bootstrap", currentProgress);
}
});
return bootstrapStreamResult;
}
Also used :
ProgressEventType(org.apache.cassandra.utils.progress.ProgressEventType)
ProgressEvent(org.apache.cassandra.utils.progress.ProgressEvent)
AtomicInteger(java.util.concurrent.atomic.AtomicInteger)
AbstractReplicationStrategy(org.apache.cassandra.locator.AbstractReplicationStrategy)
Example 9 with AbstractReplicationStrategy
use of org.apache.cassandra.locator.AbstractReplicationStrategy in project eiger by wlloyd.
the class StorageProxy method performWrite.
/**
* Perform the write of a mutation given a WritePerformer.
* Gather the list of write endpoints, apply locally and/or forward the mutation to
* said write endpoint (deletaged to the actual WritePerformer) and wait for the
* responses based on consistency level.
*
* @param mutation the mutation to be applied
* @param consistency_level the consistency level for the write operation
* @param performer the WritePerformer in charge of appliying the mutation
* given the list of write endpoints (either standardWritePerformer for
* standard writes or counterWritePerformer for counter writes).
*/
public static IWriteResponseHandler performWrite(IMutation mutation, ConsistencyLevel consistency_level, String localDataCenter, WritePerformer performer) throws UnavailableException, TimeoutException, IOException {
String table = mutation.getTable();
AbstractReplicationStrategy rs = Table.open(table).getReplicationStrategy();
Collection<InetAddress> writeEndpoints = getWriteEndpoints(table, mutation.key());
IWriteResponseHandler responseHandler = rs.getWriteResponseHandler(writeEndpoints, consistency_level);
// exit early if we can't fulfill the CL at this time
responseHandler.assureSufficientLiveNodes();
performer.apply(mutation, writeEndpoints, responseHandler, localDataCenter, consistency_level);
return responseHandler;
}
Also used :
AbstractReplicationStrategy(org.apache.cassandra.locator.AbstractReplicationStrategy)
InetAddress(java.net.InetAddress)
Example 10 with AbstractReplicationStrategy
use of org.apache.cassandra.locator.AbstractReplicationStrategy in project eiger by wlloyd.
the class MoveTest method testSimultaneousMove.
/*
* Test ranges and write endpoints when multiple nodes are on the move simultaneously
*/
@Test
public void testSimultaneousMove() throws UnknownHostException, ConfigurationException {
StorageService ss = StorageService.instance;
final int RING_SIZE = 10;
TokenMetadata tmd = ss.getTokenMetadata();
tmd.clearUnsafe();
IPartitioner partitioner = new RandomPartitioner();
VersionedValue.VersionedValueFactory valueFactory = new VersionedValue.VersionedValueFactory(partitioner);
IPartitioner oldPartitioner = ss.setPartitionerUnsafe(partitioner);
ArrayList<Token> endpointTokens = new ArrayList<Token>();
ArrayList<Token> keyTokens = new ArrayList<Token>();
List<InetAddress> hosts = new ArrayList<InetAddress>();
// create a ring or 10 nodes
Util.createInitialRing(ss, partitioner, endpointTokens, keyTokens, hosts, RING_SIZE);
// nodes 6, 8 and 9 leave
final int[] MOVING = new int[] { 6, 8, 9 };
Map<Integer, Token> newTokens = new HashMap<Integer, Token>();
for (int movingIndex : MOVING) {
Token newToken = positionToken(movingIndex);
ss.onChange(hosts.get(movingIndex), ApplicationState.STATUS, valueFactory.moving(newToken));
// storing token associated with a node index
newTokens.put(movingIndex, newToken);
}
Collection<InetAddress> endpoints;
tmd = tmd.cloneAfterAllSettled();
ss.setTokenMetadataUnsafe(tmd);
// boot two new nodes with keyTokens.get(5) and keyTokens.get(7)
InetAddress boot1 = InetAddress.getByName("127.0.1.1");
ss.onChange(boot1, ApplicationState.STATUS, valueFactory.bootstrapping(keyTokens.get(5)));
InetAddress boot2 = InetAddress.getByName("127.0.1.2");
ss.onChange(boot2, ApplicationState.STATUS, valueFactory.bootstrapping(keyTokens.get(7)));
// don't require test update every time a new keyspace is added to test/conf/cassandra.yaml
Map<String, AbstractReplicationStrategy> tableStrategyMap = new HashMap<String, AbstractReplicationStrategy>();
for (int i = 1; i <= 4; i++) {
tableStrategyMap.put("Keyspace" + i, getStrategy("Keyspace" + i, tmd));
}
/**
* Keyspace1 & Keyspace2 RF=1
* {
* /127.0.0.1=[(92,0]],
* /127.0.0.2=[(0,10]],
* /127.0.0.3=[(10,20]],
* /127.0.0.4=[(20,30]],
* /127.0.0.5=[(30,40]],
* /127.0.0.6=[(40,50]],
* /127.0.0.7=[(50,62]],
* /127.0.0.8=[(62,70]],
* /127.0.0.9=[(70,82]],
* /127.0.0.10=[(82,92]]
* }
*/
Multimap<InetAddress, Range<Token>> keyspace1ranges = tableStrategyMap.get("Keyspace1").getAddressRanges();
Collection<Range<Token>> ranges1 = keyspace1ranges.get(InetAddress.getByName("127.0.0.1"));
assertEquals(collectionSize(ranges1), 1);
assertTrue(ranges1.iterator().next().equals(generateRange(92, 0)));
Collection<Range<Token>> ranges2 = keyspace1ranges.get(InetAddress.getByName("127.0.0.2"));
assertEquals(collectionSize(ranges2), 1);
assertTrue(ranges2.iterator().next().equals(generateRange(0, 10)));
Collection<Range<Token>> ranges3 = keyspace1ranges.get(InetAddress.getByName("127.0.0.3"));
assertEquals(collectionSize(ranges3), 1);
assertTrue(ranges3.iterator().next().equals(generateRange(10, 20)));
Collection<Range<Token>> ranges4 = keyspace1ranges.get(InetAddress.getByName("127.0.0.4"));
assertEquals(collectionSize(ranges4), 1);
assertTrue(ranges4.iterator().next().equals(generateRange(20, 30)));
Collection<Range<Token>> ranges5 = keyspace1ranges.get(InetAddress.getByName("127.0.0.5"));
assertEquals(collectionSize(ranges5), 1);
assertTrue(ranges5.iterator().next().equals(generateRange(30, 40)));
Collection<Range<Token>> ranges6 = keyspace1ranges.get(InetAddress.getByName("127.0.0.6"));
assertEquals(collectionSize(ranges6), 1);
assertTrue(ranges6.iterator().next().equals(generateRange(40, 50)));
Collection<Range<Token>> ranges7 = keyspace1ranges.get(InetAddress.getByName("127.0.0.7"));
assertEquals(collectionSize(ranges7), 1);
assertTrue(ranges7.iterator().next().equals(generateRange(50, 62)));
Collection<Range<Token>> ranges8 = keyspace1ranges.get(InetAddress.getByName("127.0.0.8"));
assertEquals(collectionSize(ranges8), 1);
assertTrue(ranges8.iterator().next().equals(generateRange(62, 70)));
Collection<Range<Token>> ranges9 = keyspace1ranges.get(InetAddress.getByName("127.0.0.9"));
assertEquals(collectionSize(ranges9), 1);
assertTrue(ranges9.iterator().next().equals(generateRange(70, 82)));
Collection<Range<Token>> ranges10 = keyspace1ranges.get(InetAddress.getByName("127.0.0.10"));
assertEquals(collectionSize(ranges10), 1);
assertTrue(ranges10.iterator().next().equals(generateRange(82, 92)));
/**
* Keyspace3 RF=5
* {
* /127.0.0.1=[(92,0], (70,82], (50,62], (82,92], (62,70]],
* /127.0.0.2=[(92,0], (70,82], (82,92], (0,10], (62,70]],
* /127.0.0.3=[(92,0], (70,82], (82,92], (0,10], (10,20]],
* /127.0.0.4=[(92,0], (20,30], (82,92], (0,10], (10,20]],
* /127.0.0.5=[(92,0], (30,40], (20,30], (0,10], (10,20]],
* /127.0.0.6=[(40,50], (30,40], (20,30], (0,10], (10,20]],
* /127.0.0.7=[(40,50], (30,40], (50,62], (20,30], (10,20]],
* /127.0.0.8=[(40,50], (30,40], (50,62], (20,30], (62,70]],
* /127.0.0.9=[(40,50], (70,82], (30,40], (50,62], (62,70]],
* /127.0.0.10=[(40,50], (70,82], (50,62], (82,92], (62,70]]
* }
*/
Multimap<InetAddress, Range<Token>> keyspace3ranges = tableStrategyMap.get("Keyspace3").getAddressRanges();
ranges1 = keyspace3ranges.get(InetAddress.getByName("127.0.0.1"));
assertEquals(collectionSize(ranges1), 5);
assertTrue(ranges1.equals(generateRanges(92, 0, 70, 82, 50, 62, 82, 92, 62, 70)));
ranges2 = keyspace3ranges.get(InetAddress.getByName("127.0.0.2"));
assertEquals(collectionSize(ranges2), 5);
assertTrue(ranges2.equals(generateRanges(92, 0, 70, 82, 82, 92, 0, 10, 62, 70)));
ranges3 = keyspace3ranges.get(InetAddress.getByName("127.0.0.3"));
assertEquals(collectionSize(ranges3), 5);
assertTrue(ranges3.equals(generateRanges(92, 0, 70, 82, 82, 92, 0, 10, 10, 20)));
ranges4 = keyspace3ranges.get(InetAddress.getByName("127.0.0.4"));
assertEquals(collectionSize(ranges4), 5);
assertTrue(ranges4.equals(generateRanges(92, 0, 20, 30, 82, 92, 0, 10, 10, 20)));
ranges5 = keyspace3ranges.get(InetAddress.getByName("127.0.0.5"));
assertEquals(collectionSize(ranges5), 5);
assertTrue(ranges5.equals(generateRanges(92, 0, 30, 40, 20, 30, 0, 10, 10, 20)));
ranges6 = keyspace3ranges.get(InetAddress.getByName("127.0.0.6"));
assertEquals(collectionSize(ranges6), 5);
assertTrue(ranges6.equals(generateRanges(40, 50, 30, 40, 20, 30, 0, 10, 10, 20)));
ranges7 = keyspace3ranges.get(InetAddress.getByName("127.0.0.7"));
assertEquals(collectionSize(ranges7), 5);
assertTrue(ranges7.equals(generateRanges(40, 50, 30, 40, 50, 62, 20, 30, 10, 20)));
ranges8 = keyspace3ranges.get(InetAddress.getByName("127.0.0.8"));
assertEquals(collectionSize(ranges8), 5);
assertTrue(ranges8.equals(generateRanges(40, 50, 30, 40, 50, 62, 20, 30, 62, 70)));
ranges9 = keyspace3ranges.get(InetAddress.getByName("127.0.0.9"));
assertEquals(collectionSize(ranges9), 5);
assertTrue(ranges9.equals(generateRanges(40, 50, 70, 82, 30, 40, 50, 62, 62, 70)));
ranges10 = keyspace3ranges.get(InetAddress.getByName("127.0.0.10"));
assertEquals(collectionSize(ranges10), 5);
assertTrue(ranges10.equals(generateRanges(40, 50, 70, 82, 50, 62, 82, 92, 62, 70)));
/**
* Keyspace4 RF=3
* {
* /127.0.0.1=[(92,0], (70,82], (82,92]],
* /127.0.0.2=[(92,0], (82,92], (0,10]],
* /127.0.0.3=[(92,0], (0,10], (10,20]],
* /127.0.0.4=[(20,30], (0,10], (10,20]],
* /127.0.0.5=[(30,40], (20,30], (10,20]],
* /127.0.0.6=[(40,50], (30,40], (20,30]],
* /127.0.0.7=[(40,50], (30,40], (50,62]],
* /127.0.0.8=[(40,50], (50,62], (62,70]],
* /127.0.0.9=[(70,82], (50,62], (62,70]],
* /127.0.0.10=[(70,82], (82,92], (62,70]]
* }
*/
Multimap<InetAddress, Range<Token>> keyspace4ranges = tableStrategyMap.get("Keyspace4").getAddressRanges();
ranges1 = keyspace4ranges.get(InetAddress.getByName("127.0.0.1"));
assertEquals(collectionSize(ranges1), 3);
assertTrue(ranges1.equals(generateRanges(92, 0, 70, 82, 82, 92)));
ranges2 = keyspace4ranges.get(InetAddress.getByName("127.0.0.2"));
assertEquals(collectionSize(ranges2), 3);
assertTrue(ranges2.equals(generateRanges(92, 0, 82, 92, 0, 10)));
ranges3 = keyspace4ranges.get(InetAddress.getByName("127.0.0.3"));
assertEquals(collectionSize(ranges3), 3);
assertTrue(ranges3.equals(generateRanges(92, 0, 0, 10, 10, 20)));
ranges4 = keyspace4ranges.get(InetAddress.getByName("127.0.0.4"));
assertEquals(collectionSize(ranges4), 3);
assertTrue(ranges4.equals(generateRanges(20, 30, 0, 10, 10, 20)));
ranges5 = keyspace4ranges.get(InetAddress.getByName("127.0.0.5"));
assertEquals(collectionSize(ranges5), 3);
assertTrue(ranges5.equals(generateRanges(30, 40, 20, 30, 10, 20)));
ranges6 = keyspace4ranges.get(InetAddress.getByName("127.0.0.6"));
assertEquals(collectionSize(ranges6), 3);
assertTrue(ranges6.equals(generateRanges(40, 50, 30, 40, 20, 30)));
ranges7 = keyspace4ranges.get(InetAddress.getByName("127.0.0.7"));
assertEquals(collectionSize(ranges7), 3);
assertTrue(ranges7.equals(generateRanges(40, 50, 30, 40, 50, 62)));
ranges8 = keyspace4ranges.get(InetAddress.getByName("127.0.0.8"));
assertEquals(collectionSize(ranges8), 3);
assertTrue(ranges8.equals(generateRanges(40, 50, 50, 62, 62, 70)));
ranges9 = keyspace4ranges.get(InetAddress.getByName("127.0.0.9"));
assertEquals(collectionSize(ranges9), 3);
assertTrue(ranges9.equals(generateRanges(70, 82, 50, 62, 62, 70)));
ranges10 = keyspace4ranges.get(InetAddress.getByName("127.0.0.10"));
assertEquals(collectionSize(ranges10), 3);
assertTrue(ranges10.equals(generateRanges(70, 82, 82, 92, 62, 70)));
// pre-calculate the results.
Map<String, Multimap<Token, InetAddress>> expectedEndpoints = new HashMap<String, Multimap<Token, InetAddress>>();
expectedEndpoints.put("Keyspace1", HashMultimap.<Token, InetAddress>create());
expectedEndpoints.get("Keyspace1").putAll(new BigIntegerToken("5"), makeAddrs("127.0.0.2"));
expectedEndpoints.get("Keyspace1").putAll(new BigIntegerToken("15"), makeAddrs("127.0.0.3"));
expectedEndpoints.get("Keyspace1").putAll(new BigIntegerToken("25"), makeAddrs("127.0.0.4"));
expectedEndpoints.get("Keyspace1").putAll(new BigIntegerToken("35"), makeAddrs("127.0.0.5"));
expectedEndpoints.get("Keyspace1").putAll(new BigIntegerToken("45"), makeAddrs("127.0.0.6"));
expectedEndpoints.get("Keyspace1").putAll(new BigIntegerToken("55"), makeAddrs("127.0.0.7", "127.0.1.1"));
expectedEndpoints.get("Keyspace1").putAll(new BigIntegerToken("65"), makeAddrs("127.0.0.8"));
expectedEndpoints.get("Keyspace1").putAll(new BigIntegerToken("75"), makeAddrs("127.0.0.9", "127.0.1.2"));
expectedEndpoints.get("Keyspace1").putAll(new BigIntegerToken("85"), makeAddrs("127.0.0.10"));
expectedEndpoints.get("Keyspace1").putAll(new BigIntegerToken("95"), makeAddrs("127.0.0.1"));
expectedEndpoints.put("Keyspace2", HashMultimap.<Token, InetAddress>create());
expectedEndpoints.get("Keyspace2").putAll(new BigIntegerToken("5"), makeAddrs("127.0.0.2"));
expectedEndpoints.get("Keyspace2").putAll(new BigIntegerToken("15"), makeAddrs("127.0.0.3"));
expectedEndpoints.get("Keyspace2").putAll(new BigIntegerToken("25"), makeAddrs("127.0.0.4"));
expectedEndpoints.get("Keyspace2").putAll(new BigIntegerToken("35"), makeAddrs("127.0.0.5"));
expectedEndpoints.get("Keyspace2").putAll(new BigIntegerToken("45"), makeAddrs("127.0.0.6"));
expectedEndpoints.get("Keyspace2").putAll(new BigIntegerToken("55"), makeAddrs("127.0.0.7", "127.0.1.1"));
expectedEndpoints.get("Keyspace2").putAll(new BigIntegerToken("65"), makeAddrs("127.0.0.8"));
expectedEndpoints.get("Keyspace2").putAll(new BigIntegerToken("75"), makeAddrs("127.0.0.9", "127.0.1.2"));
expectedEndpoints.get("Keyspace2").putAll(new BigIntegerToken("85"), makeAddrs("127.0.0.10"));
expectedEndpoints.get("Keyspace2").putAll(new BigIntegerToken("95"), makeAddrs("127.0.0.1"));
expectedEndpoints.put("Keyspace3", HashMultimap.<Token, InetAddress>create());
expectedEndpoints.get("Keyspace3").putAll(new BigIntegerToken("5"), makeAddrs("127.0.0.2", "127.0.0.3", "127.0.0.4", "127.0.0.5", "127.0.0.6"));
expectedEndpoints.get("Keyspace3").putAll(new BigIntegerToken("15"), makeAddrs("127.0.0.3", "127.0.0.4", "127.0.0.5", "127.0.0.6", "127.0.0.7", "127.0.1.1"));
expectedEndpoints.get("Keyspace3").putAll(new BigIntegerToken("25"), makeAddrs("127.0.0.4", "127.0.0.5", "127.0.0.6", "127.0.0.7", "127.0.0.8", "127.0.1.1"));
expectedEndpoints.get("Keyspace3").putAll(new BigIntegerToken("35"), makeAddrs("127.0.0.5", "127.0.0.6", "127.0.0.7", "127.0.0.8", "127.0.0.9", "127.0.1.1", "127.0.1.2"));
expectedEndpoints.get("Keyspace3").putAll(new BigIntegerToken("45"), makeAddrs("127.0.0.6", "127.0.0.7", "127.0.0.8", "127.0.0.9", "127.0.0.10", "127.0.1.1", "127.0.1.2"));
expectedEndpoints.get("Keyspace3").putAll(new BigIntegerToken("55"), makeAddrs("127.0.0.7", "127.0.0.8", "127.0.0.9", "127.0.0.10", "127.0.0.1", "127.0.1.1", "127.0.1.2"));
expectedEndpoints.get("Keyspace3").putAll(new BigIntegerToken("65"), makeAddrs("127.0.0.8", "127.0.0.9", "127.0.0.10", "127.0.0.1", "127.0.0.2", "127.0.1.2"));
expectedEndpoints.get("Keyspace3").putAll(new BigIntegerToken("75"), makeAddrs("127.0.0.9", "127.0.0.10", "127.0.0.1", "127.0.0.2", "127.0.0.3", "127.0.1.2"));
expectedEndpoints.get("Keyspace3").putAll(new BigIntegerToken("85"), makeAddrs("127.0.0.10", "127.0.0.1", "127.0.0.2", "127.0.0.3", "127.0.0.4"));
expectedEndpoints.get("Keyspace3").putAll(new BigIntegerToken("95"), makeAddrs("127.0.0.1", "127.0.0.2", "127.0.0.3", "127.0.0.4", "127.0.0.5"));
expectedEndpoints.put("Keyspace4", HashMultimap.<Token, InetAddress>create());
expectedEndpoints.get("Keyspace4").putAll(new BigIntegerToken("5"), makeAddrs("127.0.0.2", "127.0.0.3", "127.0.0.4"));
expectedEndpoints.get("Keyspace4").putAll(new BigIntegerToken("15"), makeAddrs("127.0.0.3", "127.0.0.4", "127.0.0.5"));
expectedEndpoints.get("Keyspace4").putAll(new BigIntegerToken("25"), makeAddrs("127.0.0.4", "127.0.0.5", "127.0.0.6"));
expectedEndpoints.get("Keyspace4").putAll(new BigIntegerToken("35"), makeAddrs("127.0.0.5", "127.0.0.6", "127.0.0.7", "127.0.1.1"));
expectedEndpoints.get("Keyspace4").putAll(new BigIntegerToken("45"), makeAddrs("127.0.0.6", "127.0.0.7", "127.0.0.8", "127.0.1.1"));
expectedEndpoints.get("Keyspace4").putAll(new BigIntegerToken("55"), makeAddrs("127.0.0.7", "127.0.0.8", "127.0.0.9", "127.0.1.1", "127.0.1.2"));
expectedEndpoints.get("Keyspace4").putAll(new BigIntegerToken("65"), makeAddrs("127.0.0.8", "127.0.0.9", "127.0.0.10", "127.0.1.2"));
expectedEndpoints.get("Keyspace4").putAll(new BigIntegerToken("75"), makeAddrs("127.0.0.9", "127.0.0.10", "127.0.0.1", "127.0.1.2"));
expectedEndpoints.get("Keyspace4").putAll(new BigIntegerToken("85"), makeAddrs("127.0.0.10", "127.0.0.1", "127.0.0.2"));
expectedEndpoints.get("Keyspace4").putAll(new BigIntegerToken("95"), makeAddrs("127.0.0.1", "127.0.0.2", "127.0.0.3"));
for (Map.Entry<String, AbstractReplicationStrategy> tableStrategy : tableStrategyMap.entrySet()) {
String table = tableStrategy.getKey();
AbstractReplicationStrategy strategy = tableStrategy.getValue();
for (Token token : keyTokens) {
endpoints = tmd.getWriteEndpoints(token, table, strategy.getNaturalEndpoints(token));
assertTrue(expectedEndpoints.get(table).get(token).size() == endpoints.size());
assertTrue(expectedEndpoints.get(table).get(token).containsAll(endpoints));
}
// just to be sure that things still work according to the old tests, run them:
if (strategy.getReplicationFactor() != 3)
continue;
// tokens 5, 15 and 25 should go three nodes
for (int i = 0; i < 3; i++) {
endpoints = tmd.getWriteEndpoints(keyTokens.get(i), table, strategy.getNaturalEndpoints(keyTokens.get(i)));
assertTrue(endpoints.size() == 3);
assertTrue(endpoints.contains(hosts.get(i + 1)));
assertTrue(endpoints.contains(hosts.get(i + 2)));
assertTrue(endpoints.contains(hosts.get(i + 3)));
}
// token 35 should go to nodes 4, 5, 6 and boot1
endpoints = tmd.getWriteEndpoints(keyTokens.get(3), table, strategy.getNaturalEndpoints(keyTokens.get(3)));
assertTrue(endpoints.size() == 4);
assertTrue(endpoints.contains(hosts.get(4)));
assertTrue(endpoints.contains(hosts.get(5)));
assertTrue(endpoints.contains(hosts.get(6)));
assertTrue(endpoints.contains(boot1));
// token 45 should go to nodes 5, 6, 7 boot1
endpoints = tmd.getWriteEndpoints(keyTokens.get(4), table, strategy.getNaturalEndpoints(keyTokens.get(4)));
assertTrue(endpoints.size() == 4);
assertTrue(endpoints.contains(hosts.get(5)));
assertTrue(endpoints.contains(hosts.get(6)));
assertTrue(endpoints.contains(hosts.get(7)));
assertTrue(endpoints.contains(boot1));
// token 55 should go to nodes 6, 7, 8 boot1 and boot2
endpoints = tmd.getWriteEndpoints(keyTokens.get(5), table, strategy.getNaturalEndpoints(keyTokens.get(5)));
assertTrue(endpoints.size() == 5);
assertTrue(endpoints.contains(hosts.get(6)));
assertTrue(endpoints.contains(hosts.get(7)));
assertTrue(endpoints.contains(hosts.get(8)));
assertTrue(endpoints.contains(boot1));
assertTrue(endpoints.contains(boot2));
// token 65 should go to nodes 7, 8, 9 and boot2
endpoints = tmd.getWriteEndpoints(keyTokens.get(6), table, strategy.getNaturalEndpoints(keyTokens.get(6)));
assertTrue(endpoints.size() == 4);
assertTrue(endpoints.contains(hosts.get(7)));
assertTrue(endpoints.contains(hosts.get(8)));
assertTrue(endpoints.contains(hosts.get(9)));
assertTrue(endpoints.contains(boot2));
// token 75 should to go nodes 8, 9, 0 and boot2
endpoints = tmd.getWriteEndpoints(keyTokens.get(7), table, strategy.getNaturalEndpoints(keyTokens.get(7)));
assertTrue(endpoints.size() == 4);
assertTrue(endpoints.contains(hosts.get(8)));
assertTrue(endpoints.contains(hosts.get(9)));
assertTrue(endpoints.contains(hosts.get(0)));
assertTrue(endpoints.contains(boot2));
// token 85 should go to nodes 9, 0, 1
endpoints = tmd.getWriteEndpoints(keyTokens.get(8), table, strategy.getNaturalEndpoints(keyTokens.get(8)));
assertTrue(endpoints.size() == 3);
assertTrue(endpoints.contains(hosts.get(9)));
assertTrue(endpoints.contains(hosts.get(0)));
assertTrue(endpoints.contains(hosts.get(1)));
// token 95 should go to nodes 0, 1 and 2
endpoints = tmd.getWriteEndpoints(keyTokens.get(9), table, strategy.getNaturalEndpoints(keyTokens.get(9)));
assertTrue(endpoints.size() == 3);
assertTrue(endpoints.contains(hosts.get(0)));
assertTrue(endpoints.contains(hosts.get(1)));
assertTrue(endpoints.contains(hosts.get(2)));
}
// all moving nodes are back to the normal state
for (Integer movingIndex : MOVING) {
ss.onChange(hosts.get(movingIndex), ApplicationState.STATUS, valueFactory.normal(newTokens.get(movingIndex)));
}
ss.setPartitionerUnsafe(oldPartitioner);
}
Also used :
VersionedValue(org.apache.cassandra.gms.VersionedValue)
TokenMetadata(org.apache.cassandra.locator.TokenMetadata)
Multimap(com.google.common.collect.Multimap)
HashMultimap(com.google.common.collect.HashMultimap)
AbstractReplicationStrategy(org.apache.cassandra.locator.AbstractReplicationStrategy)
InetAddress(java.net.InetAddress)
Test(org.junit.Test)
Aggregations
AbstractReplicationStrategy (org.apache.cassandra.locator.AbstractReplicationStrategy)22
InetAddress (java.net.InetAddress)19
TokenMetadata (org.apache.cassandra.locator.TokenMetadata)14
Test (org.junit.Test)12
Token (org.apache.cassandra.dht.Token)8
VersionedValue (org.apache.cassandra.gms.VersionedValue)8
Range (org.apache.cassandra.dht.Range)5
HashMultimap (com.google.common.collect.HashMultimap)4
Multimap (com.google.common.collect.Multimap)4
BigIntegerToken (org.apache.cassandra.dht.RandomPartitioner.BigIntegerToken)4
IPartitioner (org.apache.cassandra.dht.IPartitioner)3
NetworkTopologyStrategy (org.apache.cassandra.locator.NetworkTopologyStrategy)2
IOException (java.io.IOException)1
ArrayList (java.util.ArrayList)1
AtomicInteger (java.util.concurrent.atomic.AtomicInteger)1
Keyspace (org.apache.cassandra.db.Keyspace)1
ConfigurationException (org.apache.cassandra.exceptions.ConfigurationException)1
EndpointState (org.apache.cassandra.gms.EndpointState)1
IEndpointSnitch (org.apache.cassandra.locator.IEndpointSnitch)1
ProgressEvent (org.apache.cassandra.utils.progress.ProgressEvent)1
