use of co.cask.cdap.data2.transaction.queue.hbase.HBaseQueueAdmin in project cdap by caskdata.
the class HBaseQueueClientFactory method createConsumer.
@Override
public QueueConsumer createConsumer(final QueueName queueName, final ConsumerConfig consumerConfig, int numGroups) throws IOException {
final HBaseQueueAdmin admin = ensureTableExists(queueName);
try {
final long groupId = consumerConfig.getGroupId();
// A callback for create a list of HBaseQueueConsumer
// based on the current queue consumer state of the given group
Callable<List<HBaseQueueConsumer>> consumerCreator = new Callable<List<HBaseQueueConsumer>>() {
@Override
public List<HBaseQueueConsumer> call() throws Exception {
List<HBaseConsumerState> states;
try (HBaseConsumerStateStore stateStore = admin.getConsumerStateStore(queueName)) {
TransactionExecutor txExecutor = Transactions.createTransactionExecutor(txExecutorFactory, stateStore);
// Find all consumer states for consumers that need to be created based on current state
states = txExecutor.execute(new Callable<List<HBaseConsumerState>>() {
@Override
public List<HBaseConsumerState> call() throws Exception {
List<HBaseConsumerState> consumerStates = Lists.newArrayList();
HBaseConsumerState state = stateStore.getState(groupId, consumerConfig.getInstanceId());
if (state.getPreviousBarrier() == null) {
// Old HBase consumer (Salted based, not sharded)
consumerStates.add(state);
return consumerStates;
}
// Find the smallest start barrier that has something to consume for this instance.
// It should always exists since we assume the queue is configured before this method is called
List<QueueBarrier> queueBarriers = stateStore.getAllBarriers(groupId);
if (queueBarriers.isEmpty()) {
throw new IllegalStateException(String.format("No consumer information available. Queue: %s, GroupId: %d, InstanceId: %d", queueName, groupId, consumerConfig.getInstanceId()));
}
QueueBarrier startBarrier = Iterables.find(Lists.reverse(queueBarriers), new Predicate<QueueBarrier>() {
@Override
public boolean apply(QueueBarrier barrier) {
return barrier.getGroupConfig().getGroupSize() > consumerConfig.getInstanceId() && stateStore.isAllConsumed(consumerConfig, barrier.getStartRow());
}
}, queueBarriers.get(0));
int groupSize = startBarrier.getGroupConfig().getGroupSize();
for (int i = consumerConfig.getInstanceId(); i < groupSize; i += consumerConfig.getGroupSize()) {
consumerStates.add(stateStore.getState(groupId, i));
}
return consumerStates;
}
});
}
List<HBaseQueueConsumer> consumers = Lists.newArrayList();
for (HBaseConsumerState state : states) {
QueueType queueType = (state.getPreviousBarrier() == null) ? QueueType.QUEUE : QueueType.SHARDED_QUEUE;
HTable hTable = createHTable(admin.getDataTableId(queueName, queueType));
int distributorBuckets = getDistributorBuckets(hTable.getTableDescriptor());
HBaseQueueStrategy strategy = (state.getPreviousBarrier() == null) ? new SaltedHBaseQueueStrategy(hBaseTableUtil, distributorBuckets) : new ShardedHBaseQueueStrategy(hBaseTableUtil, distributorBuckets);
consumers.add(queueUtil.getQueueConsumer(cConf, hTable, queueName, state, admin.getConsumerStateStore(queueName), strategy));
}
return consumers;
}
};
return new SmartQueueConsumer(queueName, consumerConfig, consumerCreator);
} catch (Exception e) {
// If there is exception, nothing much can be done here besides propagating
Throwables.propagateIfPossible(e);
throw new IOException(e);
}
}
use of co.cask.cdap.data2.transaction.queue.hbase.HBaseQueueAdmin in project cdap by caskdata.
the class HBaseQueueTest method testQueueTableNameFormat.
// TODO: CDAP-1177 Should move to QueueTest after making getApplicationName() etc instance methods in a base class
@Test
public void testQueueTableNameFormat() throws Exception {
QueueName queueName = QueueName.fromFlowlet(NamespaceId.DEFAULT.getEntityName(), "application1", "flow1", "flowlet1", "output1");
HBaseQueueAdmin hbaseQueueAdmin = (HBaseQueueAdmin) queueAdmin;
TableId tableId = hbaseQueueAdmin.getDataTableId(queueName);
Assert.assertEquals(NamespaceId.DEFAULT.getEntityName(), tableId.getNamespace());
Assert.assertEquals("system." + hbaseQueueAdmin.getType() + ".application1.flow1", tableId.getTableName());
String tableName = tableUtil.buildHTableDescriptor(tableId).build().getNameAsString();
Assert.assertEquals("application1", HBaseQueueAdmin.getApplicationName(tableName));
Assert.assertEquals("flow1", HBaseQueueAdmin.getFlowName(tableName));
queueName = QueueName.fromFlowlet("testNamespace", "application1", "flow1", "flowlet1", "output1");
tableId = hbaseQueueAdmin.getDataTableId(queueName);
Assert.assertEquals(String.format("%s_testNamespace", TABLE_PREFIX), tableId.getNamespace());
Assert.assertEquals("system." + hbaseQueueAdmin.getType() + ".application1.flow1", tableId.getTableName());
tableName = tableUtil.buildHTableDescriptor(tableId).build().getNameAsString();
Assert.assertEquals("application1", HBaseQueueAdmin.getApplicationName(tableName));
Assert.assertEquals("flow1", HBaseQueueAdmin.getFlowName(tableName));
}
use of co.cask.cdap.data2.transaction.queue.hbase.HBaseQueueAdmin in project cdap by caskdata.
the class HBaseQueueTest method configTest.
@Test
public void configTest() throws Exception {
final QueueName queueName = QueueName.fromFlowlet(NamespaceId.DEFAULT.getEntityName(), "app", "flow", "flowlet", "configure");
queueAdmin.create(queueName);
final List<ConsumerGroupConfig> groupConfigs = ImmutableList.of(new ConsumerGroupConfig(1L, 1, DequeueStrategy.FIFO, null), new ConsumerGroupConfig(2L, 2, DequeueStrategy.FIFO, null), new ConsumerGroupConfig(3L, 3, DequeueStrategy.FIFO, null));
try (HBaseConsumerStateStore stateStore = ((HBaseQueueAdmin) queueAdmin).getConsumerStateStore(queueName)) {
TransactionExecutor txExecutor = Transactions.createTransactionExecutor(executorFactory, stateStore);
// Intentionally set a row state for group 2, instance 0. It's for testing upgrade of config.
txExecutor.execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
stateStore.updateState(2L, 0, QueueEntryRow.getQueueEntryRowKey(queueName, 10L, 0));
}
});
// Set the group info
configureGroups(queueName, groupConfigs);
txExecutor.execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
for (ConsumerGroupConfig groupConfig : groupConfigs) {
long groupId = groupConfig.getGroupId();
List<QueueBarrier> queueBarriers = stateStore.getAllBarriers(groupId);
Assert.assertEquals(1, queueBarriers.size());
for (int instanceId = 0; instanceId < groupConfig.getGroupSize(); instanceId++) {
HBaseConsumerState state = stateStore.getState(groupId, instanceId);
if (groupId == 2L && instanceId == 0) {
// For group 2L instance 0, the start row shouldn't be changed.
// End row should be the same as the first barrier
Assert.assertEquals(0, Bytes.compareTo(state.getStartRow(), QueueEntryRow.getQueueEntryRowKey(queueName, 10L, 0)));
Assert.assertEquals(0, Bytes.compareTo(state.getNextBarrier(), queueBarriers.get(0).getStartRow()));
} else {
// For other group, they should have the start row the same as the first barrier info
Assert.assertEquals(0, Bytes.compareTo(state.getStartRow(), queueBarriers.get(0).getStartRow()));
}
}
}
}
});
txExecutor.execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
// Check consumers are all processed up to the barrier boundary
for (long groupId = 1L; groupId <= 3L; groupId++) {
List<QueueBarrier> queueBarriers = stateStore.getAllBarriers(groupId);
boolean allConsumed = stateStore.isAllConsumed(groupId, queueBarriers.get(0).getStartRow());
// For group 2, instance 0 is not consumed up to the boundary yet
Assert.assertTrue((groupId == 2L) != allConsumed);
if (groupId == 2L) {
// Mark group 2, instance 0 as completed the barrier.
stateStore.completed(groupId, 0);
}
}
}
});
txExecutor.execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
// After group 2, instance 0 completed the current barrier, all consumers in group 2 should be able to
// proceed
List<QueueBarrier> queueBarriers = stateStore.getAllBarriers(2L);
byte[] startRow = stateStore.getState(2L, 0).getStartRow();
Assert.assertEquals(0, Bytes.compareTo(startRow, queueBarriers.get(0).getStartRow()));
Assert.assertTrue(stateStore.isAllConsumed(2L, startRow));
}
});
// Add instance to group 2
txExecutor.execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
stateStore.configureInstances(2L, 3);
}
});
txExecutor.execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
List<QueueBarrier> queueBarriers = stateStore.getAllBarriers(2L);
Assert.assertEquals(2, queueBarriers.size());
// For existing instances, the start row shouldn't changed.
for (int instanceId = 0; instanceId < 2; instanceId++) {
HBaseConsumerState state = stateStore.getState(2L, instanceId);
Assert.assertEquals(0, Bytes.compareTo(state.getStartRow(), queueBarriers.get(0).getStartRow()));
Assert.assertEquals(0, Bytes.compareTo(state.getNextBarrier(), queueBarriers.get(1).getStartRow()));
// Complete the existing instance
stateStore.completed(2L, instanceId);
}
// For new instances, the start row should be the same as the new barrier
HBaseConsumerState state = stateStore.getState(2L, 2);
Assert.assertEquals(0, Bytes.compareTo(state.getStartRow(), queueBarriers.get(1).getStartRow()));
Assert.assertNull(state.getNextBarrier());
// All instances should be consumed up to the beginning of the last barrier info
Assert.assertTrue(stateStore.isAllConsumed(2L, queueBarriers.get(1).getStartRow()));
}
});
// Reduce instances of group 2 through group reconfiguration, remove group 1 and 3, add group 4.
configureGroups(queueName, ImmutableList.of(new ConsumerGroupConfig(2L, 1, DequeueStrategy.FIFO, null), new ConsumerGroupConfig(4L, 1, DequeueStrategy.FIFO, null)));
txExecutor.execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
// States and barrier info for removed groups should be gone
try {
// There should be no barrier info for group 1
List<QueueBarrier> queueBarriers = stateStore.getAllBarriers(1L);
Assert.assertTrue(queueBarriers.isEmpty());
stateStore.getState(1L, 0);
Assert.fail("Not expected to get state for group 1");
} catch (Exception e) {
// Expected
}
try {
// There should be no barrier info for group 3
List<QueueBarrier> queueBarriers = stateStore.getAllBarriers(3L);
Assert.assertTrue(queueBarriers.isEmpty());
stateStore.getState(3L, 0);
Assert.fail("Not expected to get state for group 3");
} catch (Exception e) {
// Expected
}
// For group 2, there should be two barrier infos,
// since all consumers passed the first barrier (groupSize = 2). Only the size = 3 and size = 1 left
List<QueueBarrier> queueBarriers = stateStore.getAllBarriers(2L);
Assert.assertEquals(2, queueBarriers.size());
// Make all consumers (3 of them before reconfigure) in group 2 consumes everything
for (int instanceId = 0; instanceId < 3; instanceId++) {
stateStore.completed(2L, instanceId);
}
// For the remaining consumer, it should start consuming from the latest barrier
HBaseConsumerState state = stateStore.getState(2L, 0);
Assert.assertEquals(0, Bytes.compareTo(state.getStartRow(), queueBarriers.get(1).getStartRow()));
Assert.assertNull(state.getNextBarrier());
// For removed instances, they should throw exception when retrieving their states
for (int i = 1; i < 3; i++) {
try {
stateStore.getState(2L, i);
Assert.fail("Not expected to get state for group 2, instance " + i);
} catch (Exception e) {
// Expected
}
}
}
});
} finally {
queueAdmin.dropAllInNamespace(NamespaceId.DEFAULT);
}
}
use of co.cask.cdap.data2.transaction.queue.hbase.HBaseQueueAdmin in project cdap by caskdata.
the class HBaseQueueDebugger method scanQueue.
private void scanQueue(TransactionExecutor txExecutor, HBaseConsumerStateStore stateStore, QueueName queueName, QueueBarrier start, @Nullable QueueBarrier end, final QueueStatistics outStats) throws Exception {
final byte[] queueRowPrefix = QueueEntryRow.getQueueRowPrefix(queueName);
ConsumerGroupConfig groupConfig = start.getGroupConfig();
printProgress("Got consumer group config: %s\n", groupConfig);
HBaseQueueAdmin admin = queueClientFactory.getQueueAdmin();
TableId tableId = admin.getDataTableId(queueName, QueueConstants.QueueType.SHARDED_QUEUE);
HTable hTable = queueClientFactory.createHTable(tableId);
printProgress("Looking at HBase table: %s\n", Bytes.toString(hTable.getTableName()));
final byte[] stateColumnName = Bytes.add(QueueEntryRow.STATE_COLUMN_PREFIX, Bytes.toBytes(groupConfig.getGroupId()));
int distributorBuckets = queueClientFactory.getDistributorBuckets(hTable.getTableDescriptor());
ShardedHBaseQueueStrategy queueStrategy = new ShardedHBaseQueueStrategy(tableUtil, distributorBuckets);
ScanBuilder scan = tableUtil.buildScan();
scan.setStartRow(start.getStartRow());
if (end != null) {
scan.setStopRow(end.getStartRow());
} else {
scan.setStopRow(QueueEntryRow.getQueueEntryRowKey(queueName, Long.MAX_VALUE, Integer.MAX_VALUE));
}
// Needs to include meta column for row that doesn't have state yet.
scan.addColumn(QueueEntryRow.COLUMN_FAMILY, QueueEntryRow.META_COLUMN);
scan.addColumn(QueueEntryRow.COLUMN_FAMILY, stateColumnName);
// Don't do block cache for debug tool. We don't want old blocks get cached
scan.setCacheBlocks(false);
scan.setMaxVersions(1);
printProgress("Scanning section with scan: %s\n", scan.toString());
List<Integer> instanceIds = Lists.newArrayList();
if (groupConfig.getDequeueStrategy() == DequeueStrategy.FIFO) {
instanceIds.add(0);
} else {
for (int instanceId = 0; instanceId < groupConfig.getGroupSize(); instanceId++) {
instanceIds.add(instanceId);
}
}
final int rowsCache = Integer.parseInt(System.getProperty(PROP_ROWS_CACHE, "100000"));
for (final int instanceId : instanceIds) {
printProgress("Processing instance %d", instanceId);
ConsumerConfig consConfig = new ConsumerConfig(groupConfig, instanceId);
final QueueScanner scanner = queueStrategy.createScanner(consConfig, hTable, scan.build(), rowsCache);
try {
txExecutor.execute(new TransactionExecutor.Procedure<HBaseConsumerStateStore>() {
@Override
public void apply(HBaseConsumerStateStore input) throws Exception {
ImmutablePair<byte[], Map<byte[], byte[]>> result;
while ((result = scanner.next()) != null) {
byte[] rowKey = result.getFirst();
Map<byte[], byte[]> columns = result.getSecond();
visitRow(outStats, input.getTransaction(), rowKey, columns.get(stateColumnName), queueRowPrefix.length);
if (showProgress() && outStats.getTotal() % rowsCache == 0) {
System.out.printf("\rProcessing instance %d: %s", instanceId, outStats.getReport(showTxTimestampOnly()));
}
}
}
}, stateStore);
} catch (TransactionFailureException e) {
// Ignore transaction not in progress exception as it's caused by short TX timeout on commit
if (!(Throwables.getRootCause(e) instanceof TransactionNotInProgressException)) {
throw Throwables.propagate(e);
}
}
printProgress("\rProcessing instance %d: %s\n", instanceId, outStats.getReport(showTxTimestampOnly()));
}
}
use of co.cask.cdap.data2.transaction.queue.hbase.HBaseQueueAdmin in project cdap by caskdata.
the class HBaseQueueClientFactory method createProducer.
@Override
public QueueProducer createProducer(QueueName queueName, QueueMetrics queueMetrics) throws IOException {
HBaseQueueAdmin admin = ensureTableExists(queueName);
try {
final List<ConsumerGroupConfig> groupConfigs = Lists.newArrayList();
try (HBaseConsumerStateStore stateStore = admin.getConsumerStateStore(queueName)) {
Transactions.createTransactionExecutor(txExecutorFactory, stateStore).execute(new Subroutine() {
@Override
public void apply() throws Exception {
stateStore.getLatestConsumerGroups(groupConfigs);
}
});
}
Preconditions.checkState(!groupConfigs.isEmpty(), "Missing consumer group information for queue %s", queueName);
HTable hTable = createHTable(admin.getDataTableId(queueName, queueAdmin.getType()));
int distributorBuckets = getDistributorBuckets(hTable.getTableDescriptor());
return createProducer(hTable, queueName, queueMetrics, new ShardedHBaseQueueStrategy(hBaseTableUtil, distributorBuckets), groupConfigs);
} catch (Exception e) {
Throwables.propagateIfPossible(e);
throw new IOException(e);
}
}
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