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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.accumulo.core.client.impl;
import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.util.concurrent.Uninterruptibles.sleepUninterruptibly;
import static java.nio.charset.StandardCharsets.UTF_8;
import static java.util.Objects.requireNonNull;
import java.io.BufferedReader;
import java.io.FileNotFoundException;
import java.io.IOException;
import java.io.InputStreamReader;
import java.nio.ByteBuffer;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.EnumSet;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;
import java.util.Random;
import java.util.Set;
import java.util.SortedSet;
import java.util.TreeMap;
import java.util.TreeSet;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicReference;
import java.util.zip.ZipEntry;
import java.util.zip.ZipInputStream;
import org.apache.accumulo.core.Constants;
import org.apache.accumulo.core.client.AccumuloException;
import org.apache.accumulo.core.client.AccumuloSecurityException;
import org.apache.accumulo.core.client.IsolatedScanner;
import org.apache.accumulo.core.client.IteratorSetting;
import org.apache.accumulo.core.client.NamespaceExistsException;
import org.apache.accumulo.core.client.NamespaceNotFoundException;
import org.apache.accumulo.core.client.RowIterator;
import org.apache.accumulo.core.client.Scanner;
import org.apache.accumulo.core.client.TableDeletedException;
import org.apache.accumulo.core.client.TableExistsException;
import org.apache.accumulo.core.client.TableNotFoundException;
import org.apache.accumulo.core.client.TableOfflineException;
import org.apache.accumulo.core.client.admin.CompactionConfig;
import org.apache.accumulo.core.client.admin.DiskUsage;
import org.apache.accumulo.core.client.admin.FindMax;
import org.apache.accumulo.core.client.admin.Locations;
import org.apache.accumulo.core.client.admin.NewTableConfiguration;
import org.apache.accumulo.core.client.admin.TableOperations;
import org.apache.accumulo.core.client.admin.TimeType;
import org.apache.accumulo.core.client.impl.TabletLocator.TabletLocation;
import org.apache.accumulo.core.client.impl.thrift.ClientService;
import org.apache.accumulo.core.client.impl.thrift.ClientService.Client;
import org.apache.accumulo.core.client.sample.SamplerConfiguration;
import org.apache.accumulo.core.client.impl.thrift.TDiskUsage;
import org.apache.accumulo.core.client.impl.thrift.ThriftSecurityException;
import org.apache.accumulo.core.client.impl.thrift.ThriftTableOperationException;
import org.apache.accumulo.core.conf.AccumuloConfiguration;
import org.apache.accumulo.core.conf.ConfigurationCopy;
import org.apache.accumulo.core.conf.Property;
import org.apache.accumulo.core.constraints.Constraint;
import org.apache.accumulo.core.data.ByteSequence;
import org.apache.accumulo.core.data.Key;
import org.apache.accumulo.core.data.Range;
import org.apache.accumulo.core.data.TabletId;
import org.apache.accumulo.core.data.Value;
import org.apache.accumulo.core.data.impl.KeyExtent;
import org.apache.accumulo.core.data.impl.TabletIdImpl;
import org.apache.accumulo.core.iterators.IteratorUtil;
import org.apache.accumulo.core.iterators.IteratorUtil.IteratorScope;
import org.apache.accumulo.core.iterators.SortedKeyValueIterator;
import org.apache.accumulo.core.master.state.tables.TableState;
import org.apache.accumulo.core.master.thrift.FateOperation;
import org.apache.accumulo.core.master.thrift.MasterClientService;
import org.apache.accumulo.core.metadata.MetadataServicer;
import org.apache.accumulo.core.metadata.MetadataTable;
import org.apache.accumulo.core.metadata.RootTable;
import org.apache.accumulo.core.metadata.schema.MetadataSchema.TabletsSection;
import org.apache.accumulo.core.rpc.ThriftUtil;
import org.apache.accumulo.core.sample.impl.SamplerConfigurationImpl;
import org.apache.accumulo.core.security.Authorizations;
import org.apache.accumulo.core.tabletserver.thrift.NotServingTabletException;
import org.apache.accumulo.core.tabletserver.thrift.TabletClientService;
import org.apache.accumulo.core.trace.Tracer;
import org.apache.accumulo.core.util.CachedConfiguration;
import org.apache.accumulo.core.util.LocalityGroupUtil;
import org.apache.accumulo.core.util.MapCounter;
import org.apache.accumulo.core.util.NamingThreadFactory;
import org.apache.accumulo.core.util.OpTimer;
import org.apache.accumulo.core.util.Pair;
import org.apache.accumulo.core.util.TextUtil;
import org.apache.accumulo.core.volume.VolumeConfiguration;
import org.apache.accumulo.fate.zookeeper.Retry;
import org.apache.hadoop.fs.FileStatus;
import org.apache.hadoop.fs.FileSystem;
import org.apache.hadoop.fs.Path;
import org.apache.hadoop.io.Text;
import org.apache.thrift.TApplicationException;
import org.apache.thrift.TException;
import org.apache.thrift.transport.TTransportException;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import com.google.common.base.Joiner;
import com.google.common.net.HostAndPort;
public class TableOperationsImpl extends TableOperationsHelper {
public static final String CLONE_EXCLUDE_PREFIX = "!";
private static final Logger log = LoggerFactory.getLogger(TableOperations.class);
private final ClientContext context;
public TableOperationsImpl(ClientContext context) {
checkArgument(context != null, "context is null");
this.context = context;
}
@Override
public SortedSet<String> list() {
OpTimer timer = null;
if (log.isTraceEnabled()) {
log.trace("tid={} Fetching list of tables...", Thread.currentThread().getId());
timer = new OpTimer().start();
}
TreeSet<String> tableNames = new TreeSet<>(Tables.getNameToIdMap(context.getInstance()).keySet());
if (timer != null) {
timer.stop();
log.trace("tid={} Fetched {} table names in {}", Thread.currentThread().getId(), tableNames.size(),
String.format("%.3f secs", timer.scale(TimeUnit.SECONDS)));
}
return tableNames;
}
@Override
public boolean exists(String tableName) {
checkArgument(tableName != null, "tableName is null");
if (tableName.equals(MetadataTable.NAME) || tableName.equals(RootTable.NAME))
return true;
OpTimer timer = null;
if (log.isTraceEnabled()) {
log.trace("tid={} Checking if table {} exists...", Thread.currentThread().getId(), tableName);
timer = new OpTimer().start();
}
boolean exists = Tables.getNameToIdMap(context.getInstance()).containsKey(tableName);
if (timer != null) {
timer.stop();
log.trace("tid={} Checked existance of {} in {}", Thread.currentThread().getId(), exists, String.format("%.3f secs", timer.scale(TimeUnit.SECONDS)));
}
return exists;
}
@Override
public void create(String tableName) throws AccumuloException, AccumuloSecurityException, TableExistsException {
create(tableName, new NewTableConfiguration());
}
@Override
@Deprecated
public void create(String tableName, boolean limitVersion) throws AccumuloException, AccumuloSecurityException, TableExistsException {
create(tableName, limitVersion, TimeType.MILLIS);
}
@Override
@Deprecated
public void create(String tableName, boolean limitVersion, TimeType timeType) throws AccumuloException, AccumuloSecurityException, TableExistsException {
checkArgument(tableName != null, "tableName is null");
checkArgument(timeType != null, "timeType is null");
NewTableConfiguration ntc = new NewTableConfiguration().setTimeType(timeType);
if (limitVersion)
create(tableName, ntc);
else
create(tableName, ntc.withoutDefaultIterators());
}
@Override
public void create(String tableName, NewTableConfiguration ntc) throws AccumuloException, AccumuloSecurityException, TableExistsException {
checkArgument(tableName != null, "tableName is null");
checkArgument(ntc != null, "ntc is null");
List<ByteBuffer> args = Arrays.asList(ByteBuffer.wrap(tableName.getBytes(UTF_8)), ByteBuffer.wrap(ntc.getTimeType().name().getBytes(UTF_8)));
Map<String,String> opts = ntc.getProperties();
try {
doTableFateOperation(tableName, AccumuloException.class, FateOperation.TABLE_CREATE, args, opts);
} catch (TableNotFoundException e) {
// should not happen
throw new AssertionError(e);
}
}
private long beginFateOperation() throws ThriftSecurityException, TException {
while (true) {
MasterClientService.Iface client = null;
try {
client = MasterClient.getConnectionWithRetry(context);
return client.beginFateOperation(Tracer.traceInfo(), context.rpcCreds());
} catch (TTransportException tte) {
log.debug("Failed to call beginFateOperation(), retrying ... ", tte);
sleepUninterruptibly(100, TimeUnit.MILLISECONDS);
} finally {
MasterClient.close(client);
}
}
}
// This method is for retrying in the case of network failures; anything else it passes to the caller to deal with
private void executeFateOperation(long opid, FateOperation op, List<ByteBuffer> args, Map<String,String> opts, boolean autoCleanUp)
throws ThriftSecurityException, TException, ThriftTableOperationException {
while (true) {
MasterClientService.Iface client = null;
try {
client = MasterClient.getConnectionWithRetry(context);
client.executeFateOperation(Tracer.traceInfo(), context.rpcCreds(), opid, op, args, opts, autoCleanUp);
break;
} catch (TTransportException tte) {
log.debug("Failed to call executeFateOperation(), retrying ... ", tte);
sleepUninterruptibly(100, TimeUnit.MILLISECONDS);
} finally {
MasterClient.close(client);
}
}
}
private String waitForFateOperation(long opid) throws ThriftSecurityException, TException, ThriftTableOperationException {
while (true) {
MasterClientService.Iface client = null;
try {
client = MasterClient.getConnectionWithRetry(context);
return client.waitForFateOperation(Tracer.traceInfo(), context.rpcCreds(), opid);
} catch (TTransportException tte) {
log.debug("Failed to call waitForFateOperation(), retrying ... ", tte);
sleepUninterruptibly(100, TimeUnit.MILLISECONDS);
} finally {
MasterClient.close(client);
}
}
}
private void finishFateOperation(long opid) throws ThriftSecurityException, TException {
while (true) {
MasterClientService.Iface client = null;
try {
client = MasterClient.getConnectionWithRetry(context);
client.finishFateOperation(Tracer.traceInfo(), context.rpcCreds(), opid);
break;
} catch (TTransportException tte) {
log.debug("Failed to call finishFateOperation(), retrying ... ", tte);
sleepUninterruptibly(100, TimeUnit.MILLISECONDS);
} finally {
MasterClient.close(client);
}
}
}
String doFateOperation(FateOperation op, List<ByteBuffer> args, Map<String,String> opts, String tableOrNamespaceName) throws AccumuloSecurityException,
TableExistsException, TableNotFoundException, AccumuloException, NamespaceExistsException, NamespaceNotFoundException {
return doFateOperation(op, args, opts, tableOrNamespaceName, true);
}
String doFateOperation(FateOperation op, List<ByteBuffer> args, Map<String,String> opts, String tableOrNamespaceName, boolean wait)
throws AccumuloSecurityException, TableExistsException, TableNotFoundException, AccumuloException, NamespaceExistsException, NamespaceNotFoundException {
Long opid = null;
try {
opid = beginFateOperation();
executeFateOperation(opid, op, args, opts, !wait);
if (!wait) {
opid = null;
return null;
}
String ret = waitForFateOperation(opid);
return ret;
} catch (ThriftSecurityException e) {
switch (e.getCode()) {
case TABLE_DOESNT_EXIST:
throw new TableNotFoundException(null, tableOrNamespaceName, "Target table does not exist");
case NAMESPACE_DOESNT_EXIST:
throw new NamespaceNotFoundException(null, tableOrNamespaceName, "Target namespace does not exist");
default:
String tableInfo = Tables.getPrintableTableInfoFromName(context.getInstance(), tableOrNamespaceName);
throw new AccumuloSecurityException(e.user, e.code, tableInfo, e);
}
} catch (ThriftTableOperationException e) {
switch (e.getType()) {
case EXISTS:
throw new TableExistsException(e);
case NOTFOUND:
throw new TableNotFoundException(e);
case NAMESPACE_EXISTS:
throw new NamespaceExistsException(e);
case NAMESPACE_NOTFOUND:
throw new NamespaceNotFoundException(e);
case OFFLINE:
throw new TableOfflineException(context.getInstance(), Tables.getTableId(context.getInstance(), tableOrNamespaceName));
default:
throw new AccumuloException(e.description, e);
}
} catch (Exception e) {
throw new AccumuloException(e.getMessage(), e);
} finally {
Tables.clearCache(context.getInstance());
// always finish table op, even when exception
if (opid != null)
try {
finishFateOperation(opid);
} catch (Exception e) {
log.warn("Exception thrown while finishing fate table operation", e);
}
}
}
private static class SplitEnv {
private String tableName;
private String tableId;
private ExecutorService executor;
private CountDownLatch latch;
private AtomicReference<Exception> exception;
SplitEnv(String tableName, String tableId, ExecutorService executor, CountDownLatch latch, AtomicReference<Exception> exception) {
this.tableName = tableName;
this.tableId = tableId;
this.executor = executor;
this.latch = latch;
this.exception = exception;
}
}
private class SplitTask implements Runnable {
private List<Text> splits;
private SplitEnv env;
SplitTask(SplitEnv env, List<Text> splits) {
this.env = env;
this.splits = splits;
}
@Override
public void run() {
try {
if (env.exception.get() != null)
return;
if (splits.size() <= 2) {
addSplits(env.tableName, new TreeSet<>(splits), env.tableId);
for (int i = 0; i < splits.size(); i++)
env.latch.countDown();
return;
}
int mid = splits.size() / 2;
// split the middle split point to ensure that child task split different tablets and can therefore
// run in parallel
addSplits(env.tableName, new TreeSet<>(splits.subList(mid, mid + 1)), env.tableId);
env.latch.countDown();
env.executor.submit(new SplitTask(env, splits.subList(0, mid)));
env.executor.submit(new SplitTask(env, splits.subList(mid + 1, splits.size())));
} catch (Exception e) {
env.exception.compareAndSet(null, e);
}
}
}
@Override
public void addSplits(String tableName, SortedSet<Text> partitionKeys) throws TableNotFoundException, AccumuloException, AccumuloSecurityException {
String tableId = Tables.getTableId(context.getInstance(), tableName);
List<Text> splits = new ArrayList<>(partitionKeys);
// should be sorted because we copied from a sorted set, but that makes assumptions about
// how the copy was done so resort to be sure.
Collections.sort(splits);
CountDownLatch latch = new CountDownLatch(splits.size());
AtomicReference<Exception> exception = new AtomicReference<>(null);
ExecutorService executor = Executors.newFixedThreadPool(16, new NamingThreadFactory("addSplits"));
try {
executor.submit(new SplitTask(new SplitEnv(tableName, tableId, executor, latch, exception), splits));
while (!latch.await(100, TimeUnit.MILLISECONDS)) {
if (exception.get() != null) {
executor.shutdownNow();
Exception excep = exception.get();
if (excep instanceof TableNotFoundException)
throw (TableNotFoundException) excep;
else if (excep instanceof AccumuloException)
throw (AccumuloException) excep;
else if (excep instanceof AccumuloSecurityException)
throw (AccumuloSecurityException) excep;
else if (excep instanceof RuntimeException)
throw (RuntimeException) excep;
else
throw new RuntimeException(excep);
}
}
} catch (InterruptedException e) {
throw new RuntimeException(e);
} finally {
executor.shutdown();
}
}
private void addSplits(String tableName, SortedSet<Text> partitionKeys, String tableId) throws AccumuloException, AccumuloSecurityException,
TableNotFoundException, AccumuloServerException {
TabletLocator tabLocator = TabletLocator.getLocator(context, tableId);
for (Text split : partitionKeys) {
boolean successful = false;
int attempt = 0;
long locationFailures = 0;
while (!successful) {
if (attempt > 0)
sleepUninterruptibly(100, TimeUnit.MILLISECONDS);
attempt++;
TabletLocation tl = tabLocator.locateTablet(context, split, false, false);
if (tl == null) {
if (!Tables.exists(context.getInstance(), tableId))
throw new TableNotFoundException(tableId, tableName, null);
else if (Tables.getTableState(context.getInstance(), tableId) == TableState.OFFLINE)
throw new TableOfflineException(context.getInstance(), tableId);
continue;
}
HostAndPort address = HostAndPort.fromString(tl.tablet_location);
try {
TabletClientService.Client client = ThriftUtil.getTServerClient(address, context);
try {
OpTimer timer = null;
if (log.isTraceEnabled()) {
log.trace("tid={} Splitting tablet {} on {} at {}", Thread.currentThread().getId(), tl.tablet_extent, address, split);
timer = new OpTimer().start();
}
client.splitTablet(Tracer.traceInfo(), context.rpcCreds(), tl.tablet_extent.toThrift(), TextUtil.getByteBuffer(split));
// just split it, might as well invalidate it in the cache
tabLocator.invalidateCache(tl.tablet_extent);
if (timer != null) {
timer.stop();
log.trace("Split tablet in {}", String.format("%.3f secs", timer.scale(TimeUnit.SECONDS)));
}
} finally {
ThriftUtil.returnClient(client);
}
} catch (TApplicationException tae) {
throw new AccumuloServerException(address.toString(), tae);
} catch (TTransportException e) {
tabLocator.invalidateCache(context.getInstance(), tl.tablet_location);
continue;
} catch (ThriftSecurityException e) {
Tables.clearCache(context.getInstance());
if (!Tables.exists(context.getInstance(), tableId))
throw new TableNotFoundException(tableId, tableName, null);
throw new AccumuloSecurityException(e.user, e.code, e);
} catch (NotServingTabletException e) {
// Do not silently spin when we repeatedly fail to get the location for a tablet
locationFailures++;
if (5 == locationFailures || 0 == locationFailures % 50) {
log.warn("Having difficulty locating hosting tabletserver for split {} on table {}. Seen {} failures.", split, tableName, locationFailures);
}
tabLocator.invalidateCache(tl.tablet_extent);
continue;
} catch (TException e) {
tabLocator.invalidateCache(context.getInstance(), tl.tablet_location);
continue;
}
successful = true;
}
}
}
@Override
public void merge(String tableName, Text start, Text end) throws AccumuloException, AccumuloSecurityException, TableNotFoundException {
checkArgument(tableName != null, "tableName is null");
ByteBuffer EMPTY = ByteBuffer.allocate(0);
List<ByteBuffer> args = Arrays.asList(ByteBuffer.wrap(tableName.getBytes(UTF_8)), start == null ? EMPTY : TextUtil.getByteBuffer(start),
end == null ? EMPTY : TextUtil.getByteBuffer(end));
Map<String,String> opts = new HashMap<>();
try {
doTableFateOperation(tableName, TableNotFoundException.class, FateOperation.TABLE_MERGE, args, opts);
} catch (TableExistsException e) {
// should not happen
throw new AssertionError(e);
}
}
@Override
public void deleteRows(String tableName, Text start, Text end) throws AccumuloException, AccumuloSecurityException, TableNotFoundException {
checkArgument(tableName != null, "tableName is null");
ByteBuffer EMPTY = ByteBuffer.allocate(0);
List<ByteBuffer> args = Arrays.asList(ByteBuffer.wrap(tableName.getBytes(UTF_8)), start == null ? EMPTY : TextUtil.getByteBuffer(start),
end == null ? EMPTY : TextUtil.getByteBuffer(end));
Map<String,String> opts = new HashMap<>();
try {
doTableFateOperation(tableName, TableNotFoundException.class, FateOperation.TABLE_DELETE_RANGE, args, opts);
} catch (TableExistsException e) {
// should not happen
throw new AssertionError(e);
}
}
@Override
public Collection<Text> listSplits(String tableName) throws TableNotFoundException, AccumuloSecurityException {
checkArgument(tableName != null, "tableName is null");
String tableId = Tables.getTableId(context.getInstance(), tableName);
TreeMap<KeyExtent,String> tabletLocations = new TreeMap<>();
while (true) {
try {
tabletLocations.clear();
// the following method throws AccumuloException for some conditions that should be retried
MetadataServicer.forTableId(context, tableId).getTabletLocations(tabletLocations);
break;
} catch (AccumuloSecurityException ase) {
throw ase;
} catch (Exception e) {
if (!Tables.exists(context.getInstance(), tableId)) {
throw new TableNotFoundException(tableId, tableName, null);
}
if (e instanceof RuntimeException && e.getCause() instanceof AccumuloSecurityException) {
throw (AccumuloSecurityException) e.getCause();
}
log.info("{} ... retrying ...", e.getMessage());
sleepUninterruptibly(3, TimeUnit.SECONDS);
}
}
ArrayList<Text> endRows = new ArrayList<>(tabletLocations.size());
for (KeyExtent ke : tabletLocations.keySet())
if (ke.getEndRow() != null)
endRows.add(ke.getEndRow());
return endRows;
}
@Deprecated
@Override
public Collection<Text> getSplits(String tableName) throws TableNotFoundException {
try {
return listSplits(tableName);
} catch (AccumuloSecurityException e) {
throw new RuntimeException(e);
}
}
@Override
public Collection<Text> listSplits(String tableName, int maxSplits) throws TableNotFoundException, AccumuloSecurityException {
Collection<Text> endRows = listSplits(tableName);
if (endRows.size() <= maxSplits)
return endRows;
double r = (maxSplits + 1) / (double) (endRows.size());
double pos = 0;
ArrayList<Text> subset = new ArrayList<>(maxSplits);
int j = 0;
for (int i = 0; i < endRows.size() && j < maxSplits; i++) {
pos += r;
while (pos > 1) {
subset.add(((ArrayList<Text>) endRows).get(i));
j++;
pos -= 1;
}
}
return subset;
}
@Deprecated
@Override
public Collection<Text> getSplits(String tableName, int maxSplits) throws TableNotFoundException {
try {
return listSplits(tableName, maxSplits);
} catch (AccumuloSecurityException e) {
throw new RuntimeException(e);
}
}
@Override
public void delete(String tableName) throws AccumuloException, AccumuloSecurityException, TableNotFoundException {
checkArgument(tableName != null, "tableName is null");
List<ByteBuffer> args = Arrays.asList(ByteBuffer.wrap(tableName.getBytes(UTF_8)));
Map<String,String> opts = new HashMap<>();
try {
doTableFateOperation(tableName, TableNotFoundException.class, FateOperation.TABLE_DELETE, args, opts);
} catch (TableExistsException e) {
// should not happen
throw new AssertionError(e);
}
}
@Override
public void clone(String srcTableName, String newTableName, boolean flush, Map<String,String> propertiesToSet, Set<String> propertiesToExclude)
throws AccumuloSecurityException, TableNotFoundException, AccumuloException, TableExistsException {
checkArgument(srcTableName != null, "srcTableName is null");
checkArgument(newTableName != null, "newTableName is null");
String srcTableId = Tables.getTableId(context.getInstance(), srcTableName);
if (flush)
_flush(srcTableId, null, null, true);
if (propertiesToExclude == null)
propertiesToExclude = Collections.emptySet();
if (propertiesToSet == null)
propertiesToSet = Collections.emptyMap();
List<ByteBuffer> args = Arrays.asList(ByteBuffer.wrap(srcTableId.getBytes(UTF_8)), ByteBuffer.wrap(newTableName.getBytes(UTF_8)));
Map<String,String> opts = new HashMap<>();
for (Entry<String,String> entry : propertiesToSet.entrySet()) {
if (entry.getKey().startsWith(CLONE_EXCLUDE_PREFIX))
throw new IllegalArgumentException("Property can not start with " + CLONE_EXCLUDE_PREFIX);
opts.put(entry.getKey(), entry.getValue());
}
for (String prop : propertiesToExclude) {
opts.put(CLONE_EXCLUDE_PREFIX + prop, "");
}
doTableFateOperation(newTableName, AccumuloException.class, FateOperation.TABLE_CLONE, args, opts);
}
@Override
public void rename(String oldTableName, String newTableName) throws AccumuloSecurityException, TableNotFoundException, AccumuloException,
TableExistsException {
List<ByteBuffer> args = Arrays.asList(ByteBuffer.wrap(oldTableName.getBytes(UTF_8)), ByteBuffer.wrap(newTableName.getBytes(UTF_8)));
Map<String,String> opts = new HashMap<>();
doTableFateOperation(oldTableName, TableNotFoundException.class, FateOperation.TABLE_RENAME, args, opts);
}
@Override
@Deprecated
public void flush(String tableName) throws AccumuloException, AccumuloSecurityException {
try {
flush(tableName, null, null, false);
} catch (TableNotFoundException e) {
throw new AccumuloException(e.getMessage(), e);
}
}
@Override
public void flush(String tableName, Text start, Text end, boolean wait) throws AccumuloException, AccumuloSecurityException, TableNotFoundException {
checkArgument(tableName != null, "tableName is null");
String tableId = Tables.getTableId(context.getInstance(), tableName);
_flush(tableId, start, end, wait);
}
@Override
public void compact(String tableName, Text start, Text end, boolean flush, boolean wait) throws AccumuloSecurityException, TableNotFoundException,
AccumuloException {
compact(tableName, start, end, new ArrayList<IteratorSetting>(), flush, wait);
}
@Override
public void compact(String tableName, Text start, Text end, List<IteratorSetting> iterators, boolean flush, boolean wait) throws AccumuloSecurityException,
TableNotFoundException, AccumuloException {
compact(tableName, new CompactionConfig().setStartRow(start).setEndRow(end).setIterators(iterators).setFlush(flush).setWait(wait));
}
@Override
public void compact(String tableName, CompactionConfig config) throws AccumuloSecurityException, TableNotFoundException, AccumuloException {
checkArgument(tableName != null, "tableName is null");
ByteBuffer EMPTY = ByteBuffer.allocate(0);
// Ensure compaction iterators exist on a tabletserver
final String skviName = SortedKeyValueIterator.class.getName();
for (IteratorSetting setting : config.getIterators()) {
String iteratorClass = setting.getIteratorClass();
if (!testClassLoad(tableName, iteratorClass, skviName)) {
throw new AccumuloException("TabletServer could not load iterator class " + iteratorClass);
}
}
// Make sure the specified compaction strategy exists on a tabletserver
final String compactionStrategyName = config.getCompactionStrategy().getClassName();
if (!CompactionStrategyConfigUtil.DEFAULT_STRATEGY.getClassName().equals(compactionStrategyName)) {
if (!testClassLoad(tableName, compactionStrategyName, "org.apache.accumulo.tserver.compaction.CompactionStrategy")) {
throw new AccumuloException("TabletServer could not load CompactionStrategy class " + compactionStrategyName);
}
}
String tableId = Tables.getTableId(context.getInstance(), tableName);
Text start = config.getStartRow();
Text end = config.getEndRow();
if (config.getFlush())
_flush(tableId, start, end, true);
List<ByteBuffer> args = Arrays.asList(ByteBuffer.wrap(tableId.getBytes(UTF_8)), start == null ? EMPTY : TextUtil.getByteBuffer(start), end == null ? EMPTY
: TextUtil.getByteBuffer(end), ByteBuffer.wrap(IteratorUtil.encodeIteratorSettings(config.getIterators())), ByteBuffer
.wrap(CompactionStrategyConfigUtil.encode(config.getCompactionStrategy())));
Map<String,String> opts = new HashMap<>();
try {
doFateOperation(FateOperation.TABLE_COMPACT, args, opts, tableName, config.getWait());
} catch (TableExistsException e) {
// should not happen
throw new AssertionError(e);
} catch (NamespaceExistsException e) {
// should not happen
throw new AssertionError(e);
} catch (NamespaceNotFoundException e) {
throw new TableNotFoundException(null, tableName, "Namespace not found", e);
}
}
@Override
public void cancelCompaction(String tableName) throws AccumuloSecurityException, TableNotFoundException, AccumuloException {
String tableId = Tables.getTableId(context.getInstance(), tableName);
List<ByteBuffer> args = Arrays.asList(ByteBuffer.wrap(tableId.getBytes(UTF_8)));
Map<String,String> opts = new HashMap<>();
try {
doTableFateOperation(tableName, TableNotFoundException.class, FateOperation.TABLE_CANCEL_COMPACT, args, opts);
} catch (TableExistsException e) {
// should not happen
throw new AssertionError(e);
}
}
private void _flush(String tableId, Text start, Text end, boolean wait) throws AccumuloException, AccumuloSecurityException, TableNotFoundException {
try {
long flushID;
// used to pass the table name. but the tableid associated with a table name could change between calls.
// so pass the tableid to both calls
while (true) {
MasterClientService.Iface client = null;
try {
client = MasterClient.getConnectionWithRetry(context);
flushID = client.initiateFlush(Tracer.traceInfo(), context.rpcCreds(), tableId);
break;
} catch (TTransportException tte) {
log.debug("Failed to call initiateFlush, retrying ... ", tte);
sleepUninterruptibly(100, TimeUnit.MILLISECONDS);
} finally {
MasterClient.close(client);
}
}
while (true) {
MasterClientService.Iface client = null;
try {
client = MasterClient.getConnectionWithRetry(context);
client.waitForFlush(Tracer.traceInfo(), context.rpcCreds(), tableId, TextUtil.getByteBuffer(start), TextUtil.getByteBuffer(end), flushID,
wait ? Long.MAX_VALUE : 1);
break;
} catch (TTransportException tte) {
log.debug("Failed to call initiateFlush, retrying ... ", tte);
sleepUninterruptibly(100, TimeUnit.MILLISECONDS);
} finally {
MasterClient.close(client);
}
}
} catch (ThriftSecurityException e) {
switch (e.getCode()) {
case TABLE_DOESNT_EXIST:
throw new TableNotFoundException(tableId, null, e.getMessage(), e);
default:
log.debug("flush security exception on table id {}", tableId);
throw new AccumuloSecurityException(e.user, e.code, e);
}
} catch (ThriftTableOperationException e) {
switch (e.getType()) {
case NOTFOUND:
throw new TableNotFoundException(e);
default:
throw new AccumuloException(e.description, e);
}
} catch (Exception e) {
throw new AccumuloException(e);
}
}
@Override
public void setProperty(final String tableName, final String property, final String value) throws AccumuloException, AccumuloSecurityException {
checkArgument(tableName != null, "tableName is null");
checkArgument(property != null, "property is null");
checkArgument(value != null, "value is null");
try {
MasterClient.executeTable(context, new ClientExec<MasterClientService.Client>() {
@Override
public void execute(MasterClientService.Client client) throws Exception {
client.setTableProperty(Tracer.traceInfo(), context.rpcCreds(), tableName, property, value);
}
});
} catch (TableNotFoundException e) {
throw new AccumuloException(e);
}
}
@Override
public void removeProperty(final String tableName, final String property) throws AccumuloException, AccumuloSecurityException {
checkArgument(tableName != null, "tableName is null");
checkArgument(property != null, "property is null");
try {
MasterClient.executeTable(context, new ClientExec<MasterClientService.Client>() {
@Override
public void execute(MasterClientService.Client client) throws Exception {
client.removeTableProperty(Tracer.traceInfo(), context.rpcCreds(), tableName, property);
}
});
} catch (TableNotFoundException e) {
throw new AccumuloException(e);
}
}
@Override
public Iterable<Entry<String,String>> getProperties(final String tableName) throws AccumuloException, TableNotFoundException {
checkArgument(tableName != null, "tableName is null");
try {
return ServerClient.executeRaw(context, new ClientExecReturn<Map<String,String>,ClientService.Client>() {
@Override
public Map<String,String> execute(ClientService.Client client) throws Exception {
return client.getTableConfiguration(Tracer.traceInfo(), context.rpcCreds(), tableName);
}
}).entrySet();
} catch (ThriftTableOperationException e) {
switch (e.getType()) {
case NOTFOUND:
throw new TableNotFoundException(e);
case NAMESPACE_NOTFOUND:
throw new TableNotFoundException(tableName, new NamespaceNotFoundException(e));
default:
throw new AccumuloException(e.description, e);
}
} catch (AccumuloException e) {
throw e;
} catch (Exception e) {
throw new AccumuloException(e);
}
}
@Override
public void setLocalityGroups(String tableName, Map<String,Set<Text>> groups) throws AccumuloException, AccumuloSecurityException, TableNotFoundException {
// ensure locality groups do not overlap
HashSet<Text> all = new HashSet<>();
for (Entry<String,Set<Text>> entry : groups.entrySet()) {
if (!Collections.disjoint(all, entry.getValue())) {
throw new IllegalArgumentException("Group " + entry.getKey() + " overlaps with another group");
}
all.addAll(entry.getValue());
}
for (Entry<String,Set<Text>> entry : groups.entrySet()) {
Set<Text> colFams = entry.getValue();
String value = LocalityGroupUtil.encodeColumnFamilies(colFams);
setProperty(tableName, Property.TABLE_LOCALITY_GROUP_PREFIX + entry.getKey(), value);
}
try {
setProperty(tableName, Property.TABLE_LOCALITY_GROUPS.getKey(), Joiner.on(",").join(groups.keySet()));
} catch (AccumuloException e) {
if (e.getCause() instanceof TableNotFoundException)
throw (TableNotFoundException) e.getCause();
throw e;
}
// remove anything extraneous
String prefix = Property.TABLE_LOCALITY_GROUP_PREFIX.getKey();
for (Entry<String,String> entry : getProperties(tableName)) {
String property = entry.getKey();
if (property.startsWith(prefix)) {
// this property configures a locality group, find out which
// one:
String[] parts = property.split("\\.");
String group = parts[parts.length - 1];
if (!groups.containsKey(group)) {
removeProperty(tableName, property);
}
}
}
}
@Override
public Map<String,Set<Text>> getLocalityGroups(String tableName) throws AccumuloException, TableNotFoundException {
AccumuloConfiguration conf = new ConfigurationCopy(this.getProperties(tableName));
Map<String,Set<ByteSequence>> groups = LocalityGroupUtil.getLocalityGroups(conf);
Map<String,Set<Text>> groups2 = new HashMap<>();
for (Entry<String,Set<ByteSequence>> entry : groups.entrySet()) {
HashSet<Text> colFams = new HashSet<>();
for (ByteSequence bs : entry.getValue()) {
colFams.add(new Text(bs.toArray()));
}
groups2.put(entry.getKey(), colFams);
}
return groups2;
}
@Override
public Set<Range> splitRangeByTablets(String tableName, Range range, int maxSplits) throws AccumuloException, AccumuloSecurityException,
TableNotFoundException {
checkArgument(tableName != null, "tableName is null");
checkArgument(range != null, "range is null");
if (maxSplits < 1)
throw new IllegalArgumentException("maximum splits must be >= 1");
if (maxSplits == 1)
return Collections.singleton(range);
Random random = new Random();
Map<String,Map<KeyExtent,List<Range>>> binnedRanges = new HashMap<>();
String tableId = Tables.getTableId(context.getInstance(), tableName);
TabletLocator tl = TabletLocator.getLocator(context, tableId);
// its possible that the cache could contain complete, but old information about a tables tablets... so clear it
tl.invalidateCache();
while (!tl.binRanges(context, Collections.singletonList(range), binnedRanges).isEmpty()) {
if (!Tables.exists(context.getInstance(), tableId))
throw new TableDeletedException(tableId);
if (Tables.getTableState(context.getInstance(), tableId) == TableState.OFFLINE)
throw new TableOfflineException(context.getInstance(), tableId);
log.warn("Unable to locate bins for specified range. Retrying.");
// sleep randomly between 100 and 200ms
sleepUninterruptibly(100 + random.nextInt(100), TimeUnit.MILLISECONDS);
binnedRanges.clear();
tl.invalidateCache();
}
// group key extents to get <= maxSplits
LinkedList<KeyExtent> unmergedExtents = new LinkedList<>();
List<KeyExtent> mergedExtents = new ArrayList<>();
for (Map<KeyExtent,List<Range>> map : binnedRanges.values())
unmergedExtents.addAll(map.keySet());
// the sort method is efficient for linked list
Collections.sort(unmergedExtents);
while (unmergedExtents.size() + mergedExtents.size() > maxSplits) {
if (unmergedExtents.size() >= 2) {
KeyExtent first = unmergedExtents.removeFirst();
KeyExtent second = unmergedExtents.removeFirst();
first.setEndRow(second.getEndRow());
mergedExtents.add(first);
} else {
mergedExtents.addAll(unmergedExtents);
unmergedExtents.clear();
unmergedExtents.addAll(mergedExtents);
mergedExtents.clear();
}
}
mergedExtents.addAll(unmergedExtents);
Set<Range> ranges = new HashSet<>();
for (KeyExtent k : mergedExtents)
ranges.add(k.toDataRange().clip(range));
return ranges;
}
private Path checkPath(String dir, String kind, String type) throws IOException, AccumuloException, AccumuloSecurityException {
Path ret;
Map<String,String> props = context.getConnector().instanceOperations().getSystemConfiguration();
AccumuloConfiguration conf = new ConfigurationCopy(props);
FileSystem fs = VolumeConfiguration.getVolume(dir, CachedConfiguration.getInstance(), conf).getFileSystem();
if (dir.contains(":")) {
ret = new Path(dir);
} else {
ret = fs.makeQualified(new Path(dir));
}
try {
if (!fs.getFileStatus(ret).isDirectory()) {
throw new AccumuloException(kind + " import " + type + " directory " + dir + " is not a directory!");
}
} catch (FileNotFoundException fnf) {
throw new AccumuloException(kind + " import " + type + " directory " + dir + " does not exist!");
}
if (type.equals("failure")) {
FileStatus[] listStatus = fs.listStatus(ret);
if (listStatus != null && listStatus.length != 0) {
throw new AccumuloException("Bulk import failure directory " + ret + " is not empty");
}
}
return ret;
}
@Override
public void importDirectory(String tableName, String dir, String failureDir, boolean setTime) throws IOException, AccumuloSecurityException,
TableNotFoundException, AccumuloException {
checkArgument(tableName != null, "tableName is null");
checkArgument(dir != null, "dir is null");
checkArgument(failureDir != null, "failureDir is null");
// check for table existance
Tables.getTableId(context.getInstance(), tableName);
Path dirPath = checkPath(dir, "Bulk", "");
Path failPath = checkPath(failureDir, "Bulk", "failure");
List<ByteBuffer> args = Arrays.asList(ByteBuffer.wrap(tableName.getBytes(UTF_8)), ByteBuffer.wrap(dirPath.toString().getBytes(UTF_8)),
ByteBuffer.wrap(failPath.toString().getBytes(UTF_8)), ByteBuffer.wrap((setTime + "").getBytes(UTF_8)));
Map<String,String> opts = new HashMap<>();
try {
doTableFateOperation(tableName, TableNotFoundException.class, FateOperation.TABLE_BULK_IMPORT, args, opts);
} catch (TableExistsException e) {
// should not happen
throw new AssertionError(e);
}
}
private void waitForTableStateTransition(String tableId, TableState expectedState) throws AccumuloException, TableNotFoundException,
AccumuloSecurityException {
Text startRow = null;
Text lastRow = null;
while (true) {
if (Tables.getTableState(context.getInstance(), tableId) != expectedState) {
Tables.clearCache(context.getInstance());
if (Tables.getTableState(context.getInstance(), tableId) != expectedState) {
if (!Tables.exists(context.getInstance(), tableId))
throw new TableDeletedException(tableId);
throw new AccumuloException("Unexpected table state " + tableId + " " + Tables.getTableState(context.getInstance(), tableId) + " != " + expectedState);
}
}
Range range = new KeyExtent(tableId, null, null).toMetadataRange();
if (startRow == null || lastRow == null)
range = new KeyExtent(tableId, null, null).toMetadataRange();
else
range = new Range(startRow, lastRow);
String metaTable = MetadataTable.NAME;
if (tableId.equals(MetadataTable.ID))
metaTable = RootTable.NAME;
Scanner scanner = createMetadataScanner(metaTable, range);
RowIterator rowIter = new RowIterator(scanner);
KeyExtent lastExtent = null;
int total = 0;
int waitFor = 0;
int holes = 0;
Text continueRow = null;
MapCounter<String> serverCounts = new MapCounter<>();
while (rowIter.hasNext()) {
Iterator<Entry<Key,Value>> row = rowIter.next();
total++;
KeyExtent extent = null;
String future = null;
String current = null;
while (row.hasNext()) {
Entry<Key,Value> entry = row.next();
Key key = entry.getKey();
if (key.getColumnFamily().equals(TabletsSection.FutureLocationColumnFamily.NAME))
future = entry.getValue().toString();
if (key.getColumnFamily().equals(TabletsSection.CurrentLocationColumnFamily.NAME))
current = entry.getValue().toString();
if (TabletsSection.TabletColumnFamily.PREV_ROW_COLUMN.hasColumns(key))
extent = new KeyExtent(key.getRow(), entry.getValue());
}
if ((expectedState == TableState.ONLINE && current == null) || (expectedState == TableState.OFFLINE && (future != null || current != null))) {
if (continueRow == null)
continueRow = extent.getMetadataEntry();
waitFor++;
lastRow = extent.getMetadataEntry();
if (current != null)
serverCounts.increment(current, 1);
if (future != null)
serverCounts.increment(future, 1);
}
if (!extent.getTableId().equals(tableId)) {
throw new AccumuloException("Saw unexpected table Id " + tableId + " " + extent);
}
if (lastExtent != null && !extent.isPreviousExtent(lastExtent)) {
holes++;
}
lastExtent = extent;
}
if (continueRow != null) {
startRow = continueRow;
}
if (holes > 0 || total == 0) {
startRow = null;
lastRow = null;
}
if (waitFor > 0 || holes > 0 || total == 0) {
long waitTime;
long maxPerServer = 0;
if (serverCounts.size() > 0) {
maxPerServer = Collections.max(serverCounts.values());
waitTime = maxPerServer * 10;
} else
waitTime = waitFor * 10;
waitTime = Math.max(100, waitTime);
waitTime = Math.min(5000, waitTime);
log.trace("Waiting for {}({}) tablets, startRow = {} lastRow = {}, holes={} sleeping:{}ms", waitFor, maxPerServer, startRow, lastRow, holes, waitTime);
sleepUninterruptibly(waitTime, TimeUnit.MILLISECONDS);
} else {
break;
}
}
}
/**
* Create an IsolatedScanner over the given table, fetching the columns necessary to determine when a table has transitioned to online or offline.
*/
protected IsolatedScanner createMetadataScanner(String metaTable, Range range) throws TableNotFoundException, AccumuloException, AccumuloSecurityException {
Scanner scanner = context.getConnector().createScanner(metaTable, Authorizations.EMPTY);
TabletsSection.TabletColumnFamily.PREV_ROW_COLUMN.fetch(scanner);
scanner.fetchColumnFamily(TabletsSection.FutureLocationColumnFamily.NAME);
scanner.fetchColumnFamily(TabletsSection.CurrentLocationColumnFamily.NAME);
scanner.setRange(range);
return new IsolatedScanner(scanner);
}
@Override
public void offline(String tableName) throws AccumuloSecurityException, AccumuloException, TableNotFoundException {
offline(tableName, false);
}
@Override
public void offline(String tableName, boolean wait) throws AccumuloSecurityException, AccumuloException, TableNotFoundException {
checkArgument(tableName != null, "tableName is null");
String tableId = Tables.getTableId(context.getInstance(), tableName);
List<ByteBuffer> args = Arrays.asList(ByteBuffer.wrap(tableId.getBytes(UTF_8)));
Map<String,String> opts = new HashMap<>();
try {
doTableFateOperation(tableName, TableNotFoundException.class, FateOperation.TABLE_OFFLINE, args, opts);
} catch (TableExistsException e) {
// should not happen
throw new AssertionError(e);
}
if (wait)
waitForTableStateTransition(tableId, TableState.OFFLINE);
}
@Override
public void online(String tableName) throws AccumuloSecurityException, AccumuloException, TableNotFoundException {
online(tableName, false);
}
@Override
public void online(String tableName, boolean wait) throws AccumuloSecurityException, AccumuloException, TableNotFoundException {
checkArgument(tableName != null, "tableName is null");
String tableId = Tables.getTableId(context.getInstance(), tableName);
List<ByteBuffer> args = Arrays.asList(ByteBuffer.wrap(tableId.getBytes(UTF_8)));
Map<String,String> opts = new HashMap<>();
try {
doTableFateOperation(tableName, TableNotFoundException.class, FateOperation.TABLE_ONLINE, args, opts);
} catch (TableExistsException e) {
// should not happen
throw new AssertionError(e);
}
if (wait)
waitForTableStateTransition(tableId, TableState.ONLINE);
}
@Override
public void clearLocatorCache(String tableName) throws TableNotFoundException {
checkArgument(tableName != null, "tableName is null");
TabletLocator tabLocator = TabletLocator.getLocator(context, Tables.getTableId(context.getInstance(), tableName));
tabLocator.invalidateCache();
}
@Override
public Map<String,String> tableIdMap() {
return Tables.getNameToIdMap(context.getInstance());
}
@Override
public Text getMaxRow(String tableName, Authorizations auths, Text startRow, boolean startInclusive, Text endRow, boolean endInclusive)
throws TableNotFoundException, AccumuloException, AccumuloSecurityException {
checkArgument(tableName != null, "tableName is null");
checkArgument(auths != null, "auths is null");
Scanner scanner = context.getConnector().createScanner(tableName, auths);
return FindMax.findMax(scanner, startRow, startInclusive, endRow, endInclusive);
}
@Override
public List<DiskUsage> getDiskUsage(Set<String> tableNames) throws AccumuloException, AccumuloSecurityException, TableNotFoundException {
List<TDiskUsage> diskUsages = null;
while (diskUsages == null) {
Pair<String,Client> pair = null;
try {
// this operation may us a lot of memory... its likely that connections to tabletservers hosting metadata tablets will be cached, so do not use cached
// connections
pair = ServerClient.getConnection(context, false);
diskUsages = pair.getSecond().getDiskUsage(tableNames, context.rpcCreds());
} catch (ThriftTableOperationException e) {
switch (e.getType()) {
case NOTFOUND:
throw new TableNotFoundException(e);
case NAMESPACE_NOTFOUND:
throw new TableNotFoundException(e.getTableName(), new NamespaceNotFoundException(e));
default:
throw new AccumuloException(e.description, e);
}
} catch (ThriftSecurityException e) {
throw new AccumuloSecurityException(e.getUser(), e.getCode());
} catch (TTransportException e) {
// some sort of communication error occurred, retry
if (pair == null) {
log.debug("Disk usage request failed. Pair is null. Retrying request...", e);
} else {
log.debug("Disk usage request failed {}, retrying ... ", pair.getFirst(), e);
}
sleepUninterruptibly(100, TimeUnit.MILLISECONDS);
} catch (TException e) {
// may be a TApplicationException which indicates error on the server side
throw new AccumuloException(e);
} finally {
// must always return thrift connection
if (pair != null)
ServerClient.close(pair.getSecond());
}
}
List<DiskUsage> finalUsages = new ArrayList<>();
for (TDiskUsage diskUsage : diskUsages) {
finalUsages.add(new DiskUsage(new TreeSet<>(diskUsage.getTables()), diskUsage.getUsage()));
}
return finalUsages;
}
public static Map<String,String> getExportedProps(FileSystem fs, Path path) throws IOException {
HashMap<String,String> props = new HashMap<>();
ZipInputStream zis = new ZipInputStream(fs.open(path));
try {
ZipEntry zipEntry;
while ((zipEntry = zis.getNextEntry()) != null) {
if (zipEntry.getName().equals(Constants.EXPORT_TABLE_CONFIG_FILE)) {
BufferedReader in = new BufferedReader(new InputStreamReader(zis, UTF_8));
try {
String line;
while ((line = in.readLine()) != null) {
String sa[] = line.split("=", 2);
props.put(sa[0], sa[1]);
}
} finally {
in.close();
}
break;
}
}
} finally {
zis.close();
}
return props;
}
@Override
public void importTable(String tableName, String importDir) throws TableExistsException, AccumuloException, AccumuloSecurityException {
checkArgument(tableName != null, "tableName is null");
checkArgument(importDir != null, "importDir is null");
try {
importDir = checkPath(importDir, "Table", "").toString();
} catch (IOException e) {
throw new AccumuloException(e);
}
try {
FileSystem fs = new Path(importDir).getFileSystem(CachedConfiguration.getInstance());
Map<String,String> props = getExportedProps(fs, new Path(importDir, Constants.EXPORT_FILE));
for (Entry<String,String> entry : props.entrySet()) {
if (Property.isClassProperty(entry.getKey()) && !entry.getValue().contains(Constants.CORE_PACKAGE_NAME)) {
LoggerFactory.getLogger(this.getClass()).info("Imported table sets '{}' to '{}'. Ensure this class is on Accumulo classpath.", entry.getKey(),
entry.getValue());
}
}
} catch (IOException ioe) {
LoggerFactory.getLogger(this.getClass()).warn("Failed to check if imported table references external java classes : {}", ioe.getMessage());
}
List<ByteBuffer> args = Arrays.asList(ByteBuffer.wrap(tableName.getBytes(UTF_8)), ByteBuffer.wrap(importDir.getBytes(UTF_8)));
Map<String,String> opts = Collections.emptyMap();
try {
doTableFateOperation(tableName, AccumuloException.class, FateOperation.TABLE_IMPORT, args, opts);
} catch (TableNotFoundException e) {
// should not happen
throw new AssertionError(e);
}
}
@Override
public void exportTable(String tableName, String exportDir) throws TableNotFoundException, AccumuloException, AccumuloSecurityException {
checkArgument(tableName != null, "tableName is null");
checkArgument(exportDir != null, "exportDir is null");
List<ByteBuffer> args = Arrays.asList(ByteBuffer.wrap(tableName.getBytes(UTF_8)), ByteBuffer.wrap(exportDir.getBytes(UTF_8)));
Map<String,String> opts = Collections.emptyMap();
try {
doTableFateOperation(tableName, TableNotFoundException.class, FateOperation.TABLE_EXPORT, args, opts);
} catch (TableExistsException e) {
// should not happen
throw new AssertionError(e);
}
}
@Override
public boolean testClassLoad(final String tableName, final String className, final String asTypeName) throws TableNotFoundException, AccumuloException,
AccumuloSecurityException {
checkArgument(tableName != null, "tableName is null");
checkArgument(className != null, "className is null");
checkArgument(asTypeName != null, "asTypeName is null");
try {
return ServerClient.executeRaw(context, new ClientExecReturn<Boolean,ClientService.Client>() {
@Override
public Boolean execute(ClientService.Client client) throws Exception {
return client.checkTableClass(Tracer.traceInfo(), context.rpcCreds(), tableName, className, asTypeName);
}
});
} catch (ThriftTableOperationException e) {
switch (e.getType()) {
case NOTFOUND:
throw new TableNotFoundException(e);
case NAMESPACE_NOTFOUND:
throw new TableNotFoundException(tableName, new NamespaceNotFoundException(e));
default:
throw new AccumuloException(e.description, e);
}
} catch (ThriftSecurityException e) {
throw new AccumuloSecurityException(e.user, e.code, e);
} catch (AccumuloException e) {
throw e;
} catch (Exception e) {
throw new AccumuloException(e);
}
}
@Override
public void attachIterator(String tableName, IteratorSetting setting, EnumSet<IteratorScope> scopes) throws AccumuloSecurityException, AccumuloException,
TableNotFoundException {
testClassLoad(tableName, setting.getIteratorClass(), SortedKeyValueIterator.class.getName());
super.attachIterator(tableName, setting, scopes);
}
@Override
public int addConstraint(String tableName, String constraintClassName) throws AccumuloException, AccumuloSecurityException, TableNotFoundException {
testClassLoad(tableName, constraintClassName, Constraint.class.getName());
return super.addConstraint(tableName, constraintClassName);
}
private void doTableFateOperation(String tableOrNamespaceName, Class<? extends Exception> namespaceNotFoundExceptionClass, FateOperation op,
List<ByteBuffer> args, Map<String,String> opts) throws AccumuloSecurityException, AccumuloException, TableExistsException, TableNotFoundException {
try {
doFateOperation(op, args, opts, tableOrNamespaceName);
} catch (NamespaceExistsException e) {
// should not happen
throw new AssertionError(e);
} catch (NamespaceNotFoundException e) {
if (namespaceNotFoundExceptionClass == null) {
// should not happen
throw new AssertionError(e);
} else if (AccumuloException.class.isAssignableFrom(namespaceNotFoundExceptionClass)) {
throw new AccumuloException("Cannot create table in non-existent namespace", e);
} else if (TableNotFoundException.class.isAssignableFrom(namespaceNotFoundExceptionClass)) {
throw new TableNotFoundException(null, tableOrNamespaceName, "Namespace not found", e);
} else {
// should not happen
throw new AssertionError(e);
}
}
}
private void clearSamplerOptions(String tableName) throws AccumuloException, TableNotFoundException, AccumuloSecurityException {
String prefix = Property.TABLE_SAMPLER_OPTS.getKey();
for (Entry<String,String> entry : getProperties(tableName)) {
String property = entry.getKey();
if (property.startsWith(prefix)) {
removeProperty(tableName, property);
}
}
}
@Override
public void setSamplerConfiguration(String tableName, SamplerConfiguration samplerConfiguration) throws AccumuloException, TableNotFoundException,
AccumuloSecurityException {
clearSamplerOptions(tableName);
List<Pair<String,String>> props = new SamplerConfigurationImpl(samplerConfiguration).toTableProperties();
for (Pair<String,String> pair : props) {
setProperty(tableName, pair.getFirst(), pair.getSecond());
}
}
@Override
public void clearSamplerConfiguration(String tableName) throws AccumuloException, TableNotFoundException, AccumuloSecurityException {
removeProperty(tableName, Property.TABLE_SAMPLER.getKey());
clearSamplerOptions(tableName);
}
@Override
public SamplerConfiguration getSamplerConfiguration(String tableName) throws TableNotFoundException, AccumuloException {
AccumuloConfiguration conf = new ConfigurationCopy(this.getProperties(tableName));
SamplerConfigurationImpl sci = SamplerConfigurationImpl.newSamplerConfig(conf);
if (sci == null) {
return null;
}
return sci.toSamplerConfiguration();
}
private static class LoctionsImpl implements Locations {
private Map<Range,List<TabletId>> groupedByRanges;
private Map<TabletId,List<Range>> groupedByTablets;
private Map<TabletId,String> tabletLocations;
public LoctionsImpl(Map<String,Map<KeyExtent,List<Range>>> binnedRanges) {
groupedByTablets = new HashMap<>();
groupedByRanges = null;
tabletLocations = new HashMap<>();
for (Entry<String,Map<KeyExtent,List<Range>>> entry : binnedRanges.entrySet()) {
String location = entry.getKey();
for (Entry<KeyExtent,List<Range>> entry2 : entry.getValue().entrySet()) {
TabletIdImpl tabletId = new TabletIdImpl(entry2.getKey());
tabletLocations.put(tabletId, location);
List<Range> prev = groupedByTablets.put(tabletId, Collections.unmodifiableList(entry2.getValue()));
if (prev != null) {
throw new RuntimeException("Unexpected : tablet at multiple locations : " + location + " " + tabletId);
}
}
}
groupedByTablets = Collections.unmodifiableMap(groupedByTablets);
}
@Override
public String getTabletLocation(TabletId tabletId) {
return tabletLocations.get(tabletId);
}
@Override
public Map<Range,List<TabletId>> groupByRange() {
if (groupedByRanges == null) {
Map<Range,List<TabletId>> tmp = new HashMap<>();
for (Entry<TabletId,List<Range>> entry : groupedByTablets.entrySet()) {
for (Range range : entry.getValue()) {
List<TabletId> tablets = tmp.get(range);
if (tablets == null) {
tablets = new ArrayList<>();
tmp.put(range, tablets);
}
tablets.add(entry.getKey());
}
}
Map<Range,List<TabletId>> tmp2 = new HashMap<>();
for (Entry<Range,List<TabletId>> entry : tmp.entrySet()) {
tmp2.put(entry.getKey(), Collections.unmodifiableList(entry.getValue()));
}
groupedByRanges = Collections.unmodifiableMap(tmp2);
}
return groupedByRanges;
}
@Override
public Map<TabletId,List<Range>> groupByTablet() {
return groupedByTablets;
}
}
@Override
public Locations locate(String tableName, Collection<Range> ranges) throws AccumuloException, AccumuloSecurityException, TableNotFoundException {
requireNonNull(tableName, "tableName must be non null");
requireNonNull(ranges, "ranges must be non null");
String tableId = Tables.getTableId(context.getInstance(), tableName);
TabletLocator locator = TabletLocator.getLocator(context, tableId);
List<Range> rangeList = null;
if (ranges instanceof List) {
rangeList = (List<Range>) ranges;
} else {
rangeList = new ArrayList<>(ranges);
}
Map<String,Map<KeyExtent,List<Range>>> binnedRanges = new HashMap<>();
locator.invalidateCache();
Retry retry = new Retry(Long.MAX_VALUE, 100, 100, 2000);
while (!locator.binRanges(context, rangeList, binnedRanges).isEmpty()) {
if (!Tables.exists(context.getInstance(), tableId))
throw new TableNotFoundException(tableId, tableName, null);
if (Tables.getTableState(context.getInstance(), tableId) == TableState.OFFLINE)
throw new TableOfflineException(context.getInstance(), tableId);
binnedRanges.clear();
try {
retry.waitForNextAttempt();
} catch (InterruptedException e) {
throw new RuntimeException(e);
}
locator.invalidateCache();
}
return new LoctionsImpl(binnedRanges);
}
}