Java tutorial
/** * 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.distributedlog.admin; import static com.google.common.base.Preconditions.checkArgument; import com.google.common.collect.Lists; import java.io.IOException; import java.net.URI; import java.util.ArrayList; import java.util.Collection; import java.util.Collections; import java.util.Comparator; import java.util.Iterator; import java.util.List; import java.util.Map; import java.util.SortedSet; import java.util.TreeSet; import java.util.concurrent.CompletableFuture; import java.util.concurrent.ConcurrentSkipListMap; import java.util.concurrent.CountDownLatch; import java.util.concurrent.ExecutorService; import java.util.concurrent.Executors; import java.util.concurrent.LinkedBlockingQueue; import java.util.concurrent.TimeUnit; import java.util.concurrent.atomic.AtomicInteger; import java.util.function.Function; import org.apache.bookkeeper.common.concurrent.FutureUtils; import org.apache.bookkeeper.common.util.OrderedScheduler; import org.apache.bookkeeper.util.IOUtils; import org.apache.commons.cli.CommandLine; import org.apache.commons.cli.Options; import org.apache.commons.cli.ParseException; import org.apache.distributedlog.LogRecordWithDLSN; import org.apache.distributedlog.LogSegmentMetadata; import org.apache.distributedlog.ReadUtils; import org.apache.distributedlog.ZooKeeperClient; import org.apache.distributedlog.ZooKeeperClientBuilder; import org.apache.distributedlog.api.DistributedLogManager; import org.apache.distributedlog.api.namespace.Namespace; import org.apache.distributedlog.common.util.SchedulerUtils; import org.apache.distributedlog.exceptions.DLIllegalStateException; import org.apache.distributedlog.impl.BKNamespaceDriver; import org.apache.distributedlog.impl.acl.ZKAccessControl; import org.apache.distributedlog.impl.federated.FederatedZKLogMetadataStore; import org.apache.distributedlog.impl.metadata.BKDLConfig; import org.apache.distributedlog.logsegment.LogSegmentEntryStore; import org.apache.distributedlog.metadata.DLMetadata; import org.apache.distributedlog.metadata.DryrunLogSegmentMetadataStoreUpdater; import org.apache.distributedlog.metadata.LogSegmentMetadataStoreUpdater; import org.apache.distributedlog.metadata.MetadataUpdater; import org.apache.distributedlog.namespace.NamespaceDriver; import org.apache.distributedlog.thrift.AccessControlEntry; import org.apache.distributedlog.tools.DistributedLogTool; import org.apache.zookeeper.KeeperException; import org.slf4j.Logger; import org.slf4j.LoggerFactory; /** * Admin Tool for DistributedLog. */ public class DistributedLogAdmin extends DistributedLogTool { static final Logger LOG = LoggerFactory.getLogger(DistributedLogAdmin.class); /** * Fix inprogress segment with lower ledger sequence number. * * @param namespace * dl namespace * @param metadataUpdater * metadata updater. * @param streamName * stream name. * @param verbose * print verbose messages. * @param interactive * is confirmation needed before executing actual action. * @throws IOException */ public static void fixInprogressSegmentWithLowerSequenceNumber(final Namespace namespace, final MetadataUpdater metadataUpdater, final String streamName, final boolean verbose, final boolean interactive) throws Exception { DistributedLogManager dlm = namespace.openLog(streamName); try { List<LogSegmentMetadata> segments = dlm.getLogSegments(); if (verbose) { System.out.println("LogSegments for " + streamName + " : "); for (LogSegmentMetadata segment : segments) { System.out.println(segment.getLogSegmentSequenceNumber() + "\t: " + segment); } } LOG.info("Get log segments for {} : {}", streamName, segments); // validate log segments long maxCompletedLogSegmentSequenceNumber = -1L; LogSegmentMetadata inprogressSegment = null; for (LogSegmentMetadata segment : segments) { if (!segment.isInProgress()) { maxCompletedLogSegmentSequenceNumber = Math.max(maxCompletedLogSegmentSequenceNumber, segment.getLogSegmentSequenceNumber()); } else { // we already found an inprogress segment if (null != inprogressSegment) { throw new DLIllegalStateException( "Multiple inprogress segments found for stream " + streamName + " : " + segments); } inprogressSegment = segment; } } if (null == inprogressSegment || inprogressSegment.getLogSegmentSequenceNumber() > maxCompletedLogSegmentSequenceNumber) { // nothing to fix return; } final long newLogSegmentSequenceNumber = maxCompletedLogSegmentSequenceNumber + 1; if (interactive && !IOUtils.confirmPrompt("Confirm to fix (Y/N), Ctrl+C to break : ")) { return; } final LogSegmentMetadata newSegment = FutureUtils .result(metadataUpdater.changeSequenceNumber(inprogressSegment, newLogSegmentSequenceNumber)); LOG.info("Fixed {} : {} -> {} ", new Object[] { streamName, inprogressSegment, newSegment }); if (verbose) { System.out.println("Fixed " + streamName + " : " + inprogressSegment.getZNodeName() + " -> " + newSegment.getZNodeName()); System.out.println("\t old: " + inprogressSegment); System.out.println("\t new: " + newSegment); System.out.println(); } } finally { dlm.close(); } } private static class LogSegmentCandidate { final LogSegmentMetadata metadata; final LogRecordWithDLSN lastRecord; LogSegmentCandidate(LogSegmentMetadata metadata, LogRecordWithDLSN lastRecord) { this.metadata = metadata; this.lastRecord = lastRecord; } @Override public String toString() { return "LogSegmentCandidate[ metadata = " + metadata + ", last record = " + lastRecord + " ]"; } } private static final Comparator<LogSegmentCandidate> LOG_SEGMENT_CANDIDATE_COMPARATOR = new Comparator<LogSegmentCandidate>() { @Override public int compare(LogSegmentCandidate o1, LogSegmentCandidate o2) { return LogSegmentMetadata.COMPARATOR.compare(o1.metadata, o2.metadata); } }; private static class StreamCandidate { final String streamName; final SortedSet<LogSegmentCandidate> segmentCandidates = new TreeSet<LogSegmentCandidate>( LOG_SEGMENT_CANDIDATE_COMPARATOR); StreamCandidate(String streamName) { this.streamName = streamName; } synchronized void addLogSegmentCandidate(LogSegmentCandidate segmentCandidate) { segmentCandidates.add(segmentCandidate); } @Override public String toString() { return "StreamCandidate[ name = " + streamName + ", segments = " + segmentCandidates + " ]"; } } public static void checkAndRepairDLNamespace(final URI uri, final Namespace namespace, final MetadataUpdater metadataUpdater, final OrderedScheduler scheduler, final boolean verbose, final boolean interactive) throws Exception { checkAndRepairDLNamespace(uri, namespace, metadataUpdater, scheduler, verbose, interactive, 1); } public static void checkAndRepairDLNamespace(final URI uri, final Namespace namespace, final MetadataUpdater metadataUpdater, final OrderedScheduler scheduler, final boolean verbose, final boolean interactive, final int concurrency) throws Exception { checkArgument(concurrency > 0, "Invalid concurrency " + concurrency + " found."); // 0. getting streams under a given uri. Iterator<String> streamsIter = namespace.getLogs(); List<String> streams = Lists.newArrayList(); while (streamsIter.hasNext()) { streams.add(streamsIter.next()); } if (verbose) { System.out.println("- 0. checking streams under " + uri); } if (streams.size() == 0) { System.out.println("+ 0. nothing to check. quit."); return; } Map<String, StreamCandidate> streamCandidates = checkStreams(namespace, streams, scheduler, concurrency); if (verbose) { System.out.println("+ 0. " + streamCandidates.size() + " corrupted streams found."); } if (interactive && !IOUtils.confirmPrompt( "Do you want to fix all " + streamCandidates.size() + " corrupted streams (Y/N) : ")) { return; } if (verbose) { System.out.println("- 1. repairing " + streamCandidates.size() + " corrupted streams."); } for (StreamCandidate candidate : streamCandidates.values()) { if (!repairStream(metadataUpdater, candidate, verbose, interactive)) { if (verbose) { System.out.println("* 1. aborted repairing corrupted streams."); } return; } } if (verbose) { System.out.println("+ 1. repaired " + streamCandidates.size() + " corrupted streams."); } } private static Map<String, StreamCandidate> checkStreams(final Namespace namespace, final Collection<String> streams, final OrderedScheduler scheduler, final int concurrency) throws IOException { final LinkedBlockingQueue<String> streamQueue = new LinkedBlockingQueue<String>(); streamQueue.addAll(streams); final Map<String, StreamCandidate> candidateMap = new ConcurrentSkipListMap<String, StreamCandidate>(); final AtomicInteger numPendingStreams = new AtomicInteger(streams.size()); final CountDownLatch doneLatch = new CountDownLatch(1); Runnable checkRunnable = new Runnable() { @Override public void run() { while (!streamQueue.isEmpty()) { String stream; try { stream = streamQueue.take(); } catch (InterruptedException e) { Thread.currentThread().interrupt(); break; } StreamCandidate candidate; try { LOG.info("Checking stream {}.", stream); candidate = checkStream(namespace, stream, scheduler); LOG.info("Checked stream {} - {}.", stream, candidate); } catch (Throwable e) { LOG.error("Error on checking stream {} : ", stream, e); doneLatch.countDown(); break; } if (null != candidate) { candidateMap.put(stream, candidate); } if (numPendingStreams.decrementAndGet() == 0) { doneLatch.countDown(); } } } }; Thread[] threads = new Thread[concurrency]; for (int i = 0; i < concurrency; i++) { threads[i] = new Thread(checkRunnable, "check-thread-" + i); threads[i].start(); } try { doneLatch.await(); } catch (InterruptedException e) { Thread.currentThread().interrupt(); } if (numPendingStreams.get() != 0) { throw new IOException(numPendingStreams.get() + " streams left w/o checked"); } for (int i = 0; i < concurrency; i++) { threads[i].interrupt(); try { threads[i].join(); } catch (InterruptedException e) { Thread.currentThread().interrupt(); } } return candidateMap; } private static StreamCandidate checkStream(final Namespace namespace, final String streamName, final OrderedScheduler scheduler) throws IOException { DistributedLogManager dlm = namespace.openLog(streamName); try { List<LogSegmentMetadata> segments = dlm.getLogSegments(); if (segments.isEmpty()) { return null; } List<CompletableFuture<LogSegmentCandidate>> futures = new ArrayList<CompletableFuture<LogSegmentCandidate>>( segments.size()); for (LogSegmentMetadata segment : segments) { futures.add(checkLogSegment(namespace, streamName, segment, scheduler)); } List<LogSegmentCandidate> segmentCandidates; try { segmentCandidates = FutureUtils.result(FutureUtils.collect(futures)); } catch (Exception e) { throw new IOException("Failed on checking stream " + streamName, e); } StreamCandidate streamCandidate = new StreamCandidate(streamName); for (LogSegmentCandidate segmentCandidate : segmentCandidates) { if (null != segmentCandidate) { streamCandidate.addLogSegmentCandidate(segmentCandidate); } } if (streamCandidate.segmentCandidates.isEmpty()) { return null; } return streamCandidate; } finally { dlm.close(); } } private static CompletableFuture<LogSegmentCandidate> checkLogSegment(final Namespace namespace, final String streamName, final LogSegmentMetadata metadata, final OrderedScheduler scheduler) { if (metadata.isInProgress()) { return FutureUtils.value(null); } final LogSegmentEntryStore entryStore = namespace.getNamespaceDriver() .getLogSegmentEntryStore(NamespaceDriver.Role.READER); return ReadUtils.asyncReadLastRecord(streamName, metadata, true, false, true, 4, 16, new AtomicInteger(0), scheduler, entryStore).thenApply(new Function<LogRecordWithDLSN, LogSegmentCandidate>() { @Override public LogSegmentCandidate apply(LogRecordWithDLSN record) { if (null != record && (record.getDlsn().compareTo(metadata.getLastDLSN()) > 0 || record.getTransactionId() > metadata.getLastTxId() || !metadata.isRecordPositionWithinSegmentScope(record))) { return new LogSegmentCandidate(metadata, record); } else { return null; } } }); } private static boolean repairStream(MetadataUpdater metadataUpdater, StreamCandidate streamCandidate, boolean verbose, boolean interactive) throws Exception { if (verbose) { System.out.println("Stream " + streamCandidate.streamName + " : "); for (LogSegmentCandidate segmentCandidate : streamCandidate.segmentCandidates) { System.out.println(" " + segmentCandidate.metadata.getLogSegmentSequenceNumber() + " : metadata = " + segmentCandidate.metadata + ", last dlsn = " + segmentCandidate.lastRecord.getDlsn()); } System.out.println("-------------------------------------------"); } if (interactive && !IOUtils .confirmPrompt("Do you want to fix the stream " + streamCandidate.streamName + " (Y/N) : ")) { return false; } for (LogSegmentCandidate segmentCandidate : streamCandidate.segmentCandidates) { LogSegmentMetadata newMetadata = FutureUtils.result( metadataUpdater.updateLastRecord(segmentCandidate.metadata, segmentCandidate.lastRecord)); if (verbose) { System.out.println( " Fixed segment " + segmentCandidate.metadata.getLogSegmentSequenceNumber() + " : "); System.out.println(" old metadata : " + segmentCandidate.metadata); System.out.println(" new metadata : " + newMetadata); } } if (verbose) { System.out.println("-------------------------------------------"); } return true; } // // Commands // /** * Unbind the bookkeeper environment for a given distributedlog uri. * TODO: move unbind operation to namespace driver */ class UnbindCommand extends OptsCommand { Options options = new Options(); UnbindCommand() { super("unbind", "unbind the bookkeeper environment bound for a given distributedlog instance."); options.addOption("f", "force", false, "Force unbinding without prompt."); } @Override protected Options getOptions() { return options; } @Override protected String getUsage() { return "unbind [options] <distributedlog uri>"; } @Override protected int runCmd(CommandLine cmdline) throws Exception { String[] args = cmdline.getArgs(); if (args.length <= 0) { System.err.println("No distributedlog uri specified."); printUsage(); return -1; } boolean force = cmdline.hasOption("f"); URI uri = URI.create(args[0]); // resolving the uri to see if there is another bindings in this uri. ZooKeeperClient zkc = ZooKeeperClientBuilder.newBuilder().uri(uri).sessionTimeoutMs(10000).build(); BKDLConfig bkdlConfig; try { bkdlConfig = BKDLConfig.resolveDLConfig(zkc, uri); } catch (IOException ie) { bkdlConfig = null; } if (null == bkdlConfig) { System.out.println("No bookkeeper is bound to " + uri); return 0; } else { System.out.println("There is bookkeeper bound to " + uri + " : "); System.out.println(""); System.out.println(bkdlConfig.toString()); System.out.println(""); if (!force && !IOUtils.confirmPrompt("Do you want to unbind " + uri + " :\n")) { return 0; } } DLMetadata.unbind(uri); System.out.println("Unbound on " + uri + "."); return 0; } } /** * Bind Command to bind bookkeeper environment for a given distributed uri. * TODO: move bind to namespace driver */ class BindCommand extends OptsCommand { Options options = new Options(); BindCommand() { super("bind", "bind the bookkeeper environment settings for a given distributedlog instance."); options.addOption("l", "bkLedgers", true, "ZooKeeper ledgers path for bookkeeper instance."); options.addOption("s", "bkZkServers", true, "ZooKeeper servers used for bookkeeper for writers."); options.addOption("bkzr", "bkZkServersForReader", true, "ZooKeeper servers used for bookkeeper for readers."); options.addOption("dlzw", "dlZkServersForWriter", true, "ZooKeeper servers used for distributedlog for writers."); options.addOption("dlzr", "dlZkServersForReader", true, "ZooKeeper servers used for distributedlog for readers."); options.addOption("i", "sanityCheckTxnID", true, "Flag to sanity check highest txn id."); options.addOption("r", "encodeRegionID", true, "Flag to encode region id."); options.addOption("seqno", "firstLogSegmentSeqNo", true, "The first log segment sequence number to use after upgrade"); options.addOption("fns", "federatedNamespace", false, "Flag to turn a namespace to federated namespace"); options.addOption("f", "force", false, "Force binding without prompt."); options.addOption("c", "creation", false, "Whether is it a creation binding."); options.addOption("q", "query", false, "Query the bookkeeper bindings"); } @Override protected Options getOptions() { return options; } @Override protected String getUsage() { return "bind [options] <distributedlog uri>"; } @Override protected int runCmd(CommandLine cmdline) throws Exception { boolean isQuery = cmdline.hasOption("q"); if (!isQuery && (!cmdline.hasOption("l") || !cmdline.hasOption("s"))) { System.err .println("Error: Neither zkServers nor ledgersPath specified for bookkeeper environment."); printUsage(); return -1; } String[] args = cmdline.getArgs(); if (args.length <= 0) { System.err.println("No distributedlog uri specified."); printUsage(); return -1; } boolean force = cmdline.hasOption("f"); boolean creation = cmdline.hasOption("c"); String bkLedgersPath = cmdline.getOptionValue("l"); String bkZkServersForWriter = cmdline.getOptionValue("s"); boolean sanityCheckTxnID = !cmdline.hasOption("i") || Boolean.parseBoolean(cmdline.getOptionValue("i")); boolean encodeRegionID = cmdline.hasOption("r") && Boolean.parseBoolean(cmdline.getOptionValue("r")); String bkZkServersForReader; if (cmdline.hasOption("bkzr")) { bkZkServersForReader = cmdline.getOptionValue("bkzr"); } else { bkZkServersForReader = bkZkServersForWriter; } URI uri = URI.create(args[0]); String dlZkServersForWriter; String dlZkServersForReader; if (cmdline.hasOption("dlzw")) { dlZkServersForWriter = cmdline.getOptionValue("dlzw"); } else { dlZkServersForWriter = BKNamespaceDriver.getZKServersFromDLUri(uri); } if (cmdline.hasOption("dlzr")) { dlZkServersForReader = cmdline.getOptionValue("dlzr"); } else { dlZkServersForReader = dlZkServersForWriter; } // resolving the uri to see if there is another bindings in this uri. ZooKeeperClient zkc = ZooKeeperClientBuilder.newBuilder().uri(uri).zkAclId(null).sessionTimeoutMs(10000) .build(); try { BKDLConfig newBKDLConfig = new BKDLConfig(dlZkServersForWriter, dlZkServersForReader, bkZkServersForWriter, bkZkServersForReader, bkLedgersPath) .setSanityCheckTxnID(sanityCheckTxnID).setEncodeRegionID(encodeRegionID); if (cmdline.hasOption("seqno")) { newBKDLConfig = newBKDLConfig .setFirstLogSegmentSeqNo(Long.parseLong(cmdline.getOptionValue("seqno"))); } if (cmdline.hasOption("fns")) { newBKDLConfig = newBKDLConfig.setFederatedNamespace(true); } BKDLConfig bkdlConfig; try { bkdlConfig = BKDLConfig.resolveDLConfig(zkc, uri); } catch (IOException ie) { bkdlConfig = null; } if (null == bkdlConfig) { System.out.println("No bookkeeper is bound to " + uri); } else { System.out.println("There is bookkeeper bound to " + uri + " : "); System.out.println(""); System.out.println(bkdlConfig.toString()); System.out.println(""); if (!isQuery) { if (newBKDLConfig.equals(bkdlConfig)) { System.out.println("No bookkeeper binding needs to be updated. Quit."); return 0; } else if (!newBKDLConfig.isFederatedNamespace() && bkdlConfig.isFederatedNamespace()) { System.out.println("You can't turn a federated namespace back to non-federated."); return 0; } else { if (!force && !IOUtils.confirmPrompt("Do you want to bind " + uri + " with new bookkeeper instance :\n" + newBKDLConfig)) { return 0; } } } } if (isQuery) { System.out.println("Done."); return 0; } DLMetadata dlMetadata = DLMetadata.create(newBKDLConfig); if (creation) { try { dlMetadata.create(uri); System.out.println("Created binding on " + uri + "."); } catch (IOException ie) { System.err.println("Failed to create binding on " + uri + " : " + ie.getMessage()); } } else { try { dlMetadata.update(uri); System.out.println("Updated binding on " + uri + " : "); System.out.println(""); System.out.println(newBKDLConfig.toString()); System.out.println(""); } catch (IOException ie) { System.err.println("Failed to update binding on " + uri + " : " + ie.getMessage()); } } if (newBKDLConfig.isFederatedNamespace()) { try { FederatedZKLogMetadataStore.createFederatedNamespace(uri, zkc); } catch (KeeperException.NodeExistsException nee) { // ignore node exists exception } } return 0; } finally { zkc.close(); } } } static class RepairSeqNoCommand extends PerDLCommand { boolean dryrun = false; boolean verbose = false; final List<String> streams = new ArrayList<String>(); RepairSeqNoCommand() { super("repairseqno", "Repair a stream whose inprogress log segment has lower sequence number."); options.addOption("d", "dryrun", false, "Dry run without repairing"); options.addOption("l", "list", true, "List of streams to repair, separated by comma"); options.addOption("v", "verbose", false, "Print verbose messages"); } @Override protected void parseCommandLine(CommandLine cmdline) throws ParseException { super.parseCommandLine(cmdline); dryrun = cmdline.hasOption("d"); verbose = cmdline.hasOption("v"); force = !dryrun && cmdline.hasOption("f"); if (!cmdline.hasOption("l")) { throw new ParseException("No streams provided to repair"); } String streamsList = cmdline.getOptionValue("l"); Collections.addAll(streams, streamsList.split(",")); } @Override protected int runCmd() throws Exception { MetadataUpdater metadataUpdater = dryrun ? new DryrunLogSegmentMetadataStoreUpdater(getConf(), getLogSegmentMetadataStore()) : LogSegmentMetadataStoreUpdater.createMetadataUpdater(getConf(), getLogSegmentMetadataStore()); System.out.println("List of streams : "); System.out.println(streams); if (!IOUtils.confirmPrompt("Do you want to repair all these streams (Y/N):")) { return -1; } for (String stream : streams) { fixInprogressSegmentWithLowerSequenceNumber(getNamespace(), metadataUpdater, stream, verbose, !getForce()); } return 0; } @Override protected String getUsage() { return "repairseqno [options]"; } } static class DLCKCommand extends PerDLCommand { boolean dryrun = false; boolean verbose = false; int concurrency = 1; DLCKCommand() { super("dlck", "Check and repair a distributedlog namespace"); options.addOption("d", "dryrun", false, "Dry run without repairing"); options.addOption("v", "verbose", false, "Print verbose messages"); options.addOption("cy", "concurrency", true, "Concurrency on checking streams"); } @Override protected void parseCommandLine(CommandLine cmdline) throws ParseException { super.parseCommandLine(cmdline); dryrun = cmdline.hasOption("d"); verbose = cmdline.hasOption("v"); if (cmdline.hasOption("cy")) { try { concurrency = Integer.parseInt(cmdline.getOptionValue("cy")); } catch (NumberFormatException nfe) { throw new ParseException("Invalid concurrency value : " + cmdline.getOptionValue("cy")); } } } @Override protected int runCmd() throws Exception { MetadataUpdater metadataUpdater = dryrun ? new DryrunLogSegmentMetadataStoreUpdater(getConf(), getLogSegmentMetadataStore()) : LogSegmentMetadataStoreUpdater.createMetadataUpdater(getConf(), getLogSegmentMetadataStore()); OrderedScheduler scheduler = OrderedScheduler.newSchedulerBuilder().name("dlck-scheduler") .numThreads(Runtime.getRuntime().availableProcessors()).build(); ExecutorService executorService = Executors.newCachedThreadPool(); try { checkAndRepairDLNamespace(getUri(), getNamespace(), metadataUpdater, scheduler, verbose, !getForce(), concurrency); } finally { SchedulerUtils.shutdownScheduler(executorService, 5, TimeUnit.MINUTES); } return 0; } @Override protected String getUsage() { return "dlck [options]"; } } static class DeleteStreamACLCommand extends PerDLCommand { String stream = null; DeleteStreamACLCommand() { super("delete_stream_acl", "Delete ACL for a given stream"); options.addOption("s", "stream", true, "Stream to set ACL"); } @Override protected void parseCommandLine(CommandLine cmdline) throws ParseException { super.parseCommandLine(cmdline); if (!cmdline.hasOption("s")) { throw new ParseException("No stream to set ACL"); } stream = cmdline.getOptionValue("s"); } @Override protected int runCmd() throws Exception { BKDLConfig bkdlConfig = BKDLConfig.resolveDLConfig(getZooKeeperClient(), getUri()); if (null == bkdlConfig.getACLRootPath()) { // acl isn't enabled for this namespace. System.err.println("ACL isn't enabled for namespace " + getUri()); return -1; } String zkPath = getUri() + "/" + bkdlConfig.getACLRootPath() + "/" + stream; ZKAccessControl.delete(getZooKeeperClient(), zkPath); return 0; } @Override protected String getUsage() { return null; } } static class SetStreamACLCommand extends SetACLCommand { String stream = null; SetStreamACLCommand() { super("set_stream_acl", "Set Default ACL for a given stream"); options.addOption("s", "stream", true, "Stream to set ACL"); } @Override protected void parseCommandLine(CommandLine cmdline) throws ParseException { super.parseCommandLine(cmdline); if (!cmdline.hasOption("s")) { throw new ParseException("No stream to set ACL"); } stream = cmdline.getOptionValue("s"); } @Override protected String getZKPath(String zkRootPath) { return zkRootPath + "/" + stream; } @Override protected String getUsage() { return "set_stream_acl [options]"; } } static class SetDefaultACLCommand extends SetACLCommand { SetDefaultACLCommand() { super("set_default_acl", "Set Default ACL for a namespace"); } @Override protected String getZKPath(String zkRootPath) { return zkRootPath; } @Override protected String getUsage() { return "set_default_acl [options]"; } } abstract static class SetACLCommand extends PerDLCommand { boolean denyWrite = false; boolean denyTruncate = false; boolean denyDelete = false; boolean denyAcquire = false; boolean denyRelease = false; protected SetACLCommand(String name, String description) { super(name, description); options.addOption("dw", "deny-write", false, "Deny write/bulkWrite requests"); options.addOption("dt", "deny-truncate", false, "Deny truncate requests"); options.addOption("dd", "deny-delete", false, "Deny delete requests"); options.addOption("da", "deny-acquire", false, "Deny acquire requests"); options.addOption("dr", "deny-release", false, "Deny release requests"); } @Override protected void parseCommandLine(CommandLine cmdline) throws ParseException { super.parseCommandLine(cmdline); denyWrite = cmdline.hasOption("dw"); denyTruncate = cmdline.hasOption("dt"); denyDelete = cmdline.hasOption("dd"); denyAcquire = cmdline.hasOption("da"); denyRelease = cmdline.hasOption("dr"); } protected abstract String getZKPath(String zkRootPath); protected ZKAccessControl getZKAccessControl(ZooKeeperClient zkc, String zkPath) throws Exception { ZKAccessControl accessControl; try { accessControl = FutureUtils.result(ZKAccessControl.read(zkc, zkPath, null)); } catch (KeeperException.NoNodeException nne) { accessControl = new ZKAccessControl(new AccessControlEntry(), zkPath); } return accessControl; } protected void setZKAccessControl(ZooKeeperClient zkc, ZKAccessControl accessControl) throws Exception { String zkPath = accessControl.getZKPath(); if (null == zkc.get().exists(zkPath, false)) { accessControl.create(zkc); } else { accessControl.update(zkc); } } @Override protected int runCmd() throws Exception { BKDLConfig bkdlConfig = BKDLConfig.resolveDLConfig(getZooKeeperClient(), getUri()); if (null == bkdlConfig.getACLRootPath()) { // acl isn't enabled for this namespace. System.err.println("ACL isn't enabled for namespace " + getUri()); return -1; } String zkPath = getZKPath(getUri().getPath() + "/" + bkdlConfig.getACLRootPath()); ZKAccessControl accessControl = getZKAccessControl(getZooKeeperClient(), zkPath); AccessControlEntry acl = accessControl.getAccessControlEntry(); acl.setDenyWrite(denyWrite); acl.setDenyTruncate(denyTruncate); acl.setDenyDelete(denyDelete); acl.setDenyAcquire(denyAcquire); acl.setDenyRelease(denyRelease); setZKAccessControl(getZooKeeperClient(), accessControl); return 0; } } public DistributedLogAdmin() { super(); commands.clear(); addCommand(new HelpCommand()); addCommand(new BindCommand()); addCommand(new UnbindCommand()); addCommand(new RepairSeqNoCommand()); addCommand(new DLCKCommand()); addCommand(new SetDefaultACLCommand()); addCommand(new SetStreamACLCommand()); addCommand(new DeleteStreamACLCommand()); } @Override protected String getName() { return "dlog_admin"; } }