org.apache.zookeeper.ZooKeeper Maven / Gradle / Ivy
/**
* 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.zookeeper;
import org.apache.jute.Record;
import org.apache.yetus.audience.InterfaceAudience;
import org.apache.zookeeper.AsyncCallback.ACLCallback;
import org.apache.zookeeper.AsyncCallback.Children2Callback;
import org.apache.zookeeper.AsyncCallback.ChildrenCallback;
import org.apache.zookeeper.AsyncCallback.Create2Callback;
import org.apache.zookeeper.AsyncCallback.DataCallback;
import org.apache.zookeeper.AsyncCallback.MultiCallback;
import org.apache.zookeeper.AsyncCallback.StatCallback;
import org.apache.zookeeper.AsyncCallback.StringCallback;
import org.apache.zookeeper.AsyncCallback.VoidCallback;
import org.apache.zookeeper.KeeperException.Code;
import org.apache.zookeeper.KeeperException.NoWatcherException;
import org.apache.zookeeper.OpResult.ErrorResult;
import org.apache.zookeeper.Watcher.Event.EventType;
import org.apache.zookeeper.Watcher.WatcherType;
import org.apache.zookeeper.client.ConnectStringParser;
import org.apache.zookeeper.client.HostProvider;
import org.apache.zookeeper.client.StaticHostProvider;
import org.apache.zookeeper.client.ZKClientConfig;
import org.apache.zookeeper.client.ZooKeeperSaslClient;
import org.apache.zookeeper.common.PathUtils;
import org.apache.zookeeper.common.StringUtils;
import org.apache.zookeeper.data.ACL;
import org.apache.zookeeper.data.Stat;
import org.apache.zookeeper.proto.CheckWatchesRequest;
import org.apache.zookeeper.proto.Create2Response;
import org.apache.zookeeper.proto.CreateRequest;
import org.apache.zookeeper.proto.CreateResponse;
import org.apache.zookeeper.proto.CreateTTLRequest;
import org.apache.zookeeper.proto.DeleteRequest;
import org.apache.zookeeper.proto.ExistsRequest;
import org.apache.zookeeper.proto.GetACLRequest;
import org.apache.zookeeper.proto.GetACLResponse;
import org.apache.zookeeper.proto.GetChildren2Request;
import org.apache.zookeeper.proto.GetChildren2Response;
import org.apache.zookeeper.proto.GetChildrenRequest;
import org.apache.zookeeper.proto.GetChildrenResponse;
import org.apache.zookeeper.proto.GetDataRequest;
import org.apache.zookeeper.proto.GetDataResponse;
import org.apache.zookeeper.proto.ReconfigRequest;
import org.apache.zookeeper.proto.RemoveWatchesRequest;
import org.apache.zookeeper.proto.ReplyHeader;
import org.apache.zookeeper.proto.RequestHeader;
import org.apache.zookeeper.proto.SetACLRequest;
import org.apache.zookeeper.proto.SetACLResponse;
import org.apache.zookeeper.proto.SetDataRequest;
import org.apache.zookeeper.proto.SetDataResponse;
import org.apache.zookeeper.proto.SyncRequest;
import org.apache.zookeeper.proto.SyncResponse;
import org.apache.zookeeper.server.DataTree;
import org.apache.zookeeper.server.EphemeralType;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import java.io.IOException;
import java.lang.reflect.Constructor;
import java.net.InetSocketAddress;
import java.net.SocketAddress;
import java.util.ArrayList;
import java.util.Collection;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
/**
* This is the main class of ZooKeeper client library. To use a ZooKeeper
* service, an application must first instantiate an object of ZooKeeper class.
* All the iterations will be done by calling the methods of ZooKeeper class.
* The methods of this class are thread-safe unless otherwise noted.
*
* Once a connection to a server is established, a session ID is assigned to the
* client. The client will send heart beats to the server periodically to keep
* the session valid.
*
* The application can call ZooKeeper APIs through a client as long as the
* session ID of the client remains valid.
*
* If for some reason, the client fails to send heart beats to the server for a
* prolonged period of time (exceeding the sessionTimeout value, for instance),
* the server will expire the session, and the session ID will become invalid.
* The client object will no longer be usable. To make ZooKeeper API calls, the
* application must create a new client object.
*
* If the ZooKeeper server the client currently connects to fails or otherwise
* does not respond, the client will automatically try to connect to another
* server before its session ID expires. If successful, the application can
* continue to use the client.
*
* The ZooKeeper API methods are either synchronous or asynchronous. Synchronous
* methods blocks until the server has responded. Asynchronous methods just queue
* the request for sending and return immediately. They take a callback object that
* will be executed either on successful execution of the request or on error with
* an appropriate return code (rc) indicating the error.
*
* Some successful ZooKeeper API calls can leave watches on the "data nodes" in
* the ZooKeeper server. Other successful ZooKeeper API calls can trigger those
* watches. Once a watch is triggered, an event will be delivered to the client
* which left the watch at the first place. Each watch can be triggered only
* once. Thus, up to one event will be delivered to a client for every watch it
* leaves.
*
* A client needs an object of a class implementing Watcher interface for
* processing the events delivered to the client.
*
* When a client drops the current connection and re-connects to a server, all the
* existing watches are considered as being triggered but the undelivered events
* are lost. To emulate this, the client will generate a special event to tell
* the event handler a connection has been dropped. This special event has
* EventType None and KeeperState Disconnected.
*
*/
/*
* We suppress the "try" warning here because the close() method's signature
* allows it to throw InterruptedException which is strongly advised against
* by AutoCloseable (see: http://docs.oracle.com/javase/7/docs/api/java/lang/AutoCloseable.html#close()).
* close() will never throw an InterruptedException but the exception remains in the
* signature for backwards compatibility purposes.
*/
@SuppressWarnings("try")
@InterfaceAudience.Public
public class ZooKeeper implements AutoCloseable {
/**
* @deprecated Use {@link ZKClientConfig#ZOOKEEPER_CLIENT_CNXN_SOCKET}
* instead.
*/
@Deprecated
public static final String ZOOKEEPER_CLIENT_CNXN_SOCKET = "zookeeper.clientCnxnSocket";
// Setting this to "true" will enable encrypted client-server communication.
/**
* @deprecated Use {@link ZKClientConfig#SECURE_CLIENT}
* instead.
*/
@Deprecated
public static final String SECURE_CLIENT = "zookeeper.client.secure";
protected final ClientCnxn cnxn;
private static final Logger LOG;
static {
//Keep these two lines together to keep the initialization order explicit
LOG = LoggerFactory.getLogger(ZooKeeper.class);
Environment.logEnv("Client environment:", LOG);
}
protected final HostProvider hostProvider;
/**
* This function allows a client to update the connection string by providing
* a new comma separated list of host:port pairs, each corresponding to a
* ZooKeeper server.
*
* The function invokes a
* probabilistic load-balancing algorithm which may cause the client to disconnect from
* its current host with the goal to achieve expected uniform number of connections per server
* in the new list. In case the current host to which the client is connected is not in the new
* list this call will always cause the connection to be dropped. Otherwise, the decision
* is based on whether the number of servers has increased or decreased and by how much.
* For example, if the previous connection string contained 3 hosts and now the list contains
* these 3 hosts and 2 more hosts, 40% of clients connected to each of the 3 hosts will
* move to one of the new hosts in order to balance the load. The algorithm will disconnect
* from the current host with probability 0.4 and in this case cause the client to connect
* to one of the 2 new hosts, chosen at random.
*
* If the connection is dropped, the client moves to a special mode "reconfigMode" where he chooses
* a new server to connect to using the probabilistic algorithm. After finding a server,
* or exhausting all servers in the new list after trying all of them and failing to connect,
* the client moves back to the normal mode of operation where it will pick an arbitrary server
* from the connectString and attempt to connect to it. If establishment of
* the connection fails, another server in the connect string will be tried
* (the order is non-deterministic, as we random shuffle the list), until a
* connection is established. The client will continue attempts until the
* session is explicitly closed (or the session is expired by the server).
* @param connectString
* comma separated host:port pairs, each corresponding to a zk
* server. e.g. "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002"
* If the optional chroot suffix is used the example would look
* like: "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002/app/a"
* where the client would be rooted at "/app/a" and all paths
* would be relative to this root - ie getting/setting/etc...
* "/foo/bar" would result in operations being run on
* "/app/a/foo/bar" (from the server perspective).
*
* @throws IOException in cases of network failure
*/
public void updateServerList(String connectString) throws IOException {
ConnectStringParser connectStringParser = new ConnectStringParser(connectString);
Collection serverAddresses = connectStringParser.getServerAddresses();
ClientCnxnSocket clientCnxnSocket = cnxn.sendThread.getClientCnxnSocket();
InetSocketAddress currentHost = (InetSocketAddress) clientCnxnSocket.getRemoteSocketAddress();
boolean reconfigMode = hostProvider.updateServerList(serverAddresses, currentHost);
// cause disconnection - this will cause next to be called
// which will in turn call nextReconfigMode
if (reconfigMode) clientCnxnSocket.testableCloseSocket();
}
public ZooKeeperSaslClient getSaslClient() {
return cnxn.zooKeeperSaslClient;
}
protected final ZKWatchManager watchManager;
private final ZKClientConfig clientConfig;
public ZKClientConfig getClientConfig() {
return clientConfig;
}
protected List getDataWatches() {
synchronized(watchManager.dataWatches) {
List rc = new ArrayList(watchManager.dataWatches.keySet());
return rc;
}
}
protected List getExistWatches() {
synchronized(watchManager.existWatches) {
List rc = new ArrayList(watchManager.existWatches.keySet());
return rc;
}
}
protected List getChildWatches() {
synchronized(watchManager.childWatches) {
List rc = new ArrayList(watchManager.childWatches.keySet());
return rc;
}
}
/**
* Manage watchers & handle events generated by the ClientCnxn object.
*
* We are implementing this as a nested class of ZooKeeper so that
* the public methods will not be exposed as part of the ZooKeeper client
* API.
*/
static class ZKWatchManager implements ClientWatchManager {
private final Map> dataWatches =
new HashMap>();
private final Map> existWatches =
new HashMap>();
private final Map> childWatches =
new HashMap>();
private boolean disableAutoWatchReset;
ZKWatchManager(boolean disableAutoWatchReset) {
this.disableAutoWatchReset = disableAutoWatchReset;
}
protected volatile Watcher defaultWatcher;
final private void addTo(Set from, Set to) {
if (from != null) {
to.addAll(from);
}
}
public Map> removeWatcher(String clientPath,
Watcher watcher, WatcherType watcherType, boolean local, int rc)
throws KeeperException {
// Validate the provided znode path contains the given watcher of
// watcherType
containsWatcher(clientPath, watcher, watcherType);
Map> removedWatchers = new HashMap>();
HashSet childWatchersToRem = new HashSet();
removedWatchers
.put(EventType.ChildWatchRemoved, childWatchersToRem);
HashSet dataWatchersToRem = new HashSet();
removedWatchers.put(EventType.DataWatchRemoved, dataWatchersToRem);
boolean removedWatcher = false;
switch (watcherType) {
case Children: {
synchronized (childWatches) {
removedWatcher = removeWatches(childWatches, watcher,
clientPath, local, rc, childWatchersToRem);
}
break;
}
case Data: {
synchronized (dataWatches) {
removedWatcher = removeWatches(dataWatches, watcher,
clientPath, local, rc, dataWatchersToRem);
}
synchronized (existWatches) {
boolean removedDataWatcher = removeWatches(existWatches,
watcher, clientPath, local, rc, dataWatchersToRem);
removedWatcher |= removedDataWatcher;
}
break;
}
case Any: {
synchronized (childWatches) {
removedWatcher = removeWatches(childWatches, watcher,
clientPath, local, rc, childWatchersToRem);
}
synchronized (dataWatches) {
boolean removedDataWatcher = removeWatches(dataWatches,
watcher, clientPath, local, rc, dataWatchersToRem);
removedWatcher |= removedDataWatcher;
}
synchronized (existWatches) {
boolean removedDataWatcher = removeWatches(existWatches,
watcher, clientPath, local, rc, dataWatchersToRem);
removedWatcher |= removedDataWatcher;
}
}
}
// Watcher function doesn't exists for the specified params
if (!removedWatcher) {
throw new KeeperException.NoWatcherException(clientPath);
}
return removedWatchers;
}
private boolean contains(String path, Watcher watcherObj,
Map> pathVsWatchers) {
boolean watcherExists = true;
if (pathVsWatchers == null || pathVsWatchers.size() == 0) {
watcherExists = false;
} else {
Set watchers = pathVsWatchers.get(path);
if (watchers == null) {
watcherExists = false;
} else if (watcherObj == null) {
watcherExists = watchers.size() > 0;
} else {
watcherExists = watchers.contains(watcherObj);
}
}
return watcherExists;
}
/**
* Validate the provided znode path contains the given watcher and
* watcherType
*
* @param path
* - client path
* @param watcher
* - watcher object reference
* @param watcherType
* - type of the watcher
* @throws NoWatcherException
*/
void containsWatcher(String path, Watcher watcher,
WatcherType watcherType) throws NoWatcherException{
boolean containsWatcher = false;
switch (watcherType) {
case Children: {
synchronized (childWatches) {
containsWatcher = contains(path, watcher, childWatches);
}
break;
}
case Data: {
synchronized (dataWatches) {
containsWatcher = contains(path, watcher, dataWatches);
}
synchronized (existWatches) {
boolean contains_temp = contains(path, watcher,
existWatches);
containsWatcher |= contains_temp;
}
break;
}
case Any: {
synchronized (childWatches) {
containsWatcher = contains(path, watcher, childWatches);
}
synchronized (dataWatches) {
boolean contains_temp = contains(path, watcher, dataWatches);
containsWatcher |= contains_temp;
}
synchronized (existWatches) {
boolean contains_temp = contains(path, watcher,
existWatches);
containsWatcher |= contains_temp;
}
}
}
// Watcher function doesn't exists for the specified params
if (!containsWatcher) {
throw new KeeperException.NoWatcherException(path);
}
}
protected boolean removeWatches(Map> pathVsWatcher,
Watcher watcher, String path, boolean local, int rc,
Set removedWatchers) throws KeeperException {
if (!local && rc != Code.OK.intValue()) {
throw KeeperException
.create(KeeperException.Code.get(rc), path);
}
boolean success = false;
// When local flag is true, remove watchers for the given path
// irrespective of rc. Otherwise shouldn't remove watchers locally
// when sees failure from server.
if (rc == Code.OK.intValue() || (local && rc != Code.OK.intValue())) {
// Remove all the watchers for the given path
if (watcher == null) {
Set pathWatchers = pathVsWatcher.remove(path);
if (pathWatchers != null) {
// found path watchers
removedWatchers.addAll(pathWatchers);
success = true;
}
} else {
Set watchers = pathVsWatcher.get(path);
if (watchers != null) {
if (watchers.remove(watcher)) {
// found path watcher
removedWatchers.add(watcher);
// cleanup
if (watchers.size() <= 0) {
pathVsWatcher.remove(path);
}
success = true;
}
}
}
}
return success;
}
/* (non-Javadoc)
* @see org.apache.zookeeper.ClientWatchManager#materialize(Event.KeeperState,
* Event.EventType, java.lang.String)
*/
@Override
public Set materialize(Watcher.Event.KeeperState state,
Watcher.Event.EventType type,
String clientPath)
{
Set result = new HashSet();
switch (type) {
case None:
result.add(defaultWatcher);
boolean clear = disableAutoWatchReset && state != Watcher.Event.KeeperState.SyncConnected;
synchronized(dataWatches) {
for(Set ws: dataWatches.values()) {
result.addAll(ws);
}
if (clear) {
dataWatches.clear();
}
}
synchronized(existWatches) {
for(Set ws: existWatches.values()) {
result.addAll(ws);
}
if (clear) {
existWatches.clear();
}
}
synchronized(childWatches) {
for(Set ws: childWatches.values()) {
result.addAll(ws);
}
if (clear) {
childWatches.clear();
}
}
return result;
case NodeDataChanged:
case NodeCreated:
synchronized (dataWatches) {
addTo(dataWatches.remove(clientPath), result);
}
synchronized (existWatches) {
addTo(existWatches.remove(clientPath), result);
}
break;
case NodeChildrenChanged:
synchronized (childWatches) {
addTo(childWatches.remove(clientPath), result);
}
break;
case NodeDeleted:
synchronized (dataWatches) {
addTo(dataWatches.remove(clientPath), result);
}
// XXX This shouldn't be needed, but just in case
synchronized (existWatches) {
Set list = existWatches.remove(clientPath);
if (list != null) {
addTo(list, result);
LOG.warn("We are triggering an exists watch for delete! Shouldn't happen!");
}
}
synchronized (childWatches) {
addTo(childWatches.remove(clientPath), result);
}
break;
default:
String msg = "Unhandled watch event type " + type
+ " with state " + state + " on path " + clientPath;
LOG.error(msg);
throw new RuntimeException(msg);
}
return result;
}
}
/**
* Register a watcher for a particular path.
*/
public abstract class WatchRegistration {
private Watcher watcher;
private String clientPath;
public WatchRegistration(Watcher watcher, String clientPath)
{
this.watcher = watcher;
this.clientPath = clientPath;
}
abstract protected Map> getWatches(int rc);
/**
* Register the watcher with the set of watches on path.
* @param rc the result code of the operation that attempted to
* add the watch on the path.
*/
public void register(int rc) {
if (shouldAddWatch(rc)) {
Map> watches = getWatches(rc);
synchronized(watches) {
Set watchers = watches.get(clientPath);
if (watchers == null) {
watchers = new HashSet();
watches.put(clientPath, watchers);
}
watchers.add(watcher);
}
}
}
/**
* Determine whether the watch should be added based on return code.
* @param rc the result code of the operation that attempted to add the
* watch on the node
* @return true if the watch should be added, otw false
*/
protected boolean shouldAddWatch(int rc) {
return rc == 0;
}
}
/** Handle the special case of exists watches - they add a watcher
* even in the case where NONODE result code is returned.
*/
class ExistsWatchRegistration extends WatchRegistration {
public ExistsWatchRegistration(Watcher watcher, String clientPath) {
super(watcher, clientPath);
}
@Override
protected Map> getWatches(int rc) {
return rc == 0 ? watchManager.dataWatches : watchManager.existWatches;
}
@Override
protected boolean shouldAddWatch(int rc) {
return rc == 0 || rc == KeeperException.Code.NONODE.intValue();
}
}
class DataWatchRegistration extends WatchRegistration {
public DataWatchRegistration(Watcher watcher, String clientPath) {
super(watcher, clientPath);
}
@Override
protected Map> getWatches(int rc) {
return watchManager.dataWatches;
}
}
class ChildWatchRegistration extends WatchRegistration {
public ChildWatchRegistration(Watcher watcher, String clientPath) {
super(watcher, clientPath);
}
@Override
protected Map> getWatches(int rc) {
return watchManager.childWatches;
}
}
@InterfaceAudience.Public
public enum States {
CONNECTING, ASSOCIATING, CONNECTED, CONNECTEDREADONLY,
CLOSED, AUTH_FAILED, NOT_CONNECTED;
public boolean isAlive() {
return this != CLOSED && this != AUTH_FAILED;
}
/**
* Returns whether we are connected to a server (which
* could possibly be read-only, if this client is allowed
* to go to read-only mode)
* */
public boolean isConnected() {
return this == CONNECTED || this == CONNECTEDREADONLY;
}
}
/**
* To create a ZooKeeper client object, the application needs to pass a
* connection string containing a comma separated list of host:port pairs,
* each corresponding to a ZooKeeper server.
*
* Session establishment is asynchronous. This constructor will initiate
* connection to the server and return immediately - potentially (usually)
* before the session is fully established. The watcher argument specifies
* the watcher that will be notified of any changes in state. This
* notification can come at any point before or after the constructor call
* has returned.
*
* The instantiated ZooKeeper client object will pick an arbitrary server
* from the connectString and attempt to connect to it. If establishment of
* the connection fails, another server in the connect string will be tried
* (the order is non-deterministic, as we random shuffle the list), until a
* connection is established. The client will continue attempts until the
* session is explicitly closed.
*
* Added in 3.2.0: An optional "chroot" suffix may also be appended to the
* connection string. This will run the client commands while interpreting
* all paths relative to this root (similar to the unix chroot command).
*
* @param connectString
* comma separated host:port pairs, each corresponding to a zk
* server. e.g. "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002" If
* the optional chroot suffix is used the example would look
* like: "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002/app/a"
* where the client would be rooted at "/app/a" and all paths
* would be relative to this root - ie getting/setting/etc...
* "/foo/bar" would result in operations being run on
* "/app/a/foo/bar" (from the server perspective).
* @param sessionTimeout
* session timeout in milliseconds
* @param watcher
* a watcher object which will be notified of state changes, may
* also be notified for node events
*
* @throws IOException
* in cases of network failure
* @throws IllegalArgumentException
* if an invalid chroot path is specified
*/
public ZooKeeper(String connectString, int sessionTimeout, Watcher watcher)
throws IOException
{
this(connectString, sessionTimeout, watcher, false);
}
/**
* To create a ZooKeeper client object, the application needs to pass a
* connection string containing a comma separated list of host:port pairs,
* each corresponding to a ZooKeeper server.
*
* Session establishment is asynchronous. This constructor will initiate
* connection to the server and return immediately - potentially (usually)
* before the session is fully established. The watcher argument specifies
* the watcher that will be notified of any changes in state. This
* notification can come at any point before or after the constructor call
* has returned.
*
* The instantiated ZooKeeper client object will pick an arbitrary server
* from the connectString and attempt to connect to it. If establishment of
* the connection fails, another server in the connect string will be tried
* (the order is non-deterministic, as we random shuffle the list), until a
* connection is established. The client will continue attempts until the
* session is explicitly closed.
*
* Added in 3.2.0: An optional "chroot" suffix may also be appended to the
* connection string. This will run the client commands while interpreting
* all paths relative to this root (similar to the unix chroot command).
*
* @param connectString
* comma separated host:port pairs, each corresponding to a zk
* server. e.g. "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002" If
* the optional chroot suffix is used the example would look
* like: "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002/app/a"
* where the client would be rooted at "/app/a" and all paths
* would be relative to this root - ie getting/setting/etc...
* "/foo/bar" would result in operations being run on
* "/app/a/foo/bar" (from the server perspective).
* @param sessionTimeout
* session timeout in milliseconds
* @param watcher
* a watcher object which will be notified of state changes, may
* also be notified for node events
* @param conf
* (added in 3.5.2) passing this conf object gives each client the flexibility of
* configuring properties differently compared to other instances
* @throws IOException
* in cases of network failure
* @throws IllegalArgumentException
* if an invalid chroot path is specified
*/
public ZooKeeper(String connectString, int sessionTimeout, Watcher watcher,
ZKClientConfig conf) throws IOException {
this(connectString, sessionTimeout, watcher, false, conf);
}
/**
* To create a ZooKeeper client object, the application needs to pass a
* connection string containing a comma separated list of host:port pairs,
* each corresponding to a ZooKeeper server.
*
* Session establishment is asynchronous. This constructor will initiate
* connection to the server and return immediately - potentially (usually)
* before the session is fully established. The watcher argument specifies
* the watcher that will be notified of any changes in state. This
* notification can come at any point before or after the constructor call
* has returned.
*
* The instantiated ZooKeeper client object will pick an arbitrary server
* from the connectString and attempt to connect to it. If establishment of
* the connection fails, another server in the connect string will be tried
* (the order is non-deterministic, as we random shuffle the list), until a
* connection is established. The client will continue attempts until the
* session is explicitly closed.
*
* Added in 3.2.0: An optional "chroot" suffix may also be appended to the
* connection string. This will run the client commands while interpreting
* all paths relative to this root (similar to the unix chroot command).
*
* For backward compatibility, there is another version
* {@link #ZooKeeper(String, int, Watcher, boolean)} which uses
* default {@link StaticHostProvider}
*
* @param connectString
* comma separated host:port pairs, each corresponding to a zk
* server. e.g. "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002" If
* the optional chroot suffix is used the example would look
* like: "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002/app/a"
* where the client would be rooted at "/app/a" and all paths
* would be relative to this root - ie getting/setting/etc...
* "/foo/bar" would result in operations being run on
* "/app/a/foo/bar" (from the server perspective).
* @param sessionTimeout
* session timeout in milliseconds
* @param watcher
* a watcher object which will be notified of state changes, may
* also be notified for node events
* @param canBeReadOnly
* (added in 3.4) whether the created client is allowed to go to
* read-only mode in case of partitioning. Read-only mode
* basically means that if the client can't find any majority
* servers but there's partitioned server it could reach, it
* connects to one in read-only mode, i.e. read requests are
* allowed while write requests are not. It continues seeking for
* majority in the background.
* @param aHostProvider
* use this as HostProvider to enable custom behaviour.
*
* @throws IOException
* in cases of network failure
* @throws IllegalArgumentException
* if an invalid chroot path is specified
*/
public ZooKeeper(String connectString, int sessionTimeout, Watcher watcher,
boolean canBeReadOnly, HostProvider aHostProvider)
throws IOException {
this(connectString, sessionTimeout, watcher, canBeReadOnly,
aHostProvider, null);
}
/**
* To create a ZooKeeper client object, the application needs to pass a
* connection string containing a comma separated list of host:port pairs,
* each corresponding to a ZooKeeper server.
*
* Session establishment is asynchronous. This constructor will initiate
* connection to the server and return immediately - potentially (usually)
* before the session is fully established. The watcher argument specifies
* the watcher that will be notified of any changes in state. This
* notification can come at any point before or after the constructor call
* has returned.
*
* The instantiated ZooKeeper client object will pick an arbitrary server
* from the connectString and attempt to connect to it. If establishment of
* the connection fails, another server in the connect string will be tried
* (the order is non-deterministic, as we random shuffle the list), until a
* connection is established. The client will continue attempts until the
* session is explicitly closed.
*
* Added in 3.2.0: An optional "chroot" suffix may also be appended to the
* connection string. This will run the client commands while interpreting
* all paths relative to this root (similar to the unix chroot command).
*
* For backward compatibility, there is another version
* {@link #ZooKeeper(String, int, Watcher, boolean)} which uses default
* {@link StaticHostProvider}
*
* @param connectString
* comma separated host:port pairs, each corresponding to a zk
* server. e.g. "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002" If
* the optional chroot suffix is used the example would look
* like: "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002/app/a"
* where the client would be rooted at "/app/a" and all paths
* would be relative to this root - ie getting/setting/etc...
* "/foo/bar" would result in operations being run on
* "/app/a/foo/bar" (from the server perspective).
* @param sessionTimeout
* session timeout in milliseconds
* @param watcher
* a watcher object which will be notified of state changes, may
* also be notified for node events
* @param canBeReadOnly
* (added in 3.4) whether the created client is allowed to go to
* read-only mode in case of partitioning. Read-only mode
* basically means that if the client can't find any majority
* servers but there's partitioned server it could reach, it
* connects to one in read-only mode, i.e. read requests are
* allowed while write requests are not. It continues seeking for
* majority in the background.
* @param aHostProvider
* use this as HostProvider to enable custom behaviour.
* @param clientConfig
* (added in 3.5.2) passing this conf object gives each client the flexibility of
* configuring properties differently compared to other instances
* @throws IOException
* in cases of network failure
* @throws IllegalArgumentException
* if an invalid chroot path is specified
*/
public ZooKeeper(String connectString, int sessionTimeout, Watcher watcher,
boolean canBeReadOnly, HostProvider aHostProvider,
ZKClientConfig clientConfig) throws IOException {
LOG.info("Initiating client connection, connectString=" + connectString
+ " sessionTimeout=" + sessionTimeout + " watcher=" + watcher);
if (clientConfig == null) {
clientConfig = new ZKClientConfig();
}
this.clientConfig = clientConfig;
watchManager = defaultWatchManager();
watchManager.defaultWatcher = watcher;
ConnectStringParser connectStringParser = new ConnectStringParser(
connectString);
hostProvider = aHostProvider;
cnxn = createConnection(connectStringParser.getChrootPath(),
hostProvider, sessionTimeout, this, watchManager,
getClientCnxnSocket(), canBeReadOnly);
cnxn.start();
}
// @VisibleForTesting
protected ClientCnxn createConnection(String chrootPath,
HostProvider hostProvider, int sessionTimeout, ZooKeeper zooKeeper,
ClientWatchManager watcher, ClientCnxnSocket clientCnxnSocket,
boolean canBeReadOnly) throws IOException {
return new ClientCnxn(chrootPath, hostProvider, sessionTimeout, this,
watchManager, clientCnxnSocket, canBeReadOnly);
}
/**
* To create a ZooKeeper client object, the application needs to pass a
* connection string containing a comma separated list of host:port pairs,
* each corresponding to a ZooKeeper server.
*
* Session establishment is asynchronous. This constructor will initiate
* connection to the server and return immediately - potentially (usually)
* before the session is fully established. The watcher argument specifies
* the watcher that will be notified of any changes in state. This
* notification can come at any point before or after the constructor call
* has returned.
*
* The instantiated ZooKeeper client object will pick an arbitrary server
* from the connectString and attempt to connect to it. If establishment of
* the connection fails, another server in the connect string will be tried
* (the order is non-deterministic, as we random shuffle the list), until a
* connection is established. The client will continue attempts until the
* session is explicitly closed.
*
* Added in 3.2.0: An optional "chroot" suffix may also be appended to the
* connection string. This will run the client commands while interpreting
* all paths relative to this root (similar to the unix chroot command).
*
*
* @param connectString
* comma separated host:port pairs, each corresponding to a zk
* server. e.g. "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002" If
* the optional chroot suffix is used the example would look
* like: "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002/app/a"
* where the client would be rooted at "/app/a" and all paths
* would be relative to this root - ie getting/setting/etc...
* "/foo/bar" would result in operations being run on
* "/app/a/foo/bar" (from the server perspective).
* @param sessionTimeout
* session timeout in milliseconds
* @param watcher
* a watcher object which will be notified of state changes, may
* also be notified for node events
* @param canBeReadOnly
* (added in 3.4) whether the created client is allowed to go to
* read-only mode in case of partitioning. Read-only mode
* basically means that if the client can't find any majority
* servers but there's partitioned server it could reach, it
* connects to one in read-only mode, i.e. read requests are
* allowed while write requests are not. It continues seeking for
* majority in the background.
*
* @throws IOException
* in cases of network failure
* @throws IllegalArgumentException
* if an invalid chroot path is specified
*/
public ZooKeeper(String connectString, int sessionTimeout, Watcher watcher,
boolean canBeReadOnly) throws IOException {
this(connectString, sessionTimeout, watcher, canBeReadOnly,
createDefaultHostProvider(connectString));
}
/**
* To create a ZooKeeper client object, the application needs to pass a
* connection string containing a comma separated list of host:port pairs,
* each corresponding to a ZooKeeper server.
*
* Session establishment is asynchronous. This constructor will initiate
* connection to the server and return immediately - potentially (usually)
* before the session is fully established. The watcher argument specifies
* the watcher that will be notified of any changes in state. This
* notification can come at any point before or after the constructor call
* has returned.
*
* The instantiated ZooKeeper client object will pick an arbitrary server
* from the connectString and attempt to connect to it. If establishment of
* the connection fails, another server in the connect string will be tried
* (the order is non-deterministic, as we random shuffle the list), until a
* connection is established. The client will continue attempts until the
* session is explicitly closed.
*
* Added in 3.2.0: An optional "chroot" suffix may also be appended to the
* connection string. This will run the client commands while interpreting
* all paths relative to this root (similar to the unix chroot command).
*
*
* @param connectString
* comma separated host:port pairs, each corresponding to a zk
* server. e.g. "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002" If
* the optional chroot suffix is used the example would look
* like: "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002/app/a"
* where the client would be rooted at "/app/a" and all paths
* would be relative to this root - ie getting/setting/etc...
* "/foo/bar" would result in operations being run on
* "/app/a/foo/bar" (from the server perspective).
* @param sessionTimeout
* session timeout in milliseconds
* @param watcher
* a watcher object which will be notified of state changes, may
* also be notified for node events
* @param canBeReadOnly
* (added in 3.4) whether the created client is allowed to go to
* read-only mode in case of partitioning. Read-only mode
* basically means that if the client can't find any majority
* servers but there's partitioned server it could reach, it
* connects to one in read-only mode, i.e. read requests are
* allowed while write requests are not. It continues seeking for
* majority in the background.
* @param conf
* (added in 3.5.2) passing this conf object gives each client the flexibility of
* configuring properties differently compared to other instances
* @throws IOException
* in cases of network failure
* @throws IllegalArgumentException
* if an invalid chroot path is specified
*/
public ZooKeeper(String connectString, int sessionTimeout, Watcher watcher,
boolean canBeReadOnly, ZKClientConfig conf) throws IOException {
this(connectString, sessionTimeout, watcher, canBeReadOnly,
createDefaultHostProvider(connectString), conf);
}
/**
* To create a ZooKeeper client object, the application needs to pass a
* connection string containing a comma separated list of host:port pairs,
* each corresponding to a ZooKeeper server.
*
* Session establishment is asynchronous. This constructor will initiate
* connection to the server and return immediately - potentially (usually)
* before the session is fully established. The watcher argument specifies
* the watcher that will be notified of any changes in state. This
* notification can come at any point before or after the constructor call
* has returned.
*
* The instantiated ZooKeeper client object will pick an arbitrary server
* from the connectString and attempt to connect to it. If establishment of
* the connection fails, another server in the connect string will be tried
* (the order is non-deterministic, as we random shuffle the list), until a
* connection is established. The client will continue attempts until the
* session is explicitly closed (or the session is expired by the server).
*
* Added in 3.2.0: An optional "chroot" suffix may also be appended to the
* connection string. This will run the client commands while interpreting
* all paths relative to this root (similar to the unix chroot command).
*
* Use {@link #getSessionId} and {@link #getSessionPasswd} on an established
* client connection, these values must be passed as sessionId and
* sessionPasswd respectively if reconnecting. Otherwise, if not
* reconnecting, use the other constructor which does not require these
* parameters.
*
* @param connectString
* comma separated host:port pairs, each corresponding to a zk
* server. e.g. "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002"
* If the optional chroot suffix is used the example would look
* like: "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002/app/a"
* where the client would be rooted at "/app/a" and all paths
* would be relative to this root - ie getting/setting/etc...
* "/foo/bar" would result in operations being run on
* "/app/a/foo/bar" (from the server perspective).
* @param sessionTimeout
* session timeout in milliseconds
* @param watcher
* a watcher object which will be notified of state changes, may
* also be notified for node events
* @param sessionId
* specific session id to use if reconnecting
* @param sessionPasswd
* password for this session
*
* @throws IOException in cases of network failure
* @throws IllegalArgumentException if an invalid chroot path is specified
* @throws IllegalArgumentException for an invalid list of ZooKeeper hosts
*/
public ZooKeeper(String connectString, int sessionTimeout, Watcher watcher,
long sessionId, byte[] sessionPasswd)
throws IOException
{
this(connectString, sessionTimeout, watcher, sessionId, sessionPasswd, false);
}
/**
* To create a ZooKeeper client object, the application needs to pass a
* connection string containing a comma separated list of host:port pairs,
* each corresponding to a ZooKeeper server.
*
* Session establishment is asynchronous. This constructor will initiate
* connection to the server and return immediately - potentially (usually)
* before the session is fully established. The watcher argument specifies
* the watcher that will be notified of any changes in state. This
* notification can come at any point before or after the constructor call
* has returned.
*
* The instantiated ZooKeeper client object will pick an arbitrary server
* from the connectString and attempt to connect to it. If establishment of
* the connection fails, another server in the connect string will be tried
* (the order is non-deterministic, as we random shuffle the list), until a
* connection is established. The client will continue attempts until the
* session is explicitly closed (or the session is expired by the server).
*
* Added in 3.2.0: An optional "chroot" suffix may also be appended to the
* connection string. This will run the client commands while interpreting
* all paths relative to this root (similar to the unix chroot command).
*
* Use {@link #getSessionId} and {@link #getSessionPasswd} on an established
* client connection, these values must be passed as sessionId and
* sessionPasswd respectively if reconnecting. Otherwise, if not
* reconnecting, use the other constructor which does not require these
* parameters.
*
* For backward compatibility, there is another version
* {@link #ZooKeeper(String, int, Watcher, long, byte[], boolean)} which uses
* default {@link StaticHostProvider}
*
* @param connectString
* comma separated host:port pairs, each corresponding to a zk
* server. e.g. "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002"
* If the optional chroot suffix is used the example would look
* like: "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002/app/a"
* where the client would be rooted at "/app/a" and all paths
* would be relative to this root - ie getting/setting/etc...
* "/foo/bar" would result in operations being run on
* "/app/a/foo/bar" (from the server perspective).
* @param sessionTimeout
* session timeout in milliseconds
* @param watcher
* a watcher object which will be notified of state changes, may
* also be notified for node events
* @param sessionId
* specific session id to use if reconnecting
* @param sessionPasswd
* password for this session
* @param canBeReadOnly
* (added in 3.4) whether the created client is allowed to go to
* read-only mode in case of partitioning. Read-only mode
* basically means that if the client can't find any majority
* servers but there's partitioned server it could reach, it
* connects to one in read-only mode, i.e. read requests are
* allowed while write requests are not. It continues seeking for
* majority in the background.
* @param aHostProvider
* use this as HostProvider to enable custom behaviour.
* @throws IOException in cases of network failure
* @throws IllegalArgumentException if an invalid chroot path is specified
*/
public ZooKeeper(String connectString, int sessionTimeout, Watcher watcher,
long sessionId, byte[] sessionPasswd, boolean canBeReadOnly,
HostProvider aHostProvider) throws IOException {
this(connectString, sessionTimeout, watcher, sessionId, sessionPasswd,
canBeReadOnly, aHostProvider, null);
}
/**
* To create a ZooKeeper client object, the application needs to pass a
* connection string containing a comma separated list of host:port pairs,
* each corresponding to a ZooKeeper server.
*
* Session establishment is asynchronous. This constructor will initiate
* connection to the server and return immediately - potentially (usually)
* before the session is fully established. The watcher argument specifies
* the watcher that will be notified of any changes in state. This
* notification can come at any point before or after the constructor call
* has returned.
*
* The instantiated ZooKeeper client object will pick an arbitrary server
* from the connectString and attempt to connect to it. If establishment of
* the connection fails, another server in the connect string will be tried
* (the order is non-deterministic, as we random shuffle the list), until a
* connection is established. The client will continue attempts until the
* session is explicitly closed (or the session is expired by the server).
*
* Added in 3.2.0: An optional "chroot" suffix may also be appended to the
* connection string. This will run the client commands while interpreting
* all paths relative to this root (similar to the unix chroot command).
*
* Use {@link #getSessionId} and {@link #getSessionPasswd} on an established
* client connection, these values must be passed as sessionId and
* sessionPasswd respectively if reconnecting. Otherwise, if not
* reconnecting, use the other constructor which does not require these
* parameters.
*
* For backward compatibility, there is another version
* {@link #ZooKeeper(String, int, Watcher, long, byte[], boolean)} which uses
* default {@link StaticHostProvider}
*
* @param connectString
* comma separated host:port pairs, each corresponding to a zk
* server. e.g. "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002"
* If the optional chroot suffix is used the example would look
* like: "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002/app/a"
* where the client would be rooted at "/app/a" and all paths
* would be relative to this root - ie getting/setting/etc...
* "/foo/bar" would result in operations being run on
* "/app/a/foo/bar" (from the server perspective).
* @param sessionTimeout
* session timeout in milliseconds
* @param watcher
* a watcher object which will be notified of state changes, may
* also be notified for node events
* @param sessionId
* specific session id to use if reconnecting
* @param sessionPasswd
* password for this session
* @param canBeReadOnly
* (added in 3.4) whether the created client is allowed to go to
* read-only mode in case of partitioning. Read-only mode
* basically means that if the client can't find any majority
* servers but there's partitioned server it could reach, it
* connects to one in read-only mode, i.e. read requests are
* allowed while write requests are not. It continues seeking for
* majority in the background.
* @param aHostProvider
* use this as HostProvider to enable custom behaviour.
* @param clientConfig
* (added in 3.5.2) passing this conf object gives each client the flexibility of
* configuring properties differently compared to other instances
* @throws IOException in cases of network failure
* @throws IllegalArgumentException if an invalid chroot path is specified
*
* @since 3.5.5
*/
public ZooKeeper(String connectString, int sessionTimeout, Watcher watcher,
long sessionId, byte[] sessionPasswd, boolean canBeReadOnly,
HostProvider aHostProvider, ZKClientConfig clientConfig) throws IOException {
LOG.info("Initiating client connection, connectString=" + connectString
+ " sessionTimeout=" + sessionTimeout
+ " watcher=" + watcher
+ " sessionId=" + Long.toHexString(sessionId)
+ " sessionPasswd="
+ (sessionPasswd == null ? "" : ""));
if (clientConfig == null) {
clientConfig = new ZKClientConfig();
}
this.clientConfig = clientConfig;
watchManager = defaultWatchManager();
watchManager.defaultWatcher = watcher;
ConnectStringParser connectStringParser = new ConnectStringParser(
connectString);
hostProvider = aHostProvider;
cnxn = new ClientCnxn(connectStringParser.getChrootPath(),
hostProvider, sessionTimeout, this, watchManager,
getClientCnxnSocket(), sessionId, sessionPasswd, canBeReadOnly);
cnxn.seenRwServerBefore = true; // since user has provided sessionId
cnxn.start();
}
/**
* To create a ZooKeeper client object, the application needs to pass a
* connection string containing a comma separated list of host:port pairs,
* each corresponding to a ZooKeeper server.
*
* Session establishment is asynchronous. This constructor will initiate
* connection to the server and return immediately - potentially (usually)
* before the session is fully established. The watcher argument specifies
* the watcher that will be notified of any changes in state. This
* notification can come at any point before or after the constructor call
* has returned.
*
* The instantiated ZooKeeper client object will pick an arbitrary server
* from the connectString and attempt to connect to it. If establishment of
* the connection fails, another server in the connect string will be tried
* (the order is non-deterministic, as we random shuffle the list), until a
* connection is established. The client will continue attempts until the
* session is explicitly closed (or the session is expired by the server).
*
* Added in 3.2.0: An optional "chroot" suffix may also be appended to the
* connection string. This will run the client commands while interpreting
* all paths relative to this root (similar to the unix chroot command).
*
* Use {@link #getSessionId} and {@link #getSessionPasswd} on an established
* client connection, these values must be passed as sessionId and
* sessionPasswd respectively if reconnecting. Otherwise, if not
* reconnecting, use the other constructor which does not require these
* parameters.
*
* This constructor uses a StaticHostProvider; there is another one
* to enable custom behaviour.
*
* @param connectString
* comma separated host:port pairs, each corresponding to a zk
* server. e.g. "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002"
* If the optional chroot suffix is used the example would look
* like: "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002/app/a"
* where the client would be rooted at "/app/a" and all paths
* would be relative to this root - ie getting/setting/etc...
* "/foo/bar" would result in operations being run on
* "/app/a/foo/bar" (from the server perspective).
* @param sessionTimeout
* session timeout in milliseconds
* @param watcher
* a watcher object which will be notified of state changes, may
* also be notified for node events
* @param sessionId
* specific session id to use if reconnecting
* @param sessionPasswd
* password for this session
* @param canBeReadOnly
* (added in 3.4) whether the created client is allowed to go to
* read-only mode in case of partitioning. Read-only mode
* basically means that if the client can't find any majority
* servers but there's partitioned server it could reach, it
* connects to one in read-only mode, i.e. read requests are
* allowed while write requests are not. It continues seeking for
* majority in the background.
* @throws IOException in cases of network failure
* @throws IllegalArgumentException if an invalid chroot path is specified
*/
public ZooKeeper(String connectString, int sessionTimeout, Watcher watcher,
long sessionId, byte[] sessionPasswd, boolean canBeReadOnly)
throws IOException {
this(connectString, sessionTimeout, watcher, sessionId, sessionPasswd,
canBeReadOnly, createDefaultHostProvider(connectString));
}
// default hostprovider
private static HostProvider createDefaultHostProvider(String connectString) {
return new StaticHostProvider(
new ConnectStringParser(connectString).getServerAddresses());
}
// VisibleForTesting
public Testable getTestable() {
return new ZooKeeperTestable(this, cnxn);
}
/* Useful for testing watch handling behavior */
protected ZKWatchManager defaultWatchManager() {
return new ZKWatchManager(getClientConfig().getBoolean(ZKClientConfig.DISABLE_AUTO_WATCH_RESET));
}
/**
* The session id for this ZooKeeper client instance. The value returned is
* not valid until the client connects to a server and may change after a
* re-connect.
*
* This method is NOT thread safe
*
* @return current session id
*/
public long getSessionId() {
return cnxn.getSessionId();
}
/**
* The session password for this ZooKeeper client instance. The value
* returned is not valid until the client connects to a server and may
* change after a re-connect.
*
* This method is NOT thread safe
*
* @return current session password
*/
public byte[] getSessionPasswd() {
return cnxn.getSessionPasswd();
}
/**
* The negotiated session timeout for this ZooKeeper client instance. The
* value returned is not valid until the client connects to a server and
* may change after a re-connect.
*
* This method is NOT thread safe
*
* @return current session timeout
*/
public int getSessionTimeout() {
return cnxn.getSessionTimeout();
}
/**
* Add the specified scheme:auth information to this connection.
*
* This method is NOT thread safe
*
* @param scheme
* @param auth
*/
public void addAuthInfo(String scheme, byte auth[]) {
cnxn.addAuthInfo(scheme, auth);
}
/**
* Specify the default watcher for the connection (overrides the one
* specified during construction).
*
* @param watcher
*/
public synchronized void register(Watcher watcher) {
watchManager.defaultWatcher = watcher;
}
/**
* Close this client object. Once the client is closed, its session becomes
* invalid. All the ephemeral nodes in the ZooKeeper server associated with
* the session will be removed. The watches left on those nodes (and on
* their parents) will be triggered.
*
* Added in 3.5.3: try-with-resources
* may be used instead of calling close directly.
*
*
* This method does not wait for all internal threads to exit.
* Use the {@link #close(int) } method to wait for all resources to be released
*
*
* @throws InterruptedException
*/
public synchronized void close() throws InterruptedException {
if (!cnxn.getState().isAlive()) {
if (LOG.isDebugEnabled()) {
LOG.debug("Close called on already closed client");
}
return;
}
if (LOG.isDebugEnabled()) {
LOG.debug("Closing session: 0x" + Long.toHexString(getSessionId()));
}
try {
cnxn.close();
} catch (IOException e) {
if (LOG.isDebugEnabled()) {
LOG.debug("Ignoring unexpected exception during close", e);
}
}
LOG.info("Session: 0x" + Long.toHexString(getSessionId()) + " closed");
}
/**
* Close this client object as the {@link #close() } method.
* This method will wait for internal resources to be released.
*
* @param waitForShutdownTimeoutMs timeout (in milliseconds) to wait for resources to be released.
* Use zero or a negative value to skip the wait
* @throws InterruptedException
* @return true if waitForShutdownTimeout is greater than zero and all of the resources have been released
*
* @since 3.5.4
*/
public boolean close(int waitForShutdownTimeoutMs) throws InterruptedException {
close();
return testableWaitForShutdown(waitForShutdownTimeoutMs);
}
/**
* Prepend the chroot to the client path (if present). The expectation of
* this function is that the client path has been validated before this
* function is called
* @param clientPath path to the node
* @return server view of the path (chroot prepended to client path)
*/
private String prependChroot(String clientPath) {
if (cnxn.chrootPath != null) {
// handle clientPath = "/"
if (clientPath.length() == 1) {
return cnxn.chrootPath;
}
return cnxn.chrootPath + clientPath;
} else {
return clientPath;
}
}
/**
* Create a node with the given path. The node data will be the given data,
* and node acl will be the given acl.
*
* The flags argument specifies whether the created node will be ephemeral
* or not.
*
* An ephemeral node will be removed by the ZooKeeper automatically when the
* session associated with the creation of the node expires.
*
* The flags argument can also specify to create a sequential node. The
* actual path name of a sequential node will be the given path plus a
* suffix "i" where i is the current sequential number of the node. The sequence
* number is always fixed length of 10 digits, 0 padded. Once
* such a node is created, the sequential number will be incremented by one.
*
* If a node with the same actual path already exists in the ZooKeeper, a
* KeeperException with error code KeeperException.NodeExists will be
* thrown. Note that since a different actual path is used for each
* invocation of creating sequential node with the same path argument, the
* call will never throw "file exists" KeeperException.
*
* If the parent node does not exist in the ZooKeeper, a KeeperException
* with error code KeeperException.NoNode will be thrown.
*
* An ephemeral node cannot have children. If the parent node of the given
* path is ephemeral, a KeeperException with error code
* KeeperException.NoChildrenForEphemerals will be thrown.
*
* This operation, if successful, will trigger all the watches left on the
* node of the given path by exists and getData API calls, and the watches
* left on the parent node by getChildren API calls.
*
* If a node is created successfully, the ZooKeeper server will trigger the
* watches on the path left by exists calls, and the watches on the parent
* of the node by getChildren calls.
*
* The maximum allowable size of the data array is 1 MB (1,048,576 bytes).
* Arrays larger than this will cause a KeeperExecption to be thrown.
*
* @param path
* the path for the node
* @param data
* the initial data for the node
* @param acl
* the acl for the node
* @param createMode
* specifying whether the node to be created is ephemeral
* and/or sequential
* @return the actual path of the created node
* @throws KeeperException if the server returns a non-zero error code
* @throws KeeperException.InvalidACLException if the ACL is invalid, null, or empty
* @throws InterruptedException if the transaction is interrupted
* @throws IllegalArgumentException if an invalid path is specified
*/
public String create(final String path, byte data[], List acl,
CreateMode createMode)
throws KeeperException, InterruptedException
{
final String clientPath = path;
PathUtils.validatePath(clientPath, createMode.isSequential());
EphemeralType.validateTTL(createMode, -1);
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(createMode.isContainer() ? ZooDefs.OpCode.createContainer : ZooDefs.OpCode.create);
CreateRequest request = new CreateRequest();
CreateResponse response = new CreateResponse();
request.setData(data);
request.setFlags(createMode.toFlag());
request.setPath(serverPath);
if (acl != null && acl.size() == 0) {
throw new KeeperException.InvalidACLException();
}
request.setAcl(acl);
ReplyHeader r = cnxn.submitRequest(h, request, response, null);
if (r.getErr() != 0) {
throw KeeperException.create(KeeperException.Code.get(r.getErr()),
clientPath);
}
if (cnxn.chrootPath == null) {
return response.getPath();
} else {
return response.getPath().substring(cnxn.chrootPath.length());
}
}
/**
* Create a node with the given path and returns the Stat of that node. The
* node data will be the given data and node acl will be the given acl.
*
* The flags argument specifies whether the created node will be ephemeral
* or not.
*
* An ephemeral node will be removed by the ZooKeeper automatically when the
* session associated with the creation of the node expires.
*
* The flags argument can also specify to create a sequential node. The
* actual path name of a sequential node will be the given path plus a
* suffix "i" where i is the current sequential number of the node. The sequence
* number is always fixed length of 10 digits, 0 padded. Once
* such a node is created, the sequential number will be incremented by one.
*
* If a node with the same actual path already exists in the ZooKeeper, a
* KeeperException with error code KeeperException.NodeExists will be
* thrown. Note that since a different actual path is used for each
* invocation of creating sequential node with the same path argument, the
* call will never throw "file exists" KeeperException.
*
* If the parent node does not exist in the ZooKeeper, a KeeperException
* with error code KeeperException.NoNode will be thrown.
*
* An ephemeral node cannot have children. If the parent node of the given
* path is ephemeral, a KeeperException with error code
* KeeperException.NoChildrenForEphemerals will be thrown.
*
* This operation, if successful, will trigger all the watches left on the
* node of the given path by exists and getData API calls, and the watches
* left on the parent node by getChildren API calls.
*
* If a node is created successfully, the ZooKeeper server will trigger the
* watches on the path left by exists calls, and the watches on the parent
* of the node by getChildren calls.
*
* The maximum allowable size of the data array is 1 MB (1,048,576 bytes).
* Arrays larger than this will cause a KeeperExecption to be thrown.
*
* @param path
* the path for the node
* @param data
* the initial data for the node
* @param acl
* the acl for the node
* @param createMode
* specifying whether the node to be created is ephemeral
* and/or sequential
* @param stat
* The output Stat object.
* @return the actual path of the created node
* @throws KeeperException if the server returns a non-zero error code
* @throws KeeperException.InvalidACLException if the ACL is invalid, null, or empty
* @throws InterruptedException if the transaction is interrupted
* @throws IllegalArgumentException if an invalid path is specified
*/
public String create(final String path, byte data[], List acl,
CreateMode createMode, Stat stat)
throws KeeperException, InterruptedException {
return create(path, data, acl, createMode, stat, -1);
}
/**
* same as {@link #create(String, byte[], List, CreateMode, Stat)} but
* allows for specifying a TTL when mode is {@link CreateMode#PERSISTENT_WITH_TTL}
* or {@link CreateMode#PERSISTENT_SEQUENTIAL_WITH_TTL}. If the znode has not been modified
* within the given TTL, it will be deleted once it has no children. The TTL unit is
* milliseconds and must be greater than 0 and less than or equal to
* {@link EphemeralType#maxValue()} for {@link EphemeralType#TTL}.
*/
public String create(final String path, byte data[], List acl,
CreateMode createMode, Stat stat, long ttl)
throws KeeperException, InterruptedException {
final String clientPath = path;
PathUtils.validatePath(clientPath, createMode.isSequential());
EphemeralType.validateTTL(createMode, ttl);
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
setCreateHeader(createMode, h);
Create2Response response = new Create2Response();
if (acl != null && acl.size() == 0) {
throw new KeeperException.InvalidACLException();
}
Record record = makeCreateRecord(createMode, serverPath, data, acl, ttl);
ReplyHeader r = cnxn.submitRequest(h, record, response, null);
if (r.getErr() != 0) {
throw KeeperException.create(KeeperException.Code.get(r.getErr()),
clientPath);
}
if (stat != null) {
DataTree.copyStat(response.getStat(), stat);
}
if (cnxn.chrootPath == null) {
return response.getPath();
} else {
return response.getPath().substring(cnxn.chrootPath.length());
}
}
private void setCreateHeader(CreateMode createMode, RequestHeader h) {
if (createMode.isTTL()) {
h.setType(ZooDefs.OpCode.createTTL);
} else {
h.setType(createMode.isContainer() ? ZooDefs.OpCode.createContainer : ZooDefs.OpCode.create2);
}
}
private Record makeCreateRecord(CreateMode createMode, String serverPath, byte[] data, List acl, long ttl) {
Record record;
if (createMode.isTTL()) {
CreateTTLRequest request = new CreateTTLRequest();
request.setData(data);
request.setFlags(createMode.toFlag());
request.setPath(serverPath);
request.setAcl(acl);
request.setTtl(ttl);
record = request;
} else {
CreateRequest request = new CreateRequest();
request.setData(data);
request.setFlags(createMode.toFlag());
request.setPath(serverPath);
request.setAcl(acl);
record = request;
}
return record;
}
/**
* The asynchronous version of create.
*
* @see #create(String, byte[], List, CreateMode)
*/
public void create(final String path, byte data[], List acl,
CreateMode createMode, StringCallback cb, Object ctx)
{
final String clientPath = path;
PathUtils.validatePath(clientPath, createMode.isSequential());
EphemeralType.validateTTL(createMode, -1);
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(createMode.isContainer() ? ZooDefs.OpCode.createContainer : ZooDefs.OpCode.create);
CreateRequest request = new CreateRequest();
CreateResponse response = new CreateResponse();
ReplyHeader r = new ReplyHeader();
request.setData(data);
request.setFlags(createMode.toFlag());
request.setPath(serverPath);
request.setAcl(acl);
cnxn.queuePacket(h, r, request, response, cb, clientPath,
serverPath, ctx, null);
}
/**
* The asynchronous version of create.
*
* @see #create(String, byte[], List, CreateMode, Stat)
*/
public void create(final String path, byte data[], List acl,
CreateMode createMode, Create2Callback cb, Object ctx)
{
create(path, data, acl, createMode, cb, ctx, -1);
}
/**
* The asynchronous version of create with ttl.
*
* @see #create(String, byte[], List, CreateMode, Stat, long)
*/
public void create(final String path, byte data[], List acl,
CreateMode createMode, Create2Callback cb, Object ctx, long ttl)
{
final String clientPath = path;
PathUtils.validatePath(clientPath, createMode.isSequential());
EphemeralType.validateTTL(createMode, ttl);
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
setCreateHeader(createMode, h);
ReplyHeader r = new ReplyHeader();
Create2Response response = new Create2Response();
Record record = makeCreateRecord(createMode, serverPath, data, acl, ttl);
cnxn.queuePacket(h, r, record, response, cb, clientPath,
serverPath, ctx, null);
}
/**
* Delete the node with the given path. The call will succeed if such a node
* exists, and the given version matches the node's version (if the given
* version is -1, it matches any node's versions).
*
* A KeeperException with error code KeeperException.NoNode will be thrown
* if the nodes does not exist.
*
* A KeeperException with error code KeeperException.BadVersion will be
* thrown if the given version does not match the node's version.
*
* A KeeperException with error code KeeperException.NotEmpty will be thrown
* if the node has children.
*
* This operation, if successful, will trigger all the watches on the node
* of the given path left by exists API calls, and the watches on the parent
* node left by getChildren API calls.
*
* @param path
* the path of the node to be deleted.
* @param version
* the expected node version.
* @throws InterruptedException IF the server transaction is interrupted
* @throws KeeperException If the server signals an error with a non-zero
* return code.
* @throws IllegalArgumentException if an invalid path is specified
*/
public void delete(final String path, int version)
throws InterruptedException, KeeperException
{
final String clientPath = path;
PathUtils.validatePath(clientPath);
final String serverPath;
// maintain semantics even in chroot case
// specifically - root cannot be deleted
// I think this makes sense even in chroot case.
if (clientPath.equals("/")) {
// a bit of a hack, but delete(/) will never succeed and ensures
// that the same semantics are maintained
serverPath = clientPath;
} else {
serverPath = prependChroot(clientPath);
}
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.delete);
DeleteRequest request = new DeleteRequest();
request.setPath(serverPath);
request.setVersion(version);
ReplyHeader r = cnxn.submitRequest(h, request, null, null);
if (r.getErr() != 0) {
throw KeeperException.create(KeeperException.Code.get(r.getErr()),
clientPath);
}
}
/**
* Executes multiple ZooKeeper operations or none of them.
*
* On success, a list of results is returned.
* On failure, an exception is raised which contains partial results and
* error details, see {@link KeeperException#getResults}
*
* Note: The maximum allowable size of all of the data arrays in all of
* the setData operations in this single request is typically 1 MB
* (1,048,576 bytes). This limit is specified on the server via
* jute.maxbuffer.
* Requests larger than this will cause a KeeperException to be
* thrown.
*
* @param ops An iterable that contains the operations to be done.
* These should be created using the factory methods on {@link Op}.
* @return A list of results, one for each input Op, the order of
* which exactly matches the order of the ops input
* operations.
* @throws InterruptedException If the operation was interrupted.
* The operation may or may not have succeeded, but will not have
* partially succeeded if this exception is thrown.
* @throws KeeperException If the operation could not be completed
* due to some error in doing one of the specified ops.
* @throws IllegalArgumentException if an invalid path is specified
*
* @since 3.4.0
*/
public List multi(Iterable ops) throws InterruptedException, KeeperException {
for (Op op : ops) {
op.validate();
}
return multiInternal(generateMultiTransaction(ops));
}
/**
* The asynchronous version of multi.
*
* @see #multi(Iterable)
*/
public void multi(Iterable ops, MultiCallback cb, Object ctx) {
List results = validatePath(ops);
if (results.size() > 0) {
cb.processResult(KeeperException.Code.BADARGUMENTS.intValue(),
null, ctx, results);
return;
}
multiInternal(generateMultiTransaction(ops), cb, ctx);
}
private List validatePath(Iterable ops) {
List results = new ArrayList();
boolean error = false;
for (Op op : ops) {
try {
op.validate();
} catch (IllegalArgumentException iae) {
LOG.error("IllegalArgumentException: " + iae.getMessage());
ErrorResult err = new ErrorResult(
KeeperException.Code.BADARGUMENTS.intValue());
results.add(err);
error = true;
continue;
} catch (KeeperException ke) {
LOG.error("KeeperException: " + ke.getMessage());
ErrorResult err = new ErrorResult(ke.code().intValue());
results.add(err);
error = true;
continue;
}
ErrorResult err = new ErrorResult(
KeeperException.Code.RUNTIMEINCONSISTENCY.intValue());
results.add(err);
}
if (false == error) {
results.clear();
}
return results;
}
private MultiTransactionRecord generateMultiTransaction(Iterable ops) {
// reconstructing transaction with the chroot prefix
List transaction = new ArrayList();
for (Op op : ops) {
transaction.add(withRootPrefix(op));
}
return new MultiTransactionRecord(transaction);
}
private Op withRootPrefix(Op op) {
if (null != op.getPath()) {
final String serverPath = prependChroot(op.getPath());
if (!op.getPath().equals(serverPath)) {
return op.withChroot(serverPath);
}
}
return op;
}
protected void multiInternal(MultiTransactionRecord request, MultiCallback cb, Object ctx) {
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.multi);
MultiResponse response = new MultiResponse();
cnxn.queuePacket(h, new ReplyHeader(), request, response, cb, null, null, ctx, null);
}
protected List multiInternal(MultiTransactionRecord request)
throws InterruptedException, KeeperException {
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.multi);
MultiResponse response = new MultiResponse();
ReplyHeader r = cnxn.submitRequest(h, request, response, null);
if (r.getErr() != 0) {
throw KeeperException.create(KeeperException.Code.get(r.getErr()));
}
List results = response.getResultList();
ErrorResult fatalError = null;
for (OpResult result : results) {
if (result instanceof ErrorResult && ((ErrorResult)result).getErr() != KeeperException.Code.OK.intValue()) {
fatalError = (ErrorResult) result;
break;
}
}
if (fatalError != null) {
KeeperException ex = KeeperException.create(KeeperException.Code.get(fatalError.getErr()));
ex.setMultiResults(results);
throw ex;
}
return results;
}
/**
* A Transaction is a thin wrapper on the {@link #multi} method
* which provides a builder object that can be used to construct
* and commit an atomic set of operations.
*
* @since 3.4.0
*
* @return a Transaction builder object
*/
public Transaction transaction() {
return new Transaction(this);
}
/**
* The asynchronous version of delete.
*
* @see #delete(String, int)
*/
public void delete(final String path, int version, VoidCallback cb,
Object ctx)
{
final String clientPath = path;
PathUtils.validatePath(clientPath);
final String serverPath;
// maintain semantics even in chroot case
// specifically - root cannot be deleted
// I think this makes sense even in chroot case.
if (clientPath.equals("/")) {
// a bit of a hack, but delete(/) will never succeed and ensures
// that the same semantics are maintained
serverPath = clientPath;
} else {
serverPath = prependChroot(clientPath);
}
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.delete);
DeleteRequest request = new DeleteRequest();
request.setPath(serverPath);
request.setVersion(version);
cnxn.queuePacket(h, new ReplyHeader(), request, null, cb, clientPath,
serverPath, ctx, null);
}
/**
* Return the stat of the node of the given path. Return null if no such a
* node exists.
*
* If the watch is non-null and the call is successful (no exception is thrown),
* a watch will be left on the node with the given path. The watch will be
* triggered by a successful operation that creates/delete the node or sets
* the data on the node.
*
* @param path the node path
* @param watcher explicit watcher
* @return the stat of the node of the given path; return null if no such a
* node exists.
* @throws KeeperException If the server signals an error
* @throws InterruptedException If the server transaction is interrupted.
* @throws IllegalArgumentException if an invalid path is specified
*/
public Stat exists(final String path, Watcher watcher)
throws KeeperException, InterruptedException
{
final String clientPath = path;
PathUtils.validatePath(clientPath);
// the watch contains the un-chroot path
WatchRegistration wcb = null;
if (watcher != null) {
wcb = new ExistsWatchRegistration(watcher, clientPath);
}
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.exists);
ExistsRequest request = new ExistsRequest();
request.setPath(serverPath);
request.setWatch(watcher != null);
SetDataResponse response = new SetDataResponse();
ReplyHeader r = cnxn.submitRequest(h, request, response, wcb);
if (r.getErr() != 0) {
if (r.getErr() == KeeperException.Code.NONODE.intValue()) {
return null;
}
throw KeeperException.create(KeeperException.Code.get(r.getErr()),
clientPath);
}
return response.getStat().getCzxid() == -1 ? null : response.getStat();
}
/**
* Return the stat of the node of the given path. Return null if no such a
* node exists.
*
* If the watch is true and the call is successful (no exception is thrown),
* a watch will be left on the node with the given path. The watch will be
* triggered by a successful operation that creates/delete the node or sets
* the data on the node.
*
* @param path
* the node path
* @param watch
* whether need to watch this node
* @return the stat of the node of the given path; return null if no such a
* node exists.
* @throws KeeperException If the server signals an error
* @throws InterruptedException If the server transaction is interrupted.
*/
public Stat exists(String path, boolean watch) throws KeeperException,
InterruptedException
{
return exists(path, watch ? watchManager.defaultWatcher : null);
}
/**
* The asynchronous version of exists.
*
* @see #exists(String, Watcher)
*/
public void exists(final String path, Watcher watcher,
StatCallback cb, Object ctx)
{
final String clientPath = path;
PathUtils.validatePath(clientPath);
// the watch contains the un-chroot path
WatchRegistration wcb = null;
if (watcher != null) {
wcb = new ExistsWatchRegistration(watcher, clientPath);
}
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.exists);
ExistsRequest request = new ExistsRequest();
request.setPath(serverPath);
request.setWatch(watcher != null);
SetDataResponse response = new SetDataResponse();
cnxn.queuePacket(h, new ReplyHeader(), request, response, cb,
clientPath, serverPath, ctx, wcb);
}
/**
* The asynchronous version of exists.
*
* @see #exists(String, boolean)
*/
public void exists(String path, boolean watch, StatCallback cb, Object ctx) {
exists(path, watch ? watchManager.defaultWatcher : null, cb, ctx);
}
/**
* Return the data and the stat of the node of the given path.
*
* If the watch is non-null and the call is successful (no exception is
* thrown), a watch will be left on the node with the given path. The watch
* will be triggered by a successful operation that sets data on the node, or
* deletes the node.
*
* A KeeperException with error code KeeperException.NoNode will be thrown
* if no node with the given path exists.
*
* @param path the given path
* @param watcher explicit watcher
* @param stat the stat of the node
* @return the data of the node
* @throws KeeperException If the server signals an error with a non-zero error code
* @throws InterruptedException If the server transaction is interrupted.
* @throws IllegalArgumentException if an invalid path is specified
*/
public byte[] getData(final String path, Watcher watcher, Stat stat)
throws KeeperException, InterruptedException
{
final String clientPath = path;
PathUtils.validatePath(clientPath);
// the watch contains the un-chroot path
WatchRegistration wcb = null;
if (watcher != null) {
wcb = new DataWatchRegistration(watcher, clientPath);
}
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.getData);
GetDataRequest request = new GetDataRequest();
request.setPath(serverPath);
request.setWatch(watcher != null);
GetDataResponse response = new GetDataResponse();
ReplyHeader r = cnxn.submitRequest(h, request, response, wcb);
if (r.getErr() != 0) {
throw KeeperException.create(KeeperException.Code.get(r.getErr()),
clientPath);
}
if (stat != null) {
DataTree.copyStat(response.getStat(), stat);
}
return response.getData();
}
/**
* Return the data and the stat of the node of the given path.
*
* If the watch is true and the call is successful (no exception is
* thrown), a watch will be left on the node with the given path. The watch
* will be triggered by a successful operation that sets data on the node, or
* deletes the node.
*
* A KeeperException with error code KeeperException.NoNode will be thrown
* if no node with the given path exists.
*
* @param path the given path
* @param watch whether need to watch this node
* @param stat the stat of the node
* @return the data of the node
* @throws KeeperException If the server signals an error with a non-zero error code
* @throws InterruptedException If the server transaction is interrupted.
*/
public byte[] getData(String path, boolean watch, Stat stat)
throws KeeperException, InterruptedException {
return getData(path, watch ? watchManager.defaultWatcher : null, stat);
}
/**
* The asynchronous version of getData.
*
* @see #getData(String, Watcher, Stat)
*/
public void getData(final String path, Watcher watcher,
DataCallback cb, Object ctx)
{
final String clientPath = path;
PathUtils.validatePath(clientPath);
// the watch contains the un-chroot path
WatchRegistration wcb = null;
if (watcher != null) {
wcb = new DataWatchRegistration(watcher, clientPath);
}
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.getData);
GetDataRequest request = new GetDataRequest();
request.setPath(serverPath);
request.setWatch(watcher != null);
GetDataResponse response = new GetDataResponse();
cnxn.queuePacket(h, new ReplyHeader(), request, response, cb,
clientPath, serverPath, ctx, wcb);
}
/**
* The asynchronous version of getData.
*
* @see #getData(String, boolean, Stat)
*/
public void getData(String path, boolean watch, DataCallback cb, Object ctx) {
getData(path, watch ? watchManager.defaultWatcher : null, cb, ctx);
}
/**
* Return the last committed configuration (as known to the server to which the client is connected)
* and the stat of the configuration.
*
* If the watch is non-null and the call is successful (no exception is
* thrown), a watch will be left on the configuration node (ZooDefs.CONFIG_NODE). The watch
* will be triggered by a successful reconfig operation
*
* A KeeperException with error code KeeperException.NoNode will be thrown
* if the configuration node doesn't exists.
*
* @param watcher explicit watcher
* @param stat the stat of the configuration node ZooDefs.CONFIG_NODE
* @return configuration data stored in ZooDefs.CONFIG_NODE
* @throws KeeperException If the server signals an error with a non-zero error code
* @throws InterruptedException If the server transaction is interrupted.
*/
public byte[] getConfig(Watcher watcher, Stat stat)
throws KeeperException, InterruptedException
{
final String configZnode = ZooDefs.CONFIG_NODE;
// the watch contains the un-chroot path
WatchRegistration wcb = null;
if (watcher != null) {
wcb = new DataWatchRegistration(watcher, configZnode);
}
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.getData);
GetDataRequest request = new GetDataRequest();
request.setPath(configZnode);
request.setWatch(watcher != null);
GetDataResponse response = new GetDataResponse();
ReplyHeader r = cnxn.submitRequest(h, request, response, wcb);
if (r.getErr() != 0) {
throw KeeperException.create(KeeperException.Code.get(r.getErr()),
configZnode);
}
if (stat != null) {
DataTree.copyStat(response.getStat(), stat);
}
return response.getData();
}
/**
* The asynchronous version of getConfig.
*
* @see #getConfig(Watcher, Stat)
*/
public void getConfig(Watcher watcher,
DataCallback cb, Object ctx)
{
final String configZnode = ZooDefs.CONFIG_NODE;
// the watch contains the un-chroot path
WatchRegistration wcb = null;
if (watcher != null) {
wcb = new DataWatchRegistration(watcher, configZnode);
}
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.getData);
GetDataRequest request = new GetDataRequest();
request.setPath(configZnode);
request.setWatch(watcher != null);
GetDataResponse response = new GetDataResponse();
cnxn.queuePacket(h, new ReplyHeader(), request, response, cb,
configZnode, configZnode, ctx, wcb);
}
/**
* Return the last committed configuration (as known to the server to which the client is connected)
* and the stat of the configuration.
*
* If the watch is true and the call is successful (no exception is
* thrown), a watch will be left on the configuration node (ZooDefs.CONFIG_NODE). The watch
* will be triggered by a successful reconfig operation
*
* A KeeperException with error code KeeperException.NoNode will be thrown
* if no node with the given path exists.
*
* @param watch whether need to watch this node
* @param stat the stat of the configuration node ZooDefs.CONFIG_NODE
* @return configuration data stored in ZooDefs.CONFIG_NODE
* @throws KeeperException If the server signals an error with a non-zero error code
* @throws InterruptedException If the server transaction is interrupted.
*/
public byte[] getConfig(boolean watch, Stat stat)
throws KeeperException, InterruptedException {
return getConfig(watch ? watchManager.defaultWatcher : null, stat);
}
/**
* The Asynchronous version of getConfig.
*
* @see #getData(String, boolean, Stat)
*/
public void getConfig(boolean watch, DataCallback cb, Object ctx) {
getConfig(watch ? watchManager.defaultWatcher : null, cb, ctx);
}
/**
* @deprecated instead use the reconfigure() methods instead in {@link org.apache.zookeeper.admin.ZooKeeperAdmin}
*/
@Deprecated
public byte[] reconfig(String joiningServers, String leavingServers, String newMembers, long fromConfig, Stat stat) throws KeeperException, InterruptedException {
return internalReconfig(joiningServers, leavingServers, newMembers, fromConfig, stat);
}
/**
* @deprecated instead use the reconfigure() methods instead in {@link org.apache.zookeeper.admin.ZooKeeperAdmin}
*/
@Deprecated
public byte[] reconfig(List joiningServers, List leavingServers, List newMembers, long fromConfig, Stat stat) throws KeeperException, InterruptedException {
return internalReconfig(joiningServers, leavingServers, newMembers, fromConfig, stat);
}
/**
* @deprecated instead use the reconfigure() methods instead in {@link org.apache.zookeeper.admin.ZooKeeperAdmin}
*/
@Deprecated
public void reconfig(String joiningServers, String leavingServers,
String newMembers, long fromConfig, DataCallback cb, Object ctx) {
internalReconfig(joiningServers, leavingServers, newMembers, fromConfig, cb, ctx);
}
/**
* @deprecated instead use the reconfigure() methods instead in {@link org.apache.zookeeper.admin.ZooKeeperAdmin}
*/
@Deprecated
public void reconfig(List joiningServers,
List leavingServers, List newMembers, long fromConfig,
DataCallback cb, Object ctx) {
internalReconfig(joiningServers, leavingServers, newMembers, fromConfig, cb, ctx);
}
/**
* Set the data for the node of the given path if such a node exists and the
* given version matches the version of the node (if the given version is
* -1, it matches any node's versions). Return the stat of the node.
*
* This operation, if successful, will trigger all the watches on the node
* of the given path left by getData calls.
*
* A KeeperException with error code KeeperException.NoNode will be thrown
* if no node with the given path exists.
*
* A KeeperException with error code KeeperException.BadVersion will be
* thrown if the given version does not match the node's version.
*
* The maximum allowable size of the data array is 1 MB (1,048,576 bytes).
* Arrays larger than this will cause a KeeperException to be thrown.
*
* @param path
* the path of the node
* @param data
* the data to set
* @param version
* the expected matching version
* @return the state of the node
* @throws InterruptedException If the server transaction is interrupted.
* @throws KeeperException If the server signals an error with a non-zero error code.
* @throws IllegalArgumentException if an invalid path is specified
*/
public Stat setData(final String path, byte data[], int version)
throws KeeperException, InterruptedException
{
final String clientPath = path;
PathUtils.validatePath(clientPath);
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.setData);
SetDataRequest request = new SetDataRequest();
request.setPath(serverPath);
request.setData(data);
request.setVersion(version);
SetDataResponse response = new SetDataResponse();
ReplyHeader r = cnxn.submitRequest(h, request, response, null);
if (r.getErr() != 0) {
throw KeeperException.create(KeeperException.Code.get(r.getErr()),
clientPath);
}
return response.getStat();
}
/**
* The asynchronous version of setData.
*
* @see #setData(String, byte[], int)
*/
public void setData(final String path, byte data[], int version,
StatCallback cb, Object ctx)
{
final String clientPath = path;
PathUtils.validatePath(clientPath);
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.setData);
SetDataRequest request = new SetDataRequest();
request.setPath(serverPath);
request.setData(data);
request.setVersion(version);
SetDataResponse response = new SetDataResponse();
cnxn.queuePacket(h, new ReplyHeader(), request, response, cb,
clientPath, serverPath, ctx, null);
}
/**
* Return the ACL and stat of the node of the given path.
*
* A KeeperException with error code KeeperException.NoNode will be thrown
* if no node with the given path exists.
*
* @param path
* the given path for the node
* @param stat
* the stat of the node will be copied to this parameter if
* not null.
* @return the ACL array of the given node.
* @throws InterruptedException If the server transaction is interrupted.
* @throws KeeperException If the server signals an error with a non-zero error code.
* @throws IllegalArgumentException if an invalid path is specified
*/
public List getACL(final String path, Stat stat)
throws KeeperException, InterruptedException
{
final String clientPath = path;
PathUtils.validatePath(clientPath);
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.getACL);
GetACLRequest request = new GetACLRequest();
request.setPath(serverPath);
GetACLResponse response = new GetACLResponse();
ReplyHeader r = cnxn.submitRequest(h, request, response, null);
if (r.getErr() != 0) {
throw KeeperException.create(KeeperException.Code.get(r.getErr()),
clientPath);
}
if (stat != null) {
DataTree.copyStat(response.getStat(), stat);
}
return response.getAcl();
}
/**
* The asynchronous version of getACL.
*
* @see #getACL(String, Stat)
*/
public void getACL(final String path, Stat stat, ACLCallback cb,
Object ctx)
{
final String clientPath = path;
PathUtils.validatePath(clientPath);
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.getACL);
GetACLRequest request = new GetACLRequest();
request.setPath(serverPath);
GetACLResponse response = new GetACLResponse();
cnxn.queuePacket(h, new ReplyHeader(), request, response, cb,
clientPath, serverPath, ctx, null);
}
/**
* Set the ACL for the node of the given path if such a node exists and the
* given aclVersion matches the acl version of the node. Return the stat of the
* node.
*
* A KeeperException with error code KeeperException.NoNode will be thrown
* if no node with the given path exists.
*
* A KeeperException with error code KeeperException.BadVersion will be
* thrown if the given aclVersion does not match the node's aclVersion.
*
* @param path the given path for the node
* @param acl the given acl for the node
* @param aclVersion the given acl version of the node
* @return the stat of the node.
* @throws InterruptedException If the server transaction is interrupted.
* @throws KeeperException If the server signals an error with a non-zero error code.
* @throws org.apache.zookeeper.KeeperException.InvalidACLException If the acl is invalide.
* @throws IllegalArgumentException if an invalid path is specified
*/
public Stat setACL(final String path, List acl, int aclVersion)
throws KeeperException, InterruptedException
{
final String clientPath = path;
PathUtils.validatePath(clientPath);
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.setACL);
SetACLRequest request = new SetACLRequest();
request.setPath(serverPath);
if (acl != null && acl.size() == 0) {
throw new KeeperException.InvalidACLException(clientPath);
}
request.setAcl(acl);
request.setVersion(aclVersion);
SetACLResponse response = new SetACLResponse();
ReplyHeader r = cnxn.submitRequest(h, request, response, null);
if (r.getErr() != 0) {
throw KeeperException.create(KeeperException.Code.get(r.getErr()),
clientPath);
}
return response.getStat();
}
/**
* The asynchronous version of setACL.
*
* @see #setACL(String, List, int)
*/
public void setACL(final String path, List acl, int version,
StatCallback cb, Object ctx)
{
final String clientPath = path;
PathUtils.validatePath(clientPath);
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.setACL);
SetACLRequest request = new SetACLRequest();
request.setPath(serverPath);
request.setAcl(acl);
request.setVersion(version);
SetACLResponse response = new SetACLResponse();
cnxn.queuePacket(h, new ReplyHeader(), request, response, cb,
clientPath, serverPath, ctx, null);
}
/**
* Return the list of the children of the node of the given path.
*
* If the watch is non-null and the call is successful (no exception is thrown),
* a watch will be left on the node with the given path. The watch will be
* triggered by a successful operation that deletes the node of the given
* path or creates/delete a child under the node.
*
* The list of children returned is not sorted and no guarantee is provided
* as to its natural or lexical order.
*
* A KeeperException with error code KeeperException.NoNode will be thrown
* if no node with the given path exists.
*
* @param path
* @param watcher explicit watcher
* @return an unordered array of children of the node with the given path
* @throws InterruptedException If the server transaction is interrupted.
* @throws KeeperException If the server signals an error with a non-zero error code.
* @throws IllegalArgumentException if an invalid path is specified
*/
public List getChildren(final String path, Watcher watcher)
throws KeeperException, InterruptedException
{
final String clientPath = path;
PathUtils.validatePath(clientPath);
// the watch contains the un-chroot path
WatchRegistration wcb = null;
if (watcher != null) {
wcb = new ChildWatchRegistration(watcher, clientPath);
}
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.getChildren);
GetChildrenRequest request = new GetChildrenRequest();
request.setPath(serverPath);
request.setWatch(watcher != null);
GetChildrenResponse response = new GetChildrenResponse();
ReplyHeader r = cnxn.submitRequest(h, request, response, wcb);
if (r.getErr() != 0) {
throw KeeperException.create(KeeperException.Code.get(r.getErr()),
clientPath);
}
return response.getChildren();
}
/**
* Return the list of the children of the node of the given path.
*
* If the watch is true and the call is successful (no exception is thrown),
* a watch will be left on the node with the given path. The watch will be
* triggered by a successful operation that deletes the node of the given
* path or creates/delete a child under the node.
*
* The list of children returned is not sorted and no guarantee is provided
* as to its natural or lexical order.
*
* A KeeperException with error code KeeperException.NoNode will be thrown
* if no node with the given path exists.
*
* @param path
* @param watch
* @return an unordered array of children of the node with the given path
* @throws InterruptedException If the server transaction is interrupted.
* @throws KeeperException If the server signals an error with a non-zero error code.
*/
public List getChildren(String path, boolean watch)
throws KeeperException, InterruptedException {
return getChildren(path, watch ? watchManager.defaultWatcher : null);
}
/**
* The asynchronous version of getChildren.
*
* @see #getChildren(String, Watcher)
*/
public void getChildren(final String path, Watcher watcher,
ChildrenCallback cb, Object ctx)
{
final String clientPath = path;
PathUtils.validatePath(clientPath);
// the watch contains the un-chroot path
WatchRegistration wcb = null;
if (watcher != null) {
wcb = new ChildWatchRegistration(watcher, clientPath);
}
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.getChildren);
GetChildrenRequest request = new GetChildrenRequest();
request.setPath(serverPath);
request.setWatch(watcher != null);
GetChildrenResponse response = new GetChildrenResponse();
cnxn.queuePacket(h, new ReplyHeader(), request, response, cb,
clientPath, serverPath, ctx, wcb);
}
/**
* The asynchronous version of getChildren.
*
* @see #getChildren(String, boolean)
*/
public void getChildren(String path, boolean watch, ChildrenCallback cb,
Object ctx)
{
getChildren(path, watch ? watchManager.defaultWatcher : null, cb, ctx);
}
/**
* For the given znode path return the stat and children list.
*
* If the watch is non-null and the call is successful (no exception is thrown),
* a watch will be left on the node with the given path. The watch will be
* triggered by a successful operation that deletes the node of the given
* path or creates/delete a child under the node.
*
* The list of children returned is not sorted and no guarantee is provided
* as to its natural or lexical order.
*
* A KeeperException with error code KeeperException.NoNode will be thrown
* if no node with the given path exists.
*
* @since 3.3.0
*
* @param path
* @param watcher explicit watcher
* @param stat stat of the znode designated by path
* @return an unordered array of children of the node with the given path
* @throws InterruptedException If the server transaction is interrupted.
* @throws KeeperException If the server signals an error with a non-zero error code.
* @throws IllegalArgumentException if an invalid path is specified
*/
public List getChildren(final String path, Watcher watcher,
Stat stat)
throws KeeperException, InterruptedException
{
final String clientPath = path;
PathUtils.validatePath(clientPath);
// the watch contains the un-chroot path
WatchRegistration wcb = null;
if (watcher != null) {
wcb = new ChildWatchRegistration(watcher, clientPath);
}
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.getChildren2);
GetChildren2Request request = new GetChildren2Request();
request.setPath(serverPath);
request.setWatch(watcher != null);
GetChildren2Response response = new GetChildren2Response();
ReplyHeader r = cnxn.submitRequest(h, request, response, wcb);
if (r.getErr() != 0) {
throw KeeperException.create(KeeperException.Code.get(r.getErr()),
clientPath);
}
if (stat != null) {
DataTree.copyStat(response.getStat(), stat);
}
return response.getChildren();
}
/**
* For the given znode path return the stat and children list.
*
* If the watch is true and the call is successful (no exception is thrown),
* a watch will be left on the node with the given path. The watch will be
* triggered by a successful operation that deletes the node of the given
* path or creates/delete a child under the node.
*
* The list of children returned is not sorted and no guarantee is provided
* as to its natural or lexical order.
*
* A KeeperException with error code KeeperException.NoNode will be thrown
* if no node with the given path exists.
*
* @since 3.3.0
*
* @param path
* @param watch
* @param stat stat of the znode designated by path
* @return an unordered array of children of the node with the given path
* @throws InterruptedException If the server transaction is interrupted.
* @throws KeeperException If the server signals an error with a non-zero
* error code.
*/
public List getChildren(String path, boolean watch, Stat stat)
throws KeeperException, InterruptedException {
return getChildren(path, watch ? watchManager.defaultWatcher : null,
stat);
}
/**
* The asynchronous version of getChildren.
*
* @since 3.3.0
*
* @see #getChildren(String, Watcher, Stat)
*/
public void getChildren(final String path, Watcher watcher,
Children2Callback cb, Object ctx)
{
final String clientPath = path;
PathUtils.validatePath(clientPath);
// the watch contains the un-chroot path
WatchRegistration wcb = null;
if (watcher != null) {
wcb = new ChildWatchRegistration(watcher, clientPath);
}
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.getChildren2);
GetChildren2Request request = new GetChildren2Request();
request.setPath(serverPath);
request.setWatch(watcher != null);
GetChildren2Response response = new GetChildren2Response();
cnxn.queuePacket(h, new ReplyHeader(), request, response, cb,
clientPath, serverPath, ctx, wcb);
}
/**
* The asynchronous version of getChildren.
*
* @since 3.3.0
*
* @see #getChildren(String, boolean, Stat)
*/
public void getChildren(String path, boolean watch, Children2Callback cb,
Object ctx)
{
getChildren(path, watch ? watchManager.defaultWatcher : null, cb, ctx);
}
/**
* Asynchronous sync. Flushes channel between process and leader.
* @param path
* @param cb a handler for the callback
* @param ctx context to be provided to the callback
* @throws IllegalArgumentException if an invalid path is specified
*/
public void sync(final String path, VoidCallback cb, Object ctx){
final String clientPath = path;
PathUtils.validatePath(clientPath);
final String serverPath = prependChroot(clientPath);
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.sync);
SyncRequest request = new SyncRequest();
SyncResponse response = new SyncResponse();
request.setPath(serverPath);
cnxn.queuePacket(h, new ReplyHeader(), request, response, cb,
clientPath, serverPath, ctx, null);
}
/**
* For the given znode path, removes the specified watcher of given
* watcherType.
*
*
* Watcher shouldn't be null. A successful call guarantees that, the
* removed watcher won't be triggered.
*
*
* @param path
* - the path of the node
* @param watcher
* - a concrete watcher
* @param watcherType
* - the type of watcher to be removed
* @param local
* - whether the watcher can be removed locally when there is no
* server connection
* @throws InterruptedException
* if the server transaction is interrupted.
* @throws KeeperException.NoWatcherException
* if no watcher exists that match the specified parameters
* @throws KeeperException
* if the server signals an error with a non-zero error code.
* @throws IllegalArgumentException
* if any of the following is true:
*
* - {@code path} is invalid
*
- {@code watcher} is null
*
*
* @since 3.5.0
*/
public void removeWatches(String path, Watcher watcher,
WatcherType watcherType, boolean local)
throws InterruptedException, KeeperException {
validateWatcher(watcher);
removeWatches(ZooDefs.OpCode.checkWatches, path, watcher,
watcherType, local);
}
/**
* The asynchronous version of removeWatches.
*
* @see #removeWatches
*/
public void removeWatches(String path, Watcher watcher,
WatcherType watcherType, boolean local, VoidCallback cb, Object ctx) {
validateWatcher(watcher);
removeWatches(ZooDefs.OpCode.checkWatches, path, watcher,
watcherType, local, cb, ctx);
}
/**
* For the given znode path, removes all the registered watchers of given
* watcherType.
*
*
* A successful call guarantees that, the removed watchers won't be
* triggered.
*
*
* @param path
* - the path of the node
* @param watcherType
* - the type of watcher to be removed
* @param local
* - whether watches can be removed locally when there is no
* server connection
* @throws InterruptedException
* if the server transaction is interrupted.
* @throws KeeperException.NoWatcherException
* if no watcher exists that match the specified parameters
* @throws KeeperException
* if the server signals an error with a non-zero error code.
* @throws IllegalArgumentException
* if an invalid {@code path} is specified
*
* @since 3.5.0
*/
public void removeAllWatches(String path, WatcherType watcherType,
boolean local) throws InterruptedException, KeeperException {
removeWatches(ZooDefs.OpCode.removeWatches, path, null, watcherType,
local);
}
/**
* The asynchronous version of removeAllWatches.
*
* @see #removeAllWatches
*/
public void removeAllWatches(String path, WatcherType watcherType,
boolean local, VoidCallback cb, Object ctx) {
removeWatches(ZooDefs.OpCode.removeWatches, path, null,
watcherType, local, cb, ctx);
}
private void validateWatcher(Watcher watcher) {
if (watcher == null) {
throw new IllegalArgumentException(
"Invalid Watcher, shouldn't be null!");
}
}
private void removeWatches(int opCode, String path, Watcher watcher,
WatcherType watcherType, boolean local)
throws InterruptedException, KeeperException {
PathUtils.validatePath(path);
final String clientPath = path;
final String serverPath = prependChroot(clientPath);
WatchDeregistration wcb = new WatchDeregistration(clientPath, watcher,
watcherType, local, watchManager);
RequestHeader h = new RequestHeader();
h.setType(opCode);
Record request = getRemoveWatchesRequest(opCode, watcherType,
serverPath);
ReplyHeader r = cnxn.submitRequest(h, request, null, null, wcb);
if (r.getErr() != 0) {
throw KeeperException.create(KeeperException.Code.get(r.getErr()),
clientPath);
}
}
private void removeWatches(int opCode, String path, Watcher watcher,
WatcherType watcherType, boolean local, VoidCallback cb, Object ctx) {
PathUtils.validatePath(path);
final String clientPath = path;
final String serverPath = prependChroot(clientPath);
WatchDeregistration wcb = new WatchDeregistration(clientPath, watcher,
watcherType, local, watchManager);
RequestHeader h = new RequestHeader();
h.setType(opCode);
Record request = getRemoveWatchesRequest(opCode, watcherType,
serverPath);
cnxn.queuePacket(h, new ReplyHeader(), request, null, cb, clientPath,
serverPath, ctx, null, wcb);
}
private Record getRemoveWatchesRequest(int opCode, WatcherType watcherType,
final String serverPath) {
Record request = null;
switch (opCode) {
case ZooDefs.OpCode.checkWatches:
CheckWatchesRequest chkReq = new CheckWatchesRequest();
chkReq.setPath(serverPath);
chkReq.setType(watcherType.getIntValue());
request = chkReq;
break;
case ZooDefs.OpCode.removeWatches:
RemoveWatchesRequest rmReq = new RemoveWatchesRequest();
rmReq.setPath(serverPath);
rmReq.setType(watcherType.getIntValue());
request = rmReq;
break;
default:
LOG.warn("unknown type " + opCode);
break;
}
return request;
}
public States getState() {
return cnxn.getState();
}
/**
* String representation of this ZooKeeper client. Suitable for things
* like logging.
*
* Do NOT count on the format of this string, it may change without
* warning.
*
* @since 3.3.0
*/
@Override
public String toString() {
States state = getState();
return ("State:" + state.toString()
+ (state.isConnected() ?
" Timeout:" + getSessionTimeout() + " " :
" ")
+ cnxn);
}
/*
* Methods to aid in testing follow.
*
* THESE METHODS ARE EXPECTED TO BE USED FOR TESTING ONLY!!!
*/
/**
* Wait up to wait milliseconds for the underlying threads to shutdown.
* THIS METHOD IS EXPECTED TO BE USED FOR TESTING ONLY!!!
*
* @since 3.3.0
*
* @param wait max wait in milliseconds
* @return true iff all threads are shutdown, otw false
*/
protected boolean testableWaitForShutdown(int wait)
throws InterruptedException
{
cnxn.sendThread.join(wait);
if (cnxn.sendThread.isAlive()) return false;
cnxn.eventThread.join(wait);
if (cnxn.eventThread.isAlive()) return false;
return true;
}
/**
* Returns the address to which the socket is connected. Useful for testing
* against an ensemble - test client may need to know which server
* to shutdown if interested in verifying that the code handles
* disconnection/reconnection correctly.
* THIS METHOD IS EXPECTED TO BE USED FOR TESTING ONLY!!!
*
* @since 3.3.0
*
* @return ip address of the remote side of the connection or null if
* not connected
*/
protected SocketAddress testableRemoteSocketAddress() {
return cnxn.sendThread.getClientCnxnSocket().getRemoteSocketAddress();
}
/**
* Returns the local address to which the socket is bound.
* THIS METHOD IS EXPECTED TO BE USED FOR TESTING ONLY!!!
*
* @since 3.3.0
*
* @return ip address of the remote side of the connection or null if
* not connected
*/
protected SocketAddress testableLocalSocketAddress() {
return cnxn.sendThread.getClientCnxnSocket().getLocalSocketAddress();
}
private ClientCnxnSocket getClientCnxnSocket() throws IOException {
String clientCnxnSocketName = getClientConfig().getProperty(
ZKClientConfig.ZOOKEEPER_CLIENT_CNXN_SOCKET);
if (clientCnxnSocketName == null) {
clientCnxnSocketName = ClientCnxnSocketNIO.class.getName();
}
try {
Constructor clientCxnConstructor = Class.forName(clientCnxnSocketName).getDeclaredConstructor(ZKClientConfig.class);
ClientCnxnSocket clientCxnSocket = (ClientCnxnSocket) clientCxnConstructor.newInstance(getClientConfig());
return clientCxnSocket;
} catch (Exception e) {
IOException ioe = new IOException("Couldn't instantiate "
+ clientCnxnSocketName);
ioe.initCause(e);
throw ioe;
}
}
protected byte[] internalReconfig(String joiningServers, String leavingServers, String newMembers, long fromConfig, Stat stat) throws KeeperException, InterruptedException {
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.reconfig);
ReconfigRequest request = new ReconfigRequest(joiningServers, leavingServers, newMembers, fromConfig);
GetDataResponse response = new GetDataResponse();
ReplyHeader r = cnxn.submitRequest(h, request, response, null);
if (r.getErr() != 0) {
throw KeeperException.create(KeeperException.Code.get(r.getErr()), "");
}
if (stat != null) {
DataTree.copyStat(response.getStat(), stat);
}
return response.getData();
}
protected byte[] internalReconfig(List joiningServers, List leavingServers, List newMembers, long fromConfig, Stat stat) throws KeeperException, InterruptedException {
return internalReconfig(StringUtils.joinStrings(joiningServers, ","),
StringUtils.joinStrings(leavingServers, ","),
StringUtils.joinStrings(newMembers, ","),
fromConfig, stat);
}
protected void internalReconfig(String joiningServers, String leavingServers,
String newMembers, long fromConfig, DataCallback cb, Object ctx) {
RequestHeader h = new RequestHeader();
h.setType(ZooDefs.OpCode.reconfig);
ReconfigRequest request = new ReconfigRequest(joiningServers, leavingServers, newMembers, fromConfig);
GetDataResponse response = new GetDataResponse();
cnxn.queuePacket(h, new ReplyHeader(), request, response, cb,
ZooDefs.CONFIG_NODE, ZooDefs.CONFIG_NODE, ctx, null);
}
protected void internalReconfig(List joiningServers,
List leavingServers, List newMembers, long fromConfig,
DataCallback cb, Object ctx) {
internalReconfig(StringUtils.joinStrings(joiningServers, ","),
StringUtils.joinStrings(leavingServers, ","),
StringUtils.joinStrings(newMembers, ","),
fromConfig, cb, ctx);
}
}