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Aerospike Java client interface to Aerospike database server
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/*
* Copyright 2012-2024 Aerospike, Inc.
*
* Portions may be licensed to Aerospike, Inc. under one or more contributor
* license agreements WHICH ARE COMPATIBLE WITH THE APACHE LICENSE, VERSION 2.0.
*
* Licensed 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 com.aerospike.client.cluster;
import java.io.Closeable;
import java.io.IOException;
import java.net.InetSocketAddress;
import java.net.SocketTimeoutException;
import java.nio.ByteBuffer;
import java.util.ArrayDeque;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.concurrent.atomic.AtomicLong;
import com.aerospike.client.AerospikeException;
import com.aerospike.client.Host;
import com.aerospike.client.Info;
import com.aerospike.client.Log;
import com.aerospike.client.ResultCode;
import com.aerospike.client.admin.AdminCommand;
import com.aerospike.client.admin.AdminCommand.LoginCommand;
import com.aerospike.client.async.AsyncConnection;
import com.aerospike.client.async.AsyncConnectorExecutor;
import com.aerospike.client.async.EventLoop;
import com.aerospike.client.async.EventState;
import com.aerospike.client.async.Monitor;
import com.aerospike.client.async.NettyConnection;
import com.aerospike.client.command.SyncCommand;
import com.aerospike.client.metrics.LatencyType;
import com.aerospike.client.metrics.MetricsPolicy;
import com.aerospike.client.metrics.NodeMetrics;
import com.aerospike.client.util.Util;
/**
* Server node representation. This class manages server node connections and health status.
*/
public class Node implements Closeable {
/**
* Number of partitions for each namespace.
*/
public static final int PARTITIONS = 4096;
public static final int HAS_PARTITION_SCAN = (1 << 0);
public static final int HAS_QUERY_SHOW = (1 << 1);
public static final int HAS_BATCH_ANY = (1 << 2);
public static final int HAS_PARTITION_QUERY = (1 << 3);
private static final String[] INFO_PERIODIC = new String[] {"node", "peers-generation", "partition-generation"};
private static final String[] INFO_PERIODIC_REB = new String[] {"node", "peers-generation", "partition-generation", "rebalance-generation"};
protected final Cluster cluster;
private final String name;
private final Host host;
protected final List aliases;
protected final InetSocketAddress address;
private final Pool[] connectionPools;
private final AsyncPool[] asyncConnectionPools;
private Connection tendConnection;
private byte[] sessionToken;
private long sessionExpiration;
private volatile Map racks;
private volatile NodeMetrics metrics;
final AtomicInteger connsOpened;
final AtomicInteger connsClosed;
private final AtomicInteger errorRateCount;
private final AtomicLong errorCount;
private final AtomicLong timeoutCount;
protected int connectionIter;
private int peersGeneration;
int partitionGeneration;
private int rebalanceGeneration;
protected int peersCount;
protected int referenceCount;
protected int failures;
private final int features;
protected boolean partitionChanged;
protected boolean rebalanceChanged;
protected volatile boolean performLogin;
protected volatile boolean active;
/**
* Initialize server node with connection parameters.
*
* @param cluster collection of active server nodes
* @param nv connection parameters
*/
public Node(Cluster cluster, NodeValidator nv) {
this.cluster = cluster;
this.name = nv.name;
this.aliases = nv.aliases;
this.host = nv.primaryHost;
this.address = nv.primaryAddress;
this.tendConnection = nv.primaryConn;
this.sessionToken = nv.sessionToken;
this.sessionExpiration = nv.sessionExpiration;
this.features = nv.features;
this.connsOpened = new AtomicInteger(1);
this.connsClosed = new AtomicInteger(0);
this.errorRateCount = new AtomicInteger(0);
this.errorCount = new AtomicLong(0);
this.timeoutCount = new AtomicLong(0);
this.peersGeneration = -1;
this.partitionGeneration = -1;
this.rebalanceGeneration = -1;
this.partitionChanged = true;
this.rebalanceChanged = cluster.rackAware;
this.racks = cluster.rackAware ? new HashMap() : null;
this.active = true;
if (cluster.metricsEnabled) {
this.metrics = new NodeMetrics(cluster.metricsPolicy);
}
// Create sync connection pools.
connectionPools = new Pool[cluster.connPoolsPerNode];
int min = cluster.minConnsPerNode / cluster.connPoolsPerNode;
int remMin = cluster.minConnsPerNode - (min * cluster.connPoolsPerNode);
int max = cluster.maxConnsPerNode / cluster.connPoolsPerNode;
int remMax = cluster.maxConnsPerNode - (max * cluster.connPoolsPerNode);
for (int i = 0; i < connectionPools.length; i++) {
int minSize = i < remMin ? min + 1 : min;
int maxSize = i < remMax ? max + 1 : max;
Pool pool = new Pool(minSize, maxSize);
connectionPools[i] = pool;
}
EventState[] eventState = cluster.eventState;
if (eventState == null) {
asyncConnectionPools = null;
return;
}
// Create async connection pools.
asyncConnectionPools = new AsyncPool[eventState.length];
min = cluster.asyncMinConnsPerNode / asyncConnectionPools.length;
remMin = cluster.asyncMinConnsPerNode - (min * asyncConnectionPools.length);
max = cluster.asyncMaxConnsPerNode / asyncConnectionPools.length;
remMax = cluster.asyncMaxConnsPerNode - (max * asyncConnectionPools.length);
for (int i = 0; i < eventState.length; i++) {
int minSize = i < remMin ? min + 1 : min;
int maxSize = i < remMax ? max + 1 : max;
asyncConnectionPools[i] = new AsyncPool(minSize, maxSize);
}
}
public final void createMinConnections() {
// Create sync connections.
for (Pool pool : connectionPools) {
if (pool.minSize > 0) {
createConnections(pool, pool.minSize);
}
}
EventState[] eventState = cluster.eventState;
if (eventState == null || cluster.asyncMinConnsPerNode <= 0) {
return;
}
// Create async connections.
final Monitor monitor = new Monitor();
final AtomicInteger eventLoopCount = new AtomicInteger(eventState.length);
final int maxConcurrent = 20 / eventState.length + 1;
for (int i = 0; i < eventState.length; i++) {
final int minSize = asyncConnectionPools[i].minSize;
if (minSize > 0) {
final EventLoop eventLoop = eventState[i].eventLoop;
final Node node = this;
eventLoop.execute(new Runnable() {
public void run() {
try {
new AsyncConnectorExecutor(
eventLoop, cluster, node, minSize, maxConcurrent, monitor, eventLoopCount
);
}
catch (Throwable e) {
if (Log.warnEnabled()) {
Log.warn("AsyncConnectorExecutor failed: " + Util.getErrorMessage(e));
}
}
}
});
}
else {
AsyncConnectorExecutor.eventLoopComplete(monitor, eventLoopCount);
}
}
// Wait until all async connections are created.
monitor.waitTillComplete();
}
/**
* Request current status from server node.
*/
public final void refresh(Peers peers) {
if (! active) {
return;
}
try {
if (tendConnection.isClosed()) {
tendConnection = createConnection(null, cluster.connectTimeout);
if (cluster.authEnabled) {
byte[] token = sessionToken;
if (token == null || shouldLogin()) {
login();
}
else {
if (! AdminCommand.authenticate(cluster, tendConnection, token)) {
// Authentication failed. Session token probably expired.
// Login again to get new session token.
login();
}
}
}
}
else {
if (cluster.authEnabled && shouldLogin()) {
login();
}
}
String[] commands = cluster.rackAware ? INFO_PERIODIC_REB : INFO_PERIODIC;
HashMap infoMap = Info.request(tendConnection, commands);
verifyNodeName(infoMap);
verifyPeersGeneration(infoMap, peers);
verifyPartitionGeneration(infoMap);
if (cluster.rackAware) {
verifyRebalanceGeneration(infoMap);
}
peers.refreshCount++;
// Reload peers, partitions and racks if there were failures on previous tend.
if (failures > 0) {
peers.genChanged = true;
partitionChanged = true;
rebalanceChanged = cluster.rackAware;
}
failures = 0;
}
catch (Throwable e) {
peers.genChanged = true;
refreshFailed(e);
}
}
private boolean shouldLogin() {
return performLogin || (sessionExpiration > 0 && System.nanoTime() >= sessionExpiration);
}
private void login() throws IOException {
if (Log.infoEnabled()) {
Log.info("Login to " + this);
}
try {
LoginCommand login = new LoginCommand(cluster, tendConnection);
sessionToken = login.sessionToken;
sessionExpiration = login.sessionExpiration;
performLogin = false;
}
catch (Throwable e) {
performLogin = true;
throw e;
}
}
public final void signalLogin() {
// Only login when sessionToken is supported
// and login not already been requested.
if (! performLogin) {
performLogin = true;
cluster.interruptTendSleep();
}
}
private final void verifyNodeName(HashMap infoMap) {
// If the node name has changed, remove node from cluster and hope one of the other host
// aliases is still valid. Round-robbin DNS may result in a hostname that resolves to a
// new address.
String infoName = infoMap.get("node");
if (infoName == null || infoName.length() == 0) {
throw new AerospikeException.Parse("Node name is empty");
}
if (! name.equals(infoName)) {
// Set node to inactive immediately.
active = false;
throw new AerospikeException("Node name has changed. Old=" + name + " New=" + infoName);
}
}
private final void verifyPeersGeneration(HashMap infoMap, Peers peers) {
String genString = infoMap.get("peers-generation");
if (genString == null || genString.length() == 0) {
throw new AerospikeException.Parse("peers-generation is empty");
}
int gen = Integer.parseInt(genString);
if (peersGeneration != gen) {
peers.genChanged = true;
if (peersGeneration > gen) {
if (Log.infoEnabled()) {
Log.info("Quick node restart detected: node=" + this + " oldgen=" + peersGeneration + " newgen=" + gen);
}
restart();
}
}
}
private final void restart() {
try {
// Reset error rate.
if (cluster.maxErrorRate > 0) {
resetErrorRate();
}
// Login when user authentication is enabled.
if (cluster.authEnabled) {
login();
}
// Balance sync connections.
balanceConnections();
// Balance async connections.
if (cluster.eventState != null) {
for (EventState es : cluster.eventState) {
final EventLoop eventLoop = es.eventLoop;
eventLoop.execute(new Runnable() {
public void run() {
try {
balanceAsyncConnections(eventLoop);
}
catch (Throwable e) {
if (Log.warnEnabled()) {
Log.warn("balanceAsyncConnections failed: " + this + ' ' + Util.getErrorMessage(e));
}
}
}
});
}
}
}
catch (Throwable e) {
if (Log.warnEnabled()) {
Log.warn("Node restart failed: " + this + ' ' + Util.getErrorMessage(e));
}
}
}
private final void verifyPartitionGeneration(HashMap infoMap) {
String genString = infoMap.get("partition-generation");
if (genString == null || genString.length() == 0) {
throw new AerospikeException.Parse("partition-generation is empty");
}
int gen = Integer.parseInt(genString);
if (partitionGeneration != gen) {
this.partitionChanged = true;
}
}
private final void verifyRebalanceGeneration(HashMap infoMap) {
String genString = infoMap.get("rebalance-generation");
if (genString == null || genString.length() == 0) {
throw new AerospikeException.Parse("rebalance-generation is empty");
}
int gen = Integer.parseInt(genString);
if (rebalanceGeneration != gen) {
this.rebalanceChanged = true;
}
}
protected final void refreshPeers(Peers peers) {
// Do not refresh peers when node connection has already failed during this cluster tend iteration.
if (failures > 0 || ! active) {
return;
}
try {
if (Log.debugEnabled()) {
Log.debug("Update peers for node " + this);
}
PeerParser parser = new PeerParser(cluster, tendConnection, peers.peers);
peersCount = peers.peers.size();
boolean peersValidated = true;
for (Peer peer : peers.peers) {
if (findPeerNode(cluster, peers, peer)) {
// Node already exists. Do not even try to connect to hosts.
continue;
}
boolean nodeValidated = false;
// Find first host that connects.
for (Host host : peer.hosts) {
// Do not attempt to add a peer if it has already failed in this cluster tend iteration.
if (peers.hasFailed(host)) {
continue;
}
try {
// Attempt connection to host.
NodeValidator nv = new NodeValidator();
nv.validateNode(cluster, host);
if (! peer.nodeName.equals(nv.name)) {
// Must look for new node name in the unlikely event that node names do not agree.
if (Log.warnEnabled()) {
Log.warn("Peer node " + peer.nodeName + " is different than actual node " + nv.name + " for host " + host);
}
}
// Create new node.
Node node = cluster.createNode(nv);
peers.nodes.put(nv.name, node);
nodeValidated = true;
if (peer.replaceNode != null) {
peers.removeList.add(peer.replaceNode);
}
break;
}
catch (Throwable e) {
peers.fail(host);
if (Log.warnEnabled()) {
Log.warn("Add node " + host + " failed: " + Util.getErrorMessage(e));
}
}
}
if (! nodeValidated) {
peersValidated = false;
}
}
// Only set new peers generation if all referenced peers are added to the cluster.
if (peersValidated) {
peersGeneration = parser.generation;
}
peers.refreshCount++;
}
catch (Throwable e) {
refreshFailed(e);
}
}
private static boolean findPeerNode(Cluster cluster, Peers peers, Peer peer) {
// Check global node map for existing cluster.
Node node = cluster.nodesMap.get(peer.nodeName);
if (node != null) {
// Node name found.
if (node.failures <= 0 || node.address.getAddress().isLoopbackAddress()) {
// If the node does not have cluster tend errors or is localhost,
// reject new peer as the IP address does not need to change.
node.referenceCount++;
return true;
}
// Match peer hosts with the node host.
for (Host h : peer.hosts) {
if (h.equals(node.host)) {
// Main node host is also the same as one of the peer hosts.
// Peer should not be added.
node.referenceCount++;
return true;
}
}
peer.replaceNode = node;
}
// Check local node map for this tend iteration.
node = peers.nodes.get(peer.nodeName);
if (node != null) {
node.referenceCount++;
peer.replaceNode = null;
return true;
}
return false;
}
protected final void refreshPartitions(Peers peers) {
// Do not refresh partitions when node connection has already failed during this cluster tend iteration.
// Also, avoid "split cluster" case where this node thinks it's a 1-node cluster.
// Unchecked, such a node can dominate the partition map and cause all other
// nodes to be dropped.
if (failures > 0 || ! active || (peersCount == 0 && peers.refreshCount > 1)) {
return;
}
try {
if (Log.debugEnabled()) {
Log.debug("Update partition map for node " + this);
}
PartitionParser parser = new PartitionParser(tendConnection, this, cluster.partitionMap, Node.PARTITIONS);
if (parser.isPartitionMapCopied()) {
cluster.partitionMap = parser.getPartitionMap();
}
partitionGeneration = parser.getGeneration();
}
catch (Throwable e) {
refreshFailed(e);
}
}
protected final void refreshRacks() {
// Do not refresh racks when node connection has already failed during this cluster tend iteration.
if (failures > 0 || ! active) {
return;
}
try {
if (Log.debugEnabled()) {
Log.debug("Update racks for node " + this);
}
RackParser parser = new RackParser(tendConnection);
rebalanceGeneration = parser.getGeneration();
racks = parser.getRacks();
}
catch (Throwable e) {
refreshFailed(e);
}
}
private final void refreshFailed(Throwable e) {
failures++;
if (! tendConnection.isClosed()) {
closeConnectionOnError(tendConnection);
}
// Only log message if cluster is still active.
if (cluster.tendValid && Log.warnEnabled()) {
Log.warn("Node " + this + " refresh failed: " + Util.getErrorMessage(e));
}
}
private void createConnections(Pool pool, int count) {
// Create sync connections.
while (count > 0) {
Connection conn;
try {
conn = createConnection(pool);
}
catch (Throwable e) {
// Failing to create min connections is not considered fatal.
// Log failure and return.
if (Log.debugEnabled()) {
Log.debug("Failed to create connection: " + e.getMessage());
}
return;
}
if (pool.offer(conn)) {
pool.total.getAndIncrement();
}
else {
closeIdleConnection(conn);
break;
}
count--;
}
}
private Connection createConnection(Pool pool) {
Connection conn = createConnection(pool, cluster.connectTimeout);
if (cluster.authEnabled) {
byte[] token = sessionToken;
if (token != null) {
try {
if (! AdminCommand.authenticate(cluster, conn, token)) {
throw new AerospikeException("Authentication failed");
}
}
catch (AerospikeException ae) {
closeConnectionOnError(conn);
throw ae;
}
catch (Throwable e) {
closeConnectionOnError(conn);
throw new AerospikeException(e);
}
}
}
return conn;
}
private Connection createConnection(Pool pool, int timeout) {
// Create sync connection.
Connection conn;
if (cluster.metricsEnabled) {
long begin = System.nanoTime();
conn = (cluster.tlsPolicy != null && !cluster.tlsPolicy.forLoginOnly) ?
new Connection(cluster.tlsPolicy, host.tlsName, address, timeout, this, pool) :
new Connection(address, timeout, this, pool);
long elapsed = System.nanoTime() - begin;
metrics.addLatency(LatencyType.CONN, TimeUnit.NANOSECONDS.toMillis(elapsed));
}
else {
conn = (cluster.tlsPolicy != null && !cluster.tlsPolicy.forLoginOnly) ?
new Connection(cluster.tlsPolicy, host.tlsName, address, timeout, this, pool) :
new Connection(address, timeout, this, pool);
}
connsOpened.getAndIncrement();
return conn;
}
/**
* Get a socket connection from connection pool to the server node.
*/
public final Connection getConnection(int timeoutMillis) {
try {
return getConnection(null, timeoutMillis, timeoutMillis, 0);
}
catch (Connection.ReadTimeout crt) {
throw new AerospikeException.Timeout(this, timeoutMillis, timeoutMillis, timeoutMillis);
}
}
/**
* Get a socket connection from connection pool to the server node.
*/
public final Connection getConnection(int connectTimeout, int socketTimeout) {
try {
return getConnection(null, connectTimeout, socketTimeout, 0);
}
catch (Connection.ReadTimeout crt) {
throw new AerospikeException.Timeout(this, connectTimeout, socketTimeout, socketTimeout);
}
}
/**
* Get a socket connection from connection pool to the server node.
*/
public final Connection getConnection(SyncCommand cmd, int connectTimeout, int socketTimeout, int timeoutDelay) {
int max = cluster.connPoolsPerNode;
int initialIndex;
boolean backward;
if (max == 1) {
initialIndex = 0;
backward = false;
}
else {
int iter = connectionIter++; // not atomic by design
initialIndex = iter % max;
if (initialIndex < 0) {
initialIndex += max;
}
backward = true;
}
Pool pool = connectionPools[initialIndex];
int queueIndex = initialIndex;
Connection conn;
while (true) {
conn = pool.poll();
if (conn != null) {
// Found socket.
// Verify that socket is active.
if (cluster.isConnCurrentTran(conn.getLastUsed())) {
try {
conn.setTimeout(socketTimeout);
return conn;
}
catch (Throwable e) {
// Set timeout failed. Something is probably wrong with timeout
// value itself, so don't empty queue retrying. Just get out.
closeConnection(conn);
throw new AerospikeException.Connection(e);
}
}
pool.closeIdle(this, conn);
}
else if (pool.total.getAndIncrement() < pool.capacity()) {
// Socket not found and queue has available slot.
// Create new connection.
long startTime;
int timeout;
if (connectTimeout > 0) {
timeout = connectTimeout;
startTime = System.nanoTime();
}
else {
timeout = socketTimeout;
startTime = 0;
}
try {
conn = createConnection(pool, timeout);
}
catch (Throwable e) {
pool.total.getAndDecrement();
throw e;
}
if (cluster.authEnabled) {
byte[] token = this.sessionToken;
if (token != null) {
try {
if (! AdminCommand.authenticate(cluster, conn, token)) {
signalLogin();
throw new AerospikeException("Authentication failed");
}
}
catch (AerospikeException ae) {
// Socket not authenticated. Do not put back into pool.
closeConnection(conn);
throw ae;
}
catch (Connection.ReadTimeout crt) {
if (timeoutDelay > 0) {
// The connection state is always STATE_READ_AUTH_HEADER here which does not reference
// isSingle, so just pass in true for isSingle in ConnectionRecover.
cluster.recoverConnection(new ConnectionRecover(conn, this, timeoutDelay, crt, true));
}
else {
closeConnection(conn);
}
throw crt;
}
catch (SocketTimeoutException ste) {
closeConnection(conn);
// This is really a socket write timeout, but the calling
// method's catch handler just identifies error as a client
// timeout, which is what we need.
throw new Connection.ReadTimeout(null, 0, 0, (byte)0);
}
catch (IOException ioe) {
closeConnection(conn);
throw new AerospikeException.Connection(ioe);
}
catch (Throwable e) {
closeConnection(conn);
throw e;
}
}
}
if (timeout != socketTimeout) {
// Reset timeout to socketTimeout.
try {
conn.setTimeout(socketTimeout);
}
catch (Throwable e) {
closeConnection(conn);
throw new AerospikeException.Connection(e);
}
}
if (connectTimeout > 0 && cmd != null) {
// Adjust deadline for socket connect time when connectTimeout defined.
cmd.resetDeadline(startTime);
}
return conn;
}
else {
// Socket not found and queue is full. Try another queue.
pool.total.getAndDecrement();
if (backward) {
if (queueIndex > 0) {
queueIndex--;
}
else {
queueIndex = initialIndex;
if (++queueIndex >= max) {
break;
}
backward = false;
}
}
else if (++queueIndex >= max) {
break;
}
pool = connectionPools[queueIndex];
}
}
throw new AerospikeException.Connection(ResultCode.NO_MORE_CONNECTIONS,
"Node " + this + " max connections " + cluster.maxConnsPerNode + " would be exceeded.");
}
/**
* Put connection back into connection pool.
*
* @param conn socket connection
*/
public final void putConnection(Connection conn) {
if (! active || ! conn.pool.offer(conn)) {
closeConnection(conn);
}
}
/**
* Close pooled connection on error and decrement connection count.
*/
public final void closeConnection(Connection conn) {
conn.pool.total.getAndDecrement();
closeConnectionOnError(conn);
}
/**
* Close any connection on error.
*/
public final void closeConnectionOnError(Connection conn) {
connsClosed.getAndIncrement();
incrErrorRate();
conn.close();
}
/**
* Close connection without incrementing error count.
*/
public final void closeIdleConnection(Connection conn) {
connsClosed.getAndIncrement();
conn.close();
}
final void balanceConnections() {
for (Pool pool : connectionPools) {
int excess = pool.excess();
if (excess > 0) {
pool.closeIdle(this, excess);
}
else if (excess < 0 && errorRateWithinLimit()) {
createConnections(pool, -excess);
}
}
}
public final ConnectionStats getConnectionStats() {
int inUse = 0;
int inPool = 0;
for (Pool pool : connectionPools) {
int tmp = pool.size();
inPool += tmp;
tmp = pool.total.get() - tmp;
// Timing issues may cause values to go negative. Adjust.
if (tmp < 0) {
tmp = 0;
}
inUse += tmp;
}
return new ConnectionStats(inUse, inPool, connsOpened.get(), connsClosed.get());
}
public final AsyncConnection getAsyncConnection(int index, ByteBuffer byteBuffer) {
AsyncPool pool = asyncConnectionPools[index];
ArrayDeque queue = pool.queue;
AsyncConnection conn;
while ((conn = queue.pollFirst()) != null) {
if (! cluster.isConnCurrentTran(conn.getLastUsed())) {
closeAsyncIdleConnection(conn, index);
continue;
}
if (! conn.isValid(byteBuffer)) {
closeAsyncConnection(conn, index);
continue;
}
return conn;
}
if (pool.reserve()) {
return null;
}
throw new AerospikeException.Connection(ResultCode.NO_MORE_CONNECTIONS,
"Max async conns reached: " + this + ',' + index + ',' + pool.total +
',' + pool.queue.size() + ',' + pool.maxSize);
}
public final boolean reserveAsyncConnectionSlot(int index) {
return asyncConnectionPools[index].reserve();
}
public final void connectionOpened(int index) {
asyncConnectionPools[index].opened++;
}
public final boolean putAsyncConnection(AsyncConnection conn, int index) {
if (conn == null) {
if (Log.warnEnabled()) {
Log.warn("Async conn is null: " + this + ',' + index);
}
return false;
}
AsyncPool pool = asyncConnectionPools[index];
if (! pool.addFirst(conn)) {
// This should not happen since connection slots are reserved in advance
// and total connections should never exceed maxSize. If it does happen,
// it's highly likely that total count was decremented twice for the same
// command, causing the connection balancer to create more connections
// than necessary. Attempt to correct situation by not decrementing total
// when this excess connection is closed.
conn.close();
//connectionClosed();
if (Log.warnEnabled()) {
Log.warn("Async conn pool is full: " + this + ',' + index + ',' + pool.total +
',' + pool.queue.size() + ',' + pool.maxSize);
}
return false;
}
return true;
}
/**
* Close async connection on error.
*/
public final void closeAsyncConnection(AsyncConnection conn, int index) {
incrErrorRate();
asyncConnectionPools[index].connectionClosed();
conn.close();
}
/**
* Close async connection without incrementing error count.
*/
public final void closeAsyncIdleConnection(AsyncConnection conn, int index) {
asyncConnectionPools[index].connectionClosed();
conn.close();
}
public final void decrAsyncConnection(int index) {
incrErrorRate();
asyncConnectionPools[index].total--;
}
public final AsyncPool getAsyncPool(int index) {
return asyncConnectionPools[index];
}
public final void balanceAsyncConnections(EventLoop eventLoop) {
AsyncPool pool = asyncConnectionPools[eventLoop.getIndex()];
pool.handleRemove();
int excess = pool.excess();
if (excess > 0) {
closeIdleAsyncConnections(pool, excess);
}
else if (excess < 0 && errorRateWithinLimit()) {
// Create connection requests sequentially because they will be done in the
// background and there is no immediate need for them to complete.
new AsyncConnectorExecutor(eventLoop, cluster, this, -excess, 1, null, null);
}
}
private final void closeIdleAsyncConnections(AsyncPool pool, int count) {
ArrayDeque queue = pool.queue;
// Oldest connection is at end of queue.
while (count > 0) {
AsyncConnection conn = queue.peekLast();
if (conn == null || cluster.isConnCurrentTrim(conn.getLastUsed())) {
break;
}
// Pop connection from queue.
queue.pollLast();
pool.connectionClosed();
conn.close();
count--;
}
}
public final ConnectionStats getAsyncConnectionStats() {
int inUse = 0;
int inPool = 0;
int opened = 0;
int closed = 0;
if (asyncConnectionPools != null) {
for (AsyncPool pool : asyncConnectionPools) {
// Warning: cross-thread references are made without a lock
// for pool's queue, opened and closed.
int tmp = pool.queue.size();
// Timing issues may cause values to go negative. Adjust.
if (tmp < 0) {
tmp = 0;
}
inPool += tmp;
tmp = pool.total - tmp;
if (tmp < 0) {
tmp = 0;
}
inUse += tmp;
opened += pool.opened;
closed += pool.closed;
}
}
return new ConnectionStats(inUse, inPool, opened, closed);
}
public final void enableMetrics(MetricsPolicy policy) {
metrics = new NodeMetrics(policy);
}
public final NodeMetrics getMetrics() {
return metrics;
}
/**
* Add elapsed time in nanoseconds to latency buckets corresponding to latency type.
*/
public final void addLatency(LatencyType type, long elapsed) {
metrics.addLatency(type, elapsed);
}
public final void incrErrorRate() {
if (cluster.maxErrorRate > 0) {
errorRateCount.getAndIncrement();
}
}
public final void resetErrorRate() {
errorRateCount.set(0);
}
public final boolean errorRateWithinLimit() {
return cluster.maxErrorRate <= 0 || errorRateCount.get() <= cluster.maxErrorRate;
}
public final void validateErrorCount() {
if (! errorRateWithinLimit()) {
throw new AerospikeException.Backoff(ResultCode.MAX_ERROR_RATE);
}
}
/**
* Increment transaction error count. If the error is retryable, multiple errors per
* transaction may occur.
*/
public void addError() {
errorCount.getAndIncrement();
}
/**
* Increment transaction timeout count. If the timeout is retryable (ie socketTimeout),
* multiple timeouts per transaction may occur.
*/
public void addTimeout() {
timeoutCount.getAndIncrement();
}
/**
* Return transaction error count. The value is cumulative and not reset per metrics interval.
*/
public long getErrorCount() {
return errorCount.get();
}
/**
* Return transaction timeout count. The value is cumulative and not reset per metrics interval.
*/
public long getTimeoutCount() {
return timeoutCount.get();
}
/**
* Return server node IP address and port.
*/
public final Host getHost() {
return host;
}
/**
* Return whether node is currently active.
*/
public final boolean isActive() {
return active;
}
/**
* Return server node name.
*/
public final String getName() {
return name;
}
/**
* Return node IP address.
*/
public final InetSocketAddress getAddress() {
return address;
}
/**
* Return node session token.
*/
public final byte[] getSessionToken() {
return sessionToken;
}
/**
* Return current generation of cluster peers.
*/
public final int getPeersGeneration() {
return peersGeneration;
}
/**
* Return current generation of partition maps.
*/
public final int getPartitionGeneration() {
return partitionGeneration;
}
/**
* Return current generation of racks.
*/
public final int getRebalanceGeneration() {
return rebalanceGeneration;
}
/**
* Return if this node has the same rack as the client for the
* given namespace.
*/
public final boolean hasRack(String namespace, int rackId) {
// Must copy map reference for copy on write semantics to work.
Map map = this.racks;
if (map == null) {
return false;
}
Integer r = map.get(namespace);
if (r == null) {
return false;
}
return r == rackId;
}
public final boolean hasQueryShow() {
return (features & HAS_QUERY_SHOW) != 0;
}
public final boolean hasBatchAny() {
return (features & HAS_BATCH_ANY) != 0;
}
public final boolean hasPartitionQuery() {
return (features & HAS_PARTITION_QUERY) != 0;
}
/**
* Does server support partition scans.
*/
/*
public final boolean hasPartitionScan() {
return (features & HAS_PARTITION_SCAN) != 0;
}
*/
@Override
public final String toString() {
return name + ' ' + host;
}
@Override
public final int hashCode() {
return name.hashCode();
}
@Override
public final boolean equals(Object obj) {
Node other = (Node) obj;
return this.name.equals(other.name);
}
/**
* Close all socket connections.
*/
public final void close() {
if (cluster.eventLoops == null) {
// Empty sync connection pools.
closeSyncConnections();
}
else {
final AtomicInteger eventLoopCount = new AtomicInteger(cluster.eventState.length);
// Send close node notification to async event loops.
for (final EventState state : cluster.eventState) {
state.eventLoop.execute(new Runnable() {
public void run() {
closeConnections(eventLoopCount, state.index);
}
});
}
}
}
/**
* Close all node socket connections from event loop.
* Must be called from event loop thread.
*/
public final void closeConnections(AtomicInteger eventLoopCount, int index) {
closeAsyncConnections(index);
if (eventLoopCount.decrementAndGet() == 0) {
// All event loops have reported.
closeSyncConnections();
}
}
/**
* Close asynchronous connections.
* Must be called from event loop thread.
*/
public final void closeAsyncConnections(int index) {
AsyncPool pool = asyncConnectionPools[index];
pool.closeConnections();
}
/**
* Close synchronous connections.
*/
public final void closeSyncConnections() {
// Mark node invalid.
active = false;
// Close tend connection after making reference copy.
Connection conn = tendConnection;
conn.close();
// Close synchronous connections.
for (Pool pool : connectionPools) {
while ((conn = pool.poll()) != null) {
conn.close();
}
}
}
public static final class AsyncPool {
public final ArrayDeque queue;
public final int minSize;
public final int maxSize;
public int total;
public int opened;
public int closed;
private boolean shouldRemove;
private AsyncPool(int minSize, int maxSize) {
this.minSize = minSize;
this.maxSize = maxSize;
this.queue = new ArrayDeque(maxSize);
}
private boolean reserve() {
if (total >= maxSize || queue.size() >= maxSize) {
return false;
}
total++;
return true;
}
private boolean addFirst(AsyncConnection conn) {
if (queue.size() < maxSize) {
queue.addFirst(conn);
return true;
}
return false;
}
private int excess() {
return total - minSize;
}
private void connectionClosed() {
total--;
closed++;
}
public void signalRemove() {
shouldRemove = true;
}
public void handleRemove() {
if (shouldRemove) {
shouldRemove = false;
removeClosed();
}
}
public void removeClosed() {
// Remove all closed netty connections in the queue.
NettyConnection first = (NettyConnection)queue.pollFirst();
NettyConnection conn = first;
do {
if (conn == null) {
break;
}
if (conn.isOpen()) {
queue.addLast(conn);
}
else {
connectionClosed();
}
conn = (NettyConnection)queue.pollFirst();
} while (conn != first);
}
public void closeConnections() {
AsyncConnection conn;
while ((conn = queue.pollFirst()) != null) {
conn.close();
}
}
}
}
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