com.aerospike.client.async.NioCommand Maven / Gradle / Ivy
/*
* Copyright 2012-2023 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.async;
import java.io.IOException;
import java.nio.ByteBuffer;
import java.nio.channels.SelectionKey;
import java.util.concurrent.TimeUnit;
import com.aerospike.client.AerospikeException;
import com.aerospike.client.Log;
import com.aerospike.client.ResultCode;
import com.aerospike.client.admin.AdminCommand;
import com.aerospike.client.async.HashedWheelTimer.HashedWheelTimeout;
import com.aerospike.client.cluster.Cluster;
import com.aerospike.client.cluster.Node;
import com.aerospike.client.command.Command;
import com.aerospike.client.metrics.LatencyType;
import com.aerospike.client.util.Util;
public final class NioCommand implements INioCommand, Runnable, TimerTask {
final NioEventLoop eventLoop;
final Cluster cluster;
final AsyncCommand command;
final EventState eventState;
final HashedWheelTimeout timeoutTask;
TimeoutState timeoutState;
Node node;
NioConnection conn;
ByteBuffer byteBuffer;
final LatencyType latencyType;
long begin;
long totalDeadline;
int state;
int iteration;
final boolean hasTotalTimeout;
boolean usingSocketTimeout;
boolean eventReceived;
public NioCommand(NioEventLoop eventLoop, Cluster cluster, AsyncCommand command) {
this.eventLoop = eventLoop;
this.cluster = cluster;
this.command = command;
this.eventState = cluster.eventState[eventLoop.index];
this.timeoutTask = new HashedWheelTimeout(this);
command.bufferQueue = eventLoop.bufferQueue;
hasTotalTimeout = command.totalTimeout > 0;
latencyType = cluster.metricsEnabled? command.getLatencyType() : LatencyType.NONE;
if (eventLoop.thread == Thread.currentThread() && eventState.errors < 5) {
// We are already in event loop thread, so start processing.
run();
}
else {
// Send command through queue so it can be executed in event loop thread.
if (hasTotalTimeout) {
totalDeadline = System.nanoTime() + TimeUnit.MILLISECONDS.toNanos(command.totalTimeout);
}
state = AsyncCommand.REGISTERED;
eventLoop.execute(this);
}
}
// Batch retry constructor.
public NioCommand(NioCommand other, AsyncCommand command, long deadline) {
this.eventLoop = other.eventLoop;
this.cluster = other.cluster;
this.command = command;
this.eventState = other.eventState;
this.timeoutTask = new HashedWheelTimeout(this);
this.totalDeadline = other.totalDeadline;
this.latencyType = other.latencyType;
this.iteration = other.iteration;
this.hasTotalTimeout = other.hasTotalTimeout;
this.usingSocketTimeout = other.usingSocketTimeout;
command.bufferQueue = eventLoop.bufferQueue;
// We are already in event loop thread, so start processing now.
if (eventState.closed) {
queueError(new AerospikeException("Cluster has been closed"));
return;
}
if (eventLoop.maxCommandsInProcess > 0) {
// Delay queue takes precedence over new commands.
eventLoop.executeFromDelayQueue();
// Handle new command.
if (eventLoop.pending >= eventLoop.maxCommandsInProcess) {
// Pending queue full. Append new command to delay queue.
if (eventLoop.maxCommandsInQueue > 0 && eventLoop.delayQueue.size() >= eventLoop.maxCommandsInQueue) {
queueError(new AerospikeException.AsyncQueueFull());
return;
}
eventLoop.delayQueue.addLast(this);
if (deadline > 0) {
eventLoop.timer.addTimeout(timeoutTask, deadline);
}
state = AsyncCommand.DELAY_QUEUE;
return;
}
}
eventState.pending++;
eventLoop.pending++;
executeCommand(deadline, TimeoutState.BATCH_RETRY);
}
@Override
public void run() {
if (eventState.closed) {
queueError(new AerospikeException("Cluster has been closed"));
return;
}
long currentTime = 0;
if (hasTotalTimeout) {
currentTime = System.nanoTime();
if (state == AsyncCommand.REGISTERED) {
// Command was queued to event loop thread.
if (currentTime >= totalDeadline) {
// Command already timed out.
queueError(new AerospikeException.Timeout(command.policy, true));
return;
}
}
else {
totalDeadline = currentTime + TimeUnit.MILLISECONDS.toNanos(command.totalTimeout);
}
}
if (eventLoop.maxCommandsInProcess > 0) {
// Delay queue takes precedence over new commands.
eventLoop.executeFromDelayQueue();
// Handle new command.
if (eventLoop.pending >= eventLoop.maxCommandsInProcess) {
// Pending queue full. Append new command to delay queue.
if (eventLoop.maxCommandsInQueue > 0 && eventLoop.delayQueue.size() >= eventLoop.maxCommandsInQueue) {
queueError(new AerospikeException.AsyncQueueFull());
return;
}
eventLoop.delayQueue.addLast(this);
if (hasTotalTimeout) {
eventLoop.timer.addTimeout(timeoutTask, totalDeadline);
}
state = AsyncCommand.DELAY_QUEUE;
return;
}
}
long deadline = totalDeadline;
if (hasTotalTimeout) {
if (command.socketTimeout > 0) {
long socketDeadline = currentTime + TimeUnit.MILLISECONDS.toNanos(command.socketTimeout);
if (socketDeadline < totalDeadline) {
usingSocketTimeout = true;
deadline = socketDeadline;
}
}
}
else if (command.socketTimeout > 0) {
usingSocketTimeout = true;
deadline = System.nanoTime() + TimeUnit.MILLISECONDS.toNanos(command.socketTimeout);
}
eventState.pending++;
eventLoop.pending++;
executeCommand(deadline, TimeoutState.REGISTERED);
}
private final void queueError(AerospikeException ae) {
eventState.errors++;
state = AsyncCommand.COMPLETE;
notifyFailure(ae);
}
final void executeCommandFromDelayQueue() {
long deadline = totalDeadline;
if (command.socketTimeout > 0) {
long socketDeadline = System.nanoTime() + TimeUnit.MILLISECONDS.toNanos(command.socketTimeout);
if (hasTotalTimeout) {
if (socketDeadline < totalDeadline) {
// Transition from total timer to socket timer.
timeoutTask.cancel();
usingSocketTimeout = true;
deadline = socketDeadline;
}
}
else {
usingSocketTimeout = true;
deadline = socketDeadline;
}
}
eventState.pending++;
eventLoop.pending++;
executeCommand(deadline, TimeoutState.DELAY_QUEUE);
}
protected final void executeCommand(long deadline, int tstate) {
state = AsyncCommand.CONNECT;
iteration++;
try {
node = command.getNode(cluster);
node.validateErrorCount();
if (latencyType != LatencyType.NONE) {
begin = System.nanoTime();
}
byteBuffer = eventLoop.getByteBuffer();
conn = (NioConnection)node.getAsyncConnection(eventLoop.index, byteBuffer);
if (conn != null) {
setTimeoutTask(deadline, tstate);
conn.attach(this);
writeCommand();
return;
}
try {
if (command.policy.connectTimeout > 0) {
timeoutState = new TimeoutState(deadline, tstate);
deadline = timeoutState.start + TimeUnit.MILLISECONDS.toNanos(command.policy.connectTimeout);
timeoutTask.cancel();
eventLoop.timer.addTimeout(timeoutTask, deadline);
}
else {
setTimeoutTask(deadline, tstate);
}
conn = new NioConnection(node.getAddress());
node.connectionOpened(eventLoop.index);
}
catch (Throwable e) {
node.decrAsyncConnection(eventLoop.index);
throw e;
}
conn.registerConnect(eventLoop, this);
eventState.errors = 0;
}
catch (AerospikeException.Connection ac) {
eventState.errors++;
onNetworkError(ac, true);
}
catch (AerospikeException.Backoff ab) {
eventState.errors++;
retry(ab, true);
}
catch (AerospikeException ae) {
// Fail without retry on non-connection errors.
eventState.errors++;
fail();
notifyFailure(ae);
eventLoop.tryDelayQueue();
}
catch (IOException ioe) {
eventState.errors++;
onNetworkError(new AerospikeException.Connection(ioe), true);
}
catch (Throwable e) {
// Fail without retry on unknown errors.
eventState.errors++;
fail();
notifyFailure(new AerospikeException(e));
eventLoop.tryDelayQueue();
}
}
private final void setTimeoutTask(long deadline, int tstate) {
if (deadline <= 0) {
return;
}
switch(tstate) {
case TimeoutState.REGISTERED:
case TimeoutState.BATCH_RETRY:
case TimeoutState.TIMEOUT:
eventLoop.timer.addTimeout(timeoutTask, deadline);
break;
case TimeoutState.DELAY_QUEUE:
case TimeoutState.RETRY:
// Only set timeoutTask when not active.
if (! timeoutTask.active()) {
eventLoop.timer.addTimeout(timeoutTask, deadline);
}
break;
default:
break;
}
}
@Override
public void processEvent(SelectionKey key) {
try {
int ops = key.readyOps();
if ((ops & SelectionKey.OP_READ) != 0) {
read();
}
else if ((ops & SelectionKey.OP_WRITE) != 0) {
write();
}
else if ((ops & SelectionKey.OP_CONNECT) != 0) {
finishConnect();
}
}
catch (AerospikeException.Connection ac) {
onNetworkError(ac, false);
}
catch (AerospikeException ae) {
if (ae.getResultCode() == ResultCode.TIMEOUT) {
onServerTimeout();
}
else if (ae.getResultCode() == ResultCode.DEVICE_OVERLOAD) {
onDeviceOverload(ae);
}
else {
onApplicationError(ae);
}
}
catch (IOException ioe) {
onNetworkError(new AerospikeException.Connection(ioe), false);
}
catch (Throwable e) {
onApplicationError(new AerospikeException(e));
}
}
protected final void finishConnect() throws IOException {
conn.finishConnect();
if (cluster.authEnabled) {
byte[] token = node.getSessionToken();
if (token != null) {
writeAuth(token);
return;
}
}
if (timeoutState != null) {
restoreTimeout();
}
writeCommand();
}
private final void restoreTimeout() {
// Switch from connectTimeout back to previous timeout.
timeoutTask.cancel();
long elapsed = System.nanoTime() - timeoutState.start;
if (timeoutState.deadline > 0) {
timeoutState.deadline += elapsed;
}
if (totalDeadline > 0) {
totalDeadline += elapsed;
}
setTimeoutTask(timeoutState.deadline, timeoutState.state);
timeoutState = null;
}
private final void writeAuth(byte[] token) throws IOException {
state = AsyncCommand.AUTH_WRITE;
command.initBuffer();
AdminCommand admin = new AdminCommand(command.dataBuffer);
command.dataOffset = admin.setAuthenticate(cluster, token);
byteBuffer.clear();
byteBuffer.put(command.dataBuffer, 0, command.dataOffset);
byteBuffer.flip();
command.putBuffer();
if (conn.write(byteBuffer)) {
byteBuffer.clear();
byteBuffer.limit(8);
state = AsyncCommand.AUTH_READ_HEADER;
// Socket timeout applies only to read events.
// Reset event received because we are switching from a write to a read state.
// This handles case where write succeeds and read event does not occur. If we didn't reset,
// the socket timeout would go through two iterations (double the timeout) because a write
// event occurred in the first timeout period.
eventReceived = false;
conn.registerRead();
}
else {
conn.registerWrite();
}
}
private final void writeCommand() throws IOException {
state = AsyncCommand.COMMAND_WRITE;
command.writeBuffer();
if (command.dataOffset > byteBuffer.capacity()) {
byteBuffer = NioEventLoop.createByteBuffer(command.dataOffset);
}
byteBuffer.clear();
byteBuffer.put(command.dataBuffer, 0, command.dataOffset);
byteBuffer.flip();
command.putBuffer();
if (conn.write(byteBuffer)) {
byteBuffer.clear();
byteBuffer.limit(8);
state = AsyncCommand.COMMAND_READ_HEADER;
command.commandSentCounter++;
eventReceived = false;
conn.registerRead();
}
else {
conn.registerWrite();
}
}
protected final void write() throws IOException {
if (conn.write(byteBuffer)) {
byteBuffer.clear();
byteBuffer.limit(8);
if (state == AsyncCommand.COMMAND_WRITE) {
state = AsyncCommand.COMMAND_READ_HEADER;
command.commandSentCounter++;
}
else {
state = AsyncCommand.AUTH_READ_HEADER;
}
eventReceived = false;
conn.registerRead();
}
}
protected final void read() throws IOException {
eventReceived = true;
if (! conn.read(byteBuffer)) {
return;
}
switch (state) {
case AsyncCommand.AUTH_READ_HEADER:
readAuthHeader();
if (! conn.read(byteBuffer)) {
return;
}
// Fall through to AUTH_READ_BODY
case AsyncCommand.AUTH_READ_BODY:
readAuthBody();
if (timeoutState != null) {
restoreTimeout();
}
writeCommand();
break;
case AsyncCommand.COMMAND_READ_HEADER:
if (command.isSingle) {
readSingleHeader();
}
else {
readMultiHeader();
}
break;
case AsyncCommand.COMMAND_READ_BODY:
if (command.isSingle) {
readSingleBody();
}
else {
readMultiBody();
}
break;
}
}
private final void readAuthHeader() {
byteBuffer.position(0);
command.receiveSize = ((int) (byteBuffer.getLong() & 0xFFFFFFFFFFFFL));
if (command.receiveSize < 2 || command.receiveSize > byteBuffer.capacity()) {
throw new AerospikeException.Parse("Invalid auth receive size: " + command.receiveSize);
}
byteBuffer.clear();
byteBuffer.limit(command.receiveSize);
state = AsyncCommand.AUTH_READ_BODY;
}
private final void readAuthBody() {
int resultCode = byteBuffer.get(1) & 0xFF;
if (resultCode != 0 && resultCode != ResultCode.SECURITY_NOT_ENABLED) {
// Authentication failed. Session token probably expired.
// Signal tend thread to perform node login, so future
// transactions do not fail.
node.signalLogin();
// This is a rare event because the client tracks session
// expiration and will relogin before session expiration.
// Do not try to login on same socket because login can take
// a long time and thousands of simultaneous logins could
// overwhelm server.
throw new AerospikeException(resultCode);
}
}
private final void readSingleHeader() throws IOException {
byteBuffer.position(0);
int receiveSize = command.parseProto(byteBuffer.getLong());
if (receiveSize <= byteBuffer.capacity()) {
byteBuffer.clear();
}
else {
byteBuffer = NioEventLoop.createByteBuffer(receiveSize);
}
byteBuffer.limit(receiveSize);
state = AsyncCommand.COMMAND_READ_BODY;
if (conn.read(byteBuffer)) {
readSingleBody();
}
}
private final void readSingleBody() {
// Copy entire message to dataBuffer.
command.sizeBuffer(command.receiveSize);
byteBuffer.position(0);
byteBuffer.get(command.dataBuffer, 0, command.receiveSize);
conn.updateLastUsed();
command.parseCommandResult();
command.putBuffer();
finish();
}
private final void readMultiHeader() throws IOException {
if (! command.valid) {
throw new AerospikeException.QueryTerminated();
}
if (! parseGroupHeader()) {
return;
}
if (! conn.read(byteBuffer)) {
return;
}
readMultiBody();
}
private final void readMultiBody() throws IOException {
if (! command.valid) {
throw new AerospikeException.QueryTerminated();
}
if (! parseGroupBody()) {
return;
}
// In the interest of fairness, only one group of records should be read at a time.
// There is, however, one exception. The server returns the end code in a separate
// group that only has one dummy record header. Therefore, we continue to read
// this small group in order to avoid having to wait one more async iteration just
// to find out the batch/scan/query has already ended.
if (! conn.read(byteBuffer)) {
return;
}
if (! parseGroupHeader()) {
return;
}
if (command.receiveSize == Command.MSG_REMAINING_HEADER_SIZE) {
// We may be at end. Read ahead and parse.
if (! conn.read(byteBuffer)) {
return;
}
parseGroupBody();
}
}
private final boolean parseGroupHeader() {
byteBuffer.position(0);
int receiveSize = command.parseProto(byteBuffer.getLong());
if (receiveSize <= 0) {
// Received zero length block. Read next header.
byteBuffer.clear();
byteBuffer.limit(8);
state = AsyncCommand.COMMAND_READ_HEADER;
return false;
}
command.sizeBuffer(receiveSize);
command.dataOffset = 0;
byteBuffer.clear();
if (receiveSize < byteBuffer.capacity()) {
byteBuffer.limit(receiveSize);
}
state = AsyncCommand.COMMAND_READ_BODY;
return true;
}
private final boolean parseGroupBody() throws IOException {
do {
// Copy byteBuffer to byte[].
byteBuffer.position(0);
byteBuffer.get(command.dataBuffer, command.dataOffset, byteBuffer.limit());
command.dataOffset += byteBuffer.limit();
byteBuffer.clear();
if (command.dataOffset >= command.receiveSize) {
conn.updateLastUsed();
if (command.parseCommandResult()) {
finish();
return false;
}
// Prepare for next group.
byteBuffer.limit(8);
command.dataOffset = 0;
state = AsyncCommand.COMMAND_READ_HEADER;
return true;
}
else {
int remaining = command.receiveSize - command.dataOffset;
if (remaining < byteBuffer.capacity()) {
byteBuffer.limit(remaining);
}
if (! conn.read(byteBuffer)) {
return false;
}
}
} while (true);
}
@Override
public final void timeout() {
if (state == AsyncCommand.COMPLETE) {
return;
}
long currentTime = 0;
if (hasTotalTimeout) {
// Check total timeout.
currentTime = System.nanoTime();
if (currentTime >= totalDeadline) {
totalTimeout();
return;
}
if (usingSocketTimeout) {
// Socket idle timeout is in effect.
if (eventReceived) {
// Event(s) received within socket timeout period.
eventReceived = false;
long deadline = currentTime + TimeUnit.MILLISECONDS.toNanos(command.socketTimeout);
if (deadline >= totalDeadline) {
// Transition to total timeout.
deadline = totalDeadline;
usingSocketTimeout = false;
}
eventLoop.timer.addTimeout(timeoutTask, deadline);
return;
}
}
}
else {
// Check socket timeout.
if (eventReceived) {
// Event(s) received within socket timeout period.
eventReceived = false;
long socketDeadline = System.nanoTime() + TimeUnit.MILLISECONDS.toNanos(command.socketTimeout);
eventLoop.timer.addTimeout(timeoutTask, socketDeadline);
return;
}
}
// Check maxRetries.
if (iteration > command.maxRetries) {
totalTimeout();
return;
}
// Increment node's timeout counter.
node.addTimeout();
// Recover connection when possible.
recoverConnection();
// Attempt retry.
long timeout = TimeUnit.MILLISECONDS.toNanos(command.socketTimeout);
if (hasTotalTimeout) {
long remaining = totalDeadline - currentTime;
if (remaining <= timeout) {
// Transition to total timeout.
timeout = remaining;
usingSocketTimeout = false;
}
}
else {
currentTime = System.nanoTime();
}
long deadline = currentTime + timeout;
if (! command.prepareRetry(true)) {
// Batch may be retried in separate commands.
if (command.retryBatch(this, deadline)) {
// Batch retried in separate commands. Complete this command.
close();
return;
}
}
cluster.addRetry();
executeCommand(deadline, TimeoutState.TIMEOUT);
}
private final void totalTimeout() {
AerospikeException ae = new AerospikeException.Timeout(command.policy, true);
if (state == AsyncCommand.DELAY_QUEUE) {
// Command timed out in delay queue.
if (latencyType != LatencyType.NONE) {
cluster.addDelayQueueTimeout();
}
closeFromDelayQueue();
notifyFailure(ae);
return;
}
// Increment node's timeout counter.
node.addTimeout();
// Recover connection when possible.
recoverConnection();
// Perform timeout.
close();
notifyFailure(ae);
eventLoop.tryDelayQueue();
}
private final void recoverConnection() {
if (command.policy.timeoutDelay > 0 && (
state == AsyncCommand.COMMAND_READ_HEADER || state == AsyncCommand.COMMAND_READ_BODY ||
state == AsyncCommand.AUTH_READ_HEADER || state == AsyncCommand.AUTH_READ_BODY)) {
// Create new command to drain connection with existing byteBuffer.
new NioRecover(this);
// NioRecover took ownership of connection.
conn = null;
}
else {
closeConnection();
// Put byteBuffer back into pool.
if (byteBuffer != null) {
eventLoop.putByteBuffer(byteBuffer);
}
}
byteBuffer = null;
}
protected final void finish() {
complete();
if (latencyType != LatencyType.NONE) {
long elapsed = System.nanoTime() - begin;
node.addLatency(latencyType, elapsed);
}
try {
command.onSuccess();
}
catch (Throwable e) {
Log.error("onSuccess() error: " + Util.getErrorMessage(e));
}
eventLoop.tryDelayQueue();
}
protected final void onNetworkError(AerospikeException ae, boolean queueCommand) {
if (state == AsyncCommand.COMPLETE) {
return;
}
addError();
closeConnection();
retry(ae, queueCommand);
}
protected final void onServerTimeout() {
if (state == AsyncCommand.COMPLETE) {
return;
}
node.addTimeout();
conn.unregister();
node.putAsyncConnection(conn, eventLoop.index);
AerospikeException ae = new AerospikeException.Timeout(command.policy, false);
retry(ae, false);
}
protected final void onDeviceOverload(AerospikeException ae) {
if (state == AsyncCommand.COMPLETE) {
return;
}
addError();
conn.unregister();
node.putAsyncConnection(conn, eventLoop.index);
node.incrErrorRate();
retry(ae, false);
}
private final void retry(final AerospikeException ae, boolean queueCommand) {
// Check maxRetries.
if (iteration > command.maxRetries) {
// Fail command.
close();
notifyFailure(ae);
eventLoop.tryDelayQueue();
return;
}
long currentTime = 0;
// Check total timeout.
if (hasTotalTimeout) {
currentTime = System.nanoTime();
if (currentTime >= totalDeadline) {
// Fail command.
close();
notifyFailure(ae);
eventLoop.tryDelayQueue();
return;
}
}
long deadline = totalDeadline;
// Attempt retry.
if (usingSocketTimeout) {
// Socket timeout in effect.
timeoutTask.cancel();
long timeout = TimeUnit.MILLISECONDS.toNanos(command.socketTimeout);
if (hasTotalTimeout) {
long remaining = totalDeadline - currentTime;
if (remaining <= timeout) {
// Transition to total timeout.
timeout = remaining;
usingSocketTimeout = false;
}
}
else {
currentTime = System.nanoTime();
}
deadline = currentTime + timeout;
}
if (queueCommand) {
// Retry command at the end of the queue so other commands have a
// chance to run first.
final long d = deadline;
eventLoop.execute(new Runnable() {
@Override
public void run() {
if (state == AsyncCommand.COMPLETE) {
return;
}
retry(ae, d);
}
});
}
else {
// Retry command immediately.
retry(ae, deadline);
}
}
private final void retry(AerospikeException ae, long deadline) {
if (! command.prepareRetry(ae.getResultCode() != ResultCode.SERVER_NOT_AVAILABLE)) {
// Batch may be retried in separate commands.
if (command.retryBatch(this, deadline)) {
// Batch retried in separate commands. Complete this command.
close();
return;
}
}
cluster.addRetry();
executeCommand(deadline, TimeoutState.RETRY);
}
protected final void onApplicationError(AerospikeException ae) {
if (state == AsyncCommand.COMPLETE) {
return;
}
addError();
if (ae.keepConnection()) {
// Put connection back in pool.
complete();
}
else {
// Close socket to flush out possible garbage.
fail();
}
notifyFailure(ae);
eventLoop.tryDelayQueue();
}
private final void notifyFailure(AerospikeException ae) {
try {
ae.setNode(node);
ae.setPolicy(command.policy);
ae.setIteration(iteration);
ae.setInDoubt(command.isWrite(), command.commandSentCounter);
command.onFailure(ae);
}
catch (Throwable e) {
Log.error("onFailure() error: " + Util.getErrorMessage(e));
}
}
private void addError() {
// Some errors can occur before the node is assigned.
if (node != null) {
node.addError();
}
}
private final void complete() {
conn.unregister();
node.putAsyncConnection(conn, eventLoop.index);
close();
}
private final void fail() {
closeConnection();
close();
}
private final void closeConnection() {
if (conn != null) {
node.closeAsyncConnection(conn, eventLoop.index);
conn = null;
}
}
private final void closeFromDelayQueue() {
if (byteBuffer != null) {
eventLoop.putByteBuffer(byteBuffer);
}
command.putBuffer();
state = AsyncCommand.COMPLETE;
}
private final void close() {
timeoutTask.cancel();
if (byteBuffer != null) {
eventLoop.putByteBuffer(byteBuffer);
}
command.putBuffer();
state = AsyncCommand.COMPLETE;
eventState.pending--;
eventLoop.pending--;
}
}
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