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JDBC client implementation over Table client, single jar
/*
* Copyright 2015 The gRPC Authors
*
* 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 io.grpc.netty;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.Preconditions;
import com.google.errorprone.annotations.CanIgnoreReturnValue;
import io.netty.channel.Channel;
import io.netty.channel.ChannelFuture;
import io.netty.channel.ChannelPromise;
import io.perfmark.Link;
import io.perfmark.PerfMark;
import java.util.Queue;
import java.util.concurrent.ConcurrentLinkedQueue;
import java.util.concurrent.atomic.AtomicBoolean;
/**
* A queue of pending writes to a {@link Channel} that is flushed as a single unit.
*/
class WriteQueue {
// Dequeue in chunks, so we don't have to acquire the queue's log too often.
@VisibleForTesting
static final int DEQUE_CHUNK_SIZE = 128;
/**
* {@link Runnable} used to schedule work onto the tail of the event loop.
*/
private final Runnable later = new Runnable() {
@Override
public void run() {
flush();
}
};
private final Channel channel;
private final Queue queue;
private final AtomicBoolean scheduled = new AtomicBoolean();
public WriteQueue(Channel channel) {
this.channel = Preconditions.checkNotNull(channel, "channel");
queue = new ConcurrentLinkedQueue<>();
}
/**
* Schedule a flush on the channel.
*/
void scheduleFlush() {
if (scheduled.compareAndSet(false, true)) {
// Add the queue to the tail of the event loop so writes will be executed immediately
// inside the event loop. Note DO NOT do channel.write outside the event loop as
// it will not wake up immediately without a flush.
channel.eventLoop().execute(later);
}
}
/**
* Enqueue a write command on the channel.
*
* @param command a write to be executed on the channel.
* @param flush true if a flush of the write should be schedule, false if a later call to
* enqueue will schedule the flush.
*/
@CanIgnoreReturnValue
ChannelFuture enqueue(QueuedCommand command, boolean flush) {
// Detect erroneous code that tries to reuse command objects.
Preconditions.checkArgument(command.promise() == null, "promise must not be set on command");
ChannelPromise promise = channel.newPromise();
command.promise(promise);
queue.add(command);
if (flush) {
scheduleFlush();
}
return promise;
}
/**
* Enqueue the runnable. It is not safe for another thread to queue an Runnable directly to the
* event loop, because it will be out-of-order with writes. This method allows the Runnable to be
* processed in-order with writes.
*/
void enqueue(Runnable runnable, boolean flush) {
queue.add(new RunnableCommand(runnable));
if (flush) {
scheduleFlush();
}
}
/**
* Executes enqueued work directly on the current thread. This can be used to trigger writes
* before performing additional reads. Must be called from the event loop. This method makes no
* guarantee that the work queue is empty when it returns.
*/
void drainNow() {
Preconditions.checkState(channel.eventLoop().inEventLoop(), "must be on the event loop");
if (queue.peek() == null) {
return;
}
flush();
}
/**
* Process the queue of commands and dispatch them to the stream. This method is only
* called in the event loop
*/
private void flush() {
PerfMark.startTask("WriteQueue.periodicFlush");
try {
QueuedCommand cmd;
int i = 0;
boolean flushedOnce = false;
while ((cmd = queue.poll()) != null) {
cmd.run(channel);
if (++i == DEQUE_CHUNK_SIZE) {
i = 0;
// Flush each chunk so we are releasing buffers periodically. In theory this loop
// might never end as new events are continuously added to the queue, if we never
// flushed in that case we would be guaranteed to OOM.
PerfMark.startTask("WriteQueue.flush0");
try {
channel.flush();
} finally {
PerfMark.stopTask("WriteQueue.flush0");
}
flushedOnce = true;
}
}
// Must flush at least once, even if there were no writes.
if (i != 0 || !flushedOnce) {
PerfMark.startTask("WriteQueue.flush1");
try {
channel.flush();
} finally {
PerfMark.stopTask("WriteQueue.flush1");
}
}
} finally {
PerfMark.stopTask("WriteQueue.periodicFlush");
// Mark the write as done, if the queue is non-empty after marking trigger a new write.
scheduled.set(false);
if (!queue.isEmpty()) {
scheduleFlush();
}
}
}
private static class RunnableCommand implements QueuedCommand {
private final Runnable runnable;
private final Link link;
public RunnableCommand(Runnable runnable) {
this.link = PerfMark.linkOut();
this.runnable = runnable;
}
@Override
public final void promise(ChannelPromise promise) {
throw new UnsupportedOperationException();
}
@Override
public final ChannelPromise promise() {
throw new UnsupportedOperationException();
}
@Override
public final void run(Channel channel) {
runnable.run();
}
@Override
public Link getLink() {
return link;
}
}
abstract static class AbstractQueuedCommand implements QueuedCommand {
private ChannelPromise promise;
private final Link link;
AbstractQueuedCommand() {
this.link = PerfMark.linkOut();
}
@Override
public final void promise(ChannelPromise promise) {
this.promise = promise;
}
@Override
public final ChannelPromise promise() {
return promise;
}
@Override
public final void run(Channel channel) {
channel.write(this, promise);
}
@Override
public Link getLink() {
return link;
}
}
/**
* Simple wrapper type around a command and its optional completion listener.
*/
interface QueuedCommand {
/**
* Returns the promise beeing notified of the success/failure of the write.
*/
ChannelPromise promise();
/**
* Sets the promise.
*/
void promise(ChannelPromise promise);
void run(Channel channel);
Link getLink();
}
}