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Netty 4 based transport implementation
/*
* Copyright Elasticsearch B.V. and/or licensed to Elasticsearch B.V. under one
* or more contributor license agreements. Licensed under the Elastic License
* 2.0 and the Server Side Public License, v 1; you may not use this file except
* in compliance with, at your election, the Elastic License 2.0 or the Server
* Side Public License, v 1.
*/
package org.elasticsearch.transport;
import io.netty.buffer.ByteBuf;
import io.netty.buffer.ByteBufAllocator;
import io.netty.buffer.CompositeByteBuf;
import io.netty.buffer.PooledByteBufAllocator;
import io.netty.buffer.UnpooledByteBufAllocator;
import io.netty.channel.Channel;
import io.netty.channel.ServerChannel;
import io.netty.channel.socket.nio.NioServerSocketChannel;
import org.apache.logging.log4j.LogManager;
import org.apache.logging.log4j.Logger;
import org.elasticsearch.common.unit.ByteSizeValue;
import org.elasticsearch.core.Booleans;
import org.elasticsearch.monitor.jvm.JvmInfo;
import java.util.concurrent.atomic.AtomicBoolean;
public class NettyAllocator {
private static final Logger logger = LogManager.getLogger(NettyAllocator.class);
private static final AtomicBoolean descriptionLogged = new AtomicBoolean(false);
private static final long SUGGESTED_MAX_ALLOCATION_SIZE;
private static final ByteBufAllocator ALLOCATOR;
private static final String DESCRIPTION;
private static final String USE_UNPOOLED = "es.use_unpooled_allocator";
private static final String USE_NETTY_DEFAULT = "es.unsafe.use_netty_default_allocator";
private static final String USE_NETTY_DEFAULT_CHUNK = "es.unsafe.use_netty_default_chunk_and_page_size";
static {
if (Booleans.parseBoolean(System.getProperty(USE_NETTY_DEFAULT), false)) {
ALLOCATOR = ByteBufAllocator.DEFAULT;
SUGGESTED_MAX_ALLOCATION_SIZE = 1024 * 1024;
DESCRIPTION = "[name=netty_default, suggested_max_allocation_size="
+ new ByteSizeValue(SUGGESTED_MAX_ALLOCATION_SIZE)
+ ", factors={es.unsafe.use_netty_default_allocator=true}]";
} else {
final long heapSizeInBytes = JvmInfo.jvmInfo().getMem().getHeapMax().getBytes();
final boolean g1gcEnabled = Boolean.parseBoolean(JvmInfo.jvmInfo().useG1GC());
final long g1gcRegionSizeInBytes = JvmInfo.jvmInfo().getG1RegionSize();
final boolean g1gcRegionSizeIsKnown = g1gcRegionSizeInBytes != -1;
ByteSizeValue heapSize = new ByteSizeValue(heapSizeInBytes);
ByteSizeValue g1gcRegionSize = new ByteSizeValue(g1gcRegionSizeInBytes);
ByteBufAllocator delegate;
if (useUnpooled(heapSizeInBytes, g1gcEnabled, g1gcRegionSizeIsKnown, g1gcRegionSizeInBytes)) {
delegate = UnpooledByteBufAllocator.DEFAULT;
if (g1gcEnabled && g1gcRegionSizeIsKnown) {
// Suggested max allocation size 1/4 of region size. Guard against unknown edge cases
// where this value would be less than 256KB.
SUGGESTED_MAX_ALLOCATION_SIZE = Math.max(g1gcRegionSizeInBytes >> 2, 256 * 1024);
} else {
SUGGESTED_MAX_ALLOCATION_SIZE = 1024 * 1024;
}
DESCRIPTION = "[name=unpooled, suggested_max_allocation_size="
+ new ByteSizeValue(SUGGESTED_MAX_ALLOCATION_SIZE)
+ ", factors={es.unsafe.use_unpooled_allocator="
+ System.getProperty(USE_UNPOOLED)
+ ", g1gc_enabled="
+ g1gcEnabled
+ ", g1gc_region_size="
+ g1gcRegionSize
+ ", heap_size="
+ heapSize
+ "}]";
} else {
int nHeapArena = PooledByteBufAllocator.defaultNumHeapArena();
int pageSize;
int maxOrder;
if (useDefaultChunkAndPageSize()) {
pageSize = PooledByteBufAllocator.defaultPageSize();
maxOrder = PooledByteBufAllocator.defaultMaxOrder();
} else {
pageSize = 8192;
if (g1gcEnabled == false || g1gcRegionSizeIsKnown == false || g1gcRegionSizeInBytes >= (4 * 1024 * 1024)) {
// This combined with a 8192 page size = 1 MB chunk sizes
maxOrder = 7;
} else if (g1gcRegionSizeInBytes >= (2 * 1024 * 1024)) {
// This combined with a 8192 page size = 512 KB chunk sizes
maxOrder = 6;
} else {
// This combined with a 8192 page size = 256 KB chunk sizes
maxOrder = 5;
}
}
int tinyCacheSize = PooledByteBufAllocator.defaultTinyCacheSize();
int smallCacheSize = PooledByteBufAllocator.defaultSmallCacheSize();
int normalCacheSize = PooledByteBufAllocator.defaultNormalCacheSize();
boolean useCacheForAllThreads = PooledByteBufAllocator.defaultUseCacheForAllThreads();
delegate = new PooledByteBufAllocator(
false,
nHeapArena,
0,
pageSize,
maxOrder,
tinyCacheSize,
smallCacheSize,
normalCacheSize,
useCacheForAllThreads
);
int chunkSizeInBytes = pageSize << maxOrder;
ByteSizeValue chunkSize = new ByteSizeValue(chunkSizeInBytes);
SUGGESTED_MAX_ALLOCATION_SIZE = chunkSizeInBytes;
DESCRIPTION = "[name=elasticsearch_configured, chunk_size="
+ chunkSize
+ ", suggested_max_allocation_size="
+ new ByteSizeValue(SUGGESTED_MAX_ALLOCATION_SIZE)
+ ", factors={es.unsafe.use_netty_default_chunk_and_page_size="
+ useDefaultChunkAndPageSize()
+ ", g1gc_enabled="
+ g1gcEnabled
+ ", g1gc_region_size="
+ g1gcRegionSize
+ "}]";
}
ALLOCATOR = new NoDirectBuffers(delegate);
}
}
public static void logAllocatorDescriptionIfNeeded() {
if (descriptionLogged.compareAndSet(false, true)) {
logger.info("creating NettyAllocator with the following configs: " + NettyAllocator.getAllocatorDescription());
}
}
public static ByteBufAllocator getAllocator() {
return ALLOCATOR;
}
public static long suggestedMaxAllocationSize() {
return SUGGESTED_MAX_ALLOCATION_SIZE;
}
public static String getAllocatorDescription() {
return DESCRIPTION;
}
public static Class extends Channel> getChannelType() {
if (ALLOCATOR instanceof NoDirectBuffers) {
return CopyBytesSocketChannel.class;
} else {
return Netty4NioSocketChannel.class;
}
}
public static Class extends ServerChannel> getServerChannelType() {
if (ALLOCATOR instanceof NoDirectBuffers) {
return CopyBytesServerSocketChannel.class;
} else {
return NioServerSocketChannel.class;
}
}
private static boolean useUnpooled(long heapSizeInBytes, boolean g1gcEnabled, boolean g1gcRegionSizeIsKnown, long g1RegionSize) {
if (userForcedUnpooled()) {
return true;
} else if (userForcedPooled()) {
return true;
} else if (heapSizeInBytes <= 1 << 30) {
// If the heap is 1GB or less we use unpooled
return true;
} else if (g1gcEnabled == false) {
return false;
} else {
// If the G1GC is enabled and the region size is known and is less than 1MB we use unpooled.
boolean g1gcRegionIsLessThan1MB = g1RegionSize < 1 << 20;
return (g1gcRegionSizeIsKnown && g1gcRegionIsLessThan1MB);
}
}
private static boolean userForcedUnpooled() {
if (System.getProperty(USE_UNPOOLED) != null) {
return Booleans.parseBoolean(System.getProperty(USE_UNPOOLED));
} else {
return false;
}
}
private static boolean userForcedPooled() {
if (System.getProperty(USE_UNPOOLED) != null) {
return Booleans.parseBoolean(System.getProperty(USE_UNPOOLED)) == false;
} else {
return false;
}
}
private static boolean useDefaultChunkAndPageSize() {
if (System.getProperty(USE_NETTY_DEFAULT_CHUNK) != null) {
return Booleans.parseBoolean(System.getProperty(USE_NETTY_DEFAULT_CHUNK));
} else {
return false;
}
}
public static class NoDirectBuffers implements ByteBufAllocator {
private final ByteBufAllocator delegate;
private NoDirectBuffers(ByteBufAllocator delegate) {
this.delegate = delegate;
}
@Override
public ByteBuf buffer() {
return heapBuffer();
}
@Override
public ByteBuf buffer(int initialCapacity) {
return heapBuffer(initialCapacity);
}
@Override
public ByteBuf buffer(int initialCapacity, int maxCapacity) {
return heapBuffer(initialCapacity, maxCapacity);
}
@Override
public ByteBuf ioBuffer() {
return heapBuffer();
}
@Override
public ByteBuf ioBuffer(int initialCapacity) {
return heapBuffer(initialCapacity);
}
@Override
public ByteBuf ioBuffer(int initialCapacity, int maxCapacity) {
return heapBuffer(initialCapacity, maxCapacity);
}
@Override
public ByteBuf heapBuffer() {
return delegate.heapBuffer();
}
@Override
public ByteBuf heapBuffer(int initialCapacity) {
return delegate.heapBuffer(initialCapacity);
}
@Override
public ByteBuf heapBuffer(int initialCapacity, int maxCapacity) {
return delegate.heapBuffer(initialCapacity, maxCapacity);
}
@Override
public ByteBuf directBuffer() {
throw new UnsupportedOperationException("Direct buffers not supported");
}
@Override
public ByteBuf directBuffer(int initialCapacity) {
throw new UnsupportedOperationException("Direct buffers not supported");
}
@Override
public ByteBuf directBuffer(int initialCapacity, int maxCapacity) {
throw new UnsupportedOperationException("Direct buffers not supported");
}
@Override
public CompositeByteBuf compositeBuffer() {
return compositeHeapBuffer();
}
@Override
public CompositeByteBuf compositeBuffer(int maxNumComponents) {
return compositeHeapBuffer(maxNumComponents);
}
@Override
public CompositeByteBuf compositeHeapBuffer() {
return delegate.compositeHeapBuffer();
}
@Override
public CompositeByteBuf compositeHeapBuffer(int maxNumComponents) {
return delegate.compositeHeapBuffer(maxNumComponents);
}
@Override
public CompositeByteBuf compositeDirectBuffer() {
throw new UnsupportedOperationException("Direct buffers not supported.");
}
@Override
public CompositeByteBuf compositeDirectBuffer(int maxNumComponents) {
throw new UnsupportedOperationException("Direct buffers not supported.");
}
@Override
public boolean isDirectBufferPooled() {
assert delegate.isDirectBufferPooled() == false;
return false;
}
@Override
public int calculateNewCapacity(int minNewCapacity, int maxCapacity) {
return delegate.calculateNewCapacity(minNewCapacity, maxCapacity);
}
public ByteBufAllocator getDelegate() {
return delegate;
}
}
}
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