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/*
 * Copyright 2012 The Netty Project
 *
 * The Netty Project 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 io.netty.channel;

import java.util.ArrayList;
import java.util.List;

import static io.netty.util.internal.ObjectUtil.checkPositive;
import static java.lang.Math.max;
import static java.lang.Math.min;

/**
 * The {@link RecvByteBufAllocator} that automatically increases and
 * decreases the predicted buffer size on feed back.
 * 

* It gradually increases the expected number of readable bytes if the previous * read fully filled the allocated buffer. It gradually decreases the expected * number of readable bytes if the read operation was not able to fill a certain * amount of the allocated buffer two times consecutively. Otherwise, it keeps * returning the same prediction. */ public class AdaptiveRecvByteBufAllocator extends DefaultMaxMessagesRecvByteBufAllocator { static final int DEFAULT_MINIMUM = 64; static final int DEFAULT_INITIAL = 1024; static final int DEFAULT_MAXIMUM = 65536; private static final int INDEX_INCREMENT = 4; private static final int INDEX_DECREMENT = 1; private static final int[] SIZE_TABLE; static { List sizeTable = new ArrayList(); for (int i = 16; i < 512; i += 16) { sizeTable.add(i); } for (int i = 512; i > 0; i <<= 1) { sizeTable.add(i); } SIZE_TABLE = new int[sizeTable.size()]; for (int i = 0; i < SIZE_TABLE.length; i ++) { SIZE_TABLE[i] = sizeTable.get(i); } } /** * @deprecated There is state for {@link #maxMessagesPerRead()} which is typically based upon channel type. */ @Deprecated public static final AdaptiveRecvByteBufAllocator DEFAULT = new AdaptiveRecvByteBufAllocator(); private static int getSizeTableIndex(final int size) { for (int low = 0, high = SIZE_TABLE.length - 1;;) { if (high < low) { return low; } if (high == low) { return high; } int mid = low + high >>> 1; int a = SIZE_TABLE[mid]; int b = SIZE_TABLE[mid + 1]; if (size > b) { low = mid + 1; } else if (size < a) { high = mid - 1; } else if (size == a) { return mid; } else { return mid + 1; } } } private final class HandleImpl extends MaxMessageHandle { private final int minIndex; private final int maxIndex; private int index; private int nextReceiveBufferSize; private boolean decreaseNow; HandleImpl(int minIndex, int maxIndex, int initial) { this.minIndex = minIndex; this.maxIndex = maxIndex; index = getSizeTableIndex(initial); nextReceiveBufferSize = SIZE_TABLE[index]; } @Override public void lastBytesRead(int bytes) { // If we read as much as we asked for we should check if we need to ramp up the size of our next guess. // This helps adjust more quickly when large amounts of data is pending and can avoid going back to // the selector to check for more data. Going back to the selector can add significant latency for large // data transfers. if (bytes == attemptedBytesRead()) { record(bytes); } super.lastBytesRead(bytes); } @Override public int guess() { return nextReceiveBufferSize; } private void record(int actualReadBytes) { if (actualReadBytes <= SIZE_TABLE[max(0, index - INDEX_DECREMENT)]) { if (decreaseNow) { index = max(index - INDEX_DECREMENT, minIndex); nextReceiveBufferSize = SIZE_TABLE[index]; decreaseNow = false; } else { decreaseNow = true; } } else if (actualReadBytes >= nextReceiveBufferSize) { index = min(index + INDEX_INCREMENT, maxIndex); nextReceiveBufferSize = SIZE_TABLE[index]; decreaseNow = false; } } @Override public void readComplete() { record(totalBytesRead()); } } private final int minIndex; private final int maxIndex; private final int initial; /** * Creates a new predictor with the default parameters. With the default * parameters, the expected buffer size starts from {@code 1024}, does not * go down below {@code 64}, and does not go up above {@code 65536}. */ public AdaptiveRecvByteBufAllocator() { this(DEFAULT_MINIMUM, DEFAULT_INITIAL, DEFAULT_MAXIMUM); } /** * Creates a new predictor with the specified parameters. * * @param minimum the inclusive lower bound of the expected buffer size * @param initial the initial buffer size when no feed back was received * @param maximum the inclusive upper bound of the expected buffer size */ public AdaptiveRecvByteBufAllocator(int minimum, int initial, int maximum) { checkPositive(minimum, "minimum"); if (initial < minimum) { throw new IllegalArgumentException("initial: " + initial); } if (maximum < initial) { throw new IllegalArgumentException("maximum: " + maximum); } int minIndex = getSizeTableIndex(minimum); if (SIZE_TABLE[minIndex] < minimum) { this.minIndex = minIndex + 1; } else { this.minIndex = minIndex; } int maxIndex = getSizeTableIndex(maximum); if (SIZE_TABLE[maxIndex] > maximum) { this.maxIndex = maxIndex - 1; } else { this.maxIndex = maxIndex; } this.initial = initial; } @SuppressWarnings("deprecation") @Override public Handle newHandle() { return new HandleImpl(minIndex, maxIndex, initial); } @Override public AdaptiveRecvByteBufAllocator respectMaybeMoreData(boolean respectMaybeMoreData) { super.respectMaybeMoreData(respectMaybeMoreData); return this; } }





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