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/*
 * Copyright 2014 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.epoll;

import io.netty.buffer.ByteBuf;
import io.netty.buffer.CompositeByteBuf;
import io.netty.channel.ChannelOutboundBuffer.MessageProcessor;
import io.netty.util.internal.PlatformDependent;

import java.nio.ByteBuffer;

/**
 * Represent an array of struct array and so can be passed directly over via JNI without the need to do any more
 * array copies.
 *
 * The buffers are written out directly into direct memory to match the struct iov. See also {@code man writev}.
 *
 * 
 * struct iovec {
 *   void  *iov_base;
 *   size_t iov_len;
 * };
 * 
* * See also * Efficient JNI programming IV: Wrapping native data objects. */ final class IovArray implements MessageProcessor { /** The size of an address which should be 8 for 64 bits and 4 for 32 bits. */ private static final int ADDRESS_SIZE = PlatformDependent.addressSize(); /** * The size of an {@code iovec} struct in bytes. This is calculated as we have 2 entries each of the size of the * address. */ private static final int IOV_SIZE = 2 * ADDRESS_SIZE; /** * The needed memory to hold up to {@link Native#IOV_MAX} iov entries, where {@link Native#IOV_MAX} signified * the maximum number of {@code iovec} structs that can be passed to {@code writev(...)}. */ private static final int CAPACITY = Native.IOV_MAX * IOV_SIZE; private final long memoryAddress; private int count; private long size; IovArray() { memoryAddress = PlatformDependent.allocateMemory(CAPACITY); } void clear() { count = 0; size = 0; } /** * Try to add the given {@link ByteBuf}. Returns {@code true} on success, * {@code false} otherwise. */ boolean add(ByteBuf buf) { if (count == Native.IOV_MAX) { // No more room! return false; } final int len = buf.readableBytes(); if (len == 0) { // No need to add an empty buffer. // We return true here because we want ChannelOutboundBuffer.forEachFlushedMessage() to continue // fetching the next buffers. return true; } final long addr = buf.memoryAddress(); final int offset = buf.readerIndex(); return add(addr, offset, len); } private boolean add(long addr, int offset, int len) { if (len == 0) { // No need to add an empty buffer. return true; } final long baseOffset = memoryAddress(count++); final long lengthOffset = baseOffset + ADDRESS_SIZE; if (Native.SSIZE_MAX - len < size) { // If the size + len will overflow an SSIZE_MAX we stop populate the IovArray. This is done as linux // not allow to write more bytes then SSIZE_MAX with one writev(...) call and so will // return 'EINVAL', which will raise an IOException. // // See also: // - http://linux.die.net/man/2/writev return false; } size += len; if (ADDRESS_SIZE == 8) { // 64bit PlatformDependent.putLong(baseOffset, addr + offset); PlatformDependent.putLong(lengthOffset, len); } else { assert ADDRESS_SIZE == 4; PlatformDependent.putInt(baseOffset, (int) addr + offset); PlatformDependent.putInt(lengthOffset, len); } return true; } /** * Try to add the given {@link CompositeByteBuf}. Returns {@code true} on success, * {@code false} otherwise. */ boolean add(CompositeByteBuf buf) { ByteBuffer[] buffers = buf.nioBuffers(); if (count + buffers.length >= Native.IOV_MAX) { // No more room! return false; } for (int i = 0; i < buffers.length; i++) { ByteBuffer nioBuffer = buffers[i]; int offset = nioBuffer.position(); int len = nioBuffer.limit() - nioBuffer.position(); if (len == 0) { // No need to add an empty buffer so just continue continue; } long addr = PlatformDependent.directBufferAddress(nioBuffer); if (!add(addr, offset, len)) { return false; } } return true; } /** * Process the written iov entries. This will return the length of the iov entry on the given index if it is * smaller then the given {@code written} value. Otherwise it returns {@code -1}. */ long processWritten(int index, long written) { long baseOffset = memoryAddress(index); long lengthOffset = baseOffset + ADDRESS_SIZE; if (ADDRESS_SIZE == 8) { // 64bit long len = PlatformDependent.getLong(lengthOffset); if (len > written) { long offset = PlatformDependent.getLong(baseOffset); PlatformDependent.putLong(baseOffset, offset + written); PlatformDependent.putLong(lengthOffset, len - written); return -1; } return len; } else { assert ADDRESS_SIZE == 4; long len = PlatformDependent.getInt(lengthOffset); if (len > written) { int offset = PlatformDependent.getInt(baseOffset); PlatformDependent.putInt(baseOffset, (int) (offset + written)); PlatformDependent.putInt(lengthOffset, (int) (len - written)); return -1; } return len; } } /** * Returns the number if iov entries. */ int count() { return count; } /** * Returns the size in bytes */ long size() { return size; } /** * Returns the {@code memoryAddress} for the given {@code offset}. */ long memoryAddress(int offset) { return memoryAddress + IOV_SIZE * offset; } /** * Release the {@link IovArray}. Once release further using of it may crash the JVM! */ void release() { PlatformDependent.freeMemory(memoryAddress); } @Override public boolean processMessage(Object msg) throws Exception { if (msg instanceof ByteBuf) { if (msg instanceof CompositeByteBuf) { return add((CompositeByteBuf) msg); } else { return add((ByteBuf) msg); } } return false; } }




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