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  • netty(七)buffer源码学习2

    概述

    文章主要介绍的是PoolArena,PoolChunk,PoolSubpage 三个类的源码

    PoolArena

    PoolArena 是netty 的内存池实现类,通过预先申请一块大的空间,然后对空间进行分配和回收,这样就不用频繁进行系统调用,提高性能。 PoolArena 由多个 chunk 组成,chunk 则由多个page 组成.

    PoolChunk

    Chunk 主要用来组织和管理多个Page的内存分配和释放,在netty中,Chunk 中的Page被构造成一棵二叉树。

    PoolSubpage

    PoolSubpage保存long[] 数组表示占用情况。数组中一个long元素最多表示64分空间的占用情况,假如某块空间分的分数多于64份,那么数组中加多一个元素,例如4字节分4份,long元素的第四位就可以表示完,要是128字节分128份,long数组就要添加多一个元素共2个元素,一个long表示64份。

    内存回收策略

    • chunk 回收 : 二叉树节点状态标识符
    • page 回收 : 维护块的使用状态来标识

    源码

    上面就是我们刚才讲的几个类的类结构。
    
    final class PoolSubpage<T> {
    	
    	//保持一个 PoolChunk 
        final PoolChunk<T> chunk;
        final int memoryMapIdx;
        final int runOffset;
        final int pageSize;
        final long[] bitmap;
    
        //前后指针
        PoolSubpage<T> prev;
        PoolSubpage<T> next;
    
        boolean doNotDestroy;
        int elemSize;
        int maxNumElems;
        int nextAvail;
        int bitmapLength;
        int numAvail;
    
        // TODO: Test if adding padding helps under contention
        //private long pad0, pad1, pad2, pad3, pad4, pad5, pad6, pad7;
    
        /** Special constructor that creates a linked list head */
        PoolSubpage(int pageSize) {
            chunk = null;
            memoryMapIdx = -1;
            runOffset = -1;
            elemSize = -1;
            this.pageSize = pageSize;
            bitmap = null;
        }
    
        ... 
    
    
    final class PoolChunkList<T> {
        private final PoolArena<T> arena;
        //前后指针
        private final PoolChunkList<T> nextList;
        PoolChunkList<T> prevList;
    
        ...
     }   
    
    
    abstract class PoolArena<T> {
    
        final PooledByteBufAllocator parent;
    
        private final int pageSize;
        private final int maxOrder;
        private final int pageShifts;
        private final int chunkSize;
        private final int subpageOverflowMask;
    
        private final PoolSubpage<T>[] tinySubpagePools;
        private final PoolSubpage<T>[] smallSubpagePools;
    
        private final PoolChunkList<T> q050;
        private final PoolChunkList<T> q025;
        private final PoolChunkList<T> q000;
        private final PoolChunkList<T> qInit;
        private final PoolChunkList<T> q075;
        private final PoolChunkList<T> q100;
    
        // TODO: Test if adding padding helps under contention
        //private long pad0, pad1, pad2, pad3, pad4, pad5, pad6, pad7;
    
        protected PoolArena(PooledByteBufAllocator parent, int pageSize, int maxOrder, int pageShifts, int chunkSize) {
            this.parent = parent;
            this.pageSize = pageSize;
            this.maxOrder = maxOrder;
            this.pageShifts = pageShifts;
            this.chunkSize = chunkSize;
            subpageOverflowMask = ~(pageSize - 1);
    
            tinySubpagePools = newSubpagePoolArray(512 >>> 4);
            for (int i = 0; i < tinySubpagePools.length; i ++) {
                tinySubpagePools[i] = newSubpagePoolHead(pageSize);
            }
    
            smallSubpagePools = newSubpagePoolArray(pageShifts - 9);
            for (int i = 0; i < smallSubpagePools.length; i ++) {
                smallSubpagePools[i] = newSubpagePoolHead(pageSize);
            }
    
            q100 = new PoolChunkList<T>(this, null, 100, Integer.MAX_VALUE);
            q075 = new PoolChunkList<T>(this, q100, 75, 100);
            q050 = new PoolChunkList<T>(this, q075, 50, 100);
            q025 = new PoolChunkList<T>(this, q050, 25, 75);
            q000 = new PoolChunkList<T>(this, q025, 1, 50);
            qInit = new PoolChunkList<T>(this, q000, Integer.MIN_VALUE, 25);
    
            q100.prevList = q075;
            q075.prevList = q050;
            q050.prevList = q025;
            q025.prevList = q000;
            q000.prevList = null;
            qInit.prevList = qInit;
        }
    
        ....
    
    
    

    源码分析 PooledDirectByteBuf

    开始看 PooledDirectByteBuf 的方法有点乱,我们可以从调用它的那个类开始分析。 PooledByteBufAllocator内部就是可以调用 PooledDirectByteBuf 生成 ByteBuf的类。它的使用如下 :

        public static void main(String[] args){
            /*
             * 内存池buffer 提供为外部的使用主要是通过 PooledByteBufAllocator 这个类堆外提供
             */
            PooledByteBufAllocator allocator = new PooledByteBufAllocator();
            ByteBuf directBuffer = allocator.directBuffer();
        }
    
    
    下面我们看一下 directBuffer 方法。 
    
        @Override
        public ByteBuf directBuffer() {
            return directBuffer(DEFAULT_INITIAL_CAPACITY, Integer.MAX_VALUE);
        }
    
    
        @Override
        public ByteBuf directBuffer(int initialCapacity, int maxCapacity) {
            if (initialCapacity == 0 && maxCapacity == 0) {
                return emptyBuf;
            }
            //校验
            validate(initialCapacity, maxCapacity);
            //子类实现,申请空间
            return newDirectBuffer(initialCapacity, maxCapacity);
        }
    
        // PooledByteBufAllocator 类中的实现
        @Override
        protected ByteBuf newDirectBuffer(int initialCapacity, int maxCapacity) {
            //No.1 缓冲中获取
            PoolThreadCache cache = threadCache.get();
            PoolArena<ByteBuffer> directArena = cache.directArena;
    
            ByteBuf buf;
            if (directArena != null) {
                buf = directArena.allocate(cache, initialCapacity, maxCapacity);
            } else {
                //假如缓冲中的 PoolArena 不存在
                if (PlatformDependent.hasUnsafe()) {
                    buf = new UnpooledUnsafeDirectByteBuf(this, initialCapacity, maxCapacity);
                } else {
                    buf = new UnpooledDirectByteBuf(this, initialCapacity, maxCapacity);
                }
            }
    
            return toLeakAwareBuffer(buf);
        }
    
        // PooledByteBufAllocator 类中的threadCache ,是个ThreadLocal 
        final ThreadLocal<PoolThreadCache> threadCache = new ThreadLocal<PoolThreadCache>() {
            private final AtomicInteger index = new AtomicInteger();
            @Override
            protected PoolThreadCache initialValue() {
                final int idx = index.getAndIncrement();
                final PoolArena<byte[]> heapArena;
                final PoolArena<ByteBuffer> directArena;
    
                if (heapArenas != null) {
                    heapArena = heapArenas[Math.abs(idx % heapArenas.length)];
                } else {
                    heapArena = null;
                }
    
                if (directArenas != null) {
                    directArena = directArenas[Math.abs(idx % directArenas.length)];
                } else {
                    directArena = null;
                }
    
                return new PoolThreadCache(heapArena, directArena);
            }
        };
        
    

    参考资料

    • 《netty权威指南》
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  • 原文地址:https://www.cnblogs.com/Benjious/p/11634891.html
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