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/*
 * Copyright 2002-2020 the original author or 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
 *
 *      https://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 org.springframework.util;

import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.security.MessageDigest;
import java.util.ArrayDeque;
import java.util.Deque;
import java.util.Iterator;

import org.springframework.lang.Nullable;

/**
 * A speedy alternative to {@link java.io.ByteArrayOutputStream}. Note that
 * this variant does not extend {@code ByteArrayOutputStream}, unlike
 * its sibling {@link ResizableByteArrayOutputStream}.
 *
 * 

Unlike {@link java.io.ByteArrayOutputStream}, this implementation is backed * by an {@link java.util.ArrayDeque} of {@code byte[]} instead of 1 constantly * resizing {@code byte[]}. It does not copy buffers when it gets expanded. * *

The initial buffer is only created when the stream is first written. * There is also no copying of the internal buffer if its contents is extracted * with the {@link #writeTo(OutputStream)} method. * * @author Craig Andrews * @author Juergen Hoeller * @since 4.2 * @see #resize * @see ResizableByteArrayOutputStream */ public class FastByteArrayOutputStream extends OutputStream { private static final int DEFAULT_BLOCK_SIZE = 256; // The buffers used to store the content bytes private final Deque buffers = new ArrayDeque<>(); // The size, in bytes, to use when allocating the first byte[] private final int initialBlockSize; // The size, in bytes, to use when allocating the next byte[] private int nextBlockSize = 0; // The number of bytes in previous buffers. // (The number of bytes in the current buffer is in 'index'.) private int alreadyBufferedSize = 0; // The index in the byte[] found at buffers.getLast() to be written next private int index = 0; // Is the stream closed? private boolean closed = false; /** * Create a new FastByteArrayOutputStream * with the default initial capacity of 256 bytes. */ public FastByteArrayOutputStream() { this(DEFAULT_BLOCK_SIZE); } /** * Create a new FastByteArrayOutputStream * with the specified initial capacity. * @param initialBlockSize the initial buffer size in bytes */ public FastByteArrayOutputStream(int initialBlockSize) { Assert.isTrue(initialBlockSize > 0, "Initial block size must be greater than 0"); this.initialBlockSize = initialBlockSize; this.nextBlockSize = initialBlockSize; } // Overridden methods @Override public void write(int datum) throws IOException { if (this.closed) { throw new IOException("Stream closed"); } else { if (this.buffers.peekLast() == null || this.buffers.getLast().length == this.index) { addBuffer(1); } // store the byte this.buffers.getLast()[this.index++] = (byte) datum; } } @Override public void write(byte[] data, int offset, int length) throws IOException { if (offset < 0 || offset + length > data.length || length < 0) { throw new IndexOutOfBoundsException(); } else if (this.closed) { throw new IOException("Stream closed"); } else { if (this.buffers.peekLast() == null || this.buffers.getLast().length == this.index) { addBuffer(length); } if (this.index + length > this.buffers.getLast().length) { int pos = offset; do { if (this.index == this.buffers.getLast().length) { addBuffer(length); } int copyLength = this.buffers.getLast().length - this.index; if (length < copyLength) { copyLength = length; } System.arraycopy(data, pos, this.buffers.getLast(), this.index, copyLength); pos += copyLength; this.index += copyLength; length -= copyLength; } while (length > 0); } else { // copy in the sub-array System.arraycopy(data, offset, this.buffers.getLast(), this.index, length); this.index += length; } } } @Override public void close() { this.closed = true; } /** * Convert the buffer's contents into a string decoding bytes using the * platform's default character set. The length of the new String * is a function of the character set, and hence may not be equal to the * size of the buffer. *

This method always replaces malformed-input and unmappable-character * sequences with the default replacement string for the platform's * default character set. The {@linkplain java.nio.charset.CharsetDecoder} * class should be used when more control over the decoding process is * required. * @return a String decoded from the buffer's contents */ @Override public String toString() { return new String(toByteArrayUnsafe()); } // Custom methods /** * Return the number of bytes stored in this FastByteArrayOutputStream. */ public int size() { return (this.alreadyBufferedSize + this.index); } /** * Convert the stream's data to a byte array and return the byte array. *

Also replaces the internal structures with the byte array to conserve memory: * if the byte array is being made anyways, mind as well as use it. This approach * also means that if this method is called twice without any writes in between, * the second call is a no-op. *

This method is "unsafe" as it returns the internal buffer. * Callers should not modify the returned buffer. * @return the current contents of this output stream, as a byte array. * @see #size() * @see #toByteArray() */ public byte[] toByteArrayUnsafe() { int totalSize = size(); if (totalSize == 0) { return new byte[0]; } resize(totalSize); return this.buffers.getFirst(); } /** * Creates a newly allocated byte array. *

Its size is the current * size of this output stream and the valid contents of the buffer * have been copied into it.

* @return the current contents of this output stream, as a byte array. * @see #size() * @see #toByteArrayUnsafe() */ public byte[] toByteArray() { byte[] bytesUnsafe = toByteArrayUnsafe(); return bytesUnsafe.clone(); } /** * Reset the contents of this FastByteArrayOutputStream. *

All currently accumulated output in the output stream is discarded. * The output stream can be used again. */ public void reset() { this.buffers.clear(); this.nextBlockSize = this.initialBlockSize; this.closed = false; this.index = 0; this.alreadyBufferedSize = 0; } /** * Get an {@link InputStream} to retrieve the data in this OutputStream. *

Note that if any methods are called on the OutputStream * (including, but not limited to, any of the write methods, {@link #reset()}, * {@link #toByteArray()}, and {@link #toByteArrayUnsafe()}) then the * {@link java.io.InputStream}'s behavior is undefined. * @return {@link InputStream} of the contents of this OutputStream */ public InputStream getInputStream() { return new FastByteArrayInputStream(this); } /** * Write the buffers content to the given OutputStream. * @param out the OutputStream to write to */ public void writeTo(OutputStream out) throws IOException { Iterator it = this.buffers.iterator(); while (it.hasNext()) { byte[] bytes = it.next(); if (it.hasNext()) { out.write(bytes, 0, bytes.length); } else { out.write(bytes, 0, this.index); } } } /** * Resize the internal buffer size to a specified capacity. * @param targetCapacity the desired size of the buffer * @throws IllegalArgumentException if the given capacity is smaller than * the actual size of the content stored in the buffer already * @see FastByteArrayOutputStream#size() */ public void resize(int targetCapacity) { Assert.isTrue(targetCapacity >= size(), "New capacity must not be smaller than current size"); if (this.buffers.peekFirst() == null) { this.nextBlockSize = targetCapacity - size(); } else if (size() == targetCapacity && this.buffers.getFirst().length == targetCapacity) { // do nothing - already at the targetCapacity } else { int totalSize = size(); byte[] data = new byte[targetCapacity]; int pos = 0; Iterator it = this.buffers.iterator(); while (it.hasNext()) { byte[] bytes = it.next(); if (it.hasNext()) { System.arraycopy(bytes, 0, data, pos, bytes.length); pos += bytes.length; } else { System.arraycopy(bytes, 0, data, pos, this.index); } } this.buffers.clear(); this.buffers.add(data); this.index = totalSize; this.alreadyBufferedSize = 0; } } /** * Create a new buffer and store it in the ArrayDeque. *

Adds a new buffer that can store at least {@code minCapacity} bytes. */ private void addBuffer(int minCapacity) { if (this.buffers.peekLast() != null) { this.alreadyBufferedSize += this.index; this.index = 0; } if (this.nextBlockSize < minCapacity) { this.nextBlockSize = nextPowerOf2(minCapacity); } this.buffers.add(new byte[this.nextBlockSize]); this.nextBlockSize *= 2; // block size doubles each time } /** * Get the next power of 2 of a number (ex, the next power of 2 of 119 is 128). */ private static int nextPowerOf2(int val) { val--; val = (val >> 1) | val; val = (val >> 2) | val; val = (val >> 4) | val; val = (val >> 8) | val; val = (val >> 16) | val; val++; return val; } /** * An implementation of {@link java.io.InputStream} that reads from a given * FastByteArrayOutputStream. */ private static final class FastByteArrayInputStream extends UpdateMessageDigestInputStream { private final FastByteArrayOutputStream fastByteArrayOutputStream; private final Iterator buffersIterator; @Nullable private byte[] currentBuffer; private int currentBufferLength = 0; private int nextIndexInCurrentBuffer = 0; private int totalBytesRead = 0; /** * Create a new FastByteArrayOutputStreamInputStream backed * by the given FastByteArrayOutputStream. */ public FastByteArrayInputStream(FastByteArrayOutputStream fastByteArrayOutputStream) { this.fastByteArrayOutputStream = fastByteArrayOutputStream; this.buffersIterator = fastByteArrayOutputStream.buffers.iterator(); if (this.buffersIterator.hasNext()) { this.currentBuffer = this.buffersIterator.next(); if (this.currentBuffer == fastByteArrayOutputStream.buffers.getLast()) { this.currentBufferLength = fastByteArrayOutputStream.index; } else { this.currentBufferLength = (this.currentBuffer != null ? this.currentBuffer.length : 0); } } } @Override public int read() { if (this.currentBuffer == null) { // This stream doesn't have any data in it... return -1; } else { if (this.nextIndexInCurrentBuffer < this.currentBufferLength) { this.totalBytesRead++; return this.currentBuffer[this.nextIndexInCurrentBuffer++] & 0xFF; } else { if (this.buffersIterator.hasNext()) { this.currentBuffer = this.buffersIterator.next(); updateCurrentBufferLength(); this.nextIndexInCurrentBuffer = 0; } else { this.currentBuffer = null; } return read(); } } } @Override public int read(byte[] b) { return read(b, 0, b.length); } @Override public int read(byte[] b, int off, int len) { if (off < 0 || len < 0 || len > b.length - off) { throw new IndexOutOfBoundsException(); } else if (len == 0) { return 0; } else { if (this.currentBuffer == null) { // This stream doesn't have any data in it... return -1; } else { if (this.nextIndexInCurrentBuffer < this.currentBufferLength) { int bytesToCopy = Math.min(len, this.currentBufferLength - this.nextIndexInCurrentBuffer); System.arraycopy(this.currentBuffer, this.nextIndexInCurrentBuffer, b, off, bytesToCopy); this.totalBytesRead += bytesToCopy; this.nextIndexInCurrentBuffer += bytesToCopy; int remaining = read(b, off + bytesToCopy, len - bytesToCopy); return bytesToCopy + Math.max(remaining, 0); } else { if (this.buffersIterator.hasNext()) { this.currentBuffer = this.buffersIterator.next(); updateCurrentBufferLength(); this.nextIndexInCurrentBuffer = 0; } else { this.currentBuffer = null; } return read(b, off, len); } } } } @Override public long skip(long n) throws IOException { if (n > Integer.MAX_VALUE) { throw new IllegalArgumentException("n exceeds maximum (" + Integer.MAX_VALUE + "): " + n); } else if (n == 0) { return 0; } else if (n < 0) { throw new IllegalArgumentException("n must be 0 or greater: " + n); } int len = (int) n; if (this.currentBuffer == null) { // This stream doesn't have any data in it... return 0; } else { if (this.nextIndexInCurrentBuffer < this.currentBufferLength) { int bytesToSkip = Math.min(len, this.currentBufferLength - this.nextIndexInCurrentBuffer); this.totalBytesRead += bytesToSkip; this.nextIndexInCurrentBuffer += bytesToSkip; return (bytesToSkip + skip(len - bytesToSkip)); } else { if (this.buffersIterator.hasNext()) { this.currentBuffer = this.buffersIterator.next(); updateCurrentBufferLength(); this.nextIndexInCurrentBuffer = 0; } else { this.currentBuffer = null; } return skip(len); } } } @Override public int available() { return (this.fastByteArrayOutputStream.size() - this.totalBytesRead); } /** * Update the message digest with the remaining bytes in this stream. * @param messageDigest the message digest to update */ @Override public void updateMessageDigest(MessageDigest messageDigest) { updateMessageDigest(messageDigest, available()); } /** * Update the message digest with the next len bytes in this stream. * Avoids creating new byte arrays and use internal buffers for performance. * @param messageDigest the message digest to update * @param len how many bytes to read from this stream and use to update the message digest */ @Override public void updateMessageDigest(MessageDigest messageDigest, int len) { if (this.currentBuffer == null) { // This stream doesn't have any data in it... return; } else if (len == 0) { return; } else if (len < 0) { throw new IllegalArgumentException("len must be 0 or greater: " + len); } else { if (this.nextIndexInCurrentBuffer < this.currentBufferLength) { int bytesToCopy = Math.min(len, this.currentBufferLength - this.nextIndexInCurrentBuffer); messageDigest.update(this.currentBuffer, this.nextIndexInCurrentBuffer, bytesToCopy); this.nextIndexInCurrentBuffer += bytesToCopy; updateMessageDigest(messageDigest, len - bytesToCopy); } else { if (this.buffersIterator.hasNext()) { this.currentBuffer = this.buffersIterator.next(); updateCurrentBufferLength(); this.nextIndexInCurrentBuffer = 0; } else { this.currentBuffer = null; } updateMessageDigest(messageDigest, len); } } } private void updateCurrentBufferLength() { if (this.currentBuffer == this.fastByteArrayOutputStream.buffers.getLast()) { this.currentBufferLength = this.fastByteArrayOutputStream.index; } else { this.currentBufferLength = (this.currentBuffer != null ? this.currentBuffer.length : 0); } } } }





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