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//  ========================================================================
//  Copyright (c) 1995-2019 Mort Bay Consulting Pty. Ltd.
//  ------------------------------------------------------------------------
//  All rights reserved. This program and the accompanying materials
//  are made available under the terms of the Eclipse Public License v1.0
//  and Apache License v2.0 which accompanies this distribution.
//
//      The Eclipse Public License is available at
//      http://www.eclipse.org/legal/epl-v10.html
//
//      The Apache License v2.0 is available at
//      http://www.opensource.org/licenses/apache2.0.php
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//  You may elect to redistribute this code under either of these licenses.
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package org.eclipse.jetty.util;

import java.io.File;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.io.RandomAccessFile;
import java.nio.Buffer;
import java.nio.BufferOverflowException;
import java.nio.ByteBuffer;
import java.nio.channels.FileChannel;
import java.nio.channels.FileChannel.MapMode;
import java.nio.charset.Charset;
import java.nio.charset.StandardCharsets;
import java.nio.file.StandardOpenOption;
import java.util.Arrays;

import org.eclipse.jetty.util.log.Log;
import org.eclipse.jetty.util.resource.Resource;

Buffer utility methods.
The standard JVM ByteBuffer can exist in two modes: In fill mode the valid data is between 0 and pos; In flush mode the valid data is between the pos and the limit. The various ByteBuffer methods assume a mode and some of them will switch or enforce a mode: Allocate and clear set fill mode; flip and compact switch modes; read and write assume fill and flush modes. This duality can result in confusing code such as: 
    buffer.clear();
    channel.write(buffer);


Which looks as if it should write no data, but in fact writes the buffer worth of garbage.


The BufferUtil class provides a set of utilities that operate on the convention that ByteBuffers
will always be left, passed in an API or returned from a method in the flush mode - ie with
valid data between the pos and limit.    This convention is adopted so as to avoid confusion as to
what state a buffer is in and to avoid excessive copying of data that can result with the usage
of compress.
 Thus this class provides alternate implementations of allocate(int), allocateDirect(int) and clear(ByteBuffer) that leave the buffer in flush mode. Thus the following tests will pass: 
    ByteBuffer buffer = BufferUtil.allocate(1024);
    assert(buffer.remaining()==0);
    BufferUtil.clear(buffer);
    assert(buffer.remaining()==0);

If the BufferUtil methods fill(ByteBuffer, byte[], int, int), append(ByteBuffer, byte[], int, int) or put(ByteBuffer, ByteBuffer) are used, then the caller does not need to explicitly switch the buffer to fill mode. If the caller wishes to use other ByteBuffer bases libraries to fill a buffer, then they can use explicit calls of #flipToFill(ByteBuffer) and #flipToFlush(ByteBuffer, int) to change modes. Note because this convention attempts to avoid the copies of compact, the position is not set to zero on each fill cycle and so its value must be remembered: 
     int pos = BufferUtil.flipToFill(buffer);
     try
     {
         buffer.put(data);
     }
     finally
     {
         flipToFlush(buffer, pos);
     }


The flipToFill method will effectively clear the buffer if it is empty and will compact the buffer if there is no space.

/**
 * Buffer utility methods.
 * <p>The standard JVM {@link ByteBuffer} can exist in two modes: In fill mode the valid
 * data is between 0 and pos; In flush mode the valid data is between the pos and the limit.
 * The various ByteBuffer methods assume a mode and some of them will switch or enforce a mode:
 * Allocate and clear set fill mode; flip and compact switch modes; read and write assume fill
 * and flush modes.    This duality can result in confusing code such as:
 * </p>
 * <pre>
 *     buffer.clear();
 *     channel.write(buffer);
 * </pre>
 * <p>
 * Which looks as if it should write no data, but in fact writes the buffer worth of garbage.
 * </p>
 * <p>
 * The BufferUtil class provides a set of utilities that operate on the convention that ByteBuffers
 * will always be left, passed in an API or returned from a method in the flush mode - ie with
 * valid data between the pos and limit.    This convention is adopted so as to avoid confusion as to
 * what state a buffer is in and to avoid excessive copying of data that can result with the usage
 * of compress.</p>
 * <p>
 * Thus this class provides alternate implementations of {@link #allocate(int)},
 * {@link #allocateDirect(int)} and {@link #clear(ByteBuffer)} that leave the buffer
 * in flush mode.   Thus the following tests will pass:
 * </p>
 * <pre>
 *     ByteBuffer buffer = BufferUtil.allocate(1024);
 *     assert(buffer.remaining()==0);
 *     BufferUtil.clear(buffer);
 *     assert(buffer.remaining()==0);
 * </pre>
 * <p>If the BufferUtil methods {@link #fill(ByteBuffer, byte[], int, int)},
 * {@link #append(ByteBuffer, byte[], int, int)} or {@link #put(ByteBuffer, ByteBuffer)} are used,
 * then the caller does not need to explicitly switch the buffer to fill mode.
 * If the caller wishes to use other ByteBuffer bases libraries to fill a buffer,
 * then they can use explicit calls of #flipToFill(ByteBuffer) and #flipToFlush(ByteBuffer, int)
 * to change modes.  Note because this convention attempts to avoid the copies of compact, the position
 * is not set to zero on each fill cycle and so its value must be remembered:
 * </p>
 * <pre>
 *      int pos = BufferUtil.flipToFill(buffer);
 *      try
 *      {
 *          buffer.put(data);
 *      }
 *      finally
 *      {
 *          flipToFlush(buffer, pos);
 *      }
 * </pre>
 * <p>
 * The flipToFill method will effectively clear the buffer if it is empty and will compact the buffer if there is no space.
 * </p>
 */
public class BufferUtil
{
    static final int TEMP_BUFFER_SIZE = 4096;
    static final byte SPACE = 0x20;
    static final byte MINUS = '-';
    static final byte[] DIGIT =
    {
        (byte)'0', (byte)'1', (byte)'2', (byte)'3', (byte)'4', (byte)'5', (byte)'6', (byte)'7', (byte)'8', (byte)'9',
        (byte)'A', (byte)'B', (byte)'C', (byte)'D',
        (byte)'E', (byte)'F'
    };

    public static final ByteBuffer EMPTY_BUFFER = ByteBuffer.wrap(new byte[0]);

    
Allocate ByteBuffer in flush mode.
The position and limit will both be zero, indicating that the buffer is
empty and must be flipped before any data is put to it.
Params:
capacity – capacity of the allocated ByteBuffer
Returns:
Buffer/**
     * Allocate ByteBuffer in flush mode.
     * The position and limit will both be zero, indicating that the buffer is
     * empty and must be flipped before any data is put to it.
     *
     * @param capacity capacity of the allocated ByteBuffer
     * @return Buffer
     */
    public static ByteBuffer allocate(int capacity)
    {
        ByteBuffer buf = ByteBuffer.allocate(capacity);
        buf.limit(0);
        return buf;
    }

    
Allocate ByteBuffer in flush mode.
The position and limit will both be zero, indicating that the buffer is
empty and in flush mode.
Params:
capacity – capacity of the allocated ByteBuffer
Returns:
Buffer/**
     * Allocate ByteBuffer in flush mode.
     * The position and limit will both be zero, indicating that the buffer is
     * empty and in flush mode.
     *
     * @param capacity capacity of the allocated ByteBuffer
     * @return Buffer
     */
    public static ByteBuffer allocateDirect(int capacity)
    {
        ByteBuffer buf = ByteBuffer.allocateDirect(capacity);
        buf.limit(0);
        return buf;
    }

    
Deep copy of a buffer
Params:
buffer – The buffer to copy
Returns:
A copy of the buffer/**
     * Deep copy of a buffer
     *
     * @param buffer The buffer to copy
     * @return A copy of the buffer
     */
    public static ByteBuffer copy(ByteBuffer buffer)
    {
        if (buffer == null)
            return null;
        int p = buffer.position();
        ByteBuffer clone = buffer.isDirect() ? ByteBuffer.allocateDirect(buffer.remaining()) : ByteBuffer.allocate(buffer.remaining());
        clone.put(buffer);
        clone.flip();
        buffer.position(p);
        return clone;
    }

    
Clear the buffer to be empty in flush mode.
The position and limit are set to 0;
Params:
buffer – The buffer to clear./**
     * Clear the buffer to be empty in flush mode.
     * The position and limit are set to 0;
     *
     * @param buffer The buffer to clear.
     */
    public static void clear(ByteBuffer buffer)
    {
        if (buffer != null)
        {
            buffer.position(0);
            buffer.limit(0);
        }
    }

    
Clear the buffer to be empty in fill mode.
The position is set to 0 and the limit is set to the capacity.
Params:
buffer – The buffer to clear./**
     * Clear the buffer to be empty in fill mode.
     * The position is set to 0 and the limit is set to the capacity.
     *
     * @param buffer The buffer to clear.
     */
    public static void clearToFill(ByteBuffer buffer)
    {
        if (buffer != null)
        {
            buffer.position(0);
            buffer.limit(buffer.capacity());
        }
    }

    
Flip the buffer to fill mode. The position is set to the first unused position in the buffer (the old limit) and the limit is set to the capacity. If the buffer is empty, then this call is effectively clearToFill(ByteBuffer). If there is no unused space to fill, a ByteBuffer.compact() is done to attempt to create space. 
 This method is used as a replacement to ByteBuffer.compact(). 
Params:
buffer – The buffer to flip
Returns:
The position of the valid data before the flipped position. This value should be passed to a subsequent call to flipToFlush(ByteBuffer, int)/**
     * Flip the buffer to fill mode.
     * The position is set to the first unused position in the buffer
     * (the old limit) and the limit is set to the capacity.
     * If the buffer is empty, then this call is effectively {@link #clearToFill(ByteBuffer)}.
     * If there is no unused space to fill, a {@link ByteBuffer#compact()} is done to attempt
     * to create space.
     * <p>
     * This method is used as a replacement to {@link ByteBuffer#compact()}.
     *
     * @param buffer The buffer to flip
     * @return The position of the valid data before the flipped position. This value should be
     * passed to a subsequent call to {@link #flipToFlush(ByteBuffer, int)}
     */
    public static int flipToFill(ByteBuffer buffer)
    {
        int position = buffer.position();
        int limit = buffer.limit();
        if (position == limit)
        {
            buffer.position(0);
            buffer.limit(buffer.capacity());
            return 0;
        }

        int capacity = buffer.capacity();
        if (limit == capacity)
        {
            buffer.compact();
            return 0;
        }

        buffer.position(limit);
        buffer.limit(capacity);
        return position;
    }

    
Flip the buffer to Flush mode.
The limit is set to the first unused byte(the old position) and
the position is set to the passed position.
 This method is used as a replacement of Buffer.flip(). 
Params:
buffer – the buffer to be flipped
position – The position of valid data to flip to. This should be the return value of the previous call to flipToFill(ByteBuffer)/**
     * Flip the buffer to Flush mode.
     * The limit is set to the first unused byte(the old position) and
     * the position is set to the passed position.
     * <p>
     * This method is used as a replacement of {@link Buffer#flip()}.
     *
     * @param buffer the buffer to be flipped
     * @param position The position of valid data to flip to. This should
     * be the return value of the previous call to {@link #flipToFill(ByteBuffer)}
     */
    public static void flipToFlush(ByteBuffer buffer, int position)
    {
        buffer.limit(buffer.position());
        buffer.position(position);
    }

    
Convert a ByteBuffer to a byte array.
Params:
buffer – The buffer to convert in flush mode. The buffer is not altered.
Returns:
An array of bytes duplicated from the buffer./**
     * Convert a ByteBuffer to a byte array.
     *
     * @param buffer The buffer to convert in flush mode. The buffer is not altered.
     * @return An array of bytes duplicated from the buffer.
     */
    public static byte[] toArray(ByteBuffer buffer)
    {
        if (buffer.hasArray())
        {
            byte[] array = buffer.array();
            int from = buffer.arrayOffset() + buffer.position();
            return Arrays.copyOfRange(array, from, from + buffer.remaining());
        }
        else
        {
            byte[] to = new byte[buffer.remaining()];
            buffer.slice().get(to);
            return to;
        }
    }

    
Params:
buf – the buffer to check
Returns:
true if buf is equal to EMPTY_BUFFER/**
     * @param buf the buffer to check
     * @return true if buf is equal to EMPTY_BUFFER
     */
    public static boolean isTheEmptyBuffer(ByteBuffer buf)
    {
        @SuppressWarnings("ReferenceEquality")
        boolean isTheEmptyBuffer = (buf == EMPTY_BUFFER);
        return isTheEmptyBuffer;
    }

    
Check for an empty or null buffer.
Params:
buf – the buffer to check
Returns:
true if the buffer is null or empty./**
     * Check for an empty or null buffer.
     *
     * @param buf the buffer to check
     * @return true if the buffer is null or empty.
     */
    public static boolean isEmpty(ByteBuffer buf)
    {
        return buf == null || buf.remaining() == 0;
    }

    
Check for an empty or null buffers.
Params:
buf – the buffer to check
Returns:
true if the buffer is null or empty./**
     * Check for an empty or null buffers.
     *
     * @param buf the buffer to check
     * @return true if the buffer is null or empty.
     */
    public static boolean isEmpty(ByteBuffer[] buf)
    {
        if (buf == null || buf.length == 0)
            return true;
        for (ByteBuffer b : buf)
        {
            if (b != null && b.hasRemaining())
                return false;
        }
        return true;
    }

    
Get the remaining bytes in 0 or more buffers.
Params:
buf – the buffers to check
Returns:
number of bytes remaining in all buffers./**
     * Get the remaining bytes in 0 or more buffers.
     *
     * @param buf the buffers to check
     * @return number of bytes remaining in all buffers.
     */
    public static long remaining(ByteBuffer... buf)
    {
        long remaining = 0;
        if (buf != null)
            for (ByteBuffer b : buf)
            {
                if (b != null)
                    remaining += b.remaining();
            }
        return remaining;
    }

    
Check for a non null and non empty buffer.
Params:
buf – the buffer to check
Returns:
true if the buffer is not null and not empty./**
     * Check for a non null and non empty buffer.
     *
     * @param buf the buffer to check
     * @return true if the buffer is not null and not empty.
     */
    public static boolean hasContent(ByteBuffer buf)
    {
        return buf != null && buf.remaining() > 0;
    }

    
Check for a non null and full buffer.
Params:
buf – the buffer to check
Returns:
true if the buffer is not null and the limit equals the capacity./**
     * Check for a non null and full buffer.
     *
     * @param buf the buffer to check
     * @return true if the buffer is not null and the limit equals the capacity.
     */
    public static boolean isFull(ByteBuffer buf)
    {
        return buf != null && buf.limit() == buf.capacity();
    }

    
Get remaining from null checked buffer
Params:
buffer – The buffer to get the remaining from, in flush mode.
Returns:
0 if the buffer is null, else the bytes remaining in the buffer./**
     * Get remaining from null checked buffer
     *
     * @param buffer The buffer to get the remaining from, in flush mode.
     * @return 0 if the buffer is null, else the bytes remaining in the buffer.
     */
    public static int length(ByteBuffer buffer)
    {
        return buffer == null ? 0 : buffer.remaining();
    }

    
Get the space from the limit to the capacity
Params:
buffer – the buffer to get the space from
Returns:
space/**
     * Get the space from the limit to the capacity
     *
     * @param buffer the buffer to get the space from
     * @return space
     */
    public static int space(ByteBuffer buffer)
    {
        if (buffer == null)
            return 0;
        return buffer.capacity() - buffer.limit();
    }

    
Compact the buffer
Params:
buffer – the buffer to compact
Returns:
true if the compact made a full buffer have space/**
     * Compact the buffer
     *
     * @param buffer the buffer to compact
     * @return true if the compact made a full buffer have space
     */
    public static boolean compact(ByteBuffer buffer)
    {
        if (buffer.position() == 0)
            return false;
        boolean full = buffer.limit() == buffer.capacity();
        buffer.compact().flip();
        return full && buffer.limit() < buffer.capacity();
    }

    
Put data from one buffer into another, avoiding over/under flows
Params:
from – Buffer to take bytes from in flush mode
to – Buffer to put bytes to in fill mode.
Returns:
number of bytes moved/**
     * Put data from one buffer into another, avoiding over/under flows
     *
     * @param from Buffer to take bytes from in flush mode
     * @param to Buffer to put bytes to in fill mode.
     * @return number of bytes moved
     */
    public static int put(ByteBuffer from, ByteBuffer to)
    {
        int put;
        int remaining = from.remaining();
        if (remaining > 0)
        {
            if (remaining <= to.remaining())
            {
                to.put(from);
                put = remaining;
                from.position(from.limit());
            }
            else if (from.hasArray())
            {
                put = to.remaining();
                to.put(from.array(), from.arrayOffset() + from.position(), put);
                from.position(from.position() + put);
            }
            else
            {
                put = to.remaining();
                ByteBuffer slice = from.slice();
                slice.limit(put);
                to.put(slice);
                from.position(from.position() + put);
            }
        }
        else
            put = 0;

        return put;
    }

    
Append bytes to a buffer.
Params:
to – Buffer is flush mode
b – bytes to append
off – offset into byte
len – length to append
Throws:
BufferOverflowException – if unable to append buffer due to space limits/**
     * Append bytes to a buffer.
     *
     * @param to Buffer is flush mode
     * @param b bytes to append
     * @param off offset into byte
     * @param len length to append
     * @throws BufferOverflowException if unable to append buffer due to space limits
     */
    public static void append(ByteBuffer to, byte[] b, int off, int len) throws BufferOverflowException
    {
        int pos = flipToFill(to);
        try
        {
            to.put(b, off, len);
        }
        finally
        {
            flipToFlush(to, pos);
        }
    }

    
Append bytes to a buffer.
Params:
to – Buffer is flush mode
b – bytes to append
Throws:
BufferOverflowException – if unable to append buffer due to space limits/**
     * Append bytes to a buffer.
     *
     * @param to Buffer is flush mode
     * @param b bytes to append
     * @throws BufferOverflowException if unable to append buffer due to space limits
     */
    public static void append(ByteBuffer to, byte[] b) throws BufferOverflowException
    {
        append(to, b, 0, b.length);
    }

    
Append a string to a buffer.
Params:
to – Buffer is flush mode
s – String to append as UTF8
Throws:
BufferOverflowException – if unable to append buffer due to space limits/**
     * Append a string to a buffer.
     *
     * @param to Buffer is flush mode
     * @param s String to append as UTF8
     * @throws BufferOverflowException if unable to append buffer due to space limits
     */
    public static void append(ByteBuffer to, String s) throws BufferOverflowException
    {
        byte[] b = s.getBytes(StandardCharsets.UTF_8);
        append(to, b, 0, b.length);
    }

    
Appends a byte to a buffer
Params:
to – Buffer is flush mode
b – byte to append/**
     * Appends a byte to a buffer
     *
     * @param to Buffer is flush mode
     * @param b byte to append
     */
    public static void append(ByteBuffer to, byte b)
    {
        int pos = flipToFill(to);
        try
        {
            to.put(b);
        }
        finally
        {
            flipToFlush(to, pos);
        }
    }

    
Appends a buffer to a buffer
Params:
to – Buffer is flush mode
b – buffer to append
Returns:
The position of the valid data before the flipped position./**
     * Appends a buffer to a buffer
     *
     * @param to Buffer is flush mode
     * @param b buffer to append
     * @return The position of the valid data before the flipped position.
     */
    public static int append(ByteBuffer to, ByteBuffer b)
    {
        int pos = flipToFill(to);
        try
        {
            return put(b, to);
        }
        finally
        {
            flipToFlush(to, pos);
        }
    }

    
Like append, but does not throw BufferOverflowException 
Params:
to – Buffer The buffer to fill to. The buffer will be flipped to fill mode and then flipped back to flush mode.
b – bytes The bytes to fill
off – offset into bytes
len – length to fill
Returns:
the number of bytes taken from the buffer./**
     * Like append, but does not throw {@link BufferOverflowException}
     *
     * @param to Buffer The buffer to fill to. The buffer will be flipped to fill mode and then flipped back to flush mode.
     * @param b bytes The bytes to fill
     * @param off offset into bytes
     * @param len length to fill
     * @return the number of bytes taken from the buffer.
     */
    public static int fill(ByteBuffer to, byte[] b, int off, int len)
    {
        int pos = flipToFill(to);
        try
        {
            int remaining = to.remaining();
            int take = remaining < len ? remaining : len;
            to.put(b, off, take);
            return take;
        }
        finally
        {
            flipToFlush(to, pos);
        }
    }

    public static void readFrom(File file, ByteBuffer buffer) throws IOException
    {
        try (RandomAccessFile raf = new RandomAccessFile(file, "r"))
        {
            FileChannel channel = raf.getChannel();
            long needed = raf.length();

            while (needed > 0 && buffer.hasRemaining())
            {
                needed = needed - channel.read(buffer);
            }
        }
    }

    public static void readFrom(InputStream is, int needed, ByteBuffer buffer) throws IOException
    {
        ByteBuffer tmp = allocate(8192);

        while (needed > 0 && buffer.hasRemaining())
        {
            int l = is.read(tmp.array(), 0, 8192);
            if (l < 0)
                break;
            tmp.position(0);
            tmp.limit(l);
            buffer.put(tmp);
        }
    }

    public static void writeTo(ByteBuffer buffer, OutputStream out) throws IOException
    {
        if (buffer.hasArray())
        {
            out.write(buffer.array(), buffer.arrayOffset() + buffer.position(), buffer.remaining());
            // update buffer position, in way similar to non-array version of writeTo
            buffer.position(buffer.position() + buffer.remaining());
        }
        else
        {
            byte[] bytes = new byte[TEMP_BUFFER_SIZE];
            while (buffer.hasRemaining())
            {
                int byteCountToWrite = Math.min(buffer.remaining(), TEMP_BUFFER_SIZE);
                buffer.get(bytes, 0, byteCountToWrite);
                out.write(bytes, 0, byteCountToWrite);
            }
        }
    }

    
Convert the buffer to an ISO-8859-1 String
Params:
buffer – The buffer to convert in flush mode. The buffer is unchanged
Returns:
The buffer as a string./**
     * Convert the buffer to an ISO-8859-1 String
     *
     * @param buffer The buffer to convert in flush mode. The buffer is unchanged
     * @return The buffer as a string.
     */
    public static String toString(ByteBuffer buffer)
    {
        return toString(buffer, StandardCharsets.ISO_8859_1);
    }

    
Convert the buffer to an ISO-8859-1 String
Params:
buffer – The buffer to convert in flush mode. The buffer is unchanged
charset – The Charset to use to convert the bytes
Returns:
The buffer as a string./**
     * Convert the buffer to an ISO-8859-1 String
     *
     * @param buffer The buffer to convert in flush mode. The buffer is unchanged
     * @param charset The {@link Charset} to use to convert the bytes
     * @return The buffer as a string.
     */
    public static String toString(ByteBuffer buffer, Charset charset)
    {
        if (buffer == null)
            return null;
        byte[] array = buffer.hasArray() ? buffer.array() : null;
        if (array == null)
        {
            byte[] to = new byte[buffer.remaining()];
            buffer.slice().get(to);
            return new String(to, 0, to.length, charset);
        }
        return new String(array, buffer.arrayOffset() + buffer.position(), buffer.remaining(), charset);
    }

    
Convert a partial buffer to a String.
Params:
buffer – the buffer to convert
position – The position in the buffer to start the string from
length – The length of the buffer
charset – The Charset to use to convert the bytes
Returns:
The buffer as a string./**
     * Convert a partial buffer to a String.
     *
     * @param buffer the buffer to convert
     * @param position The position in the buffer to start the string from
     * @param length The length of the buffer
     * @param charset The {@link Charset} to use to convert the bytes
     * @return The buffer as a string.
     */
    public static String toString(ByteBuffer buffer, int position, int length, Charset charset)
    {
        if (buffer == null)
            return null;
        byte[] array = buffer.hasArray() ? buffer.array() : null;
        if (array == null)
        {
            ByteBuffer ro = buffer.asReadOnlyBuffer();
            ro.position(position);
            ro.limit(position + length);
            byte[] to = new byte[length];
            ro.get(to);
            return new String(to, 0, to.length, charset);
        }
        return new String(array, buffer.arrayOffset() + position, length, charset);
    }

    
Convert the buffer to an UTF-8 String
Params:
buffer – The buffer to convert in flush mode. The buffer is unchanged
Returns:
The buffer as a string./**
     * Convert the buffer to an UTF-8 String
     *
     * @param buffer The buffer to convert in flush mode. The buffer is unchanged
     * @return The buffer as a string.
     */
    public static String toUTF8String(ByteBuffer buffer)
    {
        return toString(buffer, StandardCharsets.UTF_8);
    }

    
Convert buffer to an integer. Parses up to the first non-numeric character. If no number is found an IllegalArgumentException is thrown
Params:
buffer – A buffer containing an integer in flush mode. The position is not changed.
Returns:
an int/**
     * Convert buffer to an integer. Parses up to the first non-numeric character. If no number is found an IllegalArgumentException is thrown
     *
     * @param buffer A buffer containing an integer in flush mode. The position is not changed.
     * @return an int
     */
    public static int toInt(ByteBuffer buffer)
    {
        return toInt(buffer, buffer.position(), buffer.remaining());
    }

    
Convert buffer to an integer. Parses up to the first non-numeric character. If no number is found an
IllegalArgumentException is thrown
Params:
buffer – A buffer containing an integer in flush mode. The position is not changed.
position – the position in the buffer to start reading from
length – the length of the buffer to use for conversion
Returns:
an int of the buffer bytes/**
     * Convert buffer to an integer. Parses up to the first non-numeric character. If no number is found an
     * IllegalArgumentException is thrown
     *
     * @param buffer A buffer containing an integer in flush mode. The position is not changed.
     * @param position the position in the buffer to start reading from
     * @param length the length of the buffer to use for conversion
     * @return an int of the buffer bytes
     */
    public static int toInt(ByteBuffer buffer, int position, int length)
    {
        int val = 0;
        boolean started = false;
        boolean minus = false;

        int limit = position + length;

        if (length <= 0)
            throw new NumberFormatException(toString(buffer, position, length, StandardCharsets.UTF_8));

        for (int i = position; i < limit; i++)
        {
            byte b = buffer.get(i);
            if (b <= SPACE)
            {
                if (started)
                    break;
            }
            else if (b >= '0' && b <= '9')
            {
                val = val * 10 + (b - '0');
                started = true;
            }
            else if (b == MINUS && !started)
            {
                minus = true;
            }
            else
                break;
        }

        if (started)
            return minus ? (-val) : val;
        throw new NumberFormatException(toString(buffer));
    }

    
Convert buffer to an integer. Parses up to the first non-numeric character. If no number is found an IllegalArgumentException is thrown
Params:
buffer – A buffer containing an integer in flush mode. The position is updated.
Returns:
an int/**
     * Convert buffer to an integer. Parses up to the first non-numeric character. If no number is found an IllegalArgumentException is thrown
     *
     * @param buffer A buffer containing an integer in flush mode. The position is updated.
     * @return an int
     */
    public static int takeInt(ByteBuffer buffer)
    {
        int val = 0;
        boolean started = false;
        boolean minus = false;
        int i;
        for (i = buffer.position(); i < buffer.limit(); i++)
        {
            byte b = buffer.get(i);
            if (b <= SPACE)
            {
                if (started)
                    break;
            }
            else if (b >= '0' && b <= '9')
            {
                val = val * 10 + (b - '0');
                started = true;
            }
            else if (b == MINUS && !started)
            {
                minus = true;
            }
            else
                break;
        }

        if (started)
        {
            buffer.position(i);
            return minus ? (-val) : val;
        }
        throw new NumberFormatException(toString(buffer));
    }

    
Convert buffer to an long. Parses up to the first non-numeric character. If no number is found an IllegalArgumentException is thrown
Params:
buffer – A buffer containing an integer in flush mode. The position is not changed.
Returns:
an int/**
     * Convert buffer to an long. Parses up to the first non-numeric character. If no number is found an IllegalArgumentException is thrown
     *
     * @param buffer A buffer containing an integer in flush mode. The position is not changed.
     * @return an int
     */
    public static long toLong(ByteBuffer buffer)
    {
        long val = 0;
        boolean started = false;
        boolean minus = false;

        for (int i = buffer.position(); i < buffer.limit(); i++)
        {
            byte b = buffer.get(i);
            if (b <= SPACE)
            {
                if (started)
                    break;
            }
            else if (b >= '0' && b <= '9')
            {
                val = val * 10L + (b - '0');
                started = true;
            }
            else if (b == MINUS && !started)
            {
                minus = true;
            }
            else
                break;
        }

        if (started)
            return minus ? (-val) : val;
        throw new NumberFormatException(toString(buffer));
    }

    public static void putHexInt(ByteBuffer buffer, int n)
    {
        if (n < 0)
        {
            buffer.put((byte)'-');

            if (n == Integer.MIN_VALUE)
            {
                buffer.put((byte)(0x7f & '8'));
                buffer.put((byte)(0x7f & '0'));
                buffer.put((byte)(0x7f & '0'));
                buffer.put((byte)(0x7f & '0'));
                buffer.put((byte)(0x7f & '0'));
                buffer.put((byte)(0x7f & '0'));
                buffer.put((byte)(0x7f & '0'));
                buffer.put((byte)(0x7f & '0'));

                return;
            }
            n = -n;
        }

        if (n < 0x10)
        {
            buffer.put(DIGIT[n]);
        }
        else
        {
            boolean started = false;
            // This assumes constant time int arithmatic
            for (int hexDivisor : hexDivisors)
            {
                if (n < hexDivisor)
                {
                    if (started)
                        buffer.put((byte)'0');
                    continue;
                }

                started = true;
                int d = n / hexDivisor;
                buffer.put(DIGIT[d]);
                n = n - d * hexDivisor;
            }
        }
    }

    public static void putDecInt(ByteBuffer buffer, int n)
    {
        if (n < 0)
        {
            buffer.put((byte)'-');

            if (n == Integer.MIN_VALUE)
            {
                buffer.put((byte)'2');
                n = 147483648;
            }
            else
                n = -n;
        }

        if (n < 10)
        {
            buffer.put(DIGIT[n]);
        }
        else
        {
            boolean started = false;
            // This assumes constant time int arithmatic
            for (int decDivisor : decDivisors)
            {
                if (n < decDivisor)
                {
                    if (started)
                        buffer.put((byte)'0');
                    continue;
                }

                started = true;
                int d = n / decDivisor;
                buffer.put(DIGIT[d]);
                n = n - d * decDivisor;
            }
        }
    }

    public static void putDecLong(ByteBuffer buffer, long n)
    {
        if (n < 0)
        {
            buffer.put((byte)'-');

            if (n == Long.MIN_VALUE)
            {
                buffer.put((byte)'9');
                n = 223372036854775808L;
            }
            else
                n = -n;
        }

        if (n < 10)
        {
            buffer.put(DIGIT[(int)n]);
        }
        else
        {
            boolean started = false;
            // This assumes constant time int arithmatic
            for (long aDecDivisorsL : decDivisorsL)
            {
                if (n < aDecDivisorsL)
                {
                    if (started)
                        buffer.put((byte)'0');
                    continue;
                }

                started = true;
                long d = n / aDecDivisorsL;
                buffer.put(DIGIT[(int)d]);
                n = n - d * aDecDivisorsL;
            }
        }
    }

    public static ByteBuffer toBuffer(int value)
    {
        ByteBuffer buf = ByteBuffer.allocate(32);
        putDecInt(buf, value);
        return buf;
    }

    public static ByteBuffer toBuffer(long value)
    {
        ByteBuffer buf = ByteBuffer.allocate(32);
        putDecLong(buf, value);
        return buf;
    }

    public static ByteBuffer toBuffer(String s)
    {
        return toBuffer(s, StandardCharsets.ISO_8859_1);
    }

    public static ByteBuffer toBuffer(String s, Charset charset)
    {
        if (s == null)
            return EMPTY_BUFFER;
        return toBuffer(s.getBytes(charset));
    }

    
Create a new ByteBuffer using provided byte array.
Params:
array – the byte array to back buffer with.
Returns:
ByteBuffer with provided byte array, in flush mode/**
     * Create a new ByteBuffer using provided byte array.
     *
     * @param array the byte array to back buffer with.
     * @return ByteBuffer with provided byte array, in flush mode
     */
    public static ByteBuffer toBuffer(byte[] array)
    {
        if (array == null)
            return EMPTY_BUFFER;
        return toBuffer(array, 0, array.length);
    }

    
Create a new ByteBuffer using the provided byte array.
Params:
array – the byte array to use.
offset – the offset within the byte array to use from
length – the length in bytes of the array to use
Returns:
ByteBuffer with provided byte array, in flush mode/**
     * Create a new ByteBuffer using the provided byte array.
     *
     * @param array the byte array to use.
     * @param offset the offset within the byte array to use from
     * @param length the length in bytes of the array to use
     * @return ByteBuffer with provided byte array, in flush mode
     */
    public static ByteBuffer toBuffer(byte[] array, int offset, int length)
    {
        if (array == null)
            return EMPTY_BUFFER;
        return ByteBuffer.wrap(array, offset, length);
    }

    public static ByteBuffer toBuffer(Resource resource, boolean direct) throws IOException
    {
        int len = (int)resource.length();
        if (len < 0)
            throw new IllegalArgumentException("invalid resource: " + String.valueOf(resource) + " len=" + len);

        ByteBuffer buffer = direct ? BufferUtil.allocateDirect(len) : BufferUtil.allocate(len);

        int pos = BufferUtil.flipToFill(buffer);
        if (resource.getFile() != null)
            BufferUtil.readFrom(resource.getFile(), buffer);
        else
        {
            try (InputStream is = resource.getInputStream();)
            {
                BufferUtil.readFrom(is, len, buffer);
            }
        }
        BufferUtil.flipToFlush(buffer, pos);

        return buffer;
    }

    public static ByteBuffer toDirectBuffer(String s)
    {
        return toDirectBuffer(s, StandardCharsets.ISO_8859_1);
    }

    public static ByteBuffer toDirectBuffer(String s, Charset charset)
    {
        if (s == null)
            return EMPTY_BUFFER;
        byte[] bytes = s.getBytes(charset);
        ByteBuffer buf = ByteBuffer.allocateDirect(bytes.length);
        buf.put(bytes);
        buf.flip();
        return buf;
    }

    public static ByteBuffer toMappedBuffer(File file) throws IOException
    {
        try (FileChannel channel = FileChannel.open(file.toPath(), StandardOpenOption.READ))
        {
            return channel.map(MapMode.READ_ONLY, 0, file.length());
        }
    }

    public static String toSummaryString(ByteBuffer buffer)
    {
        if (buffer == null)
            return "null";
        StringBuilder buf = new StringBuilder();
        buf.append("[p=");
        buf.append(buffer.position());
        buf.append(",l=");
        buf.append(buffer.limit());
        buf.append(",c=");
        buf.append(buffer.capacity());
        buf.append(",r=");
        buf.append(buffer.remaining());
        buf.append("]");
        return buf.toString();
    }

    public static String toDetailString(ByteBuffer[] buffer)
    {
        StringBuilder builder = new StringBuilder();
        builder.append('[');
        for (int i = 0; i < buffer.length; i++)
        {
            if (i > 0)
                builder.append(',');
            builder.append(toDetailString(buffer[i]));
        }
        builder.append(']');
        return builder.toString();
    }

    
Convert Buffer to a detail debug string of pointers and content
Params:
buffer – the buffer to generate a detail string from
Returns:
A string showing the pointers and content of the buffer/**
     * Convert Buffer to a detail debug string of pointers and content
     *
     * @param buffer the buffer to generate a detail string from
     * @return A string showing the pointers and content of the buffer
     */
    public static String toDetailString(ByteBuffer buffer)
    {
        if (buffer == null)
            return "null";

        StringBuilder buf = new StringBuilder();
        idString(buffer, buf);
        buf.append("[p=");
        buf.append(buffer.position());
        buf.append(",l=");
        buf.append(buffer.limit());
        buf.append(",c=");
        buf.append(buffer.capacity());
        buf.append(",r=");
        buf.append(buffer.remaining());
        buf.append("]={");

        appendDebugString(buf, buffer);

        buf.append("}");

        return buf.toString();
    }

    
Convert Buffer to string ID independent of content
/**
     * Convert Buffer to string ID independent of content
     */
    private static void idString(ByteBuffer buffer, StringBuilder out)
    {
        out.append(buffer.getClass().getSimpleName());
        out.append("@");
        if (buffer.hasArray() && buffer.arrayOffset() == 4)
        {
            out.append('T');
            byte[] array = buffer.array();
            TypeUtil.toHex(array[0], out);
            TypeUtil.toHex(array[1], out);
            TypeUtil.toHex(array[2], out);
            TypeUtil.toHex(array[3], out);
        }
        else
            out.append(Integer.toHexString(System.identityHashCode(buffer)));
    }

    
Convert Buffer to string ID independent of content
Params:
buffer – the buffet to generate a string ID from
Returns:
A string showing the buffer ID/**
     * Convert Buffer to string ID independent of content
     *
     * @param buffer the buffet to generate a string ID from
     * @return A string showing the buffer ID
     */
    public static String toIDString(ByteBuffer buffer)
    {
        StringBuilder buf = new StringBuilder();
        idString(buffer, buf);
        return buf.toString();
    }

    private static void appendDebugString(StringBuilder buf, ByteBuffer buffer)
    {
        // Take a readonly copy so we can adjust the limit
        buffer = buffer.asReadOnlyBuffer();
        try
        {
            for (int i = 0; i < buffer.position(); i++)
            {
                appendContentChar(buf, buffer.get(i));
                if (i == 16 && buffer.position() > 32)
                {
                    buf.append("...");
                    i = buffer.position() - 16;
                }
            }
            buf.append("<<<");
            for (int i = buffer.position(); i < buffer.limit(); i++)
            {
                appendContentChar(buf, buffer.get(i));
                if (i == buffer.position() + 16 && buffer.limit() > buffer.position() + 32)
                {
                    buf.append("...");
                    i = buffer.limit() - 16;
                }
            }
            buf.append(">>>");
            int limit = buffer.limit();
            buffer.limit(buffer.capacity());
            for (int i = limit; i < buffer.capacity(); i++)
            {
                appendContentChar(buf, buffer.get(i));
                if (i == limit + 16 && buffer.capacity() > limit + 32)
                {
                    buf.append("...");
                    i = buffer.capacity() - 16;
                }
            }
            buffer.limit(limit);
        }
        catch (Throwable x)
        {
            Log.getRootLogger().ignore(x);
            buf.append("!!concurrent mod!!");
        }
    }

    private static void appendContentChar(StringBuilder buf, byte b)
    {
        if (b == '\\')
            buf.append("\\\\");
        else if ((b >= 0x20) && (b <= 0x7E)) // limit to 7-bit printable US-ASCII character space
            buf.append((char)b);
        else if (b == '\r')
            buf.append("\\r");
        else if (b == '\n')
            buf.append("\\n");
        else if (b == '\t')
            buf.append("\\t");
        else
            buf.append("\\x").append(TypeUtil.toHexString(b));
    }

    
Convert buffer to a Hex Summary String.
Params:
buffer – the buffer to generate a hex byte summary from
Returns:
A string showing a summary of the content in hex/**
     * Convert buffer to a Hex Summary String.
     *
     * @param buffer the buffer to generate a hex byte summary from
     * @return A string showing a summary of the content in hex
     */
    public static String toHexSummary(ByteBuffer buffer)
    {
        if (buffer == null)
            return "null";
        StringBuilder buf = new StringBuilder();

        buf.append("b[").append(buffer.remaining()).append("]=");
        for (int i = buffer.position(); i < buffer.limit(); i++)
        {
            TypeUtil.toHex(buffer.get(i), buf);
            if (i == buffer.position() + 24 && buffer.limit() > buffer.position() + 32)
            {
                buf.append("...");
                i = buffer.limit() - 8;
            }
        }
        return buf.toString();
    }

    
Convert buffer to a Hex String.
Params:
buffer – the buffer to generate a hex byte summary from
Returns:
A hex string/**
     * Convert buffer to a Hex String.
     *
     * @param buffer the buffer to generate a hex byte summary from
     * @return A hex string
     */
    public static String toHexString(ByteBuffer buffer)
    {
        if (buffer == null)
            return "null";
        return TypeUtil.toHexString(toArray(buffer));
    }

    private static final int[] decDivisors =
    {
        1000000000, 100000000, 10000000, 1000000, 100000, 10000, 1000, 100, 10, 1
    };

    private static final int[] hexDivisors =
    {
        0x10000000, 0x1000000, 0x100000, 0x10000, 0x1000, 0x100, 0x10, 0x1
    };

    private static final long[] decDivisorsL =
    {
        1000000000000000000L, 100000000000000000L, 10000000000000000L, 1000000000000000L, 100000000000000L, 10000000000000L,
        1000000000000L, 100000000000L,
        10000000000L, 1000000000L, 100000000L, 10000000L, 1000000L, 100000L, 10000L, 1000L, 100L, 10L, 1L
    };

    public static void putCRLF(ByteBuffer buffer)
    {
        buffer.put((byte)13);
        buffer.put((byte)10);
    }

    public static boolean isPrefix(ByteBuffer prefix, ByteBuffer buffer)
    {
        if (prefix.remaining() > buffer.remaining())
            return false;
        int bi = buffer.position();
        for (int i = prefix.position(); i < prefix.limit(); i++)
        {
            if (prefix.get(i) != buffer.get(bi++))
                return false;
        }
        return true;
    }

    public static ByteBuffer ensureCapacity(ByteBuffer buffer, int capacity)
    {
        if (buffer == null)
            return allocate(capacity);

        if (buffer.capacity() >= capacity)
            return buffer;

        if (buffer.hasArray())
            return ByteBuffer.wrap(Arrays.copyOfRange(buffer.array(), buffer.arrayOffset(), buffer.arrayOffset() + capacity), buffer.position(), buffer.remaining());

        throw new UnsupportedOperationException();
    }
}