org.apache.mina.core.buffer.IoBuffer Maven / Gradle / Ivy
/**
* Copyright 2007-2015, Kaazing Corporation. All rights reserved.
*
* 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
*
* 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 org.apache.mina.core.buffer;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.nio.BufferOverflowException;
import java.nio.ByteBuffer;
import java.nio.ByteOrder;
import java.nio.CharBuffer;
import java.nio.DoubleBuffer;
import java.nio.FloatBuffer;
import java.nio.IntBuffer;
import java.nio.LongBuffer;
import java.nio.ShortBuffer;
import java.nio.charset.CharacterCodingException;
import java.nio.charset.CharsetDecoder;
import java.nio.charset.CharsetEncoder;
import java.util.EnumSet;
import java.util.Set;
import org.apache.mina.core.session.IoSession;
/**
* A byte buffer used by MINA applications.
*
* This is a replacement for {@link ByteBuffer}. Please refer to
* {@link ByteBuffer} documentation for preliminary usage. MINA does
* not use NIO {@link ByteBuffer} directly for two reasons:
*
* - It doesn't provide useful getters and putters such as
*
fill, get/putString, and
* get/putAsciiInt() enough.
* - It is difficult to write variable-length data due to its fixed
* capacity
*
*
*
* Allocation
*
* You can allocate a new heap buffer.
*
* IoBuffer buf = IoBuffer.allocate(1024, false);
*
* you can also allocate a new direct buffer:
*
* IoBuffer buf = IoBuffer.allocate(1024, true);
*
* or you can set the default buffer type.
*
* // Allocate heap buffer by default.
* IoBuffer.setUseDirectBuffer(false);
* // A new heap buffer is returned.
* IoBuffer buf = IoBuffer.allocate(1024);
*
*
*
* Wrapping existing NIO buffers and arrays
*
* This class provides a few wrap(...) methods that wraps
* any NIO buffers and byte arrays.
*
*
AutoExpand
*
* Writing variable-length data using NIO ByteBuffers is not really
* easy, and it is because its size is fixed. {@link IoBuffer} introduces
* autoExpand property. If autoExpand property is true, you
* never get {@link BufferOverflowException} or
* {@link IndexOutOfBoundsException} (except when index is negative).
* It automatically expands its capacity and limit value. For example:
*
* String greeting = messageBundle.getMessage( "hello" );
* IoBuffer buf = IoBuffer.allocate( 16 );
* // Turn on autoExpand (it is off by default)
* buf.setAutoExpand( true );
* buf.putString( greeting, utf8encoder );
*
* The underlying {@link ByteBuffer} is reallocated by {@link IoBuffer} behind
* the scene if the encoded data is larger than 16 bytes in the example above.
* Its capacity will double, and its limit will increase to the last position
* the string is written.
*
*
* AutoShrink
*
* You might also want to decrease the capacity of the buffer when most
* of the allocated memory area is not being used. {@link IoBuffer} provides
* autoShrink property to take care of this issue. If
* autoShrink is turned on, {@link IoBuffer} halves the capacity
* of the buffer when {@link #compact()} is invoked and only 1/4 or less of
* the current capacity is being used.
*
* You can also {@link #shrink()} method manually to shrink the capacity of
* the buffer.
*
* The underlying {@link ByteBuffer} is reallocated by {@link IoBuffer} behind
* the scene, and therefore {@link #buf()} will return a different
* {@link ByteBuffer} instance once capacity changes. Please also note
* {@link #compact()} or {@link #shrink()} will not decrease the capacity if
* the new capacity is less than the {@link #minimumCapacity()} of the buffer.
*
*
Derived Buffers
*
* Derived buffers are the buffers which were created by
* {@link #duplicate()}, {@link #slice()}, or {@link #asReadOnlyBuffer()}.
* They are useful especially when you broadcast the same messages to
* multiple {@link IoSession}s. Please note that the buffer derived from and
* its derived buffers are not both auto-expandable neither auto-shrinkable.
* Trying to call {@link #setAutoExpand(boolean)} or {@link #setAutoShrink(boolean)}
* with true parameter will raise an {@link IllegalStateException}.
*
*
* Changing Buffer Allocation Policy
*
* {@link IoBufferAllocator} interface lets you override the default buffer
* management behavior. There are two allocators provided out-of-the-box:
*
* - {@link SimpleBufferAllocator} (default)
* - {@link CachedBufferAllocator}
*
* You can implement your own allocator and use it by calling
* {@link #setAllocator(IoBufferAllocator)}.
*
*
* @author Apache MINA Project
*/
public abstract class IoBuffer implements Comparable {
/** The allocator used to create new buffers */
private static IoBufferAllocator allocator = new SimpleBufferAllocator();
/** A flag indicating which type of buffer we are using : heap or direct */
private static boolean useDirectBuffer = false;
/**
* Returns the allocator used by existing and new buffers
*/
public static IoBufferAllocator getAllocator() {
return allocator;
}
/**
* Sets the allocator used by existing and new buffers
*/
public static void setAllocator(IoBufferAllocator newAllocator) {
if (newAllocator == null) {
throw new NullPointerException("allocator");
}
IoBufferAllocator oldAllocator = allocator;
allocator = newAllocator;
if (null != oldAllocator) {
oldAllocator.dispose();
}
}
/**
* Returns true if and only if a direct buffer is allocated
* by default when the type of the new buffer is not specified. The
* default value is false.
*/
public static boolean isUseDirectBuffer() {
return useDirectBuffer;
}
/**
* Sets if a direct buffer should be allocated by default when the
* type of the new buffer is not specified. The default value is
* false.
*/
public static void setUseDirectBuffer(boolean useDirectBuffer) {
IoBuffer.useDirectBuffer = useDirectBuffer;
}
/**
* Returns the direct or heap buffer which is capable to store the
* specified amount of bytes.
*
* @param capacity the capacity of the buffer
*
* @see #setUseDirectBuffer(boolean)
*/
public static IoBuffer allocate(int capacity) {
return allocate(capacity, useDirectBuffer);
}
/**
* Returns the buffer which is capable of the specified size.
*
* @param capacity the capacity of the buffer
* @param direct true to get a direct buffer,
* false to get a heap buffer.
*/
public static IoBuffer allocate(int capacity, boolean direct) {
if (capacity < 0) {
throw new IllegalArgumentException("capacity: " + capacity);
}
return allocator.allocate(capacity, direct);
}
/**
* Wraps the specified NIO {@link ByteBuffer} into MINA buffer.
*/
public static IoBuffer wrap(ByteBuffer nioBuffer) {
return allocator.wrap(nioBuffer);
}
/**
* Wraps the specified byte array into MINA heap buffer.
*/
public static IoBuffer wrap(byte[] byteArray) {
return wrap(ByteBuffer.wrap(byteArray));
}
/**
* Wraps the specified byte array into MINA heap buffer.
*/
public static IoBuffer wrap(byte[] byteArray, int offset, int length) {
return wrap(ByteBuffer.wrap(byteArray, offset, length));
}
/**
* Normalizes the specified capacity of the buffer to power of 2,
* which is often helpful for optimal memory usage and performance.
* If it is greater than or equal to {@link Integer#MAX_VALUE}, it
* returns {@link Integer#MAX_VALUE}. If it is zero, it returns zero.
*/
protected static int normalizeCapacity(int requestedCapacity) {
switch (requestedCapacity) {
case 0:
case 1 << 0:
case 1 << 1:
case 1 << 2:
case 1 << 3:
case 1 << 4:
case 1 << 5:
case 1 << 6:
case 1 << 7:
case 1 << 8:
case 1 << 9:
case 1 << 10:
case 1 << 11:
case 1 << 12:
case 1 << 13:
case 1 << 14:
case 1 << 15:
case 1 << 16:
case 1 << 17:
case 1 << 18:
case 1 << 19:
case 1 << 21:
case 1 << 22:
case 1 << 23:
case 1 << 24:
case 1 << 25:
case 1 << 26:
case 1 << 27:
case 1 << 28:
case 1 << 29:
case 1 << 30:
case Integer.MAX_VALUE:
return requestedCapacity;
}
int newCapacity = 1;
while (newCapacity < requestedCapacity) {
newCapacity <<= 1;
if (newCapacity < 0) {
return Integer.MAX_VALUE;
}
}
return newCapacity;
}
/**
* Creates a new instance. This is an empty constructor.
*/
protected IoBuffer() {
// Do nothing
}
/**
* Declares this buffer and all its derived buffers are not used anymore
* so that it can be reused by some {@link IoBufferAllocator} implementations.
* It is not mandatory to call this method, but you might want to invoke this
* method for maximum performance.
*/
public abstract void free();
/**
* Returns the underlying NIO buffer instance.
*/
public abstract ByteBuffer buf();
/**
* @see ByteBuffer#isDirect()
*/
public abstract boolean isDirect();
/**
* returns true if and only if this buffer is derived from other buffer
* via {@link #duplicate()}, {@link #slice()} or {@link #asReadOnlyBuffer()}.
*/
public abstract boolean isDerived();
/**
* @see ByteBuffer#isReadOnly()
*/
public abstract boolean isReadOnly();
/**
* Returns the minimum capacity of this buffer which is used to determine
* the new capacity of the buffer shrunk by {@link #compact()} and
* {@link #shrink()} operation. The default value is the initial capacity
* of the buffer.
*/
public abstract int minimumCapacity();
/**
* Sets the minimum capacity of this buffer which is used to determine
* the new capacity of the buffer shrunk by {@link #compact()} and
* {@link #shrink()} operation. The default value is the initial capacity
* of the buffer.
*/
public abstract IoBuffer minimumCapacity(int minimumCapacity);
/**
* @see ByteBuffer#capacity()
*/
public abstract int capacity();
/**
* Increases the capacity of this buffer. If the new capacity is less than
* or equal to the current capacity, this method returns silently. If the
* new capacity is greater than the current capacity, the buffer is
* reallocated while retaining the position, limit, mark and the content
* of the buffer.
*/
public abstract IoBuffer capacity(int newCapacity);
/**
* Returns true if and only if autoExpand is turned on.
*/
public abstract boolean isAutoExpand();
/**
* Turns on or off autoExpand.
*/
public abstract IoBuffer setAutoExpand(boolean autoExpand);
/**
* Returns true if and only if autoShrink is turned on.
*/
public abstract boolean isAutoShrink();
/**
* Turns on or off autoShrink.
*/
public abstract IoBuffer setAutoShrink(boolean autoShrink);
/**
* Changes the capacity and limit of this buffer so this buffer get
* the specified expectedRemaining room from the current position.
* This method works even if you didn't set autoExpand to
* true.
*/
public abstract IoBuffer expand(int expectedRemaining);
/**
* Changes the capacity and limit of this buffer so this buffer get
* the specified expectedRemaining room from the specified
* position.
* This method works even if you didn't set autoExpand to
* true.
*/
public abstract IoBuffer expand(int position, int expectedRemaining);
/**
* Changes the capacity of this buffer so this buffer occupies as less
* memory as possible while retaining the position, limit and the
* buffer content between the position and limit. The capacity of the
* buffer never becomes less than {@link #minimumCapacity()}.
* The mark is discarded once the capacity changes.
*/
public abstract IoBuffer shrink();
/**
* @see java.nio.Buffer#position()
*/
public abstract int position();
/**
* @see java.nio.Buffer#position(int)
*/
public abstract IoBuffer position(int newPosition);
/**
* @see java.nio.Buffer#limit()
*/
public abstract int limit();
/**
* @see java.nio.Buffer#limit(int)
*/
public abstract IoBuffer limit(int newLimit);
/**
* @see java.nio.Buffer#mark()
*/
public abstract IoBuffer mark();
/**
* Returns the position of the current mark. This method returns -1 if no
* mark is set.
*/
public abstract int markValue();
/**
* @see java.nio.Buffer#reset()
*/
public abstract IoBuffer reset();
/**
* @see java.nio.Buffer#clear()
*/
public abstract IoBuffer clear();
/**
* Clears this buffer and fills its content with NUL.
* The position is set to zero, the limit is set to the capacity,
* and the mark is discarded.
*/
public abstract IoBuffer sweep();
/**double
* Clears this buffer and fills its content with value.
* The position is set to zero, the limit is set to the capacity,
* and the mark is discarded.
*/
public abstract IoBuffer sweep(byte value);
/**
* @see java.nio.Buffer#flip()
*/
public abstract IoBuffer flip();
/**
* @see java.nio.Buffer#rewind()
*/
public abstract IoBuffer rewind();
/**
* @see java.nio.Buffer#remaining()
*/
public abstract int remaining();
/**
* @see java.nio.Buffer#hasRemaining()
*/
public abstract boolean hasRemaining();
/**
* @see ByteBuffer#duplicate()
*/
public abstract IoBuffer duplicate();
/**
* @see ByteBuffer#slice()
*/
public abstract IoBuffer slice();
/**
* @see ByteBuffer#asReadOnlyBuffer()
*/
public abstract IoBuffer asReadOnlyBuffer();
/**
* @see ByteBuffer#hasArray()
*/
public abstract boolean hasArray();
/**
* @see ByteBuffer#array()
*/
public abstract byte[] array();
/**
* @see ByteBuffer#arrayOffset()
*/
public abstract int arrayOffset();
/**
* @see ByteBuffer#get()
*/
public abstract byte get();
/**
* Reads one unsigned byte as a short integer.
*/
public abstract short getUnsigned();
/**
* @see ByteBuffer#put(byte)
*/
public abstract IoBuffer put(byte b);
/**
* @see ByteBuffer#get(int)
*/
public abstract byte get(int index);
/**
* Reads one byte as an unsigned short integer.
*/
public abstract short getUnsigned(int index);
/**
* @see ByteBuffer#put(int, byte)
*/
public abstract IoBuffer put(int index, byte b);
/**
* @see ByteBuffer#get(byte[], int, int)
*/
public abstract IoBuffer get(byte[] dst, int offset, int length);
/**
* @see ByteBuffer#get(byte[])
*/
public abstract IoBuffer get(byte[] dst);
/**
* TODO document me.
*/
public abstract IoBuffer getSlice(int index, int length);
/**
* TODO document me.
*/
public abstract IoBuffer getSlice(int length);
/**
* Writes the content of the specified src into this buffer.
*/
public abstract IoBuffer put(ByteBuffer src);
/**
* Writes the content of the specified src into this buffer.
*/
public abstract IoBuffer put(IoBuffer src);
/**
* @see ByteBuffer#put(byte[], int, int)
*/
public abstract IoBuffer put(byte[] src, int offset, int length);
/**
* @see ByteBuffer#put(byte[])
*/
public abstract IoBuffer put(byte[] src);
/**
* @see ByteBuffer#compact()
*/
public abstract IoBuffer compact();
/**
* @see ByteBuffer#order()
*/
public abstract ByteOrder order();
/**
* @see ByteBuffer#order(ByteOrder)
*/
public abstract IoBuffer order(ByteOrder bo);
/**
* @see ByteBuffer#getChar()
*/
public abstract char getChar();
/**
* @see ByteBuffer#putChar(char)
*/
public abstract IoBuffer putChar(char value);
/**
* @see ByteBuffer#getChar(int)
*/
public abstract char getChar(int index);
/**
* @see ByteBuffer#putChar(int, char)
*/
public abstract IoBuffer putChar(int index, char value);
/**
* @see ByteBuffer#asCharBuffer()
*/
public abstract CharBuffer asCharBuffer();
/**
* @see ByteBuffer#getShort()
*/
public abstract short getShort();
/**
* Reads two bytes unsigned integer.
*/
public abstract int getUnsignedShort();
/**
* @see ByteBuffer#putShort(short)
*/
public abstract IoBuffer putShort(short value);
/**
* @see ByteBuffer#getShort()
*/
public abstract short getShort(int index);
/**
* Reads two bytes unsigned integer.
*/
public abstract int getUnsignedShort(int index);
/**
* @see ByteBuffer#putShort(int, short)
*/
public abstract IoBuffer putShort(int index, short value);
/**
* @see ByteBuffer#asShortBuffer()
*/
public abstract ShortBuffer asShortBuffer();
/**
* @see ByteBuffer#getInt()
*/
public abstract int getInt();
/**
* Reads four bytes unsigned integer.
*/
public abstract long getUnsignedInt();
/**
* Relative get method for reading a medium int value.
*
* Reads the next three bytes at this buffer's current position,
* composing them into an int value according to the current byte order,
* and then increments the position by three.
*
* @return The medium int value at the buffer's current position
*/
public abstract int getMediumInt();
/**
* Relative get method for reading an unsigned medium int value.
*
* Reads the next three bytes at this buffer's current position,
* composing them into an int value according to the current byte order,
* and then increments the position by three.
*
* @return The unsigned medium int value at the buffer's current position
*/
public abstract int getUnsignedMediumInt();
/**
* Absolute get method for reading a medium int value.
*
* Reads the next three bytes at this buffer's current position,
* composing them into an int value according to the current byte order.
*
* @param index The index from which the medium int will be read
* @return The medium int value at the given index
*
* @throws IndexOutOfBoundsException
* If index is negative
* or not smaller than the buffer's limit
*/
public abstract int getMediumInt(int index);
/**
* Absolute get method for reading an unsigned medium int value.
*
* Reads the next three bytes at this buffer's current position,
* composing them into an int value according to the current byte order.
*
* @param index The index from which the unsigned medium int will be read
* @return The unsigned medium int value at the given index
*
* @throws IndexOutOfBoundsException
* If index is negative
* or not smaller than the buffer's limit
*/
public abstract int getUnsignedMediumInt(int index);
/**
* Relative put method for writing a medium int
* value.
*
* Writes three bytes containing the given int value, in the
* current byte order, into this buffer at the current position, and then
* increments the position by three.
*
* @param value
* The medium int value to be written
*
* @return This buffer
*
* @throws BufferOverflowException
* If there are fewer than three bytes
* remaining in this buffer
*
* @throws ReadOnlyBufferException
* If this buffer is read-only
*/
public abstract IoBuffer putMediumInt(int value);
/**
* Absolute put method for writing a medium int
* value.
*
* Writes three bytes containing the given int value, in the
* current byte order, into this buffer at the given index.
*
* @param index
* The index at which the bytes will be written
*
* @param value
* The medium int value to be written
*
* @return This buffer
*
* @throws IndexOutOfBoundsException
* If index is negative
* or not smaller than the buffer's limit,
* minus three
*
* @throws ReadOnlyBufferException
* If this buffer is read-only
*/
public abstract IoBuffer putMediumInt(int index, int value);
/**
* @see ByteBuffer#putInt(int)
*/
public abstract IoBuffer putInt(int value);
/**
* @see ByteBuffer#getInt(int)
*/
public abstract int getInt(int index);
/**
* Reads four bytes unsigned integer.
*/
public abstract long getUnsignedInt(int index);
/**
* @see ByteBuffer#putInt(int, int)
*/
public abstract IoBuffer putInt(int index, int value);
/**
* @see ByteBuffer#asIntBuffer()
*/
public abstract IntBuffer asIntBuffer();
/**
* @see ByteBuffer#getLong()
*/
public abstract long getLong();
/**
* @see ByteBuffer#putLong(int, long)
*/
public abstract IoBuffer putLong(long value);
/**
* @see ByteBuffer#getLong(int)
*/
public abstract long getLong(int index);
/**
* @see ByteBuffer#putLong(int, long)
*/
public abstract IoBuffer putLong(int index, long value);
/**
* @see ByteBuffer#asLongBuffer()
*/
public abstract LongBuffer asLongBuffer();
/**
* @see ByteBuffer#getFloat()
*/
public abstract float getFloat();
/**
* @see ByteBuffer#putFloat(float)
*/
public abstract IoBuffer putFloat(float value);
/**
* @see ByteBuffer#getFloat(int)
*/
public abstract float getFloat(int index);
/**
* @see ByteBuffer#putFloat(int, float)
*/
public abstract IoBuffer putFloat(int index, float value);
/**
* @see ByteBuffer#asFloatBuffer()
*/
public abstract FloatBuffer asFloatBuffer();
/**
* @see ByteBuffer#getDouble()
*/
public abstract double getDouble();
/**
* @see ByteBuffer#putDouble(double)
*/
public abstract IoBuffer putDouble(double value);
/**
* @see ByteBuffer#getDouble(int)
*/
public abstract double getDouble(int index);
/**
* @see ByteBuffer#putDouble(int, double)
*/
public abstract IoBuffer putDouble(int index, double value);
/**
* @see ByteBuffer#asDoubleBuffer()
*/
public abstract DoubleBuffer asDoubleBuffer();
/**
* Returns an {@link InputStream} that reads the data from this buffer.
* {@link InputStream#read()} returns -1 if the buffer position
* reaches to the limit.
*/
public abstract InputStream asInputStream();
/**
* Returns an {@link OutputStream} that appends the data into this buffer.
* Please note that the {@link OutputStream#write(int)} will throw a
* {@link BufferOverflowException} instead of an {@link IOException}
* in case of buffer overflow. Please set autoExpand property by
* calling {@link #setAutoExpand(boolean)} to prevent the unexpected runtime
* exception.
*/
public abstract OutputStream asOutputStream();
/**
* Returns hexdump of this buffer. The data and pointer are
* not changed as a result of this method call.
*
* @return
* hexidecimal representation of this buffer
*/
public abstract String getHexDump();
/**
* Return hexdump of this buffer with limited length.
*
* @param lengthLimit The maximum number of bytes to dump from
* the current buffer position.
* @return
* hexidecimal representation of this buffer
*/
public abstract String getHexDump(int lengthLimit);
////////////////////////////////
// String getters and putters //
////////////////////////////////
/**
* Reads a NUL-terminated string from this buffer using the
* specified decoder and returns it. This method reads
* until the limit of this buffer if no NUL is found.
*/
public abstract String getString(CharsetDecoder decoder)
throws CharacterCodingException;
/**
* Reads a NUL-terminated string from this buffer using the
* specified decoder and returns it.
*
* @param fieldSize the maximum number of bytes to read
*/
public abstract String getString(int fieldSize, CharsetDecoder decoder)
throws CharacterCodingException;
/**
* Writes the content of in into this buffer using the
* specified encoder. This method doesn't terminate
* string with NUL. You have to do it by yourself.
*
* @throws BufferOverflowException if the specified string doesn't fit
*/
public abstract IoBuffer putString(CharSequence val, CharsetEncoder encoder)
throws CharacterCodingException;
/**
* Writes the content of in into this buffer as a
* NUL-terminated string using the specified
* encoder.
*
* If the charset name of the encoder is UTF-16, you cannot specify
* odd fieldSize, and this method will append two
* NULs as a terminator.
*
* Please note that this method doesn't terminate with NUL
* if the input string is longer than fieldSize.
*
* @param fieldSize the maximum number of bytes to write
*/
public abstract IoBuffer putString(CharSequence val, int fieldSize,
CharsetEncoder encoder) throws CharacterCodingException;
/**
* Reads a string which has a 16-bit length field before the actual
* encoded string, using the specified decoder and returns it.
* This method is a shortcut for getPrefixedString(2, decoder).
*/
public abstract String getPrefixedString(CharsetDecoder decoder)
throws CharacterCodingException;
/**
* Reads a string which has a length field before the actual
* encoded string, using the specified decoder and returns it.
*
* @param prefixLength the length of the length field (1, 2, or 4)
*/
public abstract String getPrefixedString(int prefixLength, CharsetDecoder decoder)
throws CharacterCodingException;
/**
* Writes the content of in into this buffer as a
* string which has a 16-bit length field before the actual
* encoded string, using the specified encoder.
* This method is a shortcut for putPrefixedString(in, 2, 0, encoder).
*
* @throws BufferOverflowException if the specified string doesn't fit
*/
public abstract IoBuffer putPrefixedString(CharSequence in, CharsetEncoder encoder)
throws CharacterCodingException;
/**
* Writes the content of in into this buffer as a
* string which has a 16-bit length field before the actual
* encoded string, using the specified encoder.
* This method is a shortcut for putPrefixedString(in, prefixLength, 0, encoder).
*
* @param prefixLength the length of the length field (1, 2, or 4)
*
* @throws BufferOverflowException if the specified string doesn't fit
*/
public abstract IoBuffer putPrefixedString(CharSequence in, int prefixLength,
CharsetEncoder encoder) throws CharacterCodingException;
/**
* Writes the content of in into this buffer as a
* string which has a 16-bit length field before the actual
* encoded string, using the specified encoder.
* This method is a shortcut for putPrefixedString(in, prefixLength, padding, ( byte ) 0, encoder).
*
* @param prefixLength the length of the length field (1, 2, or 4)
* @param padding the number of padded NULs (1 (or 0), 2, or 4)
*
* @throws BufferOverflowException if the specified string doesn't fit
*/
public abstract IoBuffer putPrefixedString(CharSequence in, int prefixLength,
int padding, CharsetEncoder encoder)
throws CharacterCodingException;
/**
* Writes the content of in into this buffer as a
* string which has a 16-bit length field before the actual
* encoded string, using the specified encoder.
*
* @param prefixLength the length of the length field (1, 2, or 4)
* @param padding the number of padded bytes (1 (or 0), 2, or 4)
* @param padValue the value of padded bytes
*
* @throws BufferOverflowException if the specified string doesn't fit
*/
public abstract IoBuffer putPrefixedString(CharSequence val, int prefixLength,
int padding, byte padValue, CharsetEncoder encoder)
throws CharacterCodingException;
/**
* Reads a Java object from the buffer using the context {@link ClassLoader}
* of the current thread.
*/
public abstract Object getObject() throws ClassNotFoundException;
/**
* Reads a Java object from the buffer using the specified classLoader.
*/
public abstract Object getObject(final ClassLoader classLoader)
throws ClassNotFoundException;
/**
* Writes the specified Java object to the buffer.
*/
public abstract IoBuffer putObject(Object o);
/**
* Returns true if this buffer contains a data which has a data
* length as a prefix and the buffer has remaining data as enough as
* specified in the data length field. This method is identical with
* prefixedDataAvailable( prefixLength, Integer.MAX_VALUE ).
* Please not that using this method can allow DoS (Denial of Service)
* attack in case the remote peer sends too big data length value.
* It is recommended to use {@link #prefixedDataAvailable(int, int)}
* instead.
*
* @param prefixLength the length of the prefix field (1, 2, or 4)
*
* @throws IllegalArgumentException if prefixLength is wrong
* @throws BufferDataException if data length is negative
*/
public abstract boolean prefixedDataAvailable(int prefixLength);
/**
* Returns true if this buffer contains a data which has a data
* length as a prefix and the buffer has remaining data as enough as
* specified in the data length field.
*
* @param prefixLength the length of the prefix field (1, 2, or 4)
* @param maxDataLength the allowed maximum of the read data length
*
* @throws IllegalArgumentException if prefixLength is wrong
* @throws BufferDataException if data length is negative or greater then maxDataLength
*/
public abstract boolean prefixedDataAvailable(int prefixLength, int maxDataLength);
/////////////////////
// IndexOf methods //
/////////////////////
/**
* Returns the first occurence position of the specified byte from the current position to
* the current limit.
*
* @return -1 if the specified byte is not found
*/
public abstract int indexOf(byte b);
//////////////////////////
// Skip or fill methods //
//////////////////////////
/**
* Forwards the position of this buffer as the specified size
* bytes.
*/
public abstract IoBuffer skip(int size);
/**
* Fills this buffer with the specified value.
* This method moves buffer position forward.
*/
public abstract IoBuffer fill(byte value, int size);
/**
* Fills this buffer with the specified value.
* This method does not change buffer position.
*/
public abstract IoBuffer fillAndReset(byte value, int size);
/**
* Fills this buffer with NUL (0x00).
* This method moves buffer position forward.
*/
public abstract IoBuffer fill(int size);
/**
* Fills this buffer with NUL (0x00).
* This method does not change buffer position.
*/
public abstract IoBuffer fillAndReset(int size);
//////////////////////////
// Enum methods //
//////////////////////////
/**
* Reads a byte from the buffer and returns the correlating enum constant defined
* by the specified enum type.
*
* @param The enum type to return
* @param enumClass The enum's class object
*/
public abstract > E getEnum(Class enumClass);
/**
* Reads a byte from the buffer and returns the correlating enum constant defined
* by the specified enum type.
*
* @param The enum type to return
* @param index the index from which the byte will be read
* @param enumClass The enum's class object
*/
public abstract > E getEnum(int index, Class enumClass);
/**
* Reads a short from the buffer and returns the correlating enum constant defined
* by the specified enum type.
*
* @param The enum type to return
* @param enumClass The enum's class object
*/
public abstract > E getEnumShort(Class enumClass);
/**
* Reads a short from the buffer and returns the correlating enum constant defined
* by the specified enum type.
*
* @param The enum type to return
* @param index the index from which the bytes will be read
* @param enumClass The enum's class object
*/
public abstract > E getEnumShort(int index, Class enumClass);
/**
* Reads an int from the buffer and returns the correlating enum constant defined
* by the specified enum type.
*
* @param The enum type to return
* @param enumClass The enum's class object
*/
public abstract > E getEnumInt(Class enumClass);
/**
* Reads an int from the buffer and returns the correlating enum constant defined
* by the specified enum type.
*
* @param The enum type to return
* @param index the index from which the bytes will be read
* @param enumClass The enum's class object
*/
public abstract > E getEnumInt(int index, Class enumClass);
/**
* Writes an enum's ordinal value to the buffer as a byte.
*
* @param e The enum to write to the buffer
*/
public abstract IoBuffer putEnum(Enum e);
/**
* Writes an enum's ordinal value to the buffer as a byte.
*
* @param index The index at which the byte will be written
* @param e The enum to write to the buffer
*/
public abstract IoBuffer putEnum(int index, Enum e);
/**
* Writes an enum's ordinal value to the buffer as a short.
*
* @param e The enum to write to the buffer
*/
public abstract IoBuffer putEnumShort(Enum e);
/**
* Writes an enum's ordinal value to the buffer as a short.
*
* @param index The index at which the bytes will be written
* @param e The enum to write to the buffer
*/
public abstract IoBuffer putEnumShort(int index, Enum e);
/**
* Writes an enum's ordinal value to the buffer as an integer.
*
* @param e The enum to write to the buffer
*/
public abstract IoBuffer putEnumInt(Enum e);
/**
* Writes an enum's ordinal value to the buffer as an integer.
*
* @param index The index at which the bytes will be written
* @param e The enum to write to the buffer
*/
public abstract IoBuffer putEnumInt(int index, Enum e);
//////////////////////////
// EnumSet methods //
//////////////////////////
/**
* Reads a byte sized bit vector and converts it to an {@link EnumSet}.
*
* Each bit is mapped to a value in the specified enum. The least significant
* bit maps to the first entry in the specified enum and each subsequent bit maps
* to each subsequent bit as mapped to the subsequent enum value.
*
* @param the enum type
* @param enumClass the enum class used to create the EnumSet
* @return the EnumSet representation of the bit vector
*/
public abstract > EnumSet getEnumSet(Class enumClass);
/**
* Reads a byte sized bit vector and converts it to an {@link EnumSet}.
*
* @see #getEnumSet(Class)
* @param the enum type
* @param index the index from which the byte will be read
* @param enumClass the enum class used to create the EnumSet
* @return the EnumSet representation of the bit vector
*/
public abstract > EnumSet getEnumSet(int index,
Class enumClass);
/**
* Reads a short sized bit vector and converts it to an {@link EnumSet}.
*
* @see #getEnumSet(Class)
* @param the enum type
* @param enumClass the enum class used to create the EnumSet
* @return the EnumSet representation of the bit vector
*/
public abstract > EnumSet getEnumSetShort(Class enumClass);
/**
* Reads a short sized bit vector and converts it to an {@link EnumSet}.
*
* @see #getEnumSet(Class)
* @param the enum type
* @param index the index from which the bytes will be read
* @param enumClass the enum class used to create the EnumSet
* @return the EnumSet representation of the bit vector
*/
public abstract > EnumSet getEnumSetShort(int index,
Class enumClass);
/**
* Reads an int sized bit vector and converts it to an {@link EnumSet}.
*
* @see #getEnumSet(Class)
* @param the enum type
* @param enumClass the enum class used to create the EnumSet
* @return the EnumSet representation of the bit vector
*/
public abstract > EnumSet getEnumSetInt(Class enumClass);
/**
* Reads an int sized bit vector and converts it to an {@link EnumSet}.
*
* @see #getEnumSet(Class)
* @param the enum type
* @param index the index from which the bytes will be read
* @param enumClass the enum class used to create the EnumSet
* @return the EnumSet representation of the bit vector
*/
public abstract > EnumSet getEnumSetInt(int index,
Class enumClass);
/**
* Reads a long sized bit vector and converts it to an {@link EnumSet}.
*
* @see #getEnumSet(Class)
* @param the enum type
* @param enumClass the enum class used to create the EnumSet
* @return the EnumSet representation of the bit vector
*/
public abstract > EnumSet getEnumSetLong(Class enumClass);
/**
* Reads a long sized bit vector and converts it to an {@link EnumSet}.
*
* @see #getEnumSet(Class)
* @param the enum type
* @param index the index from which the bytes will be read
* @param enumClass the enum class used to create the EnumSet
* @return the EnumSet representation of the bit vector
*/
public abstract > EnumSet getEnumSetLong(int index,
Class enumClass);
/**
* Writes the specified {@link Set} to the buffer as a byte sized bit vector.
*
* @param the enum type of the Set
* @param set the enum set to write to the buffer
*/
public abstract > IoBuffer putEnumSet(Set set);
/**
* Writes the specified {@link Set} to the buffer as a byte sized bit vector.
*
* @param the enum type of the Set
* @param index the index at which the byte will be written
* @param set the enum set to write to the buffer
*/
public abstract > IoBuffer putEnumSet(int index, Set set);
/**
* Writes the specified {@link Set} to the buffer as a short sized bit vector.
*
* @param the enum type of the Set
* @param set the enum set to write to the buffer
*/
public abstract > IoBuffer putEnumSetShort(Set set);
/**
* Writes the specified {@link Set} to the buffer as a short sized bit vector.
*
* @param the enum type of the Set
* @param index the index at which the bytes will be written
* @param set the enum set to write to the buffer
*/
public abstract > IoBuffer putEnumSetShort(int index, Set set);
/**
* Writes the specified {@link Set} to the buffer as an int sized bit vector.
*
* @param the enum type of the Set
* @param set the enum set to write to the buffer
*/
public abstract > IoBuffer putEnumSetInt(Set set);
/**
* Writes the specified {@link Set} to the buffer as an int sized bit vector.
*
* @param the enum type of the Set
* @param index the index at which the bytes will be written
* @param set the enum set to write to the buffer
*/
public abstract > IoBuffer putEnumSetInt(int index, Set set);
/**
* Writes the specified {@link Set} to the buffer as a long sized bit vector.
*
* @param the enum type of the Set
* @param set the enum set to write to the buffer
*/
public abstract > IoBuffer putEnumSetLong(Set set);
/**
* Writes the specified {@link Set} to the buffer as a long sized bit vector.
*
* @param the enum type of the Set
* @param index the index at which the bytes will be written
* @param set the enum set to write to the buffer
*/
public abstract > IoBuffer putEnumSetLong(int index, Set set);
}