/*
* JBoss, Home of Professional Open Source
*
* Copyright 2008 Red Hat, Inc. and/or its affiliates.
*
* 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.xnio.channels;
import java.nio.ByteBuffer;
import java.nio.channels.WritableByteChannel;
import java.nio.channels.GatheringByteChannel;
import java.nio.channels.FileChannel;
import java.io.IOException;
import org.xnio.ChannelListener;
A stream sink channel. This type of channel is a writable destination for bytes. While all channel types are
thread-safe, writing a stream from more than one thread concurrently will cause data corruption and may be
disallowed at the option of the implementation.
/**
* A stream sink channel. This type of channel is a writable destination for bytes. While all channel types are
* thread-safe, writing a stream from more than one thread concurrently will cause data corruption and may be
* disallowed at the option of the implementation.
*/
public interface StreamSinkChannel extends WritableByteChannel, GatheringByteChannel, SuspendableWriteChannel {
Transfer bytes into this channel from the given file. Using this method in preference to FileChannel.transferTo(long, long, WritableByteChannel) may provide a performance advantage on some platforms. If the current thread is interrupted when this method is called, it may throw a InterruptedIOException; however, if this exception is thrown, the InterruptedIOException.bytesTransferred field is guaranteed to be 0.
Params: - src – the file to read from
- position – the position within the file from which the transfer is to begin
- count – the number of bytes to be transferred
Throws: - IOException – if an I/O error occurs
Returns: the number of bytes (possibly 0) that were actually transferred
/**
* Transfer bytes into this channel from the given file. Using this method in preference to {@link FileChannel#transferTo(long, long, WritableByteChannel)}
* may provide a performance advantage on some platforms.
* <p>
* If the current thread is interrupted when this method is called, it may throw a {@link java.io.InterruptedIOException};
* however, if this exception is thrown, the {@link java.io.InterruptedIOException#bytesTransferred} field is
* guaranteed to be 0.
*
* @param src the file to read from
* @param position the position within the file from which the transfer is to begin
* @param count the number of bytes to be transferred
* @return the number of bytes (possibly 0) that were actually transferred
* @throws IOException if an I/O error occurs
*/
long transferFrom(FileChannel src, long position, long count) throws IOException;
Transfers bytes from the given channel source. On some platforms, this may avoid copying bytes between user and kernel space. On other platforms, bytes are passed through the throughBuffer parameter's buffer space. On entry, throughBuffer will be cleared. On exit, the buffer will be flipped for emptying, and may be empty or may contain data. If this method returns a value less than count, then the remaining data in throughBuffer may contain data read from source which must be written to this channel to complete the operation. Note that using a direct buffer may provide an intermediate performance gain on platforms without zero-copy facilities. If the current thread is interrupted when this method is called, it may throw a InterruptedIOException; however, if this exception is thrown, the InterruptedIOException.bytesTransferred field is guaranteed to be 0.
Params: - source – the source to read from
- count – the number of bytes to be transferred
- throughBuffer – the buffer to copy through.
Throws: - IOException – if an I/O error occurs
Returns: the number of bytes (possibly 0) that were actually transferred, or -1 if the end of input was reached
/**
* Transfers bytes from the given channel source. On some platforms, this may avoid copying bytes between user
* and kernel space. On other platforms, bytes are passed through the {@code throughBuffer} parameter's buffer
* space. On entry, {@code throughBuffer} will be cleared. On exit, the buffer will be
* flipped for emptying, and may be empty or may contain data. If this method returns a value less than
* {@code count}, then the remaining data in {@code throughBuffer} may contain data read from {@code source} which must
* be written to this channel to complete the operation. Note that using a direct buffer may provide an
* intermediate performance gain on platforms without zero-copy facilities.
* <p>
* If the current thread is interrupted when this method is called, it may throw a {@link java.io.InterruptedIOException};
* however, if this exception is thrown, the {@link java.io.InterruptedIOException#bytesTransferred} field is
* guaranteed to be 0.
*
* @param source the source to read from
* @param count the number of bytes to be transferred
* @param throughBuffer the buffer to copy through.
* @return the number of bytes (possibly 0) that were actually transferred, or -1 if the end of input was reached
* @throws IOException if an I/O error occurs
*/
long transferFrom(StreamSourceChannel source, long count, ByteBuffer throughBuffer) throws IOException;
{@inheritDoc} /** {@inheritDoc} */
ChannelListener.Setter<? extends StreamSinkChannel> getWriteSetter();
{@inheritDoc} /** {@inheritDoc} */
ChannelListener.Setter<? extends StreamSinkChannel> getCloseSetter();
Writes some data to the channel, with the same semantics as WritableByteChannel.write(ByteBuffer). If all the data is written out then the channel will have its writes shutdown. Semantically this method is equivalent to:
int rem = src.remaining();
int written = channel.write(src);
if(written == rem) {
channel.shutdownWrites()
}
If an exception is thrown the caller is still responsible for closing the channel.
Params: - src – The data to write
See Also: Returns: The amount of data that was actually written.
/**
*
* Writes some data to the channel, with the same semantics as
* {@link #write(java.nio.ByteBuffer)}. If all the data is written
* out then the channel will have its writes shutdown. Semantically this
* method is equivalent to:
* <code>
* int rem = src.remaining();
* int written = channel.write(src);
* if(written == rem) {
* channel.shutdownWrites()
* }
* </code>
*
* If an exception is thrown the caller is still responsible for closing the channel.
*
* @see WritableByteChannel#write(java.nio.ByteBuffer)
* @see SuspendableWriteChannel#shutdownWrites()
* @param src The data to write
* @return The amount of data that was actually written.
*/
public int writeFinal(ByteBuffer src) throws IOException;
Writes some data to the channel, with the same semantics as GatheringByteChannel.write(ByteBuffer[], int, int). If all the data is written out then the channel will have its writes shutdown. If an exception is thrown the caller is still responsible for closing the channel. Params: - srcs –
The buffers from which bytes are to be retrieved
- offset –
The offset within the buffer array of the first buffer from
which bytes are to be retrieved; must be non-negative and no
larger than srcs.length
- length –
The maximum number of buffers to be accessed; must be
non-negative and no larger than
srcs.length - offset
See Also: Returns: The amount of data that was actually written
/**
*
* Writes some data to the channel, with the same semantics as
* {@link #write(java.nio.ByteBuffer[], int, int)}. If all the data is written
* out then the channel will have its writes shutdown.
*
* If an exception is thrown the caller is still responsible for closing the channel.
*
* @see GatheringByteChannel#write(java.nio.ByteBuffer[], int, int)
*
* @see SuspendableWriteChannel#shutdownWrites()
*
* @param srcs
* The buffers from which bytes are to be retrieved
*
* @param offset
* The offset within the buffer array of the first buffer from
* which bytes are to be retrieved; must be non-negative and no
* larger than <tt>srcs.length</tt>
*
* @param length
* The maximum number of buffers to be accessed; must be
* non-negative and no larger than
* <tt>srcs.length</tt> - <tt>offset</tt>
*
* @return The amount of data that was actually written
*/
public long writeFinal(ByteBuffer[] srcs, int offset, int length)
throws IOException;
Writes some data to the channel, with the same semantics as GatheringByteChannel.write(ByteBuffer[]). If all the data is written out then the channel will have its writes shutdown. If an exception is thrown the caller is still responsible for closing the channel. Params: - srcs –
The buffers from which bytes are to be retrieved
See Also: Returns: The amount of data that was actually written
/**
*
* Writes some data to the channel, with the same semantics as
* {@link #write(java.nio.ByteBuffer[])}. If all the data is written
* out then the channel will have its writes shutdown.
*
* If an exception is thrown the caller is still responsible for closing the channel.
*
* @see GatheringByteChannel#write(java.nio.ByteBuffer[])
*
* @see SuspendableWriteChannel#shutdownWrites()
*
* @param srcs
* The buffers from which bytes are to be retrieved
*
* @return The amount of data that was actually written
*/
public long writeFinal(ByteBuffer[] srcs) throws IOException;
}