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A bundle project producing JAX-RS RI bundles. The primary artifact is an "all-in-one" OSGi-fied JAX-RS RI bundle (jaxrs-ri.jar). Attached to that are two compressed JAX-RS RI archives. The first archive (jaxrs-ri.zip) consists of binary RI bits and contains the API jar (under "api" directory), RI libraries (under "lib" directory) as well as all external RI dependencies (under "ext" directory). The secondary archive (jaxrs-ri-src.zip) contains buildable JAX-RS RI source bundle and contains the API jar (under "api" directory), RI sources (under "src" directory) as well as all external RI dependencies (under "ext" directory). The second archive also contains "build.xml" ANT script that builds the RI sources. To build the JAX-RS RI simply unzip the archive, cd to the created jaxrs-ri directory and invoke "ant" from the command line.

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package org.glassfish.jersey.internal.util.collection;

import java.io.IOException;
import java.nio.ByteBuffer;
import java.util.concurrent.BlockingQueue;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicReference;

import org.glassfish.jersey.internal.LocalizationMessages;

/**
 * An {@link java.io.InputStream} backed by a queue of {@link java.nio.ByteBuffer byte buffers}
 * to be read.
 * 

* This input stream serves as a bridging inbound I/O component between a blocking upper I/O layer * and an underlying non-blocking I/O layer. In addition to the blocking {@code InputStream.read} operations, * this input stream provides the non-blocking {@code tryRead} counterparts. *

* * @author Marek Potociar (marek.potociar at oracle.com) */ public final class ByteBufferInputStream extends NonBlockingInputStream { /** * Constant buffer indicating EOF. */ private static final ByteBuffer EOF = ByteBuffer.wrap(new byte[]{}); /** * Read-side EOF flag. Does not have to be volatile, it is transient and only accessed from the reader thread. */ private boolean eof = false; /** * Currently read byte buffer. */ private ByteBuffer current; /** * Queue of byte buffers to be read. */ private final BlockingQueue buffers; /** * Content represents the buffer queue status. * * null = open, POISON_PILL = closed, Throwable = closed with error */ private final AtomicReference queueStatus = new AtomicReference(null); /** * Closed flag. */ private final AtomicBoolean closed = new AtomicBoolean(false); /** * Create a new input stream that is backed by a a queue of {@link java.nio.ByteBuffer byte buffers} * to be read. */ public ByteBufferInputStream() { this.buffers = DataStructures.createLinkedTransferQueue(); this.current = null; } private boolean fetchChunk(final boolean block) throws InterruptedException { if (eof) { return false; } // Read until no buffers available (poll returned null) // or until a non-empty buffer or EOF is reached. do { if (closed.get()) { current = EOF; break; } current = (block) ? buffers.take() : buffers.poll(); } while (current != null && current != EOF && !current.hasRemaining()); eof = current == EOF; return !eof; } private void checkNotClosed() throws IOException { if (closed.get()) { throw new IOException(LocalizationMessages.INPUT_STREAM_CLOSED()); } } private void checkThrowable() throws IOException { Object o = queueStatus.get(); if (o != null && o != EOF) { // should be faster than instanceof // if not null or EOF, then it must be Throwable if (queueStatus.compareAndSet(o, EOF)) { // clear throwable flag and throw exception try { throw new IOException((Throwable) o); } finally { close(); } } } } @Override public int available() throws IOException { if (eof || closed.get()) { checkThrowable(); return 0; } int available = 0; if (current != null && current.hasRemaining()) { available = current.remaining(); } for (ByteBuffer buffer : buffers) { if (buffer == EOF) { break; } available += buffer.remaining(); } checkThrowable(); return closed.get() ? 0 : available; } @Override public int read() throws IOException { if (eof) { checkThrowable(); checkNotClosed(); return -1; } final int c; if (current != null && current.hasRemaining()) { c = current.get(); } else { try { // let's block until next non-empty chunk or EOF c = fetchChunk(true) ? current.get() : -1; } catch (InterruptedException e) { Thread.currentThread().interrupt(); throw new IOException(e); } } checkThrowable(); checkNotClosed(); return c; } @Override public int tryRead() throws IOException { checkThrowable(); checkNotClosed(); if (eof) { return -1; } if (current != null && current.hasRemaining()) { return current.get(); } try { // try to fetch, but don't block && check if something has been fetched if (fetchChunk(false) && current != null) { return current.get(); } } catch (InterruptedException e) { Thread.currentThread().interrupt(); } return (eof) ? -1 : NOTHING; } @Override public int tryRead(byte b[]) throws IOException { return tryRead(b, 0, b.length); } @Override public int tryRead(byte b[], int off, int len) throws IOException { checkThrowable(); checkNotClosed(); if (b == null) { throw new NullPointerException(); } else if (off < 0 || len < 0 || len > b.length - off) { throw new IndexOutOfBoundsException(); } else if (len == 0) { return 0; } if (eof) { return -1; } int i = 0; while (i < len) { if (current != null && current.hasRemaining()) { final int available = current.remaining(); if (available < len - i) { current.get(b, off + i, available); i += available; } else { current.get(b, off + i, len - i); return len; } } else try { if (!fetchChunk(false) || current == null) { break; // eof or no data } } catch (InterruptedException e) { Thread.currentThread().interrupt(); } } return i; } @Override public void close() throws IOException { if (closed.compareAndSet(false, true)) { closeQueue(); // we can now safely clear the queue - any blocking read waiting for a buffer // has been resumed by the EOF buffer buffers.clear(); } checkThrowable(); } /** * Put the {@code ByteBuffer} to the internal queue to be available for reading from the stream. * *

* If the sink is open, the method {@link BlockingQueue#put(Object) puts the buffer} into an internal * byte buffer read queue , waiting if necessary for space to become available. Then the method returns * {@code true} to indicate the buffer has been successfully queued. In case the internal read queue has been * {@link #closeQueue() closed} already, the method simply returns {@code false} without registering * the buffer in the closed queue. *

* * @param src the source buffer to be registered in the byte buffer read queue. * @return {@code true} if the byte buffer has been successfully put in the read queue, * {@code false} if the read queue has been closed. * @throws InterruptedException in case the put operation has been interrupted. */ public boolean put(ByteBuffer src) throws InterruptedException { if (queueStatus.get() == null) { buffers.put(src); return true; } return false; } /** * Closes the byte buffer sink of this input stream to indicate that writing to the stream * has been finished. *

* If the sink has already been closed then this method returns immediately. Otherwise the * sink is marked as closed and no more data can be written to it. *

*/ public void closeQueue() { if (queueStatus.compareAndSet(null, EOF)) { try { buffers.put(EOF); } catch (InterruptedException e) { Thread.currentThread().interrupt(); } } } /** * Closes the byte buffer sink of this input stream to indicate that writing to the stream * has been finished due to a throwable. * * The throwable set by this method will be propagated to the reader thread when a new attempt * to read bytes is made. *

* If the sink has already been closed then this method only sets the throwable in the stream and * then returns immediately. Otherwise the sink is also marked as closed and no more data can be * written to it. *

* * @param throwable throwable that is set in the stream. It will be thrown by the stream in case * an attempt to read more data or check available bytes is made. */ public void closeQueue(Throwable throwable) { if (queueStatus.compareAndSet(null, throwable)) { try { buffers.put(EOF); } catch (InterruptedException e) { Thread.currentThread().interrupt(); } } } }