io.cloudracer.mocktcpserver.datastream.DataStream Maven / Gradle / Ivy
package io.cloudracer.mocktcpserver.datastream;
import java.io.ByteArrayOutputStream;
import java.io.Closeable;
import java.io.IOException;
import java.io.OutputStream;
import java.io.PipedInputStream;
import java.io.PipedOutputStream;
import java.io.UnsupportedEncodingException;
import java.util.ArrayDeque;
import java.util.Deque;
import java.util.Iterator;
import org.apache.commons.io.IOUtils;
import org.apache.logging.log4j.LogManager;
import org.apache.logging.log4j.Logger;
/**
* Provide functionality for the handling of an {@link OutputStream}.
*
* @author John McDonnell
*/
public class DataStream implements Closeable {
private Logger logger;
/**
* By default, the DataStream will maintain a {@link DataStream#getTail() tail} with this {@link DataStream#getTailMaximumLength() maximum length}.
*/
public static final int DEFAULT_TAIL_MAXIMUM_LENGTH = 3;
private ByteArrayOutputStream output;
private Deque tailQueue = null;
private Byte lastByte;
private Integer tailMaximumLength = null;
private String rootLoggerName;
/**
* Specify a log4j root logger.
*
* @param rootLoggerName log4j root logger.
*/
public DataStream(final String rootLoggerName) {
this.setRootLoggerName(rootLoggerName);
}
/**
* Specify a {@link DataStream#getTailMaximumLength() maximum length of the stream tail}.
*
* @param tailMaximumLength tail length.
*/
public DataStream(final int tailMaximumLength) {
this.setTailMaximumLength(tailMaximumLength);
}
/**
* Specify a {@link DataStream#getRootLoggerName() log4j root logger} and the {@link DataStream#getTailMaximumLength() maximum length of the stream tail}.
*
* @param rootLoggerName log4j root logger.
* @param tailMaximumLength tail length.
*/
public DataStream(final int tailMaximumLength, final String rootLoggerName) {
this.setTailMaximumLength(tailMaximumLength);
this.setRootLoggerName(rootLoggerName);
}
/**
* Write byte to the {@link ByteArrayOutputStream#write(int)}.
*
* @param data written to the {@link ByteArrayOutputStream}.
* @return the data written (equal to the data parameter).
* @throws IOException see source documentation
*/
public synchronized int write(final int data) throws IOException {
this.getOutput().write(data);
return data;
}
/**
* {@link PipedOutputStream#close() close} the {@link PipedOutputStream output stream}.
*
* @throws IOException see source documentation
*/
@Override
public void close() throws IOException {
this.setOutput(null);
}
/**
* Delegate of {@link ByteArrayOutputStream#reset()}.
*/
public void reset() {
this.getOutput().reset();
}
/**
* Delegate of {@link ByteArrayOutputStream#size()}.
*
* @return see source documentation
*/
public synchronized int size() {
return this.getOutput().size();
}
private synchronized ByteArrayOutputStream getOutput() {
if (this.output == null) {
// The ByteArrayOutputStream is closed automatically when the class is destroyed.
this.output = new ByteArrayOutputStream() { // NOSONAR
@Override
public synchronized void write(final int b) {
super.write(b);
DataStream.this.setLastByte((byte) b);
DataStream.this.addToTailList();
}
};
}
return this.output;
}
/**
* Delegate of {@link ByteArrayOutputStream#toByteArray()}.
*
* @return see source documentation.
*/
public synchronized byte[] toByteArray() {
return this.getOutput().toByteArray();
}
/**
* Copies the stream to a newly created {@link PipedInputStream input stream}. The {@link PipedInputStream input stream} is cached internally and only reinitialised when new bytes are written to the stream.
*
* The stream is copied without making one or more intermediary copies of the content (i.e. it is memory efficient).
*
* @return {@link PipedInputStream input stream} populated with all available data.
* @throws IOException see source documentation.
*/
public PipedInputStream toInputStream() throws IOException {
PipedInputStream inputStream;
if (this.getOutput().size() == 0) {
inputStream = new PipedInputStream();
} else {
inputStream = new PipedInputStream(this.getOutput().size());
final PipedOutputStream outputStream = new PipedOutputStream(inputStream);
final Thread copy = new Thread(() -> {
try {
DataStream.this.getOutput().writeTo(outputStream);
} catch (final IOException e) {
DataStream.this.logger.error(e.getMessage(), e);
}
});
copy.setName(String.format("%s-InputStream-Creator", this.getThreadName()));
copy.start();
try {
copy.join();
} catch (final InterruptedException e) {
this.logger.error(e.getCause(), e);
Thread.currentThread().interrupt();
}
}
return inputStream;
}
/**
* {@link ByteArrayOutputStream#close() close} the {@link ByteArrayOutputStream output stream}.
*
* @param output if null, the current {@link ByteArrayOutputStream output stream} is closed before being reinitialised.
* @throws IOException see source documentation.
*/
private void setOutput(final ByteArrayOutputStream output) throws IOException {
if (output == null && this.output != null) {
IOUtils.closeQuietly(this.output);
}
this.output = output;
}
/**
* The length of the tail.
*
* @return the length of the tail. Default of {@link DataStream#DEFAULT_TAIL_MAXIMUM_LENGTH}.
*/
public int getTailMaximumLength() {
if (this.tailMaximumLength == null) {
this.tailMaximumLength = DataStream.DEFAULT_TAIL_MAXIMUM_LENGTH;
}
return this.tailMaximumLength;
}
private void setTailMaximumLength(final int tailLength) {
this.tailMaximumLength = tailLength;
}
/**
* The tail of the specified {@link DataStream#getTailMaximumLength() length}.
*
* @return the {@link Bytes} that represent the tail of the DataStrean.
*/
private Deque getTailQueue() {
if (this.tailQueue == null) {
this.tailQueue = new ArrayDeque<>(this.getTailMaximumLength());
}
return this.tailQueue;
}
/**
* The tail of the specified {@link DataStream#getTailMaximumLength() length}.
*
* @return a byte[] containing the tail data, of specified maximum length.
*/
public byte[] getTail() {
// Convert the list to an array.
final byte[] tail = new byte[this.getTailQueue().size()];
int i = 0;
for (final Iterator iterator = this.getTailQueue().iterator(); iterator.hasNext();) {
final Byte nextByte = iterator.next();
tail[i] = nextByte;
i++;
}
return tail;
}
private void addToTailList() {
this.getTailQueue().addLast(this.getLastByte());
if (this.getTailQueue().size() > this.getTailMaximumLength()) {
this.getTailQueue().removeFirst();
}
}
/**
* Get the most recently received byte of the stream.
*
* @return the first byte in the stream.
*/
public Byte getLastByte() {
return this.lastByte;
}
private void setLastByte(final byte lastByte) {
this.lastByte = lastByte;
}
/**
* Obtain the log4j root logger name.
*
* @return String the log4j root logger name
*/
public String getRootLoggerName() {
if (this.rootLoggerName == null) {
this.rootLoggerName = this.getClssName();
}
return new String(this.rootLoggerName);
}
/**
* Set the log4j {@link Logger#getLogger root logger} name.
*
* @param rootLoggerName
* the name of the log4j root logger
*/
private void setRootLoggerName(final String rootLoggerName) {
this.rootLoggerName = new String(rootLoggerName);
this.logger = LogManager.getLogger(String.format("%s.%s", this.rootLoggerName, this.getClssName()));
}
private Logger getLogger() {
if (this.logger == null) {
this.logger = LogManager.getLogger(String.format("%s.%s", this.getRootLoggerName(), this.getClssName()));
}
return this.logger;
}
private String getThreadName() {
final String delimeter = ".";
final String regEx = "\\.";
String name;
if (this.getClass().getSimpleName() != null && this.getClass().getSimpleName().length() > 0) {
name = this.getClass().getSimpleName();
} else {
if (this.getClass().getName().contains(delimeter)) {
final String[] nameSegments = this.getClass().getName().split(regEx);
name = String.format("%s-%s", this.getClass().getSuperclass().getSimpleName(),
nameSegments[nameSegments.length - 1]);
} else {
name = this.getClass().getName();
}
}
return name;
}
/**
* This class name, even if instantiated as an anonymous class.
*
* @return a Class name.
*/
private String getClssName() {
final String delimeter = ".";
final String regEx = "\\.";
String name;
if (this.getClass().getSimpleName() != null && this.getClass().getSimpleName().length() != 0) {
name = this.getClass().getSimpleName();
} else {
if (this.getClass().getName().contains(delimeter)) {
final String[] nameSegments = this.getClass().getName().split(regEx);
name = nameSegments[nameSegments.length - 1];
} else {
name = this.getClass().getName();
}
}
return name;
}
/**
* Convert the content of the stream to a UTF-8 character set String.
*/
@Override
public String toString() {
String returnValue = null;
try {
returnValue = this.getOutput().toString("UTF-8");
} catch (final UnsupportedEncodingException e) {
this.getLogger().error(e.getMessage(), e);
}
return returnValue;
}
}