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package org.glassfish.admin.payload;
import java.io.*;
import java.net.URI;
import java.net.URLConnection;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Iterator;
import java.util.Properties;
import org.glassfish.api.admin.Payload;
/**
* Abstract implementation of the Payload API.
*
* @author tjquinn
*/
public class PayloadImpl implements Payload {
public abstract static class Outbound implements Payload.Outbound {
/**
* Partial implementation of the Outbound Payload.
*/
private final ArrayList parts = new ArrayList();
private boolean dirty = false;
@Override
public int size() {
return getParts().size();
}
@Override
public void addPart(
final String contentType,
final String name,
final Properties props,
final String content) throws IOException {
parts.add(Part.newInstance(contentType, name, props, content));
dirty = true;
}
@Override
public void addPart(
final String contentType,
final String name,
final Properties props,
final InputStream content) throws IOException {
parts.add(Part.newInstance(contentType, name, props, content));
dirty = true;
}
@Override
public void addPart(
final int index,
final String contentType,
final String name,
final Properties props,
final InputStream content
) throws IOException {
parts.add(index, Part.newInstance(contentType, name, props, content));
dirty = true;
}
@Override
public void attachFile(
final String contentType,
final URI fileURI,
final String dataRequestName,
final File file) throws IOException {
attachFile(contentType, fileURI, dataRequestName, null /* props */, file, false /* isRecursive */);
dirty = true;
}
@Override
public void attachFile(
final String contentType,
final URI fileURI,
final String dataRequestName,
final File file,
final boolean isRecursive) throws IOException {
attachFile(contentType, fileURI, dataRequestName, null /* props */, file, isRecursive);
dirty = true;
}
@Override
public void attachFile(
final String contentType,
final URI fileURI,
final String dataRequestName,
final Properties props,
final File file) throws IOException {
attachFile(contentType, fileURI, dataRequestName, props, file, false /* isRecursive */);
dirty = true;
}
@Override
public void attachFile(
final String contentType,
final URI fileURI,
final String dataRequestName,
final Properties props,
final File file,
final boolean isRecursive) throws IOException {
Properties enhancedProps = new Properties();
if (props != null) {
enhancedProps.putAll(props);
}
enhancedProps.setProperty("data-request-type", "file-xfer");
enhancedProps.setProperty("data-request-name", dataRequestName);
enhancedProps.setProperty("data-request-is-recursive", Boolean.toString(isRecursive));
enhancedProps.setProperty("last-modified", Long.toString(file.lastModified())
);
if (file.isDirectory() && isRecursive) {
String relativeURIPath = fileURI.getRawPath();
if (relativeURIPath.endsWith("/")) {
relativeURIPath = relativeURIPath.substring(0, relativeURIPath.length() - 1);
}
relativeURIPath = relativeURIPath.substring(0, relativeURIPath.lastIndexOf("/") + 1);
attachFilesRecursively(
file.getParentFile().toURI(),
URI.create(relativeURIPath),
fileURI,
dataRequestName,
enhancedProps,
file);
} else {
parts.add(Part.newInstance(
contentType,
fileURI.getRawPath(),
enhancedProps,
(file.isDirectory()) ? null : file));
}
dirty = true;
}
@Override
public void requestFileReplacement(
final String contentType,
final URI fileURI,
final String dataRequestName,
final Properties props,
final File file,
final boolean isRecursive) throws IOException {
final Properties enhancedProps = new Properties();
if (props != null) {
enhancedProps.putAll(props);
}
enhancedProps.setProperty("data-request-type", "file-replace");
enhancedProps.setProperty("data-request-name", dataRequestName);
enhancedProps.setProperty("data-request-is-recursive", Boolean.toString(isRecursive));
enhancedProps.setProperty("last-modified", Long.toString(file.lastModified()));
/*
* Add a dummy part for the replacement of the directory - if
* the part refers to a directory.
*/
if (file.isDirectory()) {
parts.add(Part.newInstance(
"application/octet-stream", /* not much effect */
fileURI.getRawPath(),
enhancedProps,
(String) null));
/*
* If this is also a recursive replacement, add file-xfer
* Parts for the files in the directory.
*/
if (isRecursive) {
enhancedProps.setProperty("data-request-type", "file-xfer");
attachContainedFilesRecursively(
file.toURI(),
fileURI,
dataRequestName,
enhancedProps,
file);
}
} else {
/*
* This is a non-directory file. Add a simple replacement
* request part for the single file.
*/
parts.add(Part.newInstance(
contentType,
fileURI.getRawPath(),
enhancedProps,
file));
}
dirty = true;
}
private void attachContainedFilesRecursively(
final URI actualBaseDirAbsURI,
final URI targetBaseDirRelURI,
final String dataRequestName,
final Properties enhancedProps,
final File dirFile) throws FileNotFoundException, IOException {
for (File f : dirFile.listFiles()) {
if (f.isDirectory()) {
enhancedProps.setProperty("last-modified", Long.toString(f.lastModified()));
attachFilesRecursively(
actualBaseDirAbsURI,
targetBaseDirRelURI,
targetBaseDirRelURI.resolve(actualBaseDirAbsURI.relativize(f.toURI())),
"",
enhancedProps,
f);
} else {
String contentType = URLConnection.guessContentTypeFromName(f.getName());
if (contentType == null) {
final InputStream is = new BufferedInputStream(new FileInputStream(f));
try {
contentType = URLConnection.guessContentTypeFromStream(is);
if (contentType == null) {
contentType = "application/octet-stream";
}
} finally {
if (is != null) {
is.close();
}
}
}
enhancedProps.setProperty("last-modified", Long.toString(f.lastModified()));
final URI fileURI = targetBaseDirRelURI.resolve(actualBaseDirAbsURI.relativize(f.toURI()));
parts.add(Part.newInstance(
contentType,
fileURI.getRawPath(),
enhancedProps,
f));
}
}
}
private void attachFilesRecursively(
final URI actualBaseDirAbsURI,
final URI targetBaseDirRelURI,
final URI dirFileURI,
final String dataRequestName,
final Properties enhancedProps,
final File dirFile) throws FileNotFoundException, IOException {
final String dirFileURIPath = dirFileURI.getRawPath();
parts.add(Part.newInstance(
"application/octet-stream", /* for the directory itself */
dirFileURIPath + (dirFileURIPath.endsWith("/") ? "" : "/"),
enhancedProps,
(InputStream) null));
/*
* The enhanced properties contains a setting for the data-request-name
* which will be used to inject as a paramter if the receiver is
* a command. We don't want lower-level directories to appear to be
* the injectable value when in fact the higher-level directory is
* the correct value.
*/
enhancedProps.remove("data-request-name");
attachContainedFilesRecursively(
actualBaseDirAbsURI,
targetBaseDirRelURI,
dataRequestName,
enhancedProps,
dirFile);
}
@Override
public void requestFileRemoval(
final URI fileURI,
final String dataRequestName,
final Properties props) throws IOException {
requestFileRemoval(fileURI, dataRequestName, props, false /* isRecursive */);
dirty = true;
}
@Override
public void requestFileRemoval(
final URI fileURI,
final String dataRequestName,
final Properties props,
final boolean isRecursive) throws IOException {
final Properties enhancedProps = new Properties();
if (props != null) {
enhancedProps.putAll(props);
}
enhancedProps.setProperty("data-request-type", "file-remove");
enhancedProps.setProperty("data-request-name", dataRequestName);
enhancedProps.setProperty("data-request-is-recursive", Boolean.toString(isRecursive));
parts.add(Part.newInstance(
"application/octet-stream", /* not much effect */
fileURI.getRawPath(),
enhancedProps,
(String) null));
dirty = true;
}
@Override
public String getHeaderName() {
return Payload.PAYLOAD_HEADER_NAME;
}
@Override
public String getContentType() {
return (isComplex()) ? getComplexContentType() : getSinglePartContentType();
}
public ArrayList getParts() {
return parts;
}
/**
* Writes the Parts in this Outbound Payload to the specified output
* stream; concrete implementations will implement this abstract method.
* @param os the OutputStream to which the Parts should be written
* @throws java.io.IOException
*/
protected abstract void writePartsTo(final OutputStream os) throws IOException;
/**
* Writes the Payload to the specified output stream.
*
* @param os the OutputStream to which the Payload should be written
* @throws java.io.IOException
*/
@Override
public void writeTo(final OutputStream os) throws IOException {
if (isComplex()) {
writePartsTo(os);
} else {
parts.get(0).copy(os);
}
}
/**
* Returns the Content-Type which reflects that multiple Parts will be
* in the Payload.
*
* This content type might vary among different implementations of
* Payload.
*
* @return the content type for complex payloads
*/
public abstract String getComplexContentType();
private boolean isComplex(final String partType) {
return (parts.size() > 1) ||
( ! partType.startsWith("text"));
}
private boolean isComplex() {
return isComplex(parts.get(0).getContentType());
}
String getSinglePartContentType() {
/*
* If the one part is text/? then return it as the single-part
* content type. Otherwise the more complicated part is stored
* in an implementation-dependent way so we need to return
*/
String partType = parts.get(0).getContentType();
if (isComplex(partType)) {
return getComplexContentType();
} else {
return partType;
}
}
public static Outbound newInstance() {
return ZipPayloadImpl.Outbound.newInstance();
}
@Override
public Iterator parts() {
ArrayList prts = getParts();
if (prts == null) {
return Collections.emptyList().iterator();
} else {
return prts.iterator();
}
}
@Override
public boolean isDirty() {
return dirty;
}
@Override
public void resetDirty() {
dirty = false;
}
}
/**
* Partial implementation of the Inbound interface.
*/
public static abstract class Inbound implements Payload.Inbound {
/**
* Creates a new Inbound Payload of the given content type, read from
* the specified InputStream. The payloadContentType should be the
* content-type from the inbound http request or response.
* @param payloadContentType content-type from the inbound http request or response
* @param is the InputStream from which the Payload should be read
* @return the prepared Payload
* @throws java.io.IOException
*/
public static Inbound newInstance(final String payloadContentType, final InputStream is) throws IOException {
if (payloadContentType == null) {
return EMPTY_PAYLOAD;
}
if (TextPayloadImpl.Inbound.supportsContentType(payloadContentType)) {
return TextPayloadImpl.Inbound.newInstance(payloadContentType, is);
} else if (ZipPayloadImpl.Inbound.supportsContentType(payloadContentType)) {
return ZipPayloadImpl.Inbound.newInstance(payloadContentType, is);
} else {
return null;
}
}
@Override
public String getHeaderName() {
return Payload.PAYLOAD_HEADER_NAME;
}
/**
* An empty inbound payload.
*/
private static final Inbound EMPTY_PAYLOAD = new Inbound() {
@Override
public Iterator parts() {
return Collections.emptyList().iterator();
}
};
}
/**
* Partial implementation of Part.
*/
public static abstract class Part implements Payload.Part {
private String name;
private String contentType;
private Properties props;
private boolean isRecursive;
private File extractedFile;
/**
* Creates a new Part implementation.
* @param contentType content type of the Part
* @param name name for the Part
* @param props Properties associated with the Part
*/
Part(final String contentType, final String name, final Properties props) {
this.contentType = contentType;
this.name = name;
/*
* Copy the caller-supplied properties in case the caller
* adjusts the properties later.
*/
this.props = new Properties();
if (props != null) {
this.props.putAll(props);
}
isRecursive = Boolean.valueOf(this.props.getProperty("data-request-is-recursive"));
}
@Override
public String getName() {
return name;
}
@Override
public String getContentType() {
return contentType;
}
@Override
public Properties getProperties() {
return props;
}
@Override
public boolean isRecursive() {
return isRecursive;
}
/** Some use cases need reentrantable implementation of this stream
* implementation. Information about extraction can be used for it.
*/
@Override
public void setExtracted(File extractedFile) {
if (extractedFile != null && extractedFile.exists() && extractedFile.isFile()) {
this.extractedFile = extractedFile;
}
}
@Override
public File getExtracted() {
return this.extractedFile;
}
protected InputStream getExtractedInputStream() {
File file = getExtracted();
if (file != null) {
try {
return new FileInputStream(file);
} catch (FileNotFoundException ex) {
return null;
}
} else {
return null;
}
}
/**
* Creates a new Part from an InputStream.
* @param contentType content type for the Part
* @param name name of the Part
* @param props Properties to be associated with the Part
* @param is InputStream to be used to populate the Part's data
* @return the new Part
*/
public static Part newInstance(
final String contentType,
final String name,
final Properties props,
final InputStream is) {
return new Streamed(contentType, name, props, is);
}
/**
* Creates a new Part from a String.
* @param contentType content type for the Part
* @param name name of the Part
* @param props Properties to be associated with the Part
* @param content String containing the content for the Part
* @return
*/
public static Part newInstance(
final String contentType,
final String name,
final Properties props,
final String content) {
return new Buffered(contentType, name, props, content);
}
/**
* Creates a new Part from a File.
* @param contentType content type for the Part
* @param name name of the Part
* @param props Properties to be associated with the Part
* @param file File containing the content for the Part
* @return
*/
public static Part newInstance(
final String contentType,
final String name,
final Properties props,
final File file) throws FileNotFoundException {
return new Filed(contentType, name, props, file);
}
@Override
public void copy(final OutputStream os) throws IOException {
int bytesRead;
byte [] buffer = new byte[1024];
final InputStream is = getInputStream();
/*
* Directory entries can have null input streams.
*/
if (is != null) {
while ((bytesRead = is.read(buffer)) != -1) {
os.write(buffer, 0, bytesRead);
}
}
}
/**
* Implements Part using a stream.
*/
static class Streamed extends PayloadImpl.Part {
private final InputStream is;
/**
* Creates a new stream-baesd Part.
* @param contentType content type for the Part
* @param name name of the Part
* @param props Properties to be associated with the Part
* @param is InputStream containing the data for the Part
*/
Streamed(
final String contentType,
final String name,
final Properties props,
final InputStream is) {
super(contentType, name, props);
this.is = is;
}
@Override
public InputStream getInputStream() {
InputStream extrIS = getExtractedInputStream();
if (extrIS == null) {
return is;
} else {
return extrIS;
}
}
}
/**
* Implements Part using an internal buffer.
*/
static class Buffered extends PayloadImpl.Part {
private final String content;
private InputStream is = null;
/**
* Creates a new buffer-based Part.
* @param contentType content type for the Part
* @param name name of the Part
* @param props Properties to be associated with the Part
* @param content String containing the data to be placed in the Part
*/
Buffered(
final String contentType,
final String name,
final Properties props,
final String content) {
super(contentType, name, props);
this.content = content;
}
@Override
public InputStream getInputStream() {
if (is == null) {
/*
* Some parts might not have content.
*/
final byte[] data = (content != null) ?
content.getBytes() : new byte[0];
is = new ByteArrayInputStream(data);
}
return is;
}
}
/**
* Implements Part using a File.
*
* Note that directories can be added as Parts to the payload, but
* a null file is passed in that case. For those, return a dummy
* stream with no content in response to getInputStream.
*
* Further, getInputStream returns a self-closing input stream. Calling
* code which passes a File to attachFile or addPart will not have access
* to the input stream we open here, so we need to close it ourselves.
* We do that automatically when we detect the end-of-stream while
* preserving the external behavior of the stream.
*/
static class Filed extends PayloadImpl.Part {
private final File file;
Filed(final String contentType,
final String name,
final Properties props,
final File file) throws FileNotFoundException {
super(contentType, name, props);
this.file = file;
validateFile(file);
}
@Override
public InputStream getInputStream() {
try {
return (file != null
? new SelfClosingInputStream(
new BufferedInputStream(
new FileInputStream(file)))
: dummyStream());
} catch (FileNotFoundException ex) {
/*
* Silently return null; validateFile has already logged a message
* when the original caller tried to add this file to
* the payload.
*/
return null;
}
}
private void validateFile(final File f) throws FileNotFoundException {
if ( f != null && ! f.canRead()) {
/*
* Throw an exception so, for example, an asadmin user will
* become aware of the problem.
*/
throw new FileNotFoundException(f.getAbsolutePath());
}
}
private InputStream dummyStream() {
return new ByteArrayInputStream(new byte[0]);
}
/**
* An InputStream that automatically closes itself when the
* wrapped stream reached end-of-stream. The close() method
* is still supported but, if the wrapped stream has already been closed,
* acts as a no-op.
*
* The read and close method implementations are interesting. The
* other methods simply delegate to the wrapped stream.
*/
private static class SelfClosingInputStream extends InputStream {
private final InputStream wrappedStream;
private boolean isWrappedStreamClosed = false;
private boolean isExternallyClosed = false;
private SelfClosingInputStream(final InputStream wrappedStream) {
this.wrappedStream = wrappedStream;
}
@Override
public int read() throws IOException {
if (isExternallyClosed) {
/*
* The API does not permit reading after the stream
* has been closed. Mimic that behavior.
*/
throw new IOException();
}
if (isWrappedStreamClosed) {
/*
* We have closed the wrapped stream, because it
* returned a -1 from read, but the stream has not
* been externally closed yet. So continue returning
* the end-of-stream indiciator.
*/
return -1;
}
final int result = wrappedStream.read();
if (result == -1) {
/*
* We've exhausted the wrapped stream, so close it
* internally.
*/
closeInternally();
}
return result;
}
@Override
public long skip(long n) throws IOException {
return wrappedStream.skip(n);
}
@Override
public int available() throws IOException {
return wrappedStream.available();
}
@Override
public synchronized void mark(int readlimit) {
wrappedStream.mark(readlimit);
}
@Override
public boolean markSupported() {
return wrappedStream.markSupported();
}
@Override
public synchronized void reset() throws IOException {
wrappedStream.reset();
}
@Override
public void close() throws IOException {
closeInternally();
isExternallyClosed = true;
}
private void closeInternally() throws IOException {
wrappedStream.close();
isWrappedStreamClosed = true;
}
}
}
}
}