/*
* Copyright (c) 2005, 2006, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package com.sun.tools.javac.util;
import java.io.ByteArrayOutputStream;
import java.io.Closeable;
import java.io.File;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.io.OutputStreamWriter;
import java.io.Writer;
import java.lang.ref.SoftReference;
import java.lang.reflect.Constructor;
import java.net.MalformedURLException;
import java.net.URI;
import java.net.URISyntaxException;
import java.net.URL;
import java.net.URLClassLoader;
import java.nio.ByteBuffer;
import java.nio.CharBuffer;
import java.nio.channels.FileChannel;
import java.nio.charset.Charset;
import java.nio.charset.CharsetDecoder;
import java.nio.charset.CoderResult;
import java.nio.charset.CodingErrorAction;
import java.nio.charset.IllegalCharsetNameException;
import java.nio.charset.UnsupportedCharsetException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.EnumSet;
import java.util.Enumeration;
import java.util.HashMap;
import java.util.Iterator;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
import java.util.zip.ZipEntry;
import java.util.zip.ZipFile;
import javax.lang.model.SourceVersion;
import javax.tools.FileObject;
import javax.tools.JavaFileManager;
import javax.tools.JavaFileObject;
import javax.tools.StandardJavaFileManager;
import com.sun.tools.javac.code.Source;
import com.sun.tools.javac.main.JavacOption;
import com.sun.tools.javac.main.OptionName;
import com.sun.tools.javac.main.RecognizedOptions;
import com.sun.tools.javac.util.JCDiagnostic.SimpleDiagnosticPosition;
import com.sun.tools.javac.zip.*;
import java.io.ByteArrayInputStream;
import static com.sun.tools.javac.main.OptionName.*;
import static javax.tools.StandardLocation.*;
/**
* This class provides access to the source, class and other files
* used by the compiler and related tools.
*/
public class JavacFileManager implements StandardJavaFileManager {
private static final String[] symbolFileLocation = { "lib", "ct.sym" };
private static final String symbolFilePrefix = "META-INF/sym/rt.jar/";
boolean useZipFileIndex;
private static int symbolFilePrefixLength = 0;
static {
try {
symbolFilePrefixLength = symbolFilePrefix.getBytes("UTF-8").length;
} catch (java.io.UnsupportedEncodingException uee) {
// Can't happen...UTF-8 is always supported.
}
}
private static boolean CHECK_ZIP_TIMESTAMP = false;
private static Map<File, Boolean> isDirectory = new ConcurrentHashMap<File, Boolean>();
public static char[] toArray(CharBuffer buffer) {
if (buffer.hasArray())
return ((CharBuffer)buffer.compact().flip()).array();
else
return buffer.toString().toCharArray();
}
/**
* The log to be used for error reporting.
*/
protected Log log;
/** Encapsulates knowledge of paths
*/
private Paths paths;
private Options options;
private final File uninited = new File("U N I N I T E D");
private final Set<JavaFileObject.Kind> sourceOrClass =
EnumSet.of(JavaFileObject.Kind.SOURCE, JavaFileObject.Kind.CLASS);
/** The standard output directory, primarily used for classes.
* Initialized by the "-d" option.
* If classOutDir = null, files are written into same directory as the sources
* they were generated from.
*/
private File classOutDir = uninited;
/** The output directory, used when generating sources while processing annotations.
* Initialized by the "-s" option.
*/
private File sourceOutDir = uninited;
protected boolean mmappedIO;
protected boolean ignoreSymbolFile;
protected String classLoaderClass;
/**
* User provided charset (through javax.tools).
*/
protected Charset charset;
/**
* Register a Context.Factory to create a JavacFileManager.
*/
public static void preRegister(final Context context) {
context.put(JavaFileManager.class, new Context.Factory<JavaFileManager>() {
public JavaFileManager make() {
return new JavacFileManager(context, true, null);
}
});
}
/**
* Create a JavacFileManager using a given context, optionally registering
* it as the JavaFileManager for that context.
*/
public JavacFileManager(Context context, boolean register, Charset charset) {
if (register)
context.put(JavaFileManager.class, this);
byteBufferCache = new ByteBufferCache();
this.charset = charset;
setContext(context);
}
/**
* Set the context for JavacFileManager.
*/
public void setContext(Context context) {
log = Log.instance(context);
if (paths == null) {
paths = Paths.instance(context);
} else {
// Reuse the Paths object as it stores the locations that
// have been set with setLocation, etc.
paths.setContext(context);
}
options = Options.instance(context);
useZipFileIndex = System.getProperty("useJavaUtilZip") == null;// TODO: options.get("useJavaUtilZip") == null;
CHECK_ZIP_TIMESTAMP = System.getProperty("checkZipIndexTimestamp") != null;// TODO: options.get("checkZipIndexTimestamp") != null;
mmappedIO = options.get("mmappedIO") != null;
ignoreSymbolFile = options.get("ignore.symbol.file") != null;
classLoaderClass = options.get("procloader");
}
public JavaFileObject getFileForInput(String name) {
return getRegularFile(new File(name));
}
public JavaFileObject getRegularFile(File file) {
return new RegularFileObject(file);
}
public JavaFileObject getFileForOutput(String classname,
JavaFileObject.Kind kind,
JavaFileObject sibling)
throws IOException
{
return getJavaFileForOutput(CLASS_OUTPUT, classname, kind, sibling);
}
public Iterable<? extends JavaFileObject> getJavaFileObjectsFromStrings(Iterable<String> names) {
ListBuffer<File> files = new ListBuffer<File>();
for (String name : names)
files.append(new File(nullCheck(name)));
return getJavaFileObjectsFromFiles(files.toList());
}
public Iterable<? extends JavaFileObject> getJavaFileObjects(String... names) {
return getJavaFileObjectsFromStrings(Arrays.asList(nullCheck(names)));
}
protected JavaFileObject.Kind getKind(String extension) {
if (extension.equals(JavaFileObject.Kind.CLASS.extension))
return JavaFileObject.Kind.CLASS;
else if (extension.equals(JavaFileObject.Kind.SOURCE.extension))
return JavaFileObject.Kind.SOURCE;
else if (extension.equals(JavaFileObject.Kind.HTML.extension))
return JavaFileObject.Kind.HTML;
else
return JavaFileObject.Kind.OTHER;
}
private static boolean isValidName(String name) {
// Arguably, isValidName should reject keywords (such as in SourceVersion.isName() ),
// but the set of keywords depends on the source level, and we don't want
// impls of JavaFileManager to have to be dependent on the source level.
// Therefore we simply check that the argument is a sequence of identifiers
// separated by ".".
for (String s : name.split("\\.", -1)) {
if (!SourceVersion.isIdentifier(s))
return false;
}
return true;
}
private static void validateClassName(String className) {
if (!isValidName(className))
throw new IllegalArgumentException("Invalid class name: " + className);
}
private static void validatePackageName(String packageName) {
if (packageName.length() > 0 && !isValidName(packageName))
throw new IllegalArgumentException("Invalid packageName name: " + packageName);
}
public static void testName(String name,
boolean isValidPackageName,
boolean isValidClassName)
{
try {
validatePackageName(name);
if (!isValidPackageName)
throw new AssertionError("Invalid package name accepted: " + name);
printAscii("Valid package name: \"%s\"", name);
} catch (IllegalArgumentException e) {
if (isValidPackageName)
throw new AssertionError("Valid package name rejected: " + name);
printAscii("Invalid package name: \"%s\"", name);
}
try {
validateClassName(name);
if (!isValidClassName)
throw new AssertionError("Invalid class name accepted: " + name);
printAscii("Valid class name: \"%s\"", name);
} catch (IllegalArgumentException e) {
if (isValidClassName)
throw new AssertionError("Valid class name rejected: " + name);
printAscii("Invalid class name: \"%s\"", name);
}
}
private static void printAscii(String format, Object... args) {
String message;
try {
final String ascii = "US-ASCII";
message = new String(String.format(null, format, args).getBytes(ascii), ascii);
} catch (java.io.UnsupportedEncodingException ex) {
throw new AssertionError(ex);
}
System.out.println(message);
}
/** Return external representation of name,
* converting '.' to File.separatorChar.
*/
private static String externalizeFileName(CharSequence name) {
return name.toString().replace('.', File.separatorChar);
}
private static String externalizeFileName(CharSequence n, JavaFileObject.Kind kind) {
return externalizeFileName(n) + kind.extension;
}
private static String baseName(String fileName) {
return fileName.substring(fileName.lastIndexOf(File.separatorChar) + 1);
}
/**
* Insert all files in subdirectory `subdirectory' of `directory' which end
* in one of the extensions in `extensions' into packageSym.
*/
private void listDirectory(File directory,
String subdirectory,
Set<JavaFileObject.Kind> fileKinds,
boolean recurse,
ListBuffer<JavaFileObject> l) {
Archive archive = archives.get(directory);
boolean isFile = false;
if (CHECK_ZIP_TIMESTAMP) {
Boolean isf = isDirectory.get(directory);
if (isf == null) {
isFile = directory.isFile();
isDirectory.put(directory, isFile);
}
else {
isFile = directory.isFile();
}
}
else {
isFile = directory.isFile();
}
if (archive != null || isFile) {
if (archive == null) {
try {
archive = openArchive(directory);
} catch (IOException ex) {
log.error("error.reading.file",
directory, ex.getLocalizedMessage());
return;
}
}
if (subdirectory.length() != 0) {
if (!useZipFileIndex) {
subdirectory = subdirectory.replace('\\', '/');
if (!subdirectory.endsWith("/")) subdirectory = subdirectory + "/";
}
else {
if (File.separatorChar == '/') {
subdirectory = subdirectory.replace('\\', '/');
}
else {
subdirectory = subdirectory.replace('/', '\\');
}
if (!subdirectory.endsWith(File.separator)) subdirectory = subdirectory + File.separator;
}
}
List<String> files = archive.getFiles(subdirectory);
if (files != null) {
for (String file; !files.isEmpty(); files = files.tail) {
file = files.head;
if (isValidFile(file, fileKinds)) {
l.append(archive.getFileObject(subdirectory, file));
}
}
}
if (recurse) {
for (String s: archive.getSubdirectories()) {
if (s.startsWith(subdirectory) && !s.equals(subdirectory)) {
// Because the archive map is a flat list of directories,
// the enclosing loop will pick up all child subdirectories.
// Therefore, there is no need to recurse deeper.
listDirectory(directory, s, fileKinds, false, l);
}
}
}
} else {
File d = subdirectory.length() != 0
? new File(directory, subdirectory)
: directory;
if (!caseMapCheck(d, subdirectory))
return;
File[] files = d.listFiles();
if (files == null)
return;
for (File f: files) {
String fname = f.getName();
if (f.isDirectory()) {
if (recurse && SourceVersion.isIdentifier(fname)) {
listDirectory(directory,
subdirectory + File.separator + fname,
fileKinds,
recurse,
l);
}
} else {
if (isValidFile(fname, fileKinds)) {
JavaFileObject fe =
new RegularFileObject(fname, new File(d, fname));
l.append(fe);
}
}
}
}
}
private boolean isValidFile(String s, Set<JavaFileObject.Kind> fileKinds) {
int lastDot = s.lastIndexOf(".");
String extn = (lastDot == -1 ? s : s.substring(lastDot));
JavaFileObject.Kind kind = getKind(extn);
return fileKinds.contains(kind);
}
private static final boolean fileSystemIsCaseSensitive =
File.separatorChar == '/';
/** Hack to make Windows case sensitive. Test whether given path
* ends in a string of characters with the same case as given name.
* Ignore file separators in both path and name.
*/
private boolean caseMapCheck(File f, String name) {
if (fileSystemIsCaseSensitive) return true;
// Note that getCanonicalPath() returns the case-sensitive
// spelled file name.
String path;
try {
path = f.getCanonicalPath();
} catch (IOException ex) {
return false;
}
char[] pcs = path.toCharArray();
char[] ncs = name.toCharArray();
int i = pcs.length - 1;
int j = ncs.length - 1;
while (i >= 0 && j >= 0) {
while (i >= 0 && pcs[i] == File.separatorChar) i--;
while (j >= 0 && ncs[j] == File.separatorChar) j--;
if (i >= 0 && j >= 0) {
if (pcs[i] != ncs[j]) return false;
i--;
j--;
}
}
return j < 0;
}
/**
* An archive provides a flat directory structure of a ZipFile by
* mapping directory names to lists of files (basenames).
*/
public interface Archive {
void close() throws IOException;
boolean contains(String name);
JavaFileObject getFileObject(String subdirectory, String file);
List<String> getFiles(String subdirectory);
Set<String> getSubdirectories();
}
public class ZipArchive implements Archive {
protected final Map<String,List<String>> map;
protected final ZipFile zdir;
public ZipArchive(ZipFile zdir) throws IOException {
this.zdir = zdir;
this.map = new HashMap<String,List<String>>();
for (Enumeration<? extends ZipEntry> e = zdir.entries(); e.hasMoreElements(); ) {
ZipEntry entry;
try {
entry = e.nextElement();
} catch (InternalError ex) {
IOException io = new IOException();
io.initCause(ex); // convenience constructors added in Mustang :-(
throw io;
}
addZipEntry(entry);
}
}
void addZipEntry(ZipEntry entry) {
String name = entry.getName();
int i = name.lastIndexOf('/');
String dirname = name.substring(0, i+1);
String basename = name.substring(i+1);
if (basename.length() == 0)
return;
List<String> list = map.get(dirname);
if (list == null)
list = List.nil();
list = list.prepend(basename);
map.put(dirname, list);
}
public boolean contains(String name) {
int i = name.lastIndexOf('/');
String dirname = name.substring(0, i+1);
String basename = name.substring(i+1);
if (basename.length() == 0)
return false;
List<String> list = map.get(dirname);
return (list != null && list.contains(basename));
}
public List<String> getFiles(String subdirectory) {
return map.get(subdirectory);
}
public JavaFileObject getFileObject(String subdirectory, String file) {
ZipEntry ze = zdir.getEntry(subdirectory + file);
return new ZipFileObject(file, zdir, ze);
}
public Set<String> getSubdirectories() {
return map.keySet();
}
public void close() throws IOException {
zdir.close();
}
}
public class SymbolArchive extends ZipArchive {
final File origFile;
public SymbolArchive(File orig, ZipFile zdir) throws IOException {
super(zdir);
this.origFile = orig;
}
@Override
void addZipEntry(ZipEntry entry) {
// called from super constructor, may not refer to origFile.
String name = entry.getName();
if (!name.startsWith(symbolFilePrefix))
return;
name = name.substring(symbolFilePrefix.length());
int i = name.lastIndexOf('/');
String dirname = name.substring(0, i+1);
String basename = name.substring(i+1);
if (basename.length() == 0)
return;
List<String> list = map.get(dirname);
if (list == null)
list = List.nil();
list = list.prepend(basename);
map.put(dirname, list);
}
@Override
public JavaFileObject getFileObject(String subdirectory, String file) {
return super.getFileObject(symbolFilePrefix + subdirectory, file);
}
}
public class MissingArchive implements Archive {
final File zipFileName;
public MissingArchive(File name) {
zipFileName = name;
}
public boolean contains(String name) {
return false;
}
public void close() {
}
public JavaFileObject getFileObject(String subdirectory, String file) {
return null;
}
public List<String> getFiles(String subdirectory) {
return List.nil();
}
public Set<String> getSubdirectories() {
return Collections.emptySet();
}
}
/** A directory of zip files already opened.
*/
Map<File, Archive> archives = new HashMap<File,Archive>();
/** Open a new zip file directory.
*/
protected Archive openArchive(File zipFileName) throws IOException {
Archive archive = archives.get(zipFileName);
if (archive == null) {
File origZipFileName = zipFileName;
if (!ignoreSymbolFile && paths.isBootClassPathRtJar(zipFileName)) {
File file = zipFileName.getParentFile().getParentFile(); // ${java.home}
if (new File(file.getName()).equals(new File("jre")))
file = file.getParentFile();
// file == ${jdk.home}
for (String name : symbolFileLocation)
file = new File(file, name);
// file == ${jdk.home}/lib/ct.sym
if (file.exists())
zipFileName = file;
}
try {
ZipFile zdir = null;
boolean usePreindexedCache = false;
String preindexCacheLocation = null;
if (!useZipFileIndex) {
zdir = new ZipFile(zipFileName);
}
else {
usePreindexedCache = options.get("usezipindex") != null;
preindexCacheLocation = options.get("java.io.tmpdir");
String optCacheLoc = options.get("cachezipindexdir");
if (optCacheLoc != null && optCacheLoc.length() != 0) {
if (optCacheLoc.startsWith("\"")) {
if (optCacheLoc.endsWith("\"")) {
optCacheLoc = optCacheLoc.substring(1, optCacheLoc.length() - 1);
}
else {
optCacheLoc = optCacheLoc.substring(1);
}
}
File cacheDir = new File(optCacheLoc);
if (cacheDir.exists() && cacheDir.canWrite()) {
preindexCacheLocation = optCacheLoc;
if (!preindexCacheLocation.endsWith("/") &&
!preindexCacheLocation.endsWith(File.separator)) {
preindexCacheLocation += File.separator;
}
}
}
}
if (origZipFileName == zipFileName) {
if (!useZipFileIndex) {
archive = new ZipArchive(zdir);
} else {
archive = new ZipFileIndexArchive(this, ZipFileIndex.getZipFileIndex(zipFileName, 0,
usePreindexedCache, preindexCacheLocation, options.get("writezipindexfiles") != null));
}
}
else {
if (!useZipFileIndex) {
archive = new SymbolArchive(origZipFileName, zdir);
}
else {
archive = new ZipFileIndexArchive(this, ZipFileIndex.getZipFileIndex(zipFileName, symbolFilePrefixLength,
usePreindexedCache, preindexCacheLocation, options.get("writezipindexfiles") != null));
}
}
} catch (FileNotFoundException ex) {
archive = new MissingArchive(zipFileName);
} catch (IOException ex) {
log.error("error.reading.file", zipFileName, ex.getLocalizedMessage());
archive = new MissingArchive(zipFileName);
}
archives.put(origZipFileName, archive);
}
return archive;
}
/** Flush any output resources.
*/
public void flush() {
contentCache.clear();
}
/**
* Close the JavaFileManager, releasing resources.
*/
public void close() {
for (Iterator<Archive> i = archives.values().iterator(); i.hasNext(); ) {
Archive a = i.next();
i.remove();
try {
a.close();
} catch (IOException e) {
}
}
}
private Map<JavaFileObject, SoftReference<CharBuffer>> contentCache = new HashMap<JavaFileObject, SoftReference<CharBuffer>>();
private String defaultEncodingName;
private String getDefaultEncodingName() {
if (defaultEncodingName == null) {
defaultEncodingName =
new OutputStreamWriter(new ByteArrayOutputStream()).getEncoding();
}
return defaultEncodingName;
}
protected String getEncodingName() {
String encName = options.get(OptionName.ENCODING);
if (encName == null)
return getDefaultEncodingName();
else
return encName;
}
protected Source getSource() {
String sourceName = options.get(OptionName.SOURCE);
Source source = null;
if (sourceName != null)
source = Source.lookup(sourceName);
return (source != null ? source : Source.DEFAULT);
}
/**
* Make a byte buffer from an input stream.
*/
private ByteBuffer makeByteBuffer(InputStream in)
throws IOException {
int limit = in.available();
if (mmappedIO && in instanceof FileInputStream) {
// Experimental memory mapped I/O
FileInputStream fin = (FileInputStream)in;
return fin.getChannel().map(FileChannel.MapMode.READ_ONLY, 0, limit);
}
if (limit < 1024) limit = 1024;
ByteBuffer result = byteBufferCache.get(limit);
int position = 0;
while (in.available() != 0) {
if (position >= limit)
// expand buffer
result = ByteBuffer.
allocate(limit <<= 1).
put((ByteBuffer)result.flip());
int count = in.read(result.array(),
position,
limit - position);
if (count < 0) break;
result.position(position += count);
}
return (ByteBuffer)result.flip();
}
/**
* A single-element cache of direct byte buffers.
*/
private static class ByteBufferCache {
private ByteBuffer cached;
ByteBuffer get(int capacity) {
if (capacity < 20480) capacity = 20480;
ByteBuffer result =
(cached != null && cached.capacity() >= capacity)
? (ByteBuffer)cached.clear()
: ByteBuffer.allocate(capacity + capacity>>1);
cached = null;
return result;
}
void put(ByteBuffer x) {
cached = x;
}
}
private final ByteBufferCache byteBufferCache;
private CharsetDecoder getDecoder(String encodingName, boolean ignoreEncodingErrors) {
Charset charset = (this.charset == null)
? Charset.forName(encodingName)
: this.charset;
CharsetDecoder decoder = charset.newDecoder();
CodingErrorAction action;
if (ignoreEncodingErrors)
action = CodingErrorAction.REPLACE;
else
action = CodingErrorAction.REPORT;
return decoder
.onMalformedInput(action)
.onUnmappableCharacter(action);
}
/**
* Decode a ByteBuffer into a CharBuffer.
*/
private CharBuffer decode(ByteBuffer inbuf, boolean ignoreEncodingErrors) {
String encodingName = getEncodingName();
CharsetDecoder decoder;
try {
decoder = getDecoder(encodingName, ignoreEncodingErrors);
} catch (IllegalCharsetNameException e) {
log.error("unsupported.encoding", encodingName);
return (CharBuffer)CharBuffer.allocate(1).flip();
} catch (UnsupportedCharsetException e) {
log.error("unsupported.encoding", encodingName);
return (CharBuffer)CharBuffer.allocate(1).flip();
}
// slightly overestimate the buffer size to avoid reallocation.
float factor =
decoder.averageCharsPerByte() * 0.8f +
decoder.maxCharsPerByte() * 0.2f;
CharBuffer dest = CharBuffer.
allocate(10 + (int)(inbuf.remaining()*factor));
while (true) {
CoderResult result = decoder.decode(inbuf, dest, true);
dest.flip();
if (result.isUnderflow()) { // done reading
// make sure there is at least one extra character
if (dest.limit() == dest.capacity()) {
dest = CharBuffer.allocate(dest.capacity()+1).put(dest);
dest.flip();
}
return dest;
} else if (result.isOverflow()) { // buffer too small; expand
int newCapacity =
10 + dest.capacity() +
(int)(inbuf.remaining()*decoder.maxCharsPerByte());
dest = CharBuffer.allocate(newCapacity).put(dest);
} else if (result.isMalformed() || result.isUnmappable()) {
// bad character in input
// report coding error (warn only pre 1.5)
if (!getSource().allowEncodingErrors()) {
log.error(new SimpleDiagnosticPosition(dest.limit()),
"illegal.char.for.encoding",
charset == null ? encodingName : charset.name());
} else {
log.warning(new SimpleDiagnosticPosition(dest.limit()),
"illegal.char.for.encoding",
charset == null ? encodingName : charset.name());
}
// skip past the coding error
inbuf.position(inbuf.position() + result.length());
// undo the flip() to prepare the output buffer
// for more translation
dest.position(dest.limit());
dest.limit(dest.capacity());
dest.put((char)0xfffd); // backward compatible
} else {
throw new AssertionError(result);
}
}
// unreached
}
public ClassLoader getClassLoader(Location location) {
nullCheck(location);
Iterable<? extends File> path = getLocation(location);
if (path == null)
return null;
ListBuffer<URL> lb = new ListBuffer<URL>();
for (File f: path) {
try {
lb.append(f.toURI().toURL());
} catch (MalformedURLException e) {
throw new AssertionError(e);
}
}
URL[] urls = lb.toArray(new URL[lb.size()]);
ClassLoader thisClassLoader = getClass().getClassLoader();
// Bug: 6558476
// Ideally, ClassLoader should be Closeable, but before JDK7 it is not.
// On older versions, try the following, to get a closeable classloader.
// 1: Allow client to specify the class to use via hidden option
if (classLoaderClass != null) {
try {
Class<? extends ClassLoader> loader =
Class.forName(classLoaderClass).asSubclass(ClassLoader.class);
Class<?>[] constrArgTypes = { URL[].class, ClassLoader.class };
Constructor<? extends ClassLoader> constr = loader.getConstructor(constrArgTypes);
return constr.newInstance(new Object[] { urls, thisClassLoader });
} catch (Throwable t) {
// ignore errors loading user-provided class loader, fall through
}
}
// 2: If URLClassLoader implements Closeable, use that.
if (Closeable.class.isAssignableFrom(URLClassLoader.class))
return new URLClassLoader(urls, thisClassLoader);
// 3: Try using private reflection-based CloseableURLClassLoader
try {
return new CloseableURLClassLoader(urls, thisClassLoader);
} catch (Throwable t) {
// ignore errors loading workaround class loader, fall through
}
// 4: If all else fails, use plain old standard URLClassLoader
return new URLClassLoader(urls, thisClassLoader);
}
public Iterable<JavaFileObject> list(Location location,
String packageName,
Set<JavaFileObject.Kind> kinds,
boolean recurse)
throws IOException
{
// validatePackageName(packageName);
nullCheck(packageName);
nullCheck(kinds);
Iterable<? extends File> path = getLocation(location);
if (path == null)
return List.nil();
// allow use of binary package names, per the JavaFileManager spec
String subdirectory = externalizeFileName(packageName.replace('/', '.'));
ListBuffer<JavaFileObject> results = new ListBuffer<JavaFileObject>();
for (File directory : path)
listDirectory(directory, subdirectory, kinds, recurse, results);
return results.toList();
}
public String inferBinaryName(Location location, JavaFileObject file) {
file.getClass(); // null check
location.getClass(); // null check
// Need to match the path semantics of list(location, ...)
Iterable<? extends File> path = getLocation(location);
if (path == null) {
//System.err.println("Path for " + location + " is null");
return null;
}
//System.err.println("Path for " + location + " is " + path);
if (file instanceof RegularFileObject) {
RegularFileObject r = (RegularFileObject) file;
String rPath = r.getPath();
//System.err.println("RegularFileObject " + file + " " +r.getPath());
for (File dir: path) {
//System.err.println("dir: " + dir);
String dPath = dir.getPath();
if (dPath.length() == 0)
dPath = System.getProperty("user.dir");
if (!dPath.endsWith(File.separator))
dPath += File.separator;
if (rPath.regionMatches(true, 0, dPath, 0, dPath.length())
&& new File(rPath.substring(0, dPath.length())).equals(new File(dPath))) {
String relativeName = rPath.substring(dPath.length());
return removeExtension(relativeName).replace(File.separatorChar, '.');
}
}
} else if (file instanceof ZipFileObject) {
ZipFileObject z = (ZipFileObject) file;
String entryName = z.getZipEntryName();
if (entryName.startsWith(symbolFilePrefix))
entryName = entryName.substring(symbolFilePrefix.length());
return removeExtension(entryName).replace('/', '.');
} else if (file instanceof ZipFileIndexFileObject) {
ZipFileIndexFileObject z = (ZipFileIndexFileObject) file;
String entryName = z.getZipEntryName();
if (entryName.startsWith(symbolFilePrefix))
entryName = entryName.substring(symbolFilePrefix.length());
return removeExtension(entryName).replace(File.separatorChar, '.');
} else
throw new IllegalArgumentException(file.getClass().getName());
// System.err.println("inferBinaryName failed for " + file);
return null;
}
// where
private static String removeExtension(String fileName) {
int lastDot = fileName.lastIndexOf(".");
return (lastDot == -1 ? fileName : fileName.substring(0, lastDot));
}
public boolean isSameFile(FileObject a, FileObject b) {
nullCheck(a);
nullCheck(b);
if (!(a instanceof BaseFileObject))
throw new IllegalArgumentException("Not supported: " + a);
if (!(b instanceof BaseFileObject))
throw new IllegalArgumentException("Not supported: " + b);
return a.equals(b);
}
public boolean handleOption(String current, Iterator<String> remaining) {
for (JavacOption o: javacFileManagerOptions) {
if (o.matches(current)) {
if (o.hasArg()) {
if (remaining.hasNext()) {
if (!o.process(options, current, remaining.next()))
return true;
}
} else {
if (!o.process(options, current))
return true;
}
// operand missing, or process returned false
throw new IllegalArgumentException(current);
}
}
return false;
}
// where
private static JavacOption[] javacFileManagerOptions =
RecognizedOptions.getJavacFileManagerOptions(
new RecognizedOptions.GrumpyHelper());
public int isSupportedOption(String option) {
for (JavacOption o : javacFileManagerOptions) {
if (o.matches(option))
return o.hasArg() ? 1 : 0;
}
return -1;
}
public boolean hasLocation(Location location) {
return getLocation(location) != null;
}
public JavaFileObject getJavaFileForInput(Location location,
String className,
JavaFileObject.Kind kind)
throws IOException
{
nullCheck(location);
// validateClassName(className);
nullCheck(className);
nullCheck(kind);
if (!sourceOrClass.contains(kind))
throw new IllegalArgumentException("Invalid kind " + kind);
return getFileForInput(location, externalizeFileName(className, kind));
}
public FileObject getFileForInput(Location location,
String packageName,
String relativeName)
throws IOException
{
nullCheck(location);
// validatePackageName(packageName);
nullCheck(packageName);
if (!isRelativeUri(URI.create(relativeName))) // FIXME 6419701
throw new IllegalArgumentException("Invalid relative name: " + relativeName);
String name = packageName.length() == 0
? relativeName
: new File(externalizeFileName(packageName), relativeName).getPath();
return getFileForInput(location, name);
}
private JavaFileObject getFileForInput(Location location, String name) throws IOException {
Iterable<? extends File> path = getLocation(location);
if (path == null)
return null;
for (File dir: path) {
if (dir.isDirectory()) {
File f = new File(dir, name.replace('/', File.separatorChar));
if (f.exists())
return new RegularFileObject(f);
} else {
Archive a = openArchive(dir);
if (a.contains(name)) {
int i = name.lastIndexOf('/');
String dirname = name.substring(0, i+1);
String basename = name.substring(i+1);
return a.getFileObject(dirname, basename);
}
}
}
return null;
}
public JavaFileObject getJavaFileForOutput(Location location,
String className,
JavaFileObject.Kind kind,
FileObject sibling)
throws IOException
{
nullCheck(location);
// validateClassName(className);
nullCheck(className);
nullCheck(kind);
if (!sourceOrClass.contains(kind))
throw new IllegalArgumentException("Invalid kind " + kind);
return getFileForOutput(location, externalizeFileName(className, kind), sibling);
}
public FileObject getFileForOutput(Location location,
String packageName,
String relativeName,
FileObject sibling)
throws IOException
{
nullCheck(location);
// validatePackageName(packageName);
nullCheck(packageName);
if (!isRelativeUri(URI.create(relativeName))) // FIXME 6419701
throw new IllegalArgumentException("relativeName is invalid");
String name = packageName.length() == 0
? relativeName
: new File(externalizeFileName(packageName), relativeName).getPath();
return getFileForOutput(location, name, sibling);
}
private JavaFileObject getFileForOutput(Location location,
String fileName,
FileObject sibling)
throws IOException
{
File dir;
if (location == CLASS_OUTPUT) {
if (getClassOutDir() != null) {
dir = getClassOutDir();
} else {
File siblingDir = null;
if (sibling != null && sibling instanceof RegularFileObject) {
siblingDir = ((RegularFileObject)sibling).f.getParentFile();
}
return new RegularFileObject(new File(siblingDir, baseName(fileName)));
}
} else if (location == SOURCE_OUTPUT) {
dir = (getSourceOutDir() != null ? getSourceOutDir() : getClassOutDir());
} else {
Iterable<? extends File> path = paths.getPathForLocation(location);
dir = null;
for (File f: path) {
dir = f;
break;
}
}
File file = (dir == null ? new File(fileName) : new File(dir, fileName));
return new RegularFileObject(file);
}
public Iterable<? extends JavaFileObject> getJavaFileObjectsFromFiles(
Iterable<? extends File> files)
{
ArrayList<RegularFileObject> result;
if (files instanceof Collection)
result = new ArrayList<RegularFileObject>(((Collection)files).size());
else
result = new ArrayList<RegularFileObject>();
for (File f: files)
result.add(new RegularFileObject(nullCheck(f)));
return result;
}
public Iterable<? extends JavaFileObject> getJavaFileObjects(File... files) {
return getJavaFileObjectsFromFiles(Arrays.asList(nullCheck(files)));
}
public void setLocation(Location location,
Iterable<? extends File> path)
throws IOException
{
nullCheck(location);
paths.lazy();
final File dir = location.isOutputLocation() ? getOutputDirectory(path) : null;
if (location == CLASS_OUTPUT)
classOutDir = getOutputLocation(dir, D);
else if (location == SOURCE_OUTPUT)
sourceOutDir = getOutputLocation(dir, S);
else
paths.setPathForLocation(location, path);
}
// where
private File getOutputDirectory(Iterable<? extends File> path) throws IOException {
if (path == null)
return null;
Iterator<? extends File> pathIter = path.iterator();
if (!pathIter.hasNext())
throw new IllegalArgumentException("empty path for directory");
File dir = pathIter.next();
if (pathIter.hasNext())
throw new IllegalArgumentException("path too long for directory");
if (!dir.exists())
throw new FileNotFoundException(dir + ": does not exist");
else if (!dir.isDirectory())
throw new IOException(dir + ": not a directory");
return dir;
}
private File getOutputLocation(File dir, OptionName defaultOptionName) {
if (dir != null)
return dir;
String arg = options.get(defaultOptionName);
if (arg == null)
return null;
return new File(arg);
}
public Iterable<? extends File> getLocation(Location location) {
nullCheck(location);
paths.lazy();
if (location == CLASS_OUTPUT) {
return (getClassOutDir() == null ? null : List.of(getClassOutDir()));
} else if (location == SOURCE_OUTPUT) {
return (getSourceOutDir() == null ? null : List.of(getSourceOutDir()));
} else
return paths.getPathForLocation(location);
}
private File getClassOutDir() {
if (classOutDir == uninited)
classOutDir = getOutputLocation(null, D);
return classOutDir;
}
private File getSourceOutDir() {
if (sourceOutDir == uninited)
sourceOutDir = getOutputLocation(null, S);
return sourceOutDir;
}
/**
* Enforces the specification of a "relative" URI as used in
* {@linkplain #getFileForInput(Location,String,URI)
* getFileForInput}. This method must follow the rules defined in
* that method, do not make any changes without consulting the
* specification.
*/
protected static boolean isRelativeUri(URI uri) {
if (uri.isAbsolute())
return false;
String path = uri.normalize().getPath();
if (path.length() == 0 /* isEmpty() is mustang API */)
return false;
char first = path.charAt(0);
return first != '.' && first != '/';
}
/**
* Converts a relative file name to a relative URI. This is
* different from File.toURI as this method does not canonicalize
* the file before creating the URI. Furthermore, no schema is
* used.
* @param file a relative file name
* @return a relative URI
* @throws IllegalArgumentException if the file name is not
* relative according to the definition given in {@link
* javax.tools.JavaFileManager#getFileForInput}
*/
public static String getRelativeName(File file) {
if (!file.isAbsolute()) {
String result = file.getPath().replace(File.separatorChar, '/');
if (JavacFileManager.isRelativeUri(URI.create(result))) // FIXME 6419701
return result;
}
throw new IllegalArgumentException("Invalid relative path: " + file);
}
@SuppressWarnings("deprecation") // bug 6410637
protected static String getJavacFileName(FileObject file) {
if (file instanceof BaseFileObject)
return ((BaseFileObject)file).getPath();
URI uri = file.toUri();
String scheme = uri.getScheme();
if (scheme == null || scheme.equals("file") || scheme.equals("jar"))
return uri.getPath();
else
return uri.toString();
}
@SuppressWarnings("deprecation") // bug 6410637
protected static String getJavacBaseFileName(FileObject file) {
if (file instanceof BaseFileObject)
return ((BaseFileObject)file).getName();
URI uri = file.toUri();
String scheme = uri.getScheme();
if (scheme == null || scheme.equals("file") || scheme.equals("jar")) {
String path = uri.getPath();
if (path == null)
return null;
if (scheme != null && scheme.equals("jar"))
path = path.substring(path.lastIndexOf('!') + 1);
return path.substring(path.lastIndexOf('/') + 1);
} else {
return uri.toString();
}
}
private static <T> T nullCheck(T o) {
o.getClass(); // null check
return o;
}
private static <T> Iterable<T> nullCheck(Iterable<T> it) {
for (T t : it)
t.getClass(); // null check
return it;
}
/**
* A subclass of JavaFileObject representing regular files.
*/
private class RegularFileObject extends BaseFileObject {
/** Have the parent directories been created?
*/
private boolean hasParents=false;
/** The file's name.
*/
private String name;
/** The underlying file.
*/
final File f;
public RegularFileObject(File f) {
this(f.getName(), f);
}
public RegularFileObject(String name, File f) {
if (f.isDirectory())
throw new IllegalArgumentException("directories not supported");
this.name = name;
this.f = f;
}
public InputStream openInputStream() throws IOException {
return new FileInputStream(f);
}
protected CharsetDecoder getDecoder(boolean ignoreEncodingErrors) {
return JavacFileManager.this.getDecoder(getEncodingName(), ignoreEncodingErrors);
}
public OutputStream openOutputStream() throws IOException {
ensureParentDirectoriesExist();
return new FileOutputStream(f);
}
public Writer openWriter() throws IOException {
ensureParentDirectoriesExist();
return new OutputStreamWriter(new FileOutputStream(f), getEncodingName());
}
private void ensureParentDirectoriesExist() throws IOException {
if (!hasParents) {
File parent = f.getParentFile();
if (parent != null && !parent.exists()) {
if (!parent.mkdirs()) {
// if the mkdirs failed, it may be because another process concurrently
// created the directory, so check if the directory got created
// anyway before throwing an exception
if (!parent.exists() || !parent.isDirectory())
throw new IOException("could not create parent directories");
}
}
hasParents = true;
}
}
/** @deprecated see bug 6410637 */
@Deprecated
public String getName() {
return name;
}
public boolean isNameCompatible(String cn, JavaFileObject.Kind kind) {
cn.getClass(); // null check
if (kind == Kind.OTHER && getKind() != kind)
return false;
String n = cn + kind.extension;
if (name.equals(n))
return true;
if (name.equalsIgnoreCase(n)) {
try {
// allow for Windows
return (f.getCanonicalFile().getName().equals(n));
} catch (IOException e) {
}
}
return false;
}
/** @deprecated see bug 6410637 */
@Deprecated
public String getPath() {
return f.getPath();
}
public long getLastModified() {
return f.lastModified();
}
public boolean delete() {
return f.delete();
}
public CharBuffer getCharContent(boolean ignoreEncodingErrors) throws IOException {
SoftReference<CharBuffer> r = contentCache.get(this);
CharBuffer cb = (r == null ? null : r.get());
if (cb == null) {
InputStream in = new FileInputStream(f);
try {
ByteBuffer bb = makeByteBuffer(in);
JavaFileObject prev = log.useSource(this);
try {
cb = decode(bb, ignoreEncodingErrors);
} finally {
log.useSource(prev);
}
byteBufferCache.put(bb); // save for next time
if (!ignoreEncodingErrors)
contentCache.put(this, new SoftReference<CharBuffer>(cb));
} finally {
in.close();
}
}
return cb;
}
@Override
public boolean equals(Object other) {
if (!(other instanceof RegularFileObject))
return false;
RegularFileObject o = (RegularFileObject) other;
try {
return f.equals(o.f)
|| f.getCanonicalFile().equals(o.f.getCanonicalFile());
} catch (IOException e) {
return false;
}
}
@Override
public int hashCode() {
return f.hashCode();
}
public URI toUri() {
try {
// Do no use File.toURI to avoid file system access
String path = f.getAbsolutePath().replace(File.separatorChar, '/');
return new URI("file://" + path).normalize();
} catch (URISyntaxException ex) {
return f.toURI();
}
}
}
/**
* A subclass of JavaFileObject representing zip entries.
*/
public class ZipFileObject extends BaseFileObject {
/** The entry's name.
*/
private String name;
/** The zipfile containing the entry.
*/
ZipFile zdir;
/** The underlying zip entry object.
*/
ZipEntry entry;
public ZipFileObject(String name, ZipFile zdir, ZipEntry entry) {
this.name = name;
this.zdir = zdir;
this.entry = entry;
}
public InputStream openInputStream() throws IOException {
return zdir.getInputStream(entry);
}
public OutputStream openOutputStream() throws IOException {
throw new UnsupportedOperationException();
}
protected CharsetDecoder getDecoder(boolean ignoreEncodingErrors) {
return JavacFileManager.this.getDecoder(getEncodingName(), ignoreEncodingErrors);
}
public Writer openWriter() throws IOException {
throw new UnsupportedOperationException();
}
/** @deprecated see bug 6410637 */
@Deprecated
public String getName() {
return name;
}
public boolean isNameCompatible(String cn, JavaFileObject.Kind k) {
cn.getClass(); // null check
if (k == Kind.OTHER && getKind() != k)
return false;
return name.equals(cn + k.extension);
}
/** @deprecated see bug 6410637 */
@Deprecated
public String getPath() {
return zdir.getName() + "(" + entry + ")";
}
public long getLastModified() {
return entry.getTime();
}
public boolean delete() {
throw new UnsupportedOperationException();
}
public CharBuffer getCharContent(boolean ignoreEncodingErrors) throws IOException {
SoftReference<CharBuffer> r = contentCache.get(this);
CharBuffer cb = (r == null ? null : r.get());
if (cb == null) {
InputStream in = zdir.getInputStream(entry);
try {
ByteBuffer bb = makeByteBuffer(in);
JavaFileObject prev = log.useSource(this);
try {
cb = decode(bb, ignoreEncodingErrors);
} finally {
log.useSource(prev);
}
byteBufferCache.put(bb); // save for next time
if (!ignoreEncodingErrors)
contentCache.put(this, new SoftReference<CharBuffer>(cb));
} finally {
in.close();
}
}
return cb;
}
@Override
public boolean equals(Object other) {
if (!(other instanceof ZipFileObject))
return false;
ZipFileObject o = (ZipFileObject) other;
return zdir.equals(o.zdir) || name.equals(o.name);
}
@Override
public int hashCode() {
return zdir.hashCode() + name.hashCode();
}
public String getZipName() {
return zdir.getName();
}
public String getZipEntryName() {
return entry.getName();
}
public URI toUri() {
String zipName = new File(getZipName()).toURI().normalize().getPath();
String entryName = getZipEntryName();
return URI.create("jar:" + zipName + "!" + entryName);
}
}
/**
* A subclass of JavaFileObject representing zip entries using the com.sun.tools.javac.zip.ZipFileIndex implementation.
*/
public class ZipFileIndexFileObject extends BaseFileObject {
/** The entry's name.
*/
private String name;
/** The zipfile containing the entry.
*/
ZipFileIndex zfIndex;
/** The underlying zip entry object.
*/
ZipFileIndexEntry entry;
/** The InputStream for this zip entry (file.)
*/
InputStream inputStream = null;
/** The name of the zip file where this entry resides.
*/
String zipName;
JavacFileManager defFileManager = null;
public ZipFileIndexFileObject(JavacFileManager fileManager, ZipFileIndex zfIndex, ZipFileIndexEntry entry, String zipFileName) {
super();
this.name = entry.getFileName();
this.zfIndex = zfIndex;
this.entry = entry;
this.zipName = zipFileName;
defFileManager = fileManager;
}
public InputStream openInputStream() throws IOException {
if (inputStream == null) {
inputStream = new ByteArrayInputStream(read());
}
return inputStream;
}
protected CharsetDecoder getDecoder(boolean ignoreEncodingErrors) {
return JavacFileManager.this.getDecoder(getEncodingName(), ignoreEncodingErrors);
}
public OutputStream openOutputStream() throws IOException {
throw new UnsupportedOperationException();
}
public Writer openWriter() throws IOException {
throw new UnsupportedOperationException();
}
/** @deprecated see bug 6410637 */
@Deprecated
public String getName() {
return name;
}
public boolean isNameCompatible(String cn, JavaFileObject.Kind k) {
cn.getClass(); // null check
if (k == Kind.OTHER && getKind() != k)
return false;
return name.equals(cn + k.extension);
}
/** @deprecated see bug 6410637 */
@Deprecated
public String getPath() {
return entry.getName() + "(" + entry + ")";
}
public long getLastModified() {
return entry.getLastModified();
}
public boolean delete() {
throw new UnsupportedOperationException();
}
@Override
public boolean equals(Object other) {
if (!(other instanceof ZipFileIndexFileObject))
return false;
ZipFileIndexFileObject o = (ZipFileIndexFileObject) other;
return entry.equals(o.entry);
}
@Override
public int hashCode() {
return zipName.hashCode() + (name.hashCode() << 10);
}
public String getZipName() {
return zipName;
}
public String getZipEntryName() {
return entry.getName();
}
public URI toUri() {
String zipName = new File(getZipName()).toURI().normalize().getPath();
String entryName = getZipEntryName();
if (File.separatorChar != '/') {
entryName = entryName.replace(File.separatorChar, '/');
}
return URI.create("jar:" + zipName + "!" + entryName);
}
private byte[] read() throws IOException {
if (entry == null) {
entry = zfIndex.getZipIndexEntry(name);
if (entry == null)
throw new FileNotFoundException();
}
return zfIndex.read(entry);
}
public CharBuffer getCharContent(boolean ignoreEncodingErrors) throws IOException {
SoftReference<CharBuffer> r = defFileManager.contentCache.get(this);
CharBuffer cb = (r == null ? null : r.get());
if (cb == null) {
InputStream in = new ByteArrayInputStream(zfIndex.read(entry));
try {
ByteBuffer bb = makeByteBuffer(in);
JavaFileObject prev = log.useSource(this);
try {
cb = decode(bb, ignoreEncodingErrors);
} finally {
log.useSource(prev);
}
byteBufferCache.put(bb); // save for next time
if (!ignoreEncodingErrors)
defFileManager.contentCache.put(this, new SoftReference<CharBuffer>(cb));
} finally {
in.close();
}
}
return cb;
}
}
public class ZipFileIndexArchive implements Archive {
private final ZipFileIndex zfIndex;
private JavacFileManager fileManager;
public ZipFileIndexArchive(JavacFileManager fileManager, ZipFileIndex zdir) throws IOException {
this.fileManager = fileManager;
this.zfIndex = zdir;
}
public boolean contains(String name) {
return zfIndex.contains(name);
}
public com.sun.tools.javac.util.List<String> getFiles(String subdirectory) {
return zfIndex.getFiles(((subdirectory.endsWith("/") || subdirectory.endsWith("\\"))? subdirectory.substring(0, subdirectory.length() - 1) : subdirectory));
}
public JavaFileObject getFileObject(String subdirectory, String file) {
String fullZipFileName = subdirectory + file;
ZipFileIndexEntry entry = zfIndex.getZipIndexEntry(fullZipFileName);
JavaFileObject ret = new ZipFileIndexFileObject(fileManager, zfIndex, entry, zfIndex.getZipFile().getPath());
return ret;
}
public Set<String> getSubdirectories() {
return zfIndex.getAllDirectories();
}
public void close() throws IOException {
zfIndex.close();
}
}
}