/** * Copyright 2010 JogAmp Community. All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, are * permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this list of * conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, this list * of conditions and the following disclaimer in the documentation and/or other materials * provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY JogAmp Community ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND * FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL JogAmp Community OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * The views and conclusions contained in the software and documentation are those of the * authors and should not be interpreted as representing official policies, either expressed * or implied, of JogAmp Community. */ package com.jogamp.common.util; import java.io.BufferedInputStream; import java.io.BufferedOutputStream; import java.io.Closeable; import java.io.File; import java.io.FileOutputStream; import java.io.FilePermission; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.lang.reflect.Constructor; import java.net.URI; import java.net.URISyntaxException; import java.net.URL; import java.net.URLConnection; import java.nio.ByteBuffer; import jogamp.common.Debug; import jogamp.common.os.AndroidUtils; import jogamp.common.os.PlatformPropsImpl; import com.jogamp.common.net.AssetURLContext; import com.jogamp.common.nio.Buffers; import com.jogamp.common.os.MachineDescription; import com.jogamp.common.os.Platform; public class IOUtil { public static final boolean DEBUG = Debug.debug("IOUtil"); /** {@value} */ public static final String SCHEME_SEPARATOR = ":"; /** {@value} */ public static final String FILE_SCHEME = "file"; /** {@value} */ public static final String HTTP_SCHEME = "http"; /** {@value} */ public static final String HTTPS_SCHEME = "https"; /** {@value} */ public static final String JAR_SCHEME = "jar"; /** A JAR subprotocol is separeted from the JAR entry w/ this separator {@value}. Even if no class is specified '!/' must follow!. */ public static final String JAR_SCHEME_SEPARATOR = "!"; /** Std. temporary directory property key java.io.tmpdir. */ private static final String java_io_tmpdir_propkey = "java.io.tmpdir"; private static final String user_home_propkey = "user.home"; private static final String XDG_CACHE_HOME_envkey = "XDG_CACHE_HOME"; /** Subdirectory within platform's temporary root directory where all JogAmp related temp files are being stored: {@code jogamp} */ public static final String tmpSubDir = "jogamp"; private IOUtil() {} /** * Since usage of {@link java.io.FileOutputStream} is considered security critical, * we need to check it's availability for each use. *

* In case a SecurityManager is installed, privileged access is required. *

* * @return the constructor of {@link java.io.FileOutputStream} if available and * no SecurityManager is installed or privileged access is granted. * Otherwise null. * */ private static final Constructor getFOSCtor() { Constructor _fosCtor; Throwable _t; try { _fosCtor = ReflectionUtil.getConstructor("java.io.FileOutputStream", new Class[] { File.class }, IOUtil.class.getClassLoader()); _t = null; } catch (Throwable t) { _fosCtor = null; _t = t; } if(DEBUG) { System.err.println("IOUtil: java.io.FileOutputStream available: "+(null != _fosCtor)); if(null!=_t) { _t.printStackTrace(); } } return _fosCtor; } /*** * * STREAM COPY STUFF * */ /** * Copy the specified URL resource to the specified output file. The total * number of bytes written is returned. Both streams are closed upon completion. * * @param conn the open URLConnection * @param outFile the destination * @return * @throws IOException */ public static int copyURLConn2File(URLConnection conn, File outFile) throws IOException { conn.connect(); // redundant int totalNumBytes = 0; InputStream in = new BufferedInputStream(conn.getInputStream()); try { totalNumBytes = copyStream2File(in, outFile, conn.getContentLength()); } finally { in.close(); } return totalNumBytes; } /** * Copy the specified input stream to the specified output file. The total * number of bytes written is returned. Both streams are closed upon completion. * * @param in the source * @param outFile the destination * @param totalNumBytes informal number of expected bytes, maybe used for user feedback while processing. -1 if unknown * @return * @throws IOException */ public static int copyStream2File(InputStream in, File outFile, int totalNumBytes) throws IOException { OutputStream out = new BufferedOutputStream(new FileOutputStream(outFile)); try { totalNumBytes = copyStream2Stream(in, out, totalNumBytes); } finally { out.close(); } return totalNumBytes; } /** * Copy the specified input stream to the specified output stream. The total * number of bytes written is returned. * * @param in the source * @param out the destination * @param totalNumBytes informal number of expected bytes, maybe used for user feedback while processing. -1 if unknown * @return * @throws IOException */ public static int copyStream2Stream(InputStream in, OutputStream out, int totalNumBytes) throws IOException { return copyStream2Stream(Platform.getMachineDescription().pageSizeInBytes(), in, out, totalNumBytes); } /** * Copy the specified input stream to the specified output stream. The total * number of bytes written is returned. * * @param bufferSize the intermediate buffer size, should be {@link MachineDescription#pageSizeInBytes()} for best performance. * @param in the source * @param out the destination * @param totalNumBytes informal number of expected bytes, maybe used for user feedback while processing. -1 if unknown * @return * @throws IOException */ public static int copyStream2Stream(int bufferSize, InputStream in, OutputStream out, int totalNumBytes) throws IOException { final byte[] buf = new byte[bufferSize]; int numBytes = 0; while (true) { int count; if ((count = in.read(buf)) == -1) { break; } out.write(buf, 0, count); numBytes += count; } return numBytes; } /** * Copy the specified input stream to a byte array, which is being returned. */ public static byte[] copyStream2ByteArray(InputStream stream) throws IOException { // FIXME: Shall enforce a BufferedInputStream ? if( !(stream instanceof BufferedInputStream) ) { stream = new BufferedInputStream(stream); } int totalRead = 0; int avail = stream.available(); byte[] data = new byte[avail]; int numRead = 0; do { if (totalRead + avail > data.length) { final byte[] newData = new byte[totalRead + avail]; System.arraycopy(data, 0, newData, 0, totalRead); data = newData; } numRead = stream.read(data, totalRead, avail); if (numRead >= 0) { totalRead += numRead; } avail = stream.available(); } while (avail > 0 && numRead >= 0); // just in case the announced avail > totalRead if (totalRead != data.length) { final byte[] newData = new byte[totalRead]; System.arraycopy(data, 0, newData, 0, totalRead); data = newData; } return data; } /** * Copy the specified input stream to a NIO ByteBuffer w/ native byte order, which is being returned. *

The implementation creates the ByteBuffer w/ {@link #copyStream2ByteArray(InputStream)}'s returned byte array.

* * @param stream input stream, which will be wrapped into a BufferedInputStream, if not already done. */ public static ByteBuffer copyStream2ByteBuffer(InputStream stream) throws IOException { return copyStream2ByteBuffer(stream, -1); } /** * Copy the specified input stream to a NIO ByteBuffer w/ native byte order, which is being returned. *

The implementation creates the ByteBuffer w/ {@link #copyStream2ByteArray(InputStream)}'s returned byte array.

* * @param stream input stream, which will be wrapped into a BufferedInputStream, if not already done. * @param initialCapacity initial buffer capacity in bytes, if > available bytes */ public static ByteBuffer copyStream2ByteBuffer(InputStream stream, int initialCapacity) throws IOException { if( !(stream instanceof BufferedInputStream) ) { stream = new BufferedInputStream(stream); } int avail = stream.available(); if( initialCapacity < avail ) { initialCapacity = avail; } final MachineDescription machine = Platform.getMachineDescription(); ByteBuffer data = Buffers.newDirectByteBuffer( machine.pageAlignedSize( initialCapacity ) ); byte[] chunk = new byte[machine.pageSizeInBytes()]; int chunk2Read = Math.min(machine.pageSizeInBytes(), avail); int numRead = 0; do { if (avail > data.remaining()) { final ByteBuffer newData = Buffers.newDirectByteBuffer( machine.pageAlignedSize(data.position() + avail) ); newData.put(data); data = newData; } numRead = stream.read(chunk, 0, chunk2Read); if (numRead > 0) { data.put(chunk, 0, numRead); } avail = stream.available(); chunk2Read = Math.min(machine.pageSizeInBytes(), avail); } while ( numRead > 0 ); // EOS: -1 == numRead, EOF maybe reached earlier w/ 0 == numRead data.flip(); return data; } /*** * * RESOURCE / FILE NAME STUFF * */ /** * * @param path * @param startWithSlash * @param endWithSlash * @return * @throws URISyntaxException if path is empty or has no parent directory available while resolving ../ */ public static String slashify(String path, boolean startWithSlash, boolean endWithSlash) throws URISyntaxException { String p = path.replace('\\', '/'); // unify file separator if (startWithSlash && !p.startsWith("/")) { p = "/" + p; } if (endWithSlash && !p.endsWith("/")) { p = p + "/"; } return cleanPathString(p); } /** * Using the simple conversion via File -> URI, assuming proper characters. * @throws URISyntaxException if path is empty or has no parent directory available while resolving ../ * @throws URISyntaxException if the resulting string does not comply w/ an RFC 2396 URI */ public static URI toURISimple(File file) throws URISyntaxException { return new URI(FILE_SCHEME, null, slashify(file.getAbsolutePath(), true, file.isDirectory()), null); } /** * Using the simple conversion via File -> URI, assuming proper characters. * @throws URISyntaxException if path is empty or has no parent directory available while resolving ../ * @throws URISyntaxException if the resulting string does not comply w/ an RFC 2396 URI */ public static URI toURISimple(String protocol, String file, boolean isDirectory) throws URISyntaxException { return new URI(protocol, null, slashify(file, true, isDirectory), null); } /** * Returns the lowercase suffix of the given file name (the text * after the last '.' in the file name). Returns null if the file * name has no suffix. Only operates on the given file name; * performs no I/O operations. * * @param file name of the file * @return lowercase suffix of the file name * @throws NullPointerException if file is null */ public static String getFileSuffix(File file) { return getFileSuffix(file.getName()); } /** * Returns the lowercase suffix of the given file name (the text * after the last '.' in the file name). Returns null if the file * name has no suffix. Only operates on the given file name; * performs no I/O operations. * * @param filename name of the file * @return lowercase suffix of the file name * @throws NullPointerException if filename is null */ public static String getFileSuffix(String filename) { int lastDot = filename.lastIndexOf('.'); if (lastDot < 0) { return null; } return toLowerCase(filename.substring(lastDot + 1)); } private static String toLowerCase(String arg) { if (arg == null) { return null; } return arg.toLowerCase(); } /*** * @param file * @param allowOverwrite * @return outputStream The resulting output stream * @throws IOException if the file already exists and allowOverwrite is false, * the class {@link java.io.FileOutputStream} is not accessible or * the user does not have sufficient rights to access the local filesystem. */ public static FileOutputStream getFileOutputStream(File file, boolean allowOverwrite) throws IOException { final Constructor fosCtor = getFOSCtor(); if(null == fosCtor) { throw new IOException("Cannot open file (" + file + ") for writing, FileOutputStream feature not available."); } if (file.exists() && !allowOverwrite) { throw new IOException("File already exists (" + file + ") and overwrite=false"); } try { return (FileOutputStream) fosCtor.newInstance(new Object[] { file }); } catch (Exception e) { throw new IOException("error opening " + file + " for write. ", e); } } public static String getClassFileName(String clazzBinName) { // or return clazzBinName.replace('.', File.separatorChar) + ".class"; ? return clazzBinName.replace('.', '/') + ".class"; } /** * @param clazzBinName com.jogamp.common.util.cache.TempJarCache * @param cl ClassLoader to locate the JarFile * @return jar:file:/usr/local/projects/JOGL/gluegen/build-x86_64/gluegen-rt.jar!/com/jogamp/common/util/cache/TempJarCache.class * @throws IOException if the jar file could not been found by the ClassLoader */ public static URL getClassURL(String clazzBinName, ClassLoader cl) throws IOException { final URL url = cl.getResource(getClassFileName(clazzBinName)); if(null == url) { throw new IOException("Cannot not find: "+clazzBinName); } return url; } /** * Returns the basename of the given fname w/o directory part * @throws URISyntaxException if path is empty or has no parent directory available while resolving ../ */ public static String getBasename(String fname) throws URISyntaxException { fname = slashify(fname, false, false); int lios = fname.lastIndexOf('/'); // strip off dirname if(lios>=0) { fname = fname.substring(lios+1); } return fname; } /** * Returns unified '/' dirname including the last '/' * @throws URISyntaxException if path is empty or has no parent directory available while resolving ../ */ public static String getDirname(String fname) throws URISyntaxException { fname = slashify(fname, false, false); int lios = fname.lastIndexOf('/'); // strip off dirname if(lios>=0) { fname = fname.substring(0, lios+1); } return fname; } /** * The URI's protocol:/some/path/gluegen-rt.jar * parent dirname URI protocol:/some/path/ will be returned. *

* protocol may be "file", "http", etc.. *

* * @param uri "protocol:/some/path/gluegen-rt.jar" * @return "protocol:/some/path/" * @throws IllegalArgumentException if the URI doesn't match the expected formatting, or is null * @throws URISyntaxException */ public static URI getURIDirname(URI uri) throws IllegalArgumentException, URISyntaxException { if(null == uri) { throw new IllegalArgumentException("URI is null"); } String uriS = uri.toString(); if( DEBUG ) { System.out.println("getURIDirname "+uri+", extForm: "+uriS); } return new URI( getURIDirname(uriS) ); } /** * The URI's protocol:/some/path/gluegen-rt.jar * parent dirname URI protocol:/some/path/ will be returned. *

* protocol may be "file", "http", etc.. *

* * @param uri "protocol:/some/path/gluegen-rt.jar" * @return "protocol:/some/path/" * @throws IllegalArgumentException if the URI doesn't match the expected formatting, or is null * @throws URISyntaxException */ public static String getURIDirname(String uriS) throws IllegalArgumentException, URISyntaxException { if(null == uriS) { throw new IllegalArgumentException("uriS is null"); } // from // file:/some/path/gluegen-rt.jar _or_ rsrc:gluegen-rt.jar // to // file:/some/path/ _or_ rsrc: int idx = uriS.lastIndexOf('/'); if(0 > idx) { // no abs-path, check for protocol terminator ':' idx = uriS.lastIndexOf(':'); if(0 > idx) { throw new IllegalArgumentException("URI does not contain protocol terminator ':', in <"+uriS+">"); } } uriS = uriS.substring(0, idx+1); // exclude jar name, include terminal '/' or ':' if( DEBUG ) { System.out.println("getJarURIDirname res: "+uriS); } return uriS; } /** * Converts an {@link URI} to an {@link URL} while using a non encoded path * for file scheme, i.e. file:/. * Otherwise the default {@link URL} translation {@link URI#toURL()} is being used. *

* The folloing cases are considered: *

*

* @param uri * @return * @throws IOException * @throws IllegalArgumentException * @throws URISyntaxException */ public static URL toURL(URI uri) throws IOException, IllegalArgumentException, URISyntaxException { URL url = null; final String uriSchema = uri.getScheme(); final boolean isJAR = IOUtil.JAR_SCHEME.equals(uriSchema); final URI specificURI = isJAR ? JarUtil.getJarSubURI(uri) : uri; int mode = 0; if( IOUtil.FILE_SCHEME.equals( specificURI.getScheme() ) ) { File f; try { f = new File(specificURI); } catch( IllegalArgumentException iae) { if( DEBUG ) { System.out.println("toURL: "+uri+" -> File("+specificURI+") failed: "+iae.getMessage()); } f = null; } if( null != f ) { if( specificURI == uri ) { url = new URL(IOUtil.FILE_SCHEME+IOUtil.SCHEME_SEPARATOR+f.getPath()); // url = f.toURI().toURL(); // Doesn't work, since it uses encoded path! mode = 1; } else { final String post = isJAR ? IOUtil.JAR_SCHEME_SEPARATOR + JarUtil.getJarEntry(uri) : ""; final String urlS = uriSchema+IOUtil.SCHEME_SEPARATOR+IOUtil.FILE_SCHEME+IOUtil.SCHEME_SEPARATOR+f.getPath()+post; url = new URL(urlS); mode = 2; } } } if( null == url ) { url = uri.toURL(); mode = 3; } if( DEBUG ) { System.err.println("IOUtil.toURL: "+uri+", isJar "+isJAR+": "+specificURI+" -> mode "+mode+", "+url); } return url; } /*** * * RESOURCE LOCATION STUFF * */ /** * Locating a resource using {@link #getResource(String, ClassLoader)}: * * *

* Returns the resolved and open URLConnection or null if not found. *

* * @see #getResource(String, ClassLoader) * @see ClassLoader#getResource(String) * @see ClassLoader#getSystemResource(String) */ public static URLConnection getResource(Class context, String resourcePath) { if(null == resourcePath) { return null; } ClassLoader contextCL = (null!=context)?context.getClassLoader():IOUtil.class.getClassLoader(); URLConnection conn = null; if(null != context) { // scoping the path within the class's package final String className = context.getName().replace('.', '/'); final int lastSlash = className.lastIndexOf('/'); if (lastSlash >= 0) { final String pkgName = className.substring(0, lastSlash + 1); conn = getResource(pkgName + resourcePath, contextCL); if(DEBUG) { System.err.println("IOUtil: found <"+resourcePath+"> within class package <"+pkgName+"> of given class <"+context.getName()+">: "+(null!=conn)); } } } else if(DEBUG) { System.err.println("IOUtil: null context"); } if(null == conn) { conn = getResource(resourcePath, contextCL); if(DEBUG) { System.err.println("IOUtil: found <"+resourcePath+"> by classloader: "+(null!=conn)); } } return conn; } /** * Locating a resource using the ClassLoader's facilities. *

* Returns the resolved and connected URLConnection or null if not found. *

* * @see ClassLoader#getResource(String) * @see ClassLoader#getSystemResource(String) * @see URL#URL(String) * @see File#File(String) */ public static URLConnection getResource(String resourcePath, ClassLoader cl) { if(null == resourcePath) { return null; } if(DEBUG) { System.err.println("IOUtil: locating <"+resourcePath+">, has cl: "+(null!=cl)); } if(resourcePath.startsWith(AssetURLContext.asset_protocol_prefix)) { try { return AssetURLContext.createURL(resourcePath, cl).openConnection(); } catch (IOException ioe) { if(DEBUG) { System.err.println("IOUtil: Catched Exception:"); ioe.printStackTrace(); } return null; } } else { try { return AssetURLContext.resolve(resourcePath, cl); } catch (IOException ioe) { if(DEBUG) { System.err.println("IOUtil: Catched Exception:"); ioe.printStackTrace(); } } } return null; } /** * Generates a path for the 'relativeFile' relative to the 'baseLocation'. * * @param baseLocation denotes a directory * @param relativeFile denotes a relative file to the baseLocation * @throws URISyntaxException if path is empty or has no parent directory available while resolving ../ */ public static String getRelativeOf(File baseLocation, String relativeFile) throws URISyntaxException { if(null == relativeFile) { return null; } if (baseLocation != null) { final File file = new File(baseLocation, relativeFile); // Handle things on Windows return slashify(file.getPath(), false, false); } return null; } /** * @param path assuming a slashified path beginning with "/" as it's root directory, either denotes a file or directory. * @return parent of path * @throws URISyntaxException if path is empty or has no parent directory available */ public static String getParentOf(String path) throws URISyntaxException { final int pl = null!=path ? path.length() : 0; if(pl == 0) { throw new IllegalArgumentException("path is empty <"+path+">"); } final int e = path.lastIndexOf("/"); if( e < 0 ) { throw new URISyntaxException(path, "path contains no '/'"); } if( e == 0 ) { // path is root directory throw new URISyntaxException(path, "path has no parents"); } if( e < pl - 1 ) { // path is file, return it's parent directory return path.substring(0, e+1); } final int j = path.lastIndexOf("!") + 1; // '!' Separates JARFile entry -> local start of path // path is a directory .. final int p = path.lastIndexOf("/", e-1); if( p >= j) { return path.substring(0, p+1); } throw new URISyntaxException(path, "parent of path contains no '/'"); } /** * @param path assuming a slashified path beginning with "/" as it's root directory, either denotes a file or directory. * @return clean path string where ../ and ./ is resolved. * @throws URISyntaxException if path is empty or has no parent directory available while resolving ../ */ public static String cleanPathString(String path) throws URISyntaxException { int idx; while ( ( idx = path.indexOf("../") ) >= 0 ) { path = getParentOf(path.substring(0, idx)) + path.substring(idx+3); } while ( ( idx = path.indexOf("./") ) >= 0 ) { path = path.substring(0, idx) + path.substring(idx+2); } return path; } /** * Generates a URI for the relativePath relative to the baseURI, * hence the result is a absolute location. *

* Impl. operates on the scheme-specific-part, and hence is sub-protocol savvy. *

*

* In case baseURI is not a path ending w/ '/', it's a assumed to be a file and it's parent is being used. *

* * @param baseURI denotes a URI to a directory ending w/ '/', or a file. In the latter case the file's directory is being used. * @param relativePath denotes a relative file to the baseLocation's parent directory * @throws URISyntaxException if path is empty or has no parent directory available while resolving ../ */ public static URI getRelativeOf(URI baseURI, String relativePath) throws URISyntaxException { return compose(baseURI.getScheme(), baseURI.getRawSchemeSpecificPart(), relativePath, baseURI.getRawFragment()); } /** * Wraps {@link #getRelativeOf(URI, String)} for convenience. * @throws IOException */ public static URL getRelativeOf(URL baseURL, String relativePath) throws IOException { try { return getRelativeOf(baseURL.toURI(), relativePath).toURL(); } catch (URISyntaxException e) { throw new IOException(e); } } /** * Generates a URI for the relativePath relative to the schemeSpecificPart, * hence the result is a absolute location. *

* schemeSpecificPart's query, if exist is split to path and query. *

*

* In case path is not a path ending w/ '/', it's a assumed to be a file and it's parent is being used. *

* * @param scheme scheme of the resulting URI * @param schemeSpecificPart may include a query, which is separated while processing * @param relativePath denotes a relative file to the baseLocation's parent directory * @throws URISyntaxException if path is empty or has no parent directory available while resolving ../ */ public static URI compose(String scheme, String schemeSpecificPart, String relativePath, String fragment) throws URISyntaxException { // cut off optional query in scheme-specific-part final String query; final int queryI = schemeSpecificPart.lastIndexOf('?'); if( queryI >= 0 ) { query = schemeSpecificPart.substring(queryI+1); schemeSpecificPart = schemeSpecificPart.substring(0, queryI); } else { query = null; } if( null != relativePath ) { if( !schemeSpecificPart.endsWith("/") ) { schemeSpecificPart = getParentOf(schemeSpecificPart); } schemeSpecificPart = schemeSpecificPart + relativePath; } schemeSpecificPart = cleanPathString( schemeSpecificPart ); return new URI(scheme, null == query ? schemeSpecificPart : schemeSpecificPart + "?" + query, fragment); } /** * Returns the connected URLConnection, or null if not url is not available */ public static URLConnection openURL(URL url) { return openURL(url, "."); } /** * Returns the connected URLConnection, or null if not url is not available */ public static URLConnection openURL(URL url, String dbgmsg) { if(null!=url) { try { final URLConnection c = url.openConnection(); c.connect(); // redundant if(DEBUG) { System.err.println("IOUtil: urlExists("+url+") ["+dbgmsg+"] - true"); } return c; } catch (IOException ioe) { if(DEBUG) { System.err.println("IOUtil: urlExists("+url+") ["+dbgmsg+"] - false - "+ioe.getClass().getSimpleName()+": "+ioe.getMessage()); ioe.printStackTrace(); } } } else if(DEBUG) { System.err.println("IOUtil: no url - urlExists(null) ["+dbgmsg+"]"); } return null; } private static String getShellSuffix() { switch(PlatformPropsImpl.OS_TYPE) { case WINDOWS: return ".bat"; default: return ".sh"; } } private static boolean getOSHasNoexecFS() { switch(PlatformPropsImpl.OS_TYPE) { case WINDOWS: case OPENKODE: return false; default: return true; } } /** * @see Free-Desktop - XDG Base Directory Specification */ private static boolean getOSHasFreeDesktopXDG() { switch(PlatformPropsImpl.OS_TYPE) { case ANDROID: case MACOS: case WINDOWS: case OPENKODE: return false; default: return true; } } /** * Test whether {@code file} exists and matches the given requirements * * @param file * @param shallBeDir * @param shallBeWritable * @return */ public static boolean testFile(File file, boolean shallBeDir, boolean shallBeWritable) { if (!file.exists()) { if(DEBUG) { System.err.println("IOUtil.testFile: <"+file.getAbsolutePath()+">: does not exist"); } return false; } if (shallBeDir && !file.isDirectory()) { if(DEBUG) { System.err.println("IOUtil.testFile: <"+file.getAbsolutePath()+">: is not a directory"); } return false; } if (shallBeWritable && !file.canWrite()) { if(DEBUG) { System.err.println("IOUtil.testFile: <"+file.getAbsolutePath()+">: is not writable"); } return false; } return true; } /** * Returns true if the given {@code dir} *
    *
  1. exists, and
  2. *
  3. is a directory, and
  4. *
  5. is writeable, and
  6. *
  7. files can be executed from the directory
  8. *
* * @throws SecurityException if file creation and process execution is not allowed within the current security context * @param dir */ public static boolean testDirExec(File dir) throws SecurityException { if (!testFile(dir, true, true)) { return false; } if(!getOSHasNoexecFS()) { return true; } File exetst; try { exetst = File.createTempFile("jogamp_exe_tst", getShellSuffix(), dir); } catch (SecurityException se) { throw se; // fwd Security exception } catch (IOException e) { if(DEBUG) { e.printStackTrace(); } return false; } int ok = -1; if(exetst.setExecutable(true)) { try { Process pr = Runtime.getRuntime().exec(exetst.getCanonicalPath()); pr.waitFor() ; ok = pr.exitValue(); } catch (SecurityException se) { throw se; // fwd Security exception } catch (Throwable t) { ok = -2; if(DEBUG) { System.err.println("IOUtil.testDirExec: <"+exetst.getAbsolutePath()+">: "+t.getMessage()); // t.printStackTrace(); } } } exetst.delete(); return 0 == ok; } private static File testDirImpl(File dir, boolean create, boolean executable) throws SecurityException { if (create && !dir.exists()) { dir.mkdirs(); } if( executable ) { if(testDirExec(dir)) { return dir; } } else if(testFile(dir, true, true)) { return dir; } return null; } /** * Returns the directory {@code dir}, which is processed and tested as described below. *
    *
  1. If {@code create} is {@code true} and the directory does not exist yet, it is created incl. all sub-directories.
  2. *
  3. If {@code dirName} exists, but is not a directory, {@code null} is being returned.
  4. *
  5. If the directory does not exist or is not writeable, {@code null} is being returned.
  6. *
  7. If {@code executable} is {@code true} and files cannot be executed from the directory, {@code null} is being returned.
  8. *
* * @param dir the directory to process * @param create true if the directory shall be created if not existing * @param executable true if the user intents to launch executables from the temporary directory, otherwise false. * @throws SecurityException if file creation and process execution is not allowed within the current security context */ public static File testDir(final File dir, final boolean create, final boolean executable) throws SecurityException { return testDirImpl(dir, create, executable); } private static boolean isStringSet(String s) { return null != s && 0 < s.length(); } /** * This methods finds [and creates] an available temporary sub-directory: *
           File tmpBaseDir = null;    
           if(null != testDir(tmpRoot, true, executable)) { // check tmpRoot first
               for(int i = 0; null == tmpBaseDir && i<=9999; i++) {
                   final String tmpDirSuffix = String.format("_%04d", i); // 4 digits for iteration
                   tmpBaseDir = testDir(new File(tmpRoot, tmpSubDirPrefix+tmpDirSuffix), true, executable);
               }
           } else {
               tmpBaseDir = null;
           }
           return tmpBaseDir;
     * 
*

* The iteration through [0000-9999] ensures that the code is multi-user save. *

* @param tmpRoot * @param executable * @param tmpDirPrefix * @return a temporary directory, writable by this user * @throws SecurityException */ private static File getSubTempDir(File tmpRoot, String tmpSubDirPrefix, boolean executable) throws SecurityException { File tmpBaseDir = null; if(null != testDirImpl(tmpRoot, true /* create */, executable)) { // check tmpRoot first for(int i = 0; null == tmpBaseDir && i<=9999; i++) { final String tmpDirSuffix = String.format("_%04d", i); // 4 digits for iteration tmpBaseDir = testDirImpl(new File(tmpRoot, tmpSubDirPrefix+tmpDirSuffix), true /* create */, executable); } } return tmpBaseDir; } /** * Returns a platform independent writable directory for temporary files * consisting of the platform's {@code temp-root} + {@link #tmpSubDir}, * e.g. {@code /tmp/jogamp_0000/}. *

* On standard Java the {@code temp-root} folder is specified by java.io.tempdir. *

*

* On Android the {@code temp-root} folder is relative to the applications local folder * (see {@link Context#getDir(String, int)}) is returned, if * the Android application/activity has registered it's Application Context * via {@link jogamp.common.os.android.StaticContext.StaticContext#init(Context, ClassLoader) StaticContext.init(..)}. * This allows using the temp folder w/o the need for sdcard * access, which would be the java.io.tempdir location on Android! *

*

* In case {@code temp-root} is the users home folder, * a dot is being prepended to {@link #tmpSubDir}, i.e.: {@code /home/user/.jogamp_0000/}. *

* @param executable true if the user intents to launch executables from the temporary directory, otherwise false. * @throws RuntimeException if no temporary directory could be determined * @throws SecurityException if access to java.io.tmpdir is not allowed within the current security context * * @see PropertyAccess#getProperty(String, boolean) * @see Context#getDir(String, int) */ public static File getTempDir(final boolean executable) throws SecurityException, RuntimeException { if(!tempRootSet) { // volatile: ok synchronized(IOUtil.class) { if(!tempRootSet) { tempRootSet = true; { final File ctxTempDir = AndroidUtils.getTempRoot(); // null if ( !Android || no android-ctx ) if(null != ctxTempDir) { tempRootNoexec = getSubTempDir(ctxTempDir, tmpSubDir, false /* executable, see below */); tempRootExec = tempRootNoexec; // FIXME: Android temp root is always executable (?) return tempRootExec; } } final String java_io_tmpdir = PropertyAccess.getProperty(java_io_tmpdir_propkey, false); final String user_home = PropertyAccess.getProperty(user_home_propkey, false); final String xdg_cache_home; { String _xdg_cache_home; if( getOSHasFreeDesktopXDG() ) { _xdg_cache_home = System.getenv(XDG_CACHE_HOME_envkey); if( !isStringSet(_xdg_cache_home) && isStringSet(user_home) ) { _xdg_cache_home = user_home + File.separator + ".cache" ; // default } } else { _xdg_cache_home = null; } xdg_cache_home = _xdg_cache_home; } // 1) java.io.tmpdir/jogamp if( null == tempRootExec && isStringSet(java_io_tmpdir) ) { tempRootExec = getSubTempDir(new File(java_io_tmpdir), tmpSubDir, true /* executable */); } // 2) $XDG_CACHE_HOME/jogamp if(null == tempRootExec && isStringSet(xdg_cache_home)) { tempRootExec = getSubTempDir(new File(xdg_cache_home), tmpSubDir, true /* executable */); } // 3) $HOME/.jogamp if(null == tempRootExec && isStringSet(user_home)) { tempRootExec = getSubTempDir(new File(user_home), "." + tmpSubDir, true /* executable */); } if(null != tempRootExec) { tempRootNoexec = tempRootExec; } else { // 1) java.io.tmpdir/jogamp if( null == tempRootNoexec && isStringSet(java_io_tmpdir) ) { tempRootNoexec = getSubTempDir(new File(java_io_tmpdir), tmpSubDir, false /* executable */); } // 2) $XDG_CACHE_HOME/jogamp if(null == tempRootNoexec && isStringSet(xdg_cache_home)) { tempRootNoexec = getSubTempDir(new File(xdg_cache_home), tmpSubDir, false /* executable */); } // 3) $HOME/.jogamp if(null == tempRootNoexec && isStringSet(user_home)) { tempRootNoexec = getSubTempDir(new File(user_home), "." + tmpSubDir, false /* executable */); } } if(DEBUG) { System.err.println("IOUtil.getTempRoot(): temp dirs: exec: "+tempRootExec.getAbsolutePath()+", noexec: "+tempRootNoexec.getAbsolutePath()); } } } } final File r = executable ? tempRootExec : tempRootNoexec ; if(null == r) { throw new RuntimeException("Could not determine a temporary directory"); } final FilePermission fp = new FilePermission(r.getAbsolutePath(), "read,write,delete"); SecurityUtil.checkPermission(fp); return r; } private static File tempRootExec = null; // writeable and executable private static File tempRootNoexec = null; // writeable, maybe executable private static volatile boolean tempRootSet = false; /** * Utilizing {@link File#createTempFile(String, String, File)} using * {@link #getTempDir(boolean)} as the directory parameter, ie. location * of the root temp folder. * * @see File#createTempFile(String, String) * @see File#createTempFile(String, String, File) * @see #getTempDir(boolean) * * @param prefix * @param suffix * @param executable true if the temporary root folder needs to hold executable files, otherwise false. * @return * @throws IllegalArgumentException * @throws IOException * @throws SecurityException */ public static File createTempFile(String prefix, String suffix, boolean executable) throws IllegalArgumentException, IOException, SecurityException { return File.createTempFile( prefix, suffix, getTempDir(executable) ); } public static void close(Closeable stream, boolean throwRuntimeException) throws RuntimeException { if(null != stream) { try { stream.close(); } catch (IOException e) { if(throwRuntimeException) { throw new RuntimeException(e); } else if(DEBUG) { System.err.println("Catched Exception: "); e.printStackTrace(); } } } } }