/** Returns the path to be used as the servlet name. */ private Path getPagePath(String pathName) { Path rootDir = _webApp.getRootDirectory(); String realPath = _webApp.getRealPath(pathName); Path path = rootDir.lookupNative(realPath); if (path.isFile() && path.canRead()) return path; java.net.URL url; ClassLoader loader = _webApp.getClassLoader(); if (loader != null) { url = _webApp.getClassLoader().getResource(pathName); String name = url != null ? url.toString() : null; path = null; if (url != null && (name.endsWith(".jar") || name.endsWith(".zip"))) path = JarPath.create(Vfs.lookup(url.toString())).lookup(pathName); else if (url != null) path = Vfs.lookup(url.toString()); if (path != null && path.isFile() && path.canRead()) return path; } url = ClassLoader.getSystemResource(pathName); String name = url != null ? url.toString() : null; path = null; if (url != null && (name.endsWith(".jar") || name.endsWith(".zip"))) path = JarPath.create(Vfs.lookup(url.toString())).lookup(pathName); else if (url != null) path = Vfs.lookup(url.toString()); if (path != null && path.isFile() && path.canRead()) return path; else return null; }
private Path writeTempFile(Node node) throws IOException { Path workDir = CauchoSystem.getWorkPath().lookup("_xsl"); workDir.mkdirs(); // Path temp = workDir.createTempFile("tmp", "xsl"); WriteStream os = Vfs.lookup("null:").openWrite(); Crc64Stream crcStream = new Crc64Stream(os.getSource()); os.init(crcStream); try { XmlPrinter printer = new XmlPrinter(os); printer.printNode(node); } finally { os.close(); } long crc = crcStream.getCRC(); CharBuffer cb = new CharBuffer(); Base64.encode(cb, crc); String crcValue = cb.toString().replace('/', '-'); Path xslPath = workDir.lookup(crcValue + ".xsl"); // temp.renameTo(xslPath); return xslPath; }
/** Initialize the servlet with the server's sruns. */ public void init() throws ServletException { _pwd = Vfs.lookup(); String serverAddress = getInitParameter("server-address"); if (serverAddress != null) addAddress(serverAddress); _loadBalancer = _loadBalanceBuilder.create(); }
private Class generateProxy() { try { JavaClassLoader jLoader = new JavaClassLoader(_cl.getClassLoader()); JavaClass jClass = new JavaClass(jLoader); jClass.setAccessFlags(Modifier.PUBLIC); ConstantPool cp = jClass.getConstantPool(); jClass.setWrite(true); jClass.setMajor(49); jClass.setMinor(0); String superClassName = _cl.getName().replace('.', '/'); String thisClassName = superClassName + "$BeanProxy"; jClass.setSuperClass(superClassName); jClass.setThisClass(thisClassName); jClass.addInterface("java/io/Serializable"); jClass.addInterface("com/caucho/config/inject/HandleAware"); generateConstructors(jClass, superClassName); generateWriteReplace(jClass); generateSetHandle(jClass); ByteArrayOutputStream bos = new ByteArrayOutputStream(); WriteStream out = Vfs.openWrite(bos); jClass.write(out); out.close(); byte[] buffer = bos.toByteArray(); if (false) { String userName = System.getProperty("user.name"); out = Vfs.lookup("file:/tmp/" + userName + "/qa/temp.class").openWrite(); out.write(buffer, 0, buffer.length); out.close(); } String cleanName = thisClassName.replace('/', '.'); _proxyClass = (Class<X>) new ProxyClassLoader().loadClass(cleanName, buffer); } catch (RuntimeException e) { throw e; } catch (Exception e) { throw new RuntimeException(e); } return _proxyClass; }
/** Compile a schema. */ public Schema compileSchema(String url) throws SAXException, IOException { Path path = Vfs.lookup(url); ReadStream is = path.openRead(); try { InputSource source = new InputSource(is); source.setSystemId(url); return compileSchema(source); } finally { is.close(); } }
public String toString() { XmlConfigContext env = XmlConfigContext.getCurrent(); if (env != null) { String file = env.getBaseUri(); if (file != null) { String dir = Vfs.lookup(file).getParent().getURL(); return Vfs.decode(dir); } else return null; } else throw new IllegalStateException(L.l("__DIR__ is only available during configuration")); }
private void initDriverList() { try { Thread thread = Thread.currentThread(); ClassLoader loader = thread.getContextClassLoader(); Enumeration iter = loader.getResources("META-INF/services/java.sql.Driver"); while (iter.hasMoreElements()) { URL url = (URL) iter.nextElement(); ReadStream is = null; try { is = Vfs.lookup(url.toString()).openRead(); String filename; while ((filename = is.readLine()) != null) { int p = filename.indexOf('#'); if (p >= 0) filename = filename.substring(0, p); filename = filename.trim(); if (filename.length() == 0) continue; try { Class cl = Class.forName(filename, false, loader); Driver driver = null; if (Driver.class.isAssignableFrom(cl)) driver = (Driver) cl.newInstance(); if (driver != null) { log.fine(L.l("DatabaseManager adding driver '{0}'", driver.getClass().getName())); _driverList.add(driver); } } catch (Exception e) { log.log(Level.FINE, e.toString(), e); } } } catch (Exception e) { log.log(Level.FINE, e.toString(), e); } finally { if (is != null) is.close(); } } } catch (Exception e) { log.log(Level.FINE, e.toString(), e); } }
public void init() throws ConfigException { if (_id == null) throw new ConfigException(L.l("`{0}' is required", "id")); if (_location == null) throw new ConfigException(L.l("`{0}' is required", "location")); if (_name == null) _name = _location.toString(); if (_indexString == null) _indexString = "index-all.html"; _locationPath = Vfs.lookup(_location); int split = _indexString.indexOf('#'); if (split > -1) { CharBuffer before = new CharBuffer(_indexString.substring(0, split)); CharBuffer after = new CharBuffer(_indexString.substring(split + 1)); CharBuffer index = CharBuffer.allocate(); boolean isIndex = false; for (int i = 1; i <= 27; i++) { index.append(before); index.append(i); index.append(after); Path indexPath = _locationPath.lookup(index.toString()); if (indexPath.exists()) { isIndex = true; _index.add(indexPath); } index.clear(); } if (!isIndex) { throw new ConfigException(L.l("`{0}' not found", _locationPath.lookup(_indexString))); } } else _index.add(_locationPath.lookup(_indexString)); if (_locationPath.getScheme().equals("file")) { _isLocal = true; Path pwd = Vfs.getPwd(); if (!_locationPath.getPath().startsWith(pwd.getPath())) _isLocalAbsolute = true; } }
public static Path lookupPath(String string, ELContext env, Path pwd) throws ELException { if (env == null) env = Config.getEnvironment(); string = rewritePathString(string); Expr expr = new ELParser(env, string).parse(); Object obj = expr.evalObject(env); if (obj == null) throw new NullPointerException(L.l("Path '{0}' evaluated to null.", string)); if (obj instanceof Path) return (Path) obj; String value = Expr.toString(obj, env); if (pwd != null) return pwd.lookup(value); else return Vfs.lookup(value); }
/** * Loads a stylesheet from a named file * * @param systemId the URL of the file */ public StylesheetImpl newStylesheet(String systemId) throws Exception { StylesheetImpl stylesheet = loadPrecompiledStylesheet(systemId, systemId); if (stylesheet != null) return stylesheet; synchronized (AbstractStylesheetFactory.class) { stylesheet = loadPrecompiledStylesheet(systemId, systemId); if (stylesheet != null) return stylesheet; ReadStream is; if (_stylePath != null) is = _stylePath.lookup(systemId).openRead(); else is = Vfs.lookup(systemId).openRead(); try { return newStylesheet(is); } finally { if (is != null) is.close(); } } }
/** Create a ReadStream from a string. utf-8 is used as the encoding */ public static ReadStream openRead(String path) throws IOException { return Vfs.lookup(path).openRead(); }
/** Returns the enhanced .class or null if no enhancement. */ public byte[] transform( ClassLoader loader, String className, Class<?> oldClass, ProtectionDomain domain, byte[] buffer) { if (isClassMatch(className)) { try { ClassLoader tempLoader = ((DynamicClassLoader) loader).getNewTempClassLoader(); DynamicClassLoader workLoader = SimpleLoader.create(tempLoader, getPostWorkPath()); workLoader.setServletHack(true); boolean isModified = true; Thread thread = Thread.currentThread(); ClassLoader oldLoader = thread.getContextClassLoader(); try { Class<?> cl = Class.forName(className.replace('/', '.'), false, workLoader); thread.setContextClassLoader(tempLoader); Method init = cl.getMethod("_caucho_init", new Class[] {Path.class}); Method modified = cl.getMethod("_caucho_is_modified", new Class[0]); init.invoke(null, Vfs.lookup()); isModified = (Boolean) modified.invoke(null); } catch (Exception e) { log.log(Level.FINEST, e.toString(), e); } catch (Throwable e) { log.log(Level.FINER, e.toString(), e); } finally { thread.setContextClassLoader(oldLoader); } if (!isModified) { try { return load(className); } catch (Exception e) { log.log(Level.FINER, e.toString(), e); } } ByteCodeParser parser = new ByteCodeParser(); parser.setClassLoader(_jClassLoader); ByteArrayInputStream is; is = new ByteArrayInputStream(buffer, 0, buffer.length); JavaClass jClass = parser.parse(is); return enhance(jClass); } catch (RuntimeException e) { throw e; } catch (Exception e) { throw new EnhancerRuntimeException(e); } } return null; }
/** Abstract class for a log that rolls over based on size or period. */ public class AbstractRolloverLog implements Closeable { private static final L10N L = new L10N(AbstractRolloverLog.class); private static final Logger log = Logger.getLogger(AbstractRolloverLog.class.getName()); // Milliseconds in an hour private static final long HOUR = 3600L * 1000L; // Milliseconds in a day private static final long DAY = 24L * 3600L * 1000L; // Default maximum log size = 2G private static final long DEFAULT_ROLLOVER_SIZE = Bytes.INFINITE; // How often to check size private static final long DEFAULT_ROLLOVER_CHECK_PERIOD = 600L * 1000L; private static final long ROLLOVER_OVERFLOW_MAX = 64 * 1024 * 1024; // prefix for the rollover private String _rolloverPrefix; // template for the archived files private String _archiveFormat; // .gz or .zip private String _archiveSuffix = ""; // Cron description of the rollover private CronType _rolloverCron; // How often the logs are rolled over. private long _rolloverPeriod = Period.INFINITE; // Maximum size of the log. private long _rolloverSize = DEFAULT_ROLLOVER_SIZE; // How often the rolloverSize should be checked private long _rolloverCheckPeriod = DEFAULT_ROLLOVER_CHECK_PERIOD; // How many archives are allowed. private int _rolloverCount; private Path _pwd = Vfs.lookup(); private Path _path; protected String _pathFormat; // private String _format; private volatile boolean _isInit; // The time of the next period-based rollover private long _nextPeriodEnd = -1; private final AtomicLong _nextRolloverCheckTime = new AtomicLong(); // private long _lastTime; private final RolloverWorker _rolloverWorker = new RolloverWorker(); private final FlushWorker _flushWorker = new FlushWorker(); private final Object _logLock = new Object(); private volatile boolean _isRollingOver; private TempStreamApi _tempStream; private long _tempStreamSize; private WriteStream _os; private WriteStream _zipOut; private volatile boolean _isClosed; private final RolloverAlarm _rolloverListener; private WeakAlarm _rolloverAlarm; protected AbstractRolloverLog() { _rolloverListener = new RolloverAlarm(); _rolloverAlarm = new WeakAlarm(_rolloverListener); Environment.addCloseListener(this); } /** Returns the access-log's path. */ public Path getPath() { return _path; } /** Sets the access-log's path. */ public void setPath(Path path) { _path = path; } /** Returns the pwd for the rollover log */ public Path getPwd() { return _pwd; } /** Returns the formatted path */ public String getPathFormat() { return _pathFormat; } /** Sets the formatted path. */ public void setPathFormat(String pathFormat) throws ConfigException { _pathFormat = pathFormat; if (pathFormat.endsWith(".zip")) { throw new ConfigException(L.l(".zip extension to path-format is not supported.")); } } /** Sets the archive name format */ public void setArchiveFormat(String format) { if (format.endsWith(".gz")) { _archiveFormat = format.substring(0, format.length() - ".gz".length()); _archiveSuffix = ".gz"; } else if (format.endsWith(".zip")) { _archiveFormat = format.substring(0, format.length() - ".zip".length()); _archiveSuffix = ".zip"; } else { _archiveFormat = format; _archiveSuffix = ""; } } /** Sets the archive name format */ public String getArchiveFormat() { if (_archiveFormat == null) return _rolloverPrefix + ".%Y%m%d.%H%M"; else return _archiveFormat; } /** Sets the log rollover cron specification */ public void setRolloverCron(CronType cron) { _rolloverCron = cron; } /** * Sets the log rollover period, rounded up to the nearest hour. * * @param period the new rollover period in milliseconds. */ public void setRolloverPeriod(Period period) { _rolloverPeriod = period.getPeriod(); if (_rolloverPeriod > 0) { _rolloverPeriod += 3600000L - 1; _rolloverPeriod -= _rolloverPeriod % 3600000L; } else _rolloverPeriod = Period.INFINITE; } /** * Sets the log rollover period, rounded up to the nearest hour. * * @return the new period in milliseconds. */ public long getRolloverPeriod() { return _rolloverPeriod; } /** * Sets the log rollover size, rounded up to the megabyte. * * @param bytes maximum size of the log file */ public void setRolloverSize(Bytes bytes) { setRolloverSizeBytes(bytes.getBytes()); } public void setRolloverSizeBytes(long size) { if (size < 0) _rolloverSize = Bytes.INFINITE; else _rolloverSize = size; } /** * Sets the log rollover size, rounded up to the megabyte. * * @return maximum size of the log file */ public long getRolloverSize() { return _rolloverSize; } /** * Sets how often the log rollover will be checked. * * @param period how often the log rollover will be checked. */ public void setRolloverCheckPeriod(long period) { if (period > 1000) _rolloverCheckPeriod = period; else if (period > 0) _rolloverCheckPeriod = 1000; if (DAY < _rolloverCheckPeriod) { log.info(this + " rollover-check-period " + _rolloverCheckPeriod + "ms is longer than 24h"); _rolloverCheckPeriod = DAY; } } /** * Sets how often the log rollover will be checked. * * @return how often the log rollover will be checked. */ public long getRolloverCheckPeriod() { return _rolloverCheckPeriod; } /** Sets the max rollover files. */ public void setRolloverCount(int count) { _rolloverCount = count; } public void setLastTime(long lastTime) { // _lastTime = lastTime; } protected boolean isClosed() { return _isClosed; } /** Initialize the log. */ public void init() throws IOException { long now = CurrentTime.getExactTime(); // server/0263 // _nextRolloverCheckTime = now + _rolloverCheckPeriod; Path path = getPath(); if (path != null) { path.getParent().mkdirs(); _rolloverPrefix = path.getTail(); long lastModified = path.getLastModified(); if (lastModified <= 0 || now < lastModified) { lastModified = now; } // _calendar.setGMTTime(lastModified); _nextPeriodEnd = nextRolloverTime(lastModified); } else { _nextPeriodEnd = nextRolloverTime(now); } if (_archiveFormat != null || getRolloverPeriod() <= 0) { } else if (_rolloverCron != null) _archiveFormat = _rolloverPrefix + ".%Y%m%d.%H"; else if (getRolloverPeriod() % DAY == 0) _archiveFormat = _rolloverPrefix + ".%Y%m%d"; else if (getRolloverPeriod() % HOUR == 0) _archiveFormat = _rolloverPrefix + ".%Y%m%d.%H"; else _archiveFormat = _rolloverPrefix + ".%Y%m%d.%H%M"; _isInit = true; _rolloverListener.requeue(_rolloverAlarm); rollover(); } public boolean rollover() { long now = CurrentTime.getCurrentTime(); if (_nextPeriodEnd <= now || _nextRolloverCheckTime.get() <= now) { _nextRolloverCheckTime.set(now + _rolloverCheckPeriod); _rolloverWorker.wake(); return true; } else return false; } /** Writes to the underlying log. */ protected void write(byte[] buffer, int offset, int length) throws IOException { /* String s = new String(buffer, offset, length); if (s.startsWith("127")) { System.out.println("WRITE: " + s); Thread.dumpStack(); } */ synchronized (_logLock) { if (_isRollingOver && getTempStreamMax() < _tempStreamSize) { try { _logLock.wait(); } catch (Exception e) { } } if (!_isRollingOver) { if (_os == null) openLog(); if (_os != null) _os.write(buffer, offset, length); } else { if (_tempStream == null) { _tempStream = createTempStream(); _tempStreamSize = 0; } _tempStreamSize += length; _tempStream.write(buffer, offset, length, false); } } } protected TempStreamApi createTempStream() { return new TempStream(); } protected long getTempStreamMax() { return ROLLOVER_OVERFLOW_MAX; } /** Writes to the underlying log. */ protected void flush() throws IOException { _flushWorker.wake(); } protected void flushStream() throws IOException { synchronized (_logLock) { if (_os != null) _os.flush(); if (_zipOut != null) _zipOut.flush(); } } /** Called from rollover worker */ private void rolloverLogTask() { try { if (_isInit) flush(); } catch (Exception e) { log.log(Level.WARNING, e.toString(), e); } _isRollingOver = true; try { if (!_isInit) return; Path savedPath = null; long now = CurrentTime.getCurrentTime(); long lastPeriodEnd = _nextPeriodEnd; _nextPeriodEnd = nextRolloverTime(now); Path path = getPath(); synchronized (_logLock) { flushTempStream(); if (lastPeriodEnd <= now && lastPeriodEnd > 0) { closeLogStream(); savedPath = getSavedPath(lastPeriodEnd - 1); } else if (path != null && getRolloverSize() <= path.getLength()) { closeLogStream(); savedPath = getSavedPath(now); } } // archiving of path is outside of the synchronized block to // avoid freezing during archive if (savedPath != null) { movePathToArchive(savedPath); } } finally { synchronized (_logLock) { _isRollingOver = false; flushTempStream(); } _rolloverListener.requeue(_rolloverAlarm); } } private Path getSavedPath(long time) { if (getPathFormat() == null) return getArchivePath(time); else return null; } /** Tries to open the log. Called from inside _logLock */ private void openLog() { closeLogStream(); WriteStream os = _os; _os = null; IoUtil.close(os); Path path = getPath(); if (path == null) { path = getPath(CurrentTime.getCurrentTime()); } Path parent = path.getParent(); try { if (!parent.isDirectory()) { if (!parent.mkdirs()) { /* XXX: logWarning(L.l("Can't create log directory {0}.\n", parent)); */ } } } catch (Exception e) { logWarning(L.l("Can't create log directory {0}.\n Exception={1}", parent, e), e); } Exception exn = null; for (int i = 0; i < 3 && _os == null; i++) { try { _os = path.openAppend(); } catch (IOException e) { exn = e; } } String pathName = path.getPath(); try { if (pathName.endsWith(".gz")) { _zipOut = _os; _os = Vfs.openWrite(new GZIPOutputStream(_zipOut)); } else if (pathName.endsWith(".zip")) { throw new ConfigException("Can't support .zip in path-format"); } } catch (Exception e) { if (exn == null) exn = e; } if (exn != null) logWarning( L.l( "Can't create log for {0}.\n User={1} Exception={2}", path, System.getProperty("user.name"), exn), exn); } private void movePathToArchive(Path savedPath) { if (savedPath == null) return; synchronized (_logLock) { closeLogStream(); } Path path = getPath(); String savedName = savedPath.getTail(); try { if (!savedPath.getParent().isDirectory()) savedPath.getParent().mkdirs(); } catch (Exception e) { logWarning(L.l("Can't open archive directory {0}", savedPath.getParent()), e); } try { if (path.exists()) { WriteStream os = null; OutputStream out = null; // *.gz and *.zip are copied. Others are just renamed if (savedName.endsWith(".gz")) { os = savedPath.openWrite(); out = new GZIPOutputStream(os); } else if (savedName.endsWith(".zip")) { os = savedPath.openWrite(); ZipOutputStream zip = new ZipOutputStream(os); String entryName = savedName.substring(0, savedName.length() - 4); ZipEntry entry = new ZipEntry(entryName); zip.putNextEntry(entry); out = zip; } if (out != null) { try { path.writeToStream(out); } finally { try { out.close(); } catch (Exception e) { // can't log in log rotation routines } try { if (out != os) os.close(); } catch (Exception e) { // can't log in log rotation routines } } } else { path.renameTo(savedPath); } } } catch (Exception e) { logWarning(L.l("Error rotating logs: {0}", e.toString()), e); } try { path.remove(); /* try { if (! path.truncate()) path.remove(); } catch (IOException e) { path.remove(); throw e; } */ } catch (Exception e) { logWarning(L.l("Error truncating logs"), e); } if (_rolloverCount > 0) removeOldLogs(); } /** Removes logs passing the rollover count. */ private void removeOldLogs() { try { Path path = getPath(); Path parent = path.getParent(); String[] list = parent.list(); ArrayList<String> matchList = new ArrayList<String>(); Pattern archiveRegexp = getArchiveRegexp(); for (int i = 0; i < list.length; i++) { Matcher matcher = archiveRegexp.matcher(list[i]); if (matcher.matches()) matchList.add(list[i]); } Collections.sort(matchList); if (_rolloverCount <= 0 || matchList.size() < _rolloverCount) return; for (int i = 0; i + _rolloverCount < matchList.size(); i++) { try { parent.lookup(matchList.get(i)).remove(); } catch (Throwable e) { } } } catch (Throwable e) { } } private Pattern getArchiveRegexp() { StringBuilder sb = new StringBuilder(); String archiveFormat = getArchiveFormat(); for (int i = 0; i < archiveFormat.length(); i++) { char ch = archiveFormat.charAt(i); switch (ch) { case '.': case '\\': case '*': case '?': case '+': case '(': case ')': case '{': case '}': case '|': sb.append("\\"); sb.append(ch); break; case '%': sb.append(".+"); i++; break; default: sb.append(ch); break; } } return Pattern.compile(sb.toString()); } /** * Returns the path of the format file * * @param time the archive date */ protected Path getPath(long time) { String formatString = getPathFormat(); if (formatString == null) throw new IllegalStateException(L.l("getPath requires a format path")); String pathString = getFormatName(formatString, time); return getPwd().lookup(pathString); } /** * Returns the name of the archived file * * @param time the archive date */ protected Path getArchivePath(long time) { Path path = getPath(); String archiveFormat = getArchiveFormat(); String name = getFormatName(archiveFormat + _archiveSuffix, time); Path newPath = path.getParent().lookup(name); if (newPath.exists()) { if (archiveFormat.indexOf("%H") < 0) archiveFormat = archiveFormat + ".%H%M"; else if (archiveFormat.indexOf("%M") < 0) archiveFormat = archiveFormat + ".%M"; for (int i = 0; i < 100; i++) { String suffix; if (i == 0) suffix = _archiveSuffix; else suffix = "." + i + _archiveSuffix; name = getFormatName(archiveFormat + suffix, time); newPath = path.getParent().lookup(name); if (!newPath.exists()) break; } } return newPath; } /** * Returns the name of the archived file * * @param time the archive date */ protected String getFormatName(String format, long time) { if (time <= 0) time = CurrentTime.getCurrentTime(); if (format != null) return QDate.formatLocal(time, format); else if (_rolloverCron != null) return _rolloverPrefix + "." + QDate.formatLocal(time, "%Y%m%d.%H"); else if (getRolloverPeriod() % (24 * 3600 * 1000L) == 0) return _rolloverPrefix + "." + QDate.formatLocal(time, "%Y%m%d"); else return _rolloverPrefix + "." + QDate.formatLocal(time, "%Y%m%d.%H"); } /** error messages from the log itself */ private void logWarning(String msg, Throwable e) { EnvironmentStream.logStderr(msg, e); } private long nextRolloverTime(long time) { if (_rolloverCron != null) return _rolloverCron.nextTime(time); else return Period.periodEnd(time, getRolloverPeriod()); } /** Closes the log, flushing the results. */ public void close() throws IOException { _isClosed = true; _rolloverWorker.wake(); _rolloverWorker.close(); synchronized (_logLock) { closeLogStream(); } Alarm alarm = _rolloverAlarm; _rolloverAlarm = null; if (alarm != null) alarm.dequeue(); } /** Tries to close the log. */ private void closeLogStream() { try { WriteStream os = _os; _os = null; if (os != null) os.close(); } catch (Throwable e) { // can't log in log routines } try { WriteStream zipOut = _zipOut; _zipOut = null; if (zipOut != null) zipOut.close(); } catch (Throwable e) { // can't log in log routines } } /** Called from inside _logLock */ private void flushTempStream() { TempStreamApi ts = _tempStream; _tempStream = null; _tempStreamSize = 0; try { if (ts != null) { if (_os == null) openLog(); try { ReadStream is = ts.openRead(); try { is.writeToStream(_os); } finally { is.close(); } } catch (IOException e) { e.printStackTrace(); } finally { ts.destroy(); } } } finally { _logLock.notifyAll(); } } @Override public String toString() { Path path = _path; if (path != null) return getClass().getSimpleName() + "[" + path.getTail() + "]"; else return getClass().getSimpleName() + "[" + path + "]"; } class RolloverWorker extends AbstractTaskWorker { @Override public long runTask() { rolloverLogTask(); return -1; } } class FlushWorker extends AbstractTaskWorker { @Override public long runTask() { try { flushStream(); } catch (IOException e) { log.log(Level.FINER, e.toString(), e); } return -1; } } class RolloverAlarm implements AlarmListener { @Override public void handleAlarm(Alarm alarm) { if (isClosed()) return; try { _rolloverWorker.wake(); } finally { alarm.queue(_rolloverCheckPeriod); } } void requeue(Alarm alarm) { if (isClosed() || alarm == null) return; long now = CurrentTime.getCurrentTime(); long nextCheckTime; if (getRolloverSize() <= 0 || _rolloverCheckPeriod <= 0) nextCheckTime = now + DAY; else nextCheckTime = now + _rolloverCheckPeriod; if (_nextPeriodEnd <= nextCheckTime) { alarm.queueAt(_nextPeriodEnd); } else { alarm.queueAt(nextCheckTime); } } } }
public static Path lookupPath(String string, ELContext env) throws ELException { return lookupPath(string, env, Vfs.lookup()); }
public static Path lookupPath(String string) throws ELException { return lookupPath(string, Config.getEnvironment(), Vfs.lookup()); }