protected void initialise() { // ConfigurationChecker.migrateConfig(); //removed 2201 ConfigurationChecker.checkConfiguration(); ConfigurationChecker.setSystemProperties(); loadExportedParameters(); AEDiagnostics.addEvidenceGenerator(this); }
/** Debug-assisting class. */ public class Debug { private static AEDiagnosticsLogger diag_logger = AEDiagnostics.getLogger("debug"); private static boolean STOP_AT_INITIALIZER = System.getProperty("debug.stacktrace.full", "0").equals("0"); static { diag_logger.setForced(true); } /** * Prints out the given debug message to System.out, prefixed by the calling class name, method * and line number. */ public static void out(final String _debug_message) { out(_debug_message, null); } /** * Prints out the given exception stacktrace to System.out, prefixed by the calling class name, * method and line number. */ public static void out(final Throwable _exception) { out("", _exception); } public static void outNoStack(String str) { outNoStack(str, false); } public static void outNoStack(String str, boolean stderr) { diagLoggerLogAndOut( "DEBUG::" + new Date(SystemTime.getCurrentTime()).toString() + " " + str, stderr); } public static void outDiagLoggerOnly(String str) { diagLoggerLog(str); } /** * Prints out the given debug message to System.out, prefixed by the calling class name, method * and line number, appending the stacktrace of the given exception. */ public static void out(final String _debug_msg, final Throwable _exception) { String header = "DEBUG::"; header = header + new Date(SystemTime.getCurrentTime()).toString() + "::"; String className; String methodName; int lineNumber; String trace_trace_tail = null; try { throw new Exception(); } catch (Exception e) { StackTraceElement[] st = e.getStackTrace(); StackTraceElement first_line = st[2]; className = first_line.getClassName() + "::"; methodName = first_line.getMethodName() + "::"; lineNumber = first_line.getLineNumber(); trace_trace_tail = getCompressedStackTrace(e, 3, 200, false); } diagLoggerLogAndOut(header + className + (methodName) + lineNumber + ":", true); if (_debug_msg.length() > 0) { diagLoggerLogAndOut(" " + _debug_msg, true); } if (trace_trace_tail != null) { diagLoggerLogAndOut(" " + trace_trace_tail, true); } if (_exception != null) { diagLoggerLogAndOut(_exception); } } public static String getLastCaller() { return getLastCaller(0); } public static String getLastCaller(int numToGoBackFurther) { try { throw new Exception(); } catch (Exception e) { // [0] = our throw // [1] = the line that called getLastCaller // [2] = the line that called the function that has getLastCaller StackTraceElement st[] = e.getStackTrace(); if (st == null || st.length == 0) return "??"; if (st.length > 3 + numToGoBackFurther) return st[3 + numToGoBackFurther].toString(); return st[st.length - 1].toString(); } } public static void outStackTrace() { // skip the last, since they'll most likely be main diagLoggerLogAndOut(getStackTrace(1), false); } private static String getStackTrace(int endNumToSkip) { String sStackTrace = ""; try { throw new Exception(); } catch (Exception e) { StackTraceElement st[] = e.getStackTrace(); for (int i = 1; i < st.length - endNumToSkip; i++) { if (!st[i].getMethodName().endsWith("StackTrace")) sStackTrace += st[i].toString() + "\n"; } if (e.getCause() != null) sStackTrace += "\tCaused By: " + getStackTrace(e.getCause()) + "\n"; } return sStackTrace; } public static void killAWTThreads() { ThreadGroup threadGroup = Thread.currentThread().getThreadGroup(); killAWTThreads(threadGroup); } private static String getCompressedStackTrace(Throwable t, int frames_to_skip) { return getCompressedStackTrace(t, frames_to_skip, 200); } public static String getCompressedStackTrace(Throwable t, int frames_to_skip, int iMaxLines) { return getCompressedStackTrace(t, frames_to_skip, iMaxLines, true); } public static String getCompressedStackTrace( Throwable t, int frames_to_skip, int iMaxLines, boolean showErrString) { StringBuffer sbStackTrace = new StringBuffer(showErrString ? (t.toString() + "; ") : ""); StackTraceElement[] st = t.getStackTrace(); if (iMaxLines < 0) { iMaxLines = st.length + iMaxLines; if (iMaxLines < 0) { iMaxLines = 1; } } int iMax = Math.min(st.length, iMaxLines + frames_to_skip); for (int i = frames_to_skip; i < iMax; i++) { if (i > frames_to_skip) { sbStackTrace.append(", "); } String classname = st[i].getClassName(); String cnShort = classname.substring(classname.lastIndexOf(".") + 1); if (Constants.IS_CVS_VERSION) { if (STOP_AT_INITIALIZER && st[i].getClassName().equals("com.aelitis.azureus.ui.swt.Initializer")) { sbStackTrace.append("Initializer"); break; } // Formatted so it's clickable in eclipse sbStackTrace.append(st[i].getMethodName()); sbStackTrace.append(" ("); sbStackTrace.append(classname); sbStackTrace.append(".java:"); sbStackTrace.append(st[i].getLineNumber()); sbStackTrace.append(')'); } else { sbStackTrace.append("::"); sbStackTrace.append(st[i].getMethodName()); sbStackTrace.append("::"); sbStackTrace.append(st[i].getLineNumber()); } } Throwable cause = t.getCause(); if (cause != null) { sbStackTrace.append("\n\tCaused By: "); sbStackTrace.append(getCompressedStackTrace(cause, 0)); } return sbStackTrace.toString(); } public static String getStackTrace(boolean bCompressed, boolean bIncludeSelf) { return getStackTrace(bCompressed, bIncludeSelf, bIncludeSelf ? 0 : 1, 200); } public static String getStackTrace( boolean bCompressed, boolean bIncludeSelf, int iNumLinesToSkip, int iMaxLines) { if (bCompressed) return getCompressedStackTrace( bIncludeSelf ? 2 + iNumLinesToSkip : 3 + iNumLinesToSkip, iMaxLines); // bIncludeSelf not supported gor non Compressed yet return getStackTrace(1); } private static String getCompressedStackTrace(int frames_to_skip, int iMaxLines) { String trace_trace_tail = null; try { throw new Exception(); } catch (Exception e) { trace_trace_tail = getCompressedStackTrace(e, frames_to_skip, iMaxLines, false); } return (trace_trace_tail); } public static void killAWTThreads(ThreadGroup threadGroup) { Thread[] threadList = new Thread[threadGroup.activeCount()]; threadGroup.enumerate(threadList); for (int i = 0; i < threadList.length; i++) { Thread t = threadList[i]; if (t != null) { String name = t.getName(); if (name.startsWith("AWT")) { out("Interrupting thread '".concat(t.toString()).concat("'")); t.interrupt(); } } } if (threadGroup.getParent() != null) { killAWTThreads(threadGroup.getParent()); } } public static void dumpThreads(String name) { out(name + ":"); ThreadGroup threadGroup = Thread.currentThread().getThreadGroup(); dumpThreads(threadGroup, "\t"); } public static void dumpThreads(ThreadGroup threadGroup, String indent) { Thread[] threadList = new Thread[threadGroup.activeCount()]; threadGroup.enumerate(threadList); for (int i = 0; i < threadList.length; i++) { Thread t = threadList[i]; if (t != null) { out( indent .concat("active thread = ") .concat(t.toString()) .concat(", daemon = ") .concat(String.valueOf(t.isDaemon()))); } } if (threadGroup.getParent() != null) { dumpThreads(threadGroup.getParent(), indent + "\t"); } } public static void dumpThreadsLoop(final String name) { new AEThread("Thread Dumper") { public void runSupport() { while (true) { Debug.dumpThreads(name); try { Thread.sleep(5000); } catch (Throwable e) { Debug.printStackTrace(e); } } } }.start(); } public static void dumpSystemProperties() { out("System Properties:"); Properties props = System.getProperties(); Iterator it = props.keySet().iterator(); while (it.hasNext()) { String name = (String) it.next(); out("\t".concat(name).concat(" = '").concat(props.get(name).toString()).concat("'")); } } public static String getNestedExceptionMessage(Throwable e) { String last_message = ""; while (e != null) { String this_message; if (e instanceof UnknownHostException) { this_message = "Unknown host " + e.getMessage(); } else if (e instanceof FileNotFoundException) { this_message = "File not found: " + e.getMessage(); } else { this_message = e.getMessage(); } // if no exception message then pick up class name. if we have a deliberate // zero length string then we assume that the exception can be ignored for // logging purposes as it is just delegating if (this_message == null) { this_message = e.getClass().getName(); int pos = this_message.lastIndexOf("."); this_message = this_message.substring(pos + 1).trim(); } if (this_message.length() > 0 && last_message.indexOf(this_message) == -1) { last_message += (last_message.length() == 0 ? "" : ", ") + this_message; } e = e.getCause(); } return (last_message); } public static String getNestedExceptionMessageAndStack(Throwable e) { return (getNestedExceptionMessage(e) + ", " + getCompressedStackTrace(e, 0)); } public static String getCompressedStackTrace() { return (getCompressedStackTrace(new Throwable(), 1, 200, false)); } /** * @param iMaxLines Max # of stack lines. If < 0, chops off -MaxLines entries from end * @return */ public static String getCompressedStackTrace(int iMaxLines) { return (getCompressedStackTrace(new Throwable(), 1, iMaxLines, false)); } public static String getExceptionMessage(Throwable e) { String message = e.getMessage(); if (message == null || message.length() == 0) { message = e.getClass().getName(); int pos = message.lastIndexOf("."); message = message.substring(pos + 1); } else if (e instanceof ClassNotFoundException) { if (message.toLowerCase().indexOf("found") == -1) { message = "Class " + message + " not found"; } } return (message); } public static void printStackTrace(Throwable e) { printStackTrace(e, null); } public static void printStackTrace(Throwable e, Object context) { String header = "DEBUG::"; header = header + new Date(SystemTime.getCurrentTime()).toString() + "::"; String className = "?::"; String methodName = "?::"; int lineNumber = -1; try { throw new Exception(); } catch (Exception f) { StackTraceElement[] st = f.getStackTrace(); for (int i = 1; i < st.length; i++) { StackTraceElement first_line = st[i]; className = first_line.getClassName() + "::"; methodName = first_line.getMethodName() + "::"; lineNumber = first_line.getLineNumber(); // skip stuff generated by the logger if (className.indexOf(".logging.") != -1 || className.endsWith(".Debug::")) { continue; } break; } } diagLoggerLogAndOut(header + className + (methodName) + lineNumber + ":", true); try { ByteArrayOutputStream baos = new ByteArrayOutputStream(); PrintWriter pw = new PrintWriter(new OutputStreamWriter(baos)); if (context != null) { pw.print(" "); pw.println(context); } pw.print(" "); e.printStackTrace(pw); pw.close(); String stack = baos.toString(); diagLoggerLogAndOut(stack, true); } catch (Throwable ignore) { e.printStackTrace(); } } public static String getStackTrace(Throwable e) { try { ByteArrayOutputStream baos = new ByteArrayOutputStream(); PrintWriter pw = new PrintWriter(new OutputStreamWriter(baos)); e.printStackTrace(pw); pw.close(); return baos.toString(); } catch (Throwable ignore) { return ""; } } private static void diagLoggerLog(String str) { diag_logger.log(str); } private static void diagLoggerLogAndOut(String str, boolean stderr) { // handle possible recursive initialisation problems where the init of diag-logger gets // back here.... if (diag_logger == null) { if (stderr) { System.err.println(str); } else { System.out.println(str); } } else { diag_logger.logAndOut(str, stderr); } } private static void diagLoggerLogAndOut(Throwable e) { // handle possible recursive initialisation problems where the init of diag-logger gets // back here.... if (diag_logger == null) { e.printStackTrace(); } else { diag_logger.logAndOut(e); } } /** * @param key * @return */ public static String secretFileName(String key) { if (key == null) return ""; final String sep = File.separator; final String regex = "([\\" + sep + "]?[^\\" + sep + "]{0,3}+)[^\\" + sep + "]*"; String secretName = key.replaceAll(regex, "$1"); int iExtensionPos = key.lastIndexOf("."); if (iExtensionPos >= 0) secretName += key.substring(iExtensionPos); return secretName; } public static void main(String[] args) { System.out.println(secretFileName("c:\\temp\\hello there.txt")); System.out.println(secretFileName("hello there.txt")); } }