/* * Copyright 2001-2004 The Apache Software Foundation. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* * $Id: EnvironmentCheck.java,v 1.26 2004/02/26 04:00:47 zongaro Exp $ */ package com.sun.org.apache.xalan.internal.xslt; import java.io.File; import java.io.FileWriter; import java.io.PrintWriter; import java.lang.reflect.Field; import java.lang.reflect.Method; import java.util.Enumeration; import java.util.Hashtable; import java.util.StringTokenizer; import java.util.Vector; import org.w3c.dom.Document; import org.w3c.dom.Element; import org.w3c.dom.Node; /** * Utility class to report simple information about the environment. * Simplistic reporting about certain classes found in your JVM may * help answer some FAQs for simple problems. * *
Usage-command line:
*
* java com.sun.org.apache.xalan.internal.xslt.EnvironmentCheck [-out outFile]
*
Usage-from program:
*
* boolean environmentOK =
* (new EnvironmentCheck()).checkEnvironment(yourPrintWriter);
*
Usage-from stylesheet:
*
* <?xml version="1.0"?>
* <xsl:stylesheet xmlns:xsl="http://www.w3.org/1999/XSL/Transform" version="1.0"
* xmlns:xalan="http://xml.apache.org/xalan"
* exclude-result-prefixes="xalan">
* <xsl:output indent="yes"/>
* <xsl:template match="/">
* <xsl:copy-of select="xalan:checkEnvironment()"/>
* </xsl:template>
* </xsl:stylesheet>
*
Xalan users reporting problems are encouraged to use this class * to see if there are potential problems with their actual * Java environment before reporting a bug. Note that you * should both check from the JVM/JRE's command line as well as * temporarily calling checkEnvironment() directly from your code, * since the classpath may differ (especially for servlets, etc).
* *Also see http://xml.apache.org/xalan-j/faq.html
* *Note: This class is pretty simplistic: * results are not necessarily definitive nor will it find all * problems related to environment setup. Also, you should avoid * calling this in deployed production code, both because it is * quite slow and because it forces classes to get loaded.
* *Note: This class explicitly has very limited compile-time * dependencies to enable easy compilation and usage even when * Xalan, DOM/SAX/JAXP, etc. are not present.
* *Note: for an improved version of this utility, please see * the xml-commons' project Which utility which does the same kind * of thing but in a much simpler manner.
* * @author Shane_Curcuru@us.ibm.com * @version $Id: EnvironmentCheck.java,v 1.26 2004/02/26 04:00:47 zongaro Exp $ */ public class EnvironmentCheck { /** * Command line runnability: checks for [-out outFilename] arg. *Command line entrypoint; Sets output and calls * {@link #checkEnvironment(PrintWriter)}.
* @param args command line args */ public static void _main(String[] args) { // Default to System.out, autoflushing PrintWriter sendOutputTo = new PrintWriter(System.out, true); // Read our simplistic input args, if supplied for (int i = 0; i < args.length; i++) { if ("-out".equalsIgnoreCase(args[i])) { i++; if (i < args.length) { try { sendOutputTo = new PrintWriter(new FileWriter(args[i], true)); } catch (Exception e) { System.err.println("# WARNING: -out " + args[i] + " threw " + e.toString()); } } else { System.err.println( "# WARNING: -out argument should have a filename, output sent to console"); } } } EnvironmentCheck app = new EnvironmentCheck(); app.checkEnvironment(sendOutputTo); } /** * Programmatic entrypoint: Report on basic Java environment * and CLASSPATH settings that affect Xalan. * *Note that this class is not advanced enough to tell you * everything about the environment that affects Xalan, and * sometimes reports errors that will not actually affect * Xalan's behavior. Currently, it very simplistically * checks the JVM's environment for some basic properties and * logs them out; it will report a problem if it finds a setting * or .jar file that is likely to cause problems.
* *Advanced users can peruse the code herein to help them * investigate potential environment problems found; other users * may simply send the output from this tool along with any bugs * they submit to help us in the debugging process.
* * @param pw PrintWriter to send output to; can be sent to a * file that will look similar to a Properties file; defaults * to System.out if null * @return true if your environment appears to have no major * problems; false if potential environment problems found * @see #getEnvironmentHash() */ public boolean checkEnvironment(PrintWriter pw) { // Use user-specified output writer if non-null if (null != pw) outWriter = pw; // Setup a hash to store various environment information in Hashtable hash = getEnvironmentHash(); // Check for ERROR keys in the hashtable, and print report boolean environmentHasErrors = writeEnvironmentReport(hash); if (environmentHasErrors) { // Note: many logMsg calls have # at the start to // fake a property-file like output logMsg("# WARNING: Potential problems found in your environment!"); logMsg("# Check any 'ERROR' items above against the Xalan FAQs"); logMsg("# to correct potential problems with your classes/jars"); logMsg("# http://xml.apache.org/xalan-j/faq.html"); if (null != outWriter) outWriter.flush(); return false; } else { logMsg("# YAHOO! Your environment seems to be OK."); if (null != outWriter) outWriter.flush(); return true; } } /** * Fill a hash with basic environment settings that affect Xalan. * *Worker method called from various places.
*Various system and CLASSPATH, etc. properties are put into * the hash as keys with a brief description of the current state * of that item as the value. Any serious problems will be put in * with a key that is prefixed with {@link #ERROR 'ERROR.'} so it * stands out in any resulting report; also a key with just that * constant will be set as well for any error.
*Note that some legitimate cases are flaged as potential * errors - namely when a developer recompiles xalan.jar on their * own - and even a non-error state doesn't guaruntee that * everything in the environment is correct. But this will help * point out the most common classpath and system property * problems that we've seen.
* * @return Hashtable full of useful environment info about Xalan * and related system properties, etc. */ public Hashtable getEnvironmentHash() { // Setup a hash to store various environment information in Hashtable hash = new Hashtable(); // Call various worker methods to fill in the hash // These are explicitly separate for maintenance and so // advanced users could call them standalone checkJAXPVersion(hash); checkProcessorVersion(hash); checkParserVersion(hash); checkAntVersion(hash); checkDOMVersion(hash); checkSAXVersion(hash); checkSystemProperties(hash); return hash; } /** * Dump a basic Xalan environment report to outWriter. * *This dumps a simple header and then each of the entries in * the Hashtable to our PrintWriter; it does special processing * for entries that are .jars found in the classpath.
* * @param h Hashtable of items to report on; presumably * filled in by our various check*() methods * @return true if your environment appears to have no major * problems; false if potential environment problems found * @see #appendEnvironmentReport(Node, Document, Hashtable) * for an equivalent that appends to a Node instead */ protected boolean writeEnvironmentReport(Hashtable h) { if (null == h) { logMsg("# ERROR: writeEnvironmentReport called with null Hashtable"); return false; } boolean errors = false; logMsg( "#---- BEGIN writeEnvironmentReport($Revision: 1.26 $): Useful stuff found: ----"); // Fake the Properties-like output for (Enumeration keys = h.keys(); keys.hasMoreElements(); /* no increment portion */ ) { Object key = keys.nextElement(); String keyStr = (String) key; try { // Special processing for classes found.. if (keyStr.startsWith(FOUNDCLASSES)) { Vector v = (Vector) h.get(keyStr); errors |= logFoundJars(v, keyStr); } // ..normal processing for all other entries else { // Note: we could just check for the ERROR key by itself, // since we now set that, but since we have to go // through the whole hash anyway, do it this way, // which is safer for maintenance if (keyStr.startsWith(ERROR)) { errors = true; } logMsg(keyStr + "=" + h.get(keyStr)); } } catch (Exception e) { logMsg("Reading-" + key + "= threw: " + e.toString()); } } logMsg( "#----- END writeEnvironmentReport: Useful properties found: -----"); return errors; } /** Prefixed to hash keys that signify serious problems. */ public static final String ERROR = "ERROR."; /** Added to descriptions that signify potential problems. */ public static final String WARNING = "WARNING."; /** Value for any error found. */ public static final String ERROR_FOUND = "At least one error was found!"; /** Prefixed to hash keys that signify version numbers. */ public static final String VERSION = "version."; /** Prefixed to hash keys that signify .jars found in classpath. */ public static final String FOUNDCLASSES = "foundclasses."; /** Marker that a class or .jar was found. */ public static final String CLASS_PRESENT = "present-unknown-version"; /** Marker that a class or .jar was not found. */ public static final String CLASS_NOTPRESENT = "not-present"; /** Listing of common .jar files that include Xalan-related classes. */ public String[] jarNames = { "xalan.jar", "xalansamples.jar", "xalanj1compat.jar", "xalanservlet.jar", "xerces.jar", // Xerces-J 1.x "xercesImpl.jar", // Xerces-J 2.x "testxsl.jar", "crimson.jar", "lotusxsl.jar", "jaxp.jar", "parser.jar", "dom.jar", "sax.jar", "xml.jar", "xml-apis.jar", "xsltc.jar" }; /** * Print out report of .jars found in a classpath. * * Takes the information encoded from a checkPathForJars() * call and dumps it out to our PrintWriter. * * @param v Vector of Hashtables of .jar file info * @param desc description to print out in header * * @return false if OK, true if any .jars were reported * as having errors * @see #checkPathForJars(String, String[]) */ protected boolean logFoundJars(Vector v, String desc) { if ((null == v) || (v.size() < 1)) return false; boolean errors = false; logMsg("#---- BEGIN Listing XML-related jars in: " + desc + " ----"); for (int i = 0; i < v.size(); i++) { Hashtable subhash = (Hashtable) v.elementAt(i); for (Enumeration keys = subhash.keys(); keys.hasMoreElements(); /* no increment portion */ ) { Object key = keys.nextElement(); String keyStr = (String) key; try { if (keyStr.startsWith(ERROR)) { errors = true; } logMsg(keyStr + "=" + subhash.get(keyStr)); } catch (Exception e) { errors = true; logMsg("Reading-" + key + "= threw: " + e.toString()); } } } logMsg("#----- END Listing XML-related jars in: " + desc + " -----"); return errors; } /** * Stylesheet extension entrypoint: Dump a basic Xalan * environment report from getEnvironmentHash() to a Node. * *Copy of writeEnvironmentReport that creates a Node suitable * for other processing instead of a properties-like text output. *
* @param container Node to append our report to * @param factory Document providing createElement, etc. services * @param h Hash presumably from {@link #getEnvironmentHash()} * @see #writeEnvironmentReport(Hashtable) * for an equivalent that writes to a PrintWriter instead */ public void appendEnvironmentReport(Node container, Document factory, Hashtable h) { if ((null == container) || (null == factory)) { return; } try { Element envCheckNode = factory.createElement("EnvironmentCheck"); envCheckNode.setAttribute("version", "$Revision: 1.26 $"); container.appendChild(envCheckNode); if (null == h) { Element statusNode = factory.createElement("status"); statusNode.setAttribute("result", "ERROR"); statusNode.appendChild(factory.createTextNode("appendEnvironmentReport called with null Hashtable!")); envCheckNode.appendChild(statusNode); return; } boolean errors = false; Element hashNode = factory.createElement("environment"); envCheckNode.appendChild(hashNode); for (Enumeration keys = h.keys(); keys.hasMoreElements(); /* no increment portion */ ) { Object key = keys.nextElement(); String keyStr = (String) key; try { // Special processing for classes found.. if (keyStr.startsWith(FOUNDCLASSES)) { Vector v = (Vector) h.get(keyStr); // errors |= logFoundJars(v, keyStr); errors |= appendFoundJars(hashNode, factory, v, keyStr); } // ..normal processing for all other entries else { // Note: we could just check for the ERROR key by itself, // since we now set that, but since we have to go // through the whole hash anyway, do it this way, // which is safer for maintenance if (keyStr.startsWith(ERROR)) { errors = true; } Element node = factory.createElement("item"); node.setAttribute("key", keyStr); node.appendChild(factory.createTextNode((String)h.get(keyStr))); hashNode.appendChild(node); } } catch (Exception e) { errors = true; Element node = factory.createElement("item"); node.setAttribute("key", keyStr); node.appendChild(factory.createTextNode(ERROR + " Reading " + key + " threw: " + e.toString())); hashNode.appendChild(node); } } // end of for... Element statusNode = factory.createElement("status"); statusNode.setAttribute("result", (errors ? "ERROR" : "OK" )); envCheckNode.appendChild(statusNode); } catch (Exception e2) { System.err.println("appendEnvironmentReport threw: " + e2.toString()); e2.printStackTrace(); } } /** * Print out report of .jars found in a classpath. * * Takes the information encoded from a checkPathForJars() * call and dumps it out to our PrintWriter. * * @param container Node to append our report to * @param factory Document providing createElement, etc. services * @param v Vector of Hashtables of .jar file info * @param desc description to print out in header * * @return false if OK, true if any .jars were reported * as having errors * @see #checkPathForJars(String, String[]) */ protected boolean appendFoundJars(Node container, Document factory, Vector v, String desc) { if ((null == v) || (v.size() < 1)) return false; boolean errors = false; for (int i = 0; i < v.size(); i++) { Hashtable subhash = (Hashtable) v.elementAt(i); for (Enumeration keys = subhash.keys(); keys.hasMoreElements(); /* no increment portion */ ) { Object key = keys.nextElement(); try { String keyStr = (String) key; if (keyStr.startsWith(ERROR)) { errors = true; } Element node = factory.createElement("foundJar"); node.setAttribute("name", keyStr.substring(0, keyStr.indexOf("-"))); node.setAttribute("desc", keyStr.substring(keyStr.indexOf("-") + 1)); node.appendChild(factory.createTextNode((String)subhash.get(keyStr))); container.appendChild(node); } catch (Exception e) { errors = true; Element node = factory.createElement("foundJar"); node.appendChild(factory.createTextNode(ERROR + " Reading " + key + " threw: " + e.toString())); container.appendChild(node); } } } return errors; } /** * Fillin hash with info about SystemProperties. * * Logs java.class.path and other likely paths; then attempts * to search those paths for .jar files with Xalan-related classes. * * //@todo NOTE: We don't actually search java.ext.dirs for * // *.jar files therein! This should be updated * * @param h Hashtable to put information in * @see #jarNames * @see #checkPathForJars(String, String[]) */ protected void checkSystemProperties(Hashtable h) { if (null == h) h = new Hashtable(); // Grab java version for later use try { String javaVersion = System.getProperty("java.version"); h.put("java.version", javaVersion); } catch (SecurityException se) { // For applet context, etc. h.put( "java.version", "WARNING: SecurityException thrown accessing system version properties"); } // Printout jar files on classpath(s) that may affect operation // Do this in order try { // This is present in all JVM's String cp = System.getProperty("java.class.path"); h.put("java.class.path", cp); Vector classpathJars = checkPathForJars(cp, jarNames); if (null != classpathJars) h.put(FOUNDCLASSES + "java.class.path", classpathJars); // Also check for JDK 1.2+ type classpaths String othercp = System.getProperty("sun.boot.class.path"); if (null != othercp) { h.put("sun.boot.class.path", othercp); classpathJars = checkPathForJars(othercp, jarNames); if (null != classpathJars) h.put(FOUNDCLASSES + "sun.boot.class.path", classpathJars); } //@todo NOTE: We don't actually search java.ext.dirs for // *.jar files therein! This should be updated othercp = System.getProperty("java.ext.dirs"); if (null != othercp) { h.put("java.ext.dirs", othercp); classpathJars = checkPathForJars(othercp, jarNames); if (null != classpathJars) h.put(FOUNDCLASSES + "java.ext.dirs", classpathJars); } //@todo also check other System properties' paths? // v2 = checkPathForJars(System.getProperty("sun.boot.library.path"), jarNames); // ?? may not be needed // v3 = checkPathForJars(System.getProperty("java.library.path"), jarNames); // ?? may not be needed } catch (SecurityException se2) { // For applet context, etc. h.put( "java.class.path", "WARNING: SecurityException thrown accessing system classpath properties"); } } /** * Cheap-o listing of specified .jars found in the classpath. * * cp should be separated by the usual File.pathSeparator. We * then do a simplistic search of the path for any requested * .jar filenames, and return a listing of their names and * where (apparently) they came from. * * @param cp classpath to search * @param jars array of .jar base filenames to look for * * @return Vector of Hashtables filled with info about found .jars * @see #jarNames * @see #logFoundJars(Vector, String) * @see #appendFoundJars(Node, Document, Vector, String ) * @see #getApparentVersion(String, long) */ protected Vector checkPathForJars(String cp, String[] jars) { if ((null == cp) || (null == jars) || (0 == cp.length()) || (0 == jars.length)) return null; Vector v = new Vector(); StringTokenizer st = new StringTokenizer(cp, File.pathSeparator); while (st.hasMoreTokens()) { // Look at each classpath entry for each of our requested jarNames String filename = st.nextToken(); for (int i = 0; i < jars.length; i++) { if (filename.indexOf(jars[i]) > -1) { File f = new File(filename); if (f.exists()) { // If any requested jarName exists, report on // the details of that .jar file try { Hashtable h = new Hashtable(2); // Note "-" char is looked for in appendFoundJars h.put(jars[i] + "-path", f.getAbsolutePath()); // We won't bother reporting on the xalan.jar apparent version // since this requires knowing the jar size of the xalan.jar // before we build it. // For other jars, eg. xml-apis.jar and xercesImpl.jar, we // report the apparent version of the file we've found if (!("xalan.jar".equalsIgnoreCase(jars[i]))) { h.put(jars[i] + "-apparent.version", getApparentVersion(jars[i], f.length())); } v.addElement(h); } catch (Exception e) { /* no-op, don't add it */ } } else { Hashtable h = new Hashtable(2); // Note "-" char is looked for in appendFoundJars h.put(jars[i] + "-path", WARNING + " Classpath entry: " + filename + " does not exist"); h.put(jars[i] + "-apparent.version", CLASS_NOTPRESENT); v.addElement(h); } } } } return v; } /** * Cheap-o method to determine the product version of a .jar. * * Currently does a lookup into a local table of some recent * shipped Xalan builds to determine where the .jar probably * came from. Note that if you recompile Xalan or Xerces * yourself this will likely report a potential error, since * we can't certify builds other than the ones we ship. * Only reports against selected posted Xalan-J builds. * * //@todo actually look up version info in manifests * * @param jarName base filename of the .jarfile * @param jarSize size of the .jarfile * * @return String describing where the .jar file probably * came from */ protected String getApparentVersion(String jarName, long jarSize) { // If we found a matching size and it's for our // jar, then return it's description // Lookup in static jarVersions Hashtable String foundSize = (String) jarVersions.get(new Long(jarSize)); if ((null != foundSize) && (foundSize.startsWith(jarName))) { return foundSize; } else { if ("xerces.jar".equalsIgnoreCase(jarName) || "xercesImpl.jar".equalsIgnoreCase(jarName)) // || "xalan.jar".equalsIgnoreCase(jarName)) { // For xalan.jar and xerces.jar/xercesImpl.jar, which we ship together: // The jar is not from a shipped copy of xalan-j, so // it's up to the user to ensure that it's compatible return jarName + " " + WARNING + CLASS_PRESENT; } else { // Otherwise, it's just a jar we don't have the version info calculated for return jarName + " " + CLASS_PRESENT; } } } /** * Report version information about JAXP interfaces. * * Currently distinguishes between JAXP 1.0.1 and JAXP 1.1, * and not found; only tests the interfaces, and does not * check for reference implementation versions. * * @param h Hashtable to put information in */ protected void checkJAXPVersion(Hashtable h) { if (null == h) h = new Hashtable(); final Class noArgs[] = new Class[0]; Class clazz = null; try { final String JAXP1_CLASS = "javax.xml.parsers.DocumentBuilder"; final String JAXP11_METHOD = "getDOMImplementation"; clazz = ObjectFactory.findProviderClass( JAXP1_CLASS, ObjectFactory.findClassLoader(), true); Method method = clazz.getMethod(JAXP11_METHOD, noArgs); // If we succeeded, we at least have JAXP 1.1 available h.put(VERSION + "JAXP", "1.1 or higher"); } catch (Exception e) { if (null != clazz) { // We must have found the class itself, just not the // method, so we (probably) have JAXP 1.0.1 h.put(ERROR + VERSION + "JAXP", "1.0.1"); h.put(ERROR, ERROR_FOUND); } else { // We couldn't even find the class, and don't have // any JAXP support at all, or only have the // transform half of it h.put(ERROR + VERSION + "JAXP", CLASS_NOTPRESENT); h.put(ERROR, ERROR_FOUND); } } } /** * Report product version information from Xalan-J. * * Looks for version info in xalan.jar from Xalan-J products. * * @param h Hashtable to put information in */ protected void checkProcessorVersion(Hashtable h) { if (null == h) h = new Hashtable(); try { final String XALAN1_VERSION_CLASS = "com.sun.org.apache.xalan.internal.xslt.XSLProcessorVersion"; Class clazz = ObjectFactory.findProviderClass( XALAN1_VERSION_CLASS, ObjectFactory.findClassLoader(), true); // Found Xalan-J 1.x, grab it's version fields StringBuffer buf = new StringBuffer(); Field f = clazz.getField("PRODUCT"); buf.append(f.get(null)); buf.append(';'); f = clazz.getField("LANGUAGE"); buf.append(f.get(null)); buf.append(';'); f = clazz.getField("S_VERSION"); buf.append(f.get(null)); buf.append(';'); h.put(VERSION + "xalan1", buf.toString()); } catch (Exception e1) { h.put(VERSION + "xalan1", CLASS_NOTPRESENT); } try { // NOTE: This is the old Xalan 2.0, 2.1, 2.2 version class, // is being replaced by class below final String XALAN2_VERSION_CLASS = "com.sun.org.apache.xalan.internal.processor.XSLProcessorVersion"; Class clazz = ObjectFactory.findProviderClass( XALAN2_VERSION_CLASS, ObjectFactory.findClassLoader(), true); // Found Xalan-J 2.x, grab it's version fields StringBuffer buf = new StringBuffer(); Field f = clazz.getField("S_VERSION"); buf.append(f.get(null)); h.put(VERSION + "xalan2x", buf.toString()); } catch (Exception e2) { h.put(VERSION + "xalan2x", CLASS_NOTPRESENT); } try { // NOTE: This is the new Xalan 2.2+ version class final String XALAN2_2_VERSION_CLASS = "com.sun.org.apache.xalan.internal.Version"; final String XALAN2_2_VERSION_METHOD = "getVersion"; final Class noArgs[] = new Class[0]; Class clazz = ObjectFactory.findProviderClass( XALAN2_2_VERSION_CLASS, ObjectFactory.findClassLoader(), true); Method method = clazz.getMethod(XALAN2_2_VERSION_METHOD, noArgs); Object returnValue = method.invoke(null, new Object[0]); h.put(VERSION + "xalan2_2", (String)returnValue); } catch (Exception e2) { h.put(VERSION + "xalan2_2", CLASS_NOTPRESENT); } } /** * Report product version information from common parsers. * * Looks for version info in xerces.jar/xercesImpl.jar/crimson.jar. * * //@todo actually look up version info in crimson manifest * * @param h Hashtable to put information in */ protected void checkParserVersion(Hashtable h) { if (null == h) h = new Hashtable(); try { final String XERCES1_VERSION_CLASS = "com.sun.org.apache.xerces.internal.framework.Version"; Class clazz = ObjectFactory.findProviderClass( XERCES1_VERSION_CLASS, ObjectFactory.findClassLoader(), true); // Found Xerces-J 1.x, grab it's version fields Field f = clazz.getField("fVersion"); String parserVersion = (String) f.get(null); h.put(VERSION + "xerces1", parserVersion); } catch (Exception e) { h.put(VERSION + "xerces1", CLASS_NOTPRESENT); } // Look for xerces1 and xerces2 parsers separately try { final String XERCES2_VERSION_CLASS = "com.sun.org.apache.xerces.internal.impl.Version"; Class clazz = ObjectFactory.findProviderClass( XERCES2_VERSION_CLASS, ObjectFactory.findClassLoader(), true); // Found Xerces-J 2.x, grab it's version fields Field f = clazz.getField("fVersion"); String parserVersion = (String) f.get(null); h.put(VERSION + "xerces2", parserVersion); } catch (Exception e) { h.put(VERSION + "xerces2", CLASS_NOTPRESENT); } try { final String CRIMSON_CLASS = "org.apache.crimson.parser.Parser2"; Class clazz = ObjectFactory.findProviderClass( CRIMSON_CLASS, ObjectFactory.findClassLoader(), true); //@todo determine specific crimson version h.put(VERSION + "crimson", CLASS_PRESENT); } catch (Exception e) { h.put(VERSION + "crimson", CLASS_NOTPRESENT); } } /** * Report product version information from Ant. * * @param h Hashtable to put information in */ protected void checkAntVersion(Hashtable h) { if (null == h) h = new Hashtable(); try { final String ANT_VERSION_CLASS = "org.apache.tools.ant.Main"; final String ANT_VERSION_METHOD = "getAntVersion"; // noArgs final Class noArgs[] = new Class[0]; Class clazz = ObjectFactory.findProviderClass( ANT_VERSION_CLASS, ObjectFactory.findClassLoader(), true); Method method = clazz.getMethod(ANT_VERSION_METHOD, noArgs); Object returnValue = method.invoke(null, new Object[0]); h.put(VERSION + "ant", (String)returnValue); } catch (Exception e) { h.put(VERSION + "ant", CLASS_NOTPRESENT); } } /** * Report version info from DOM interfaces. * * Currently distinguishes between pre-DOM level 2, the DOM * level 2 working draft, the DOM level 2 final draft, * and not found. * * @param h Hashtable to put information in */ protected void checkDOMVersion(Hashtable h) { if (null == h) h = new Hashtable(); final String DOM_LEVEL2_CLASS = "org.w3c.dom.Document"; final String DOM_LEVEL2_METHOD = "createElementNS"; // String, String final String DOM_LEVEL2WD_CLASS = "org.w3c.dom.Node"; final String DOM_LEVEL2WD_METHOD = "supported"; // String, String final String DOM_LEVEL2FD_CLASS = "org.w3c.dom.Node"; final String DOM_LEVEL2FD_METHOD = "isSupported"; // String, String final Class twoStringArgs[] = { java.lang.String.class, java.lang.String.class }; try { Class clazz = ObjectFactory.findProviderClass( DOM_LEVEL2_CLASS, ObjectFactory.findClassLoader(), true); Method method = clazz.getMethod(DOM_LEVEL2_METHOD, twoStringArgs); // If we succeeded, we have loaded interfaces from a // level 2 DOM somewhere h.put(VERSION + "DOM", "2.0"); try { // Check for the working draft version, which is // commonly found, but won't work anymore clazz = ObjectFactory.findProviderClass( DOM_LEVEL2WD_CLASS, ObjectFactory.findClassLoader(), true); method = clazz.getMethod(DOM_LEVEL2WD_METHOD, twoStringArgs); h.put(ERROR + VERSION + "DOM.draftlevel", "2.0wd"); h.put(ERROR, ERROR_FOUND); } catch (Exception e2) { try { // Check for the final draft version as well clazz = ObjectFactory.findProviderClass( DOM_LEVEL2FD_CLASS, ObjectFactory.findClassLoader(), true); method = clazz.getMethod(DOM_LEVEL2FD_METHOD, twoStringArgs); h.put(VERSION + "DOM.draftlevel", "2.0fd"); } catch (Exception e3) { h.put(ERROR + VERSION + "DOM.draftlevel", "2.0unknown"); h.put(ERROR, ERROR_FOUND); } } } catch (Exception e) { h.put(ERROR + VERSION + "DOM", "ERROR attempting to load DOM level 2 class: " + e.toString()); h.put(ERROR, ERROR_FOUND); } //@todo load an actual DOM implmementation and query it as well //@todo load an actual DOM implmementation and check if // isNamespaceAware() == true, which is needed to parse // xsl stylesheet files into a DOM } /** * Report version info from SAX interfaces. * * Currently distinguishes between SAX 2, SAX 2.0beta2, * SAX1, and not found. * * @param h Hashtable to put information in */ protected void checkSAXVersion(Hashtable h) { if (null == h) h = new Hashtable(); final String SAX_VERSION1_CLASS = "org.xml.sax.Parser"; final String SAX_VERSION1_METHOD = "parse"; // String final String SAX_VERSION2_CLASS = "org.xml.sax.XMLReader"; final String SAX_VERSION2_METHOD = "parse"; // String final String SAX_VERSION2BETA_CLASSNF = "org.xml.sax.helpers.AttributesImpl"; final String SAX_VERSION2BETA_METHODNF = "setAttributes"; // Attributes final Class oneStringArg[] = { java.lang.String.class }; // Note this introduces a minor compile dependency on SAX... final Class attributesArg[] = { org.xml.sax.Attributes.class }; try { // This method was only added in the final SAX 2.0 release; // see changes.html "Changes from SAX 2.0beta2 to SAX 2.0prerelease" Class clazz = ObjectFactory.findProviderClass( SAX_VERSION2BETA_CLASSNF, ObjectFactory.findClassLoader(), true); Method method = clazz.getMethod(SAX_VERSION2BETA_METHODNF, attributesArg); // If we succeeded, we have loaded interfaces from a // real, final SAX version 2.0 somewhere h.put(VERSION + "SAX", "2.0"); } catch (Exception e) { // If we didn't find the SAX 2.0 class, look for a 2.0beta2 h.put(ERROR + VERSION + "SAX", "ERROR attempting to load SAX version 2 class: " + e.toString()); h.put(ERROR, ERROR_FOUND); try { Class clazz = ObjectFactory.findProviderClass( SAX_VERSION2_CLASS, ObjectFactory.findClassLoader(), true); Method method = clazz.getMethod(SAX_VERSION2_METHOD, oneStringArg); // If we succeeded, we have loaded interfaces from a // SAX version 2.0beta2 or earlier; these might work but // you should really have the final SAX 2.0 h.put(VERSION + "SAX-backlevel", "2.0beta2-or-earlier"); } catch (Exception e2) { // If we didn't find the SAX 2.0beta2 class, look for a 1.0 one h.put(ERROR + VERSION + "SAX", "ERROR attempting to load SAX version 2 class: " + e.toString()); h.put(ERROR, ERROR_FOUND); try { Class clazz = ObjectFactory.findProviderClass( SAX_VERSION1_CLASS, ObjectFactory.findClassLoader(), true); Method method = clazz.getMethod(SAX_VERSION1_METHOD, oneStringArg); // If we succeeded, we have loaded interfaces from a // SAX version 1.0 somewhere; which won't work very // well for JAXP 1.1 or beyond! h.put(VERSION + "SAX-backlevel", "1.0"); } catch (Exception e3) { // If we didn't find the SAX 2.0 class, look for a 1.0 one // Note that either 1.0 or no SAX are both errors h.put(ERROR + VERSION + "SAX-backlevel", "ERROR attempting to load SAX version 1 class: " + e3.toString()); } } } } /** * Manual table of known .jar sizes. * Only includes shipped versions of certain projects. * key=jarsize, value=jarname ' from ' distro name * Note assumption: two jars cannot have the same size! * * @see #getApparentVersion(String, long) */ protected static Hashtable jarVersions = new Hashtable(); /** * Static initializer for jarVersions table. * Doing this just once saves time and space. * * @see #getApparentVersion(String, long) */ static { // Note: hackish Hashtable, this could use improvement jarVersions.put(new Long(857192), "xalan.jar from xalan-j_1_1"); jarVersions.put(new Long(440237), "xalan.jar from xalan-j_1_2"); jarVersions.put(new Long(436094), "xalan.jar from xalan-j_1_2_1"); jarVersions.put(new Long(426249), "xalan.jar from xalan-j_1_2_2"); jarVersions.put(new Long(702536), "xalan.jar from xalan-j_2_0_0"); jarVersions.put(new Long(720930), "xalan.jar from xalan-j_2_0_1"); jarVersions.put(new Long(732330), "xalan.jar from xalan-j_2_1_0"); jarVersions.put(new Long(872241), "xalan.jar from xalan-j_2_2_D10"); jarVersions.put(new Long(882739), "xalan.jar from xalan-j_2_2_D11"); jarVersions.put(new Long(923866), "xalan.jar from xalan-j_2_2_0"); jarVersions.put(new Long(905872), "xalan.jar from xalan-j_2_3_D1"); jarVersions.put(new Long(906122), "xalan.jar from xalan-j_2_3_0"); jarVersions.put(new Long(906248), "xalan.jar from xalan-j_2_3_1"); jarVersions.put(new Long(983377), "xalan.jar from xalan-j_2_4_D1"); jarVersions.put(new Long(997276), "xalan.jar from xalan-j_2_4_0"); jarVersions.put(new Long(1031036), "xalan.jar from xalan-j_2_4_1"); // Stop recording xalan.jar sizes as of Xalan Java 2.5.0 jarVersions.put(new Long(596540), "xsltc.jar from xalan-j_2_2_0"); jarVersions.put(new Long(590247), "xsltc.jar from xalan-j_2_3_D1"); jarVersions.put(new Long(589914), "xsltc.jar from xalan-j_2_3_0"); jarVersions.put(new Long(589915), "xsltc.jar from xalan-j_2_3_1"); jarVersions.put(new Long(1306667), "xsltc.jar from xalan-j_2_4_D1"); jarVersions.put(new Long(1328227), "xsltc.jar from xalan-j_2_4_0"); jarVersions.put(new Long(1344009), "xsltc.jar from xalan-j_2_4_1"); jarVersions.put(new Long(1348361), "xsltc.jar from xalan-j_2_5_D1"); // Stop recording xsltc.jar sizes as of Xalan Java 2.5.0 jarVersions.put(new Long(1268634), "xsltc.jar-bundled from xalan-j_2_3_0"); jarVersions.put(new Long(100196), "xml-apis.jar from xalan-j_2_2_0 or xalan-j_2_3_D1"); jarVersions.put(new Long(108484), "xml-apis.jar from xalan-j_2_3_0, or xalan-j_2_3_1 from xml-commons-1.0.b2"); jarVersions.put(new Long(109049), "xml-apis.jar from xalan-j_2_4_0 from xml-commons RIVERCOURT1 branch"); jarVersions.put(new Long(113749), "xml-apis.jar from xalan-j_2_4_1 from factoryfinder-build of xml-commons RIVERCOURT1"); jarVersions.put(new Long(124704), "xml-apis.jar from tck-jaxp-1_2_0 branch of xml-commons"); jarVersions.put(new Long(124724), "xml-apis.jar from tck-jaxp-1_2_0 branch of xml-commons, tag: xml-commons-external_1_2_01"); // If the below were more common I would update it to report // errors better; but this is so old hardly anyone has it jarVersions.put(new Long(424490), "xalan.jar from Xerces Tools releases - ERROR:DO NOT USE!"); jarVersions.put(new Long(1591855), "xerces.jar from xalan-j_1_1 from xerces-1..."); jarVersions.put(new Long(1498679), "xerces.jar from xalan-j_1_2 from xerces-1_2_0.bin"); jarVersions.put(new Long(1484896), "xerces.jar from xalan-j_1_2_1 from xerces-1_2_1.bin"); jarVersions.put(new Long(804460), "xerces.jar from xalan-j_1_2_2 from xerces-1_2_2.bin"); jarVersions.put(new Long(1499244), "xerces.jar from xalan-j_2_0_0 from xerces-1_2_3.bin"); jarVersions.put(new Long(1605266), "xerces.jar from xalan-j_2_0_1 from xerces-1_3_0.bin"); jarVersions.put(new Long(904030), "xerces.jar from xalan-j_2_1_0 from xerces-1_4.bin"); jarVersions.put(new Long(904030), "xerces.jar from xerces-1_4_0.bin"); jarVersions.put(new Long(1802885), "xerces.jar from xerces-1_4_2.bin"); jarVersions.put(new Long(1734594), "xerces.jar from Xerces-J-bin.2.0.0.beta3"); jarVersions.put(new Long(1808883), "xerces.jar from xalan-j_2_2_D10,D11,D12 or xerces-1_4_3.bin"); jarVersions.put(new Long(1812019), "xerces.jar from xalan-j_2_2_0"); jarVersions.put(new Long(1720292), "xercesImpl.jar from xalan-j_2_3_D1"); jarVersions.put(new Long(1730053), "xercesImpl.jar from xalan-j_2_3_0 or xalan-j_2_3_1 from xerces-2_0_0"); jarVersions.put(new Long(1728861), "xercesImpl.jar from xalan-j_2_4_D1 from xerces-2_0_1"); jarVersions.put(new Long(972027), "xercesImpl.jar from xalan-j_2_4_0 from xerces-2_1"); jarVersions.put(new Long(831587), "xercesImpl.jar from xalan-j_2_4_1 from xerces-2_2"); jarVersions.put(new Long(891817), "xercesImpl.jar from xalan-j_2_5_D1 from xerces-2_3"); jarVersions.put(new Long(895924), "xercesImpl.jar from xerces-2_4"); jarVersions.put(new Long(1010806), "xercesImpl.jar from Xerces-J-bin.2.6.2"); jarVersions.put(new Long(37485), "xalanj1compat.jar from xalan-j_2_0_0"); jarVersions.put(new Long(38100), "xalanj1compat.jar from xalan-j_2_0_1"); jarVersions.put(new Long(18779), "xalanservlet.jar from xalan-j_2_0_0"); jarVersions.put(new Long(21453), "xalanservlet.jar from xalan-j_2_0_1"); jarVersions.put(new Long(24826), "xalanservlet.jar from xalan-j_2_3_1 or xalan-j_2_4_1"); jarVersions.put(new Long(24831), "xalanservlet.jar from xalan-j_2_4_1"); // Stop recording xalanservlet.jar sizes as of Xalan Java 2.5.0; now a .war file // For those who've downloaded JAXP from sun jarVersions.put(new Long(5618), "jaxp.jar from jaxp1.0.1"); jarVersions.put(new Long(136133), "parser.jar from jaxp1.0.1"); jarVersions.put(new Long(28404), "jaxp.jar from jaxp-1.1"); jarVersions.put(new Long(187162), "crimson.jar from jaxp-1.1"); jarVersions.put(new Long(801714), "xalan.jar from jaxp-1.1"); jarVersions.put(new Long(196399), "crimson.jar from crimson-1.1.1"); jarVersions.put(new Long(33323), "jaxp.jar from crimson-1.1.1 or jakarta-ant-1.4.1b1"); jarVersions.put(new Long(152717), "crimson.jar from crimson-1.1.2beta2"); jarVersions.put(new Long(88143), "xml-apis.jar from crimson-1.1.2beta2"); jarVersions.put(new Long(206384), "crimson.jar from crimson-1.1.3 or jakarta-ant-1.4.1b1"); // jakarta-ant: since many people use ant these days jarVersions.put(new Long(136198), "parser.jar from jakarta-ant-1.3 or 1.2"); jarVersions.put(new Long(5537), "jaxp.jar from jakarta-ant-1.3 or 1.2"); } /** Simple PrintWriter we send output to; defaults to System.out. */ protected PrintWriter outWriter = new PrintWriter(System.out, true); /** * Bottleneck output: calls outWriter.println(s). * @param s String to print */ protected void logMsg(String s) { outWriter.println(s); } }