// Copyright (C) 2001-2003 Jon A. Maxwell (JAM) // Copyright (C) 2012 Red Hat, Inc. // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License, or (at your option) any later version. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. package net.sourceforge.jnlp; import static net.sourceforge.jnlp.runtime.Translator.R; import java.io.*; import java.net.*; import java.util.*; //import javax.xml.parsers.*; // commented to use right Node //import org.w3c.dom.*; // class for using Tiny XML | NanoXML //import org.xml.sax.*; //import gd.xml.tiny.*; import net.sourceforge.jnlp.UpdateDesc.Check; import net.sourceforge.jnlp.UpdateDesc.Policy; import net.sourceforge.jnlp.runtime.JNLPRuntime; import net.sourceforge.nanoxml.*; /** * Contains methods to parse an XML document into a JNLPFile. * Implements JNLP specification version 1.0. * * @author Jon A. Maxwell (JAM) - initial author * @version $Revision: 1.13 $ */ class Parser { // defines netx.jnlp.Node class if using Tiny XML or Nano XML // Currently uses the Nano XML parse. Search for "SAX" or // "TINY" or "NANO" and uncomment those blocks and comment the // active ones (if any) to switch XML parsers. Also // (un)comment appropriate Node class at end of this file and // do a clean build. /** * Ensure consistent error handling. */ /* SAX static ErrorHandler errorHandler = new ErrorHandler() { public void error(SAXParseException exception) throws SAXParseException { //throw exception; } public void fatalError(SAXParseException exception) throws SAXParseException { //throw exception; } public void warning(SAXParseException exception) { System.err.println("XML parse warning:"); exception.printStackTrace(); } }; */ // fix: some descriptors need to use the jnlp file at a later // date and having file ref lets us pass it to their // constructors // /** the file reference */ private JNLPFile file; // do not use (uninitialized) /** the root node */ private Node root; /** the specification version */ private Version spec; /** the base URL that all hrefs are relative to */ private URL base; /** the codebase URL */ private URL codebase; /** the file URL */ private URL fileLocation; /** whether to throw errors on non-fatal errors. */ private boolean strict; // if strict==true parses a file with no error then strict==false should also /** whether to allow extensions to the JNLP specification */ private boolean allowExtensions; // true if extensions to JNLP spec are ok /** * Create a parser for the JNLP file. If the location * parameters is not null it is used as the default codebase * (does not override value of jnlp element's href * attribute).

* * The root node may be normalized as a side effect of this * constructor. * * @param file the (uninitialized) file reference * @param base if codebase is not specified, a default base for relative URLs * @param root the root node * @param strict whether to enforce strict compliance with the JNLP spec * @param allowExtensions whether to allow extensions to the JNLP spec * @throws ParseException if the JNLP file is invalid */ public Parser(JNLPFile file, URL base, Node root, boolean strict, boolean allowExtensions) throws ParseException { this(file, base, root, strict, allowExtensions, null); } /** * Create a parser for the JNLP file. If the location * parameters is not null it is used as the default codebase * (does not override value of jnlp element's href * attribute).

* * The root node may be normalized as a side effect of this * constructor. * * @param file the (uninitialized) file reference * @param base if codebase is not specified, a default base for relative URLs * @param root the root node * @param strict whether to enforce strict compliance with the JNLP spec * @param allowExtensions whether to allow extensions to the JNLP spec * @param codebase codebase to use if we did not parse one from JNLP file. * @throws ParseException if the JNLP file is invalid */ public Parser(JNLPFile file, URL base, Node root, boolean strict, boolean allowExtensions, URL codebase) throws ParseException { this.file = file; this.root = root; this.strict = strict; this.allowExtensions = allowExtensions; // ensure it's a JNLP node if (root == null || !root.getNodeName().equals("jnlp")) throw new ParseException(R("PInvalidRoot")); // JNLP tag information this.spec = getVersion(root, "spec", "1.0+"); this.codebase = addSlash(getURL(root, "codebase", base)); if (this.codebase == null) // We only override it if it is not specified. this.codebase = codebase; this.base = (this.codebase != null) ? this.codebase : base; // if codebase not specified use default codebase fileLocation = getURL(root, "href", this.base); // normalize the text nodes root.normalize(); } /** * Returns the file version. */ public Version getFileVersion() { return getVersion(root, "version", null); } /** * Returns the file location. */ public URL getFileLocation() { return fileLocation; } /** * Returns the codebase. */ public URL getCodeBase() { return codebase; } /** * Returns the specification version. */ public Version getSpecVersion() { return spec; } public UpdateDesc getUpdate(Node parent) throws ParseException { UpdateDesc updateDesc = null; Node child = parent.getFirstChild(); while (child != null) { if (child.getNodeName().equals("update")) { if (strict && updateDesc != null) { throw new ParseException(R("PTwoUpdates")); } Node node = child; Check check; String checkValue = getAttribute(node, "check", "timeout"); if (checkValue.equals("always")) { check = Check.ALWAYS; } else if (checkValue.equals("timeout")) { check = Check.TIMEOUT; } else if (checkValue.equals("background")) { check = Check.BACKGROUND; } else { check = Check.TIMEOUT; } String policyString = getAttribute(node, "policy", "always"); Policy policy; if (policyString.equals("always")) { policy = Policy.ALWAYS; } else if (policyString.equals("prompt-update")) { policy = Policy.PROMPT_UPDATE; } else if (policyString.equals("prompt-run")) { policy = Policy.PROMPT_RUN; } else { policy = Policy.ALWAYS; } updateDesc = new UpdateDesc(check, policy); } child = child.getNextSibling(); } if (updateDesc == null) { updateDesc = new UpdateDesc(Check.TIMEOUT, Policy.ALWAYS); } return updateDesc; } // // This section loads the resources elements // /** * Returns all of the ResourcesDesc elements under the specified * node (jnlp or j2se). * * @param parent the parent node (either jnlp or j2se) * @param j2se true if the resources are located under a j2se or java node * @throws ParseException if the JNLP file is invalid */ public List getResources(Node parent, boolean j2se) throws ParseException { List result = new ArrayList(); Node resources[] = getChildNodes(parent, "resources"); // ensure that there are at least one information section present if (resources.length == 0 && !j2se) throw new ParseException(R("PNoResources")); // create objects from the resources sections for (int i = 0; i < resources.length; i++) result.add(getResourcesDesc(resources[i], j2se)); return result; } /** * Returns the ResourcesDesc element at the specified node. * * @param node the resources node * @param j2se true if the resources are located under a j2se or java node * @throws ParseException if the JNLP file is invalid */ public ResourcesDesc getResourcesDesc(Node node, boolean j2se) throws ParseException { boolean mainFlag = false; // if found a main tag // create resources ResourcesDesc resources = new ResourcesDesc(file, getLocales(node), splitString(getAttribute(node, "os", null)), splitString(getAttribute(node, "arch", null))); // step through the elements Node child = node.getFirstChild(); while (child != null) { String name = child.getNodeName(); // check for nativelib but no trusted environment if ("nativelib".equals(name)) if (!isTrustedEnvironment()) throw new ParseException(R("PUntrustedNative")); if ("j2se".equals(name) || "java".equals(name)) { if (getChildNode(root, "component-desc") != null) if (strict) throw new ParseException(R("PExtensionHasJ2SE")); if (!j2se) resources.addResource(getJRE(child)); else throw new ParseException(R("PInnerJ2SE")); } if ("jar".equals(name) || "nativelib".equals(name)) { JARDesc jar = getJAR(child); // check for duplicate main entries if (jar.isMain()) { if (mainFlag == true) if (strict) throw new ParseException(R("PTwoMains")); mainFlag = true; } resources.addResource(jar); } if ("extension".equals(name)) resources.addResource(getExtension(child)); if ("property".equals(name)) resources.addResource(getProperty(child)); if ("package".equals(name)) resources.addResource(getPackage(child)); child = child.getNextSibling(); } return resources; } /** * Returns the JRE element at the specified node. * * @param node the j2se/java node * @throws ParseException if the JNLP file is invalid */ public JREDesc getJRE(Node node) throws ParseException { Version version = getVersion(node, "version", null); URL location = getURL(node, "href", base); String vmArgs = getAttribute(node, "java-vm-args", null); try { checkVMArgs(vmArgs); } catch (IllegalArgumentException argumentException) { vmArgs = null; } String initialHeap = getAttribute(node, "initial-heap-size", null); String maxHeap = getAttribute(node, "max-heap-size", null); List resources = getResources(node, true); // require version attribute getRequiredAttribute(node, "version", null); return new JREDesc(version, location, vmArgs, initialHeap, maxHeap, resources); } /** * Returns the JAR element at the specified node. * * @param node the jar or nativelib node * @throws ParseException if the JNLP file is invalid */ public JARDesc getJAR(Node node) throws ParseException { boolean nativeJar = "nativelib".equals(node.getNodeName()); URL location = getRequiredURL(node, "href", base); Version version = getVersion(node, "version", null); String part = getAttribute(node, "part", null); boolean main = "true".equals(getAttribute(node, "main", "false")); boolean lazy = "lazy".equals(getAttribute(node, "download", "eager")); if (nativeJar && main) if (strict) throw new ParseException(R("PNativeHasMain")); return new JARDesc(location, version, part, lazy, main, nativeJar, true); } /** * Returns the Extension element at the specified node. * * @param node the extension node * @throws ParseException if the JNLP file is invalid */ public ExtensionDesc getExtension(Node node) throws ParseException { String name = getAttribute(node, "name", null); Version version = getVersion(node, "version", null); URL location = getRequiredURL(node, "href", base); ExtensionDesc ext = new ExtensionDesc(name, version, location); Node dload[] = getChildNodes(node, "ext-download"); for (int i = 0; i < dload.length; i++) { boolean lazy = "lazy".equals(getAttribute(dload[i], "download", "eager")); ext.addPart(getRequiredAttribute(dload[i], "ext-part", null), getAttribute(dload[i], "part", null), lazy); } return ext; } /** * Returns the Property element at the specified node. * * @param node the property node * @throws ParseException if the JNLP file is invalid */ public PropertyDesc getProperty(Node node) throws ParseException { String name = getRequiredAttribute(node, "name", null); String value = getRequiredAttribute(node, "value", ""); return new PropertyDesc(name, value); } /** * Returns the Package element at the specified node. * * @param node the package node * @throws ParseException if the JNLP file is invalid */ public PackageDesc getPackage(Node node) throws ParseException { String name = getRequiredAttribute(node, "name", null); String part = getRequiredAttribute(node, "part", ""); boolean recursive = getAttribute(node, "recursive", "false").equals("true"); return new PackageDesc(name, part, recursive); } // // This section loads the information elements // /** * Make sure a title and vendor are present and nonempty and localized as * best matching as possible for the JVM's current locale. Fallback to a * generalized title and vendor otherwise. If none is found, throw an exception. * * Additionally prints homepage, description, title and vendor to stdout * if in Debug mode. * @throws RequiredElementException */ void checkForInformation() throws RequiredElementException { if (JNLPRuntime.isDebug()) { System.out.println("Homepage: " + file.getInformation().getHomepage()); System.out.println("Description: " + file.getInformation().getDescription()); } String title = file.getTitle(); String vendor = file.getVendor(); if (title == null || title.trim().isEmpty()) throw new MissingTitleException(); else if (JNLPRuntime.isDebug()) System.out.println("Acceptable title tag found, contains: " + title); if (vendor == null || vendor.trim().isEmpty()) throw new MissingVendorException(); else if (JNLPRuntime.isDebug()) System.out.println("Acceptable vendor tag found, contains: " + vendor); } /** * Returns all of the information elements under the specified * node. * * @param parent the parent node (jnlp) * @throws ParseException if the JNLP file is invalid */ public List getInfo(Node parent) throws ParseException { List result = new ArrayList(); Node info[] = getChildNodes(parent, "information"); // ensure that there are at least one information section present if (info.length == 0) throw new MissingInformationException(); // create objects from the info sections for (Node infoNode : info) { result.add(getInformationDesc(infoNode)); } return result; } /** * Returns the information element at the specified node. * * @param node the information node * @throws ParseException if the JNLP file is invalid */ public InformationDesc getInformationDesc(Node node) throws ParseException { List descriptionsUsed = new ArrayList(); // locale Locale locales[] = getLocales(node); // create information InformationDesc info = new InformationDesc(file, locales); // step through the elements Node child = node.getFirstChild(); while (child != null) { String name = child.getNodeName(); if ("title".equals(name)) addInfo(info, child, null, getSpanText(child, false)); if ("vendor".equals(name)) addInfo(info, child, null, getSpanText(child, false)); if ("description".equals(name)) { String kind = getAttribute(child, "kind", "default"); if (descriptionsUsed.contains(kind)) if (strict) throw new ParseException(R("PTwoDescriptions", kind)); descriptionsUsed.add(kind); addInfo(info, child, kind, getSpanText(child, false)); } if ("homepage".equals(name)) addInfo(info, child, null, getRequiredURL(child, "href", base)); if ("icon".equals(name)) addInfo(info, child, getAttribute(child, "kind", "default"), getIcon(child)); if ("offline-allowed".equals(name)) addInfo(info, child, null, Boolean.TRUE); if ("sharing-allowed".equals(name)) { if (strict && !allowExtensions) throw new ParseException(R("PSharing")); addInfo(info, child, null, Boolean.TRUE); } if ("association".equals(name)) { addInfo(info, child, null, getAssociation(child)); } if ("shortcut".equals(name)) { addInfo(info, child, null, getShortcut(child)); } if ("related-content".equals(name)) { addInfo(info, child, null, getRelatedContent(child)); } child = child.getNextSibling(); } return info; } /** * Adds a key,value pair to the information object. * * @param info the information object * @param node node name to be used as the key * @param mod key name appended with "-"+mod if not null * @param value the info object to add (icon or string) */ protected void addInfo(InformationDesc info, Node node, String mod, Object value) { String modStr = (mod == null) ? "" : "-" + mod; if (node == null) return; info.addItem(node.getNodeName() + modStr, value); } /** * Returns the icon element at the specified node. * * @param node the icon node * @throws ParseException if the JNLP file is invalid */ public IconDesc getIcon(Node node) throws ParseException { int width = Integer.parseInt(getAttribute(node, "width", "-1")); int height = Integer.parseInt(getAttribute(node, "height", "-1")); int size = Integer.parseInt(getAttribute(node, "size", "-1")); int depth = Integer.parseInt(getAttribute(node, "depth", "-1")); URL location = getRequiredURL(node, "href", base); Object kind = getAttribute(node, "kind", "default"); return new IconDesc(location, kind, width, height, depth, size); } // // This section loads the security descriptor element // /** * Returns the security descriptor element. If no security * element was specified in the JNLP file then a SecurityDesc * with applet permissions is returned. * * @param parent the parent node * @throws ParseException if the JNLP file is invalid */ public SecurityDesc getSecurity(Node parent) throws ParseException { Node nodes[] = getChildNodes(parent, "security"); // test for too many security elements if (nodes.length > 1) if (strict) throw new ParseException(R("PTwoSecurity")); Object type = SecurityDesc.SANDBOX_PERMISSIONS; if (nodes.length == 0) type = SecurityDesc.SANDBOX_PERMISSIONS; else if (null != getChildNode(nodes[0], "all-permissions")) type = SecurityDesc.ALL_PERMISSIONS; else if (null != getChildNode(nodes[0], "j2ee-application-client-permissions")) type = SecurityDesc.J2EE_PERMISSIONS; else if (strict) throw new ParseException(R("PEmptySecurity")); if (base != null) return new SecurityDesc(file, type, base.getHost()); else return new SecurityDesc(file, type, null); } /** * Returns whether the JNLP file requests a trusted execution * environment. */ protected boolean isTrustedEnvironment() { Node security = getChildNode(root, "security"); if (security != null) if (getChildNode(security, "all-permissions") != null || getChildNode(security, "j2ee-application-client-permissions") != null) return true; return false; } // // This section loads the launch descriptor element // /** * Returns the launch descriptor element, either AppletDesc, * ApplicationDesc, or InstallerDesc. * * @param parent the parent node * @throws ParseException if the JNLP file is invalid */ public LaunchDesc getLauncher(Node parent) throws ParseException { // check for other than one application type if (1 < getChildNodes(parent, "applet-desc").length + getChildNodes(parent, "application-desc").length + getChildNodes(parent, "installer-desc").length) throw new ParseException(R("PTwoDescriptors")); Node child = parent.getFirstChild(); while (child != null) { String name = child.getNodeName(); if ("applet-desc".equals(name)) return getApplet(child); if ("application-desc".equals(name)) return getApplication(child); if ("installer-desc".equals(name)) return getInstaller(child); child = child.getNextSibling(); } // not reached return null; } /** * Returns the applet descriptor. * * @throws ParseException if the JNLP file is invalid */ public AppletDesc getApplet(Node node) throws ParseException { String name = getRequiredAttribute(node, "name", R("PUnknownApplet")); String main = getRequiredAttribute(node, "main-class", null); URL docbase = getURL(node, "documentbase", base); Map paramMap = new HashMap(); int width = 0; int height = 0; try { width = Integer.parseInt(getRequiredAttribute(node, "width", "100")); height = Integer.parseInt(getRequiredAttribute(node, "height", "100")); } catch (NumberFormatException nfe) { if (width <= 0) throw new ParseException(R("PBadWidth")); throw new ParseException(R("PBadWidth")); } // read params Node params[] = getChildNodes(node, "param"); for (int i = 0; i < params.length; i++) { paramMap.put(getRequiredAttribute(params[i], "name", null), getRequiredAttribute(params[i], "value", "")); } return new AppletDesc(name, main, docbase, width, height, paramMap); } /** * Returns the application descriptor. * * @throws ParseException if the JNLP file is invalid */ public ApplicationDesc getApplication(Node node) throws ParseException { String main = getAttribute(node, "main-class", null); List argsList = new ArrayList(); // if (main == null) // only ok if can be found in main jar file (can't check here but make a note) // read parameters Node args[] = getChildNodes(node, "argument"); for (int i = 0; i < args.length; i++) { //argsList.add( args[i].getNodeValue() ); //This approach was not finding the argument text argsList.add(getSpanText(args[i])); } String argStrings[] = argsList.toArray(new String[argsList.size()]); return new ApplicationDesc(main, argStrings); } /** * Returns the component descriptor. */ public ComponentDesc getComponent(Node parent) throws ParseException { if (1 < getChildNodes(parent, "component-desc").length) { throw new ParseException(R("PTwoDescriptors")); } Node child = parent.getFirstChild(); while (child != null) { String name = child.getNodeName(); if ("component-desc".equals(name)) return new ComponentDesc(); child = child.getNextSibling(); } return null; } /** * Returns the installer descriptor. */ public InstallerDesc getInstaller(Node node) { String main = getAttribute(node, "main-class", null); return new InstallerDesc(main); } /** * Returns the association descriptor. */ public AssociationDesc getAssociation(Node node) throws ParseException { String[] extensions = getRequiredAttribute(node, "extensions", null).split(" "); String mimeType = getRequiredAttribute(node, "mime-type", null); return new AssociationDesc(mimeType, extensions); } /** * Returns the shortcut descriptor. */ public ShortcutDesc getShortcut(Node node) throws ParseException { String online = getAttribute(node, "online", "true"); boolean shortcutIsOnline = Boolean.valueOf(online); boolean showOnDesktop = false; MenuDesc menu = null; // step through the elements Node child = node.getFirstChild(); while (child != null) { String name = child.getNodeName(); if ("desktop".equals(name)) { if (showOnDesktop && strict) { throw new ParseException(R("PTwoDesktops")); } showOnDesktop = true; } else if ("menu".equals(name)) { if (menu != null && strict) { throw new ParseException(R("PTwoMenus")); } menu = getMenu(child); } child = child.getNextSibling(); } ShortcutDesc shortcut = new ShortcutDesc(shortcutIsOnline, showOnDesktop); if (menu != null) { shortcut.addMenu(menu); } return shortcut; } /** * Returns the menu descriptor. */ public MenuDesc getMenu(Node node) { String subMenu = getAttribute(node, "submenu", null); return new MenuDesc(subMenu); } /** * Returns the related-content descriptor. */ public RelatedContentDesc getRelatedContent(Node node) throws ParseException { getRequiredAttribute(node, "href", null); URL location = getURL(node, "href", base); String title = null; String description = null; IconDesc icon = null; // step through the elements Node child = node.getFirstChild(); while (child != null) { String name = child.getNodeName(); if ("title".equals(name)) { if (title != null && strict) { throw new ParseException(R("PTwoTitles")); } title = getSpanText(child, false); } else if ("description".equals(name)) { if (description != null && strict) { throw new ParseException(R("PTwoDescriptions")); } description = getSpanText(child, false); } else if ("icon".equals(name)) { if (icon != null && strict) { throw new ParseException(R("PTwoIcons")); } icon = getIcon(child); } child = child.getNextSibling(); } RelatedContentDesc relatedContent = new RelatedContentDesc(location); relatedContent.setDescription(description); relatedContent.setIconDesc(icon); relatedContent.setTitle(title); return relatedContent; } // other methods /** * Returns an array of substrings seperated by spaces (spaces * escaped with backslash do not separate strings). This method * splits strings as per the spec except that it does replace * escaped other characters with their own value. */ public String[] splitString(String source) { if (source == null) return new String[0]; List result = new ArrayList(); StringTokenizer st = new StringTokenizer(source, " "); StringBuilder part = new StringBuilder(); while (st.hasMoreTokens()) { part.setLength(0); // tack together tokens joined by backslash while (true) { part.append(st.nextToken()); if (st.hasMoreTokens() && part.charAt(part.length() - 1) == '\\') part.setCharAt(part.length() - 1, ' '); // join with the space else break; // bizarre while format gets \ at end of string right (no extra space added at end) } // delete \ quote chars for (int i = part.length(); i-- > 0;) // sweet syntax for reverse loop if (part.charAt(i) == '\\') part.deleteCharAt(i--); // and skip previous char so \\ becomes \ result.add(part.toString()); } return result.toArray(new String[result.size()]); } /** * Returns the Locale object(s) from a node's locale attribute. * * @param node the node with a locale attribute */ public Locale[] getLocales(Node node) { List locales = new ArrayList(); String localeParts[] = splitString(getAttribute(node, "locale", "")); for (int i = 0; i < localeParts.length; i++) { Locale l = getLocale(localeParts[i]); if (l != null) locales.add(l); } return locales.toArray(new Locale[locales.size()]); } /** * Returns a Locale from a single locale. * * @param locale the locale string */ public Locale getLocale(String localeStr) { if (localeStr.length() < 2) return null; String language = localeStr.substring(0, 2); String country = (localeStr.length() < 5) ? "" : localeStr.substring(3, 5); String variant = (localeStr.length() > 7) ? localeStr.substring(6) : ""; // null is not allowed n locale but "" is return new Locale(language, country, variant); } // XML junk /** * Returns the implied text under a node, for example "text" in * "text". * * @param node the node with text under it * @throws ParseException if the JNLP file is invalid */ public String getSpanText(Node node) throws ParseException { return getSpanText(node, true); } /** * Returns the implied text under a node, for example "text" in * "text". If preserveSpacing is false, * sequences of whitespace characters are turned into a single * space character. * * @param node the node with text under it * @param preserveSpacing if true, preserve whitespace * @throws ParseException if the JNLP file is invalid */ public String getSpanText(Node node, boolean preserveSpacing) throws ParseException { if (node == null) return null; // NANO String val = node.getNodeValue(); if (preserveSpacing) { return val; } else { if (val == null) { return null; } else { return val.replaceAll("\\s+", " "); } } /* TINY Node child = node.getFirstChild(); if (child == null) { if (strict) // not sure if this is an error or whether "" is proper throw new ParseException("No text specified (node="+node.getNodeName()+")"); else return ""; } return child.getNodeValue(); */ } /** * Returns the first child node with the specified name. */ public static Node getChildNode(Node node, String name) { Node[] result = getChildNodes(node, name); if (result.length == 0) return null; else return result[0]; } /** * Returns all child nodes with the specified name. */ public static Node[] getChildNodes(Node node, String name) { List result = new ArrayList(); Node child = node.getFirstChild(); while (child != null) { if (child.getNodeName().equals(name)) result.add(child); child = child.getNextSibling(); } return result.toArray(new Node[result.size()]); } /** * Returns a URL with a trailing / appended to it if there is no * trailing slash on the specifed URL. */ private URL addSlash(URL source) { if (source == null) return null; if (!source.toString().endsWith("/")) { try { source = new URL(source.toString() + "/"); } catch (MalformedURLException ex) { } } return source; } /** * Returns the same result as getURL except that a * ParseException is thrown if the attribute is null or empty. * * @param node the node * @param name the attribute containing an href * @param base the base URL * @throws ParseException if the JNLP file is invalid */ public URL getRequiredURL(Node node, String name, URL base) throws ParseException { // probably should change "" to null so that url is always // required even if !strict getRequiredAttribute(node, name, ""); return getURL(node, name, base); } /** * Returns a URL object from a href string relative to the * code base. If the href denotes a relative URL, it must * reference a location that is a subdirectory of the * codebase.

* * @param node the node * @param name the attribute containing an href * @param base the base URL * @throws ParseException if the JNLP file is invalid */ public URL getURL(Node node, String name, URL base) throws ParseException { String href = getAttribute(node, name, null); if (href == null) return null; // so that code can throw an exception if attribute was required try { if (base == null) return new URL(href); else { try { return new URL(href); } catch (MalformedURLException ex) { // is relative } URL result = new URL(base, href); // check for going above the codebase if (!result.toString().startsWith(base.toString())) if (strict) throw new ParseException(R("PUrlNotInCodebase", node.getNodeName(), href, base)); return result; } } catch (MalformedURLException ex) { if (base == null) throw new ParseException(R("PBadNonrelativeUrl", node.getNodeName(), href)); else throw new ParseException(R("PBadRelativeUrl", node.getNodeName(), href, base)); } } /** * Returns a Version from the specified attribute and default * value. * * @param node the node * @param name the attribute * @param defaultValue default if no such attribute * @return a Version, or null if no such attribute and default is null */ public Version getVersion(Node node, String name, String defaultValue) { String version = getAttribute(node, name, defaultValue); if (version == null) return null; else return new Version(version); } /** * Check that the VM args are valid and safe * @param vmArgs a string containing the args * @throws ParseException if the VM arguments are invalid or dangerous */ private void checkVMArgs(String vmArgs) throws IllegalArgumentException { if (vmArgs == null) { return; } List validArguments = Arrays.asList(getValidVMArguments()); List validStartingArguments = Arrays.asList(getValidStartingVMArguments()); String[] arguments = vmArgs.split(" "); boolean argumentIsValid = false; for (String argument : arguments) { argumentIsValid = false; if (validArguments.contains(argument)) { argumentIsValid = true; } else { for (String validStartingArgument : validStartingArguments) { if (argument.startsWith(validStartingArgument)) { argumentIsValid = true; break; } } } if (!argumentIsValid) { throw new IllegalArgumentException(argument); } } } /** * Returns an array of valid (ie safe and supported) arguments for the JVM * * Based on http://java.sun.com/javase/6/docs/technotes/guides/javaws/developersguide/syntax.html */ private String[] getValidVMArguments() { return new String[] { "-d32", /* use a 32-bit data model if available */ "-client", /* to select the client VM */ "-server", /* to select the server VM */ "-verbose", /* enable verbose output */ "-version", /* print product version and exit */ "-showversion", /* print product version and continue */ "-help", /* print this help message */ "-X", /* print help on non-standard options */ "-ea", /* enable assertions */ "-enableassertions", /* enable assertions */ "-da", /* disable assertions */ "-disableassertions", /* disable assertions */ "-esa", /* enable system assertions */ "-enablesystemassertions", /* enable system assertions */ "-dsa", /* disable system assertione */ "-disablesystemassertions", /* disable system assertione */ "-Xmixed", /* mixed mode execution (default) */ "-Xint", /* interpreted mode execution only */ "-Xnoclassgc", /* disable class garbage collection */ "-Xincgc", /* enable incremental garbage collection */ "-Xbatch", /* disable background compilation */ "-Xprof", /* output cpu profiling data */ "-Xdebug", /* enable remote debugging */ "-Xfuture", /* enable strictest checks, anticipating future default */ "-Xrs", /* reduce use of OS signals by Java/VM (see documentation) */ "-XX:+ForceTimeHighResolution", /* use high resolution timer */ "-XX:-ForceTimeHighResolution", /* use low resolution (default) */ }; } /** * Returns an array containing the starts of valid (ie safe and supported) * arguments for the JVM * * Based on http://java.sun.com/javase/6/docs/technotes/guides/javaws/developersguide/syntax.html */ private String[] getValidStartingVMArguments() { return new String[] { "-ea", /* enable assertions for classes */ "-enableassertions", /* enable assertions for classes */ "-da", /* disable assertions for classes */ "-disableassertions", /* disable assertions for classes */ "-verbose", /* enable verbose output */ "-Xms", /* set initial Java heap size */ "-Xmx", /* set maximum Java heap size */ "-Xss", /* set java thread stack size */ "-XX:NewRatio", /* set Ratio of new/old gen sizes */ "-XX:NewSize", /* set initial size of new generation */ "-XX:MaxNewSize", /* set max size of new generation */ "-XX:PermSize", /* set initial size of permanent gen */ "-XX:MaxPermSize", /* set max size of permanent gen */ "-XX:MaxHeapFreeRatio", /* heap free percentage (default 70) */ "-XX:MinHeapFreeRatio", /* heap free percentage (default 40) */ "-XX:UseSerialGC", /* use serial garbage collection */ "-XX:ThreadStackSize", /* thread stack size (in KB) */ "-XX:MaxInlineSize", /* set max num of bytecodes to inline */ "-XX:ReservedCodeCacheSize", /* Reserved code cache size (bytes) */ "-XX:MaxDirectMemorySize", }; } /** * Returns the same result as getAttribute except that if strict * mode is enabled or the default value is null a parse * exception is thrown instead of returning the default value. * * @param node the node * @param name the attribute * @param defaultValue default value * @throws ParseException if the attribute does not exist or is empty */ public String getRequiredAttribute(Node node, String name, String defaultValue) throws ParseException { String result = getAttribute(node, name, null); if (result == null || result.length() == 0) if (strict || defaultValue == null) throw new ParseException(R("PNeedsAttribute", node.getNodeName(), name)); if (result == null) return defaultValue; else return result; } /** * Retuns an attribute or the specified defaultValue if there is * no such attribute. * * @param node the node * @param name the attribute * @param defaultValue default if no such attribute */ public String getAttribute(Node node, String name, String defaultValue) { // SAX // String result = ((Element) node).getAttribute(name); String result = node.getAttribute(name); if (result == null || result.length() == 0) return defaultValue; return result; } /** * Return the root node from the XML document in the specified * input stream. * * @throws ParseException if the JNLP file is invalid */ public static Node getRootNode(InputStream input) throws ParseException { try { /* SAX DocumentBuilderFactory factory = DocumentBuilderFactory.newInstance(); factory.setValidating(false); factory.setNamespaceAware(true); DocumentBuilder builder = factory.newDocumentBuilder(); builder.setErrorHandler(errorHandler); Document doc = builder.parse(input); return doc.getDocumentElement(); */ /* TINY Node document = new Node(TinyParser.parseXML(input)); Node jnlpNode = getChildNode(document, "jnlp"); // skip comments */ //A BufferedInputStream is used to allow marking and reseting //of a stream. BufferedInputStream bs = new BufferedInputStream(input); /* NANO */ final XMLElement xml = new XMLElement(); final PipedInputStream pin = new PipedInputStream(); final PipedOutputStream pout = new PipedOutputStream(pin); final InputStreamReader isr = new InputStreamReader(bs, getEncoding(bs)); // Clean the jnlp xml file of all comments before passing // it to the parser. new Thread( new Runnable() { public void run() { (new XMLElement()).sanitizeInput(isr, pout); try { pout.close(); } catch (IOException ioe) { ioe.printStackTrace(); } } }).start(); xml.parseFromReader(new InputStreamReader(pin)); Node jnlpNode = new Node(xml); return jnlpNode; } catch (Exception ex) { throw new ParseException(R("PBadXML"), ex); } } /** * Returns the name of the encoding used in this InputStream. * * @param input the InputStream * @return a String representation of encoding */ private static String getEncoding(InputStream input) throws IOException { //Fixme: This only recognizes UTF-8, UTF-16, and //UTF-32, which is enough to parse the prolog portion of xml to //find out the exact encoding (if it exists). The reason being //there could be other encodings, such as ISO 8859 which is 8-bits //but it supports latin characters. //So what needs to be done is to parse the prolog and retrieve //the exact encoding from it. int[] s = new int[4]; String encoding = "UTF-8"; //Determine what the first four bytes are and store //them into an int array. input.mark(4); for (int i = 0; i < 4; i++) { s[i] = input.read(); } input.reset(); //Set the encoding base on what the first four bytes of the //inputstream turn out to be (following the information from //www.w3.org/TR/REC-xml/#sec-guessing). if (s[0] == 255) { if (s[1] == 254) { if (s[2] != 0 || s[3] != 0) { encoding = "UnicodeLittle"; } else { encoding = "X-UTF-32LE-BOM"; } } } else if (s[0] == 254 && s[1] == 255 && (s[2] != 0 || s[3] != 0)) { encoding = "UTF-16"; } else if (s[0] == 0 && s[1] == 0 && s[2] == 254 && s[3] == 255) { encoding = "X-UTF-32BE-BOM"; } else if (s[0] == 0 && s[1] == 0 && s[2] == 0 && s[3] == 60) { encoding = "UTF-32BE"; } else if (s[0] == 60 && s[1] == 0 && s[2] == 0 && s[3] == 0) { encoding = "UTF-32LE"; } else if (s[0] == 0 && s[1] == 60 && s[2] == 0 && s[3] == 63) { encoding = "UTF-16BE"; } else if (s[0] == 60 && s[1] == 0 && s[2] == 63 && s[3] == 0) { encoding = "UTF-16LE"; } return encoding; } }