/** * INTERNAL: Create a list of java.lang.Class that contains the classes of all the entities that * we will be deploying */ protected Set loadEntityClasses(Collection entityNames, ClassLoader classLoader) { Set entityClasses = new HashSet(); // Load the classes using the loader passed in AbstractSessionLog.getLog() .log(SessionLog.FINER, "cmp_loading_entities_using_loader", classLoader); for (Iterator iter = entityNames.iterator(); iter.hasNext(); ) { String entityClassName = (String) iter.next(); try { entityClasses.add(classLoader.loadClass(entityClassName)); } catch (ClassNotFoundException cnfEx) { throw ValidationException.entityClassNotFound(entityClassName, classLoader, cnfEx); } } return entityClasses; }
/** * Given another class, return a transformed version of the class which replaces specified calls * with alternative static implementations */ public byte[] transform( ClassLoader loader, String className, Class<?> classBeingRedefined, ProtectionDomain protectionDomain, byte[] classfileBuffer) throws IllegalClassFormatException { // debug = className.equals ("chicory/Test"); String fullClassName = className.replace("/", "."); debug_transform.log("In Transform: class = %s%n", className); // Don't instrument boot classes. We only want to instrument // user classes classpath. // Most boot classes have the null loader, // but some generated classes (such as those in sun.reflect) will // have a non-null loader. Some of these have a null parent loader, // but some do not. The check for the sun.reflect package is a hack // to catch all of these. A more consistent mechanism to determine // boot classes would be preferrable. if (loader == null) { debug_transform.log("ignoring system class %s, class loader == null", fullClassName); return (null); } else if (loader.getParent() == null) { debug_transform.log("ignoring system class %s, parent loader == null\n", fullClassName); return (null); } else if (fullClassName.startsWith("sun.reflect")) { debug_transform.log("ignoring system class %s, in sun.reflect package", fullClassName); return (null); } else if (fullClassName.startsWith("com.sun")) { System.out.printf("Class from com.sun package %s with nonnull loaders\n", fullClassName); } // Don't intrument our code if (className.startsWith("randoop.")) { debug_transform.log("Not considering randoop class %s%n", fullClassName); return (null); } // Look for match with specified regular expressions for class method_map = null; debug_class = false; for (MethodMapInfo mmi : map_list) { if (mmi.class_regex.matcher(className).matches()) { if (false && className.startsWith("RandoopTest")) debug_class = true; if (debug_class) System.out.printf("Classname %s matches re %s%n", className, mmi.class_regex); method_map = mmi.map; break; } } if (method_map == null) return null; debug_transform.log( "transforming class %s, loader %s - %s%n", className, loader, loader.getParent()); // Parse the bytes of the classfile, die on any errors JavaClass c = null; ClassParser parser = new ClassParser(new ByteArrayInputStream(classfileBuffer), className); try { c = parser.parse(); } catch (Exception e) { throw new RuntimeException("Unexpected error", e); } try { // Get the class information ClassGen cg = new ClassGen(c); ifact = new InstructionFactory(cg); map_calls(cg, className, loader); JavaClass njc = cg.getJavaClass(); if (debug) njc.dump("/tmp/ret/" + njc.getClassName() + ".class"); if (true) { return (cg.getJavaClass().getBytes()); } else { debug_transform.log("not including class %s (filtered out)", className); return null; } } catch (Throwable e) { out.format("Unexpected error %s in transform", e); e.printStackTrace(); return (null); } }