/* * Copyright (c) 2000, 2016, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code 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 General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package java.lang; import jdk.internal.loader.BuiltinClassLoader; import jdk.internal.misc.SharedSecrets; import jdk.internal.misc.VM; import jdk.internal.module.ModuleHashes; import java.lang.module.ModuleDescriptor.Version; import java.lang.reflect.Layer; import java.lang.reflect.Module; import java.util.HashSet; import java.util.Objects; import java.util.Optional; import java.util.Set; /** * An element in a stack trace, as returned by {@link * Throwable#getStackTrace()}. Each element represents a single stack frame. * All stack frames except for the one at the top of the stack represent * a method invocation. The frame at the top of the stack represents the * execution point at which the stack trace was generated. Typically, * this is the point at which the throwable corresponding to the stack trace * was created. * * @since 1.4 * @author Josh Bloch */ public final class StackTraceElement implements java.io.Serializable { // This field is set to the compacted String representation used // by StackTraceElement::toString and stored in serial form. // // This field is of Object type. VM initially sets this field to // the Class object of the declaring class to build the compacted string. private Object classOrLoaderModuleClassName; // Normally initialized by VM private String classLoaderName; private String moduleName; private String moduleVersion; private String declaringClass; private String methodName; private String fileName; private int lineNumber; /** * Creates a stack trace element representing the specified execution * point. The {@link #getModuleName module name} and {@link * #getModuleVersion module version} of the stack trace element will * be {@code null}. * * @param declaringClass the fully qualified name of the class containing * the execution point represented by the stack trace element * @param methodName the name of the method containing the execution point * represented by the stack trace element * @param fileName the name of the file containing the execution point * represented by the stack trace element, or {@code null} if * this information is unavailable * @param lineNumber the line number of the source line containing the * execution point represented by this stack trace element, or * a negative number if this information is unavailable. A value * of -2 indicates that the method containing the execution point * is a native method * @throws NullPointerException if {@code declaringClass} or * {@code methodName} is null * @since 1.5 */ public StackTraceElement(String declaringClass, String methodName, String fileName, int lineNumber) { this(null, null, null, declaringClass, methodName, fileName, lineNumber); } /** * Creates a stack trace element representing the specified execution * point. * * @param classLoaderName the class loader name if the class loader of * the class containing the execution point represented by * the stack trace is named; otherwise {@code null} * @param moduleName the module name if the class containing the * execution point represented by the stack trace is in a named * module; otherwise {@code null} * @param moduleVersion the module version if the class containing the * execution point represented by the stack trace is in a named * module that has a version; otherwise {@code null} * @param declaringClass the fully qualified name of the class containing * the execution point represented by the stack trace element * @param methodName the name of the method containing the execution point * represented by the stack trace element * @param fileName the name of the file containing the execution point * represented by the stack trace element, or {@code null} if * this information is unavailable * @param lineNumber the line number of the source line containing the * execution point represented by this stack trace element, or * a negative number if this information is unavailable. A value * of -2 indicates that the method containing the execution point * is a native method * * @throws IllegalArgumentException if {@code classLoaderName}, * {@code moduleName} or {@code moduleVersion} is an empty string * @throws NullPointerException if {@code declaringClass} is {@code null} * or {@code methodName} is {@code null} * * @since 9 */ public StackTraceElement(String classLoaderName, String moduleName, String moduleVersion, String declaringClass, String methodName, String fileName, int lineNumber) { this.classLoaderName = requireNonEmpty(classLoaderName, "classLoaderName"); this.moduleName = requireNonEmpty(moduleName, "moduleName"); this.moduleVersion = requireNonEmpty(moduleVersion, "moduleVersion"); this.declaringClass = Objects.requireNonNull(declaringClass, "Declaring class is null"); this.methodName = Objects.requireNonNull(methodName, "Method name is null"); this.fileName = fileName; this.lineNumber = lineNumber; } private static String requireNonEmpty(String name, String paramName) { if (name != null && name.isEmpty()) { throw new IllegalArgumentException(paramName + " must be non-empty or null"); } return name; } /* * Private constructor for the factory methods to create StackTraceElement * for Throwable and StackFrameInfo */ private StackTraceElement() {} /** * Returns the name of the source file containing the execution point * represented by this stack trace element. Generally, this corresponds * to the {@code SourceFile} attribute of the relevant {@code class} * file (as per The Java Virtual Machine Specification, Section * 4.7.7). In some systems, the name may refer to some source code unit * other than a file, such as an entry in source repository. * * @return the name of the file containing the execution point * represented by this stack trace element, or {@code null} if * this information is unavailable. */ public String getFileName() { return fileName; } /** * Returns the line number of the source line containing the execution * point represented by this stack trace element. Generally, this is * derived from the {@code LineNumberTable} attribute of the relevant * {@code class} file (as per The Java Virtual Machine * Specification, Section 4.7.8). * * @return the line number of the source line containing the execution * point represented by this stack trace element, or a negative * number if this information is unavailable. */ public int getLineNumber() { return lineNumber; } /** * Returns the module name of the module containing the execution point * represented by this stack trace element. * * @return the module name of the {@code Module} containing the execution * point represented by this stack trace element; {@code null} * if the module name is not available. * @since 9 * @see java.lang.reflect.Module#getName() */ public String getModuleName() { return moduleName; } /** * Returns the module version of the module containing the execution point * represented by this stack trace element. * * @return the module version of the {@code Module} containing the execution * point represented by this stack trace element; {@code null} * if the module version is not available. * @since 9 * @see java.lang.module.ModuleDescriptor.Version */ public String getModuleVersion() { return moduleVersion; } /** * Returns the name of the class loader of the class containing the * execution point represented by this stack trace element. * * @return the name of the class loader of the class containing the execution * point represented by this stack trace element; {@code null} * if the class loader is not named. * * @since 9 * @see java.lang.ClassLoader#getName() */ public String getClassLoaderName() { return classLoaderName; } /** * Returns the fully qualified name of the class containing the * execution point represented by this stack trace element. * * @return the fully qualified name of the {@code Class} containing * the execution point represented by this stack trace element. */ public String getClassName() { return declaringClass; } /** * Returns the name of the method containing the execution point * represented by this stack trace element. If the execution point is * contained in an instance or class initializer, this method will return * the appropriate special method name, {@code } or * {@code }, as per Section 3.9 of The Java Virtual * Machine Specification. * * @return the name of the method containing the execution point * represented by this stack trace element. */ public String getMethodName() { return methodName; } /** * Returns true if the method containing the execution point * represented by this stack trace element is a native method. * * @return {@code true} if the method containing the execution point * represented by this stack trace element is a native method. */ public boolean isNativeMethod() { return lineNumber == -2; } /** * Returns a string representation of this stack trace element. The * format of this string depends on the implementation, but the following * examples may be regarded as typical: * * *

The first example shows a stack trace element consisting of * three elements, each separated by {@code "/"} followed with * the source file name and the line number of the source line * containing the execution point. * * The first element "{@code com.foo.loader}" is * the name of the class loader. The second element "{@code foo@9.0}" * is the module name and version. The third element is the method * containing the execution point; "{@code com.foo.Main"}" is the * fully-qualified class name and "{@code run}" is the name of the method. * "{@code Main.java}" is the source file name and "{@code 101}" is * the line number. * *

If a class is defined in an unnamed module * then the second element is omitted as shown in * "{@code com.foo.loader//com.foo.bar.App.run(App.java:12)}". * * If the class loader is a * built-in class loader or is not named then the first element * and its following {@code "/"} are omitted as shown in * "{@code acme@2.1/org.acme.Lib.test(Lib.java:80)}". * If the first element is omitted and the module is an unnamed module, * the second element and its following {@code "/"} are also omitted * as shown in "{@code MyClass.mash(MyClass.java:9)}". * * @see Throwable#printStackTrace() */ public String toString() { String s = buildLoaderModuleClassName(); if (s == null) { // all elements will be included s = ""; if (classLoaderName != null && !classLoaderName.isEmpty()) { s += classLoaderName + "/"; } if (moduleName != null && !moduleName.isEmpty()) { s += moduleName; } if (moduleVersion != null && !moduleVersion.isEmpty()) { s += "@" + moduleVersion; } s = s.isEmpty() ? declaringClass : s + "/" + declaringClass; } return s + "." + methodName + "(" + (isNativeMethod() ? "Native Method)" : (fileName != null && lineNumber >= 0 ? fileName + ":" + lineNumber + ")" : (fileName != null ? ""+fileName+")" : "Unknown Source)"))); } /** * Returns true if the specified object is another * {@code StackTraceElement} instance representing the same execution * point as this instance. Two stack trace elements {@code a} and * {@code b} are equal if and only if: * 

{@code
     *     equals(a.getClassLoaderName(), b.getClassLoaderName()) &&
     *     equals(a.getModuleName(), b.getModuleName()) &&
     *     equals(a.getModuleVersion(), b.getModuleVersion()) &&
     *     equals(a.getClassName(), b.getClassName()) &&
     *     equals(a.getMethodName(), b.getMethodName())
     *     equals(a.getFileName(), b.getFileName()) &&
     *     a.getLineNumber() == b.getLineNumber()
     *
     * }
* where {@code equals} has the semantics of {@link * java.util.Objects#equals(Object, Object) Objects.equals}. * * @param obj the object to be compared with this stack trace element. * @return true if the specified object is another * {@code StackTraceElement} instance representing the same * execution point as this instance. */ public boolean equals(Object obj) { if (obj==this) return true; if (!(obj instanceof StackTraceElement)) return false; StackTraceElement e = (StackTraceElement)obj; return Objects.equals(classLoaderName, e.classLoaderName) && Objects.equals(moduleName, e.moduleName) && Objects.equals(moduleVersion, e.moduleVersion) && e.declaringClass.equals(declaringClass) && e.lineNumber == lineNumber && Objects.equals(methodName, e.methodName) && Objects.equals(fileName, e.fileName); } /** * Returns a hash code value for this stack trace element. */ public int hashCode() { int result = 31*declaringClass.hashCode() + methodName.hashCode(); result = 31*result + Objects.hashCode(classLoaderName); result = 31*result + Objects.hashCode(moduleName); result = 31*result + Objects.hashCode(moduleVersion); result = 31*result + Objects.hashCode(fileName); result = 31*result + lineNumber; return result; } /** * Build the compacted String representation to be returned by * toString method from the declaring Class object. */ synchronized String buildLoaderModuleClassName() { if (classOrLoaderModuleClassName == null) return null; if (classOrLoaderModuleClassName instanceof Class) { Class cls = (Class)classOrLoaderModuleClassName; classOrLoaderModuleClassName = toLoaderModuleClassName(cls); } return (String)classOrLoaderModuleClassName; } /** * Returns // string * representation of the given class. *

* If the module is a non-upgradeable JDK module then omit * its version string. *

* If the loader has no name, or if the loader is one of the built-in * loaders (`boot`, `platform`, or `app`) then drop the first element * (`/`). *

* If the first element has been dropped and the module is unnamed * then drop the second element (`/`). *

* If the first element is not dropped and the module is unnamed * then drop ``. */ private static String toLoaderModuleClassName(Class cls) { ClassLoader loader = cls.getClassLoader0(); Module m = cls.getModule(); // First element - class loader name // Call package-private ClassLoader::name method String s = ""; if (loader != null && loader.name() != null && !(loader instanceof BuiltinClassLoader)) { s = loader.name() + "/"; } // Second element - module name and version if (m != null && m.isNamed()) { s += m.getName(); // Include version if it is a user module or upgradeable module // // If it is JDK non-upgradeable module which is recorded // in the hashes in java.base, omit the version. if (!isHashedInJavaBase(m)) { Optional ov = m.getDescriptor().version(); if (ov.isPresent()) { String version = "@" + ov.get().toString(); s += version; } } } // fully-qualified class name return s.isEmpty() ? cls.getName() : s + "/" + cls.getName(); } /** * Returns true if the module is hashed with java.base. *

* This method returns false when running on the exploded image * since JDK modules are not hashed. They have no Version attribute * and so "@" part will be omitted anyway. */ private static boolean isHashedInJavaBase(Module m) { // return true if module system is not initialized as the code // must be in java.base if (!VM.isModuleSystemInited()) return true; return Layer.boot() == m.getLayer() && HashedModules.contains(m); } /* * Finds JDK non-upgradeable modules, i.e. the modules that are * included in the hashes in java.base. */ private static class HashedModules { static Set HASHED_MODULES = hashedModules(); static Set hashedModules() { Module javaBase = Layer.boot().findModule("java.base").get(); Optional ohashes = SharedSecrets.getJavaLangModuleAccess() .hashes(javaBase.getDescriptor()); if (ohashes.isPresent()) { Set names = new HashSet<>(ohashes.get().names()); names.add("java.base"); return names; } return Set.of(); } static boolean contains(Module m) { return HASHED_MODULES.contains(m.getName()); } } /* * Returns a StackTraceElement from a given StackFrameInfo. */ static StackTraceElement of(StackFrameInfo sfi) { StackTraceElement ste = new StackTraceElement(); ste.fillFromStackFrameInfo(sfi); ste.buildLoaderModuleClassName(); return ste; } /* * Returns an array of StackTraceElements of the given depth * filled from the backtrace of a given Throwable. */ static StackTraceElement[] of(Throwable x, int depth) { StackTraceElement[] stackTrace = new StackTraceElement[depth]; for (int i = 0; i < depth; i++) { stackTrace[i] = new StackTraceElement(); } // VM to fill in StackTraceElement fillStackTraceFromThrowable(stackTrace, x); // ensure the proper StackTraceElement initialization for (StackTraceElement ste : stackTrace) { ste.buildLoaderModuleClassName(); } return stackTrace; } /* * Fill in the stack trace elements from a given Throwable. */ private static native void fillStackTraceFromThrowable(StackTraceElement[] elements, Throwable x); /* * Fill in the stack trace elements from a given StackFrameInfo. */ private native void fillFromStackFrameInfo(StackFrameInfo sfi); private static final long serialVersionUID = 6992337162326171013L; }