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package org.apache.tomcat.util.bcel.classfile;

import java.io.BufferedInputStream;
import java.io.DataInput;
import java.io.DataInputStream;
import java.io.IOException;
import java.io.InputStream;

import org.apache.tomcat.util.bcel.Const;

Wrapper class that parses a given Java .class file. The method parse returns a JavaClass object on success. When an I/O error or an inconsistency occurs an appropriate exception is propagated back to the caller. The structure and the names comply, except for a few conveniences, exactly with the JVM specification 1.0. See this paper for further details about the structure of a bytecode file.
/** * Wrapper class that parses a given Java .class file. The method <A * href ="#parse">parse</A> returns a <A href ="JavaClass.html"> * JavaClass</A> object on success. When an I/O error or an * inconsistency occurs an appropriate exception is propagated back to * the caller. * * The structure and the names comply, except for a few conveniences, * exactly with the <A href="http://docs.oracle.com/javase/specs/"> * JVM specification 1.0</a>. See this paper for * further details about the structure of a bytecode file. */
public final class ClassParser { private static final int MAGIC = 0xCAFEBABE; private final DataInput dataInputStream; private String class_name, superclassName; private int accessFlags; // Access rights of parsed class private String[] interfaceNames; // Names of implemented interfaces private ConstantPool constantPool; // collection of constants private Annotations runtimeVisibleAnnotations; // "RuntimeVisibleAnnotations" attribute defined in the class private static final int BUFSIZE = 8192; private static final String[] INTERFACES_EMPTY_ARRAY = new String[0];
Parses class from the given stream.
Params:
  • inputStream – Input stream
/** * Parses class from the given stream. * * @param inputStream Input stream */
public ClassParser(final InputStream inputStream) { this.dataInputStream = new DataInputStream(new BufferedInputStream(inputStream, BUFSIZE)); }
Parses the given Java class file and return an object that represents the contained data, i.e., constants, methods, fields and commands. A ClassFormatException is raised, if the file is not a valid .class file. (This does not include verification of the byte code as it is performed by the java interpreter).
Throws:
Returns:Class object representing the parsed class file
/** * Parses the given Java class file and return an object that represents * the contained data, i.e., constants, methods, fields and commands. * A <em>ClassFormatException</em> is raised, if the file is not a valid * .class file. (This does not include verification of the byte code as it * is performed by the java interpreter). * * @return Class object representing the parsed class file * @throws IOException If an I/O occurs reading the byte code * @throws ClassFormatException If the byte code is invalid */
public JavaClass parse() throws IOException, ClassFormatException { /****************** Read headers ********************************/ // Check magic tag of class file readID(); // Get compiler version readVersion(); /****************** Read constant pool and related **************/ // Read constant pool entries readConstantPool(); // Get class information readClassInfo(); // Get interface information, i.e., implemented interfaces readInterfaces(); /****************** Read class fields and methods ***************/ // Read class fields, i.e., the variables of the class readFields(); // Read class methods, i.e., the functions in the class readMethods(); // Read class attributes readAttributes(); // Return the information we have gathered in a new object return new JavaClass(class_name, superclassName, accessFlags, constantPool, interfaceNames, runtimeVisibleAnnotations); }
Reads information about the attributes of the class.
Throws:
/** * Reads information about the attributes of the class. * @throws IOException * @throws ClassFormatException */
private void readAttributes() throws IOException, ClassFormatException { final int attributes_count = dataInputStream.readUnsignedShort(); for (int i = 0; i < attributes_count; i++) { ConstantUtf8 c; String name; int name_index; int length; // Get class name from constant pool via `name_index' indirection name_index = dataInputStream.readUnsignedShort(); c = (ConstantUtf8) constantPool.getConstant(name_index, Const.CONSTANT_Utf8); name = c.getBytes(); // Length of data in bytes length = dataInputStream.readInt(); if (name.equals("RuntimeVisibleAnnotations")) { if (runtimeVisibleAnnotations != null) { throw new ClassFormatException( "RuntimeVisibleAnnotations attribute is not allowed more than once in a class file"); } runtimeVisibleAnnotations = new Annotations(dataInputStream, constantPool); } else { // All other attributes are skipped Utility.skipFully(dataInputStream, length); } } }
Reads information about the class and its super class.
Throws:
/** * Reads information about the class and its super class. * @throws IOException * @throws ClassFormatException */
private void readClassInfo() throws IOException, ClassFormatException { accessFlags = dataInputStream.readUnsignedShort(); /* Interfaces are implicitly abstract, the flag should be set * according to the JVM specification. */ if ((accessFlags & Const.ACC_INTERFACE) != 0) { accessFlags |= Const.ACC_ABSTRACT; } if (((accessFlags & Const.ACC_ABSTRACT) != 0) && ((accessFlags & Const.ACC_FINAL) != 0)) { throw new ClassFormatException("Class can't be both final and abstract"); } int class_name_index = dataInputStream.readUnsignedShort(); class_name = Utility.getClassName(constantPool, class_name_index); int superclass_name_index = dataInputStream.readUnsignedShort(); if (superclass_name_index > 0) { // May be zero -> class is java.lang.Object superclassName = Utility.getClassName(constantPool, superclass_name_index); } else { superclassName = "java.lang.Object"; } }
Reads constant pool entries.
Throws:
/** * Reads constant pool entries. * @throws IOException * @throws ClassFormatException */
private void readConstantPool() throws IOException, ClassFormatException { constantPool = new ConstantPool(dataInputStream); }
Reads information about the fields of the class, i.e., its variables.
Throws:
/** * Reads information about the fields of the class, i.e., its variables. * @throws IOException * @throws ClassFormatException */
private void readFields() throws IOException, ClassFormatException { final int fields_count = dataInputStream.readUnsignedShort(); for (int i = 0; i < fields_count; i++) { Utility.swallowFieldOrMethod(dataInputStream); } } /******************** Private utility methods **********************/
Checks whether the header of the file is ok. Of course, this has to be the first action on successive file reads.
Throws:
/** * Checks whether the header of the file is ok. * Of course, this has to be the first action on successive file reads. * @throws IOException * @throws ClassFormatException */
private void readID() throws IOException, ClassFormatException { if (dataInputStream.readInt() != MAGIC) { throw new ClassFormatException("It is not a Java .class file"); } }
Reads information about the interfaces implemented by this class.
Throws:
/** * Reads information about the interfaces implemented by this class. * @throws IOException * @throws ClassFormatException */
private void readInterfaces() throws IOException, ClassFormatException { final int interfaces_count = dataInputStream.readUnsignedShort(); if (interfaces_count > 0) { interfaceNames = new String[interfaces_count]; for (int i = 0; i < interfaces_count; i++) { int index = dataInputStream.readUnsignedShort(); interfaceNames[i] = Utility.getClassName(constantPool, index); } } else { interfaceNames = INTERFACES_EMPTY_ARRAY; } }
Reads information about the methods of the class.
Throws:
/** * Reads information about the methods of the class. * @throws IOException * @throws ClassFormatException */
private void readMethods() throws IOException, ClassFormatException { final int methods_count = dataInputStream.readUnsignedShort(); for (int i = 0; i < methods_count; i++) { Utility.swallowFieldOrMethod(dataInputStream); } }
Reads major and minor version of compiler which created the file.
Throws:
/** * Reads major and minor version of compiler which created the file. * @throws IOException * @throws ClassFormatException */
private void readVersion() throws IOException, ClassFormatException { // file.readUnsignedShort(); // Unused minor // file.readUnsignedShort(); // Unused major Utility.skipFully(dataInputStream, 4); } }