Пример #1
0
 /*  94:    */
 /*  95:    */ protected int match(
     int c, int pos, CodeIterator iterator, int typedesc, ConstPool cp)
     /*  96:    */ throws BadBytecode
       /*  97:    */ {
   /*  98:110 */ if (this.newIndex == 0)
   /*  99:    */ {
     /* 100:111 */ int nt = cp.addNameAndTypeInfo(cp.addUtf8Info(this.newMethodname), typedesc);
     /* 101:    */
     /* 102:113 */ int ci = cp.addClassInfo(this.newClassname);
     /* 103:114 */ if (c == 185)
     /* 104:    */ {
       /* 105:115 */ this.newIndex = cp.addInterfaceMethodrefInfo(ci, nt);
       /* 106:    */ }
     /* 107:    */ else
     /* 108:    */ {
       /* 109:117 */ if ((this.newMethodIsPrivate) && (c == 182)) {
         /* 110:118 */ iterator.writeByte(183, pos);
         /* 111:    */ }
       /* 112:120 */ this.newIndex = cp.addMethodrefInfo(ci, nt);
       /* 113:    */ }
     /* 114:123 */ this.constPool = cp;
     /* 115:    */ }
   /* 116:126 */ iterator.write16bit(this.newIndex, pos + 1);
   /* 117:127 */ return pos;
   /* 118:    */ }
  protected void enhanceAttributesAccess(
      CtClass managedCtClass,
      IdentityHashMap<String, PersistentAttributeAccessMethods> attributeDescriptorMap) {
    final ConstPool constPool = managedCtClass.getClassFile().getConstPool();

    for (Object oMethod : managedCtClass.getClassFile().getMethods()) {
      final MethodInfo methodInfo = (MethodInfo) oMethod;
      final String methodName = methodInfo.getName();

      // skip methods added by enhancement and abstract methods (methods without any code)
      if (methodName.startsWith("$$_hibernate_") || methodInfo.getCodeAttribute() == null) {
        continue;
      }

      try {
        final CodeIterator itr = methodInfo.getCodeAttribute().iterator();
        while (itr.hasNext()) {
          final int index = itr.next();
          final int op = itr.byteAt(index);
          if (op != Opcode.PUTFIELD && op != Opcode.GETFIELD) {
            continue;
          }
          final String fieldName = constPool.getFieldrefName(itr.u16bitAt(index + 1));
          final PersistentAttributeAccessMethods attributeMethods =
              attributeDescriptorMap.get(fieldName);

          // its not a field we have enhanced for interception, so skip it
          if (attributeMethods == null) {
            continue;
          }
          // System.out.printf( "Transforming access to field [%s] from method [%s]%n", fieldName,
          // methodName );
          log.debugf("Transforming access to field [%s] from method [%s]", fieldName, methodName);

          if (op == Opcode.GETFIELD) {
            final int methodIndex = MethodWriter.addMethod(constPool, attributeMethods.getReader());
            itr.writeByte(Opcode.INVOKESPECIAL, index);
            itr.write16bit(methodIndex, index + 1);
          } else {
            final int methodIndex = MethodWriter.addMethod(constPool, attributeMethods.getWriter());
            itr.writeByte(Opcode.INVOKESPECIAL, index);
            itr.write16bit(methodIndex, index + 1);
          }
        }
        methodInfo.getCodeAttribute().setAttribute(MapMaker.make(classPool, methodInfo));
      } catch (BadBytecode bb) {
        final String msg =
            String.format(
                "Unable to perform field access transformation in method [%s]", methodName);
        throw new EnhancementException(msg, bb);
      }
    }
  }
  protected void enhanceAttributesAccess(Map<String, CtField> fieldsMap, CtClass managedCtClass)
      throws Exception {
    final ConstPool constPool = managedCtClass.getClassFile().getConstPool();
    final ClassPool classPool = managedCtClass.getClassPool();

    for (Object oMethod : managedCtClass.getClassFile().getMethods()) {
      final MethodInfo methodInfo = (MethodInfo) oMethod;
      final String methodName = methodInfo.getName();

      // skip methods added by enhancement, and abstract methods (methods without any code)
      if (methodName.startsWith(DROOLS_PREFIX) || methodInfo.getCodeAttribute() == null) {
        continue;
      }

      try {
        final CodeIterator itr = methodInfo.getCodeAttribute().iterator();
        while (itr.hasNext()) {
          final int index = itr.next();
          final int op = itr.byteAt(index);
          if (op != Opcode.PUTFIELD && op != Opcode.GETFIELD) {
            continue;
          }

          final String fieldName = constPool.getFieldrefName(itr.u16bitAt(index + 1));
          CtField ctField = fieldsMap.get(fieldName);
          if (ctField == null) {
            continue;
          }

          // if we are in constructors, only need to intercept assignment statement for Reactive
          // Collection/List/... (regardless they may be final)
          if (methodInfo.isConstructor() && !(isCtFieldACollection(ctField))) {
            continue;
          }

          if (op == Opcode.PUTFIELD) {
            // addMethod is a safe add, if constant already present it return the existing value
            // without adding.
            final int methodIndex = addMethod(constPool, writeMethods.get(fieldName));
            itr.writeByte(Opcode.INVOKEVIRTUAL, index);
            itr.write16bit(methodIndex, index + 1);
          }
        }
        methodInfo.getCodeAttribute().setAttribute(MapMaker.make(classPool, methodInfo));
      } catch (BadBytecode bb) {
        final String msg =
            String.format(
                "Unable to perform field access transformation in method [%s]", methodName);
        throw new Exception(msg, bb);
      }
    }
  }
Пример #4
0
 /*  49:    */
 /*  50:    */ public int transform(CtClass clazz, int pos, CodeIterator iterator, ConstPool cp)
     /*  51:    */ throws BadBytecode
       /*  52:    */ {
   /*  53: 68 */ int c = iterator.byteAt(pos);
   /*  54: 69 */ if ((c == 185) || (c == 183) || (c == 184) || (c == 182))
   /*  55:    */ {
     /*  56: 71 */ int index = iterator.u16bitAt(pos + 1);
     /*  57: 72 */ String cname = cp.eqMember(this.methodname, this.methodDescriptor, index);
     /*  58: 73 */ if ((cname != null) && (matchClass(cname, clazz.getClassPool())))
     /*  59:    */ {
       /*  60: 74 */ int ntinfo = cp.getMemberNameAndType(index);
       /*  61: 75 */ pos = match(c, pos, iterator, cp.getNameAndTypeDescriptor(ntinfo), cp);
       /*  62:    */ }
     /*  63:    */ }
   /*  64: 80 */ return pos;
   /*  65:    */ }
  public boolean transformClass(ClassFile file, ClassLoader loader, boolean modifiableClass) {
    Set<Integer> methodCallLocations = new HashSet<Integer>();
    Integer newCallLocation = null;
    Integer methodReflectionLocation = null;
    Integer fakeCallRequiredLocation = null;
    // first we need to scan the constant pool looking for
    // CONSTANT_method_info_ref structures
    ConstPool pool = file.getConstPool();
    for (int i = 1; i < pool.getSize(); ++i) {
      // we have a method call
      if (pool.getTag(i) == ConstPool.CONST_Methodref) {
        String className = pool.getMethodrefClassName(i);
        String methodName = pool.getMethodrefName(i);

        if (className.equals(Method.class.getName())) {
          if (methodName.equals("invoke")) {
            // store the location in the const pool of the method ref
            methodCallLocations.add(i);
            // we have found a method call

            // if we have not already stored a reference to our new
            // method in the const pool
            if (newCallLocation == null) {
              methodReflectionLocation =
                  pool.addClassInfo("org.fakereplace.reflection.MethodReflection");
              int nt = pool.addNameAndTypeInfo("fakeCallRequired", "(Ljava/lang/reflect/Method;)Z");
              fakeCallRequiredLocation = pool.addMethodrefInfo(methodReflectionLocation, nt);
              newCallLocation = pool.addNameAndTypeInfo(METHOD_NAME, REPLACED_METHOD_DESCRIPTOR);
            }
          }
        }
      }
    }

    // this means we found an instance of the call, now we have to iterate
    // through the methods and replace instances of the call
    if (newCallLocation != null) {
      List<MethodInfo> methods = file.getMethods();
      for (MethodInfo m : methods) {
        try {
          // ignore abstract methods
          if (m.getCodeAttribute() == null) {
            continue;
          }
          CodeIterator it = m.getCodeAttribute().iterator();
          while (it.hasNext()) {
            // loop through the bytecode
            int index = it.next();
            int op = it.byteAt(index);
            // if the bytecode is a method invocation
            if (op == CodeIterator.INVOKEVIRTUAL) {
              int val = it.s16bitAt(index + 1);
              // if the method call is one of the methods we are
              // replacing
              if (methodCallLocations.contains(val)) {
                Bytecode b = new Bytecode(file.getConstPool());
                // our stack looks like Method, instance,params
                // we need Method, instance, params , Method
                b.add(Opcode.DUP_X2);
                b.add(Opcode.POP);
                b.add(Opcode.DUP_X2);
                b.add(Opcode.POP);
                b.add(Opcode.DUP_X2);
                b.addInvokestatic(
                    methodReflectionLocation, "fakeCallRequired", "(Ljava/lang/reflect/Method;)Z");
                b.add(Opcode.IFEQ);
                JumpMarker performRealCall = JumpUtils.addJumpInstruction(b);
                // now perform the fake call
                b.addInvokestatic(methodReflectionLocation, "invoke", REPLACED_METHOD_DESCRIPTOR);
                b.add(Opcode.GOTO);
                JumpMarker finish = JumpUtils.addJumpInstruction(b);
                performRealCall.mark();
                b.addInvokevirtual(Method.class.getName(), METHOD_NAME, METHOD_DESCRIPTOR);
                finish.mark();
                it.writeByte(CodeIterator.NOP, index);
                it.writeByte(CodeIterator.NOP, index + 1);
                it.writeByte(CodeIterator.NOP, index + 2);
                it.insert(b.get());
              }
            }
          }
          m.getCodeAttribute().computeMaxStack();
        } catch (Exception e) {
          log.error("Bad byte code transforming " + file.getName());
          e.printStackTrace();
        }
      }
      return true;
    } else {
      return false;
    }
  }
  /**
   * Replace access to fields of entities (for example, entity.field) with a call to the enhanced
   * getter / setter (in this example, entity.$$_hibernate_read_field()). It's assumed that the
   * target entity is enhanced as well.
   *
   * @param managedCtClass Class to enhance
   */
  public void enhanceFieldAccess(CtClass managedCtClass) {
    final ConstPool constPool = managedCtClass.getClassFile().getConstPool();

    for (Object oMethod : managedCtClass.getClassFile().getMethods()) {
      final MethodInfo methodInfo = (MethodInfo) oMethod;
      final String methodName = methodInfo.getName();

      // skip methods added by enhancement and abstract methods (methods without any code)
      if (methodName.startsWith("$$_hibernate_") || methodInfo.getCodeAttribute() == null) {
        continue;
      }

      try {
        final CodeIterator itr = methodInfo.getCodeAttribute().iterator();
        while (itr.hasNext()) {
          int index = itr.next();
          int op = itr.byteAt(index);
          if (op != Opcode.PUTFIELD && op != Opcode.GETFIELD) {
            continue;
          }
          String fieldName = constPool.getFieldrefName(itr.u16bitAt(index + 1));
          String fieldClassName =
              constPool.getClassInfo(constPool.getFieldrefClass(itr.u16bitAt(index + 1)));
          CtClass targetCtClass = this.classPool.getCtClass(fieldClassName);

          if (!enhancementContext.isEntityClass(targetCtClass)
              && !enhancementContext.isCompositeClass(targetCtClass)) {
            continue;
          }
          if (targetCtClass == managedCtClass
              || !enhancementContext.isPersistentField(targetCtClass.getField(fieldName))
              || "this$0".equals(fieldName)) {
            continue;
          }

          log.debugf("Transforming access to field [%s] from method [%s]", fieldName, methodName);

          if (op == Opcode.GETFIELD) {
            int fieldReaderMethodIndex =
                constPool.addMethodrefInfo(
                    constPool.addClassInfo(fieldClassName),
                    EnhancerConstants.PERSISTENT_FIELD_READER_PREFIX + fieldName,
                    "()" + constPool.getFieldrefType(itr.u16bitAt(index + 1)));
            itr.writeByte(Opcode.INVOKEVIRTUAL, index);
            itr.write16bit(fieldReaderMethodIndex, index + 1);
          } else {
            int fieldWriterMethodIndex =
                constPool.addMethodrefInfo(
                    constPool.addClassInfo(fieldClassName),
                    EnhancerConstants.PERSISTENT_FIELD_WRITER_PREFIX + fieldName,
                    "(" + constPool.getFieldrefType(itr.u16bitAt(index + 1)) + ")V");
            itr.writeByte(Opcode.INVOKEVIRTUAL, index);
            itr.write16bit(fieldWriterMethodIndex, index + 1);
          }
        }
        methodInfo.getCodeAttribute().setAttribute(MapMaker.make(classPool, methodInfo));
      } catch (BadBytecode bb) {
        final String msg =
            String.format(
                "Unable to perform field access transformation in method [%s]", methodName);
        throw new EnhancementException(msg, bb);
      } catch (NotFoundException nfe) {
        final String msg =
            String.format(
                "Unable to perform field access transformation in method [%s]", methodName);
        throw new EnhancementException(msg, nfe);
      }
    }
  }
Пример #7
0
 public boolean match(String filename, ClassFile classFile, ClassMap tempClassMap) {
   for (Object o : classFile.getMethods()) {
     MethodInfo methodInfo = (MethodInfo) o;
     classMod.methodInfo = methodInfo;
     CodeAttribute codeAttribute = methodInfo.getCodeAttribute();
     if (codeAttribute == null) {
       continue;
     }
     if (getClassMap().hasMap(deobfMethod)) {
       MethodRef obfTarget = (MethodRef) getClassMap().map(deobfMethod);
       if (!methodInfo.getName().equals(obfTarget.getName())) {
         continue;
       }
     }
     ArrayList<String> deobfTypes = null;
     ArrayList<String> obfTypes = null;
     if (deobfMethod != null && deobfMethod.getType() != null) {
       deobfTypes = ConstPoolUtils.parseDescriptor(deobfMethod.getType());
       obfTypes = ConstPoolUtils.parseDescriptor(methodInfo.getDescriptor());
       if (!isPotentialTypeMatch(deobfTypes, obfTypes)) {
         continue;
       }
     }
     ConstPool constPool = methodInfo.getConstPool();
     CodeIterator codeIterator = codeAttribute.iterator();
     initMatcher();
     ArrayList<JavaRef> tempMappings = new ArrayList<JavaRef>();
     try {
       match:
       for (int offset = 0;
           offset < codeIterator.getCodeLength() && matcher.match(methodInfo, offset);
           offset = codeIterator.next()) {
         tempMappings.clear();
         for (Map.Entry<Integer, JavaRef> entry : xrefs.entrySet()) {
           int captureGroup = entry.getKey();
           JavaRef xref = entry.getValue();
           byte[] code = matcher.getCaptureGroup(captureGroup);
           int index = Util.demarshal(code, 1, 2);
           ConstPoolUtils.matchOpcodeToRefType(code[0], xref);
           ConstPoolUtils.matchConstPoolTagToRefType(constPool.getTag(index), xref);
           JavaRef newRef = ConstPoolUtils.getRefForIndex(constPool, index);
           if (!isPotentialTypeMatch(xref.getType(), newRef.getType())) {
             if (deobfMethod != null) {
               Logger.log(
                   Logger.LOG_METHOD,
                   "method %s %s matches %s %s, but",
                   methodInfo.getName(),
                   methodInfo.getDescriptor(),
                   deobfMethod.getName(),
                   deobfMethod.getType());
             }
             Logger.log(
                 Logger.LOG_METHOD,
                 "method %s %s failed xref #%d %s %s -> %s %s",
                 methodInfo.getName(),
                 methodInfo.getDescriptor(),
                 captureGroup,
                 xref.getName(),
                 xref.getType(),
                 newRef.getName(),
                 newRef.getType());
             continue match;
           }
           tempMappings.add(xref);
           tempMappings.add(newRef);
         }
         for (int i = 0; i + 1 < tempMappings.size(); i += 2) {
           tempClassMap.addMap(tempMappings.get(i), tempMappings.get(i + 1));
         }
         if (deobfMethod != null) {
           String deobfName = classMod.getDeobfClass();
           tempClassMap.addClassMap(deobfName, ClassMap.filenameToClassName(filename));
           tempClassMap.addMethodMap(
               deobfName, deobfMethod.getName(), methodInfo.getName(), methodInfo.getDescriptor());
           if (deobfTypes != null && obfTypes != null) {
             for (int i = 0; i < deobfTypes.size(); i++) {
               String desc = ClassMap.descriptorToClassName(deobfTypes.get(i));
               String obf = ClassMap.descriptorToClassName(obfTypes.get(i));
               if (!obf.equals(desc)) {
                 tempClassMap.addClassMap(desc, obf);
               }
             }
           }
         }
         afterMatch(classFile, methodInfo);
         classMod.methodInfo = null;
         return true;
       }
     } catch (BadBytecode e) {
       Logger.log(e);
     }
   }
   classMod.methodInfo = null;
   return false;
 }
 /**
  * Add Method to ConstPool. If method was not in the ConstPool will add and return index,
  * otherwise will return index of already existing entry of constpool
  */
 private static int addMethod(ConstPool cPool, CtMethod method) {
   // addMethodrefInfo is a safe add, if constant already present it return the existing value
   // without adding.
   return cPool.addMethodrefInfo(
       cPool.getThisClassInfo(), method.getName(), method.getSignature());
 }
  protected void checkClassFile(ClassFile file) throws Exception {
    Map<Integer, Triple> calls = new HashMap<>();

    ConstPool pool = file.getConstPool();
    for (int i = 1; i < pool.getSize(); ++i) {
      // we have a method call
      BytecodeUtils.Ref ref = BytecodeUtils.getRef(pool, i);
      String className = ref.getClassName(pool, i);
      if (className != null) {
        String methodName = ref.getName(pool, i);
        String methodDesc = ref.getDesc(pool, i);
        fillCalls(i, className, methodName, methodDesc, calls);
      }
    }

    if (calls.isEmpty() && annotations.isEmpty()) {
      return;
    }

    String className = file.getName();

    AnnotationsAttribute faa =
        (AnnotationsAttribute) file.getAttribute(AnnotationsAttribute.visibleTag);
    checkAnnotations(className, TYPE_USAGE.getMethodName(), faa, -1);

    List<MethodInfo> methods = file.getMethods();
    for (MethodInfo m : methods) {
      try {
        // ignore abstract methods
        if (m.getCodeAttribute() == null) {
          continue;
        }

        AnnotationsAttribute maa =
            (AnnotationsAttribute) m.getAttribute(AnnotationsAttribute.visibleTag);
        boolean annotationsChecked = false;
        int firstLine = -1;

        CodeIterator it = m.getCodeAttribute().iterator();
        while (it.hasNext()) {
          // loop through the bytecode
          final int index = it.next();
          final int line = m.getLineNumber(index);

          if (annotationsChecked == false) {
            annotationsChecked = true;
            firstLine = line;
            checkAnnotations(
                className, m.getName(), maa, line - 2); // -2 to get the line above the method
          }

          int op = it.byteAt(index);
          // if the bytecode is a method invocation
          if (op == CodeIterator.INVOKEVIRTUAL
              || op == CodeIterator.INVOKESTATIC
              || op == CodeIterator.INVOKEINTERFACE
              || op == CodeIterator.INVOKESPECIAL) {
            int val = it.s16bitAt(index + 1);
            Triple triple = calls.get(val);
            if (triple != null) {
              Map<Tuple, Set<CodeLine>> map = report.get(triple.className);
              Set<CodeLine> set = map.get(triple.tuple);
              CodeLine cl = new CodeLine(className, m.getName(), line);
              set.add(cl.modify()); // check for .jsp, etc
            }
          }
        }

        if (BaseMethodExclusion.isBridge(m) == false) {
          SignatureAttribute.MethodSignature signature =
              SignatureAttribute.toMethodSignature(m.getDescriptor());
          handleMethodSignature(className, m.getName(), firstLine - 1, signature.getReturnType());
          handleMethodSignature(
              className, m.getName(), firstLine - 1, signature.getParameterTypes());
          handleMethodSignature(
              className, m.getName(), firstLine - 1, signature.getExceptionTypes());
        }

        ParameterAnnotationsAttribute paa =
            (ParameterAnnotationsAttribute)
                m.getAttribute(ParameterAnnotationsAttribute.visibleTag);
        if (paa != null) {
          Annotation[][] paas = paa.getAnnotations();
          if (paas != null) {
            for (Annotation[] params : paas) {
              for (Annotation a : params) {
                for (Map.Entry<String, Boolean> entry : annotations.entrySet()) {
                  if (entry.getKey().equals(a.getTypeName())) {
                    checkAnnotation(
                        className, m.getName(), firstLine - 1, entry.getValue(), entry.getKey(), a);
                  }
                }
              }
            }
          }
        }

        m.getCodeAttribute().computeMaxStack();
      } catch (Exception e) {
        e.printStackTrace();
      }
    }
  }