/** Parses a {@code LineNumberTable} attribute. */
  private Attribute lineNumberTable(
      DirectClassFile cf, int offset, int length, ParseObserver observer) {
    if (length < 2) {
      return throwSeverelyTruncated();
    }

    ByteArray bytes = cf.getBytes();
    int count = bytes.getUnsignedShort(offset); // line_number_table_length

    if (observer != null) {
      observer.parsed(bytes, offset, 2, "line_number_table_length: " + Hex.u2(count));
    }

    offset += 2;
    length -= 2;

    if (length != (count * 4)) {
      throwBadLength((count * 4) + 2);
    }

    LineNumberList list = new LineNumberList(count);

    for (int i = 0; i < count; i++) {
      int startPc = bytes.getUnsignedShort(offset);
      int lineNumber = bytes.getUnsignedShort(offset + 2);
      list.set(i, startPc, lineNumber);
      if (observer != null) {
        observer.parsed(bytes, offset, 4, Hex.u2(startPc) + " " + lineNumber);
      }
      offset += 4;
    }

    list.setImmutable();
    return new AttLineNumberTable(list);
  }
  /**
   * Parse the table part of either a {@code LocalVariableTable} or a {@code
   * LocalVariableTypeTable}.
   *
   * @param bytes {@code non-null;} bytes to parse, which should <i>only</i> contain the table data
   *     (no header)
   * @param pool {@code non-null;} constant pool to use
   * @param count {@code >= 0;} the number of entries
   * @param typeTable {@code true} iff this is for a type table
   * @return {@code non-null;} the constructed list
   */
  private LocalVariableList parseLocalVariables(
      ByteArray bytes, ConstantPool pool, ParseObserver observer, int count, boolean typeTable) {
    if (bytes.size() != (count * 10)) {
      // "+ 2" is for the count.
      throwBadLength((count * 10) + 2);
    }

    ByteArray.MyDataInputStream in = bytes.makeDataInputStream();
    LocalVariableList list = new LocalVariableList(count);

    try {
      for (int i = 0; i < count; i++) {
        int startPc = in.readUnsignedShort();
        int length = in.readUnsignedShort();
        int nameIdx = in.readUnsignedShort();
        int typeIdx = in.readUnsignedShort();
        int index = in.readUnsignedShort();
        CstString name = (CstString) pool.get(nameIdx);
        CstString type = (CstString) pool.get(typeIdx);
        CstString descriptor = null;
        CstString signature = null;

        if (typeTable) {
          signature = type;
        } else {
          descriptor = type;
        }

        list.set(i, startPc, length, name, descriptor, signature, index);

        if (observer != null) {
          observer.parsed(
              bytes,
              i * 10,
              10,
              Hex.u2(startPc)
                  + ".."
                  + Hex.u2(startPc + length)
                  + " "
                  + Hex.u2(index)
                  + " "
                  + name.toHuman()
                  + " "
                  + type.toHuman());
        }
      }
    } catch (IOException ex) {
      throw new RuntimeException("shouldn't happen", ex);
    }

    list.setImmutable();
    return list;
  }
  /** Parses a {@code SourceFile} attribute. */
  private Attribute sourceFile(DirectClassFile cf, int offset, int length, ParseObserver observer) {
    if (length != 2) {
      throwBadLength(2);
    }

    ByteArray bytes = cf.getBytes();
    ConstantPool pool = cf.getConstantPool();
    int idx = bytes.getUnsignedShort(offset);
    CstString cst = (CstString) pool.get(idx);
    Attribute result = new AttSourceFile(cst);

    if (observer != null) {
      observer.parsed(bytes, offset, 2, "source: " + cst);
    }

    return result;
  }
  /** Parses a {@code LocalVariableTypeTable} attribute. */
  private Attribute localVariableTypeTable(
      DirectClassFile cf, int offset, int length, ParseObserver observer) {
    if (length < 2) {
      return throwSeverelyTruncated();
    }

    ByteArray bytes = cf.getBytes();
    int count = bytes.getUnsignedShort(offset);

    if (observer != null) {
      observer.parsed(bytes, offset, 2, "local_variable_type_table_length: " + Hex.u2(count));
    }

    LocalVariableList list =
        parseLocalVariables(
            bytes.slice(offset + 2, offset + length), cf.getConstantPool(), observer, count, true);
    return new AttLocalVariableTypeTable(list);
  }
  /** Parses a {@code ConstantValue} attribute. */
  private Attribute constantValue(
      DirectClassFile cf, int offset, int length, ParseObserver observer) {
    if (length != 2) {
      return throwBadLength(2);
    }

    ByteArray bytes = cf.getBytes();
    ConstantPool pool = cf.getConstantPool();
    int idx = bytes.getUnsignedShort(offset);
    TypedConstant cst = (TypedConstant) pool.get(idx);
    Attribute result = new AttConstantValue(cst);

    if (observer != null) {
      observer.parsed(bytes, offset, 2, "value: " + cst);
    }

    return result;
  }
  /** Parses an {@code Exceptions} attribute. */
  private Attribute exceptions(DirectClassFile cf, int offset, int length, ParseObserver observer) {
    if (length < 2) {
      return throwSeverelyTruncated();
    }

    ByteArray bytes = cf.getBytes();
    int count = bytes.getUnsignedShort(offset); // number_of_exceptions

    if (observer != null) {
      observer.parsed(bytes, offset, 2, "number_of_exceptions: " + Hex.u2(count));
    }

    offset += 2;
    length -= 2;

    if (length != (count * 2)) {
      throwBadLength((count * 2) + 2);
    }

    TypeList list = cf.makeTypeList(offset, count);
    return new AttExceptions(list);
  }
  /** Parses a {@code bootstrap} attribute. */
  private Attribute bootstrap(DirectClassFile cf, int offset, int length, ParseObserver observer) {
    if (length < 2) {
      throwBadLength(2);
    }

    ByteArray bytes = cf.getBytes();
    ConstantPool pool = cf.getConstantPool();
    int count = bytes.getUnsignedShort(offset);

    BootstrapMethodList list =
        parseBootstrapMethods(
            bytes.slice(offset + 2, offset + length), cf.getConstantPool(), observer, count);

    if (observer != null) {
      //            observer.parsed(bytes, offset, 2, "source: " + cst);
    }

    AttBootstrapMethods attBootstrapMethods = new AttBootstrapMethods(list);

    // -6 for header (cf. 4.7.21)
    offset += attBootstrapMethods.byteLength() - 6;

    return attBootstrapMethods;
  }
  /** Parses an {@code EnclosingMethod} attribute. */
  private Attribute enclosingMethod(
      DirectClassFile cf, int offset, int length, ParseObserver observer) {
    if (length != 4) {
      throwBadLength(4);
    }

    ByteArray bytes = cf.getBytes();
    ConstantPool pool = cf.getConstantPool();

    int idx = bytes.getUnsignedShort(offset);
    CstType type = (CstType) pool.get(idx);

    idx = bytes.getUnsignedShort(offset + 2);
    CstNat method = (CstNat) pool.get0Ok(idx);

    Attribute result = new AttEnclosingMethod(type, method);

    if (observer != null) {
      observer.parsed(bytes, offset, 2, "class: " + type);
      observer.parsed(bytes, offset + 2, 2, "method: " + DirectClassFile.stringOrNone(method));
    }

    return result;
  }
  /** Parses an {@code InnerClasses} attribute. */
  private Attribute innerClasses(
      DirectClassFile cf, int offset, int length, ParseObserver observer) {
    if (length < 2) {
      return throwSeverelyTruncated();
    }

    ByteArray bytes = cf.getBytes();
    ConstantPool pool = cf.getConstantPool();
    int count = bytes.getUnsignedShort(offset); // number_of_classes

    if (observer != null) {
      observer.parsed(bytes, offset, 2, "number_of_classes: " + Hex.u2(count));
    }

    offset += 2;
    length -= 2;

    if (length != (count * 8)) {
      throwBadLength((count * 8) + 2);
    }

    InnerClassList list = new InnerClassList(count);

    for (int i = 0; i < count; i++) {
      int innerClassIdx = bytes.getUnsignedShort(offset);
      int outerClassIdx = bytes.getUnsignedShort(offset + 2);
      int nameIdx = bytes.getUnsignedShort(offset + 4);
      int accessFlags = bytes.getUnsignedShort(offset + 6);
      CstType innerClass = (CstType) pool.get(innerClassIdx);
      CstType outerClass = (CstType) pool.get0Ok(outerClassIdx);
      CstString name = (CstString) pool.get0Ok(nameIdx);
      list.set(i, innerClass, outerClass, name, accessFlags);
      if (observer != null) {
        observer.parsed(
            bytes, offset, 2, "inner_class: " + DirectClassFile.stringOrNone(innerClass));
        observer.parsed(
            bytes, offset + 2, 2, "  outer_class: " + DirectClassFile.stringOrNone(outerClass));
        observer.parsed(bytes, offset + 4, 2, "  name: " + DirectClassFile.stringOrNone(name));
        observer.parsed(
            bytes, offset + 6, 2, "  access_flags: " + AccessFlags.innerClassString(accessFlags));
      }
      offset += 8;
    }

    list.setImmutable();
    return new AttInnerClasses(list);
  }
  private BootstrapMethodList parseBootstrapMethods(
      ByteArray bytes, ConstantPool pool, ParseObserver observer, int count) {

    ByteArray.MyDataInputStream in = bytes.makeDataInputStream();
    BootstrapMethodList list = new BootstrapMethodList(count);

    try {
      for (int i = 0; i < count; i++) {

        int bootstrap_method_ref = in.readUnsignedShort();
        CstMethodHandle methodHandle = (CstMethodHandle) pool.get(bootstrap_method_ref);
        int num_bootstrap_arguments = in.readUnsignedShort();
        BootstrapArgumentList bootstrapArgumentList =
            new BootstrapArgumentList(num_bootstrap_arguments);

        for (int j = 0; j < num_bootstrap_arguments; ++j) {
          int bootstrap_argument_idx = in.readUnsignedShort();
          Constant constant = pool.get(bootstrap_argument_idx);
          bootstrapArgumentList.set(j, constant);
        }

        bootstrapArgumentList.setImmutable();
        list.set(i, new BootstrapMethodList.BootstrapMethod(methodHandle, bootstrapArgumentList));

        if (observer != null) {
          //                    observer.parsed(bytes, i * 10, 10, Hex.u2(startPc) +
          //                            ".." + Hex.u2(startPc + length) + " " +
          //                            Hex.u2(index) + " " + name.toHuman() + " " +
          //                            type.toHuman());
        }
      }
    } catch (IOException ex) {
      throw new RuntimeException("shouldn't happen", ex);
    }

    list.setImmutable();
    return list;
  }
Пример #11
0
  /**
   * Does a registerizing dump.
   *
   * @param meth {@code non-null;} method data to dump
   */
  private void ropDump(ConcreteMethod meth) {
    TranslationAdvice advice = DexTranslationAdvice.THE_ONE;
    BytecodeArray code = meth.getCode();
    ByteArray bytes = code.getBytes();
    RopMethod rmeth = Ropper.convert(meth, advice);
    StringBuffer sb = new StringBuffer(2000);

    if (optimize) {
      boolean isStatic = AccessFlags.isStatic(meth.getAccessFlags());
      int paramWidth = computeParamWidth(meth, isStatic);
      rmeth = new Optimizer().optimize(rmeth, paramWidth, isStatic, true, advice);
    }

    BasicBlockList blocks = rmeth.getBlocks();
    int[] order = blocks.getLabelsInOrder();

    sb.append("first " + Hex.u2(rmeth.getFirstLabel()) + "\n");

    for (int label : order) {
      BasicBlock bb = blocks.get(blocks.indexOfLabel(label));
      sb.append("block ");
      sb.append(Hex.u2(label));
      sb.append("\n");

      IntList preds = rmeth.labelToPredecessors(label);
      int psz = preds.size();
      for (int i = 0; i < psz; i++) {
        sb.append("  pred ");
        sb.append(Hex.u2(preds.get(i)));
        sb.append("\n");
      }

      InsnList il = bb.getInsns();
      int ilsz = il.size();
      for (int i = 0; i < ilsz; i++) {
        Insn one = il.get(i);
        sb.append("  ");
        sb.append(il.get(i).toHuman());
        sb.append("\n");
      }

      IntList successors = bb.getSuccessors();
      int ssz = successors.size();
      if (ssz == 0) {
        sb.append("  returns\n");
      } else {
        int primary = bb.getPrimarySuccessor();
        for (int i = 0; i < ssz; i++) {
          int succ = successors.get(i);
          sb.append("  next ");
          sb.append(Hex.u2(succ));

          if ((ssz != 1) && (succ == primary)) {
            sb.append(" *");
          }

          sb.append("\n");
        }
      }
    }

    suppressDump = false;
    setAt(bytes, 0);
    parsed(bytes, 0, bytes.size(), sb.toString());
    suppressDump = true;
  }
Пример #12
0
  /**
   * Does a regular basic block dump.
   *
   * @param meth {@code non-null;} method data to dump
   */
  private void regularDump(ConcreteMethod meth) {
    BytecodeArray code = meth.getCode();
    ByteArray bytes = code.getBytes();
    ByteBlockList list = BasicBlocker.identifyBlocks(meth);
    int sz = list.size();
    CodeObserver codeObserver = new CodeObserver(bytes, BlockDumper.this);

    // Reset the dump cursor to the start of the bytecode.
    setAt(bytes, 0);

    suppressDump = false;

    int byteAt = 0;
    for (int i = 0; i < sz; i++) {
      ByteBlock bb = list.get(i);
      int start = bb.getStart();
      int end = bb.getEnd();

      if (byteAt < start) {
        parsed(bytes, byteAt, start - byteAt, "dead code " + Hex.u2(byteAt) + ".." + Hex.u2(start));
      }

      parsed(
          bytes,
          start,
          0,
          "block " + Hex.u2(bb.getLabel()) + ": " + Hex.u2(start) + ".." + Hex.u2(end));
      changeIndent(1);

      int len;
      for (int j = start; j < end; j += len) {
        len = code.parseInstruction(j, codeObserver);
        codeObserver.setPreviousOffset(j);
      }

      IntList successors = bb.getSuccessors();
      int ssz = successors.size();
      if (ssz == 0) {
        parsed(bytes, end, 0, "returns");
      } else {
        for (int j = 0; j < ssz; j++) {
          int succ = successors.get(j);
          parsed(bytes, end, 0, "next " + Hex.u2(succ));
        }
      }

      ByteCatchList catches = bb.getCatches();
      int csz = catches.size();
      for (int j = 0; j < csz; j++) {
        ByteCatchList.Item one = catches.get(j);
        CstType exceptionClass = one.getExceptionClass();
        parsed(
            bytes,
            end,
            0,
            "catch "
                + ((exceptionClass == CstType.OBJECT) ? "<any>" : exceptionClass.toHuman())
                + " -> "
                + Hex.u2(one.getHandlerPc()));
      }

      changeIndent(-1);
      byteAt = end;
    }

    int end = bytes.size();
    if (byteAt < end) {
      parsed(bytes, byteAt, end - byteAt, "dead code " + Hex.u2(byteAt) + ".." + Hex.u2(end));
    }

    suppressDump = true;
  }
  /** Parses a {@code Code} attribute. */
  private Attribute code(DirectClassFile cf, int offset, int length, ParseObserver observer) {
    if (length < 12) {
      return throwSeverelyTruncated();
    }

    ByteArray bytes = cf.getBytes();
    ConstantPool pool = cf.getConstantPool();
    int maxStack = bytes.getUnsignedShort(offset); // u2 max_stack
    int maxLocals = bytes.getUnsignedShort(offset + 2); // u2 max_locals
    int codeLength = bytes.getInt(offset + 4); // u4 code_length
    int origOffset = offset;

    if (observer != null) {
      observer.parsed(bytes, offset, 2, "max_stack: " + Hex.u2(maxStack));
      observer.parsed(bytes, offset + 2, 2, "max_locals: " + Hex.u2(maxLocals));
      observer.parsed(bytes, offset + 4, 4, "code_length: " + Hex.u4(codeLength));
    }

    offset += 8;
    length -= 8;

    if (length < (codeLength + 4)) {
      return throwTruncated();
    }

    int codeOffset = offset;
    offset += codeLength;
    length -= codeLength;
    BytecodeArray code = new BytecodeArray(bytes.slice(codeOffset, codeOffset + codeLength), pool);
    if (observer != null) {
      code.forEach(new CodeObserver(code.getBytes(), observer));
    }

    // u2 exception_table_length
    int exceptionTableLength = bytes.getUnsignedShort(offset);
    ByteCatchList catches =
        (exceptionTableLength == 0) ? ByteCatchList.EMPTY : new ByteCatchList(exceptionTableLength);

    if (observer != null) {
      observer.parsed(bytes, offset, 2, "exception_table_length: " + Hex.u2(exceptionTableLength));
    }

    offset += 2;
    length -= 2;

    if (length < (exceptionTableLength * 8 + 2)) {
      return throwTruncated();
    }

    for (int i = 0; i < exceptionTableLength; i++) {
      if (observer != null) {
        observer.changeIndent(1);
      }

      int startPc = bytes.getUnsignedShort(offset);
      int endPc = bytes.getUnsignedShort(offset + 2);
      int handlerPc = bytes.getUnsignedShort(offset + 4);
      int catchTypeIdx = bytes.getUnsignedShort(offset + 6);
      CstType catchType = (CstType) pool.get0Ok(catchTypeIdx);
      catches.set(i, startPc, endPc, handlerPc, catchType);
      if (observer != null) {
        observer.parsed(
            bytes,
            offset,
            8,
            Hex.u2(startPc)
                + ".."
                + Hex.u2(endPc)
                + " -> "
                + Hex.u2(handlerPc)
                + " "
                + ((catchType == null) ? "<any>" : catchType.toHuman()));
      }
      offset += 8;
      length -= 8;

      if (observer != null) {
        observer.changeIndent(-1);
      }
    }

    catches.setImmutable();

    AttributeListParser parser = new AttributeListParser(cf, CTX_CODE, offset, this);
    parser.setObserver(observer);

    StdAttributeList attributes = parser.getList();
    attributes.setImmutable();

    int attributeByteCount = parser.getEndOffset() - offset;
    if (attributeByteCount != length) {
      return throwBadLength(attributeByteCount + (offset - origOffset));
    }

    return new AttCode(maxStack, maxLocals, code, catches, attributes);
  }