signature.cpp 13.0 KB
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/*
 * Copyright 1997-2006 Sun Microsystems, Inc.  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.
 *
 * 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 Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
 * CA 95054 USA or visit www.sun.com if you need additional information or
 * have any questions.
 *
 */

# include "incls/_precompiled.incl"
# include "incls/_signature.cpp.incl"


// Implementation of SignatureIterator

// Signature syntax:
//
// Signature  = "(" {Parameter} ")" ReturnType.
// Parameter  = FieldType.
// ReturnType = FieldType | "V".
// FieldType  = "B" | "C" | "D" | "F" | "I" | "J" | "S" | "Z" | "L" ClassName ";" | "[" FieldType.
// ClassName  = string.


SignatureIterator::SignatureIterator(symbolHandle signature) {
  assert(signature->is_symbol(), "not a symbol");
  _signature       = signature;
  _parameter_index = 0;
}

// Overloaded version called without handle
SignatureIterator::SignatureIterator(symbolOop signature) {
  symbolHandle sh(Thread::current(), signature);
  _signature       = sh;
  _parameter_index = 0;
}

SignatureIterator::SignatureIterator(Thread *thread, symbolOop signature) {
  symbolHandle sh(thread, signature);
  _signature       = sh;
  _parameter_index = 0;
}

void SignatureIterator::expect(char c) {
  if (_signature->byte_at(_index) != c) fatal1("expecting %c", c);
  _index++;
}


void SignatureIterator::skip_optional_size() {
  symbolOop sig = _signature();
  char c = sig->byte_at(_index);
  while ('0' <= c && c <= '9') c = sig->byte_at(++_index);
}


int SignatureIterator::parse_type() {
  // Note: This function could be simplified by using "return T_XXX_size;"
  //       instead of the assignment and the break statements. However, it
  //       seems that the product build for win32_i486 with MS VC++ 6.0 doesn't
  //       work (stack underflow for some tests) - this seems to be a VC++ 6.0
  //       compiler bug (was problem - gri 4/27/2000).
  int size = -1;
  switch(_signature->byte_at(_index)) {
    case 'B': do_byte  (); if (_parameter_index < 0 ) _return_type = T_BYTE;
              _index++; size = T_BYTE_size   ; break;
    case 'C': do_char  (); if (_parameter_index < 0 ) _return_type = T_CHAR;
              _index++; size = T_CHAR_size   ; break;
    case 'D': do_double(); if (_parameter_index < 0 ) _return_type = T_DOUBLE;
              _index++; size = T_DOUBLE_size ; break;
    case 'F': do_float (); if (_parameter_index < 0 ) _return_type = T_FLOAT;
              _index++; size = T_FLOAT_size  ; break;
    case 'I': do_int   (); if (_parameter_index < 0 ) _return_type = T_INT;
              _index++; size = T_INT_size    ; break;
    case 'J': do_long  (); if (_parameter_index < 0 ) _return_type = T_LONG;
              _index++; size = T_LONG_size   ; break;
    case 'S': do_short (); if (_parameter_index < 0 ) _return_type = T_SHORT;
              _index++; size = T_SHORT_size  ; break;
    case 'Z': do_bool  (); if (_parameter_index < 0 ) _return_type = T_BOOLEAN;
              _index++; size = T_BOOLEAN_size; break;
    case 'V': do_void  (); if (_parameter_index < 0 ) _return_type = T_VOID;
              _index++; size = T_VOID_size;  ; break;
    case 'L':
      { int begin = ++_index;
        symbolOop sig = _signature();
        while (sig->byte_at(_index++) != ';') ;
        do_object(begin, _index);
      }
      if (_parameter_index < 0 ) _return_type = T_OBJECT;
      size = T_OBJECT_size;
      break;
    case '[':
      { int begin = ++_index;
        skip_optional_size();
        symbolOop sig = _signature();
        while (sig->byte_at(_index) == '[') {
          _index++;
          skip_optional_size();
        }
        if (sig->byte_at(_index) == 'L') {
          while (sig->byte_at(_index++) != ';') ;
        } else {
          _index++;
        }
        do_array(begin, _index);
       if (_parameter_index < 0 ) _return_type = T_ARRAY;
      }
      size = T_ARRAY_size;
      break;
    default:
      ShouldNotReachHere();
      break;
  }
  assert(size >= 0, "size must be set");
  return size;
}


void SignatureIterator::check_signature_end() {
  if (_index < _signature->utf8_length()) {
    tty->print_cr("too many chars in signature");
    _signature->print_value_on(tty);
    tty->print_cr(" @ %d", _index);
  }
}


void SignatureIterator::dispatch_field() {
  // no '(', just one (field) type
  _index = 0;
  _parameter_index = 0;
  parse_type();
  check_signature_end();
}


void SignatureIterator::iterate_parameters() {
  // Parse parameters
  _index = 0;
  _parameter_index = 0;
  expect('(');
  while (_signature->byte_at(_index) != ')') _parameter_index += parse_type();
  expect(')');
  _parameter_index = 0;
}

// Optimized version of iterat_parameters when fingerprint is known
void SignatureIterator::iterate_parameters( uint64_t fingerprint ) {
  uint64_t saved_fingerprint = fingerprint;

  // Check for too many arguments
  if ( fingerprint == UCONST64(-1) ) {
    SignatureIterator::iterate_parameters();
    return;
  }

  assert(fingerprint, "Fingerprint should not be 0");

  _parameter_index = 0;
  fingerprint = fingerprint >> (static_feature_size + result_feature_size);
  while ( 1 ) {
    switch ( fingerprint & parameter_feature_mask ) {
      case bool_parm:
        do_bool();
        _parameter_index += T_BOOLEAN_size;
        break;
      case byte_parm:
        do_byte();
        _parameter_index += T_BYTE_size;
        break;
      case char_parm:
        do_char();
        _parameter_index += T_CHAR_size;
        break;
      case short_parm:
        do_short();
        _parameter_index += T_SHORT_size;
        break;
      case int_parm:
        do_int();
        _parameter_index += T_INT_size;
        break;
      case obj_parm:
        do_object(0, 0);
        _parameter_index += T_OBJECT_size;
        break;
      case long_parm:
        do_long();
        _parameter_index += T_LONG_size;
        break;
      case float_parm:
        do_float();
        _parameter_index += T_FLOAT_size;
        break;
      case double_parm:
        do_double();
        _parameter_index += T_DOUBLE_size;
        break;
      case done_parm:
        return;
        break;
      default:
        tty->print_cr("*** parameter is %d", fingerprint & parameter_feature_mask);
        tty->print_cr("*** fingerprint is " PTR64_FORMAT, saved_fingerprint);
        ShouldNotReachHere();
        break;
    }
    fingerprint >>= parameter_feature_size;
  }
  _parameter_index = 0;
}


void SignatureIterator::iterate_returntype() {
  // Ignore parameters
  _index = 0;
  expect('(');
  symbolOop sig = _signature();
  while (sig->byte_at(_index) != ')') _index++;
  expect(')');
  // Parse return type
  _parameter_index = -1;
  parse_type();
  check_signature_end();
  _parameter_index = 0;
}


void SignatureIterator::iterate() {
  // Parse parameters
  _parameter_index = 0;
  _index = 0;
  expect('(');
  while (_signature->byte_at(_index) != ')') _parameter_index += parse_type();
  expect(')');
  // Parse return type
  _parameter_index = -1;
  parse_type();
  check_signature_end();
  _parameter_index = 0;
}


// Implementation of SignatureStream

bool SignatureStream::is_done() const {
  return _end > _signature()->utf8_length();
}


void SignatureStream::next_non_primitive(int t) {
  switch (t) {
    case 'L': {
      _type = T_OBJECT;
      symbolOop sig = _signature();
      while (sig->byte_at(_end++) != ';');
      break;
    }
    case '[': {
      _type = T_ARRAY;
      symbolOop sig = _signature();
      char c = sig->byte_at(_end);
      while ('0' <= c && c <= '9') c = sig->byte_at(_end++);
      while (sig->byte_at(_end) == '[') {
        _end++;
        c = sig->byte_at(_end);
        while ('0' <= c && c <= '9') c = sig->byte_at(_end++);
      }
      switch(sig->byte_at(_end)) {
        case 'B':
        case 'C':
        case 'D':
        case 'F':
        case 'I':
        case 'J':
        case 'S':
        case 'Z':_end++; break;
        default: {
          while (sig->byte_at(_end++) != ';');
          break;
        }
      }
      break;
    }
    case ')': _end++; next(); _at_return_type = true; break;
    default : ShouldNotReachHere();
  }
}


bool SignatureStream::is_object() const {
  return _type == T_OBJECT
      || _type == T_ARRAY;
}

bool SignatureStream::is_array() const {
  return _type == T_ARRAY;
}

symbolOop SignatureStream::as_symbol(TRAPS) {
  // Create a symbol from for string _begin _end
  int begin = _begin;
  int end   = _end;

  if (   _signature()->byte_at(_begin) == 'L'
      && _signature()->byte_at(_end-1) == ';') {
    begin++;
    end--;
  }

  symbolOop result = oopFactory::new_symbol(_signature, begin, end, CHECK_NULL);
  return result;
}

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klassOop SignatureStream::as_klass(Handle class_loader, Handle protection_domain,
                                   FailureMode failure_mode, TRAPS) {
  if (!is_object())  return NULL;
  symbolOop name = as_symbol(CHECK_NULL);
  if (failure_mode == ReturnNull) {
    return SystemDictionary::resolve_or_null(name, class_loader, protection_domain, THREAD);
  } else {
    bool throw_error = (failure_mode == NCDFError);
    return SystemDictionary::resolve_or_fail(name, class_loader, protection_domain, throw_error, THREAD);
  }
}

oop SignatureStream::as_java_mirror(Handle class_loader, Handle protection_domain,
                                    FailureMode failure_mode, TRAPS) {
  if (!is_object())
    return Universe::java_mirror(type());
  klassOop klass = as_klass(class_loader, protection_domain, failure_mode, CHECK_NULL);
  if (klass == NULL)  return NULL;
  return Klass::cast(klass)->java_mirror();
}
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symbolOop SignatureStream::as_symbol_or_null() {
  // Create a symbol from for string _begin _end
  ResourceMark rm;

  int begin = _begin;
  int end   = _end;

  if (   _signature()->byte_at(_begin) == 'L'
      && _signature()->byte_at(_end-1) == ';') {
    begin++;
    end--;
  }

  char* buffer = NEW_RESOURCE_ARRAY(char, end - begin);
  for (int index = begin; index < end; index++) {
    buffer[index - begin] = _signature()->byte_at(index);
  }
  symbolOop result = SymbolTable::probe(buffer, end - begin);
  return result;
}

bool SignatureVerifier::is_valid_signature(symbolHandle sig) {
  const char* signature = (const char*)sig->bytes();
  ssize_t len = sig->utf8_length();
  if (signature == NULL || signature[0] == '\0' || len < 1) {
    return false;
  } else if (signature[0] == '(') {
    return is_valid_method_signature(sig);
  } else {
    return is_valid_type_signature(sig);
  }
}

bool SignatureVerifier::is_valid_method_signature(symbolHandle sig) {
  const char* method_sig = (const char*)sig->bytes();
  ssize_t len = sig->utf8_length();
  ssize_t index = 0;
  if (method_sig != NULL && len > 1 && method_sig[index] == '(') {
    ++index;
    while (index < len && method_sig[index] != ')') {
      ssize_t res = is_valid_type(&method_sig[index], len - index);
      if (res == -1) {
        return false;
      } else {
        index += res;
      }
    }
    if (index < len && method_sig[index] == ')') {
      // check the return type
      ++index;
      return (is_valid_type(&method_sig[index], len - index) == (len - index));
    }
  }
  return false;
}

bool SignatureVerifier::is_valid_type_signature(symbolHandle sig) {
  const char* type_sig = (const char*)sig->bytes();
  ssize_t len = sig->utf8_length();
  return (type_sig != NULL && len >= 1 &&
          (is_valid_type(type_sig, len) == len));
}

// Checks to see if the type (not to go beyond 'limit') refers to a valid type.
// Returns -1 if it is not, or the index of the next character that is not part
// of the type.  The type encoding may end before 'limit' and that's ok.
ssize_t SignatureVerifier::is_valid_type(const char* type, ssize_t limit) {
  ssize_t index = 0;

  // Iterate over any number of array dimensions
  while (index < limit && type[index] == '[') ++index;
  if (index >= limit) {
    return -1;
  }
  switch (type[index]) {
    case 'B': case 'C': case 'D': case 'F': case 'I':
    case 'J': case 'S': case 'Z': case 'V':
      return index + 1;
    case 'L':
      for (index = index + 1; index < limit; ++index) {
        char c = type[index];
        if (c == ';') {
          return index + 1;
        }
        if (invalid_name_char(c)) {
          return -1;
        }
      }
      // fall through
    default: ; // fall through
  }
  return -1;
}

bool SignatureVerifier::invalid_name_char(char c) {
  switch (c) {
    case '\0': case '.': case ';': case '[':
      return true;
    default:
      return false;
  }
}