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gnu / gcc / refs/heads/releases/gcc-4.8 / . / gcc / java / verify-glue.c
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/* Glue to interface gcj with bytecode verifier.
Copyright (C) 2003-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC 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 for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>.
Java and all Java-based marks are trademarks or registered trademarks
of Sun Microsystems, Inc. in the United States and other countries.
The Free Software Foundation is independent of Sun Microsystems, Inc. */
/* Written by Tom Tromey <tromey@redhat.com>. */
#include "config.h"
#include "system.h"
#include "coretypes.h"
#include "tree.h"
#include "parse.h"
#include "verify.h"
#include "java-tree.h"
#include "java-except.h"
#include "diagnostic-core.h"
void *
vfy_alloc (size_t bytes)
{
return xmalloc (bytes);
}
void
vfy_free (void *mem)
{
free (mem);
}
bool
vfy_strings_equal (vfy_string one, vfy_string two)
{
return one == two;
}
const char *
vfy_string_bytes (vfy_string str)
{
return IDENTIFIER_POINTER (str);
}
int
vfy_string_length (vfy_string str)
{
return IDENTIFIER_LENGTH (str);
}
vfy_string
vfy_init_name (void)
{
return init_identifier_node;
}
vfy_string
vfy_clinit_name (void)
{
return clinit_identifier_node;
}
static const char*
skip_one_type (const char* ptr)
{
int ch = *ptr++;
while (ch == '[')
{
ch = *ptr++;
}
if (ch == 'L')
{
do { ch = *ptr++; } while (ch != ';');
}
return ptr;
}
int
vfy_count_arguments (vfy_string signature)
{
const char *ptr = IDENTIFIER_POINTER (signature);
int arg_count = 0;
/* Skip '('. */
ptr++;
/* Count args. */
while (*ptr != ')')
{
ptr = skip_one_type (ptr);
arg_count += 1;
}
return arg_count;
}
vfy_string
vfy_get_string (const char *s, int len)
{
return get_identifier_with_length (s, len);
}
vfy_string
vfy_get_signature (vfy_method *method)
{
return method->signature;
}
vfy_string
vfy_get_method_name (vfy_method *method)
{
return method->name;
}
bool
vfy_is_static (vfy_method *method)
{
return METHOD_STATIC (method->method);
}
const unsigned char *
vfy_get_bytecode (vfy_method *method)
{
return method->bytes;
}
vfy_exception *
vfy_get_exceptions (vfy_method *method)
{
return method->exceptions;
}
void
vfy_get_exception (vfy_exception *exceptions, int index, int *handler,
int *start, int *end, int *handler_type)
{
*handler = exceptions[index].handler;
*start = exceptions[index].start;
*end = exceptions[index].end;
*handler_type = exceptions[index].type;
}
int
vfy_tag (vfy_constants *pool, int index)
{
int result = JPOOL_TAG (pool, index);
/* gcj will resolve constant pool entries other than string and
class references. The verifier doesn't care about the values, so
we just strip off the resolved flag. */
if ((result & CONSTANT_ResolvedFlag) != 0
&& result != CONSTANT_ResolvedString
&& result != CONSTANT_ResolvedClass)
result &= ~ CONSTANT_ResolvedFlag;
return result;
}
void
vfy_load_indexes (vfy_constants *pool, int index,
vfy_uint_16 *index0, vfy_uint_16 *index1)
{
*index0 = JPOOL_USHORT1 (pool, index);
*index1 = JPOOL_USHORT2 (pool, index);
}
vfy_constants *
vfy_get_constants (vfy_jclass klass)
{
return TYPE_JCF (klass);
}
int
vfy_get_constants_size (vfy_jclass klass)
{
return JPOOL_SIZE (TYPE_JCF (klass));
}
vfy_string
vfy_get_pool_string (vfy_constants *pool, int index)
{
return get_name_constant (pool, index);
}
vfy_jclass
vfy_get_pool_class (vfy_constants *pool, int index)
{
vfy_jclass k;
k = get_class_constant (pool, index);
return k;
}
vfy_string
vfy_get_class_name (vfy_jclass klass)
{
return DECL_NAME (TYPE_NAME (klass));
}
bool
vfy_is_assignable_from (vfy_jclass target, vfy_jclass source)
{
/* Any class is always assignable to itself, or java.lang.Object. */
if (source == target || target == object_type_node)
return true;
/* For the C++ ABI, perform this test statically. */
if (! flag_indirect_dispatch)
return can_widen_reference_to (source, target);
/* For the BC-ABI, we assume at compile time that reference types are always
compatible. However, a type assertion table entry is emitted so that the
runtime can detect binary-incompatible changes. */
add_type_assertion (current_class, JV_ASSERT_TYPES_COMPATIBLE, source,
target);
return true;
}
char
vfy_get_primitive_char (vfy_jclass klass)
{
tree sig;
gcc_assert (vfy_is_primitive (klass));
sig = build_java_signature (klass);
return (IDENTIFIER_POINTER (sig))[0];
}
bool
vfy_is_array (vfy_jclass klass)
{
return TYPE_ARRAY_P (klass);
}
bool
vfy_is_interface (vfy_jclass klass)
{
return CLASS_INTERFACE (TYPE_NAME (klass));
}
bool
vfy_is_primitive (vfy_jclass klass)
{
return JPRIMITIVE_TYPE_P (klass);
}
vfy_jclass
vfy_get_superclass (vfy_jclass klass)
{
vfy_jclass k;
k = CLASSTYPE_SUPER (klass);
return k;
}
vfy_jclass
vfy_get_array_class (vfy_jclass klass)
{
vfy_jclass k;
k = build_java_array_type (klass, -1);
return k;
}
vfy_jclass
vfy_get_component_type (vfy_jclass klass)
{
vfy_jclass k;
gcc_assert (vfy_is_array (klass));
k = TYPE_ARRAY_ELEMENT (klass);
if (TREE_CODE (k) == POINTER_TYPE)
k = TREE_TYPE (k);
return k;
}
bool
vfy_is_abstract (vfy_jclass klass)
{
return CLASS_ABSTRACT (TYPE_NAME (klass));
}
vfy_jclass
vfy_find_class (vfy_jclass ignore ATTRIBUTE_UNUSED, vfy_string name)
{
vfy_jclass k;
k = get_type_from_signature (name);
if (TREE_CODE (k) == POINTER_TYPE)
k = TREE_TYPE (k);
return k;
}
vfy_jclass
vfy_object_type (void)
{
vfy_jclass k;
k = object_type_node;
return k;
}
vfy_jclass
vfy_class_type (void)
{
return class_type_node;
}
vfy_jclass
vfy_string_type (void)
{
vfy_jclass k;
k = string_type_node;
return k;
}
vfy_jclass
vfy_throwable_type (void)
{
vfy_jclass k;
k = throwable_type_node;
return k;
}
vfy_jclass
vfy_unsuitable_type (void)
{
return TYPE_SECOND;
}
vfy_jclass
vfy_return_address_type (void)
{
return TYPE_RETURN_ADDR;
}
vfy_jclass
vfy_null_type (void)
{
return TYPE_NULL;
}
bool
vfy_class_has_field (vfy_jclass klass, vfy_string name,
vfy_string signature)
{
tree field = TYPE_FIELDS (klass);
while (field != NULL_TREE)
{
if (DECL_NAME (field) == name
&& build_java_signature (TREE_TYPE (field)) == signature)
return true;
field = DECL_CHAIN (field);
}
return false;
}
int
vfy_fail (const char *message, int pc, vfy_jclass ignore1 ATTRIBUTE_UNUSED,
vfy_method *ignore2 ATTRIBUTE_UNUSED)
{
if (pc == -1)
error ("verification failed: %s", message);
else
error ("verification failed at PC=%d: %s", pc, message);
/* We have to return a value for the verifier to throw. */
return 1;
}
vfy_jclass
vfy_get_primitive_type (int type)
{
vfy_jclass k;
k = decode_newarray_type (type);
return k;
}
void
vfy_note_stack_depth (vfy_method *method, int pc, int depth)
{
tree val = make_tree_vec (method->max_locals + depth);
(*type_states)[pc] = val;
/* Called for side effects. */
lookup_label (pc);
}
void
vfy_note_stack_type (vfy_method *method, int pc, int slot, vfy_jclass type)
{
tree vec;
slot += method->max_locals;
if (type == object_type_node)
type = object_ptr_type_node;
vec = (*type_states)[pc];
TREE_VEC_ELT (vec, slot) = type;
/* Called for side effects. */
lookup_label (pc);
}
void
vfy_note_local_type (vfy_method *method ATTRIBUTE_UNUSED, int pc, int slot,
vfy_jclass type)
{
tree vec;
if (type == object_type_node)
type = object_ptr_type_node;
vec = (*type_states)[pc];
TREE_VEC_ELT (vec, slot) = type;
/* Called for side effects. */
lookup_label (pc);
}
void
vfy_note_instruction_seen (int pc)
{
instruction_bits[pc] |= BCODE_VERIFIED;
}
/* Verify the bytecodes of the current method.
Return 1 on success, 0 on failure. */
int
verify_jvm_instructions_new (JCF *jcf, const unsigned char *byte_ops,
long length)
{
vfy_method method;
int i, result, eh_count;
vfy_exception *exceptions;
method_init_exceptions ();
JCF_SEEK (jcf, DECL_CODE_OFFSET (current_function_decl) + length);
eh_count = JCF_readu2 (jcf);
exceptions = (vfy_exception *) xmalloc (eh_count * sizeof (vfy_exception));
for (i = 0; i < eh_count; ++i)
{
int start_pc, end_pc, handler_pc, catch_type;
unsigned char *p = jcf->read_ptr + 8 * i;
start_pc = GET_u2 (p);
end_pc = GET_u2 (p+2);
handler_pc = GET_u2 (p+4);
catch_type = GET_u2 (p+6);
if (start_pc < 0 || start_pc >= length
|| end_pc < 0 || end_pc > length || start_pc >= end_pc
|| handler_pc < 0 || handler_pc >= length)
{
error ("bad pc in exception_table");
free (exceptions);
return 0;
}
exceptions[i].handler = handler_pc;
exceptions[i].start = start_pc;
exceptions[i].end = end_pc;
exceptions[i].type = catch_type;
add_handler (start_pc, end_pc,
lookup_label (handler_pc),
catch_type == 0 ? NULL_TREE
: get_class_constant (jcf, catch_type));
instruction_bits[handler_pc] |= BCODE_EXCEPTION_TARGET;
}
gcc_assert (sanity_check_exception_range (&whole_range));
method.method = current_function_decl;
method.signature = build_java_signature (TREE_TYPE (current_function_decl));
method.name = DECL_NAME (current_function_decl);
method.bytes = byte_ops;
method.exceptions = exceptions;
method.defining_class = DECL_CONTEXT (current_function_decl);
method.max_stack = DECL_MAX_STACK (current_function_decl);
method.max_locals = DECL_MAX_LOCALS (current_function_decl);
method.code_length = length;
method.exc_count = eh_count;
result = verify_method (&method);
free (exceptions);
return result;
}