blob: 460d382c97c864ca95f663b4e4ccb33a2ed38f10 [file] [log] [blame]
// Copyright (c) 2011, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
#ifndef RUNTIME_VM_NATIVE_ENTRY_H_
#define RUNTIME_VM_NATIVE_ENTRY_H_
#include "platform/memory_sanitizer.h"
#include "vm/allocation.h"
#include "vm/exceptions.h"
#include "vm/heap/verifier.h"
#include "vm/log.h"
#include "vm/native_arguments.h"
#include "vm/native_function.h"
#include "vm/runtime_entry.h"
namespace dart {
// Forward declarations.
class Class;
class String;
#ifdef DEBUG
#define TRACE_NATIVE_CALL(format, name) \
if (FLAG_trace_natives) { \
THR_Print("Calling native: " format "\n", name); \
}
#else
#define TRACE_NATIVE_CALL(format, name) \
do { \
} while (0)
#endif
typedef ObjectPtr (*BootstrapNativeFunction)(Thread* thread,
Zone* zone,
NativeArguments* arguments);
#define DEFINE_NATIVE_ENTRY(name, type_argument_count, argument_count) \
static ObjectPtr DN_Helper##name(Isolate* isolate, Thread* thread, \
Zone* zone, NativeArguments* arguments); \
ObjectPtr BootstrapNatives::DN_##name(Thread* thread, Zone* zone, \
NativeArguments* arguments) { \
TRACE_NATIVE_CALL("%s", "" #name); \
ASSERT(arguments->NativeArgCount() == argument_count); \
/* Note: a longer type arguments vector may be passed */ \
ASSERT(arguments->NativeTypeArgCount() >= type_argument_count); \
return DN_Helper##name(thread->isolate(), thread, zone, arguments); \
} \
static ObjectPtr DN_Helper##name(Isolate* isolate, Thread* thread, \
Zone* zone, NativeArguments* arguments)
// Helpers that throw an argument exception.
void DartNativeThrowTypeArgumentCountException(int num_type_args,
int num_type_args_expected);
void DartNativeThrowArgumentException(const Instance& instance);
// Native should throw an exception if the wrong number of type arguments is
// passed.
#define NATIVE_TYPE_ARGUMENT_COUNT(expected) \
int __num_type_arguments = arguments->NativeTypeArgCount(); \
if (__num_type_arguments != expected) { \
DartNativeThrowTypeArgumentCountException(__num_type_arguments, expected); \
}
#define GET_NATIVE_TYPE_ARGUMENT(name, value) \
AbstractType& name = AbstractType::Handle(value);
// Natives should throw an exception if an illegal argument or null is passed.
// type name = value.
#define GET_NON_NULL_NATIVE_ARGUMENT(type, name, value) \
const Instance& __##name##_instance__ = \
Instance::CheckedHandle(zone, value); \
if (!__##name##_instance__.Is##type()) { \
DartNativeThrowArgumentException(__##name##_instance__); \
} \
const type& name = type::Cast(__##name##_instance__);
// Natives should throw an exception if an illegal argument is passed.
// type name = value.
#define GET_NATIVE_ARGUMENT(type, name, value) \
const Instance& __##name##_instance__ = \
Instance::CheckedHandle(zone, value); \
type& name = type::Handle(zone); \
if (!__##name##_instance__.IsNull()) { \
if (!__##name##_instance__.Is##type()) { \
DartNativeThrowArgumentException(__##name##_instance__); \
} \
} \
name ^= value;
// Helper class for resolving and handling native functions.
class NativeEntry : public AllStatic {
public:
static const intptr_t kNumArguments = 1;
static const intptr_t kNumCallWrapperArguments = 2;
// Resolve specified dart native function to the actual native entrypoint.
static NativeFunction ResolveNative(const Library& library,
const String& function_name,
int number_of_arguments,
bool* auto_setup_scope);
static const uint8_t* ResolveSymbolInLibrary(const Library& library,
uword pc);
static const uint8_t* ResolveSymbol(uword pc);
static uword BootstrapNativeCallWrapperEntry();
static void BootstrapNativeCallWrapper(Dart_NativeArguments args,
Dart_NativeFunction func);
static uword NoScopeNativeCallWrapperEntry();
static void NoScopeNativeCallWrapper(Dart_NativeArguments args,
Dart_NativeFunction func);
static uword AutoScopeNativeCallWrapperEntry();
static void AutoScopeNativeCallWrapper(Dart_NativeArguments args,
Dart_NativeFunction func);
static uword LinkNativeCallEntry();
static void LinkNativeCall(Dart_NativeArguments args);
private:
static void NoScopeNativeCallWrapperNoStackCheck(Dart_NativeArguments args,
Dart_NativeFunction func);
static void AutoScopeNativeCallWrapperNoStackCheck(Dart_NativeArguments args,
Dart_NativeFunction func);
static bool ReturnValueIsError(NativeArguments* arguments);
static void PropagateErrors(NativeArguments* arguments);
};
#if !defined(DART_PRECOMPILED_RUNTIME)
class NativeEntryData : public ValueObject {
public:
explicit NativeEntryData(const TypedData& data) : data_(data) {}
MethodRecognizer::Kind kind() const;
void set_kind(MethodRecognizer::Kind value) const;
static MethodRecognizer::Kind GetKind(TypedDataPtr data);
NativeFunctionWrapper trampoline() const;
void set_trampoline(NativeFunctionWrapper value) const;
static NativeFunctionWrapper GetTrampoline(TypedDataPtr data);
NativeFunction native_function() const;
void set_native_function(NativeFunction value) const;
static NativeFunction GetNativeFunction(TypedDataPtr data);
intptr_t argc_tag() const;
void set_argc_tag(intptr_t value) const;
static intptr_t GetArgcTag(TypedDataPtr data);
static TypedDataPtr New(MethodRecognizer::Kind kind,
NativeFunctionWrapper trampoline,
NativeFunction native_function,
intptr_t argc_tag);
private:
struct Payload {
NativeFunctionWrapper trampoline;
NativeFunction native_function;
intptr_t argc_tag;
MethodRecognizer::Kind kind;
};
static Payload* FromTypedArray(TypedDataPtr data);
const TypedData& data_;
friend class ObjectPoolSerializationCluster;
DISALLOW_COPY_AND_ASSIGN(NativeEntryData);
};
#endif // !defined(DART_PRECOMPILED_RUNTIME)
} // namespace dart
#endif // RUNTIME_VM_NATIVE_ENTRY_H_