runtime/vm/runtime_entry.h - sdk.git - Git at Google

 // 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_RUNTIME_ENTRY_H_
 #define RUNTIME_VM_RUNTIME_ENTRY_H_

 #include "vm/allocation.h"
 #if !defined(DART_PRECOMPILED_RUNTIME)
 #include "vm/compiler/runtime_api.h"
 #endif
 #include "vm/flags.h"
 #include "vm/heap/safepoint.h"
 #include "vm/log.h"
 #include "vm/native_arguments.h"
 #include "vm/runtime_entry_list.h"

 namespace dart {

 typedef void (*RuntimeFunction)(NativeArguments arguments);

 #if !defined(DART_PRECOMPILED_RUNTIME)
 using BaseRuntimeEntry = compiler::RuntimeEntry;
 #else
 using BaseRuntimeEntry = ValueObject;
 #endif

 // Class RuntimeEntry is used to encapsulate runtime functions, it includes
 // the entry point for the runtime function and the number of arguments expected
 // by the function.
 class RuntimeEntry : public BaseRuntimeEntry {
  public:
   RuntimeEntry(const char* name,
                RuntimeFunction function,
                intptr_t argument_count,
                bool is_leaf,
                bool is_float,
                bool can_lazy_deopt)
       :
 #if !defined(DART_PRECOMPILED_RUNTIME)
         compiler::RuntimeEntry(this, &CallInternal),
 #endif
         name_(name),
         function_(function),
         argument_count_(argument_count),
         is_leaf_(is_leaf),
         is_float_(is_float),
         can_lazy_deopt_(can_lazy_deopt) {
   }

   const char* name() const { return name_; }
   RuntimeFunction function() const { return function_; }
   intptr_t argument_count() const { return argument_count_; }
   bool is_leaf() const { return is_leaf_; }
   bool is_float() const { return is_float_; }
   bool can_lazy_deopt() const { return can_lazy_deopt_; }
   uword GetEntryPoint() const;

   // Generate code to call the runtime entry.
   NOT_IN_PRECOMPILED(void Call(compiler::Assembler* assembler,
                                intptr_t argument_count) const);

  protected:
   NOT_IN_PRECOMPILED(static void CallInternal(const RuntimeEntry* runtime_entry,
                                               compiler::Assembler* assembler,
                                               intptr_t argument_count));

  private:
   const char* const name_;
   const RuntimeFunction function_;
   const intptr_t argument_count_;
   const bool is_leaf_;
   const bool is_float_;
   const bool can_lazy_deopt_;

   DISALLOW_COPY_AND_ASSIGN(RuntimeEntry);
 };

 #ifdef DEBUG
 #define TRACE_RUNTIME_CALL(format, name)                                       \
   if (FLAG_trace_runtime_calls) {                                              \
     THR_Print("Runtime call: " format "\n", name);                             \
   }
 #else
 #define TRACE_RUNTIME_CALL(format, name)                                       \
   do {                                                                         \
   } while (0)
 #endif

 #if defined(USING_SIMULATOR)
 #define CHECK_SIMULATOR_STACK_OVERFLOW()                                       \
   if (!OSThread::Current()->HasStackHeadroom()) {                              \
     Exceptions::ThrowStackOverflow();                                          \
   }
 #else
 #define CHECK_SIMULATOR_STACK_OVERFLOW()
 #endif  // defined(USING_SIMULATOR)

 // Helper macros for declaring and defining runtime entries.

 #define DEFINE_RUNTIME_ENTRY_IMPL(name, argument_count, can_lazy_deopt)        \
   extern void DRT_##name(NativeArguments arguments);                           \
   extern const RuntimeEntry k##name##RuntimeEntry("DRT_" #name, &DRT_##name,   \
                                                   argument_count, false,       \
                                                   false, can_lazy_deopt);      \
   static void DRT_Helper##name(Isolate* isolate, Thread* thread, Zone* zone,   \
                                NativeArguments arguments);                     \
   void DRT_##name(NativeArguments arguments) {                                 \
     CHECK_STACK_ALIGNMENT;                                                     \
     /* Tell MemorySanitizer 'arguments' is initialized by generated code. */   \
     MSAN_UNPOISON(&arguments, sizeof(arguments));                              \
     ASSERT(arguments.ArgCount() == argument_count);                            \
     TRACE_RUNTIME_CALL("%s", "" #name);                                        \
     {                                                                          \
       Thread* thread = arguments.thread();                                     \
       ASSERT(thread == Thread::Current());                                     \
       RuntimeCallDeoptScope runtime_call_deopt_scope(                          \
           thread, can_lazy_deopt ? RuntimeCallDeoptAbility::kCanLazyDeopt      \
                                  : RuntimeCallDeoptAbility::kCannotLazyDeopt); \
       Isolate* isolate = thread->isolate();                                    \
       TransitionGeneratedToVM transition(thread);                              \
       StackZone zone(thread);                                                  \
       CHECK_SIMULATOR_STACK_OVERFLOW();                                        \
       if (FLAG_deoptimize_on_runtime_call_every > 0) {                         \
         OnEveryRuntimeEntryCall(thread, "" #name, can_lazy_deopt);             \
       }                                                                        \
       DRT_Helper##name(isolate, thread, zone.GetZone(), arguments);            \
     }                                                                          \
   }                                                                            \
   static void DRT_Helper##name(Isolate* isolate, Thread* thread, Zone* zone,   \
                                NativeArguments arguments)

 #define DEFINE_RUNTIME_ENTRY(name, argument_count)                             \
   DEFINE_RUNTIME_ENTRY_IMPL(name, argument_count, /*can_lazy_deopt=*/true)

 #define DEFINE_RUNTIME_ENTRY_NO_LAZY_DEOPT(name, argument_count)               \
   DEFINE_RUNTIME_ENTRY_IMPL(name, argument_count, /*can_lazy_deopt=*/false)

 #define DECLARE_RUNTIME_ENTRY(name)                                            \
   extern const RuntimeEntry k##name##RuntimeEntry;                             \
   extern void DRT_##name(NativeArguments arguments);

 #define DEFINE_LEAF_RUNTIME_ENTRY(type, name, argument_count, ...)             \
   extern "C" type DLRT_##name(__VA_ARGS__);                                    \
   extern const RuntimeEntry k##name##RuntimeEntry(                             \
       "DLRT_" #name, reinterpret_cast<RuntimeFunction>(&DLRT_##name),          \
       argument_count, true, false, /*can_lazy_deopt=*/false);                  \
   type DLRT_##name(__VA_ARGS__) {                                              \
     CHECK_STACK_ALIGNMENT;                                                     \
     NoSafepointScope no_safepoint_scope;

 #define END_LEAF_RUNTIME_ENTRY }

 // TODO(rmacnak): Fix alignment issue on simarm and use
 // DEFINE_LEAF_RUNTIME_ENTRY instead.
 #define DEFINE_RAW_LEAF_RUNTIME_ENTRY(name, argument_count, is_float, func)    \
   extern const RuntimeEntry k##name##RuntimeEntry(                             \
       "DFLRT_" #name, func, argument_count, true, is_float,                    \
       /*can_lazy_deopt=*/false)

 #define DECLARE_LEAF_RUNTIME_ENTRY(type, name, ...)                            \
   extern const RuntimeEntry k##name##RuntimeEntry;                             \
   extern "C" type DLRT_##name(__VA_ARGS__);

 // Declare all runtime functions here.
 RUNTIME_ENTRY_LIST(DECLARE_RUNTIME_ENTRY)
 LEAF_RUNTIME_ENTRY_LIST(DECLARE_LEAF_RUNTIME_ENTRY)

 // Expected to be called inside a safepoint.
 extern "C" Thread* DLRT_GetThreadForNativeCallback(uword callback_id);
 extern "C" Thread* DLRT_GetThreadForNativeCallbackTrampoline(uword callback_id);

 // For creating scoped handles in FFI trampolines.
 extern "C" ApiLocalScope* DLRT_EnterHandleScope(Thread* thread);
 extern "C" void DLRT_ExitHandleScope(Thread* thread);
 extern "C" LocalHandle* DLRT_AllocateHandle(ApiLocalScope* scope);

 const char* DeoptReasonToCString(ICData::DeoptReasonId deopt_reason);

 void OnEveryRuntimeEntryCall(Thread* thread,
                              const char* runtime_call_name,
                              bool can_lazy_deopt);

 void DeoptimizeAt(Thread* mutator_thread,
                   const Code& optimized_code,
                   StackFrame* frame);
 void DeoptimizeFunctionsOnStack();

 double DartModulo(double a, double b);

 }  // namespace dart

 #endif  // RUNTIME_VM_RUNTIME_ENTRY_H_
	// 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_RUNTIME_ENTRY_H_
	#define RUNTIME_VM_RUNTIME_ENTRY_H_

	#include "vm/allocation.h"
	#if !defined(DART_PRECOMPILED_RUNTIME)
	#include "vm/compiler/runtime_api.h"
	#endif
	#include "vm/flags.h"
	#include "vm/heap/safepoint.h"
	#include "vm/log.h"
	#include "vm/native_arguments.h"
	#include "vm/runtime_entry_list.h"

	namespace dart {

	typedef void (*RuntimeFunction)(NativeArguments arguments);

	#if !defined(DART_PRECOMPILED_RUNTIME)
	using BaseRuntimeEntry = compiler::RuntimeEntry;
	#else
	using BaseRuntimeEntry = ValueObject;
	#endif

	// Class RuntimeEntry is used to encapsulate runtime functions, it includes
	// the entry point for the runtime function and the number of arguments expected
	// by the function.
	class RuntimeEntry : public BaseRuntimeEntry {
	public:
	RuntimeEntry(const char* name,
	RuntimeFunction function,
	intptr_t argument_count,
	bool is_leaf,
	bool is_float,
	bool can_lazy_deopt)
	:
	#if !defined(DART_PRECOMPILED_RUNTIME)
	compiler::RuntimeEntry(this, &CallInternal),
	#endif
	name_(name),
	function_(function),
	argument_count_(argument_count),
	is_leaf_(is_leaf),
	is_float_(is_float),
	can_lazy_deopt_(can_lazy_deopt) {
	}

	const char* name() const { return name_; }
	RuntimeFunction function() const { return function_; }
	intptr_t argument_count() const { return argument_count_; }
	bool is_leaf() const { return is_leaf_; }
	bool is_float() const { return is_float_; }
	bool can_lazy_deopt() const { return can_lazy_deopt_; }
	uword GetEntryPoint() const;

	// Generate code to call the runtime entry.
	NOT_IN_PRECOMPILED(void Call(compiler::Assembler* assembler,
	intptr_t argument_count) const);

	protected:
	NOT_IN_PRECOMPILED(static void CallInternal(const RuntimeEntry* runtime_entry,
	compiler::Assembler* assembler,
	intptr_t argument_count));

	private:
	const char* const name_;
	const RuntimeFunction function_;
	const intptr_t argument_count_;
	const bool is_leaf_;
	const bool is_float_;
	const bool can_lazy_deopt_;

	DISALLOW_COPY_AND_ASSIGN(RuntimeEntry);
	};

	#ifdef DEBUG
	#define TRACE_RUNTIME_CALL(format, name) \
	if (FLAG_trace_runtime_calls) { \
	THR_Print("Runtime call: " format "\n", name); \
	}
	#else
	#define TRACE_RUNTIME_CALL(format, name) \
	do { \
	} while (0)
	#endif

	#if defined(USING_SIMULATOR)
	#define CHECK_SIMULATOR_STACK_OVERFLOW() \
	if (!OSThread::Current()->HasStackHeadroom()) { \
	Exceptions::ThrowStackOverflow(); \
	}
	#else
	#define CHECK_SIMULATOR_STACK_OVERFLOW()
	#endif // defined(USING_SIMULATOR)

	// Helper macros for declaring and defining runtime entries.

	#define DEFINE_RUNTIME_ENTRY_IMPL(name, argument_count, can_lazy_deopt) \
	extern void DRT_##name(NativeArguments arguments); \
	extern const RuntimeEntry k##name##RuntimeEntry("DRT_" #name, &DRT_##name, \
	argument_count, false, \
	false, can_lazy_deopt); \
	static void DRT_Helper##name(Isolate* isolate, Thread* thread, Zone* zone, \
	NativeArguments arguments); \
	void DRT_##name(NativeArguments arguments) { \
	CHECK_STACK_ALIGNMENT; \
	/* Tell MemorySanitizer 'arguments' is initialized by generated code. */ \
	MSAN_UNPOISON(&arguments, sizeof(arguments)); \
	ASSERT(arguments.ArgCount() == argument_count); \
	TRACE_RUNTIME_CALL("%s", "" #name); \
	{ \
	Thread* thread = arguments.thread(); \
	ASSERT(thread == Thread::Current()); \
	RuntimeCallDeoptScope runtime_call_deopt_scope( \
	thread, can_lazy_deopt ? RuntimeCallDeoptAbility::kCanLazyDeopt \
	: RuntimeCallDeoptAbility::kCannotLazyDeopt); \
	Isolate* isolate = thread->isolate(); \
	TransitionGeneratedToVM transition(thread); \
	StackZone zone(thread); \
	CHECK_SIMULATOR_STACK_OVERFLOW(); \
	if (FLAG_deoptimize_on_runtime_call_every > 0) { \
	OnEveryRuntimeEntryCall(thread, "" #name, can_lazy_deopt); \
	} \
	DRT_Helper##name(isolate, thread, zone.GetZone(), arguments); \
	} \
	} \
	static void DRT_Helper##name(Isolate* isolate, Thread* thread, Zone* zone, \
	NativeArguments arguments)

	#define DEFINE_RUNTIME_ENTRY(name, argument_count) \
	DEFINE_RUNTIME_ENTRY_IMPL(name, argument_count, /can_lazy_deopt=/true)

	#define DEFINE_RUNTIME_ENTRY_NO_LAZY_DEOPT(name, argument_count) \
	DEFINE_RUNTIME_ENTRY_IMPL(name, argument_count, /can_lazy_deopt=/false)

	#define DECLARE_RUNTIME_ENTRY(name) \
	extern const RuntimeEntry k##name##RuntimeEntry; \
	extern void DRT_##name(NativeArguments arguments);

	#define DEFINE_LEAF_RUNTIME_ENTRY(type, name, argument_count, ...) \
	extern "C" type DLRT_##name(__VA_ARGS__); \
	extern const RuntimeEntry k##name##RuntimeEntry( \
	"DLRT_" #name, reinterpret_cast<RuntimeFunction>(&DLRT_##name), \
	argument_count, true, false, /can_lazy_deopt=/false); \
	type DLRT_##name(__VA_ARGS__) { \
	CHECK_STACK_ALIGNMENT; \
	NoSafepointScope no_safepoint_scope;

	#define END_LEAF_RUNTIME_ENTRY }

	// TODO(rmacnak): Fix alignment issue on simarm and use
	// DEFINE_LEAF_RUNTIME_ENTRY instead.
	#define DEFINE_RAW_LEAF_RUNTIME_ENTRY(name, argument_count, is_float, func) \
	extern const RuntimeEntry k##name##RuntimeEntry( \
	"DFLRT_" #name, func, argument_count, true, is_float, \
	/can_lazy_deopt=/false)

	#define DECLARE_LEAF_RUNTIME_ENTRY(type, name, ...) \
	extern const RuntimeEntry k##name##RuntimeEntry; \
	extern "C" type DLRT_##name(__VA_ARGS__);

	// Declare all runtime functions here.
	RUNTIME_ENTRY_LIST(DECLARE_RUNTIME_ENTRY)
	LEAF_RUNTIME_ENTRY_LIST(DECLARE_LEAF_RUNTIME_ENTRY)

	// Expected to be called inside a safepoint.
	extern "C" Thread* DLRT_GetThreadForNativeCallback(uword callback_id);
	extern "C" Thread* DLRT_GetThreadForNativeCallbackTrampoline(uword callback_id);

	// For creating scoped handles in FFI trampolines.
	extern "C" ApiLocalScope* DLRT_EnterHandleScope(Thread* thread);
	extern "C" void DLRT_ExitHandleScope(Thread* thread);
	extern "C" LocalHandle* DLRT_AllocateHandle(ApiLocalScope* scope);

	const char* DeoptReasonToCString(ICData::DeoptReasonId deopt_reason);

	void OnEveryRuntimeEntryCall(Thread* thread,
	const char* runtime_call_name,
	bool can_lazy_deopt);

	void DeoptimizeAt(Thread* mutator_thread,
	const Code& optimized_code,
	StackFrame* frame);
	void DeoptimizeFunctionsOnStack();

	double DartModulo(double a, double b);

	} // namespace dart

	#endif // RUNTIME_VM_RUNTIME_ENTRY_H_