runtime/vm/code_patcher_ia32.cc - sdk - Git at Google

 // Copyright (c) 2012, 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.

 #include "vm/globals.h"  // Needed here to get TARGET_ARCH_IA32.
 #if defined(TARGET_ARCH_IA32)

 #include "vm/code_patcher.h"
 #include "vm/compiler/assembler/assembler.h"
 #include "vm/compiler/backend/flow_graph_compiler.h"
 #include "vm/cpu.h"
 #include "vm/dart_entry.h"
 #include "vm/instructions.h"
 #include "vm/object.h"
 #include "vm/raw_object.h"

 namespace dart {

 // The expected pattern of a Dart unoptimized call (static and instance):
 //  mov ECX, ic-data
 //  mov EDI, target-code-object
 //  call target_address (stub)
 //  <- return address
 class UnoptimizedCall : public ValueObject {
  public:
   explicit UnoptimizedCall(uword return_address)
       : start_(return_address - kPatternSize) {
     ASSERT(IsValid());
   }

   RawObject* ic_data() const {
     return *reinterpret_cast<RawObject**>(start_ + 1);
   }

   static const int kMovInstructionSize = 5;
   static const int kCallInstructionSize = 3;
   static const int kPatternSize =
       2 * kMovInstructionSize + kCallInstructionSize;

  private:
   bool IsValid() {
     uint8_t* code_bytes = reinterpret_cast<uint8_t*>(start_);
     return (code_bytes[0] == 0xB9) &&
            (code_bytes[2 * kMovInstructionSize] == 0xFF);
   }

   uword return_address() const { return start_ + kPatternSize; }

   uword call_address() const { return start_ + 2 * kMovInstructionSize; }

  protected:
   uword start_;

  private:
   DISALLOW_IMPLICIT_CONSTRUCTORS(UnoptimizedCall);
 };

 class NativeCall : public UnoptimizedCall {
  public:
   explicit NativeCall(uword return_address) : UnoptimizedCall(return_address) {}

   NativeFunction native_function() const {
     return *reinterpret_cast<NativeFunction*>(start_ + 1);
   }

   void set_native_function(NativeFunction func) const {
     WritableInstructionsScope writable(start_ + 1, sizeof(func));
     *reinterpret_cast<NativeFunction*>(start_ + 1) = func;
   }

  private:
   DISALLOW_IMPLICIT_CONSTRUCTORS(NativeCall);
 };

 class InstanceCall : public UnoptimizedCall {
  public:
   explicit InstanceCall(uword return_address)
       : UnoptimizedCall(return_address) {
 #if defined(DEBUG)
     ICData& test_ic_data = ICData::Handle();
     test_ic_data ^= ic_data();
     ASSERT(test_ic_data.NumArgsTested() > 0);
 #endif  // DEBUG
   }

  private:
   DISALLOW_IMPLICIT_CONSTRUCTORS(InstanceCall);
 };

 class UnoptimizedStaticCall : public UnoptimizedCall {
  public:
   explicit UnoptimizedStaticCall(uword return_address)
       : UnoptimizedCall(return_address) {
 #if defined(DEBUG)
     ICData& test_ic_data = ICData::Handle();
     test_ic_data ^= ic_data();
     ASSERT(test_ic_data.NumArgsTested() >= 0);
 #endif  // DEBUG
   }

  private:
   DISALLOW_IMPLICIT_CONSTRUCTORS(UnoptimizedStaticCall);
 };

 // The expected pattern of a dart static call:
 //  mov EDX, arguments_descriptor_array (optional in polymorphic calls)
 //  mov EDI, Immediate(code_object)
 //  call [EDI + entry_point_offset]
 //  <- return address
 class StaticCall : public ValueObject {
  public:
   explicit StaticCall(uword return_address)
       : start_(return_address - (kMovInstructionSize + kCallInstructionSize)) {
     ASSERT(IsValid());
   }

   bool IsValid() {
     uint8_t* code_bytes = reinterpret_cast<uint8_t*>(start_);
     return (code_bytes[0] == 0xBF) && (code_bytes[5] == 0xFF);
   }

   RawCode* target() const {
     const uword imm = *reinterpret_cast<uword*>(start_ + 1);
     return reinterpret_cast<RawCode*>(imm);
   }

   void set_target(const Code& target) const {
     uword* target_addr = reinterpret_cast<uword*>(start_ + 1);
     uword imm = reinterpret_cast<uword>(target.raw());
     *target_addr = imm;
     CPU::FlushICache(start_ + 1, sizeof(imm));
   }

   static const int kMovInstructionSize = 5;
   static const int kCallInstructionSize = 3;

  private:
   uword return_address() const {
     return start_ + kMovInstructionSize + kCallInstructionSize;
   }

   uword call_address() const { return start_ + kMovInstructionSize; }

   uword start_;

   DISALLOW_IMPLICIT_CONSTRUCTORS(StaticCall);
 };

 RawCode* CodePatcher::GetStaticCallTargetAt(uword return_address,
                                             const Code& code) {
   ASSERT(code.ContainsInstructionAt(return_address));
   StaticCall call(return_address);
   return call.target();
 }

 void CodePatcher::PatchStaticCallAt(uword return_address,
                                     const Code& code,
                                     const Code& new_target) {
   const Instructions& instrs = Instructions::Handle(code.instructions());
   WritableInstructionsScope writable(instrs.PayloadStart(), instrs.Size());
   ASSERT(code.ContainsInstructionAt(return_address));
   StaticCall call(return_address);
   call.set_target(new_target);
 }

 void CodePatcher::InsertDeoptimizationCallAt(uword start) {
   UNREACHABLE();
 }

 RawCode* CodePatcher::GetInstanceCallAt(uword return_address,
                                         const Code& code,
                                         ICData* ic_data) {
   ASSERT(code.ContainsInstructionAt(return_address));
   InstanceCall call(return_address);
   if (ic_data != NULL) {
     *ic_data ^= call.ic_data();
   }
   return Code::null();
 }

 RawFunction* CodePatcher::GetUnoptimizedStaticCallAt(uword return_address,
                                                      const Code& code,
                                                      ICData* ic_data_result) {
   ASSERT(code.ContainsInstructionAt(return_address));
   UnoptimizedStaticCall static_call(return_address);
   ICData& ic_data = ICData::Handle();
   ic_data ^= static_call.ic_data();
   if (ic_data_result != NULL) {
     *ic_data_result = ic_data.raw();
   }
   return ic_data.GetTargetAt(0);
 }

 void CodePatcher::PatchSwitchableCallAt(uword return_address,
                                         const Code& caller_code,
                                         const Object& data,
                                         const Code& target) {
   // Switchable instance calls only generated for precompilation.
   UNREACHABLE();
 }

 RawCode* CodePatcher::GetSwitchableCallTargetAt(uword return_address,
                                                 const Code& caller_code) {
   // Switchable instance calls only generated for precompilation.
   UNREACHABLE();
   return Code::null();
 }

 RawObject* CodePatcher::GetSwitchableCallDataAt(uword return_address,
                                                 const Code& caller_code) {
   // Switchable instance calls only generated for precompilation.
   UNREACHABLE();
   return Object::null();
 }

 void CodePatcher::PatchNativeCallAt(uword return_address,
                                     const Code& code,
                                     NativeFunction target,
                                     const Code& trampoline) {
   UNREACHABLE();
 }

 RawCode* CodePatcher::GetNativeCallAt(uword return_address,
                                       const Code& code,
                                       NativeFunction* target) {
   UNREACHABLE();
   return NULL;
 }

 intptr_t CodePatcher::InstanceCallSizeInBytes() {
   return InstanceCall::kPatternSize;
 }

 }  // namespace dart

 #endif  // defined TARGET_ARCH_IA32
	// Copyright (c) 2012, 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.

	#include "vm/globals.h" // Needed here to get TARGET_ARCH_IA32.
	#if defined(TARGET_ARCH_IA32)

	#include "vm/code_patcher.h"
	#include "vm/compiler/assembler/assembler.h"
	#include "vm/compiler/backend/flow_graph_compiler.h"
	#include "vm/cpu.h"
	#include "vm/dart_entry.h"
	#include "vm/instructions.h"
	#include "vm/object.h"
	#include "vm/raw_object.h"

	namespace dart {

	// The expected pattern of a Dart unoptimized call (static and instance):
	// mov ECX, ic-data
	// mov EDI, target-code-object
	// call target_address (stub)
	// <- return address
	class UnoptimizedCall : public ValueObject {
	public:
	explicit UnoptimizedCall(uword return_address)
	: start_(return_address - kPatternSize) {
	ASSERT(IsValid());
	}

	RawObject* ic_data() const {
	return reinterpret_cast<RawObject*>(start_ + 1);
	}

	static const int kMovInstructionSize = 5;
	static const int kCallInstructionSize = 3;
	static const int kPatternSize =
	2 * kMovInstructionSize + kCallInstructionSize;

	private:
	bool IsValid() {
	uint8_t* code_bytes = reinterpret_cast<uint8_t*>(start_);
	return (code_bytes[0] == 0xB9) &&
	(code_bytes[2 * kMovInstructionSize] == 0xFF);
	}

	uword return_address() const { return start_ + kPatternSize; }

	uword call_address() const { return start_ + 2 * kMovInstructionSize; }

	protected:
	uword start_;

	private:
	DISALLOW_IMPLICIT_CONSTRUCTORS(UnoptimizedCall);
	};

	class NativeCall : public UnoptimizedCall {
	public:
	explicit NativeCall(uword return_address) : UnoptimizedCall(return_address) {}

	NativeFunction native_function() const {
	return reinterpret_cast<NativeFunction>(start_ + 1);
	}

	void set_native_function(NativeFunction func) const {
	WritableInstructionsScope writable(start_ + 1, sizeof(func));
	reinterpret_cast<NativeFunction>(start_ + 1) = func;
	}

	private:
	DISALLOW_IMPLICIT_CONSTRUCTORS(NativeCall);
	};

	class InstanceCall : public UnoptimizedCall {
	public:
	explicit InstanceCall(uword return_address)
	: UnoptimizedCall(return_address) {
	#if defined(DEBUG)
	ICData& test_ic_data = ICData::Handle();
	test_ic_data ^= ic_data();
	ASSERT(test_ic_data.NumArgsTested() > 0);
	#endif // DEBUG
	}

	private:
	DISALLOW_IMPLICIT_CONSTRUCTORS(InstanceCall);
	};

	class UnoptimizedStaticCall : public UnoptimizedCall {
	public:
	explicit UnoptimizedStaticCall(uword return_address)
	: UnoptimizedCall(return_address) {
	#if defined(DEBUG)
	ICData& test_ic_data = ICData::Handle();
	test_ic_data ^= ic_data();
	ASSERT(test_ic_data.NumArgsTested() >= 0);
	#endif // DEBUG
	}

	private:
	DISALLOW_IMPLICIT_CONSTRUCTORS(UnoptimizedStaticCall);
	};

	// The expected pattern of a dart static call:
	// mov EDX, arguments_descriptor_array (optional in polymorphic calls)
	// mov EDI, Immediate(code_object)
	// call [EDI + entry_point_offset]
	// <- return address
	class StaticCall : public ValueObject {
	public:
	explicit StaticCall(uword return_address)
	: start_(return_address - (kMovInstructionSize + kCallInstructionSize)) {
	ASSERT(IsValid());
	}

	bool IsValid() {
	uint8_t* code_bytes = reinterpret_cast<uint8_t*>(start_);
	return (code_bytes[0] == 0xBF) && (code_bytes[5] == 0xFF);
	}

	RawCode* target() const {
	const uword imm = reinterpret_cast<uword>(start_ + 1);
	return reinterpret_cast<RawCode*>(imm);
	}

	void set_target(const Code& target) const {
	uword* target_addr = reinterpret_cast<uword*>(start_ + 1);
	uword imm = reinterpret_cast<uword>(target.raw());
	*target_addr = imm;
	CPU::FlushICache(start_ + 1, sizeof(imm));
	}

	static const int kMovInstructionSize = 5;
	static const int kCallInstructionSize = 3;

	private:
	uword return_address() const {
	return start_ + kMovInstructionSize + kCallInstructionSize;
	}

	uword call_address() const { return start_ + kMovInstructionSize; }

	uword start_;

	DISALLOW_IMPLICIT_CONSTRUCTORS(StaticCall);
	};

	RawCode* CodePatcher::GetStaticCallTargetAt(uword return_address,
	const Code& code) {
	ASSERT(code.ContainsInstructionAt(return_address));
	StaticCall call(return_address);
	return call.target();
	}

	void CodePatcher::PatchStaticCallAt(uword return_address,
	const Code& code,
	const Code& new_target) {
	const Instructions& instrs = Instructions::Handle(code.instructions());
	WritableInstructionsScope writable(instrs.PayloadStart(), instrs.Size());
	ASSERT(code.ContainsInstructionAt(return_address));
	StaticCall call(return_address);
	call.set_target(new_target);
	}

	void CodePatcher::InsertDeoptimizationCallAt(uword start) {
	UNREACHABLE();
	}

	RawCode* CodePatcher::GetInstanceCallAt(uword return_address,
	const Code& code,
	ICData* ic_data) {
	ASSERT(code.ContainsInstructionAt(return_address));
	InstanceCall call(return_address);
	if (ic_data != NULL) {
	*ic_data ^= call.ic_data();
	}
	return Code::null();
	}

	RawFunction* CodePatcher::GetUnoptimizedStaticCallAt(uword return_address,
	const Code& code,
	ICData* ic_data_result) {
	ASSERT(code.ContainsInstructionAt(return_address));
	UnoptimizedStaticCall static_call(return_address);
	ICData& ic_data = ICData::Handle();
	ic_data ^= static_call.ic_data();
	if (ic_data_result != NULL) {
	*ic_data_result = ic_data.raw();
	}
	return ic_data.GetTargetAt(0);
	}

	void CodePatcher::PatchSwitchableCallAt(uword return_address,
	const Code& caller_code,
	const Object& data,
	const Code& target) {
	// Switchable instance calls only generated for precompilation.
	UNREACHABLE();
	}

	RawCode* CodePatcher::GetSwitchableCallTargetAt(uword return_address,
	const Code& caller_code) {
	// Switchable instance calls only generated for precompilation.
	UNREACHABLE();
	return Code::null();
	}

	RawObject* CodePatcher::GetSwitchableCallDataAt(uword return_address,
	const Code& caller_code) {
	// Switchable instance calls only generated for precompilation.
	UNREACHABLE();
	return Object::null();
	}

	void CodePatcher::PatchNativeCallAt(uword return_address,
	const Code& code,
	NativeFunction target,
	const Code& trampoline) {
	UNREACHABLE();
	}

	RawCode* CodePatcher::GetNativeCallAt(uword return_address,
	const Code& code,
	NativeFunction* target) {
	UNREACHABLE();
	return NULL;
	}

	intptr_t CodePatcher::InstanceCallSizeInBytes() {
	return InstanceCall::kPatternSize;
	}

	} // namespace dart

	#endif // defined TARGET_ARCH_IA32