runtime/vm/dart_api_message.h - 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.

 #ifndef RUNTIME_VM_DART_API_MESSAGE_H_
 #define RUNTIME_VM_DART_API_MESSAGE_H_

 #include "include/dart_native_api.h"
 #include "platform/utils.h"
 #include "vm/allocation.h"
 #include "vm/dart_api_state.h"
 #include "vm/message.h"
 #include "vm/raw_object.h"
 #include "vm/snapshot.h"

 namespace dart {

 // Use this C structure for reading internal objects in the serialized
 // data. These are objects that we need to process in order to
 // generate the Dart_CObject graph but that we don't want to expose in
 // that graph.
 struct Dart_CObject_Internal : public Dart_CObject {
   enum Type {
     kTypeArguments = Dart_CObject_kNumberOfTypes,
     kDynamicType,
     kClass,
     kView,
     kUninitialized,
   };
   struct Dart_CObject_Internal* cls;
   union {
     struct {
       struct _Dart_CObject* library_url;
       struct _Dart_CObject* class_name;
     } as_class;
     struct {
       struct _Dart_CObject* buffer;
       int offset_in_bytes;
       int length;
     } as_view;
   } internal;
 };

 // Reads a message snapshot into a C structure.
 class ApiMessageReader : public BaseReader {
  public:
   // The ApiMessageReader object must be enclosed by an ApiNativeScope.
   // Allocation of all C Heap objects is done in the zone associated with
   // the enclosing ApiNativeScope.
   explicit ApiMessageReader(Message* message);
   ~ApiMessageReader();

   Dart_CObject* ReadMessage();

  private:
   class BackRefNode {
    public:
     BackRefNode(Dart_CObject* reference, DeserializeState state)
         : reference_(reference), state_(state) {}
     Dart_CObject* reference() const { return reference_; }
     void set_reference(Dart_CObject* reference) { reference_ = reference; }
     bool is_deserialized() const { return state_ == kIsDeserialized; }
     void set_state(DeserializeState value) { state_ = value; }

    private:
     Dart_CObject* reference_;
     DeserializeState state_;

     DISALLOW_COPY_AND_ASSIGN(BackRefNode);
   };

   // Allocates a Dart_CObject object.
   Dart_CObject* AllocateDartCObject();
   // Allocates a Dart_CObject object with the specified type.
   Dart_CObject* AllocateDartCObject(Dart_CObject_Type type);
   // Allocates a Dart_CObject object representing an unsupported
   // object in the API message.
   Dart_CObject* AllocateDartCObjectUnsupported();
   // Allocates a Dart_CObject object for the null object.
   Dart_CObject* AllocateDartCObjectNull();
   // Allocates a Dart_CObject object for a boolean object.
   Dart_CObject* AllocateDartCObjectBool(bool value);
   // Allocates a Dart_CObject object for for a 32-bit integer.
   Dart_CObject* AllocateDartCObjectInt32(int32_t value);
   // Allocates a Dart_CObject object for for a 64-bit integer.
   Dart_CObject* AllocateDartCObjectInt64(int64_t value);
   // Allocates a Dart_CObject object for a double.
   Dart_CObject* AllocateDartCObjectDouble(double value);
   // Allocates a Dart_CObject object for string data.
   Dart_CObject* AllocateDartCObjectString(intptr_t length);
   // Allocates a C Dart_CObject object for a typed data.
   Dart_CObject* AllocateDartCObjectTypedData(Dart_TypedData_Type type,
                                              intptr_t length);
   // Allocates a C array of Dart_CObject objects.
   Dart_CObject* AllocateDartCObjectArray(intptr_t length);
   // Allocate a C Dart_CObject object for a VM isolate object.
   Dart_CObject* AllocateDartCObjectVmIsolateObj(intptr_t id);
   // Allocates a Dart_CObject_Internal object with the specified type.
   Dart_CObject_Internal* AllocateDartCObjectInternal(
       Dart_CObject_Internal::Type type);
   // Allocates a Dart_CObject_Internal object for a class object.
   Dart_CObject_Internal* AllocateDartCObjectClass();
   // Allocates a backwards reference node.
   BackRefNode* AllocateBackRefNode(Dart_CObject* ref, DeserializeState state);

   void Init();

   intptr_t LookupInternalClass(intptr_t class_header);
   Dart_CObject* ReadVMIsolateObject(intptr_t value);
   Dart_CObject* ReadInternalVMObject(intptr_t class_id, intptr_t object_id);
   Dart_CObject* ReadInlinedObject(intptr_t object_id);
   Dart_CObject* ReadObjectImpl();
   Dart_CObject* ReadIndexedObject(intptr_t object_id);
   Dart_CObject* ReadPredefinedSymbol(intptr_t object_id);
   Dart_CObject* ReadObjectRef();
   Dart_CObject* ReadObject();

   // Add object to backward references.
   void AddBackRef(intptr_t id, Dart_CObject* obj, DeserializeState state);

   // Get an object from the backward references list.
   Dart_CObject* GetBackRef(intptr_t id);

   intptr_t NextAvailableObjectId() const;

   Dart_CObject_Internal* AsInternal(Dart_CObject* object) {
     ASSERT(object->type >= Dart_CObject_kNumberOfTypes);
     return reinterpret_cast<Dart_CObject_Internal*>(object);
   }

   RawObject* VmIsolateSnapshotObject(intptr_t index) const {
     return Object::vm_isolate_snapshot_object_table().At(index);
   }

   Dart_CObject* CreateDartCObjectString(RawObject* raw);
   Dart_CObject* GetCanonicalMintObject(Dart_CObject_Type type, int64_t value64);

   uint8_t* allocator(intptr_t size) {
     return zone_->Realloc<uint8_t>(NULL, 0, size);
   }

   Zone* zone_;  // Zone in which C heap objects are allocated.
   ApiGrowableArray<BackRefNode*> backward_references_;
   ApiGrowableArray<Dart_CObject*> vm_isolate_references_;
   Dart_CObject** vm_symbol_references_;

   Dart_CObject type_arguments_marker;
   Dart_CObject dynamic_type_marker;

   MessageFinalizableData* finalizable_data_;

   static _Dart_CObject* singleton_uint32_typed_data_;
 };

 class ApiMessageWriter : public BaseWriter {
  public:
   static const intptr_t kInitialSize = 512;
   ApiMessageWriter();
   ~ApiMessageWriter();

   // Writes a message with a single object.
   Message* WriteCMessage(Dart_CObject* object,
                          Dart_Port dest_port,
                          Message::Priority priority);

  private:
   static const intptr_t kDartCObjectTypeBits = 4;
   static const intptr_t kDartCObjectTypeMask = (1 << kDartCObjectTypeBits) - 1;
   static const intptr_t kDartCObjectMarkMask = ~kDartCObjectTypeMask;
   static const intptr_t kDartCObjectMarkOffset = 1;

   void MarkCObject(Dart_CObject* object, intptr_t object_id);
   void UnmarkCObject(Dart_CObject* object);
   bool IsCObjectMarked(Dart_CObject* object);
   intptr_t GetMarkedCObjectMark(Dart_CObject* object);
   void UnmarkAllCObjects(Dart_CObject* object);
   void AddToForwardList(Dart_CObject* object);

   void WriteSmi(int64_t value);
   void WriteNullObject();
   void WriteMint(Dart_CObject* object, int64_t value);
   void WriteInt32(Dart_CObject* object);
   void WriteInt64(Dart_CObject* object);
   void WriteInlinedHeader(Dart_CObject* object);
   bool WriteCObject(Dart_CObject* object);
   bool WriteCObjectRef(Dart_CObject* object);
   bool WriteForwardedCObject(Dart_CObject* object);
   bool WriteCObjectInlined(Dart_CObject* object, Dart_CObject_Type type);

   intptr_t object_id_;
   Dart_CObject** forward_list_;
   intptr_t forward_list_length_;
   intptr_t forward_id_;
   MessageFinalizableData* finalizable_data_;

   DISALLOW_COPY_AND_ASSIGN(ApiMessageWriter);
 };

 // This class handles translation of certain RawObjects to CObjects for
 // NativeMessageHandlers.
 //
 // TODO(zra): Expand to support not only null, but also other VM heap objects
 // as well.
 class ApiObjectConverter : public AllStatic {
  public:
   static bool CanConvert(const RawObject* raw_obj) {
     return !raw_obj->IsHeapObject() || (raw_obj == Object::null());
   }

   static bool Convert(const RawObject* raw_obj, Dart_CObject* c_obj) {
     if (!raw_obj->IsHeapObject()) {
       ConvertSmi(reinterpret_cast<const RawSmi*>(raw_obj), c_obj);
     } else if (raw_obj == Object::null()) {
       ConvertNull(c_obj);
     } else {
       return false;
     }
     return true;
   }

  private:
   static void ConvertSmi(const RawSmi* raw_smi, Dart_CObject* c_obj) {
     ASSERT(!raw_smi->IsHeapObject());
     intptr_t value = Smi::Value(raw_smi);
     if (Utils::IsInt(31, value)) {
       c_obj->type = Dart_CObject_kInt32;
       c_obj->value.as_int32 = static_cast<int32_t>(value);
     } else {
       c_obj->type = Dart_CObject_kInt64;
       c_obj->value.as_int64 = static_cast<int64_t>(value);
     }
   }

   static void ConvertNull(Dart_CObject* c_obj) {
     c_obj->type = Dart_CObject_kNull;
     c_obj->value.as_int64 = 0;
   }
 };

 }  // namespace dart

 #endif  // RUNTIME_VM_DART_API_MESSAGE_H_
	// 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.

	#ifndef RUNTIME_VM_DART_API_MESSAGE_H_
	#define RUNTIME_VM_DART_API_MESSAGE_H_

	#include "include/dart_native_api.h"
	#include "platform/utils.h"
	#include "vm/allocation.h"
	#include "vm/dart_api_state.h"
	#include "vm/message.h"
	#include "vm/raw_object.h"
	#include "vm/snapshot.h"

	namespace dart {

	// Use this C structure for reading internal objects in the serialized
	// data. These are objects that we need to process in order to
	// generate the Dart_CObject graph but that we don't want to expose in
	// that graph.
	struct Dart_CObject_Internal : public Dart_CObject {
	enum Type {
	kTypeArguments = Dart_CObject_kNumberOfTypes,
	kDynamicType,
	kClass,
	kView,
	kUninitialized,
	};
	struct Dart_CObject_Internal* cls;
	union {
	struct {
	struct _Dart_CObject* library_url;
	struct _Dart_CObject* class_name;
	} as_class;
	struct {
	struct _Dart_CObject* buffer;
	int offset_in_bytes;
	int length;
	} as_view;
	} internal;
	};

	// Reads a message snapshot into a C structure.
	class ApiMessageReader : public BaseReader {
	public:
	// The ApiMessageReader object must be enclosed by an ApiNativeScope.
	// Allocation of all C Heap objects is done in the zone associated with
	// the enclosing ApiNativeScope.
	explicit ApiMessageReader(Message* message);
	~ApiMessageReader();

	Dart_CObject* ReadMessage();

	private:
	class BackRefNode {
	public:
	BackRefNode(Dart_CObject* reference, DeserializeState state)
	: reference_(reference), state_(state) {}
	Dart_CObject* reference() const { return reference_; }
	void set_reference(Dart_CObject* reference) { reference_ = reference; }
	bool is_deserialized() const { return state_ == kIsDeserialized; }
	void set_state(DeserializeState value) { state_ = value; }

	private:
	Dart_CObject* reference_;
	DeserializeState state_;

	DISALLOW_COPY_AND_ASSIGN(BackRefNode);
	};

	// Allocates a Dart_CObject object.
	Dart_CObject* AllocateDartCObject();
	// Allocates a Dart_CObject object with the specified type.
	Dart_CObject* AllocateDartCObject(Dart_CObject_Type type);
	// Allocates a Dart_CObject object representing an unsupported
	// object in the API message.
	Dart_CObject* AllocateDartCObjectUnsupported();
	// Allocates a Dart_CObject object for the null object.
	Dart_CObject* AllocateDartCObjectNull();
	// Allocates a Dart_CObject object for a boolean object.
	Dart_CObject* AllocateDartCObjectBool(bool value);
	// Allocates a Dart_CObject object for for a 32-bit integer.
	Dart_CObject* AllocateDartCObjectInt32(int32_t value);
	// Allocates a Dart_CObject object for for a 64-bit integer.
	Dart_CObject* AllocateDartCObjectInt64(int64_t value);
	// Allocates a Dart_CObject object for a double.
	Dart_CObject* AllocateDartCObjectDouble(double value);
	// Allocates a Dart_CObject object for string data.
	Dart_CObject* AllocateDartCObjectString(intptr_t length);
	// Allocates a C Dart_CObject object for a typed data.
	Dart_CObject* AllocateDartCObjectTypedData(Dart_TypedData_Type type,
	intptr_t length);
	// Allocates a C array of Dart_CObject objects.
	Dart_CObject* AllocateDartCObjectArray(intptr_t length);
	// Allocate a C Dart_CObject object for a VM isolate object.
	Dart_CObject* AllocateDartCObjectVmIsolateObj(intptr_t id);
	// Allocates a Dart_CObject_Internal object with the specified type.
	Dart_CObject_Internal* AllocateDartCObjectInternal(
	Dart_CObject_Internal::Type type);
	// Allocates a Dart_CObject_Internal object for a class object.
	Dart_CObject_Internal* AllocateDartCObjectClass();
	// Allocates a backwards reference node.
	BackRefNode* AllocateBackRefNode(Dart_CObject* ref, DeserializeState state);

	void Init();

	intptr_t LookupInternalClass(intptr_t class_header);
	Dart_CObject* ReadVMIsolateObject(intptr_t value);
	Dart_CObject* ReadInternalVMObject(intptr_t class_id, intptr_t object_id);
	Dart_CObject* ReadInlinedObject(intptr_t object_id);
	Dart_CObject* ReadObjectImpl();
	Dart_CObject* ReadIndexedObject(intptr_t object_id);
	Dart_CObject* ReadPredefinedSymbol(intptr_t object_id);
	Dart_CObject* ReadObjectRef();
	Dart_CObject* ReadObject();

	// Add object to backward references.
	void AddBackRef(intptr_t id, Dart_CObject* obj, DeserializeState state);

	// Get an object from the backward references list.
	Dart_CObject* GetBackRef(intptr_t id);

	intptr_t NextAvailableObjectId() const;

	Dart_CObject_Internal* AsInternal(Dart_CObject* object) {
	ASSERT(object->type >= Dart_CObject_kNumberOfTypes);
	return reinterpret_cast<Dart_CObject_Internal*>(object);
	}

	RawObject* VmIsolateSnapshotObject(intptr_t index) const {
	return Object::vm_isolate_snapshot_object_table().At(index);
	}

	Dart_CObject* CreateDartCObjectString(RawObject* raw);
	Dart_CObject* GetCanonicalMintObject(Dart_CObject_Type type, int64_t value64);

	uint8_t* allocator(intptr_t size) {
	return zone_->Realloc<uint8_t>(NULL, 0, size);
	}

	Zone* zone_; // Zone in which C heap objects are allocated.
	ApiGrowableArray<BackRefNode*> backward_references_;
	ApiGrowableArray<Dart_CObject*> vm_isolate_references_;
	Dart_CObject** vm_symbol_references_;

	Dart_CObject type_arguments_marker;
	Dart_CObject dynamic_type_marker;

	MessageFinalizableData* finalizable_data_;

	static _Dart_CObject* singleton_uint32_typed_data_;
	};

	class ApiMessageWriter : public BaseWriter {
	public:
	static const intptr_t kInitialSize = 512;
	ApiMessageWriter();
	~ApiMessageWriter();

	// Writes a message with a single object.
	Message* WriteCMessage(Dart_CObject* object,
	Dart_Port dest_port,
	Message::Priority priority);

	private:
	static const intptr_t kDartCObjectTypeBits = 4;
	static const intptr_t kDartCObjectTypeMask = (1 << kDartCObjectTypeBits) - 1;
	static const intptr_t kDartCObjectMarkMask = ~kDartCObjectTypeMask;
	static const intptr_t kDartCObjectMarkOffset = 1;

	void MarkCObject(Dart_CObject* object, intptr_t object_id);
	void UnmarkCObject(Dart_CObject* object);
	bool IsCObjectMarked(Dart_CObject* object);
	intptr_t GetMarkedCObjectMark(Dart_CObject* object);
	void UnmarkAllCObjects(Dart_CObject* object);
	void AddToForwardList(Dart_CObject* object);

	void WriteSmi(int64_t value);
	void WriteNullObject();
	void WriteMint(Dart_CObject* object, int64_t value);
	void WriteInt32(Dart_CObject* object);
	void WriteInt64(Dart_CObject* object);
	void WriteInlinedHeader(Dart_CObject* object);
	bool WriteCObject(Dart_CObject* object);
	bool WriteCObjectRef(Dart_CObject* object);
	bool WriteForwardedCObject(Dart_CObject* object);
	bool WriteCObjectInlined(Dart_CObject* object, Dart_CObject_Type type);

	intptr_t object_id_;
	Dart_CObject** forward_list_;
	intptr_t forward_list_length_;
	intptr_t forward_id_;
	MessageFinalizableData* finalizable_data_;

	DISALLOW_COPY_AND_ASSIGN(ApiMessageWriter);
	};

	// This class handles translation of certain RawObjects to CObjects for
	// NativeMessageHandlers.
	//
	// TODO(zra): Expand to support not only null, but also other VM heap objects
	// as well.
	class ApiObjectConverter : public AllStatic {
	public:
	static bool CanConvert(const RawObject* raw_obj) {
	return !raw_obj->IsHeapObject() \|\| (raw_obj == Object::null());
	}

	static bool Convert(const RawObject* raw_obj, Dart_CObject* c_obj) {
	if (!raw_obj->IsHeapObject()) {
	ConvertSmi(reinterpret_cast<const RawSmi*>(raw_obj), c_obj);
	} else if (raw_obj == Object::null()) {
	ConvertNull(c_obj);
	} else {
	return false;
	}
	return true;
	}

	private:
	static void ConvertSmi(const RawSmi* raw_smi, Dart_CObject* c_obj) {
	ASSERT(!raw_smi->IsHeapObject());
	intptr_t value = Smi::Value(raw_smi);
	if (Utils::IsInt(31, value)) {
	c_obj->type = Dart_CObject_kInt32;
	c_obj->value.as_int32 = static_cast<int32_t>(value);
	} else {
	c_obj->type = Dart_CObject_kInt64;
	c_obj->value.as_int64 = static_cast<int64_t>(value);
	}
	}

	static void ConvertNull(Dart_CObject* c_obj) {
	c_obj->type = Dart_CObject_kNull;
	c_obj->value.as_int64 = 0;
	}
	};

	} // namespace dart

	#endif // RUNTIME_VM_DART_API_MESSAGE_H_