src/libcef/common/value_base.h - cef - Git at Google

 // Copyright (c) 2012 The Chromium Embedded Framework Authors. All rights
 // reserved. Use of this source code is governed by a BSD-style license that
 // can be found in the LICENSE file.

 #ifndef CEF_LIBCEF_COMMON_VALUE_BASE_H_
 #define CEF_LIBCEF_COMMON_VALUE_BASE_H_
 #pragma once

 #include <map>
 #include <set>
 #include "include/cef_base.h"

 #include "base/logging.h"
 #include "base/memory/ref_counted.h"
 #include "base/synchronization/lock.h"
 #include "base/thread_annotations.h"
 #include "base/threading/platform_thread.h"

 // Controller implementation base class.
 class CefValueController
     : public base::RefCountedThreadSafe<CefValueController> {
  public:
   // Implemented by a class controlled using the access controller.
   class Object {
    public:
     virtual ~Object() {}

     // Called when the value has been removed.
     virtual void OnControlRemoved() = 0;
   };

   // Encapsulates context locking and verification logic.
   class AutoLock {
    public:
     explicit AutoLock(CefValueController* impl)
         : impl_(impl), verified_(impl && impl->VerifyThread()) {
       DCHECK(impl);
       if (verified_)
         impl_->lock();
     }
     ~AutoLock() {
       if (verified_)
         impl_->unlock();
     }

     inline bool verified() { return verified_; }

    private:
     scoped_refptr<CefValueController> impl_;
     bool verified_;

     DISALLOW_COPY_AND_ASSIGN(AutoLock);
   };

   CefValueController();

   // Returns true if this controller is thread safe.
   virtual bool thread_safe() = 0;

   // Returns true if the current thread is allowed to access this controller.
   virtual bool on_correct_thread() = 0;

   // Lock the controller.
   virtual void lock() = 0;

   // Unlock the controller.
   virtual void unlock() = 0;

   // Returns true if the controller is locked on the current thread.
   virtual bool locked() = 0;

   // Assert that the lock has been acquired.
   virtual void AssertLockAcquired() = 0;

   // Verify that the current thread is correct for accessing the controller.
   inline bool VerifyThread() {
     if (!thread_safe() && !on_correct_thread()) {
       // This object should only be accessed from the thread that created it.
       NOTREACHED() << "object accessed from incorrect thread.";
       return false;
     }
     return true;
   }

   // The controller must already be locked before calling the below methods.

   // Set the owner for this controller.
   void SetOwner(void* value, Object* object);

   // Add a reference value and associated object.
   void AddReference(void* value, Object* object);

   // Remove the value. If |notify_object| is true the removed object will be
   // notified. If |value| is the owner all reference objects will be removed.
   // If |value| has dependencies those objects will also be removed.
   void Remove(void* value, bool notify_object);

   // Returns the object for the specified value.
   Object* Get(void* value);

   // Add a dependency between |parent| and |child|.
   void AddDependency(void* parent, void* child);

   // Recursively removes any dependent values.
   void RemoveDependencies(void* value);

   // Takes ownership of all references and dependencies currently controlled by
   // |other|. The |other| controller must already be locked.
   void TakeFrom(CefValueController* other);

   // Replace all instances of |old_value| with |new_value|. Used in cases where
   // move semantics may move the contents of an object without retaining the
   // object pointer itself.
   void Swap(void* old_value, void* new_value);

  protected:
   friend class base::RefCountedThreadSafe<CefValueController>;

   virtual ~CefValueController();

  private:
   // Owner object.
   void* owner_value_;
   Object* owner_object_;

   // Map of reference objects.
   typedef std::map<void*, Object*> ReferenceMap;
   ReferenceMap reference_map_;

   // Map of dependency objects.
   typedef std::set<void*> DependencySet;
   typedef std::map<void*, DependencySet> DependencyMap;
   DependencyMap dependency_map_;

   DISALLOW_COPY_AND_ASSIGN(CefValueController);
 };

 // Thread-safe access control implementation.
 class CefValueControllerThreadSafe : public CefValueController {
  public:
   explicit CefValueControllerThreadSafe() : locked_thread_id_(0) {}

   // CefValueController methods.
   bool thread_safe() override { return true; }
   bool on_correct_thread() override { return true; }
   void lock() override NO_THREAD_SAFETY_ANALYSIS {
     lock_.Acquire();
     locked_thread_id_ = base::PlatformThread::CurrentId();
   }
   void unlock() override NO_THREAD_SAFETY_ANALYSIS {
     locked_thread_id_ = 0;
     lock_.Release();
   }
   bool locked() override {
     return (locked_thread_id_ == base::PlatformThread::CurrentId());
   }
   void AssertLockAcquired() override { lock_.AssertAcquired(); }

  private:
   base::Lock lock_;
   base::PlatformThreadId locked_thread_id_;

   DISALLOW_COPY_AND_ASSIGN(CefValueControllerThreadSafe);
 };

 // Non-thread-safe access control implementation.
 class CefValueControllerNonThreadSafe : public CefValueController {
  public:
   explicit CefValueControllerNonThreadSafe()
       : thread_id_(base::PlatformThread::CurrentId()) {}

   // CefValueController methods.
   bool thread_safe() override { return false; }
   bool on_correct_thread() override {
     return (thread_id_ == base::PlatformThread::CurrentId());
   }
   void lock() override {}
   void unlock() override {}
   bool locked() override { return on_correct_thread(); }
   void AssertLockAcquired() override { DCHECK(locked()); }

  private:
   base::PlatformThreadId thread_id_;

   DISALLOW_COPY_AND_ASSIGN(CefValueControllerNonThreadSafe);
 };

 // Helper macros for verifying context.

 #define CEF_VALUE_VERIFY_RETURN_VOID_EX(object, modify) \
   if (!VerifyAttached())                                \
     return;                                             \
   AutoLock auto_lock(object, modify);                   \
   if (!auto_lock.verified())                            \
     return;

 #define CEF_VALUE_VERIFY_RETURN_VOID(modify) \
   CEF_VALUE_VERIFY_RETURN_VOID_EX(this, modify)

 #define CEF_VALUE_VERIFY_RETURN_EX(object, modify, error_val) \
   if (!VerifyAttached())                                      \
     return error_val;                                         \
   AutoLock auto_lock(object, modify);                         \
   if (!auto_lock.verified())                                  \
     return error_val;

 #define CEF_VALUE_VERIFY_RETURN(modify, error_val) \
   CEF_VALUE_VERIFY_RETURN_EX(this, modify, error_val)

 // Template class for implementing CEF wrappers of other types.
 template <class CefType, class ValueType>
 class CefValueBase : public CefType, public CefValueController::Object {
  public:
   // Specifies how the value will be used.
   enum ValueMode {
     // A reference to a value managed by an existing controller. These values
     // can be safely detached but ownership should not be transferred (make a
     // copy of the value instead).
     kReference,

     // The value has its own controller and will be deleted on destruction.
     // These values can only be detached to another controller otherwise any
     // references will not be properly managed.
     kOwnerWillDelete,

     // The value has its own controller and will not be deleted on destruction.
     // This should only be used for global values or scope-limited values that
     // will be explicitly detached.
     kOwnerNoDelete,
   };

   // Create a new object.
   // If |read_only| is true mutable access will not be allowed.
   // If |parent_value| is non-NULL and the value mode is kReference a dependency
   // will be added.
   CefValueBase(ValueType* value,
                void* parent_value,
                ValueMode value_mode,
                bool read_only,
                CefValueController* controller)
       : value_(value),
         value_mode_(value_mode),
         read_only_(read_only),
         controller_(controller) {
     DCHECK(value_);

     // Specifying a parent value for a non-reference doesn't make sense.
     DCHECK(!(!reference() && parent_value));

     if (!reference() && !controller_.get()) {
       // For owned values default to using a new multi-threaded controller.
       controller_ = new CefValueControllerThreadSafe();
       SetOwnsController();
     }

     // A controller is required.
     DCHECK(controller_.get());

     if (reference()) {
       // Register the reference with the controller.
       controller_->AddReference(value_, this);

       // Add a dependency on the parent value.
       if (parent_value)
         controller_->AddDependency(parent_value, value_);
     }
   }

   ~CefValueBase() override {
     if (controller_.get() && value_)
       Delete();
   }

   // True if the underlying value is referenced instead of owned.
   inline bool reference() const { return (value_mode_ == kReference); }

   // True if the underlying value will be deleted.
   inline bool will_delete() const { return (value_mode_ == kOwnerWillDelete); }

   // True if access to the underlying value is read-only.
   inline bool read_only() const { return read_only_; }

   // True if the underlying value has been detached.
   inline bool detached() { return !controller_.get(); }

   // Returns the controller.
   inline CefValueController* controller() { return controller_.get(); }

   // Deletes the underlying value.
   void Delete() {
     CEF_VALUE_VERIFY_RETURN_VOID(false);

     // Remove the object from the controller. If this is the owner object any
     // references will be detached.
     controller()->Remove(value_, false);

     if (will_delete()) {
       // Remove any dependencies.
       controller()->RemoveDependencies(value_);

       // Delete the value.
       DeleteValue(value_);
     }

     controller_ = nullptr;
     value_ = nullptr;
   }

   // Detaches the underlying value and returns a pointer to it. If this is an
   // owner and a |new_controller| value is specified any existing references
   // will be passed to the new controller.
   ValueType* Detach(CefValueController* new_controller) {
     CEF_VALUE_VERIFY_RETURN(false, nullptr);

     // A |new_controller| value is required for mode kOwnerWillDelete.
     DCHECK(!will_delete() || new_controller);

     if (new_controller && !reference()) {
       // Pass any existing references and dependencies to the new controller.
       // They will be removed from this controller.
       new_controller->TakeFrom(controller());
     }

     // Remove the object from the controller. If this is the owner object any
     // references will be detached.
     controller()->Remove(value_, false);
     controller_ = nullptr;

     // Return the old value.
     ValueType* old_val = value_;
     value_ = nullptr;
     return old_val;
   }

   // Verify that the value is attached.
   inline bool VerifyAttached() {
     if (detached()) {
       // This object should not be accessed after being detached.
       NOTREACHED() << "object accessed after being detached.";
       return false;
     }
     return true;
   }

  protected:
   // CefValueController::Object methods.
   void OnControlRemoved() override {
     DCHECK(controller()->locked());

     // Only references should be removed in this manner.
     DCHECK(reference());

     controller_ = nullptr;
     value_ = nullptr;
   }

   // Override to customize value deletion.
   virtual void DeleteValue(ValueType* value) { delete value; }

   // Returns a mutable reference to the value.
   inline ValueType* mutable_value() {
     DCHECK(value_);
     DCHECK(!read_only_);
     DCHECK(controller()->locked());
     return value_;
   }
   // Returns a const reference to the value.
   inline const ValueType& const_value() {
     DCHECK(value_);
     DCHECK(controller()->locked());
     return *value_;
   }

   // Verify that the value can be accessed.
   inline bool VerifyAccess(bool modify) {
     // The controller must already be locked.
     DCHECK(controller()->locked());

     if (read_only() && modify) {
       // This object cannot be modified.
       NOTREACHED() << "mutation attempted on read-only object.";
       return false;
     }

     return true;
   }

   // Used to indicate that this object owns the controller.
   inline void SetOwnsController() {
     CefValueController::AutoLock lock_scope(controller_.get());
     if (lock_scope.verified())
       controller_->SetOwner(value_, this);
   }

   // Encapsulates value locking and verification logic.
   class AutoLock {
    public:
     explicit AutoLock(CefValueBase* impl, bool modify)
         : auto_lock_(impl->controller()) {
       verified_ = (auto_lock_.verified() && impl->VerifyAccess(modify));
     }

     inline bool verified() { return verified_; }

    private:
     CefValueController::AutoLock auto_lock_;
     bool verified_;

     DISALLOW_COPY_AND_ASSIGN(AutoLock);
   };

  private:
   ValueType* value_;
   ValueMode value_mode_;
   bool read_only_;
   scoped_refptr<CefValueController> controller_;

   IMPLEMENT_REFCOUNTING(CefValueBase);

   DISALLOW_COPY_AND_ASSIGN(CefValueBase);
 };

 #endif  // CEF_LIBCEF_COMMON_VALUE_BASE_H_
	// Copyright (c) 2012 The Chromium Embedded Framework Authors. All rights
	// reserved. Use of this source code is governed by a BSD-style license that
	// can be found in the LICENSE file.

	#ifndef CEF_LIBCEF_COMMON_VALUE_BASE_H_
	#define CEF_LIBCEF_COMMON_VALUE_BASE_H_
	#pragma once

	#include <map>
	#include <set>
	#include "include/cef_base.h"

	#include "base/logging.h"
	#include "base/memory/ref_counted.h"
	#include "base/synchronization/lock.h"
	#include "base/thread_annotations.h"
	#include "base/threading/platform_thread.h"

	// Controller implementation base class.
	class CefValueController
	: public base::RefCountedThreadSafe<CefValueController> {
	public:
	// Implemented by a class controlled using the access controller.
	class Object {
	public:
	virtual ~Object() {}

	// Called when the value has been removed.
	virtual void OnControlRemoved() = 0;
	};

	// Encapsulates context locking and verification logic.
	class AutoLock {
	public:
	explicit AutoLock(CefValueController* impl)
	: impl_(impl), verified_(impl && impl->VerifyThread()) {
	DCHECK(impl);
	if (verified_)
	impl_->lock();
	}
	~AutoLock() {
	if (verified_)
	impl_->unlock();
	}

	inline bool verified() { return verified_; }

	private:
	scoped_refptr<CefValueController> impl_;
	bool verified_;

	DISALLOW_COPY_AND_ASSIGN(AutoLock);
	};

	CefValueController();

	// Returns true if this controller is thread safe.
	virtual bool thread_safe() = 0;

	// Returns true if the current thread is allowed to access this controller.
	virtual bool on_correct_thread() = 0;

	// Lock the controller.
	virtual void lock() = 0;

	// Unlock the controller.
	virtual void unlock() = 0;

	// Returns true if the controller is locked on the current thread.
	virtual bool locked() = 0;

	// Assert that the lock has been acquired.
	virtual void AssertLockAcquired() = 0;

	// Verify that the current thread is correct for accessing the controller.
	inline bool VerifyThread() {
	if (!thread_safe() && !on_correct_thread()) {
	// This object should only be accessed from the thread that created it.
	NOTREACHED() << "object accessed from incorrect thread.";
	return false;
	}
	return true;
	}

	// The controller must already be locked before calling the below methods.

	// Set the owner for this controller.
	void SetOwner(void* value, Object* object);

	// Add a reference value and associated object.
	void AddReference(void* value, Object* object);

	// Remove the value. If \|notify_object\| is true the removed object will be
	// notified. If \|value\| is the owner all reference objects will be removed.
	// If \|value\| has dependencies those objects will also be removed.
	void Remove(void* value, bool notify_object);

	// Returns the object for the specified value.
	Object* Get(void* value);

	// Add a dependency between \|parent\| and \|child\|.
	void AddDependency(void* parent, void* child);

	// Recursively removes any dependent values.
	void RemoveDependencies(void* value);

	// Takes ownership of all references and dependencies currently controlled by
	// \|other\|. The \|other\| controller must already be locked.
	void TakeFrom(CefValueController* other);

	// Replace all instances of \|old_value\| with \|new_value\|. Used in cases where
	// move semantics may move the contents of an object without retaining the
	// object pointer itself.
	void Swap(void* old_value, void* new_value);

	protected:
	friend class base::RefCountedThreadSafe<CefValueController>;

	virtual ~CefValueController();

	private:
	// Owner object.
	void* owner_value_;
	Object* owner_object_;

	// Map of reference objects.
	typedef std::map<void, Object> ReferenceMap;
	ReferenceMap reference_map_;

	// Map of dependency objects.
	typedef std::set<void*> DependencySet;
	typedef std::map<void*, DependencySet> DependencyMap;
	DependencyMap dependency_map_;

	DISALLOW_COPY_AND_ASSIGN(CefValueController);
	};

	// Thread-safe access control implementation.
	class CefValueControllerThreadSafe : public CefValueController {
	public:
	explicit CefValueControllerThreadSafe() : locked_thread_id_(0) {}

	// CefValueController methods.
	bool thread_safe() override { return true; }
	bool on_correct_thread() override { return true; }
	void lock() override NO_THREAD_SAFETY_ANALYSIS {
	lock_.Acquire();
	locked_thread_id_ = base::PlatformThread::CurrentId();
	}
	void unlock() override NO_THREAD_SAFETY_ANALYSIS {
	locked_thread_id_ = 0;
	lock_.Release();
	}
	bool locked() override {
	return (locked_thread_id_ == base::PlatformThread::CurrentId());
	}
	void AssertLockAcquired() override { lock_.AssertAcquired(); }

	private:
	base::Lock lock_;
	base::PlatformThreadId locked_thread_id_;

	DISALLOW_COPY_AND_ASSIGN(CefValueControllerThreadSafe);
	};

	// Non-thread-safe access control implementation.
	class CefValueControllerNonThreadSafe : public CefValueController {
	public:
	explicit CefValueControllerNonThreadSafe()
	: thread_id_(base::PlatformThread::CurrentId()) {}

	// CefValueController methods.
	bool thread_safe() override { return false; }
	bool on_correct_thread() override {
	return (thread_id_ == base::PlatformThread::CurrentId());
	}
	void lock() override {}
	void unlock() override {}
	bool locked() override { return on_correct_thread(); }
	void AssertLockAcquired() override { DCHECK(locked()); }

	private:
	base::PlatformThreadId thread_id_;

	DISALLOW_COPY_AND_ASSIGN(CefValueControllerNonThreadSafe);
	};

	// Helper macros for verifying context.

	#define CEF_VALUE_VERIFY_RETURN_VOID_EX(object, modify) \
	if (!VerifyAttached()) \
	return; \
	AutoLock auto_lock(object, modify); \
	if (!auto_lock.verified()) \
	return;

	#define CEF_VALUE_VERIFY_RETURN_VOID(modify) \
	CEF_VALUE_VERIFY_RETURN_VOID_EX(this, modify)

	#define CEF_VALUE_VERIFY_RETURN_EX(object, modify, error_val) \
	if (!VerifyAttached()) \
	return error_val; \
	AutoLock auto_lock(object, modify); \
	if (!auto_lock.verified()) \
	return error_val;

	#define CEF_VALUE_VERIFY_RETURN(modify, error_val) \
	CEF_VALUE_VERIFY_RETURN_EX(this, modify, error_val)

	// Template class for implementing CEF wrappers of other types.
	template <class CefType, class ValueType>
	class CefValueBase : public CefType, public CefValueController::Object {
	public:
	// Specifies how the value will be used.
	enum ValueMode {
	// A reference to a value managed by an existing controller. These values
	// can be safely detached but ownership should not be transferred (make a
	// copy of the value instead).
	kReference,

	// The value has its own controller and will be deleted on destruction.
	// These values can only be detached to another controller otherwise any
	// references will not be properly managed.
	kOwnerWillDelete,

	// The value has its own controller and will not be deleted on destruction.
	// This should only be used for global values or scope-limited values that
	// will be explicitly detached.
	kOwnerNoDelete,
	};

	// Create a new object.
	// If \|read_only\| is true mutable access will not be allowed.
	// If \|parent_value\| is non-NULL and the value mode is kReference a dependency
	// will be added.
	CefValueBase(ValueType* value,
	void* parent_value,
	ValueMode value_mode,
	bool read_only,
	CefValueController* controller)
	: value_(value),
	value_mode_(value_mode),
	read_only_(read_only),
	controller_(controller) {
	DCHECK(value_);

	// Specifying a parent value for a non-reference doesn't make sense.
	DCHECK(!(!reference() && parent_value));

	if (!reference() && !controller_.get()) {
	// For owned values default to using a new multi-threaded controller.
	controller_ = new CefValueControllerThreadSafe();
	SetOwnsController();
	}

	// A controller is required.
	DCHECK(controller_.get());

	if (reference()) {
	// Register the reference with the controller.
	controller_->AddReference(value_, this);

	// Add a dependency on the parent value.
	if (parent_value)
	controller_->AddDependency(parent_value, value_);
	}
	}

	~CefValueBase() override {
	if (controller_.get() && value_)
	Delete();
	}

	// True if the underlying value is referenced instead of owned.
	inline bool reference() const { return (value_mode_ == kReference); }

	// True if the underlying value will be deleted.
	inline bool will_delete() const { return (value_mode_ == kOwnerWillDelete); }

	// True if access to the underlying value is read-only.
	inline bool read_only() const { return read_only_; }

	// True if the underlying value has been detached.
	inline bool detached() { return !controller_.get(); }

	// Returns the controller.
	inline CefValueController* controller() { return controller_.get(); }

	// Deletes the underlying value.
	void Delete() {
	CEF_VALUE_VERIFY_RETURN_VOID(false);

	// Remove the object from the controller. If this is the owner object any
	// references will be detached.
	controller()->Remove(value_, false);

	if (will_delete()) {
	// Remove any dependencies.
	controller()->RemoveDependencies(value_);

	// Delete the value.
	DeleteValue(value_);
	}

	controller_ = nullptr;
	value_ = nullptr;
	}

	// Detaches the underlying value and returns a pointer to it. If this is an
	// owner and a \|new_controller\| value is specified any existing references
	// will be passed to the new controller.
	ValueType* Detach(CefValueController* new_controller) {
	CEF_VALUE_VERIFY_RETURN(false, nullptr);

	// A \|new_controller\| value is required for mode kOwnerWillDelete.
	DCHECK(!will_delete() \|\| new_controller);

	if (new_controller && !reference()) {
	// Pass any existing references and dependencies to the new controller.
	// They will be removed from this controller.
	new_controller->TakeFrom(controller());
	}

	// Remove the object from the controller. If this is the owner object any
	// references will be detached.
	controller()->Remove(value_, false);
	controller_ = nullptr;

	// Return the old value.
	ValueType* old_val = value_;
	value_ = nullptr;
	return old_val;
	}

	// Verify that the value is attached.
	inline bool VerifyAttached() {
	if (detached()) {
	// This object should not be accessed after being detached.
	NOTREACHED() << "object accessed after being detached.";
	return false;
	}
	return true;
	}

	protected:
	// CefValueController::Object methods.
	void OnControlRemoved() override {
	DCHECK(controller()->locked());

	// Only references should be removed in this manner.
	DCHECK(reference());

	controller_ = nullptr;
	value_ = nullptr;
	}

	// Override to customize value deletion.
	virtual void DeleteValue(ValueType* value) { delete value; }

	// Returns a mutable reference to the value.
	inline ValueType* mutable_value() {
	DCHECK(value_);
	DCHECK(!read_only_);
	DCHECK(controller()->locked());
	return value_;
	}
	// Returns a const reference to the value.
	inline const ValueType& const_value() {
	DCHECK(value_);
	DCHECK(controller()->locked());
	return *value_;
	}

	// Verify that the value can be accessed.
	inline bool VerifyAccess(bool modify) {
	// The controller must already be locked.
	DCHECK(controller()->locked());

	if (read_only() && modify) {
	// This object cannot be modified.
	NOTREACHED() << "mutation attempted on read-only object.";
	return false;
	}

	return true;
	}

	// Used to indicate that this object owns the controller.
	inline void SetOwnsController() {
	CefValueController::AutoLock lock_scope(controller_.get());
	if (lock_scope.verified())
	controller_->SetOwner(value_, this);
	}

	// Encapsulates value locking and verification logic.
	class AutoLock {
	public:
	explicit AutoLock(CefValueBase* impl, bool modify)
	: auto_lock_(impl->controller()) {
	verified_ = (auto_lock_.verified() && impl->VerifyAccess(modify));
	}

	inline bool verified() { return verified_; }

	private:
	CefValueController::AutoLock auto_lock_;
	bool verified_;

	DISALLOW_COPY_AND_ASSIGN(AutoLock);
	};

	private:
	ValueType* value_;
	ValueMode value_mode_;
	bool read_only_;
	scoped_refptr<CefValueController> controller_;

	IMPLEMENT_REFCOUNTING(CefValueBase);

	DISALLOW_COPY_AND_ASSIGN(CefValueBase);
	};

	#endif // CEF_LIBCEF_COMMON_VALUE_BASE_H_