property_accessor.h - aosp/platform/system/connectivity/shill - Git at Google

 //
 // Copyright (C) 2012 The Android Open Source Project
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //      http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 //

 #ifndef SHILL_PROPERTY_ACCESSOR_H_
 #define SHILL_PROPERTY_ACCESSOR_H_

 #include <base/macros.h>
 #include <gtest/gtest_prod.h>  // for FRIEND_TEST.

 #include "shill/accessor_interface.h"
 #include "shill/error.h"
 #include "shill/logging.h"

 namespace shill {

 // Templated implementations of AccessorInterface<>.
 //
 // PropertyAccessor<>, ConstPropertyAccessor<>, and
 // WriteOnlyPropertyAccessor<> provide R/W, R/O, and W/O access
 // (respectively) to the value pointed to by |property|.
 //
 // This allows a class to easily map strings to member variables, so that
 // pieces of state stored in the class can be queried or updated by name.
 //
 //   bool foo = true;
 //   map<string, BoolAccessor> accessors;
 //   accessors["foo"] = BoolAccessor(new PropertyAccessor<bool>(&foo));
 //   bool new_foo = accessors["foo"]->Get();  // new_foo == true
 //   accessors["foo"]->Set(false);  // returns true, because setting is allowed.
 //                                  // foo == false, new_foo == true
 //   new_foo = accessors["foo"]->Get();  // new_foo == false
 //   // Clear resets |foo| to its value when the PropertyAccessor was created.
 //   accessors["foo"]->Clear();  // foo == true
 //
 // Generic accessors that provide write capability will check that the
 // new value differs from the present one. If the old and new values
 // are the same, the setter will not invoke the assignment operator, and
 // will return false.
 //
 // Custom accessors are responsible for handling set-to-same-value
 // themselves. It is not possible to handle that here, because some
 // custom getters return default values, rather than the actual
 // value. (I'm looking at you, WiFi::GetBgscanMethod.)
 template <class T>
 class PropertyAccessor : public AccessorInterface<T> {
  public:
   explicit PropertyAccessor(T* property)
       : property_(property), default_value_(*property) {
     DCHECK(property);
   }
   ~PropertyAccessor() override {}

   void Clear(Error* error) override { Set(default_value_, error); }
   T Get(Error* /*error*/) override { return *property_; }
   bool Set(const T& value, Error* /*error*/) override {
     if (*property_ == value) {
       return false;
     }
     *property_ = value;
     return true;
   }

  private:
   T* const property_;
   const T default_value_;
   DISALLOW_COPY_AND_ASSIGN(PropertyAccessor);
 };

 template <class T>
 class ConstPropertyAccessor : public AccessorInterface<T> {
  public:
   explicit ConstPropertyAccessor(const T* property) : property_(property) {
     DCHECK(property);
   }
   ~ConstPropertyAccessor() override {}

   void Clear(Error* error) override {
     // TODO(quiche): check if this is the right error.
     // (maybe Error::kInvalidProperty instead?)
     error->Populate(Error::kInvalidArguments, "Property is read-only");
   }
   T Get(Error* /*error*/) override { return *property_; }
   bool Set(const T& /*value*/, Error* error) override {
     // TODO(quiche): check if this is the right error.
     // (maybe Error::kPermissionDenied instead?)
     error->Populate(Error::kInvalidArguments, "Property is read-only");
     return false;
   }

  private:
   const T* const property_;
   DISALLOW_COPY_AND_ASSIGN(ConstPropertyAccessor);
 };

 template <class T>
 class WriteOnlyPropertyAccessor : public AccessorInterface<T> {
  public:
   explicit WriteOnlyPropertyAccessor(T* property)
       : property_(property), default_value_(*property) {
     DCHECK(property);
   }
   ~WriteOnlyPropertyAccessor() override {}

   void Clear(Error* error) override { Set(default_value_, error); }
   T Get(Error* error) override {
     error->Populate(Error::kPermissionDenied, "Property is write-only");
     return T();
   }
   bool Set(const T& value, Error* /*error*/) override {
     if (*property_ == value) {
       return false;
     }
     *property_ = value;
     return true;
   }

  private:
   FRIEND_TEST(PropertyAccessorTest, SignedIntCorrectness);
   FRIEND_TEST(PropertyAccessorTest, UnsignedIntCorrectness);
   FRIEND_TEST(PropertyAccessorTest, StringCorrectness);
   FRIEND_TEST(PropertyAccessorTest, ByteArrayCorrectness);

   T* const property_;
   const T default_value_;
   DISALLOW_COPY_AND_ASSIGN(WriteOnlyPropertyAccessor);
 };

 // CustomAccessor<> allows custom getter and setter methods to be provided.
 // Thus, if the state to be returned is to be derived on-demand, or if
 // setting the property requires validation, we can still fit it into the
 // AccessorInterface<> framework.
 //
 // If the property is write-only, use CustomWriteOnlyAccessor instead.
 template<class C, class T>
 class CustomAccessor : public AccessorInterface<T> {
  public:
   // |target| is the object on which to call the methods |getter|, |setter|
   // and |clearer|.  |setter| is allowed to be NULL, in which case we will
   // simply reject attempts to set via the accessor. |setter| should return
   // true if the value was changed, and false otherwise.  |clearer| is allowed
   // to be NULL (which is what happens if it is not passed to the constructor),
   // in which case, |setter| is called is called with the default value.
   // It is an error to pass NULL for either |target| or |getter|.
   CustomAccessor(C* target,
                  T(C::*getter)(Error* error),
                  bool(C::*setter)(const T& value, Error* error),
                  void(C::*clearer)(Error* error))
       : target_(target),
         default_value_(),
         getter_(getter),
         setter_(setter),
         clearer_(clearer) {
     DCHECK(target);
     DCHECK(getter);  // otherwise, use CustomWriteOnlyAccessor
     if (setter_) {
       Error e;
       default_value_ = Get(&e);
     }
   }
   CustomAccessor(C* target,
                  T(C::*getter)(Error* error),
                  bool(C::*setter)(const T& value, Error* error))
       : CustomAccessor(target, getter, setter, nullptr) {}
   ~CustomAccessor() override {}

   void Clear(Error* error) override {
     if (clearer_) {
       (target_->*clearer_)(error);
     } else {
       Set(default_value_, error);
     }
   }
   T Get(Error* error) override {
     return (target_->*getter_)(error);
   }
   bool Set(const T& value, Error* error) override {
     if (setter_) {
       return (target_->*setter_)(value, error);
     } else {
       error->Populate(Error::kInvalidArguments, "Property is read-only");
       return false;
     }
   }

  private:
   C* const target_;
   // |default_value_| is non-const because it can't be initialized in
   // the initializer list.
   T default_value_;
   T(C::*const getter_)(Error* error);
   bool(C::*const setter_)(const T& value, Error* error);  // NOLINT - "casting"
   void(C::*const clearer_)(Error* error);
   DISALLOW_COPY_AND_ASSIGN(CustomAccessor);
 };

 // CustomWriteOnlyAccessor<> allows a custom writer method to be provided.
 // Get returns an error automatically. Clear resets the value to a
 // default value.
 template<class C, class T>
 class CustomWriteOnlyAccessor : public AccessorInterface<T> {
  public:
   // |target| is the object on which to call |setter| and |clearer|.
   //
   // |target| and |setter| must be non-NULL. |setter| should return true
   // if the value was changed, and false otherwise.
   //
   // Either |clearer| or |default_value|, but not both, must be non-NULL.
   // Whichever is non-NULL is used to clear the property.
   CustomWriteOnlyAccessor(C* target,
                           bool(C::*setter)(const T& value, Error* error),
                           void(C::*clearer)(Error* error),
                           const T* default_value)
       : target_(target),
         setter_(setter),
         clearer_(clearer),
         default_value_() {
     DCHECK(target);
     DCHECK(setter);
     DCHECK(clearer || default_value);
     DCHECK(!clearer || !default_value);
     if (default_value) {
       default_value_ = *default_value;
     }
   }
   ~CustomWriteOnlyAccessor() override {}

   void Clear(Error* error) override {
     if (clearer_) {
       (target_->*clearer_)(error);
     } else {
       Set(default_value_, error);
     }
   }
   T Get(Error* error) override {
     error->Populate(Error::kPermissionDenied, "Property is write-only");
     return T();
   }
   bool Set(const T& value, Error* error) override {
     return (target_->*setter_)(value, error);
   }

  private:
   C* const target_;
   bool(C::*const setter_)(const T& value, Error* error);  // NOLINT - "casting"
   void(C::*const clearer_)(Error* error);
   // |default_value_| is non-const because it can't be initialized in
   // the initializer list.
   T default_value_;
   DISALLOW_COPY_AND_ASSIGN(CustomWriteOnlyAccessor);
 };

 // CustomReadOnlyAccessor<> allows a custom getter method to be provided.
 // Set and Clear return errors automatically.
 template<class C, class T>
 class CustomReadOnlyAccessor : public AccessorInterface<T> {
  public:
   // |target| is the object on which to call the |getter| method.
   // |getter| is a const method.  If a non-const method needs to be used,
   // use the CustomAccessor with a NULL setter instead.
   CustomReadOnlyAccessor(C* target, T(C::*getter)(Error* error) const)
       : target_(target), getter_(getter) {
     DCHECK(target);
     DCHECK(getter);
   }
   ~CustomReadOnlyAccessor() override {}

   void Clear(Error* error) override {
     error->Populate(Error::kInvalidArguments, "Property is read-only");
   }
   T Get(Error* error) override {
     return (target_->*getter_)(error);
   }
   bool Set(const T& value, Error* error) override {
     error->Populate(Error::kInvalidArguments, "Property is read-only");
     return false;
   }

  private:
   C* const target_;
   T(C::*const getter_)(Error* error) const;
   DISALLOW_COPY_AND_ASSIGN(CustomReadOnlyAccessor);
 };

 // CustomMappedAccessor<> passes an argument to the getter and setter
 // so that a generic method can be used, for example one that accesses the
 // property in a map.
 template<class C, class T, class A>
 class CustomMappedAccessor : public AccessorInterface<T> {
  public:
   // |target| is the object on which to call the methods |getter| and |setter|.
   // |setter| is allowed to be NULL, in which case we will simply reject
   // attempts to set via the accessor. |setter| should return true if the
   // value was changed, and false otherwise.
   // |argument| is passed to the getter and setter methods to disambiguate
   // between different properties in |target|.
   // It is an error to pass NULL for any of |target|, |clearer| or |getter|.
   CustomMappedAccessor(C* target,
                        void(C::*clearer)(const A& argument, Error* error),
                        T(C::*getter)(const A& argument, Error* error),
                        bool(C::*setter)(const A& argument, const T& value,
                                         Error* error),
                        const A& argument)
       : target_(target),
         clearer_(clearer),
         getter_(getter),
         setter_(setter),
         argument_(argument) {
     DCHECK(clearer);
     DCHECK(target);
     DCHECK(getter);
   }
   ~CustomMappedAccessor() override {}

   void Clear(Error* error) override {
     (target_->*clearer_)(argument_, error);
   }
   T Get(Error* error) override {
     return (target_->*getter_)(argument_, error);
   }
   bool Set(const T& value, Error* error) override {
     if (setter_) {
       return (target_->*setter_)(argument_, value, error);
     } else {
       error->Populate(Error::kInvalidArguments, "Property is read-only");
       return false;
     }
   }

  private:
   C* const target_;
   void(C::*const clearer_)(const A& argument, Error* error);
   T(C::*const getter_)(const A& argument, Error* error);
   bool(C::*const setter_)(const A& argument,  // NOLINT - "casting"
                           const T& value, Error* error);
   A argument_;
   DISALLOW_COPY_AND_ASSIGN(CustomMappedAccessor);
 };

 }  // namespace shill

 #endif  // SHILL_PROPERTY_ACCESSOR_H_
	//
	// Copyright (C) 2012 The Android Open Source Project
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.
	//

	#ifndef SHILL_PROPERTY_ACCESSOR_H_
	#define SHILL_PROPERTY_ACCESSOR_H_

	#include <base/macros.h>
	#include <gtest/gtest_prod.h> // for FRIEND_TEST.

	#include "shill/accessor_interface.h"
	#include "shill/error.h"
	#include "shill/logging.h"

	namespace shill {

	// Templated implementations of AccessorInterface<>.
	//
	// PropertyAccessor<>, ConstPropertyAccessor<>, and
	// WriteOnlyPropertyAccessor<> provide R/W, R/O, and W/O access
	// (respectively) to the value pointed to by \|property\|.
	//
	// This allows a class to easily map strings to member variables, so that
	// pieces of state stored in the class can be queried or updated by name.
	//
	// bool foo = true;
	// map<string, BoolAccessor> accessors;
	// accessors["foo"] = BoolAccessor(new PropertyAccessor<bool>(&foo));
	// bool new_foo = accessors["foo"]->Get(); // new_foo == true
	// accessors["foo"]->Set(false); // returns true, because setting is allowed.
	// // foo == false, new_foo == true
	// new_foo = accessors["foo"]->Get(); // new_foo == false
	// // Clear resets \|foo\| to its value when the PropertyAccessor was created.
	// accessors["foo"]->Clear(); // foo == true
	//
	// Generic accessors that provide write capability will check that the
	// new value differs from the present one. If the old and new values
	// are the same, the setter will not invoke the assignment operator, and
	// will return false.
	//
	// Custom accessors are responsible for handling set-to-same-value
	// themselves. It is not possible to handle that here, because some
	// custom getters return default values, rather than the actual
	// value. (I'm looking at you, WiFi::GetBgscanMethod.)
	template <class T>
	class PropertyAccessor : public AccessorInterface<T> {
	public:
	explicit PropertyAccessor(T* property)
	: property_(property), default_value_(*property) {
	DCHECK(property);
	}
	~PropertyAccessor() override {}

	void Clear(Error* error) override { Set(default_value_, error); }
	T Get(Error* /error/) override { return *property_; }
	bool Set(const T& value, Error* /error/) override {
	if (*property_ == value) {
	return false;
	}
	*property_ = value;
	return true;
	}

	private:
	T* const property_;
	const T default_value_;
	DISALLOW_COPY_AND_ASSIGN(PropertyAccessor);
	};

	template <class T>
	class ConstPropertyAccessor : public AccessorInterface<T> {
	public:
	explicit ConstPropertyAccessor(const T* property) : property_(property) {
	DCHECK(property);
	}
	~ConstPropertyAccessor() override {}

	void Clear(Error* error) override {
	// TODO(quiche): check if this is the right error.
	// (maybe Error::kInvalidProperty instead?)
	error->Populate(Error::kInvalidArguments, "Property is read-only");
	}
	T Get(Error* /error/) override { return *property_; }
	bool Set(const T& /value/, Error* error) override {
	// TODO(quiche): check if this is the right error.
	// (maybe Error::kPermissionDenied instead?)
	error->Populate(Error::kInvalidArguments, "Property is read-only");
	return false;
	}

	private:
	const T* const property_;
	DISALLOW_COPY_AND_ASSIGN(ConstPropertyAccessor);
	};

	template <class T>
	class WriteOnlyPropertyAccessor : public AccessorInterface<T> {
	public:
	explicit WriteOnlyPropertyAccessor(T* property)
	: property_(property), default_value_(*property) {
	DCHECK(property);
	}
	~WriteOnlyPropertyAccessor() override {}

	void Clear(Error* error) override { Set(default_value_, error); }
	T Get(Error* error) override {
	error->Populate(Error::kPermissionDenied, "Property is write-only");
	return T();
	}
	bool Set(const T& value, Error* /error/) override {
	if (*property_ == value) {
	return false;
	}
	*property_ = value;
	return true;
	}

	private:
	FRIEND_TEST(PropertyAccessorTest, SignedIntCorrectness);
	FRIEND_TEST(PropertyAccessorTest, UnsignedIntCorrectness);
	FRIEND_TEST(PropertyAccessorTest, StringCorrectness);
	FRIEND_TEST(PropertyAccessorTest, ByteArrayCorrectness);

	T* const property_;
	const T default_value_;
	DISALLOW_COPY_AND_ASSIGN(WriteOnlyPropertyAccessor);
	};

	// CustomAccessor<> allows custom getter and setter methods to be provided.
	// Thus, if the state to be returned is to be derived on-demand, or if
	// setting the property requires validation, we can still fit it into the
	// AccessorInterface<> framework.
	//
	// If the property is write-only, use CustomWriteOnlyAccessor instead.
	template<class C, class T>
	class CustomAccessor : public AccessorInterface<T> {
	public:
	// \|target\| is the object on which to call the methods \|getter\|, \|setter\|
	// and \|clearer\|. \|setter\| is allowed to be NULL, in which case we will
	// simply reject attempts to set via the accessor. \|setter\| should return
	// true if the value was changed, and false otherwise. \|clearer\| is allowed
	// to be NULL (which is what happens if it is not passed to the constructor),
	// in which case, \|setter\| is called is called with the default value.
	// It is an error to pass NULL for either \|target\| or \|getter\|.
	CustomAccessor(C* target,
	T(C::getter)(Error error),
	bool(C::setter)(const T& value, Error error),
	void(C::clearer)(Error error))
	: target_(target),
	default_value_(),
	getter_(getter),
	setter_(setter),
	clearer_(clearer) {
	DCHECK(target);
	DCHECK(getter); // otherwise, use CustomWriteOnlyAccessor
	if (setter_) {
	Error e;
	default_value_ = Get(&e);
	}
	}
	CustomAccessor(C* target,
	T(C::getter)(Error error),
	bool(C::setter)(const T& value, Error error))
	: CustomAccessor(target, getter, setter, nullptr) {}
	~CustomAccessor() override {}

	void Clear(Error* error) override {
	if (clearer_) {
	(target_->*clearer_)(error);
	} else {
	Set(default_value_, error);
	}
	}
	T Get(Error* error) override {
	return (target_->*getter_)(error);
	}
	bool Set(const T& value, Error* error) override {
	if (setter_) {
	return (target_->*setter_)(value, error);
	} else {
	error->Populate(Error::kInvalidArguments, "Property is read-only");
	return false;
	}
	}

	private:
	C* const target_;
	// \|default_value_\| is non-const because it can't be initialized in
	// the initializer list.
	T default_value_;
	T(C::const getter_)(Error error);
	bool(C::const setter_)(const T& value, Error error); // NOLINT - "casting"
	void(C::const clearer_)(Error error);
	DISALLOW_COPY_AND_ASSIGN(CustomAccessor);
	};

	// CustomWriteOnlyAccessor<> allows a custom writer method to be provided.
	// Get returns an error automatically. Clear resets the value to a
	// default value.
	template<class C, class T>
	class CustomWriteOnlyAccessor : public AccessorInterface<T> {
	public:
	// \|target\| is the object on which to call \|setter\| and \|clearer\|.
	//
	// \|target\| and \|setter\| must be non-NULL. \|setter\| should return true
	// if the value was changed, and false otherwise.
	//
	// Either \|clearer\| or \|default_value\|, but not both, must be non-NULL.
	// Whichever is non-NULL is used to clear the property.
	CustomWriteOnlyAccessor(C* target,
	bool(C::setter)(const T& value, Error error),
	void(C::clearer)(Error error),
	const T* default_value)
	: target_(target),
	setter_(setter),
	clearer_(clearer),
	default_value_() {
	DCHECK(target);
	DCHECK(setter);
	DCHECK(clearer \|\| default_value);
	DCHECK(!clearer \|\| !default_value);
	if (default_value) {
	default_value_ = *default_value;
	}
	}
	~CustomWriteOnlyAccessor() override {}

	void Clear(Error* error) override {
	if (clearer_) {
	(target_->*clearer_)(error);
	} else {
	Set(default_value_, error);
	}
	}
	T Get(Error* error) override {
	error->Populate(Error::kPermissionDenied, "Property is write-only");
	return T();
	}
	bool Set(const T& value, Error* error) override {
	return (target_->*setter_)(value, error);
	}

	private:
	C* const target_;
	bool(C::const setter_)(const T& value, Error error); // NOLINT - "casting"
	void(C::const clearer_)(Error error);
	// \|default_value_\| is non-const because it can't be initialized in
	// the initializer list.
	T default_value_;
	DISALLOW_COPY_AND_ASSIGN(CustomWriteOnlyAccessor);
	};

	// CustomReadOnlyAccessor<> allows a custom getter method to be provided.
	// Set and Clear return errors automatically.
	template<class C, class T>
	class CustomReadOnlyAccessor : public AccessorInterface<T> {
	public:
	// \|target\| is the object on which to call the \|getter\| method.
	// \|getter\| is a const method. If a non-const method needs to be used,
	// use the CustomAccessor with a NULL setter instead.
	CustomReadOnlyAccessor(C* target, T(C::getter)(Error error) const)
	: target_(target), getter_(getter) {
	DCHECK(target);
	DCHECK(getter);
	}
	~CustomReadOnlyAccessor() override {}

	void Clear(Error* error) override {
	error->Populate(Error::kInvalidArguments, "Property is read-only");
	}
	T Get(Error* error) override {
	return (target_->*getter_)(error);
	}
	bool Set(const T& value, Error* error) override {
	error->Populate(Error::kInvalidArguments, "Property is read-only");
	return false;
	}

	private:
	C* const target_;
	T(C::const getter_)(Error error) const;
	DISALLOW_COPY_AND_ASSIGN(CustomReadOnlyAccessor);
	};

	// CustomMappedAccessor<> passes an argument to the getter and setter
	// so that a generic method can be used, for example one that accesses the
	// property in a map.
	template<class C, class T, class A>
	class CustomMappedAccessor : public AccessorInterface<T> {
	public:
	// \|target\| is the object on which to call the methods \|getter\| and \|setter\|.
	// \|setter\| is allowed to be NULL, in which case we will simply reject
	// attempts to set via the accessor. \|setter\| should return true if the
	// value was changed, and false otherwise.
	// \|argument\| is passed to the getter and setter methods to disambiguate
	// between different properties in \|target\|.
	// It is an error to pass NULL for any of \|target\|, \|clearer\| or \|getter\|.
	CustomMappedAccessor(C* target,
	void(C::clearer)(const A& argument, Error error),
	T(C::getter)(const A& argument, Error error),
	bool(C::*setter)(const A& argument, const T& value,
	Error* error),
	const A& argument)
	: target_(target),
	clearer_(clearer),
	getter_(getter),
	setter_(setter),
	argument_(argument) {
	DCHECK(clearer);
	DCHECK(target);
	DCHECK(getter);
	}
	~CustomMappedAccessor() override {}

	void Clear(Error* error) override {
	(target_->*clearer_)(argument_, error);
	}
	T Get(Error* error) override {
	return (target_->*getter_)(argument_, error);
	}
	bool Set(const T& value, Error* error) override {
	if (setter_) {
	return (target_->*setter_)(argument_, value, error);
	} else {
	error->Populate(Error::kInvalidArguments, "Property is read-only");
	return false;
	}
	}

	private:
	C* const target_;
	void(C::const clearer_)(const A& argument, Error error);
	T(C::const getter_)(const A& argument, Error error);
	bool(C::*const setter_)(const A& argument, // NOLINT - "casting"
	const T& value, Error* error);
	A argument_;
	DISALLOW_COPY_AND_ASSIGN(CustomMappedAccessor);
	};

	} // namespace shill

	#endif // SHILL_PROPERTY_ACCESSOR_H_