brillo/dbus/dbus_param_reader.h - aosp/platform/external/libchromeos - Git at Google

 // Copyright 2014 The Chromium OS Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 // This file provides generic method to parse function call arguments from
 // D-Bus message buffer and subsequently invokes a provided native C++ callback
 // with the parameter values passed as the callback arguments.

 // This functionality is achieved by parsing method arguments one by one,
 // left to right from the C++ callback's type signature, and moving the parsed
 // arguments to the back to the next call to DBusInvoke::Invoke's arguments as
 // const refs.  Each iteration has one fewer template specialization arguments,
 // until there is only the return type remaining and we fall through to either
 // the void or the non-void final specialization.

 #ifndef LIBBRILLO_BRILLO_DBUS_DBUS_PARAM_READER_H_
 #define LIBBRILLO_BRILLO_DBUS_DBUS_PARAM_READER_H_

 #include <type_traits>

 #include <brillo/dbus/data_serialization.h>
 #include <brillo/dbus/utils.h>
 #include <brillo/errors/error.h>
 #include <brillo/errors/error_codes.h>
 #include <dbus/message.h>

 namespace brillo {
 namespace dbus_utils {

 // A generic DBusParamReader stub class which allows us to specialize on
 // a variable list of expected function parameters later on.
 // This struct in itself is not used. But its concrete template specializations
 // defined below are.
 // |allow_out_params| controls whether DBusParamReader allows the parameter
 // list to contain OUT parameters (pointers).
 template<bool allow_out_params, typename...>
 struct DBusParamReader;

 // A generic specialization of DBusParamReader to handle variable function
 // parameters. This specialization pops one parameter off the D-Bus message
 // buffer and calls other specializations of DBusParamReader with fewer
 // parameters to pop the remaining parameters.
 //  CurrentParam  - the type of the current method parameter we are processing.
 //  RestOfParams  - the types of remaining parameters to be processed.
 template<bool allow_out_params, typename CurrentParam, typename... RestOfParams>
 struct DBusParamReader<allow_out_params, CurrentParam, RestOfParams...> {
   // DBusParamReader::Invoke() is a member function that actually extracts the
   // current parameter from the message buffer.
   //  handler     - the C++ callback functor to be called when all the
   //                parameters are processed.
   //  method_call - D-Bus method call object we are processing.
   //  reader      - D-Bus message reader to pop the current argument value from.
   //  args...     - the callback parameters processed so far.
   template<typename CallbackType, typename... Args>
   static bool Invoke(const CallbackType& handler,
                      dbus::MessageReader* reader,
                      ErrorPtr* error,
                      const Args&... args) {
     return InvokeHelper<CurrentParam, CallbackType, Args...>(
         handler, reader, error, static_cast<const Args&>(args)...);
   }

   //
   // There are two specializations of this function:
   //  1. For the case where ParamType is a value type (D-Bus IN parameter).
   //  2. For the case where ParamType is a pointer (D-Bus OUT parameter).
   // In the second case, the parameter is not popped off the message reader,
   // since we do not expect the client to provide any data for it.
   // However after the final handler is called, the values for the OUT
   // parameters should be sent back in the method call response message.

   // Overload 1: ParamType is not a pointer.
   template<typename ParamType, typename CallbackType, typename... Args>
   static typename std::enable_if<!std::is_pointer<ParamType>::value, bool>::type
   InvokeHelper(const CallbackType& handler,
                dbus::MessageReader* reader,
                ErrorPtr* error,
                const Args&... args) {
     if (!reader->HasMoreData()) {
       Error::AddTo(error, FROM_HERE, errors::dbus::kDomain,
                    DBUS_ERROR_INVALID_ARGS,
                    "Too few parameters in a method call");
       return false;
     }
     // ParamType could be a reference type (e.g. 'const std::string&').
     // Here we need a value type so we can create an object of this type and
     // pop the value off the message buffer into. Using std::decay<> to get
     // the value type. If ParamType is already a value type, ParamValueType will
     // be the same as ParamType.
     using ParamValueType = typename std::decay<ParamType>::type;
     // The variable to hold the value of the current parameter we reading from
     // the message buffer.
     ParamValueType current_param;
     if (!DBusType<ParamValueType>::Read(reader, &current_param)) {
       Error::AddTo(error, FROM_HERE, errors::dbus::kDomain,
                    DBUS_ERROR_INVALID_ARGS,
                    "Method parameter type mismatch");
       return false;
     }
     // Call DBusParamReader::Invoke() to process the rest of parameters.
     // Note that this is not a recursive call because it is calling a different
     // method of a different class. We exclude the current parameter type
     // (ParamType) from DBusParamReader<> template parameter list and forward
     // all the parameters to the arguments of Invoke() and append the current
     // parameter to the end of the parameter list. We pass it as a const
     // reference to allow to use move-only types such as std::unique_ptr<> and
     // to eliminate unnecessarily copying data.
     return DBusParamReader<allow_out_params, RestOfParams...>::Invoke(
         handler, reader, error,
         static_cast<const Args&>(args)...,
         static_cast<const ParamValueType&>(current_param));
   }

   // Overload 2: ParamType is a pointer.
   template<typename ParamType, typename CallbackType, typename... Args>
   static typename std::enable_if<allow_out_params &&
                                  std::is_pointer<ParamType>::value, bool>::type
       InvokeHelper(const CallbackType& handler,
                    dbus::MessageReader* reader,
                    ErrorPtr* error,
                    const Args&... args) {
     // ParamType is a pointer. This is expected to be an output parameter.
     // Create storage for it and the handler will provide a value for it.
     using ParamValueType = typename std::remove_pointer<ParamType>::type;
     // The variable to hold the value of the current parameter we are passing
     // to the handler.
     ParamValueType current_param{};  // Default-initialize the value.
     // Call DBusParamReader::Invoke() to process the rest of parameters.
     // Note that this is not a recursive call because it is calling a different
     // method of a different class. We exclude the current parameter type
     // (ParamType) from DBusParamReader<> template parameter list and forward
     // all the parameters to the arguments of Invoke() and append the current
     // parameter to the end of the parameter list.
     return DBusParamReader<allow_out_params, RestOfParams...>::Invoke(
         handler, reader, error,
         static_cast<const Args&>(args)...,
         &current_param);
   }
 };  // struct DBusParamReader<ParamType, RestOfParams...>

 // The final specialization of DBusParamReader<> used when no more parameters
 // are expected in the message buffer. Actually dispatches the call to the
 // handler with all the accumulated arguments.
 template<bool allow_out_params>
 struct DBusParamReader<allow_out_params> {
   template<typename CallbackType, typename... Args>
   static bool Invoke(const CallbackType& handler,
                      dbus::MessageReader* reader,
                      ErrorPtr* error,
                      const Args&... args) {
     if (reader->HasMoreData()) {
       Error::AddTo(error, FROM_HERE, errors::dbus::kDomain,
                    DBUS_ERROR_INVALID_ARGS,
                    "Too many parameters in a method call");
       return false;
     }
     handler(args...);
     return true;
   }
 };  // struct DBusParamReader<>

 }  // namespace dbus_utils
 }  // namespace brillo

 #endif  // LIBBRILLO_BRILLO_DBUS_DBUS_PARAM_READER_H_
	// Copyright 2014 The Chromium OS Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	// This file provides generic method to parse function call arguments from
	// D-Bus message buffer and subsequently invokes a provided native C++ callback
	// with the parameter values passed as the callback arguments.

	// This functionality is achieved by parsing method arguments one by one,
	// left to right from the C++ callback's type signature, and moving the parsed
	// arguments to the back to the next call to DBusInvoke::Invoke's arguments as
	// const refs. Each iteration has one fewer template specialization arguments,
	// until there is only the return type remaining and we fall through to either
	// the void or the non-void final specialization.

	#ifndef LIBBRILLO_BRILLO_DBUS_DBUS_PARAM_READER_H_
	#define LIBBRILLO_BRILLO_DBUS_DBUS_PARAM_READER_H_

	#include <type_traits>

	#include <brillo/dbus/data_serialization.h>
	#include <brillo/dbus/utils.h>
	#include <brillo/errors/error.h>
	#include <brillo/errors/error_codes.h>
	#include <dbus/message.h>

	namespace brillo {
	namespace dbus_utils {

	// A generic DBusParamReader stub class which allows us to specialize on
	// a variable list of expected function parameters later on.
	// This struct in itself is not used. But its concrete template specializations
	// defined below are.
	// \|allow_out_params\| controls whether DBusParamReader allows the parameter
	// list to contain OUT parameters (pointers).
	template<bool allow_out_params, typename...>
	struct DBusParamReader;

	// A generic specialization of DBusParamReader to handle variable function
	// parameters. This specialization pops one parameter off the D-Bus message
	// buffer and calls other specializations of DBusParamReader with fewer
	// parameters to pop the remaining parameters.
	// CurrentParam - the type of the current method parameter we are processing.
	// RestOfParams - the types of remaining parameters to be processed.
	template<bool allow_out_params, typename CurrentParam, typename... RestOfParams>
	struct DBusParamReader<allow_out_params, CurrentParam, RestOfParams...> {
	// DBusParamReader::Invoke() is a member function that actually extracts the
	// current parameter from the message buffer.
	// handler - the C++ callback functor to be called when all the
	// parameters are processed.
	// method_call - D-Bus method call object we are processing.
	// reader - D-Bus message reader to pop the current argument value from.
	// args... - the callback parameters processed so far.
	template<typename CallbackType, typename... Args>
	static bool Invoke(const CallbackType& handler,
	dbus::MessageReader* reader,
	ErrorPtr* error,
	const Args&... args) {
	return InvokeHelper<CurrentParam, CallbackType, Args...>(
	handler, reader, error, static_cast<const Args&>(args)...);
	}

	//
	// There are two specializations of this function:
	// 1. For the case where ParamType is a value type (D-Bus IN parameter).
	// 2. For the case where ParamType is a pointer (D-Bus OUT parameter).
	// In the second case, the parameter is not popped off the message reader,
	// since we do not expect the client to provide any data for it.
	// However after the final handler is called, the values for the OUT
	// parameters should be sent back in the method call response message.

	// Overload 1: ParamType is not a pointer.
	template<typename ParamType, typename CallbackType, typename... Args>
	static typename std::enable_if<!std::is_pointer<ParamType>::value, bool>::type
	InvokeHelper(const CallbackType& handler,
	dbus::MessageReader* reader,
	ErrorPtr* error,
	const Args&... args) {
	if (!reader->HasMoreData()) {
	Error::AddTo(error, FROM_HERE, errors::dbus::kDomain,
	DBUS_ERROR_INVALID_ARGS,
	"Too few parameters in a method call");
	return false;
	}
	// ParamType could be a reference type (e.g. 'const std::string&').
	// Here we need a value type so we can create an object of this type and
	// pop the value off the message buffer into. Using std::decay<> to get
	// the value type. If ParamType is already a value type, ParamValueType will
	// be the same as ParamType.
	using ParamValueType = typename std::decay<ParamType>::type;
	// The variable to hold the value of the current parameter we reading from
	// the message buffer.
	ParamValueType current_param;
	if (!DBusType<ParamValueType>::Read(reader, &current_param)) {
	Error::AddTo(error, FROM_HERE, errors::dbus::kDomain,
	DBUS_ERROR_INVALID_ARGS,
	"Method parameter type mismatch");
	return false;
	}
	// Call DBusParamReader::Invoke() to process the rest of parameters.
	// Note that this is not a recursive call because it is calling a different
	// method of a different class. We exclude the current parameter type
	// (ParamType) from DBusParamReader<> template parameter list and forward
	// all the parameters to the arguments of Invoke() and append the current
	// parameter to the end of the parameter list. We pass it as a const
	// reference to allow to use move-only types such as std::unique_ptr<> and
	// to eliminate unnecessarily copying data.
	return DBusParamReader<allow_out_params, RestOfParams...>::Invoke(
	handler, reader, error,
	static_cast<const Args&>(args)...,
	static_cast<const ParamValueType&>(current_param));
	}

	// Overload 2: ParamType is a pointer.
	template<typename ParamType, typename CallbackType, typename... Args>
	static typename std::enable_if<allow_out_params &&
	std::is_pointer<ParamType>::value, bool>::type
	InvokeHelper(const CallbackType& handler,
	dbus::MessageReader* reader,
	ErrorPtr* error,
	const Args&... args) {
	// ParamType is a pointer. This is expected to be an output parameter.
	// Create storage for it and the handler will provide a value for it.
	using ParamValueType = typename std::remove_pointer<ParamType>::type;
	// The variable to hold the value of the current parameter we are passing
	// to the handler.
	ParamValueType current_param{}; // Default-initialize the value.
	// Call DBusParamReader::Invoke() to process the rest of parameters.
	// Note that this is not a recursive call because it is calling a different
	// method of a different class. We exclude the current parameter type
	// (ParamType) from DBusParamReader<> template parameter list and forward
	// all the parameters to the arguments of Invoke() and append the current
	// parameter to the end of the parameter list.
	return DBusParamReader<allow_out_params, RestOfParams...>::Invoke(
	handler, reader, error,
	static_cast<const Args&>(args)...,
	&current_param);
	}
	}; // struct DBusParamReader<ParamType, RestOfParams...>

	// The final specialization of DBusParamReader<> used when no more parameters
	// are expected in the message buffer. Actually dispatches the call to the
	// handler with all the accumulated arguments.
	template<bool allow_out_params>
	struct DBusParamReader<allow_out_params> {
	template<typename CallbackType, typename... Args>
	static bool Invoke(const CallbackType& handler,
	dbus::MessageReader* reader,
	ErrorPtr* error,
	const Args&... args) {
	if (reader->HasMoreData()) {
	Error::AddTo(error, FROM_HERE, errors::dbus::kDomain,
	DBUS_ERROR_INVALID_ARGS,
	"Too many parameters in a method call");
	return false;
	}
	handler(args...);
	return true;
	}
	}; // struct DBusParamReader<>

	} // namespace dbus_utils
	} // namespace brillo

	#endif // LIBBRILLO_BRILLO_DBUS_DBUS_PARAM_READER_H_