/**************************************************************************** * * Copyright (c) 2017, Michael Becker (michael.f.becker@gmail.com) * * This file is part of the FreeRTOS Add-ons project. * * Source Code: * https://github.com/michaelbecker/freertos-addons * * Project Page: * http://michaelbecker.github.io/freertos-addons/ * * On-line Documentation: * http://michaelbecker.github.io/freertos-addons/docs/html/index.html * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files * (the "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so,subject to the * following conditions: * * + The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * + Credit is appreciated, but not required, if you find this project * useful enough to include in your application, product, device, etc. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * ***************************************************************************/ #ifndef TIMER_HPP_ #define TIMER_HPP_ /** * C++ exceptions are used by default when constructors fail. * If you do not want this behavior, define the following in your makefile * or project. Note that in most / all cases when a constructor fails, * it's a fatal error. In the cases when you've defined this, the new * default behavior will be to issue a configASSERT() instead. */ #include #ifndef CPP_FREERTOS_NO_EXCEPTIONS #include #include #ifdef CPP_FREERTOS_NO_CPP_STRINGS #error "FreeRTOS-Addons require C++ Strings if you are using exceptions" #endif #endif #include "FreeRTOS.h" #include "timers.h" namespace cpp_freertos { #ifndef CPP_FREERTOS_NO_EXCEPTIONS /** * This is the exception that is thrown if a Thread constructor fails. */ class TimerCreateException : public std::exception { public: /** * Create the exception. */ TimerCreateException() { sprintf(errorString, "Timer Constructor Failed"); } /** * Get what happened as a string. * We are overriding the base implementation here. */ virtual const char *what() const throw() { return errorString; } private: /** * A text string representing what failed. */ char errorString[40]; }; #endif /** * Wrapper class around FreeRTOS's implementation of a timer. * * This is an abstract base class. * To use this, you need to subclass it. All of your timers should * be derived from the Timer class. Then implement the virtual Run * function. This is a similar design to Java threading. */ class Timer { const std::string name = "Default"; ///////////////////////////////////////////////////////////////////////// // // Public API // ///////////////////////////////////////////////////////////////////////// public: /** * Construct a named timer. * Timers are not active after they are created, you need to * activate them via Start, Reset, etc. * * @throws TimerCreateException * @param TimerName Name of the timer for debug. * @param PeriodInTicks When does the timer expire and run your Run() * method. * @param Periodic true if the timer expires every PeriodInTicks. * false if this is a one shot timer. */ Timer( const char * const TimerName, TickType_t PeriodInTicks, bool Periodic = true ); /** * Construct an unnamed timer. * Timers are not active after they are created, you need to * activate them via Start, Reset, etc. * * @throws TimerCreateException * @param PeriodInTicks When does the timer expire and run your Run() * method. * @param Periodic true if the timer expires every PeriodInTicks. * false if this is a one shot timer. */ Timer( TickType_t PeriodInTicks, bool Periodic = true ); /** * Destructor */ virtual ~Timer(); /** * Is the timer currently active? * * @return true if the timer is active, false otherwise. */ bool IsActive(); /** * Start a timer. This changes the state to active. * * @param CmdTimeout How long to wait to send this command to the * timer code. * @returns true if this command will be sent to the timer code, * false if it will not (i.e. timeout). */ bool Start(TickType_t CmdTimeout = portMAX_DELAY); /** * Start a timer from ISR context. This changes the state to active. * * @param pxHigherPriorityTaskWoken Did this operation result in a * rescheduling event. * @returns true if this command will be sent to the timer code, * false if it will not (i.e. timeout). */ bool StartFromISR(BaseType_t *pxHigherPriorityTaskWoken); /** * Stop a timer. This changes the state to inactive. * * @param CmdTimeout How long to wait to send this command to the * timer code. * @returns true if this command will be sent to the timer code, * false if it will not (i.e. timeout). */ bool Stop(TickType_t CmdTimeout = portMAX_DELAY); /** * Stop a timer from ISR context. This changes the state to inactive. * * @param pxHigherPriorityTaskWoken Did this operation result in a * rescheduling event. * @returns true if this command will be sent to the timer code, * false if it will not (i.e. timeout). */ bool StopFromISR(BaseType_t *pxHigherPriorityTaskWoken); /** * Reset a timer. This changes the state to active. * * @param CmdTimeout How long to wait to send this command to the * timer code. * @returns true if this command will be sent to the timer code, * false if it will not (i.e. timeout). */ bool Reset(TickType_t CmdTimeout = portMAX_DELAY); /** * Reset a timer from ISR context. This changes the state to active. * * @param pxHigherPriorityTaskWoken Did this operation result in a * rescheduling event. * @returns true if this command will be sent to the timer code, * false if it will not (i.e. timeout). */ bool ResetFromISR(BaseType_t *pxHigherPriorityTaskWoken); /** * Change a timer's period. * * @param NewPeriod The period in ticks. * @param CmdTimeout How long to wait to send this command to the * timer code. * @returns true if this command will be sent to the timer code, * false if it will not (i.e. timeout). */ bool SetPeriod( TickType_t NewPeriod, TickType_t CmdTimeout = portMAX_DELAY); /** * Change a timer's period from ISR context. * * @param NewPeriod The period in ticks. * @param pxHigherPriorityTaskWoken Did this operation result in a * rescheduling event. * @returns true if this command will be sent to the timer code, * false if it will not (i.e. timeout). */ bool SetPeriodFromISR( TickType_t NewPeriod, BaseType_t *pxHigherPriorityTaskWoken); #if (INCLUDE_xTimerGetTimerDaemonTaskHandle == 1) /** * If you need it, obtain the task handle of the FreeRTOS * task that is running the timers. * * @return Task handle of the FreeRTOS timer task. */ static TaskHandle_t GetTimerDaemonHandle(); #endif ///////////////////////////////////////////////////////////////////////// // // Protected API // Available from inside your Thread implementation. // You should make sure that you are only calling these methods // from within your Run() method, or that your Run() method is on the // callstack. // ///////////////////////////////////////////////////////////////////////// protected: /** * Implementation of your actual timer code. * You must override this function. */ virtual void Run() = 0; ///////////////////////////////////////////////////////////////////////// // // Private API // The internals of this wrapper class. // ///////////////////////////////////////////////////////////////////////// private: /** * Reference to the underlying timer handle. */ TimerHandle_t handle; /** * Adapter function that allows you to write a class * specific Run() function that interfaces with FreeRTOS. * Look at the implementation of the constructors and this * code to see how the interface between C and C++ is performed. */ static void TimerCallbackFunctionAdapter(TimerHandle_t xTimer); }; } #endif