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nordic/nrf-sdk/app_common/app_timer.h
- Committer:
- Rohit Grover
- Date:
- 2014-09-26
- Revision:
- 69:936d81c963fe
- Parent:
- 65:98215c4f3a25
File content as of revision 69:936d81c963fe:
/* Copyright (c) 2012 Nordic Semiconductor. All Rights Reserved. * * The information contained herein is property of Nordic Semiconductor ASA. * Terms and conditions of usage are described in detail in NORDIC * SEMICONDUCTOR STANDARD SOFTWARE LICENSE AGREEMENT. * * Licensees are granted free, non-transferable use of the information. NO * WARRANTY of ANY KIND is provided. This heading must NOT be removed from * the file. * */ /** @file * * @defgroup app_timer Application Timer * @{ * @ingroup app_common * * @brief Application timer functionality. * * @details It enables the application to create multiple timer instances based on the RTC1 * peripheral. Checking for timeouts and invokation of user timeout handlers is performed * in the RTC1 interrupt handler. List handling is done using a software interrupt (SWI0). * Both interrupt handlers are running in APP_LOW priority level. * * @note When calling app_timer_start() or app_timer_stop(), the timer operation is just queued, * and the software interrupt is triggered. The actual timer start/stop operation is * executed by the SWI0 interrupt handler. Since the SWI0 interrupt is running in APP_LOW, * if the application code calling the timer function is running in APP_LOW or APP_HIGH, * the timer operation will not be performed until the application handler has returned. * This will be the case e.g. when stopping a timer from a timeout handler when not using * the scheduler. * * @details Use the USE_SCHEDULER parameter of the APP_TIMER_INIT() macro to select if the * @ref app_scheduler is to be used or not. * * @note Even if the scheduler is not used, app_timer.h will include app_scheduler.h, so when * compiling, app_scheduler.h must be available in one of the compiler include paths. */ #ifndef APP_TIMER_H__ #define APP_TIMER_H__ #include <stdint.h> #include <stdbool.h> #include <stdio.h> #include "app_error.h" #include "app_util.h" #include "app_scheduler.h" #include "compiler_abstraction.h" #ifdef __cplusplus extern "C" { #endif // #ifdef __cplusplus #define APP_TIMER_SCHED_EVT_SIZE sizeof(app_timer_event_t) /**< Size of button events being passed through the scheduler (is to be used for computing the maximum size of scheduler events). */ #define APP_TIMER_CLOCK_FREQ 32768 /**< Clock frequency of the RTC timer used to implement the app timer module. */ #define APP_TIMER_MIN_TIMEOUT_TICKS 5 /**< Minimum value of the timeout_ticks parameter of app_timer_start(). */ #define APP_TIMER_NODE_SIZE 40 /**< Size of app_timer.timer_node_t (only for use inside APP_TIMER_BUF_SIZE()). */ #define APP_TIMER_USER_OP_SIZE 24 /**< Size of app_timer.timer_user_op_t (only for use inside APP_TIMER_BUF_SIZE()). */ #define APP_TIMER_USER_SIZE 8 /**< Size of app_timer.timer_user_t (only for use inside APP_TIMER_BUF_SIZE()). */ #define APP_TIMER_INT_LEVELS 3 /**< Number of interrupt levels from where timer operations may be initiated (only for use inside APP_TIMER_BUF_SIZE()). */ #define MAX_RTC_COUNTER_VAL 0x00FFFFFF /**< Maximum value of the RTC counter. */ /**@brief Compute number of bytes required to hold the application timer data structures. * * @param[in] MAX_TIMERS Maximum number of timers that can be created at any given time. * @param[in] OP_QUEUE_SIZE Size of queues holding timer operations that are pending execution. * NOTE: Due to the queue implementation, this size must be one more * than the size that is actually needed. * * @return Required application timer buffer size (in bytes). */ #define APP_TIMER_BUF_SIZE(MAX_TIMERS, OP_QUEUE_SIZE) \ ( \ ((MAX_TIMERS) * APP_TIMER_NODE_SIZE) \ + \ ( \ APP_TIMER_INT_LEVELS \ * \ (APP_TIMER_USER_SIZE + ((OP_QUEUE_SIZE) + 1) * APP_TIMER_USER_OP_SIZE) \ ) \ ) /**@brief Convert milliseconds to timer ticks. * * @note This macro uses 64 bit integer arithmetic, but as long as the macro parameters are * constants (i.e. defines), the computation will be done by the preprocessor. * * @param[in] MS Milliseconds. * @param[in] PRESCALER Value of the RTC1 PRESCALER register (must be the same value that was * passed to APP_TIMER_INIT()). * * @note When using this macro, it is the responsibility of the developer to ensure that the * values provided as input result in an output value that is supported by the * @ref app_timer_start function. For example, when the ticks for 1 ms is needed, the * maximum possible value of PRESCALER must be 6, when @ref APP_TIMER_CLOCK_FREQ is 32768. * This will result in a ticks value as 5. Any higher value for PRESCALER will result in a * ticks value that is not supported by this module. * * @return Number of timer ticks. */ #define APP_TIMER_TICKS(MS, PRESCALER)\ ((uint32_t)ROUNDED_DIV((MS) * (uint64_t)APP_TIMER_CLOCK_FREQ, ((PRESCALER) + 1) * 1000)) /**@brief Timer id type. */ typedef uint32_t app_timer_id_t; #define TIMER_NULL ((app_timer_id_t)(0 - 1)) /**< Invalid timer id. */ /**@brief Application timeout handler type. */ typedef void (*app_timer_timeout_handler_t)(void * p_context); /**@brief Type of function for passing events from the timer module to the scheduler. */ typedef uint32_t (*app_timer_evt_schedule_func_t) (app_timer_timeout_handler_t timeout_handler, void * p_context); /**@brief Timer modes. */ typedef enum { APP_TIMER_MODE_SINGLE_SHOT, /**< The timer will expire only once. */ APP_TIMER_MODE_REPEATED /**< The timer will restart each time it expires. */ } app_timer_mode_t; /**@brief Macro for initializing the application timer module. * * @details It will handle dimensioning and allocation of the memory buffer required by the timer, * making sure that the buffer is correctly aligned. It will also connect the timer module * to the scheduler (if specified). * * @note This module assumes that the LFCLK is already running. If it isn't, the module will * be non-functional, since the RTC will not run. If you don't use a softdevice, you'll * have to start the LFCLK manually. See the rtc_example's \ref lfclk_config() function * for an example of how to do this. If you use a softdevice, the LFCLK is started on * softdevice init. * * * @param[in] PRESCALER Value of the RTC1 PRESCALER register. This will decide the * timer tick rate. Set to 0 for no prescaling. * @param[in] MAX_TIMERS Maximum number of timers that can be created at any given time. * @param[in] OP_QUEUES_SIZE Size of queues holding timer operations that are pending execution. * @param[in] USE_SCHEDULER TRUE if the application is using the event scheduler, * FALSE otherwise. * * @note Since this macro allocates a buffer, it must only be called once (it is OK to call it * several times as long as it is from the same location, e.g. to do a reinitialization). */ /*lint -emacro(506, APP_TIMER_INIT) */ /* Suppress "Constant value Boolean */ #define APP_TIMER_INIT(PRESCALER, MAX_TIMERS, OP_QUEUES_SIZE, USE_SCHEDULER) \ do \ { \ static uint32_t APP_TIMER_BUF[CEIL_DIV(APP_TIMER_BUF_SIZE((MAX_TIMERS), \ (OP_QUEUES_SIZE) + 1), \ sizeof(uint32_t))]; \ uint32_t ERR_CODE = app_timer_init((PRESCALER), \ (MAX_TIMERS), \ (OP_QUEUES_SIZE) + 1, \ APP_TIMER_BUF, \ (USE_SCHEDULER) ? app_timer_evt_schedule : NULL); \ APP_ERROR_CHECK(ERR_CODE); \ } while (0) /**@brief Function for initializing the timer module. * * @note Normally initialization should be done using the APP_TIMER_INIT() macro, as that will both * allocate the buffers needed by the timer module (including aligning the buffers correctly, * and also take care of connecting the timer module to the scheduler (if specified). * * @param[in] prescaler Value of the RTC1 PRESCALER register. Set to 0 for no prescaling. * @param[in] max_timers Maximum number of timers that can be created at any given time. * @param[in] op_queues_size Size of queues holding timer operations that are pending * execution. NOTE: Due to the queue implementation, this size must * be one more than the size that is actually needed. * @param[in] p_buffer Pointer to memory buffer for internal use in the app_timer * module. The size of the buffer can be computed using the * APP_TIMER_BUF_SIZE() macro. The buffer must be aligned to a * 4 byte boundary. * @param[in] evt_schedule_func Function for passing timeout events to the scheduler. Point to * app_timer_evt_schedule() to connect to the scheduler. Set to NULL * to make the timer module call the timeout handler directly from * the timer interrupt handler. * * @retval NRF_SUCCESS Successful initialization. * @retval NRF_ERROR_INVALID_PARAM Invalid parameter (buffer not aligned to a 4 byte * boundary or NULL). */ uint32_t app_timer_init(uint32_t prescaler, uint8_t max_timers, uint8_t op_queues_size, void * p_buffer, app_timer_evt_schedule_func_t evt_schedule_func); /**@brief Function for creating a timer instance. * * @param[out] p_timer_id Id of the newly created timer. * @param[in] mode Timer mode. * @param[in] timeout_handler Function to be executed when the timer expires. * * @retval NRF_SUCCESS Timer was successfully created. * @retval NRF_ERROR_INVALID_PARAM Invalid parameter. * @retval NRF_ERROR_INVALID_STATE Application timer module has not been initialized. * @retval NRF_ERROR_NO_MEM Maximum number of timers has already been reached. * * @note This function does the timer allocation in the caller's context. It is also not protected * by a critical region. Therefore care must be taken not to call it from several interrupt * levels simultaneously. */ uint32_t app_timer_create(app_timer_id_t * p_timer_id, app_timer_mode_t mode, app_timer_timeout_handler_t timeout_handler); /**@brief Function for starting a timer. * * @param[in] timer_id Id of timer to start. * @param[in] timeout_ticks Number of ticks (of RTC1, including prescaling) to timeout event * (minimum 5 ticks). * @param[in] p_context General purpose pointer. Will be passed to the timeout handler when * the timer expires. * * @retval NRF_SUCCESS Timer was successfully started. * @retval NRF_ERROR_INVALID_PARAM Invalid parameter. * @retval NRF_ERROR_INVALID_STATE Application timer module has not been initialized, or timer * has not been created. * @retval NRF_ERROR_NO_MEM Timer operations queue was full. * * @note The minimum timeout_ticks value is 5. * @note For multiple active timers, timeouts occurring in close proximity to each other (in the * range of 1 to 3 ticks) will have a positive jitter of maximum 3 ticks. * @note When calling this method on a timer which is already running, the second start operation * will be ignored. */ uint32_t app_timer_start(app_timer_id_t timer_id, uint32_t timeout_ticks, void * p_context); /**@brief Function for stopping the specified timer. * * @param[in] timer_id Id of timer to stop. * * @retval NRF_SUCCESS Timer was successfully stopped. * @retval NRF_ERROR_INVALID_PARAM Invalid parameter. * @retval NRF_ERROR_INVALID_STATE Application timer module has not been initialized, or timer * has not been created. * @retval NRF_ERROR_NO_MEM Timer operations queue was full. */ uint32_t app_timer_stop(app_timer_id_t timer_id); /**@brief Function for stopping all running timers. * * @retval NRF_SUCCESS All timers were successfully stopped. * @retval NRF_ERROR_INVALID_STATE Application timer module has not been initialized. * @retval NRF_ERROR_NO_MEM Timer operations queue was full. */ uint32_t app_timer_stop_all(void); /**@brief Function for returning the current value of the RTC1 counter. The * value includes overflow bits to extend the range to 64-bits. * * @param[out] p_ticks Current value of the RTC1 counter. * * @retval NRF_SUCCESS Counter was successfully read. */ uint32_t app_timer_cnt_get(uint64_t * p_ticks); /**@brief Function for computing the difference between two RTC1 counter values. * * @param[in] ticks_to Value returned by app_timer_cnt_get(). * @param[in] ticks_from Value returned by app_timer_cnt_get(). * @param[out] p_ticks_diff Number of ticks from ticks_from to ticks_to. * * @retval NRF_SUCCESS Counter difference was successfully computed. */ uint32_t app_timer_cnt_diff_compute(uint32_t ticks_to, uint32_t ticks_from, uint32_t * p_ticks_diff); // Type and functions for connecting the timer to the scheduler: /**@cond NO_DOXYGEN */ typedef struct { app_timer_timeout_handler_t timeout_handler; void * p_context; } app_timer_event_t; static __INLINE void app_timer_evt_get(void * p_event_data, uint16_t event_size) { app_timer_event_t * p_timer_event = (app_timer_event_t *)p_event_data; APP_ERROR_CHECK_BOOL(event_size == sizeof(app_timer_event_t)); p_timer_event->timeout_handler(p_timer_event->p_context); } static __INLINE uint32_t app_timer_evt_schedule(app_timer_timeout_handler_t timeout_handler, void * p_context) { app_timer_event_t timer_event; timer_event.timeout_handler = timeout_handler; timer_event.p_context = p_context; return app_sched_event_put(&timer_event, sizeof(timer_event), app_timer_evt_get); } /**@endcond */ #ifdef __cplusplus } #endif // #ifdef __cplusplus #endif // APP_TIMER_H__ /** @} */