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Diff: targets/TARGET_NORDIC/TARGET_NRF5/us_ticker.c
- Revision:
- 167:e84263d55307
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- 165:e614a9f1c9e2
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- 169:e3b6fe271b81
--- a/targets/TARGET_NORDIC/TARGET_NRF5/us_ticker.c Thu Jun 08 15:02:37 2017 +0100 +++ b/targets/TARGET_NORDIC/TARGET_NRF5/us_ticker.c Wed Jun 21 17:46:44 2017 +0100 @@ -103,9 +103,6 @@ #endif } -#if (defined (__ICCARM__)) && defined(TARGET_MCU_NRF51822)//IAR -__stackless __task -#endif void RTC1_IRQHandler(void); void common_rtc_init(void) @@ -299,169 +296,70 @@ */ static uint32_t previous_tick_cc_value = 0; +/* The Period of RTC oscillator, unit [1/RTC1_CONFIG_FREQUENCY] */ +static uint32_t os_rtc_period; + +/* Variable for frozen RTC1 counter value. It is used when system timer is disabled. */ +static uint32_t frozen_sub_tick = 0; + + /* RTX provide the following definitions which are used by the tick code: - * os_trv: The number (minus 1) of clock cycle between two tick. - * os_clockrate: Time duration between two ticks (in us). - * OS_Tick_Handler: The function which handle a tick event. + * osRtxConfig.tick_freq: The RTX tick frequency. + * osRtxInfo.kernel.tick: Count of RTX ticks. + + * SysTick_Handler: The function which handle a tick event. This function is special because it never returns. Those definitions are used by the code which handle the os tick. To allow compilation of us_ticker programs without RTOS, those symbols are exported from this module as weak ones. */ -MBED_WEAK uint32_t const os_trv; -MBED_WEAK uint32_t const os_clockrate; -MBED_WEAK void OS_Tick_Handler(void) +MBED_WEAK void SysTick_Handler(void) { } -#if defined (__CC_ARM) /* ARMCC Compiler */ - -__asm void COMMON_RTC_IRQ_HANDLER(void) -{ - IMPORT OS_Tick_Handler - IMPORT common_rtc_irq_handler +#ifdef MBED_CONF_RTOS_PRESENT + #include "rtx_os.h" //import osRtxInfo, SysTick_Handler() + + static inline void clear_tick_interrupt(); +#endif - /** - * Chanel 1 of RTC1 is used by RTX as a systick. - * If the compare event on channel 1 is set, then branch to OS_Tick_Handler. - * Otherwise, just execute common_rtc_irq_handler. - * This function has to be written in assembly and tagged as naked because OS_Tick_Handler - * will never return. - * A c function would put lr on the stack before calling OS_Tick_Handler and this value - * would never been dequeued. - * - * \code - * void COMMON_RTC_IRQ_HANDLER(void) { - if(NRF_RTC1->EVENTS_COMPARE[1]) { - // never return... - OS_Tick_Handler(); - } else { - common_rtc_irq_handler(); - } - } - * \endcode - */ - ldr r0,=0x40011144 - ldr r1, [r0, #0] - cmp r1, #0 - beq US_TICKER_HANDLER - bl OS_Tick_Handler -US_TICKER_HANDLER - push {r3, lr} - bl common_rtc_irq_handler - pop {r3, pc} - ; ALIGN ; -} +#ifndef RTC1_CONFIG_FREQUENCY + #define RTC1_CONFIG_FREQUENCY 32678 // [Hz] +#endif -#elif defined (__GNUC__) /* GNU Compiler */ + -__attribute__((naked)) void COMMON_RTC_IRQ_HANDLER(void) +void COMMON_RTC_IRQ_HANDLER(void) { - /** - * Chanel 1 of RTC1 is used by RTX as a systick. - * If the compare event on channel 1 is set, then branch to OS_Tick_Handler. - * Otherwise, just execute common_rtc_irq_handler. - * This function has to be written in assembly and tagged as naked because OS_Tick_Handler - * will never return. - * A c function would put lr on the stack before calling OS_Tick_Handler and this value - * would never been dequeued. - * - * \code - * void COMMON_RTC_IRQ_HANDLER(void) { - if(NRF_RTC1->EVENTS_COMPARE[1]) { - // never return... - OS_Tick_Handler(); - } else { - common_rtc_irq_handler(); - } - } - * \endcode - */ - __asm__ ( - "ldr r0,=0x40011144\n" - "ldr r1, [r0, #0]\n" - "cmp r1, #0\n" - "beq US_TICKER_HANDLER\n" - "bl OS_Tick_Handler\n" - "US_TICKER_HANDLER:\n" - "push {r3, lr}\n" - "bl common_rtc_irq_handler\n" - "pop {r3, pc}\n" - "nop" - ); -} + if(nrf_rtc_event_pending(COMMON_RTC_INSTANCE, OS_TICK_EVENT)) { +#ifdef MBED_CONF_RTOS_PRESENT + clear_tick_interrupt(); + // Trigger the SysTick_Handler just after exit form RTC Handler. + NVIC_SetPendingIRQ(SWI3_IRQn); -#elif defined (__ICCARM__)//IAR -void common_rtc_irq_handler(void); - -__stackless __task void COMMON_RTC_IRQ_HANDLER(void) -{ - uint32_t temp; - - __asm volatile( - " ldr %[temp], [%[reg2check]] \n" - " cmp %[temp], #0 \n" - " beq 1f \n" - " bl.w OS_Tick_Handler \n" - "1: \n" - " push {r3, lr}\n" - " blx %[rtc_irq] \n" - " pop {r3, pc}\n" - - : /* Outputs */ - [temp] "=&r"(temp) - : /* Inputs */ - [reg2check] "r"(0x40011144), - [rtc_irq] "r"(common_rtc_irq_handler) - : /* Clobbers */ - "cc" - ); - (void)temp; + nrf_gpio_pin_set(11); +#endif + } else { + common_rtc_irq_handler(); + } } -#else - -#error Compiler not supported. -#error Provide a definition of COMMON_RTC_IRQ_HANDLER. - -/* - * Chanel 1 of RTC1 is used by RTX as a systick. - * If the compare event on channel 1 is set, then branch to OS_Tick_Handler. - * Otherwise, just execute common_rtc_irq_handler. - * This function has to be written in assembly and tagged as naked because OS_Tick_Handler - * will never return. - * A c function would put lr on the stack before calling OS_Tick_Handler and this value - * will never been dequeued. After a certain time a stack overflow will happen. - * - * \code - * void COMMON_RTC_IRQ_HANDLER(void) { - if(NRF_RTC1->EVENTS_COMPARE[1]) { - // never return... - OS_Tick_Handler(); - } else { - common_rtc_irq_handler(); - } - } - * \endcode - */ - -#endif - +#ifdef MBED_CONF_RTOS_PRESENT /** * Return the next number of clock cycle needed for the next tick. - * @note This function has been carrefuly optimized for a systick occuring every 1000us. + * @note This function has been carefully optimized for a systick occurring every 1000us. */ static uint32_t get_next_tick_cc_delta() { uint32_t delta = 0; - if (os_clockrate != 1000) { + if (osRtxConfig.tick_freq != 1000) { // In RTX, by default SYSTICK is is used. // A tick event is generated every os_trv + 1 clock cycles of the system timer. - delta = os_trv + 1; + delta = os_rtc_period; } else { // If the clockrate is set to 1000us then 1000 tick should happen every second. // Unfortunatelly, when clockrate is set to 1000, os_trv is equal to 31. @@ -556,82 +454,89 @@ __enable_irq(); } + /** * Initialize alternative hardware timer as RTX kernel timer * This function is directly called by RTX. * @note this function shouldn't be called directly. * @return IRQ number of the alternative hardware timer */ -int os_tick_init (void) +int32_t osRtxSysTimerSetup(void) { common_rtc_init(); - nrf_rtc_int_enable(COMMON_RTC_INSTANCE, OS_TICK_INT_MASK); - - nrf_rtc_cc_set(COMMON_RTC_INSTANCE, OS_TICK_CC_CHANNEL, 0); - register_next_tick(); + + os_rtc_period = (RTC1_CONFIG_FREQUENCY) / osRtxConfig.tick_freq; return nrf_drv_get_IRQn(COMMON_RTC_INSTANCE); } +// Start SysTickt timer emulation +void osRtxSysTimerEnable(void) +{ + nrf_rtc_int_enable(COMMON_RTC_INSTANCE, OS_TICK_INT_MASK); + + uint32_t current_cnt = nrf_rtc_counter_get(COMMON_RTC_INSTANCE); + nrf_rtc_cc_set(COMMON_RTC_INSTANCE, OS_TICK_CC_CHANNEL, current_cnt); + register_next_tick(); + + NVIC_SetVector(SWI3_IRQn, (uint32_t)SysTick_Handler); + NVIC_SetPriority(SWI3_IRQn, (1UL << __NVIC_PRIO_BITS) - 1UL); /* set Priority for Emulated Systick Interrupt */ + NVIC_EnableIRQ(SWI3_IRQn); +} + +// Stop SysTickt timer emulation +void osRtxSysTimerDisable(void) +{ + nrf_rtc_int_disable(COMMON_RTC_INSTANCE, OS_TICK_INT_MASK); + + // RTC1 is free runing. osRtxSysTimerGetCount will return proper frozen value + // thanks to geting frozen value instead of RTC1 counter value + frozen_sub_tick = nrf_rtc_counter_get(COMMON_RTC_INSTANCE); +} + + + /** * Acknowledge the tick interrupt. * This function is called by the function OS_Tick_Handler of RTX. * @note this function shouldn't be called directly. */ -void os_tick_irqack(void) +void osRtxSysTimerAckIRQ(void) { - clear_tick_interrupt(); register_next_tick(); } -/** - * Returns the overflow flag of the alternative hardware timer. - * @note This function is exposed by RTX kernel. - * @return 1 if the timer has overflowed and 0 otherwise. - */ -uint32_t os_tick_ovf(void) +// provide a free running incremental value over the entire 32-bit range +uint32_t osRtxSysTimerGetCount(void) { - uint32_t current_counter = nrf_rtc_counter_get(COMMON_RTC_INSTANCE); - uint32_t next_tick_cc_value = nrf_rtc_cc_get(COMMON_RTC_INSTANCE, OS_TICK_CC_CHANNEL); + uint32_t current_cnt; + uint32_t sub_tick; - return is_in_wrapped_range(previous_tick_cc_value, next_tick_cc_value, current_counter) ? 0 : 1; + if (nrf_rtc_int_is_enabled(COMMON_RTC_INSTANCE, OS_TICK_INT_MASK)) { + // system timer is enabled + current_cnt = nrf_rtc_counter_get(COMMON_RTC_INSTANCE); + + if (current_cnt >= previous_tick_cc_value) { + //0 prev current MAX + //|------|---------|------------|----> + sub_tick = current_cnt - previous_tick_cc_value; + } else { + //0 current prev MAX + //|------|---------|------------|----> + sub_tick = MAX_RTC_COUNTER_VAL - previous_tick_cc_value + current_cnt; + } + } else { // system timer is disabled + sub_tick = frozen_sub_tick; + } + + return (os_rtc_period * osRtxInfo.kernel.tick) + sub_tick; } -/** - * Return the value of the alternative hardware timer. - * @note The documentation is not very clear about what is expected as a result, - * is it an ascending counter, a descending one ? - * None of this is specified. - * The default systick is a descending counter and this function return values in - * descending order, even if the internal counter used is an ascending one. - * @return the value of the alternative hardware timer. - */ -uint32_t os_tick_val(void) -{ - uint32_t current_counter = nrf_rtc_counter_get(COMMON_RTC_INSTANCE); - uint32_t next_tick_cc_value = nrf_rtc_cc_get(COMMON_RTC_INSTANCE, OS_TICK_CC_CHANNEL); - - // do not use os_tick_ovf because its counter value can be different - if(is_in_wrapped_range(previous_tick_cc_value, next_tick_cc_value, current_counter)) { - if (next_tick_cc_value > previous_tick_cc_value) { - return next_tick_cc_value - current_counter; - } else if(current_counter <= next_tick_cc_value) { - return next_tick_cc_value - current_counter; - } else { - return next_tick_cc_value + (MAX_RTC_COUNTER_VAL - current_counter); - } - } else { - // use (os_trv + 1) has the base step, can be totally inacurate ... - uint32_t clock_cycles_by_tick = os_trv + 1; - - // if current counter has wrap arround, add the limit to it. - if (current_counter < next_tick_cc_value) { - current_counter = current_counter + MAX_RTC_COUNTER_VAL; - } - - return clock_cycles_by_tick - ((current_counter - next_tick_cc_value) % clock_cycles_by_tick); - } - +// Timer Tick frequency +uint32_t osRtxSysTimerGetFreq (void) { + return RTC1_CONFIG_FREQUENCY; } +#endif // #ifdef MBED_CONF_RTOS_PRESENT + #endif // defined(TARGET_MCU_NRF51822)