flipperzero-firmware/firmware/targets/f4/api-hal/api-hal-timebase-timer.h
あく c8aca9ef48
[FL-667] Power saving: deep sleep in tickless state (#300)
* SYSTEM: tickless mode with deep sleep.
* Move FreeRTOS ticks to lptim2.
* API: move all sumbodules init routines to one place.
* Timebase: working lptim2 at tick source.
* API Timebase: lp-timer routines, timer access safe zones prediction and synchronization. 
* FreeRTOS: adjust configuration for tickless mode.
* NFC: support for tickless mode.
* API Timebase: improve tick error handling in IRQ. 
* Apploader: use insomnia mode to run applications.
* BLE: prevent sleep while core2 starting.
* HAL: nap while in insomnia mode.

Co-authored-by: coreglitch <mail@s3f.ru>
2021-01-18 18:08:58 +03:00

96 lines
3.3 KiB
C

#pragma once
#include <stm32wbxx_ll_lptim.h>
#include <stdbool.h>
static inline void assert(bool value) {
if (!value) asm("bkpt 1");
}
// Timer used for system ticks
#define API_HAL_TIMEBASE_TIMER_MAX 0xFFFF
#define API_HAL_TIMEBASE_TIMER_REG_LOAD_DLY 0x1
#define API_HAL_TIMEBASE_TIMER LPTIM2
#define API_HAL_TIMEBASE_TIMER_IRQ LPTIM2_IRQn
#define API_HAL_TIMEBASE_TIMER_CLOCK_INIT() \
{ \
LL_RCC_SetLPTIMClockSource(LL_RCC_LPTIM2_CLKSOURCE_LSE); \
LL_APB1_GRP2_EnableClock(LL_APB1_GRP2_PERIPH_LPTIM2); \
} \
static inline void api_hal_timebase_timer_init() {
API_HAL_TIMEBASE_TIMER_CLOCK_INIT();
LL_LPTIM_Enable(API_HAL_TIMEBASE_TIMER);
while(!LL_LPTIM_IsEnabled(API_HAL_TIMEBASE_TIMER)) {}
LL_LPTIM_SetClockSource(API_HAL_TIMEBASE_TIMER, LL_LPTIM_CLK_SOURCE_INTERNAL);
LL_LPTIM_SetPrescaler(API_HAL_TIMEBASE_TIMER, LL_LPTIM_PRESCALER_DIV1);
LL_LPTIM_SetPolarity(API_HAL_TIMEBASE_TIMER, LL_LPTIM_OUTPUT_POLARITY_REGULAR);
LL_LPTIM_SetUpdateMode(API_HAL_TIMEBASE_TIMER, LL_LPTIM_UPDATE_MODE_IMMEDIATE);
LL_LPTIM_SetCounterMode(API_HAL_TIMEBASE_TIMER, LL_LPTIM_COUNTER_MODE_INTERNAL);
LL_LPTIM_TrigSw(API_HAL_TIMEBASE_TIMER);
LL_LPTIM_SetInput1Src(API_HAL_TIMEBASE_TIMER, LL_LPTIM_INPUT1_SRC_GPIO);
LL_LPTIM_SetInput2Src(API_HAL_TIMEBASE_TIMER, LL_LPTIM_INPUT2_SRC_GPIO);
NVIC_SetPriority(API_HAL_TIMEBASE_TIMER_IRQ, NVIC_EncodePriority(NVIC_GetPriorityGrouping(), 15, 0));
NVIC_EnableIRQ(API_HAL_TIMEBASE_TIMER_IRQ);
}
static inline uint32_t api_hal_timebase_timer_get_cnt() {
uint32_t counter = LL_LPTIM_GetCounter(API_HAL_TIMEBASE_TIMER);
uint32_t counter_shadow = LL_LPTIM_GetCounter(API_HAL_TIMEBASE_TIMER);
while(counter != counter_shadow) {
counter = counter_shadow;
counter_shadow = LL_LPTIM_GetCounter(API_HAL_TIMEBASE_TIMER);
}
return counter;
}
static inline bool api_hal_timebase_timer_arr_is_ok() {
return LL_LPTIM_IsActiveFlag_ARROK(API_HAL_TIMEBASE_TIMER);
}
static inline uint32_t api_hal_timebase_timer_get_arr() {
return LL_LPTIM_GetAutoReload(API_HAL_TIMEBASE_TIMER);;
}
static inline void api_hal_timebase_timer_set_arr(uint32_t value) {
value &= API_HAL_TIMEBASE_TIMER_MAX;
if (value != api_hal_timebase_timer_get_arr()) {
assert(api_hal_timebase_timer_arr_is_ok());
LL_LPTIM_ClearFlag_ARROK(API_HAL_TIMEBASE_TIMER);
LL_LPTIM_SetAutoReload(API_HAL_TIMEBASE_TIMER, value);
}
}
static inline bool api_hal_timebase_timer_cmp_is_ok() {
return LL_LPTIM_IsActiveFlag_CMPOK(API_HAL_TIMEBASE_TIMER);
}
static inline uint32_t api_hal_timebase_timer_get_cmp() {
return LL_LPTIM_GetCompare(API_HAL_TIMEBASE_TIMER);;
}
static inline void api_hal_timebase_timer_set_cmp(uint32_t value) {
value &= API_HAL_TIMEBASE_TIMER_MAX;
if (value != api_hal_timebase_timer_get_cmp()) {
assert(api_hal_timebase_timer_cmp_is_ok());
LL_LPTIM_ClearFlag_CMPOK(API_HAL_TIMEBASE_TIMER);
LL_LPTIM_SetCompare(API_HAL_TIMEBASE_TIMER, value);
}
}
static inline bool api_hal_timebase_timer_is_safe() {
uint16_t cmp = api_hal_timebase_timer_get_cmp();
uint16_t cnt = api_hal_timebase_timer_get_cnt();
uint16_t margin = (cmp > cnt) ? cmp - cnt : cnt - cmp;
if (margin < 8) {
return false;
}
if (!api_hal_timebase_timer_cmp_is_ok()) {
return false;
}
return true;
}