b835d7a451
* Furi: replace obsolete furiac_exit with osThreadExit, drop obsolete apis and test. Rename systemd to flipper and move to separate file, cleanup. ApiHal: Rename timebase to os and move freertos hooks there, move insomnia api to power module. * Furi: new thread helper * Furi: cleanup thread documentation * Flipper, AppLoader: update to use FuriThread. Update tasks signatures to match FuriThreadCallback signature. * F4: rename API_HAL_TIMEBASE_DEBUG to API_HAL_OS_DEBUG * Applications: rename FuriApplication to FlipperApplication, use FuriThreadCallback signature for apps. * C++ app template sample, new exit method
170 lines
5.4 KiB
C
170 lines
5.4 KiB
C
#include <api-hal-os.h>
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#include <api-hal-os-timer.h>
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#include <api-hal-power.h>
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#include <FreeRTOS.h>
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#include <cmsis_os.h>
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#define API_HAL_OS_CLK_FREQUENCY 32768
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#define API_HAL_OS_TICK_PER_SECOND 1024
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#define API_HAL_OS_CLK_PER_TICK (API_HAL_OS_CLK_FREQUENCY / API_HAL_OS_TICK_PER_SECOND)
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#define API_HAL_OS_TICK_PER_EPOCH (API_HAL_OS_TIMER_MAX / API_HAL_OS_CLK_PER_TICK)
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#define API_HAL_OS_MAX_SLEEP (API_HAL_OS_TICK_PER_EPOCH - 1)
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#ifdef API_HAL_OS_DEBUG
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#include <stm32wbxx_ll_gpio.h>
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#define LED_GREEN_PORT GPIOA
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#define LED_GREEN_PIN LL_GPIO_PIN_2
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#endif
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typedef struct {
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// Tick counters
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volatile uint32_t in_sleep;
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volatile uint32_t in_awake;
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// Error counters
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volatile uint32_t sleep_error;
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volatile uint32_t awake_error;
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} ApiHalOs;
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ApiHalOs api_hal_os = {
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.in_sleep = 0,
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.in_awake = 0,
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.sleep_error = 0,
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.awake_error = 0,
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};
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void api_hal_os_init() {
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api_hal_os_timer_init();
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LL_DBGMCU_APB1_GRP2_FreezePeriph(LL_DBGMCU_APB1_GRP2_LPTIM2_STOP);
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LL_LPTIM_EnableIT_CMPM(API_HAL_OS_TIMER);
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LL_LPTIM_EnableIT_ARRM(API_HAL_OS_TIMER);
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LL_LPTIM_SetAutoReload(API_HAL_OS_TIMER, API_HAL_OS_TIMER_MAX);
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LL_LPTIM_SetCompare(API_HAL_OS_TIMER, API_HAL_OS_CLK_PER_TICK);
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LL_LPTIM_StartCounter(API_HAL_OS_TIMER, LL_LPTIM_OPERATING_MODE_CONTINUOUS);
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}
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void LPTIM2_IRQHandler(void) {
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// Autoreload
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const bool arrm_flag = LL_LPTIM_IsActiveFlag_ARRM(API_HAL_OS_TIMER);
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if(arrm_flag) {
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LL_LPTIM_ClearFLAG_ARRM(API_HAL_OS_TIMER);
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}
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if(LL_LPTIM_IsActiveFlag_CMPM(API_HAL_OS_TIMER)) {
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LL_LPTIM_ClearFLAG_CMPM(API_HAL_OS_TIMER);
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// Store important value
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uint16_t cnt = api_hal_os_timer_get_cnt();
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uint16_t cmp = api_hal_os_timer_get_cmp();
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uint16_t current_tick = cnt / API_HAL_OS_CLK_PER_TICK;
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uint16_t compare_tick = cmp / API_HAL_OS_CLK_PER_TICK;
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// Calculate error
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// happens when HAL or other high priority IRQ takes our time
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int32_t error = (int32_t)compare_tick - current_tick;
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api_hal_os.awake_error += ((error>0) ? error : -error);
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// Calculate and set next tick
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uint16_t next_tick = current_tick + 1;
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api_hal_os_timer_set_cmp(next_tick * API_HAL_OS_CLK_PER_TICK);
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// Notify OS
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api_hal_os.in_awake ++;
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if (xTaskGetSchedulerState() != taskSCHEDULER_NOT_STARTED) {
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xPortSysTickHandler();
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}
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}
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}
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static inline uint32_t api_hal_os_sleep(TickType_t expected_idle_ticks) {
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// Store important value before going to sleep
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const uint16_t before_cnt = api_hal_os_timer_get_cnt();
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const uint16_t before_tick = before_cnt / API_HAL_OS_CLK_PER_TICK;
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// Calculate and set next wakeup compare value
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const uint16_t expected_cnt = (before_tick + expected_idle_ticks - 2) * API_HAL_OS_CLK_PER_TICK;
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api_hal_os_timer_set_cmp(expected_cnt);
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HAL_SuspendTick();
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// Go to stop2 mode
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#ifdef API_HAL_OS_DEBUG
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LL_GPIO_SetOutputPin(LED_GREEN_PORT, LED_GREEN_PIN);
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#endif
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api_hal_power_deep_sleep();
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#ifdef API_HAL_OS_DEBUG
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LL_GPIO_ResetOutputPin(LED_GREEN_PORT, LED_GREEN_PIN);
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#endif
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HAL_ResumeTick();
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// Spin till we are in timer safe zone
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while(!api_hal_os_timer_is_safe()) {}
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// Store current counter value, calculate current tick
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const uint16_t after_cnt = api_hal_os_timer_get_cnt();
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const uint16_t after_tick = after_cnt / API_HAL_OS_CLK_PER_TICK;
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// Store and clear interrupt flags
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// we don't want handler to be called after renabling IRQ
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bool arrm_flag = LL_LPTIM_IsActiveFlag_ARRM(API_HAL_OS_TIMER);
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// Calculate and set next wakeup compare value
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const uint16_t next_cmp = (after_tick + 1) * API_HAL_OS_CLK_PER_TICK;
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api_hal_os_timer_set_cmp(next_cmp);
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// Calculate ticks count spent in sleep and perform sanity checks
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int32_t completed_ticks = arrm_flag ? (int32_t)before_tick - after_tick : (int32_t)after_tick - before_tick;
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return completed_ticks;
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}
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void vPortSuppressTicksAndSleep(TickType_t expected_idle_ticks) {
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if (!api_hal_power_deep_available()) {
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return;
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}
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// Limit mount of ticks to maximum that timer can count
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if (expected_idle_ticks > API_HAL_OS_MAX_SLEEP) {
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expected_idle_ticks = API_HAL_OS_MAX_SLEEP;
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}
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// Stop IRQ handling, no one should disturb us till we finish
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__disable_irq();
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// Confirm OS that sleep is still possible
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// And check if timer is in safe zone
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// (8 clocks till any IRQ event or ongoing synchronization)
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if (eTaskConfirmSleepModeStatus() == eAbortSleep
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|| !api_hal_os_timer_is_safe()) {
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__enable_irq();
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return;
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}
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uint32_t completed_ticks = api_hal_os_sleep(expected_idle_ticks);
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assert(completed_ticks >= 0);
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// Reenable IRQ
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__enable_irq();
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// Notify system about time spent in sleep
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if (completed_ticks > 0) {
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api_hal_os.in_sleep += completed_ticks;
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if (completed_ticks > expected_idle_ticks) {
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// We are late, count error
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api_hal_os.sleep_error += (completed_ticks - expected_idle_ticks);
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// Freertos is not happy when we overleep
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// But we are not going to tell her
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vTaskStepTick(expected_idle_ticks);
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} else {
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vTaskStepTick(completed_ticks);
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}
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}
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}
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void vApplicationStackOverflowHook(TaskHandle_t xTask, signed char *pcTaskName) {
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asm("bkpt 1");
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while(1) {};
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}
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