mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-11-23 13:03:13 +00:00
20c4121f25
* Use static mutex * Add static_assert checks * Use static semaphore * Fix formatting * Use static stream buffer * Use static timer * Use static event group * Increase allocation size for stream buffer * Remove recursive bit from the mutex before freeing * Prevent service tasks from ever returning * Use static threads * Do not realloc memory when changing stack size * Use FuriSemaphore instead of raw FreeRTOS one in rpc_test * Remove redundant includes * Abolish FreeRTOS dynamic allocation * Improve FuriMutex * Improve FuriMessageQueue * Remove redundant comments and parentheses * Clean up code more * Create service threads via a dedicated constructor * Minor code improvements * Update docs for FuriThread, FuriTimer * Fix doxygen typo * Use a bigger buffer for static StreamBuffer * Furi: remove timer control block only when timer thread have completed all operations --------- Co-authored-by: Aleksandr Kutuzov <alleteam@gmail.com>
156 lines
4.3 KiB
C
156 lines
4.3 KiB
C
#include "timer.h"
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#include "check.h"
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#include "kernel.h"
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#include <FreeRTOS.h>
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#include <timers.h>
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struct FuriTimer {
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StaticTimer_t container;
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FuriTimerCallback cb_func;
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void* cb_context;
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volatile bool can_be_removed;
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};
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// IMPORTANT: container MUST be the FIRST struct member
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static_assert(offsetof(FuriTimer, container) == 0);
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static void TimerCallback(TimerHandle_t hTimer) {
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FuriTimer* instance = pvTimerGetTimerID(hTimer);
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furi_check(instance);
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instance->cb_func(instance->cb_context);
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}
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FuriTimer* furi_timer_alloc(FuriTimerCallback func, FuriTimerType type, void* context) {
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furi_check((furi_kernel_is_irq_or_masked() == 0U) && (func != NULL));
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FuriTimer* instance = malloc(sizeof(FuriTimer));
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instance->cb_func = func;
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instance->cb_context = context;
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const UBaseType_t reload = (type == FuriTimerTypeOnce ? pdFALSE : pdTRUE);
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const TimerHandle_t hTimer = xTimerCreateStatic(
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NULL, portMAX_DELAY, reload, instance, TimerCallback, &instance->container);
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furi_check(hTimer == (TimerHandle_t)instance);
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return instance;
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}
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static void furi_timer_epilogue(void* context, uint32_t arg) {
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furi_assert(context);
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UNUSED(arg);
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FuriTimer* instance = context;
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instance->can_be_removed = true;
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}
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void furi_timer_free(FuriTimer* instance) {
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furi_check(!furi_kernel_is_irq_or_masked());
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furi_check(instance);
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TimerHandle_t hTimer = (TimerHandle_t)instance;
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furi_check(xTimerDelete(hTimer, portMAX_DELAY) == pdPASS);
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furi_check(xTimerPendFunctionCall(furi_timer_epilogue, instance, 0, portMAX_DELAY) == pdPASS);
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while(!instance->can_be_removed) {
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furi_delay_tick(2);
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}
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free(instance);
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}
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FuriStatus furi_timer_start(FuriTimer* instance, uint32_t ticks) {
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furi_check(!furi_kernel_is_irq_or_masked());
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furi_check(instance);
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furi_check(ticks < portMAX_DELAY);
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TimerHandle_t hTimer = (TimerHandle_t)instance;
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FuriStatus stat;
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if(xTimerChangePeriod(hTimer, ticks, portMAX_DELAY) == pdPASS) {
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stat = FuriStatusOk;
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} else {
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stat = FuriStatusErrorResource;
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}
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return stat;
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}
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FuriStatus furi_timer_restart(FuriTimer* instance, uint32_t ticks) {
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furi_check(!furi_kernel_is_irq_or_masked());
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furi_check(instance);
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furi_check(ticks < portMAX_DELAY);
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TimerHandle_t hTimer = (TimerHandle_t)instance;
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FuriStatus stat;
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if(xTimerChangePeriod(hTimer, ticks, portMAX_DELAY) == pdPASS &&
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xTimerReset(hTimer, portMAX_DELAY) == pdPASS) {
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stat = FuriStatusOk;
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} else {
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stat = FuriStatusErrorResource;
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}
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return stat;
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}
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FuriStatus furi_timer_stop(FuriTimer* instance) {
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furi_check(!furi_kernel_is_irq_or_masked());
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furi_check(instance);
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TimerHandle_t hTimer = (TimerHandle_t)instance;
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furi_check(xTimerStop(hTimer, portMAX_DELAY) == pdPASS);
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return FuriStatusOk;
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}
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uint32_t furi_timer_is_running(FuriTimer* instance) {
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furi_check(!furi_kernel_is_irq_or_masked());
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furi_check(instance);
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TimerHandle_t hTimer = (TimerHandle_t)instance;
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/* Return 0: not running, 1: running */
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return (uint32_t)xTimerIsTimerActive(hTimer);
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}
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uint32_t furi_timer_get_expire_time(FuriTimer* instance) {
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furi_check(!furi_kernel_is_irq_or_masked());
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furi_check(instance);
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TimerHandle_t hTimer = (TimerHandle_t)instance;
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return (uint32_t)xTimerGetExpiryTime(hTimer);
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}
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void furi_timer_pending_callback(FuriTimerPendigCallback callback, void* context, uint32_t arg) {
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furi_check(callback);
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BaseType_t ret = pdFAIL;
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if(furi_kernel_is_irq_or_masked()) {
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ret = xTimerPendFunctionCallFromISR(callback, context, arg, NULL);
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} else {
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ret = xTimerPendFunctionCall(callback, context, arg, FuriWaitForever);
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}
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furi_check(ret == pdPASS);
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}
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void furi_timer_set_thread_priority(FuriTimerThreadPriority priority) {
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furi_check(!furi_kernel_is_irq_or_masked());
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TaskHandle_t task_handle = xTimerGetTimerDaemonTaskHandle();
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furi_check(task_handle); // Don't call this method before timer task start
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if(priority == FuriTimerThreadPriorityNormal) {
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vTaskPrioritySet(task_handle, configTIMER_TASK_PRIORITY);
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} else if(priority == FuriTimerThreadPriorityElevated) {
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vTaskPrioritySet(task_handle, configMAX_PRIORITIES - 1);
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} else {
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furi_crash();
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}
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}
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