mirror of
https://github.com/DarkFlippers/unleashed-firmware.git
synced 2024-12-22 21:01:40 +03:00
5d08b35b54
* Interrupt manager: add memory barriers. * ISRs: remove TIM17 dead code. * API HAL Delay: rename initialization routine and move to API-HAL * Main: move FURI initialization to the start. * API HAL GPIO: drop CC1101 shenanigans, COMP inversion for new boards. * IButton: migrate Cyfral and Metakom to RFID comp routine, make it compatible with new boards. * RFID: Better keyboard handling and shutdown routines
124 lines
4.2 KiB
C
124 lines
4.2 KiB
C
#include "api-interrupt-mgr.h"
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#include "mlib/m-dict.h"
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#include <m-list.h>
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#include <cmsis_os2.h>
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LIST_DEF(list_interrupt, InterruptCallbackItem, M_POD_OPLIST);
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DICT_DEF2(dict_interrupt, uint32_t, M_DEFAULT_OPLIST, list_interrupt_t, M_A1_OPLIST);
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dict_interrupt_t interrupts_dict;
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osMutexId_t interrupt_mutex;
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bool api_interrupt_init() {
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dict_interrupt_init(interrupts_dict);
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interrupt_mutex = osMutexNew(NULL);
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return (interrupt_mutex != NULL);
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}
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void api_interrupt_add(InterruptCallback callback, InterruptType type, void* context) {
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if(osMutexAcquire(interrupt_mutex, osWaitForever) == osOK) {
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list_interrupt_t* list = dict_interrupt_get(interrupts_dict, (uint32_t)type);
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if(list == NULL) {
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list_interrupt_t new_list;
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list_interrupt_init(new_list);
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dict_interrupt_set_at(interrupts_dict, (uint32_t)type, new_list);
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list = dict_interrupt_get(interrupts_dict, (uint32_t)type);
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}
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// put uninitialized item to the list
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// M_POD_OPLIST provide memset(&(a), 0, sizeof (a)) constructor
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// so item will not be ready until we set ready flag
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InterruptCallbackItem* item = list_interrupt_push_new(*list);
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// initialize item
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item->callback = callback;
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item->type = type;
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item->context = context;
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asm volatile("dmb" : : : "memory");
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item->ready = true;
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osMutexRelease(interrupt_mutex);
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}
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}
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void api_interrupt_remove(InterruptCallback callback, InterruptType type) {
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if(osMutexAcquire(interrupt_mutex, osWaitForever) == osOK) {
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list_interrupt_t* list = dict_interrupt_get(interrupts_dict, (uint32_t)type);
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if(list != NULL) {
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// iterate over items
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list_interrupt_it_t it;
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list_interrupt_it(it, *list);
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while(!list_interrupt_end_p(it)) {
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if(it->current->data.callback == callback) {
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list_interrupt_remove(*list, it);
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} else {
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list_interrupt_next(it);
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}
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}
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}
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osMutexRelease(interrupt_mutex);
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}
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}
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void api_interrupt_enable(InterruptCallback callback, InterruptType type) {
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if(osMutexAcquire(interrupt_mutex, osWaitForever) == osOK) {
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list_interrupt_t* list = dict_interrupt_get(interrupts_dict, (uint32_t)type);
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if(list != NULL) {
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// iterate over items
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list_interrupt_it_t it;
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for(list_interrupt_it(it, *list); !list_interrupt_end_p(it); list_interrupt_next(it)) {
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// if the iterator is equal to our element
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if(it->current->data.callback == callback) {
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it->current->data.ready = true;
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asm volatile("dmb" : : : "memory");
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}
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}
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}
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osMutexRelease(interrupt_mutex);
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}
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}
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void api_interrupt_disable(InterruptCallback callback, InterruptType type) {
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if(osMutexAcquire(interrupt_mutex, osWaitForever) == osOK) {
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list_interrupt_t* list = dict_interrupt_get(interrupts_dict, (uint32_t)type);
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if(list != NULL) {
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// iterate over items
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list_interrupt_it_t it;
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for(list_interrupt_it(it, *list); !list_interrupt_end_p(it); list_interrupt_next(it)) {
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// if the iterator is equal to our element
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if(it->current->data.callback == callback) {
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it->current->data.ready = false;
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asm volatile("dmb" : : : "memory");
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}
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}
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}
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osMutexRelease(interrupt_mutex);
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}
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}
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void api_interrupt_call(InterruptType type, void* hw) {
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// that executed in interrupt ctx so mutex don't needed
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// but we need to check ready flag
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list_interrupt_t* list = dict_interrupt_get(interrupts_dict, (uint32_t)type);
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if(list != NULL) {
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// iterate over items
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list_interrupt_it_t it;
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for(list_interrupt_it(it, *list); !list_interrupt_end_p(it); list_interrupt_next(it)) {
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// if the iterator is equal to our element
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if(it->current->data.ready) {
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it->current->data.callback(hw, it->current->data.context);
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}
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}
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}
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}
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