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942bbfaefe
flipperzero-firmware/firmware/targets/local/Src/lo_os.c
coreglitch 942bbfaefe
Core api concept (#144) 
* add input debounce code from old fw

* exampl of input api

* change input API to get/release

* revert input API to read

* pointer instead of instance

* add input API description

* add display API

* rewrite display names

* migrate to valuemanager

* add LED API

* add closing brakets

* add sound api

* fix led api

* basic api

* rename API pages

* change pubsub implementation

* move FURI AC -> flapp, add valuemutex example, add valuemanager implementation

* pubsub usage example

* user led example

* update example

* simplify input

* add composed display

* add SPI/GPIO and CC1101 bus

* change cc1101 api

* spi api and devices

* spi api and devices

* move SPI to page, add GPIO

* not block pin open

* backlight API and more

* add minunit tests

* fix logging

* ignore unexisting time service on embedded targets

* fix warning, issue with printf

* Deprecate furi_open and furi_close (#167)

Rename existing furi_open and furi_close to deprecated version

* add exitcode

* migrate to printf

* indicate test by leds

* add testing description

* rename furi.h

* wip basic api

* add valuemutex, pubsub, split files

* add value expanders

* value mutex realization and tests

* valuemutex test added to makefile

* do not build unimplemented files

* fix build furmware target f2

* redesigned minunit tests to allow testing in separate files

* test file for valuemutex minunit testing

* minunit partial test valuemutex

* local cmsis_os2 mutex bindings

* implement furi open/create, tests

* migrate concurrent_access to ValueMutex

* add spi header

* Lib: add mlib submodule.

Co-authored-by: rusdacent <rusdacentx0x08@gmail.com>
Co-authored-by: DrZlo13 <who.just.the.doctor@gmail.com>
2020-10-13 11:22:43 +03:00

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#include "cmsis_os.h"
#include <unistd.h>
#include <stdio.h>
#include <pthread.h>
#include <errno.h>
#include <signal.h>
#include <sys/types.h>
#include <sys/ipc.h>
#include <sys/msg.h>
void osDelay(uint32_t ms) {
// printf("[DELAY] %d ms\n", ms);
usleep(ms * 1000);
}
// temporary struct to pass function ptr and param to wrapper
typedef struct {
TaskFunction_t func;
void* param;
} PthreadTask;
void* pthread_wrapper(void* p) {
pthread_setcanceltype(PTHREAD_CANCEL_ASYNCHRONOUS, 0x00);
pthread_setcancelstate(PTHREAD_CANCEL_ENABLE, 0x00);
PthreadTask* task = (PthreadTask*)p;
task->func(task->param);
return NULL;
}
TaskHandle_t xTaskCreateStatic(
TaskFunction_t pxTaskCode,
const char* const pcName,
const uint32_t ulStackDepth,
void* const pvParameters,
UBaseType_t uxPriority,
StackType_t* const puxStackBuffer,
StaticTask_t* const pxTaskBuffer) {
TaskHandle_t thread = malloc(sizeof(TaskHandle_t));
PthreadTask* task = malloc(sizeof(PthreadTask));
task->func = pxTaskCode;
task->param = pvParameters;
pthread_create(thread, NULL, pthread_wrapper, (void*)task);
return thread;
}
void vTaskDelete(TaskHandle_t xTask) {
if(xTask == NULL) {
// kill itself
pthread_exit(NULL);
}
// maybe thread already join
if(pthread_kill(*xTask, 0) == ESRCH) return;
// send thread_child signal to stop it сигнал, который ее завершает
pthread_cancel(*xTask);
// wait for join and close descriptor
pthread_join(*xTask, 0x00);
// cleanup thread handler
*xTask = 0;
}
TaskHandle_t xTaskGetCurrentTaskHandle(void) {
TaskHandle_t thread = malloc(sizeof(TaskHandle_t));
*thread = pthread_self();
return thread;
}
bool task_equal(TaskHandle_t a, TaskHandle_t b) {
if(a == NULL || b == NULL) return false;
return pthread_equal(*a, *b) != 0;
}
BaseType_t xQueueSend(QueueHandle_t xQueue, const void* pvItemToQueue, TickType_t xTicksToWait) {
// TODO: add implementation
return pdTRUE;
}
BaseType_t xQueueReceive(QueueHandle_t xQueue, void* pvBuffer, TickType_t xTicksToWait) {
// TODO: add implementation
osDelay(100);
return pdFALSE;
}
static uint32_t queue_global_id = 0;
QueueHandle_t xQueueCreateStatic(
UBaseType_t uxQueueLength,
UBaseType_t uxItemSize,
uint8_t* pucQueueStorageBuffer,
StaticQueue_t* pxQueueBuffer) {
// TODO: check this implementation
int* msgid = malloc(sizeof(int));
key_t key = queue_global_id;
queue_global_id++;
*msgid = msgget(key, IPC_CREAT);
return (QueueHandle_t)msgid;
}
QueueHandle_t xQueueCreate(UBaseType_t uxQueueLength, UBaseType_t uxItemSize) {
return xQueueCreateStatic(uxQueueLength, uxItemSize, 0, NULL);
}
SemaphoreHandle_t xSemaphoreCreateCountingStatic(
UBaseType_t uxMaxCount,
UBaseType_t uxInitialCount,
StaticSemaphore_t* pxSemaphoreBuffer) {
pxSemaphoreBuffer->type = SemaphoreTypeCounting;
pxSemaphoreBuffer->take_counter = 0;
pxSemaphoreBuffer->give_counter = 0;
return pxSemaphoreBuffer;
}
SemaphoreHandle_t xSemaphoreCreateMutexStatic(StaticSemaphore_t* pxMutexBuffer) {
pxMutexBuffer->type = SemaphoreTypeMutex;
pthread_mutex_init(&pxMutexBuffer->mutex, NULL);
pxMutexBuffer->take_counter = 0;
pxMutexBuffer->give_counter = 0;
return pxMutexBuffer;
}
BaseType_t xSemaphoreTake(volatile SemaphoreHandle_t xSemaphore, TickType_t xTicksToWait) {
if(xSemaphore == NULL) return pdFALSE;
if(xSemaphore->type == SemaphoreTypeMutex) {
if(xTicksToWait == portMAX_DELAY) {
if(pthread_mutex_lock(&xSemaphore->mutex) == 0) {
return pdTRUE;
} else {
return pdFALSE;
}
} else {
TickType_t ticks = xTicksToWait;
while(ticks >= 0) {
if(pthread_mutex_trylock(&xSemaphore->mutex) == 0) {
return pdTRUE;
}
if(ticks > 0) {
osDelay(1);
}
ticks--;
}
return pdFALSE;
}
}
// TODO: need to add inter-process sync or use POSIX primitives
xSemaphore->take_counter++;
TickType_t ticks = xTicksToWait;
while(xSemaphore->take_counter != xSemaphore->give_counter &&
(ticks > 0 || xTicksToWait == portMAX_DELAY)) {
osDelay(1);
ticks--;
}
if(xTicksToWait != 0 && ticks == 0) return pdFALSE;
return pdTRUE;
}
BaseType_t xSemaphoreGive(SemaphoreHandle_t xSemaphore) {
if(xSemaphore == NULL) return pdFALSE;
if(xSemaphore->type == SemaphoreTypeMutex) {
if(pthread_mutex_unlock(&xSemaphore->mutex) == 0) {
return pdTRUE;
} else {
return pdFALSE;
}
}
// TODO: need to add inter-process sync or use POSIX primitives
xSemaphore->give_counter++;
return pdTRUE;
}
#define TLS_ITEM_COUNT 1
static pthread_key_t tls_keys[TLS_ITEM_COUNT];
static pthread_once_t tls_keys_once = PTHREAD_ONCE_INIT;
static void create_tls_keys() {
for(size_t i = 0; i < TLS_ITEM_COUNT; i++) {
pthread_key_create(&tls_keys[i], NULL);
}
}
void* pvTaskGetThreadLocalStoragePointer(TaskHandle_t xTaskToQuery, BaseType_t xIndex) {
// Non-current task TLS access is not allowed
if(xTaskToQuery != NULL) {
return NULL;
}
if(xIndex >= TLS_ITEM_COUNT) {
return NULL;
}
pthread_once(&tls_keys_once, create_tls_keys);
return pthread_getspecific(tls_keys[xIndex]);
}
void vTaskSetThreadLocalStoragePointer(TaskHandle_t xTaskToSet, BaseType_t xIndex, void* pvValue) {
// Non-current task TLS access is not allowed
if(xTaskToSet != NULL) {
return;
}
if(xIndex >= TLS_ITEM_COUNT) {
return;
}
pthread_once(&tls_keys_once, create_tls_keys);
pthread_setspecific(tls_keys[xIndex], pvValue);
}
osMutexId_t osMutexNew(const osMutexAttr_t *attr) {
StaticSemaphore_t* pxMutexBuffer = malloc(sizeof(StaticSemaphore_t));
xSemaphoreCreateMutexStatic(pxMutexBuffer);
return (osMutexId_t)pxMutexBuffer;
}
osStatus_t osMutexAcquire(osMutexId_t mutex_id, uint32_t timeout) {
if(xSemaphoreTake((SemaphoreHandle_t)mutex_id, (TickType_t)timeout) == pdTRUE) {
return osOK;
} else {
return osErrorTimeout;
}
}
osStatus_t osMutexRelease (osMutexId_t mutex_id) {
if(xSemaphoreGive((SemaphoreHandle_t)mutex_id) == pdTRUE) {
return osOK;
} else {
return osError;
}
}
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