Prusa MINI Firmware overview
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semphr. h xSemaphoreTakeRecursive( SemaphoreHandle_t xMutex, TickType_t xBlockTime )
Macro to recursively obtain, or 'take', a mutex type semaphore. The mutex must have previously been created using a call to xSemaphoreCreateRecursiveMutex();
configUSE_RECURSIVE_MUTEXES must be set to 1 in FreeRTOSConfig.h for this macro to be available.
This macro must not be used on mutexes created using xSemaphoreCreateMutex().
A mutex used recursively can be 'taken' repeatedly by the owner. The mutex doesn't become available again until the owner has called xSemaphoreGiveRecursive() for each successful 'take' request. For example, if a task successfully 'takes' the same mutex 5 times then the mutex will not be available to any other task until it has also 'given' the mutex back exactly five times.
xMutex | A handle to the mutex being obtained. This is the handle returned by xSemaphoreCreateRecursiveMutex(); |
xBlockTime | The time in ticks to wait for the semaphore to become available. The macro portTICK_PERIOD_MS can be used to convert this to a real time. A block time of zero can be used to poll the semaphore. If the task already owns the semaphore then xSemaphoreTakeRecursive() will return immediately no matter what the value of xBlockTime. |
Example usage:
SemaphoreHandle_t xMutex = NULL;
// A task that creates a mutex. void vATask( void * pvParameters ) { // Create the mutex to guard a shared resource. xMutex = xSemaphoreCreateRecursiveMutex(); }
// A task that uses the mutex. void vAnotherTask( void * pvParameters ) { // ... Do other things.
if( xMutex != NULL ) { // See if we can obtain the mutex. If the mutex is not available // wait 10 ticks to see if it becomes free. if( xSemaphoreTakeRecursive( xSemaphore, ( TickType_t ) 10 ) == pdTRUE ) { // We were able to obtain the mutex and can now access the // shared resource.
// ... // For some reason due to the nature of the code further calls to // xSemaphoreTakeRecursive() are made on the same mutex. In real // code these would not be just sequential calls as this would make // no sense. Instead the calls are likely to be buried inside // a more complex call structure. xSemaphoreTakeRecursive( xMutex, ( TickType_t ) 10 ); xSemaphoreTakeRecursive( xMutex, ( TickType_t ) 10 );
// The mutex has now been 'taken' three times, so will not be // available to another task until it has also been given back // three times. Again it is unlikely that real code would have // these calls sequentially, but instead buried in a more complex // call structure. This is just for illustrative purposes. xSemaphoreGiveRecursive( xMutex ); xSemaphoreGiveRecursive( xMutex ); xSemaphoreGiveRecursive( xMutex );
// Now the mutex can be taken by other tasks. } else { // We could not obtain the mutex and can therefore not access // the shared resource safely. } } }