📄 os_mutex.c
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/*********************************************************************************************************** uC/OS-II* The Real-Time Kernel* MUTUAL EXCLUSION SEMAPHORE MANAGEMENT** (c) Copyright 1992-2001, Jean J. Labrosse, Weston, FL* All Rights Reserved** File : OS_MUTEX.C* By : Jean J. Labrosse**********************************************************************************************************/#ifndef OS_MASTER_FILE#include "includes.h"#endif/*********************************************************************************************************** LOCAL CONSTANTS**********************************************************************************************************/#define OS_MUTEX_KEEP_LOWER_8 0x00FF#define OS_MUTEX_KEEP_UPPER_8 0xFF00#define OS_MUTEX_AVAILABLE 0x00FF#if OS_MUTEX_EN > 0/*********************************************************************************************************** ACCEPT MUTUAL EXCLUSION SEMAPHORE** Description: This function checks the mutual exclusion semaphore to see if a resource is available.* Unlike OSMutexPend(), OSMutexAccept() does not suspend the calling task if the resource is* not available or the event did not occur.** Arguments : pevent is a pointer to the event control block** err is a pointer to an error code which will be returned to your application:* OS_NO_ERR if the call was successful.* OS_ERR_EVENT_TYPE if 'pevent' is not a pointer to a mutex* OS_ERR_PEVENT_NULL 'pevent' is a NULL pointer* OS_ERR_PEND_ISR if you called this function from an ISR** Returns : == 1 if the resource is available, the mutual exclusion semaphore is acquired* == 0 a) if the resource is not available* b) you didn't pass a pointer to a mutual exclusion semaphore* c) you called this function from an ISR** Warning(s) : This function CANNOT be called from an ISR because mutual exclusion semaphores are* intended to be used by tasks only.**********************************************************************************************************/#if OS_MUTEX_ACCEPT_EN > 0INT8U OSMutexAccept (OS_EVENT *pevent, INT8U *err){#if OS_CRITICAL_METHOD == 3 /* Allocate storage for CPU status register */ OS_CPU_SR cpu_sr;#endif if (OSIntNesting > 0) { /* Make sure it's not called from an ISR */ *err = OS_ERR_PEND_ISR; return (0); }#if OS_ARG_CHK_EN > 0 if (pevent == (OS_EVENT *)0) { /* Validate 'pevent' */ *err = OS_ERR_PEVENT_NULL; return (0); } if (pevent->OSEventType != OS_EVENT_TYPE_MUTEX) { /* Validate event block type */ *err = OS_ERR_EVENT_TYPE; return (0); }#endif OS_ENTER_CRITICAL(); /* Get value (0 or 1) of Mutex */ if ((pevent->OSEventCnt & OS_MUTEX_KEEP_LOWER_8) == OS_MUTEX_AVAILABLE) { pevent->OSEventCnt &= OS_MUTEX_KEEP_UPPER_8; /* Mask off LSByte (Acquire Mutex) */ pevent->OSEventCnt |= OSTCBCur->OSTCBPrio; /* Save current task priority in LSByte */ pevent->OSEventPtr = (void *)OSTCBCur; /* Link TCB of task owning Mutex */ OS_EXIT_CRITICAL(); *err = OS_NO_ERR; return (1); } OS_EXIT_CRITICAL(); *err = OS_NO_ERR; return (0);}#endif /*$PAGE*/
/*********************************************************************************************************** CREATE A MUTUAL EXCLUSION SEMAPHORE** Description: This function creates a mutual exclusion semaphore.** Arguments : prio is the priority to use when accessing the mutual exclusion semaphore. In* other words, when the semaphore is acquired and a higher priority task* attempts to obtain the semaphore then the priority of the task owning the* semaphore is raised to this priority. It is assumed that you will specify* a priority that is LOWER in value than ANY of the tasks competing for the* mutex.** err is a pointer to an error code which will be returned to your application:* OS_NO_ERR if the call was successful.* OS_ERR_CREATE_ISR if you attempted to create a MUTEX from an ISR* OS_PRIO_EXIST if a task at the priority inheritance priority* already exist.* OS_ERR_PEVENT_NULL No more event control blocks available.* OS_PRIO_INVALID if the priority you specify is higher that the * maximum allowed (i.e. > OS_LOWEST_PRIO)** Returns : != (void *)0 is a pointer to the event control clock (OS_EVENT) associated with the* created mutex.* == (void *)0 if an error is detected.** Note(s) : 1) The LEAST significant 8 bits of '.OSEventCnt' are used to hold the priority number* of the task owning the mutex or 0xFF if no task owns the mutex.* 2) The MOST significant 8 bits of '.OSEventCnt' are used to hold the priority number* to use to reduce priority inversion.**********************************************************************************************************/OS_EVENT *OSMutexCreate (INT8U prio, INT8U *err){#if OS_CRITICAL_METHOD == 3 /* Allocate storage for CPU status register */ OS_CPU_SR cpu_sr;#endif OS_EVENT *pevent; if (OSIntNesting > 0) { /* See if called from ISR ... */ *err = OS_ERR_CREATE_ISR; /* ... can't CREATE mutex from an ISR */ return ((OS_EVENT *)0); }#if OS_ARG_CHK_EN > 0 if (prio >= OS_LOWEST_PRIO) { /* Validate PIP */ *err = OS_PRIO_INVALID; return ((OS_EVENT *)0); }#endif OS_ENTER_CRITICAL(); if (OSTCBPrioTbl[prio] != (OS_TCB *)0) { /* Mutex priority must not already exist */ OS_EXIT_CRITICAL(); /* Task already exist at priority ... */ *err = OS_PRIO_EXIST; /* ... inheritance priority */ return ((OS_EVENT *)0); } OSTCBPrioTbl[prio] = (OS_TCB *)1; /* Reserve the table entry */ pevent = OSEventFreeList; /* Get next free event control block */ if (pevent == (OS_EVENT *)0) { /* See if an ECB was available */ OSTCBPrioTbl[prio] = (OS_TCB *)0; /* No, Release the table entry */ OS_EXIT_CRITICAL(); *err = OS_ERR_PEVENT_NULL; /* No more event control blocks */ return (pevent); } OSEventFreeList = (OS_EVENT *)OSEventFreeList->OSEventPtr; /* Adjust the free list */ OS_EXIT_CRITICAL(); pevent->OSEventType = OS_EVENT_TYPE_MUTEX; pevent->OSEventCnt = (prio << 8) | OS_MUTEX_AVAILABLE;/* Resource is available */ pevent->OSEventPtr = (void *)0; /* No task owning the mutex */ OS_EventWaitListInit(pevent); *err = OS_NO_ERR; return (pevent);}/*$PAGE*/
/*********************************************************************************************************** DELETE A MUTEX** Description: This function deletes a mutual exclusion semaphore and readies all tasks pending on the it.** Arguments : pevent is a pointer to the event control block associated with the desired mutex.** opt determines delete options as follows:* opt == OS_DEL_NO_PEND Delete mutex ONLY if no task pending* opt == OS_DEL_ALWAYS Deletes the mutex even if tasks are waiting.* In this case, all the tasks pending will be readied.** err is a pointer to an error code that can contain one of the following values:* OS_NO_ERR The call was successful and the mutex was deleted* OS_ERR_DEL_ISR If you attempted to delete the MUTEX from an ISR* OS_ERR_INVALID_OPT An invalid option was specified* OS_ERR_TASK_WAITING One or more tasks were waiting on the mutex* OS_ERR_EVENT_TYPE If you didn't pass a pointer to a mutex* OS_ERR_PEVENT_NULL If 'pevent' is a NULL pointer.** Returns : pevent upon error* (OS_EVENT *)0 if the mutex was successfully deleted.** Note(s) : 1) This function must be used with care. Tasks that would normally expect the presence of* the mutex MUST check the return code of OSMutexPend().* 2) This call can potentially disable interrupts for a long time. The interrupt disable* time is directly proportional to the number of tasks waiting on the mutex.* 3) Because ALL tasks pending on the mutex will be readied, you MUST be careful because the* resource(s) will no longer be guarded by the mutex.**********************************************************************************************************/#if OS_MUTEX_DEL_ENOS_EVENT *OSMutexDel (OS_EVENT *pevent, INT8U opt, INT8U *err){#if OS_CRITICAL_METHOD == 3 /* Allocate storage for CPU status register */ OS_CPU_SR cpu_sr;#endif BOOLEAN tasks_waiting; INT8U pip; if (OSIntNesting > 0) { /* See if called from ISR ... */ *err = OS_ERR_DEL_ISR; /* ... can't DELETE from an ISR */ return (pevent); }#if OS_ARG_CHK_EN > 0 if (pevent == (OS_EVENT *)0) { /* Validate 'pevent' */ *err = OS_ERR_PEVENT_NULL; return ((OS_EVENT *)0); } if (pevent->OSEventType != OS_EVENT_TYPE_MUTEX) { /* Validate event block type */ *err = OS_ERR_EVENT_TYPE; return (pevent); }#endif OS_ENTER_CRITICAL(); if (pevent->OSEventGrp != 0x00) { /* See if any tasks waiting on mutex */ tasks_waiting = TRUE; /* Yes */ } else { tasks_waiting = FALSE; /* No */ } switch (opt) { case OS_DEL_NO_PEND: /* Delete mutex only if no task waiting */ if (tasks_waiting == FALSE) { pip = (INT8U)(pevent->OSEventCnt >> 8); OSTCBPrioTbl[pip] = (OS_TCB *)0; /* Free up the PIP */ pevent->OSEventType = OS_EVENT_TYPE_UNUSED; pevent->OSEventPtr = OSEventFreeList; /* Return Event Control Block to free list */ OSEventFreeList = pevent; OS_EXIT_CRITICAL(); *err = OS_NO_ERR; return ((OS_EVENT *)0); /* Mutex has been deleted */ } else { OS_EXIT_CRITICAL(); *err = OS_ERR_TASK_WAITING; return (pevent); } case OS_DEL_ALWAYS: /* Always delete the mutex */ while (pevent->OSEventGrp != 0x00) { /* Ready ALL tasks waiting for mutex */ OS_EventTaskRdy(pevent, (void *)0, OS_STAT_MUTEX); } pip = (INT8U)(pevent->OSEventCnt >> 8); OSTCBPrioTbl[pip] = (OS_TCB *)0; /* Free up the PIP */ pevent->OSEventType = OS_EVENT_TYPE_UNUSED; pevent->OSEventPtr = OSEventFreeList; /* Return Event Control Block to free list */ OSEventFreeList = pevent; /* Get next free event control block */ OS_EXIT_CRITICAL(); if (tasks_waiting == TRUE) { /* Reschedule only if task(s) were waiting */ OS_Sched(); /* Find highest priority task ready to run */ } *err = OS_NO_ERR; return ((OS_EVENT *)0); /* Mutex has been deleted */ default: OS_EXIT_CRITICAL(); *err = OS_ERR_INVALID_OPT; return (pevent); }⌨️ 快捷键说明
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