Merge pull request #3151 from SummerGGift/1024

[fix] add #include <rtthread.h> for stm32g4xx_hal.h
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Bernard Xiong 2019-10-30 09:01:49 +08:00 committed by GitHub
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@ -28,6 +28,7 @@ extern "C" {
/* Includes ------------------------------------------------------------------*/ /* Includes ------------------------------------------------------------------*/
#include "stm32g4xx_hal_conf.h" #include "stm32g4xx_hal_conf.h"
#include <rtthread.h>
/** @addtogroup STM32G4xx_HAL_Driver /** @addtogroup STM32G4xx_HAL_Driver
* @{ * @{

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@ -1,756 +0,0 @@
/*
* Copyright (c) 2013-2018 Arm Limited. All rights reserved.
*
* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the License); you may
* not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an AS IS BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* ----------------------------------------------------------------------
*
* $Date: 18. June 2018
* $Revision: V2.1.3
*
* Project: CMSIS-RTOS2 API
* Title: cmsis_os2.h header file
*
* Version 2.1.3
* Additional functions allowed to be called from Interrupt Service Routines:
* - osThreadGetId
* Version 2.1.2
* Additional functions allowed to be called from Interrupt Service Routines:
* - osKernelGetInfo, osKernelGetState
* Version 2.1.1
* Additional functions allowed to be called from Interrupt Service Routines:
* - osKernelGetTickCount, osKernelGetTickFreq
* Changed Kernel Tick type to uint32_t:
* - updated: osKernelGetTickCount, osDelayUntil
* Version 2.1.0
* Support for critical and uncritical sections (nesting safe):
* - updated: osKernelLock, osKernelUnlock
* - added: osKernelRestoreLock
* Updated Thread and Event Flags:
* - changed flags parameter and return type from int32_t to uint32_t
* Version 2.0.0
* Initial Release
*---------------------------------------------------------------------------*/
#ifndef CMSIS_OS2_H_
#define CMSIS_OS2_H_
#ifndef __NO_RETURN
#if defined(__CC_ARM)
#define __NO_RETURN __declspec(noreturn)
#elif defined(__ARMCC_VERSION) && (__ARMCC_VERSION >= 6010050)
#define __NO_RETURN __attribute__((__noreturn__))
#elif defined(__GNUC__)
#define __NO_RETURN __attribute__((__noreturn__))
#elif defined(__ICCARM__)
#define __NO_RETURN __noreturn
#else
#define __NO_RETURN
#endif
#endif
#include <stdint.h>
#include <stddef.h>
#ifdef __cplusplus
extern "C"
{
#endif
// ==== Enumerations, structures, defines ====
/// Version information.
typedef struct {
uint32_t api; ///< API version (major.minor.rev: mmnnnrrrr dec).
uint32_t kernel; ///< Kernel version (major.minor.rev: mmnnnrrrr dec).
} osVersion_t;
/// Kernel state.
typedef enum {
osKernelInactive = 0, ///< Inactive.
osKernelReady = 1, ///< Ready.
osKernelRunning = 2, ///< Running.
osKernelLocked = 3, ///< Locked.
osKernelSuspended = 4, ///< Suspended.
osKernelError = -1, ///< Error.
osKernelReserved = 0x7FFFFFFFU ///< Prevents enum down-size compiler optimization.
} osKernelState_t;
/// Thread state.
typedef enum {
osThreadInactive = 0, ///< Inactive.
osThreadReady = 1, ///< Ready.
osThreadRunning = 2, ///< Running.
osThreadBlocked = 3, ///< Blocked.
osThreadTerminated = 4, ///< Terminated.
osThreadError = -1, ///< Error.
osThreadReserved = 0x7FFFFFFF ///< Prevents enum down-size compiler optimization.
} osThreadState_t;
/// Priority values.
typedef enum {
osPriorityNone = 0, ///< No priority (not initialized).
osPriorityIdle = 1, ///< Reserved for Idle thread.
osPriorityLow = 8, ///< Priority: low
osPriorityLow1 = 8+1, ///< Priority: low + 1
osPriorityLow2 = 8+2, ///< Priority: low + 2
osPriorityLow3 = 8+3, ///< Priority: low + 3
osPriorityLow4 = 8+4, ///< Priority: low + 4
osPriorityLow5 = 8+5, ///< Priority: low + 5
osPriorityLow6 = 8+6, ///< Priority: low + 6
osPriorityLow7 = 8+7, ///< Priority: low + 7
osPriorityBelowNormal = 16, ///< Priority: below normal
osPriorityBelowNormal1 = 16+1, ///< Priority: below normal + 1
osPriorityBelowNormal2 = 16+2, ///< Priority: below normal + 2
osPriorityBelowNormal3 = 16+3, ///< Priority: below normal + 3
osPriorityBelowNormal4 = 16+4, ///< Priority: below normal + 4
osPriorityBelowNormal5 = 16+5, ///< Priority: below normal + 5
osPriorityBelowNormal6 = 16+6, ///< Priority: below normal + 6
osPriorityBelowNormal7 = 16+7, ///< Priority: below normal + 7
osPriorityNormal = 24, ///< Priority: normal
osPriorityNormal1 = 24+1, ///< Priority: normal + 1
osPriorityNormal2 = 24+2, ///< Priority: normal + 2
osPriorityNormal3 = 24+3, ///< Priority: normal + 3
osPriorityNormal4 = 24+4, ///< Priority: normal + 4
osPriorityNormal5 = 24+5, ///< Priority: normal + 5
osPriorityNormal6 = 24+6, ///< Priority: normal + 6
osPriorityNormal7 = 24+7, ///< Priority: normal + 7
osPriorityAboveNormal = 32, ///< Priority: above normal
osPriorityAboveNormal1 = 32+1, ///< Priority: above normal + 1
osPriorityAboveNormal2 = 32+2, ///< Priority: above normal + 2
osPriorityAboveNormal3 = 32+3, ///< Priority: above normal + 3
osPriorityAboveNormal4 = 32+4, ///< Priority: above normal + 4
osPriorityAboveNormal5 = 32+5, ///< Priority: above normal + 5
osPriorityAboveNormal6 = 32+6, ///< Priority: above normal + 6
osPriorityAboveNormal7 = 32+7, ///< Priority: above normal + 7
osPriorityHigh = 40, ///< Priority: high
osPriorityHigh1 = 40+1, ///< Priority: high + 1
osPriorityHigh2 = 40+2, ///< Priority: high + 2
osPriorityHigh3 = 40+3, ///< Priority: high + 3
osPriorityHigh4 = 40+4, ///< Priority: high + 4
osPriorityHigh5 = 40+5, ///< Priority: high + 5
osPriorityHigh6 = 40+6, ///< Priority: high + 6
osPriorityHigh7 = 40+7, ///< Priority: high + 7
osPriorityRealtime = 48, ///< Priority: realtime
osPriorityRealtime1 = 48+1, ///< Priority: realtime + 1
osPriorityRealtime2 = 48+2, ///< Priority: realtime + 2
osPriorityRealtime3 = 48+3, ///< Priority: realtime + 3
osPriorityRealtime4 = 48+4, ///< Priority: realtime + 4
osPriorityRealtime5 = 48+5, ///< Priority: realtime + 5
osPriorityRealtime6 = 48+6, ///< Priority: realtime + 6
osPriorityRealtime7 = 48+7, ///< Priority: realtime + 7
osPriorityISR = 56, ///< Reserved for ISR deferred thread.
osPriorityError = -1, ///< System cannot determine priority or illegal priority.
osPriorityReserved = 0x7FFFFFFF ///< Prevents enum down-size compiler optimization.
} osPriority_t;
/// Entry point of a thread.
typedef void (*osThreadFunc_t) (void *argument);
/// Timer callback function.
typedef void (*osTimerFunc_t) (void *argument);
/// Timer type.
typedef enum {
osTimerOnce = 0, ///< One-shot timer.
osTimerPeriodic = 1 ///< Repeating timer.
} osTimerType_t;
// Timeout value.
#define osWaitForever 0xFFFFFFFFU ///< Wait forever timeout value.
// Flags options (\ref osThreadFlagsWait and \ref osEventFlagsWait).
#define osFlagsWaitAny 0x00000000U ///< Wait for any flag (default).
#define osFlagsWaitAll 0x00000001U ///< Wait for all flags.
#define osFlagsNoClear 0x00000002U ///< Do not clear flags which have been specified to wait for.
// Flags errors (returned by osThreadFlagsXxxx and osEventFlagsXxxx).
#define osFlagsError 0x80000000U ///< Error indicator.
#define osFlagsErrorUnknown 0xFFFFFFFFU ///< osError (-1).
#define osFlagsErrorTimeout 0xFFFFFFFEU ///< osErrorTimeout (-2).
#define osFlagsErrorResource 0xFFFFFFFDU ///< osErrorResource (-3).
#define osFlagsErrorParameter 0xFFFFFFFCU ///< osErrorParameter (-4).
#define osFlagsErrorISR 0xFFFFFFFAU ///< osErrorISR (-6).
// Thread attributes (attr_bits in \ref osThreadAttr_t).
#define osThreadDetached 0x00000000U ///< Thread created in detached mode (default)
#define osThreadJoinable 0x00000001U ///< Thread created in joinable mode
// Mutex attributes (attr_bits in \ref osMutexAttr_t).
#define osMutexRecursive 0x00000001U ///< Recursive mutex.
#define osMutexPrioInherit 0x00000002U ///< Priority inherit protocol.
#define osMutexRobust 0x00000008U ///< Robust mutex.
/// Status code values returned by CMSIS-RTOS functions.
typedef enum {
osOK = 0, ///< Operation completed successfully.
osError = -1, ///< Unspecified RTOS error: run-time error but no other error message fits.
osErrorTimeout = -2, ///< Operation not completed within the timeout period.
osErrorResource = -3, ///< Resource not available.
osErrorParameter = -4, ///< Parameter error.
osErrorNoMemory = -5, ///< System is out of memory: it was impossible to allocate or reserve memory for the operation.
osErrorISR = -6, ///< Not allowed in ISR context: the function cannot be called from interrupt service routines.
osStatusReserved = 0x7FFFFFFF ///< Prevents enum down-size compiler optimization.
} osStatus_t;
/// \details Thread ID identifies the thread.
typedef void *osThreadId_t;
/// \details Timer ID identifies the timer.
typedef void *osTimerId_t;
/// \details Event Flags ID identifies the event flags.
typedef void *osEventFlagsId_t;
/// \details Mutex ID identifies the mutex.
typedef void *osMutexId_t;
/// \details Semaphore ID identifies the semaphore.
typedef void *osSemaphoreId_t;
/// \details Memory Pool ID identifies the memory pool.
typedef void *osMemoryPoolId_t;
/// \details Message Queue ID identifies the message queue.
typedef void *osMessageQueueId_t;
#ifndef TZ_MODULEID_T
#define TZ_MODULEID_T
/// \details Data type that identifies secure software modules called by a process.
typedef uint32_t TZ_ModuleId_t;
#endif
/// Attributes structure for thread.
typedef struct {
const char *name; ///< name of the thread
uint32_t attr_bits; ///< attribute bits
void *cb_mem; ///< memory for control block
uint32_t cb_size; ///< size of provided memory for control block
void *stack_mem; ///< memory for stack
uint32_t stack_size; ///< size of stack
osPriority_t priority; ///< initial thread priority (default: osPriorityNormal)
TZ_ModuleId_t tz_module; ///< TrustZone module identifier
uint32_t reserved; ///< reserved (must be 0)
} osThreadAttr_t;
/// Attributes structure for timer.
typedef struct {
const char *name; ///< name of the timer
uint32_t attr_bits; ///< attribute bits
void *cb_mem; ///< memory for control block
uint32_t cb_size; ///< size of provided memory for control block
} osTimerAttr_t;
/// Attributes structure for event flags.
typedef struct {
const char *name; ///< name of the event flags
uint32_t attr_bits; ///< attribute bits
void *cb_mem; ///< memory for control block
uint32_t cb_size; ///< size of provided memory for control block
} osEventFlagsAttr_t;
/// Attributes structure for mutex.
typedef struct {
const char *name; ///< name of the mutex
uint32_t attr_bits; ///< attribute bits
void *cb_mem; ///< memory for control block
uint32_t cb_size; ///< size of provided memory for control block
} osMutexAttr_t;
/// Attributes structure for semaphore.
typedef struct {
const char *name; ///< name of the semaphore
uint32_t attr_bits; ///< attribute bits
void *cb_mem; ///< memory for control block
uint32_t cb_size; ///< size of provided memory for control block
} osSemaphoreAttr_t;
/// Attributes structure for memory pool.
typedef struct {
const char *name; ///< name of the memory pool
uint32_t attr_bits; ///< attribute bits
void *cb_mem; ///< memory for control block
uint32_t cb_size; ///< size of provided memory for control block
void *mp_mem; ///< memory for data storage
uint32_t mp_size; ///< size of provided memory for data storage
} osMemoryPoolAttr_t;
/// Attributes structure for message queue.
typedef struct {
const char *name; ///< name of the message queue
uint32_t attr_bits; ///< attribute bits
void *cb_mem; ///< memory for control block
uint32_t cb_size; ///< size of provided memory for control block
void *mq_mem; ///< memory for data storage
uint32_t mq_size; ///< size of provided memory for data storage
} osMessageQueueAttr_t;
// ==== Kernel Management Functions ====
/// Initialize the RTOS Kernel.
/// \return status code that indicates the execution status of the function.
osStatus_t osKernelInitialize (void);
/// Get RTOS Kernel Information.
/// \param[out] version pointer to buffer for retrieving version information.
/// \param[out] id_buf pointer to buffer for retrieving kernel identification string.
/// \param[in] id_size size of buffer for kernel identification string.
/// \return status code that indicates the execution status of the function.
osStatus_t osKernelGetInfo (osVersion_t *version, char *id_buf, uint32_t id_size);
/// Get the current RTOS Kernel state.
/// \return current RTOS Kernel state.
osKernelState_t osKernelGetState (void);
/// Start the RTOS Kernel scheduler.
/// \return status code that indicates the execution status of the function.
osStatus_t osKernelStart (void);
/// Lock the RTOS Kernel scheduler.
/// \return previous lock state (1 - locked, 0 - not locked, error code if negative).
int32_t osKernelLock (void);
/// Unlock the RTOS Kernel scheduler.
/// \return previous lock state (1 - locked, 0 - not locked, error code if negative).
int32_t osKernelUnlock (void);
/// Restore the RTOS Kernel scheduler lock state.
/// \param[in] lock lock state obtained by \ref osKernelLock or \ref osKernelUnlock.
/// \return new lock state (1 - locked, 0 - not locked, error code if negative).
int32_t osKernelRestoreLock (int32_t lock);
/// Suspend the RTOS Kernel scheduler.
/// \return time in ticks, for how long the system can sleep or power-down.
uint32_t osKernelSuspend (void);
/// Resume the RTOS Kernel scheduler.
/// \param[in] sleep_ticks time in ticks for how long the system was in sleep or power-down mode.
void osKernelResume (uint32_t sleep_ticks);
/// Get the RTOS kernel tick count.
/// \return RTOS kernel current tick count.
uint32_t osKernelGetTickCount (void);
/// Get the RTOS kernel tick frequency.
/// \return frequency of the kernel tick in hertz, i.e. kernel ticks per second.
uint32_t osKernelGetTickFreq (void);
/// Get the RTOS kernel system timer count.
/// \return RTOS kernel current system timer count as 32-bit value.
uint32_t osKernelGetSysTimerCount (void);
/// Get the RTOS kernel system timer frequency.
/// \return frequency of the system timer in hertz, i.e. timer ticks per second.
uint32_t osKernelGetSysTimerFreq (void);
// ==== Thread Management Functions ====
/// Create a thread and add it to Active Threads.
/// \param[in] func thread function.
/// \param[in] argument pointer that is passed to the thread function as start argument.
/// \param[in] attr thread attributes; NULL: default values.
/// \return thread ID for reference by other functions or NULL in case of error.
osThreadId_t osThreadNew (osThreadFunc_t func, void *argument, const osThreadAttr_t *attr);
/// Get name of a thread.
/// \param[in] thread_id thread ID obtained by \ref osThreadNew or \ref osThreadGetId.
/// \return name as null-terminated string.
const char *osThreadGetName (osThreadId_t thread_id);
/// Return the thread ID of the current running thread.
/// \return thread ID for reference by other functions or NULL in case of error.
osThreadId_t osThreadGetId (void);
/// Get current thread state of a thread.
/// \param[in] thread_id thread ID obtained by \ref osThreadNew or \ref osThreadGetId.
/// \return current thread state of the specified thread.
osThreadState_t osThreadGetState (osThreadId_t thread_id);
/// Get stack size of a thread.
/// \param[in] thread_id thread ID obtained by \ref osThreadNew or \ref osThreadGetId.
/// \return stack size in bytes.
uint32_t osThreadGetStackSize (osThreadId_t thread_id);
/// Get available stack space of a thread based on stack watermark recording during execution.
/// \param[in] thread_id thread ID obtained by \ref osThreadNew or \ref osThreadGetId.
/// \return remaining stack space in bytes.
uint32_t osThreadGetStackSpace (osThreadId_t thread_id);
/// Change priority of a thread.
/// \param[in] thread_id thread ID obtained by \ref osThreadNew or \ref osThreadGetId.
/// \param[in] priority new priority value for the thread function.
/// \return status code that indicates the execution status of the function.
osStatus_t osThreadSetPriority (osThreadId_t thread_id, osPriority_t priority);
/// Get current priority of a thread.
/// \param[in] thread_id thread ID obtained by \ref osThreadNew or \ref osThreadGetId.
/// \return current priority value of the specified thread.
osPriority_t osThreadGetPriority (osThreadId_t thread_id);
/// Pass control to next thread that is in state \b READY.
/// \return status code that indicates the execution status of the function.
osStatus_t osThreadYield (void);
/// Suspend execution of a thread.
/// \param[in] thread_id thread ID obtained by \ref osThreadNew or \ref osThreadGetId.
/// \return status code that indicates the execution status of the function.
osStatus_t osThreadSuspend (osThreadId_t thread_id);
/// Resume execution of a thread.
/// \param[in] thread_id thread ID obtained by \ref osThreadNew or \ref osThreadGetId.
/// \return status code that indicates the execution status of the function.
osStatus_t osThreadResume (osThreadId_t thread_id);
/// Detach a thread (thread storage can be reclaimed when thread terminates).
/// \param[in] thread_id thread ID obtained by \ref osThreadNew or \ref osThreadGetId.
/// \return status code that indicates the execution status of the function.
osStatus_t osThreadDetach (osThreadId_t thread_id);
/// Wait for specified thread to terminate.
/// \param[in] thread_id thread ID obtained by \ref osThreadNew or \ref osThreadGetId.
/// \return status code that indicates the execution status of the function.
osStatus_t osThreadJoin (osThreadId_t thread_id);
/// Terminate execution of current running thread.
__NO_RETURN void osThreadExit (void);
/// Terminate execution of a thread.
/// \param[in] thread_id thread ID obtained by \ref osThreadNew or \ref osThreadGetId.
/// \return status code that indicates the execution status of the function.
osStatus_t osThreadTerminate (osThreadId_t thread_id);
/// Get number of active threads.
/// \return number of active threads.
uint32_t osThreadGetCount (void);
/// Enumerate active threads.
/// \param[out] thread_array pointer to array for retrieving thread IDs.
/// \param[in] array_items maximum number of items in array for retrieving thread IDs.
/// \return number of enumerated threads.
uint32_t osThreadEnumerate (osThreadId_t *thread_array, uint32_t array_items);
// ==== Thread Flags Functions ====
/// Set the specified Thread Flags of a thread.
/// \param[in] thread_id thread ID obtained by \ref osThreadNew or \ref osThreadGetId.
/// \param[in] flags specifies the flags of the thread that shall be set.
/// \return thread flags after setting or error code if highest bit set.
uint32_t osThreadFlagsSet (osThreadId_t thread_id, uint32_t flags);
/// Clear the specified Thread Flags of current running thread.
/// \param[in] flags specifies the flags of the thread that shall be cleared.
/// \return thread flags before clearing or error code if highest bit set.
uint32_t osThreadFlagsClear (uint32_t flags);
/// Get the current Thread Flags of current running thread.
/// \return current thread flags.
uint32_t osThreadFlagsGet (void);
/// Wait for one or more Thread Flags of the current running thread to become signaled.
/// \param[in] flags specifies the flags to wait for.
/// \param[in] options specifies flags options (osFlagsXxxx).
/// \param[in] timeout \ref CMSIS_RTOS_TimeOutValue or 0 in case of no time-out.
/// \return thread flags before clearing or error code if highest bit set.
uint32_t osThreadFlagsWait (uint32_t flags, uint32_t options, uint32_t timeout);
// ==== Generic Wait Functions ====
/// Wait for Timeout (Time Delay).
/// \param[in] ticks \ref CMSIS_RTOS_TimeOutValue "time ticks" value
/// \return status code that indicates the execution status of the function.
osStatus_t osDelay (uint32_t ticks);
/// Wait until specified time.
/// \param[in] ticks absolute time in ticks
/// \return status code that indicates the execution status of the function.
osStatus_t osDelayUntil (uint32_t ticks);
// ==== Timer Management Functions ====
/// Create and Initialize a timer.
/// \param[in] func function pointer to callback function.
/// \param[in] type \ref osTimerOnce for one-shot or \ref osTimerPeriodic for periodic behavior.
/// \param[in] argument argument to the timer callback function.
/// \param[in] attr timer attributes; NULL: default values.
/// \return timer ID for reference by other functions or NULL in case of error.
osTimerId_t osTimerNew (osTimerFunc_t func, osTimerType_t type, void *argument, const osTimerAttr_t *attr);
/// Get name of a timer.
/// \param[in] timer_id timer ID obtained by \ref osTimerNew.
/// \return name as null-terminated string.
const char *osTimerGetName (osTimerId_t timer_id);
/// Start or restart a timer.
/// \param[in] timer_id timer ID obtained by \ref osTimerNew.
/// \param[in] ticks \ref CMSIS_RTOS_TimeOutValue "time ticks" value of the timer.
/// \return status code that indicates the execution status of the function.
osStatus_t osTimerStart (osTimerId_t timer_id, uint32_t ticks);
/// Stop a timer.
/// \param[in] timer_id timer ID obtained by \ref osTimerNew.
/// \return status code that indicates the execution status of the function.
osStatus_t osTimerStop (osTimerId_t timer_id);
/// Check if a timer is running.
/// \param[in] timer_id timer ID obtained by \ref osTimerNew.
/// \return 0 not running, 1 running.
uint32_t osTimerIsRunning (osTimerId_t timer_id);
/// Delete a timer.
/// \param[in] timer_id timer ID obtained by \ref osTimerNew.
/// \return status code that indicates the execution status of the function.
osStatus_t osTimerDelete (osTimerId_t timer_id);
// ==== Event Flags Management Functions ====
/// Create and Initialize an Event Flags object.
/// \param[in] attr event flags attributes; NULL: default values.
/// \return event flags ID for reference by other functions or NULL in case of error.
osEventFlagsId_t osEventFlagsNew (const osEventFlagsAttr_t *attr);
/// Get name of an Event Flags object.
/// \param[in] ef_id event flags ID obtained by \ref osEventFlagsNew.
/// \return name as null-terminated string.
const char *osEventFlagsGetName (osEventFlagsId_t ef_id);
/// Set the specified Event Flags.
/// \param[in] ef_id event flags ID obtained by \ref osEventFlagsNew.
/// \param[in] flags specifies the flags that shall be set.
/// \return event flags after setting or error code if highest bit set.
uint32_t osEventFlagsSet (osEventFlagsId_t ef_id, uint32_t flags);
/// Clear the specified Event Flags.
/// \param[in] ef_id event flags ID obtained by \ref osEventFlagsNew.
/// \param[in] flags specifies the flags that shall be cleared.
/// \return event flags before clearing or error code if highest bit set.
uint32_t osEventFlagsClear (osEventFlagsId_t ef_id, uint32_t flags);
/// Get the current Event Flags.
/// \param[in] ef_id event flags ID obtained by \ref osEventFlagsNew.
/// \return current event flags.
uint32_t osEventFlagsGet (osEventFlagsId_t ef_id);
/// Wait for one or more Event Flags to become signaled.
/// \param[in] ef_id event flags ID obtained by \ref osEventFlagsNew.
/// \param[in] flags specifies the flags to wait for.
/// \param[in] options specifies flags options (osFlagsXxxx).
/// \param[in] timeout \ref CMSIS_RTOS_TimeOutValue or 0 in case of no time-out.
/// \return event flags before clearing or error code if highest bit set.
uint32_t osEventFlagsWait (osEventFlagsId_t ef_id, uint32_t flags, uint32_t options, uint32_t timeout);
/// Delete an Event Flags object.
/// \param[in] ef_id event flags ID obtained by \ref osEventFlagsNew.
/// \return status code that indicates the execution status of the function.
osStatus_t osEventFlagsDelete (osEventFlagsId_t ef_id);
// ==== Mutex Management Functions ====
/// Create and Initialize a Mutex object.
/// \param[in] attr mutex attributes; NULL: default values.
/// \return mutex ID for reference by other functions or NULL in case of error.
osMutexId_t osMutexNew (const osMutexAttr_t *attr);
/// Get name of a Mutex object.
/// \param[in] mutex_id mutex ID obtained by \ref osMutexNew.
/// \return name as null-terminated string.
const char *osMutexGetName (osMutexId_t mutex_id);
/// Acquire a Mutex or timeout if it is locked.
/// \param[in] mutex_id mutex ID obtained by \ref osMutexNew.
/// \param[in] timeout \ref CMSIS_RTOS_TimeOutValue or 0 in case of no time-out.
/// \return status code that indicates the execution status of the function.
osStatus_t osMutexAcquire (osMutexId_t mutex_id, uint32_t timeout);
/// Release a Mutex that was acquired by \ref osMutexAcquire.
/// \param[in] mutex_id mutex ID obtained by \ref osMutexNew.
/// \return status code that indicates the execution status of the function.
osStatus_t osMutexRelease (osMutexId_t mutex_id);
/// Get Thread which owns a Mutex object.
/// \param[in] mutex_id mutex ID obtained by \ref osMutexNew.
/// \return thread ID of owner thread or NULL when mutex was not acquired.
osThreadId_t osMutexGetOwner (osMutexId_t mutex_id);
/// Delete a Mutex object.
/// \param[in] mutex_id mutex ID obtained by \ref osMutexNew.
/// \return status code that indicates the execution status of the function.
osStatus_t osMutexDelete (osMutexId_t mutex_id);
// ==== Semaphore Management Functions ====
/// Create and Initialize a Semaphore object.
/// \param[in] max_count maximum number of available tokens.
/// \param[in] initial_count initial number of available tokens.
/// \param[in] attr semaphore attributes; NULL: default values.
/// \return semaphore ID for reference by other functions or NULL in case of error.
osSemaphoreId_t osSemaphoreNew (uint32_t max_count, uint32_t initial_count, const osSemaphoreAttr_t *attr);
/// Get name of a Semaphore object.
/// \param[in] semaphore_id semaphore ID obtained by \ref osSemaphoreNew.
/// \return name as null-terminated string.
const char *osSemaphoreGetName (osSemaphoreId_t semaphore_id);
/// Acquire a Semaphore token or timeout if no tokens are available.
/// \param[in] semaphore_id semaphore ID obtained by \ref osSemaphoreNew.
/// \param[in] timeout \ref CMSIS_RTOS_TimeOutValue or 0 in case of no time-out.
/// \return status code that indicates the execution status of the function.
osStatus_t osSemaphoreAcquire (osSemaphoreId_t semaphore_id, uint32_t timeout);
/// Release a Semaphore token up to the initial maximum count.
/// \param[in] semaphore_id semaphore ID obtained by \ref osSemaphoreNew.
/// \return status code that indicates the execution status of the function.
osStatus_t osSemaphoreRelease (osSemaphoreId_t semaphore_id);
/// Get current Semaphore token count.
/// \param[in] semaphore_id semaphore ID obtained by \ref osSemaphoreNew.
/// \return number of tokens available.
uint32_t osSemaphoreGetCount (osSemaphoreId_t semaphore_id);
/// Delete a Semaphore object.
/// \param[in] semaphore_id semaphore ID obtained by \ref osSemaphoreNew.
/// \return status code that indicates the execution status of the function.
osStatus_t osSemaphoreDelete (osSemaphoreId_t semaphore_id);
// ==== Memory Pool Management Functions ====
/// Create and Initialize a Memory Pool object.
/// \param[in] block_count maximum number of memory blocks in memory pool.
/// \param[in] block_size memory block size in bytes.
/// \param[in] attr memory pool attributes; NULL: default values.
/// \return memory pool ID for reference by other functions or NULL in case of error.
osMemoryPoolId_t osMemoryPoolNew (uint32_t block_count, uint32_t block_size, const osMemoryPoolAttr_t *attr);
/// Get name of a Memory Pool object.
/// \param[in] mp_id memory pool ID obtained by \ref osMemoryPoolNew.
/// \return name as null-terminated string.
const char *osMemoryPoolGetName (osMemoryPoolId_t mp_id);
/// Allocate a memory block from a Memory Pool.
/// \param[in] mp_id memory pool ID obtained by \ref osMemoryPoolNew.
/// \param[in] timeout \ref CMSIS_RTOS_TimeOutValue or 0 in case of no time-out.
/// \return address of the allocated memory block or NULL in case of no memory is available.
void *osMemoryPoolAlloc (osMemoryPoolId_t mp_id, uint32_t timeout);
/// Return an allocated memory block back to a Memory Pool.
/// \param[in] mp_id memory pool ID obtained by \ref osMemoryPoolNew.
/// \param[in] block address of the allocated memory block to be returned to the memory pool.
/// \return status code that indicates the execution status of the function.
osStatus_t osMemoryPoolFree (osMemoryPoolId_t mp_id, void *block);
/// Get maximum number of memory blocks in a Memory Pool.
/// \param[in] mp_id memory pool ID obtained by \ref osMemoryPoolNew.
/// \return maximum number of memory blocks.
uint32_t osMemoryPoolGetCapacity (osMemoryPoolId_t mp_id);
/// Get memory block size in a Memory Pool.
/// \param[in] mp_id memory pool ID obtained by \ref osMemoryPoolNew.
/// \return memory block size in bytes.
uint32_t osMemoryPoolGetBlockSize (osMemoryPoolId_t mp_id);
/// Get number of memory blocks used in a Memory Pool.
/// \param[in] mp_id memory pool ID obtained by \ref osMemoryPoolNew.
/// \return number of memory blocks used.
uint32_t osMemoryPoolGetCount (osMemoryPoolId_t mp_id);
/// Get number of memory blocks available in a Memory Pool.
/// \param[in] mp_id memory pool ID obtained by \ref osMemoryPoolNew.
/// \return number of memory blocks available.
uint32_t osMemoryPoolGetSpace (osMemoryPoolId_t mp_id);
/// Delete a Memory Pool object.
/// \param[in] mp_id memory pool ID obtained by \ref osMemoryPoolNew.
/// \return status code that indicates the execution status of the function.
osStatus_t osMemoryPoolDelete (osMemoryPoolId_t mp_id);
// ==== Message Queue Management Functions ====
/// Create and Initialize a Message Queue object.
/// \param[in] msg_count maximum number of messages in queue.
/// \param[in] msg_size maximum message size in bytes.
/// \param[in] attr message queue attributes; NULL: default values.
/// \return message queue ID for reference by other functions or NULL in case of error.
osMessageQueueId_t osMessageQueueNew (uint32_t msg_count, uint32_t msg_size, const osMessageQueueAttr_t *attr);
/// Get name of a Message Queue object.
/// \param[in] mq_id message queue ID obtained by \ref osMessageQueueNew.
/// \return name as null-terminated string.
const char *osMessageQueueGetName (osMessageQueueId_t mq_id);
/// Put a Message into a Queue or timeout if Queue is full.
/// \param[in] mq_id message queue ID obtained by \ref osMessageQueueNew.
/// \param[in] msg_ptr pointer to buffer with message to put into a queue.
/// \param[in] msg_prio message priority.
/// \param[in] timeout \ref CMSIS_RTOS_TimeOutValue or 0 in case of no time-out.
/// \return status code that indicates the execution status of the function.
osStatus_t osMessageQueuePut (osMessageQueueId_t mq_id, const void *msg_ptr, uint8_t msg_prio, uint32_t timeout);
/// Get a Message from a Queue or timeout if Queue is empty.
/// \param[in] mq_id message queue ID obtained by \ref osMessageQueueNew.
/// \param[out] msg_ptr pointer to buffer for message to get from a queue.
/// \param[out] msg_prio pointer to buffer for message priority or NULL.
/// \param[in] timeout \ref CMSIS_RTOS_TimeOutValue or 0 in case of no time-out.
/// \return status code that indicates the execution status of the function.
osStatus_t osMessageQueueGet (osMessageQueueId_t mq_id, void *msg_ptr, uint8_t *msg_prio, uint32_t timeout);
/// Get maximum number of messages in a Message Queue.
/// \param[in] mq_id message queue ID obtained by \ref osMessageQueueNew.
/// \return maximum number of messages.
uint32_t osMessageQueueGetCapacity (osMessageQueueId_t mq_id);
/// Get maximum message size in a Memory Pool.
/// \param[in] mq_id message queue ID obtained by \ref osMessageQueueNew.
/// \return maximum message size in bytes.
uint32_t osMessageQueueGetMsgSize (osMessageQueueId_t mq_id);
/// Get number of queued messages in a Message Queue.
/// \param[in] mq_id message queue ID obtained by \ref osMessageQueueNew.
/// \return number of queued messages.
uint32_t osMessageQueueGetCount (osMessageQueueId_t mq_id);
/// Get number of available slots for messages in a Message Queue.
/// \param[in] mq_id message queue ID obtained by \ref osMessageQueueNew.
/// \return number of available slots for messages.
uint32_t osMessageQueueGetSpace (osMessageQueueId_t mq_id);
/// Reset a Message Queue to initial empty state.
/// \param[in] mq_id message queue ID obtained by \ref osMessageQueueNew.
/// \return status code that indicates the execution status of the function.
osStatus_t osMessageQueueReset (osMessageQueueId_t mq_id);
/// Delete a Message Queue object.
/// \param[in] mq_id message queue ID obtained by \ref osMessageQueueNew.
/// \return status code that indicates the execution status of the function.
osStatus_t osMessageQueueDelete (osMessageQueueId_t mq_id);
#ifdef __cplusplus
}
#endif
#endif // CMSIS_OS2_H_

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@ -1,71 +0,0 @@
/**************************************************************************//**
* @file os_tick.h
* @brief CMSIS OS Tick header file
* @version V1.0.1
* @date 24. November 2017
******************************************************************************/
/*
* Copyright (c) 2017-2017 ARM Limited. All rights reserved.
*
* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the License); you may
* not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an AS IS BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef OS_TICK_H
#define OS_TICK_H
#include <stdint.h>
/// IRQ Handler.
#ifndef IRQHANDLER_T
#define IRQHANDLER_T
typedef void (*IRQHandler_t) (void);
#endif
/// Setup OS Tick timer to generate periodic RTOS Kernel Ticks
/// \param[in] freq tick frequency in Hz
/// \param[in] handler tick IRQ handler
/// \return 0 on success, -1 on error.
int32_t OS_Tick_Setup (uint32_t freq, IRQHandler_t handler);
/// Enable OS Tick timer interrupt
void OS_Tick_Enable (void);
/// Disable OS Tick timer interrupt
void OS_Tick_Disable (void);
/// Acknowledge execution of OS Tick timer interrupt
void OS_Tick_AcknowledgeIRQ (void);
/// Get OS Tick timer IRQ number
/// \return OS Tick IRQ number
int32_t OS_Tick_GetIRQn (void);
/// Get OS Tick timer clock frequency
/// \return OS Tick timer clock frequency in Hz
uint32_t OS_Tick_GetClock (void);
/// Get OS Tick timer interval reload value
/// \return OS Tick timer interval reload value
uint32_t OS_Tick_GetInterval (void);
/// Get OS Tick timer counter value
/// \return OS Tick timer counter value
uint32_t OS_Tick_GetCount (void);
/// Get OS Tick timer overflow status
/// \return OS Tick overflow status (1 - overflow, 0 - no overflow).
uint32_t OS_Tick_GetOverflow (void);
#endif /* OS_TICK_H */

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@ -1,132 +0,0 @@
/**************************************************************************//**
* @file os_systick.c
* @brief CMSIS OS Tick SysTick implementation
* @version V1.0.1
* @date 24. November 2017
******************************************************************************/
/*
* Copyright (c) 2017-2017 ARM Limited. All rights reserved.
*
* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the License); you may
* not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an AS IS BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "os_tick.h"
//lint -emacro((923,9078),SCB,SysTick) "cast from unsigned long to pointer"
#include "RTE_Components.h"
#include CMSIS_device_header
#ifdef SysTick
#ifndef SYSTICK_IRQ_PRIORITY
#define SYSTICK_IRQ_PRIORITY 0xFFU
#endif
static uint8_t PendST;
// Setup OS Tick.
__WEAK int32_t OS_Tick_Setup (uint32_t freq, IRQHandler_t handler) {
uint32_t load;
(void)handler;
if (freq == 0U) {
//lint -e{904} "Return statement before end of function"
return (-1);
}
load = (SystemCoreClock / freq) - 1U;
if (load > 0x00FFFFFFU) {
//lint -e{904} "Return statement before end of function"
return (-1);
}
// Set SysTick Interrupt Priority
#if ((defined(__ARM_ARCH_8M_MAIN__) && (__ARM_ARCH_8M_MAIN__ != 0)) || \
(defined(__CORTEX_M) && (__CORTEX_M == 7U)))
SCB->SHPR[11] = SYSTICK_IRQ_PRIORITY;
#elif (defined(__ARM_ARCH_8M_BASE__) && (__ARM_ARCH_8M_BASE__ != 0))
SCB->SHPR[1] |= ((uint32_t)SYSTICK_IRQ_PRIORITY << 24);
#elif ((defined(__ARM_ARCH_7M__) && (__ARM_ARCH_7M__ != 0)) || \
(defined(__ARM_ARCH_7EM__) && (__ARM_ARCH_7EM__ != 0)))
SCB->SHP[11] = SYSTICK_IRQ_PRIORITY;
#elif (defined(__ARM_ARCH_6M__) && (__ARM_ARCH_6M__ != 0))
SCB->SHP[1] |= ((uint32_t)SYSTICK_IRQ_PRIORITY << 24);
#else
#error "Unknown ARM Core!"
#endif
SysTick->CTRL = SysTick_CTRL_CLKSOURCE_Msk | SysTick_CTRL_TICKINT_Msk;
SysTick->LOAD = load;
SysTick->VAL = 0U;
PendST = 0U;
return (0);
}
/// Enable OS Tick.
__WEAK void OS_Tick_Enable (void) {
if (PendST != 0U) {
PendST = 0U;
SCB->ICSR = SCB_ICSR_PENDSTSET_Msk;
}
SysTick->CTRL |= SysTick_CTRL_ENABLE_Msk;
}
/// Disable OS Tick.
__WEAK void OS_Tick_Disable (void) {
SysTick->CTRL &= ~SysTick_CTRL_ENABLE_Msk;
if ((SCB->ICSR & SCB_ICSR_PENDSTSET_Msk) != 0U) {
SCB->ICSR = SCB_ICSR_PENDSTCLR_Msk;
PendST = 1U;
}
}
// Acknowledge OS Tick IRQ.
__WEAK void OS_Tick_AcknowledgeIRQ (void) {
(void)SysTick->CTRL;
}
// Get OS Tick IRQ number.
__WEAK int32_t OS_Tick_GetIRQn (void) {
return ((int32_t)SysTick_IRQn);
}
// Get OS Tick clock.
__WEAK uint32_t OS_Tick_GetClock (void) {
return (SystemCoreClock);
}
// Get OS Tick interval.
__WEAK uint32_t OS_Tick_GetInterval (void) {
return (SysTick->LOAD + 1U);
}
// Get OS Tick count value.
__WEAK uint32_t OS_Tick_GetCount (void) {
uint32_t load = SysTick->LOAD;
return (load - SysTick->VAL);
}
// Get OS Tick overflow status.
__WEAK uint32_t OS_Tick_GetOverflow (void) {
return ((SysTick->CTRL >> 16) & 1U);
}
#endif // SysTick

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@ -1,187 +0,0 @@
/**************************************************************************//**
* @file os_tick_gtim.c
* @brief CMSIS OS Tick implementation for Generic Timer
* @version V1.0.1
* @date 24. November 2017
******************************************************************************/
/*
* Copyright (c) 2017 ARM Limited. All rights reserved.
*
* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the License); you may
* not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an AS IS BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "os_tick.h"
#include "irq_ctrl.h"
#include "RTE_Components.h"
#include CMSIS_device_header
#ifndef GTIM_IRQ_PRIORITY
#define GTIM_IRQ_PRIORITY 0xFFU
#endif
#ifndef GTIM_IRQ_NUM
#define GTIM_IRQ_NUM SecurePhyTimer_IRQn
#endif
// Timer interrupt pending flag
static uint8_t GTIM_PendIRQ;
// Timer tick frequency
static uint32_t GTIM_Clock;
// Timer load value
static uint32_t GTIM_Load;
// Setup OS Tick.
int32_t OS_Tick_Setup (uint32_t freq, IRQHandler_t handler) {
uint32_t prio, bits;
if (freq == 0U) {
return (-1);
}
GTIM_PendIRQ = 0U;
// Get timer clock
#ifdef SCTR_BASE
GTIM_Clock = *(uint32_t*)(SCTR_BASE+0x20);
#else
// FVP REFCLK CNTControl 100MHz
GTIM_Clock = 100000000UL;
#endif
PL1_SetCounterFrequency(GTIM_Clock);
// Calculate load value
GTIM_Load = (GTIM_Clock / freq) - 1U;
// Disable Generic Timer and set load value
PL1_SetControl(0U);
PL1_SetLoadValue(GTIM_Load);
// Disable corresponding IRQ
IRQ_Disable(GTIM_IRQ_NUM);
IRQ_ClearPending(GTIM_IRQ_NUM);
// Determine number of implemented priority bits
IRQ_SetPriority(GTIM_IRQ_NUM, 0xFFU);
prio = IRQ_GetPriority(GTIM_IRQ_NUM);
// At least bits [7:4] must be implemented
if ((prio & 0xF0U) == 0U) {
return (-1);
}
for (bits = 0; bits < 4; bits++) {
if ((prio & 0x01) != 0) {
break;
}
prio >>= 1;
}
// Adjust configured priority to the number of implemented priority bits
prio = (GTIM_IRQ_PRIORITY << bits) & 0xFFUL;
// Set Private Timer interrupt priority
IRQ_SetPriority(GTIM_IRQ_NUM, prio-1U);
// Set edge-triggered IRQ
IRQ_SetMode(GTIM_IRQ_NUM, IRQ_MODE_TRIG_EDGE);
// Register tick interrupt handler function
IRQ_SetHandler(GTIM_IRQ_NUM, handler);
// Enable corresponding interrupt
IRQ_Enable(GTIM_IRQ_NUM);
// Enable system counter and timer control
#ifdef SCTR_BASE
*(uint32_t*)SCTR_BASE |= 3U;
#endif
// Enable timer control
PL1_SetControl(1U);
return (0);
}
/// Enable OS Tick.
void OS_Tick_Enable (void) {
uint32_t ctrl;
// Set pending interrupt if flag set
if (GTIM_PendIRQ != 0U) {
GTIM_PendIRQ = 0U;
IRQ_SetPending (GTIM_IRQ_NUM);
}
// Start the Private Timer
ctrl = PL1_GetControl();
// Set bit: Timer enable
ctrl |= 1U;
PL1_SetControl(ctrl);
}
/// Disable OS Tick.
void OS_Tick_Disable (void) {
uint32_t ctrl;
// Stop the Private Timer
ctrl = PL1_GetControl();
// Clear bit: Timer enable
ctrl &= ~1U;
PL1_SetControl(ctrl);
// Remember pending interrupt flag
if (IRQ_GetPending(GTIM_IRQ_NUM) != 0) {
IRQ_ClearPending(GTIM_IRQ_NUM);
GTIM_PendIRQ = 1U;
}
}
// Acknowledge OS Tick IRQ.
void OS_Tick_AcknowledgeIRQ (void) {
IRQ_ClearPending (GTIM_IRQ_NUM);
PL1_SetLoadValue(GTIM_Load);
}
// Get OS Tick IRQ number.
int32_t OS_Tick_GetIRQn (void) {
return (GTIM_IRQ_NUM);
}
// Get OS Tick clock.
uint32_t OS_Tick_GetClock (void) {
return (GTIM_Clock);
}
// Get OS Tick interval.
uint32_t OS_Tick_GetInterval (void) {
return (GTIM_Load + 1U);
}
// Get OS Tick count value.
uint32_t OS_Tick_GetCount (void) {
return (GTIM_Load - PL1_GetCurrentValue());
}
// Get OS Tick overflow status.
uint32_t OS_Tick_GetOverflow (void) {
CNTP_CTL_Type cntp_ctl;
cntp_ctl.w = PL1_GetControl();
return (cntp_ctl.b.ISTATUS);
}

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@ -1,165 +0,0 @@
/**************************************************************************//**
* @file os_tick_ptim.c
* @brief CMSIS OS Tick implementation for Private Timer
* @version V1.0.2
* @date 02. March 2018
******************************************************************************/
/*
* Copyright (c) 2017-2018 Arm Limited. All rights reserved.
*
* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the License); you may
* not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an AS IS BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "RTE_Components.h"
#include CMSIS_device_header
#if defined(PTIM)
#include "os_tick.h"
#include "irq_ctrl.h"
#ifndef PTIM_IRQ_PRIORITY
#define PTIM_IRQ_PRIORITY 0xFFU
#endif
static uint8_t PTIM_PendIRQ; // Timer interrupt pending flag
// Setup OS Tick.
int32_t OS_Tick_Setup (uint32_t freq, IRQHandler_t handler) {
uint32_t load;
uint32_t prio;
uint32_t bits;
if (freq == 0U) {
return (-1);
}
PTIM_PendIRQ = 0U;
// Private Timer runs with the system frequency
load = (SystemCoreClock / freq) - 1U;
// Disable Private Timer and set load value
PTIM_SetControl (0U);
PTIM_SetLoadValue (load);
// Disable corresponding IRQ
IRQ_Disable (PrivTimer_IRQn);
IRQ_ClearPending(PrivTimer_IRQn);
// Determine number of implemented priority bits
IRQ_SetPriority (PrivTimer_IRQn, 0xFFU);
prio = IRQ_GetPriority (PrivTimer_IRQn);
// At least bits [7:4] must be implemented
if ((prio & 0xF0U) == 0U) {
return (-1);
}
for (bits = 0; bits < 4; bits++) {
if ((prio & 0x01) != 0) {
break;
}
prio >>= 1;
}
// Adjust configured priority to the number of implemented priority bits
prio = (PTIM_IRQ_PRIORITY << bits) & 0xFFUL;
// Set Private Timer interrupt priority
IRQ_SetPriority(PrivTimer_IRQn, prio-1U);
// Set edge-triggered IRQ
IRQ_SetMode(PrivTimer_IRQn, IRQ_MODE_TRIG_EDGE);
// Register tick interrupt handler function
IRQ_SetHandler(PrivTimer_IRQn, handler);
// Enable corresponding interrupt
IRQ_Enable (PrivTimer_IRQn);
// Set bits: IRQ enable and Auto reload
PTIM_SetControl (0x06U);
return (0);
}
/// Enable OS Tick.
void OS_Tick_Enable (void) {
uint32_t ctrl;
// Set pending interrupt if flag set
if (PTIM_PendIRQ != 0U) {
PTIM_PendIRQ = 0U;
IRQ_SetPending (PrivTimer_IRQn);
}
// Start the Private Timer
ctrl = PTIM_GetControl();
// Set bit: Timer enable
ctrl |= 1U;
PTIM_SetControl (ctrl);
}
/// Disable OS Tick.
void OS_Tick_Disable (void) {
uint32_t ctrl;
// Stop the Private Timer
ctrl = PTIM_GetControl();
// Clear bit: Timer enable
ctrl &= ~1U;
PTIM_SetControl (ctrl);
// Remember pending interrupt flag
if (IRQ_GetPending(PrivTimer_IRQn) != 0) {
IRQ_ClearPending (PrivTimer_IRQn);
PTIM_PendIRQ = 1U;
}
}
// Acknowledge OS Tick IRQ.
void OS_Tick_AcknowledgeIRQ (void) {
PTIM_ClearEventFlag();
}
// Get OS Tick IRQ number.
int32_t OS_Tick_GetIRQn (void) {
return (PrivTimer_IRQn);
}
// Get OS Tick clock.
uint32_t OS_Tick_GetClock (void) {
return (SystemCoreClock);
}
// Get OS Tick interval.
uint32_t OS_Tick_GetInterval (void) {
return (PTIM_GetLoadValue() + 1U);
}
// Get OS Tick count value.
uint32_t OS_Tick_GetCount (void) {
uint32_t load = PTIM_GetLoadValue();
return (load - PTIM_GetCurrentValue());
}
// Get OS Tick overflow status.
uint32_t OS_Tick_GetOverflow (void) {
return (PTIM->ISR & 1);
}
#endif // PTIM

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@ -1,922 +0,0 @@
/*
* Copyright (c) 2013-2018 Arm Limited. All rights reserved.
*
* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the License); you may
* not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an AS IS BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* ----------------------------------------------------------------------
*
* $Date: 18. June 2018
* $Revision: V2.1.3
*
* Project: CMSIS-RTOS API
* Title: cmsis_os.h template header file
*
* Version 0.02
* Initial Proposal Phase
* Version 0.03
* osKernelStart added, optional feature: main started as thread
* osSemaphores have standard behavior
* osTimerCreate does not start the timer, added osTimerStart
* osThreadPass is renamed to osThreadYield
* Version 1.01
* Support for C++ interface
* - const attribute removed from the osXxxxDef_t typedefs
* - const attribute added to the osXxxxDef macros
* Added: osTimerDelete, osMutexDelete, osSemaphoreDelete
* Added: osKernelInitialize
* Version 1.02
* Control functions for short timeouts in microsecond resolution:
* Added: osKernelSysTick, osKernelSysTickFrequency, osKernelSysTickMicroSec
* Removed: osSignalGet
* Version 2.0.0
* OS objects creation without macros (dynamic creation and resource allocation):
* - added: osXxxxNew functions which replace osXxxxCreate
* - added: osXxxxAttr_t structures
* - deprecated: osXxxxCreate functions, osXxxxDef_t structures
* - deprecated: osXxxxDef and osXxxx macros
* osStatus codes simplified and renamed to osStatus_t
* osEvent return structure deprecated
* Kernel:
* - added: osKernelInfo_t and osKernelGetInfo
* - added: osKernelState_t and osKernelGetState (replaces osKernelRunning)
* - added: osKernelLock, osKernelUnlock
* - added: osKernelSuspend, osKernelResume
* - added: osKernelGetTickCount, osKernelGetTickFreq
* - renamed osKernelSysTick to osKernelGetSysTimerCount
* - replaced osKernelSysTickFrequency with osKernelGetSysTimerFreq
* - deprecated osKernelSysTickMicroSec
* Thread:
* - extended number of thread priorities
* - renamed osPrioriry to osPrioriry_t
* - replaced osThreadCreate with osThreadNew
* - added: osThreadGetName
* - added: osThreadState_t and osThreadGetState
* - added: osThreadGetStackSize, osThreadGetStackSpace
* - added: osThreadSuspend, osThreadResume
* - added: osThreadJoin, osThreadDetach, osThreadExit
* - added: osThreadGetCount, osThreadEnumerate
* - added: Thread Flags (moved from Signals)
* Signals:
* - renamed osSignals to osThreadFlags (moved to Thread Flags)
* - changed return value of Set/Clear/Wait functions
* - Clear function limited to current running thread
* - extended Wait function (options)
* - added: osThreadFlagsGet
* Event Flags:
* - added new independent object for handling Event Flags
* Delay and Wait functions:
* - added: osDelayUntil
* - deprecated: osWait
* Timer:
* - replaced osTimerCreate with osTimerNew
* - added: osTimerGetName, osTimerIsRunning
* Mutex:
* - extended: attributes (Recursive, Priority Inherit, Robust)
* - replaced osMutexCreate with osMutexNew
* - renamed osMutexWait to osMutexAcquire
* - added: osMutexGetName, osMutexGetOwner
* Semaphore:
* - extended: maximum and initial token count
* - replaced osSemaphoreCreate with osSemaphoreNew
* - renamed osSemaphoreWait to osSemaphoreAcquire (changed return value)
* - added: osSemaphoreGetName, osSemaphoreGetCount
* Memory Pool:
* - using osMemoryPool prefix instead of osPool
* - replaced osPoolCreate with osMemoryPoolNew
* - extended osMemoryPoolAlloc (timeout)
* - added: osMemoryPoolGetName
* - added: osMemoryPoolGetCapacity, osMemoryPoolGetBlockSize
* - added: osMemoryPoolGetCount, osMemoryPoolGetSpace
* - added: osMemoryPoolDelete
* - deprecated: osPoolCAlloc
* Message Queue:
* - extended: fixed size message instead of a single 32-bit value
* - using osMessageQueue prefix instead of osMessage
* - replaced osMessageCreate with osMessageQueueNew
* - updated: osMessageQueuePut, osMessageQueueGet
* - added: osMessageQueueGetName
* - added: osMessageQueueGetCapacity, osMessageQueueGetMsgSize
* - added: osMessageQueueGetCount, osMessageQueueGetSpace
* - added: osMessageQueueReset, osMessageQueueDelete
* Mail Queue:
* - deprecated (superseded by extended Message Queue functionality)
* Version 2.1.0
* Support for critical and uncritical sections (nesting safe):
* - updated: osKernelLock, osKernelUnlock
* - added: osKernelRestoreLock
* Updated Thread and Event Flags:
* - changed flags parameter and return type from int32_t to uint32_t
* Version 2.1.1
* Additional functions allowed to be called from Interrupt Service Routines:
* - osKernelGetTickCount, osKernelGetTickFreq
* Changed Kernel Tick type to uint32_t:
* - updated: osKernelGetTickCount, osDelayUntil
* Version 2.1.2
* Additional functions allowed to be called from Interrupt Service Routines:
* - osKernelGetInfo, osKernelGetState
* Version 2.1.3
* Additional functions allowed to be called from Interrupt Service Routines:
* - osThreadGetId
*---------------------------------------------------------------------------*/
#ifndef CMSIS_OS_H_
#define CMSIS_OS_H_
/// \b osCMSIS identifies the CMSIS-RTOS API version.
#define osCMSIS 0x20001U ///< API version (main[31:16].sub[15:0])
/// \note CAN BE CHANGED: \b osCMSIS_KERNEL identifies the underlying RTOS kernel and version number.
#define osCMSIS_KERNEL 0x10000U ///< RTOS identification and version (main[31:16].sub[15:0])
/// \note CAN BE CHANGED: \b osKernelSystemId identifies the underlying RTOS kernel.
#define osKernelSystemId "KERNEL V1.0" ///< RTOS identification string
/// \note CAN BE CHANGED: \b osFeature_xxx identifies RTOS features.
#define osFeature_MainThread 0 ///< main thread 1=main can be thread, 0=not available
#define osFeature_Signals 16U ///< maximum number of Signal Flags available per thread
#define osFeature_Semaphore 65535U ///< maximum count for \ref osSemaphoreCreate function
#define osFeature_Wait 0 ///< osWait function: 1=available, 0=not available
#define osFeature_SysTick 1 ///< osKernelSysTick functions: 1=available, 0=not available
#define osFeature_Pool 1 ///< Memory Pools: 1=available, 0=not available
#define osFeature_MessageQ 1 ///< Message Queues: 1=available, 0=not available
#define osFeature_MailQ 1 ///< Mail Queues: 1=available, 0=not available
#if (osCMSIS >= 0x20000U)
#include "cmsis_os2.h"
#else
#include <stdint.h>
#include <stddef.h>
#endif
#ifdef __cplusplus
extern "C"
{
#endif
// ==== Enumerations, structures, defines ====
/// Priority values.
#if (osCMSIS < 0x20000U)
typedef enum {
osPriorityIdle = -3, ///< Priority: idle (lowest)
osPriorityLow = -2, ///< Priority: low
osPriorityBelowNormal = -1, ///< Priority: below normal
osPriorityNormal = 0, ///< Priority: normal (default)
osPriorityAboveNormal = +1, ///< Priority: above normal
osPriorityHigh = +2, ///< Priority: high
osPriorityRealtime = +3, ///< Priority: realtime (highest)
osPriorityError = 0x84, ///< System cannot determine priority or illegal priority.
osPriorityReserved = 0x7FFFFFFF ///< Prevents enum down-size compiler optimization.
} osPriority;
#else
#define osPriority osPriority_t
#endif
/// Entry point of a thread.
typedef void (*os_pthread) (void const *argument);
/// Entry point of a timer call back function.
typedef void (*os_ptimer) (void const *argument);
/// Timer type.
#if (osCMSIS < 0x20000U)
typedef enum {
osTimerOnce = 0, ///< One-shot timer.
osTimerPeriodic = 1 ///< Repeating timer.
} os_timer_type;
#else
#define os_timer_type osTimerType_t
#endif
/// Timeout value.
#define osWaitForever 0xFFFFFFFFU ///< Wait forever timeout value.
/// Status code values returned by CMSIS-RTOS functions.
#if (osCMSIS < 0x20000U)
typedef enum {
osOK = 0, ///< Function completed; no error or event occurred.
osEventSignal = 0x08, ///< Function completed; signal event occurred.
osEventMessage = 0x10, ///< Function completed; message event occurred.
osEventMail = 0x20, ///< Function completed; mail event occurred.
osEventTimeout = 0x40, ///< Function completed; timeout occurred.
osErrorParameter = 0x80, ///< Parameter error: a mandatory parameter was missing or specified an incorrect object.
osErrorResource = 0x81, ///< Resource not available: a specified resource was not available.
osErrorTimeoutResource = 0xC1, ///< Resource not available within given time: a specified resource was not available within the timeout period.
osErrorISR = 0x82, ///< Not allowed in ISR context: the function cannot be called from interrupt service routines.
osErrorISRRecursive = 0x83, ///< Function called multiple times from ISR with same object.
osErrorPriority = 0x84, ///< System cannot determine priority or thread has illegal priority.
osErrorNoMemory = 0x85, ///< System is out of memory: it was impossible to allocate or reserve memory for the operation.
osErrorValue = 0x86, ///< Value of a parameter is out of range.
osErrorOS = 0xFF, ///< Unspecified RTOS error: run-time error but no other error message fits.
osStatusReserved = 0x7FFFFFFF ///< Prevents enum down-size compiler optimization.
} osStatus;
#else
typedef int32_t osStatus;
#define osEventSignal (0x08)
#define osEventMessage (0x10)
#define osEventMail (0x20)
#define osEventTimeout (0x40)
#define osErrorOS osError
#define osErrorTimeoutResource osErrorTimeout
#define osErrorISRRecursive (-126)
#define osErrorValue (-127)
#define osErrorPriority (-128)
#endif
// >>> the following data type definitions may be adapted towards a specific RTOS
/// Thread ID identifies the thread.
/// \note CAN BE CHANGED: \b implementation specific in every CMSIS-RTOS.
#if (osCMSIS < 0x20000U)
typedef void *osThreadId;
#else
#define osThreadId osThreadId_t
#endif
/// Timer ID identifies the timer.
/// \note CAN BE CHANGED: \b implementation specific in every CMSIS-RTOS.
#if (osCMSIS < 0x20000U)
typedef void *osTimerId;
#else
#define osTimerId osTimerId_t
#endif
/// Mutex ID identifies the mutex.
/// \note CAN BE CHANGED: \b implementation specific in every CMSIS-RTOS.
#if (osCMSIS < 0x20000U)
typedef void *osMutexId;
#else
#define osMutexId osMutexId_t
#endif
/// Semaphore ID identifies the semaphore.
/// \note CAN BE CHANGED: \b implementation specific in every CMSIS-RTOS.
#if (osCMSIS < 0x20000U)
typedef void *osSemaphoreId;
#else
#define osSemaphoreId osSemaphoreId_t
#endif
/// Pool ID identifies the memory pool.
/// \note CAN BE CHANGED: \b implementation specific in every CMSIS-RTOS.
typedef void *osPoolId;
/// Message ID identifies the message queue.
/// \note CAN BE CHANGED: \b implementation specific in every CMSIS-RTOS.
typedef void *osMessageQId;
/// Mail ID identifies the mail queue.
/// \note CAN BE CHANGED: \b implementation specific in every CMSIS-RTOS.
typedef void *osMailQId;
/// Thread Definition structure contains startup information of a thread.
/// \note CAN BE CHANGED: \b os_thread_def is implementation specific in every CMSIS-RTOS.
#if (osCMSIS < 0x20000U)
typedef struct os_thread_def {
os_pthread pthread; ///< start address of thread function
osPriority tpriority; ///< initial thread priority
uint32_t instances; ///< maximum number of instances of that thread function
uint32_t stacksize; ///< stack size requirements in bytes; 0 is default stack size
} osThreadDef_t;
#else
typedef struct os_thread_def {
os_pthread pthread; ///< start address of thread function
osThreadAttr_t attr; ///< thread attributes
} osThreadDef_t;
#endif
/// Timer Definition structure contains timer parameters.
/// \note CAN BE CHANGED: \b os_timer_def is implementation specific in every CMSIS-RTOS.
#if (osCMSIS < 0x20000U)
typedef struct os_timer_def {
os_ptimer ptimer; ///< start address of a timer function
} osTimerDef_t;
#else
typedef struct os_timer_def {
os_ptimer ptimer; ///< start address of a timer function
osTimerAttr_t attr; ///< timer attributes
} osTimerDef_t;
#endif
/// Mutex Definition structure contains setup information for a mutex.
/// \note CAN BE CHANGED: \b os_mutex_def is implementation specific in every CMSIS-RTOS.
#if (osCMSIS < 0x20000U)
typedef struct os_mutex_def {
uint32_t dummy; ///< dummy value
} osMutexDef_t;
#else
#define osMutexDef_t osMutexAttr_t
#endif
/// Semaphore Definition structure contains setup information for a semaphore.
/// \note CAN BE CHANGED: \b os_semaphore_def is implementation specific in every CMSIS-RTOS.
#if (osCMSIS < 0x20000U)
typedef struct os_semaphore_def {
uint32_t dummy; ///< dummy value
} osSemaphoreDef_t;
#else
#define osSemaphoreDef_t osSemaphoreAttr_t
#endif
/// Definition structure for memory block allocation.
/// \note CAN BE CHANGED: \b os_pool_def is implementation specific in every CMSIS-RTOS.
#if (osCMSIS < 0x20000U)
typedef struct os_pool_def {
uint32_t pool_sz; ///< number of items (elements) in the pool
uint32_t item_sz; ///< size of an item
void *pool; ///< pointer to memory for pool
} osPoolDef_t;
#else
typedef struct os_pool_def {
uint32_t pool_sz; ///< number of items (elements) in the pool
uint32_t item_sz; ///< size of an item
osMemoryPoolAttr_t attr; ///< memory pool attributes
} osPoolDef_t;
#endif
/// Definition structure for message queue.
/// \note CAN BE CHANGED: \b os_messageQ_def is implementation specific in every CMSIS-RTOS.
#if (osCMSIS < 0x20000U)
typedef struct os_messageQ_def {
uint32_t queue_sz; ///< number of elements in the queue
void *pool; ///< memory array for messages
} osMessageQDef_t;
#else
typedef struct os_messageQ_def {
uint32_t queue_sz; ///< number of elements in the queue
osMessageQueueAttr_t attr; ///< message queue attributes
} osMessageQDef_t;
#endif
/// Definition structure for mail queue.
/// \note CAN BE CHANGED: \b os_mailQ_def is implementation specific in every CMSIS-RTOS.
#if (osCMSIS < 0x20000U)
typedef struct os_mailQ_def {
uint32_t queue_sz; ///< number of elements in the queue
uint32_t item_sz; ///< size of an item
void *pool; ///< memory array for mail
} osMailQDef_t;
#else
typedef struct os_mailQ_def {
uint32_t queue_sz; ///< number of elements in the queue
uint32_t item_sz; ///< size of an item
void *mail; ///< pointer to mail
osMemoryPoolAttr_t mp_attr; ///< memory pool attributes
osMessageQueueAttr_t mq_attr; ///< message queue attributes
} osMailQDef_t;
#endif
/// Event structure contains detailed information about an event.
typedef struct {
osStatus status; ///< status code: event or error information
union {
uint32_t v; ///< message as 32-bit value
void *p; ///< message or mail as void pointer
int32_t signals; ///< signal flags
} value; ///< event value
union {
osMailQId mail_id; ///< mail id obtained by \ref osMailCreate
osMessageQId message_id; ///< message id obtained by \ref osMessageCreate
} def; ///< event definition
} osEvent;
// ==== Kernel Management Functions ====
/// Initialize the RTOS Kernel for creating objects.
/// \return status code that indicates the execution status of the function.
#if (osCMSIS < 0x20000U)
osStatus osKernelInitialize (void);
#endif
/// Start the RTOS Kernel scheduler.
/// \return status code that indicates the execution status of the function.
#if (osCMSIS < 0x20000U)
osStatus osKernelStart (void);
#endif
/// Check if the RTOS kernel is already started.
/// \return 0 RTOS is not started, 1 RTOS is started.
#if (osCMSIS < 0x20000U)
int32_t osKernelRunning(void);
#endif
#if (defined(osFeature_SysTick) && (osFeature_SysTick != 0)) // System Timer available
/// Get the RTOS kernel system timer counter.
/// \return RTOS kernel system timer as 32-bit value
#if (osCMSIS < 0x20000U)
uint32_t osKernelSysTick (void);
#else
#define osKernelSysTick osKernelGetSysTimerCount
#endif
/// The RTOS kernel system timer frequency in Hz.
/// \note Reflects the system timer setting and is typically defined in a configuration file.
#if (osCMSIS < 0x20000U)
#define osKernelSysTickFrequency 100000000
#endif
/// Convert a microseconds value to a RTOS kernel system timer value.
/// \param microsec time value in microseconds.
/// \return time value normalized to the \ref osKernelSysTickFrequency
#if (osCMSIS < 0x20000U)
#define osKernelSysTickMicroSec(microsec) (((uint64_t)microsec * (osKernelSysTickFrequency)) / 1000000)
#else
#define osKernelSysTickMicroSec(microsec) (((uint64_t)microsec * osKernelGetSysTimerFreq()) / 1000000)
#endif
#endif // System Timer available
// ==== Thread Management Functions ====
/// Create a Thread Definition with function, priority, and stack requirements.
/// \param name name of the thread function.
/// \param priority initial priority of the thread function.
/// \param instances number of possible thread instances.
/// \param stacksz stack size (in bytes) requirements for the thread function.
/// \note CAN BE CHANGED: The parameters to \b osThreadDef shall be consistent but the
/// macro body is implementation specific in every CMSIS-RTOS.
#if defined (osObjectsExternal) // object is external
#define osThreadDef(name, priority, instances, stacksz) \
extern const osThreadDef_t os_thread_def_##name
#else // define the object
#if (osCMSIS < 0x20000U)
#define osThreadDef(name, priority, instances, stacksz) \
const osThreadDef_t os_thread_def_##name = \
{ (name), (priority), (instances), (stacksz) }
#else
#define osThreadDef(name, priority, instances, stacksz) \
const osThreadDef_t os_thread_def_##name = \
{ (name), \
{ NULL, osThreadDetached, NULL, 0U, NULL, 8*((stacksz+7)/8), (priority), 0U, 0U } }
#endif
#endif
/// Access a Thread definition.
/// \param name name of the thread definition object.
/// \note CAN BE CHANGED: The parameter to \b osThread shall be consistent but the
/// macro body is implementation specific in every CMSIS-RTOS.
#define osThread(name) \
&os_thread_def_##name
/// Create a thread and add it to Active Threads and set it to state READY.
/// \param[in] thread_def thread definition referenced with \ref osThread.
/// \param[in] argument pointer that is passed to the thread function as start argument.
/// \return thread ID for reference by other functions or NULL in case of error.
osThreadId osThreadCreate (const osThreadDef_t *thread_def, void *argument);
/// Return the thread ID of the current running thread.
/// \return thread ID for reference by other functions or NULL in case of error.
#if (osCMSIS < 0x20000U)
osThreadId osThreadGetId (void);
#endif
/// Change priority of a thread.
/// \param[in] thread_id thread ID obtained by \ref osThreadCreate or \ref osThreadGetId.
/// \param[in] priority new priority value for the thread function.
/// \return status code that indicates the execution status of the function.
#if (osCMSIS < 0x20000U)
osStatus osThreadSetPriority (osThreadId thread_id, osPriority priority);
#endif
/// Get current priority of a thread.
/// \param[in] thread_id thread ID obtained by \ref osThreadCreate or \ref osThreadGetId.
/// \return current priority value of the specified thread.
#if (osCMSIS < 0x20000U)
osPriority osThreadGetPriority (osThreadId thread_id);
#endif
/// Pass control to next thread that is in state \b READY.
/// \return status code that indicates the execution status of the function.
#if (osCMSIS < 0x20000U)
osStatus osThreadYield (void);
#endif
/// Terminate execution of a thread.
/// \param[in] thread_id thread ID obtained by \ref osThreadCreate or \ref osThreadGetId.
/// \return status code that indicates the execution status of the function.
#if (osCMSIS < 0x20000U)
osStatus osThreadTerminate (osThreadId thread_id);
#endif
// ==== Signal Management ====
/// Set the specified Signal Flags of an active thread.
/// \param[in] thread_id thread ID obtained by \ref osThreadCreate or \ref osThreadGetId.
/// \param[in] signals specifies the signal flags of the thread that should be set.
/// \return previous signal flags of the specified thread or 0x80000000 in case of incorrect parameters.
int32_t osSignalSet (osThreadId thread_id, int32_t signals);
/// Clear the specified Signal Flags of an active thread.
/// \param[in] thread_id thread ID obtained by \ref osThreadCreate or \ref osThreadGetId.
/// \param[in] signals specifies the signal flags of the thread that shall be cleared.
/// \return previous signal flags of the specified thread or 0x80000000 in case of incorrect parameters or call from ISR.
int32_t osSignalClear (osThreadId thread_id, int32_t signals);
/// Wait for one or more Signal Flags to become signaled for the current \b RUNNING thread.
/// \param[in] signals wait until all specified signal flags set or 0 for any single signal flag.
/// \param[in] millisec \ref CMSIS_RTOS_TimeOutValue or 0 in case of no time-out.
/// \return event flag information or error code.
osEvent osSignalWait (int32_t signals, uint32_t millisec);
// ==== Generic Wait Functions ====
/// Wait for Timeout (Time Delay).
/// \param[in] millisec \ref CMSIS_RTOS_TimeOutValue "time delay" value
/// \return status code that indicates the execution status of the function.
#if (osCMSIS < 0x20000U)
osStatus osDelay (uint32_t millisec);
#endif
#if (defined (osFeature_Wait) && (osFeature_Wait != 0)) // Generic Wait available
/// Wait for Signal, Message, Mail, or Timeout.
/// \param[in] millisec \ref CMSIS_RTOS_TimeOutValue or 0 in case of no time-out
/// \return event that contains signal, message, or mail information or error code.
osEvent osWait (uint32_t millisec);
#endif // Generic Wait available
// ==== Timer Management Functions ====
/// Define a Timer object.
/// \param name name of the timer object.
/// \param function name of the timer call back function.
/// \note CAN BE CHANGED: The parameter to \b osTimerDef shall be consistent but the
/// macro body is implementation specific in every CMSIS-RTOS.
#if defined (osObjectsExternal) // object is external
#define osTimerDef(name, function) \
extern const osTimerDef_t os_timer_def_##name
#else // define the object
#if (osCMSIS < 0x20000U)
#define osTimerDef(name, function) \
const osTimerDef_t os_timer_def_##name = { (function) }
#else
#define osTimerDef(name, function) \
const osTimerDef_t os_timer_def_##name = \
{ (function), { NULL, 0U, NULL, 0U } }
#endif
#endif
/// Access a Timer definition.
/// \param name name of the timer object.
/// \note CAN BE CHANGED: The parameter to \b osTimer shall be consistent but the
/// macro body is implementation specific in every CMSIS-RTOS.
#define osTimer(name) \
&os_timer_def_##name
/// Create and Initialize a timer.
/// \param[in] timer_def timer object referenced with \ref osTimer.
/// \param[in] type osTimerOnce for one-shot or osTimerPeriodic for periodic behavior.
/// \param[in] argument argument to the timer call back function.
/// \return timer ID for reference by other functions or NULL in case of error.
osTimerId osTimerCreate (const osTimerDef_t *timer_def, os_timer_type type, void *argument);
/// Start or restart a timer.
/// \param[in] timer_id timer ID obtained by \ref osTimerCreate.
/// \param[in] millisec \ref CMSIS_RTOS_TimeOutValue "time delay" value of the timer.
/// \return status code that indicates the execution status of the function.
#if (osCMSIS < 0x20000U)
osStatus osTimerStart (osTimerId timer_id, uint32_t millisec);
#endif
/// Stop a timer.
/// \param[in] timer_id timer ID obtained by \ref osTimerCreate.
/// \return status code that indicates the execution status of the function.
#if (osCMSIS < 0x20000U)
osStatus osTimerStop (osTimerId timer_id);
#endif
/// Delete a timer.
/// \param[in] timer_id timer ID obtained by \ref osTimerCreate.
/// \return status code that indicates the execution status of the function.
#if (osCMSIS < 0x20000U)
osStatus osTimerDelete (osTimerId timer_id);
#endif
// ==== Mutex Management Functions ====
/// Define a Mutex.
/// \param name name of the mutex object.
/// \note CAN BE CHANGED: The parameter to \b osMutexDef shall be consistent but the
/// macro body is implementation specific in every CMSIS-RTOS.
#if defined (osObjectsExternal) // object is external
#define osMutexDef(name) \
extern const osMutexDef_t os_mutex_def_##name
#else // define the object
#if (osCMSIS < 0x20000U)
#define osMutexDef(name) \
const osMutexDef_t os_mutex_def_##name = { 0 }
#else
#define osMutexDef(name) \
const osMutexDef_t os_mutex_def_##name = \
{ NULL, osMutexRecursive | osMutexPrioInherit | osMutexRobust, NULL, 0U }
#endif
#endif
/// Access a Mutex definition.
/// \param name name of the mutex object.
/// \note CAN BE CHANGED: The parameter to \b osMutex shall be consistent but the
/// macro body is implementation specific in every CMSIS-RTOS.
#define osMutex(name) \
&os_mutex_def_##name
/// Create and Initialize a Mutex object.
/// \param[in] mutex_def mutex definition referenced with \ref osMutex.
/// \return mutex ID for reference by other functions or NULL in case of error.
osMutexId osMutexCreate (const osMutexDef_t *mutex_def);
/// Wait until a Mutex becomes available.
/// \param[in] mutex_id mutex ID obtained by \ref osMutexCreate.
/// \param[in] millisec \ref CMSIS_RTOS_TimeOutValue or 0 in case of no time-out.
/// \return status code that indicates the execution status of the function.
#if (osCMSIS < 0x20000U)
osStatus osMutexWait (osMutexId mutex_id, uint32_t millisec);
#else
#define osMutexWait osMutexAcquire
#endif
/// Release a Mutex that was obtained by \ref osMutexWait.
/// \param[in] mutex_id mutex ID obtained by \ref osMutexCreate.
/// \return status code that indicates the execution status of the function.
#if (osCMSIS < 0x20000U)
osStatus osMutexRelease (osMutexId mutex_id);
#endif
/// Delete a Mutex object.
/// \param[in] mutex_id mutex ID obtained by \ref osMutexCreate.
/// \return status code that indicates the execution status of the function.
#if (osCMSIS < 0x20000U)
osStatus osMutexDelete (osMutexId mutex_id);
#endif
// ==== Semaphore Management Functions ====
#if (defined (osFeature_Semaphore) && (osFeature_Semaphore != 0U)) // Semaphore available
/// Define a Semaphore object.
/// \param name name of the semaphore object.
/// \note CAN BE CHANGED: The parameter to \b osSemaphoreDef shall be consistent but the
/// macro body is implementation specific in every CMSIS-RTOS.
#if defined (osObjectsExternal) // object is external
#define osSemaphoreDef(name) \
extern const osSemaphoreDef_t os_semaphore_def_##name
#else // define the object
#if (osCMSIS < 0x20000U)
#define osSemaphoreDef(name) \
const osSemaphoreDef_t os_semaphore_def_##name = { 0 }
#else
#define osSemaphoreDef(name) \
const osSemaphoreDef_t os_semaphore_def_##name = \
{ NULL, 0U, NULL, 0U }
#endif
#endif
/// Access a Semaphore definition.
/// \param name name of the semaphore object.
/// \note CAN BE CHANGED: The parameter to \b osSemaphore shall be consistent but the
/// macro body is implementation specific in every CMSIS-RTOS.
#define osSemaphore(name) \
&os_semaphore_def_##name
/// Create and Initialize a Semaphore object.
/// \param[in] semaphore_def semaphore definition referenced with \ref osSemaphore.
/// \param[in] count maximum and initial number of available tokens.
/// \return semaphore ID for reference by other functions or NULL in case of error.
osSemaphoreId osSemaphoreCreate (const osSemaphoreDef_t *semaphore_def, int32_t count);
/// Wait until a Semaphore token becomes available.
/// \param[in] semaphore_id semaphore object referenced with \ref osSemaphoreCreate.
/// \param[in] millisec \ref CMSIS_RTOS_TimeOutValue or 0 in case of no time-out.
/// \return number of available tokens, or -1 in case of incorrect parameters.
int32_t osSemaphoreWait (osSemaphoreId semaphore_id, uint32_t millisec);
/// Release a Semaphore token.
/// \param[in] semaphore_id semaphore object referenced with \ref osSemaphoreCreate.
/// \return status code that indicates the execution status of the function.
#if (osCMSIS < 0x20000U)
osStatus osSemaphoreRelease (osSemaphoreId semaphore_id);
#endif
/// Delete a Semaphore object.
/// \param[in] semaphore_id semaphore object referenced with \ref osSemaphoreCreate.
/// \return status code that indicates the execution status of the function.
#if (osCMSIS < 0x20000U)
osStatus osSemaphoreDelete (osSemaphoreId semaphore_id);
#endif
#endif // Semaphore available
// ==== Memory Pool Management Functions ====
#if (defined(osFeature_Pool) && (osFeature_Pool != 0)) // Memory Pool available
/// \brief Define a Memory Pool.
/// \param name name of the memory pool.
/// \param no maximum number of blocks (objects) in the memory pool.
/// \param type data type of a single block (object).
/// \note CAN BE CHANGED: The parameter to \b osPoolDef shall be consistent but the
/// macro body is implementation specific in every CMSIS-RTOS.
#if defined (osObjectsExternal) // object is external
#define osPoolDef(name, no, type) \
extern const osPoolDef_t os_pool_def_##name
#else // define the object
#if (osCMSIS < 0x20000U)
#define osPoolDef(name, no, type) \
const osPoolDef_t os_pool_def_##name = \
{ (no), sizeof(type), NULL }
#else
#define osPoolDef(name, no, type) \
const osPoolDef_t os_pool_def_##name = \
{ (no), sizeof(type), { NULL, 0U, NULL, 0U, NULL, 0U } }
#endif
#endif
/// \brief Access a Memory Pool definition.
/// \param name name of the memory pool
/// \note CAN BE CHANGED: The parameter to \b osPool shall be consistent but the
/// macro body is implementation specific in every CMSIS-RTOS.
#define osPool(name) \
&os_pool_def_##name
/// Create and Initialize a Memory Pool object.
/// \param[in] pool_def memory pool definition referenced with \ref osPool.
/// \return memory pool ID for reference by other functions or NULL in case of error.
osPoolId osPoolCreate (const osPoolDef_t *pool_def);
/// Allocate a memory block from a Memory Pool.
/// \param[in] pool_id memory pool ID obtain referenced with \ref osPoolCreate.
/// \return address of the allocated memory block or NULL in case of no memory available.
void *osPoolAlloc (osPoolId pool_id);
/// Allocate a memory block from a Memory Pool and set memory block to zero.
/// \param[in] pool_id memory pool ID obtain referenced with \ref osPoolCreate.
/// \return address of the allocated memory block or NULL in case of no memory available.
void *osPoolCAlloc (osPoolId pool_id);
/// Return an allocated memory block back to a Memory Pool.
/// \param[in] pool_id memory pool ID obtain referenced with \ref osPoolCreate.
/// \param[in] block address of the allocated memory block to be returned to the memory pool.
/// \return status code that indicates the execution status of the function.
osStatus osPoolFree (osPoolId pool_id, void *block);
#endif // Memory Pool available
// ==== Message Queue Management Functions ====
#if (defined(osFeature_MessageQ) && (osFeature_MessageQ != 0)) // Message Queue available
/// \brief Create a Message Queue Definition.
/// \param name name of the queue.
/// \param queue_sz maximum number of messages in the queue.
/// \param type data type of a single message element (for debugger).
/// \note CAN BE CHANGED: The parameter to \b osMessageQDef shall be consistent but the
/// macro body is implementation specific in every CMSIS-RTOS.
#if defined (osObjectsExternal) // object is external
#define osMessageQDef(name, queue_sz, type) \
extern const osMessageQDef_t os_messageQ_def_##name
#else // define the object
#if (osCMSIS < 0x20000U)
#define osMessageQDef(name, queue_sz, type) \
const osMessageQDef_t os_messageQ_def_##name = \
{ (queue_sz), NULL }
#else
#define osMessageQDef(name, queue_sz, type) \
const osMessageQDef_t os_messageQ_def_##name = \
{ (queue_sz), { NULL, 0U, NULL, 0U, NULL, 0U } }
#endif
#endif
/// \brief Access a Message Queue Definition.
/// \param name name of the queue
/// \note CAN BE CHANGED: The parameter to \b osMessageQ shall be consistent but the
/// macro body is implementation specific in every CMSIS-RTOS.
#define osMessageQ(name) \
&os_messageQ_def_##name
/// Create and Initialize a Message Queue object.
/// \param[in] queue_def message queue definition referenced with \ref osMessageQ.
/// \param[in] thread_id thread ID (obtained by \ref osThreadCreate or \ref osThreadGetId) or NULL.
/// \return message queue ID for reference by other functions or NULL in case of error.
osMessageQId osMessageCreate (const osMessageQDef_t *queue_def, osThreadId thread_id);
/// Put a Message to a Queue.
/// \param[in] queue_id message queue ID obtained with \ref osMessageCreate.
/// \param[in] info message information.
/// \param[in] millisec \ref CMSIS_RTOS_TimeOutValue or 0 in case of no time-out.
/// \return status code that indicates the execution status of the function.
osStatus osMessagePut (osMessageQId queue_id, uint32_t info, uint32_t millisec);
/// Get a Message from a Queue or timeout if Queue is empty.
/// \param[in] queue_id message queue ID obtained with \ref osMessageCreate.
/// \param[in] millisec \ref CMSIS_RTOS_TimeOutValue or 0 in case of no time-out.
/// \return event information that includes status code.
osEvent osMessageGet (osMessageQId queue_id, uint32_t millisec);
#endif // Message Queue available
// ==== Mail Queue Management Functions ====
#if (defined(osFeature_MailQ) && (osFeature_MailQ != 0)) // Mail Queue available
/// \brief Create a Mail Queue Definition.
/// \param name name of the queue.
/// \param queue_sz maximum number of mails in the queue.
/// \param type data type of a single mail element.
/// \note CAN BE CHANGED: The parameter to \b osMailQDef shall be consistent but the
/// macro body is implementation specific in every CMSIS-RTOS.
#if defined (osObjectsExternal) // object is external
#define osMailQDef(name, queue_sz, type) \
extern const osMailQDef_t os_mailQ_def_##name
#else // define the object
#if (osCMSIS < 0x20000U)
#define osMailQDef(name, queue_sz, type) \
const osMailQDef_t os_mailQ_def_##name = \
{ (queue_sz), sizeof(type), NULL }
#else
#define osMailQDef(name, queue_sz, type) \
static void *os_mail_p_##name[2]; \
const osMailQDef_t os_mailQ_def_##name = \
{ (queue_sz), sizeof(type), (&os_mail_p_##name), \
{ NULL, 0U, NULL, 0U, NULL, 0U }, \
{ NULL, 0U, NULL, 0U, NULL, 0U } }
#endif
#endif
/// \brief Access a Mail Queue Definition.
/// \param name name of the queue
/// \note CAN BE CHANGED: The parameter to \b osMailQ shall be consistent but the
/// macro body is implementation specific in every CMSIS-RTOS.
#define osMailQ(name) \
&os_mailQ_def_##name
/// Create and Initialize a Mail Queue object.
/// \param[in] queue_def mail queue definition referenced with \ref osMailQ.
/// \param[in] thread_id thread ID (obtained by \ref osThreadCreate or \ref osThreadGetId) or NULL.
/// \return mail queue ID for reference by other functions or NULL in case of error.
osMailQId osMailCreate (const osMailQDef_t *queue_def, osThreadId thread_id);
/// Allocate a memory block for mail from a mail memory pool.
/// \param[in] queue_id mail queue ID obtained with \ref osMailCreate.
/// \param[in] millisec \ref CMSIS_RTOS_TimeOutValue or 0 in case of no time-out
/// \return pointer to memory block that can be filled with mail or NULL in case of error.
void *osMailAlloc (osMailQId queue_id, uint32_t millisec);
/// Allocate a memory block for mail from a mail memory pool and set memory block to zero.
/// \param[in] queue_id mail queue ID obtained with \ref osMailCreate.
/// \param[in] millisec \ref CMSIS_RTOS_TimeOutValue or 0 in case of no time-out
/// \return pointer to memory block that can be filled with mail or NULL in case of error.
void *osMailCAlloc (osMailQId queue_id, uint32_t millisec);
/// Put a Mail into a Queue.
/// \param[in] queue_id mail queue ID obtained with \ref osMailCreate.
/// \param[in] mail pointer to memory with mail to put into a queue.
/// \return status code that indicates the execution status of the function.
osStatus osMailPut (osMailQId queue_id, const void *mail);
/// Get a Mail from a Queue or timeout if Queue is empty.
/// \param[in] queue_id mail queue ID obtained with \ref osMailCreate.
/// \param[in] millisec \ref CMSIS_RTOS_TimeOutValue or 0 in case of no time-out.
/// \return event information that includes status code.
osEvent osMailGet (osMailQId queue_id, uint32_t millisec);
/// Free a memory block by returning it to a mail memory pool.
/// \param[in] queue_id mail queue ID obtained with \ref osMailCreate.
/// \param[in] mail pointer to memory block that was obtained with \ref osMailGet.
/// \return status code that indicates the execution status of the function.
osStatus osMailFree (osMailQId queue_id, void *mail);
#endif // Mail Queue available
#ifdef __cplusplus
}
#endif
#endif // CMSIS_OS_H_

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@ -1,361 +0,0 @@
/*
* Copyright (c) 2013-2017 ARM Limited. All rights reserved.
*
* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the License); you may
* not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an AS IS BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* ----------------------------------------------------------------------
*
* $Date: 10. January 2017
* $Revision: V1.2
*
* Project: CMSIS-RTOS API V1
* Title: cmsis_os_v1.c V1 module file
*---------------------------------------------------------------------------*/
#include <string.h>
#include "cmsis_os.h"
#if (osCMSIS >= 0x20000U)
// Thread
osThreadId osThreadCreate (const osThreadDef_t *thread_def, void *argument) {
if (thread_def == NULL) {
return (osThreadId)NULL;
}
return osThreadNew((osThreadFunc_t)thread_def->pthread, argument, &thread_def->attr);
}
// Signals
#define SignalMask ((1U<<osFeature_Signals)-1U)
int32_t osSignalSet (osThreadId thread_id, int32_t signals) {
uint32_t flags;
flags = osThreadFlagsSet(thread_id, (uint32_t)signals);
if ((flags & 0x80000000U) != 0U) {
return ((int32_t)0x80000000U);
}
return ((int32_t)(flags & ~((uint32_t)signals)));
}
int32_t osSignalClear (osThreadId thread_id, int32_t signals) {
uint32_t flags;
if (thread_id != osThreadGetId()) {
return ((int32_t)0x80000000U);
}
flags = osThreadFlagsClear((uint32_t)signals);
if ((flags & 0x80000000U) != 0U) {
return ((int32_t)0x80000000U);
}
return ((int32_t)flags);
}
osEvent osSignalWait (int32_t signals, uint32_t millisec) {
osEvent event;
uint32_t flags;
if (signals != 0) {
flags = osThreadFlagsWait((uint32_t)signals, osFlagsWaitAll, millisec);
} else {
flags = osThreadFlagsWait(SignalMask, osFlagsWaitAny, millisec);
}
if ((flags > 0U) && (flags < 0x80000000U)) {
event.status = osEventSignal;
event.value.signals = (int32_t)flags;
} else {
switch ((int32_t)flags) {
case osErrorResource:
event.status = osOK;
break;
case osErrorTimeout:
event.status = osEventTimeout;
break;
case osErrorParameter:
event.status = osErrorValue;
break;
default:
event.status = (osStatus)flags;
break;
}
}
return event;
}
// Timer
osTimerId osTimerCreate (const osTimerDef_t *timer_def, os_timer_type type, void *argument) {
if (timer_def == NULL) {
return (osTimerId)NULL;
}
return osTimerNew((osTimerFunc_t)timer_def->ptimer, type, argument, &timer_def->attr);
}
// Mutex
osMutexId osMutexCreate (const osMutexDef_t *mutex_def) {
if (mutex_def == NULL) {
return (osMutexId)NULL;
}
return osMutexNew(mutex_def);
}
// Semaphore
#if (defined (osFeature_Semaphore) && (osFeature_Semaphore != 0U))
osSemaphoreId osSemaphoreCreate (const osSemaphoreDef_t *semaphore_def, int32_t count) {
if (semaphore_def == NULL) {
return (osSemaphoreId)NULL;
}
return osSemaphoreNew((uint32_t)count, (uint32_t)count, semaphore_def);
}
int32_t osSemaphoreWait (osSemaphoreId semaphore_id, uint32_t millisec) {
osStatus_t status;
uint32_t count;
status = osSemaphoreAcquire(semaphore_id, millisec);
switch (status) {
case osOK:
count = osSemaphoreGetCount(semaphore_id);
return ((int32_t)count + 1);
case osErrorResource:
case osErrorTimeout:
return 0;
default:
break;
}
return -1;
}
#endif // Semaphore
// Memory Pool
#if (defined(osFeature_Pool) && (osFeature_Pool != 0))
osPoolId osPoolCreate (const osPoolDef_t *pool_def) {
if (pool_def == NULL) {
return (osPoolId)NULL;
}
return ((osPoolId)(osMemoryPoolNew(pool_def->pool_sz, pool_def->item_sz, &pool_def->attr)));
}
void *osPoolAlloc (osPoolId pool_id) {
return osMemoryPoolAlloc((osMemoryPoolId_t)pool_id, 0U);
}
void *osPoolCAlloc (osPoolId pool_id) {
void *block;
uint32_t block_size;
block_size = osMemoryPoolGetBlockSize((osMemoryPoolId_t)pool_id);
if (block_size == 0U) {
return NULL;
}
block = osMemoryPoolAlloc((osMemoryPoolId_t)pool_id, 0U);
if (block != NULL) {
memset(block, 0, block_size);
}
return block;
}
osStatus osPoolFree (osPoolId pool_id, void *block) {
return osMemoryPoolFree((osMemoryPoolId_t)pool_id, block);
}
#endif // Memory Pool
// Message Queue
#if (defined(osFeature_MessageQ) && (osFeature_MessageQ != 0))
osMessageQId osMessageCreate (const osMessageQDef_t *queue_def, osThreadId thread_id) {
(void)thread_id;
if (queue_def == NULL) {
return (osMessageQId)NULL;
}
return ((osMessageQId)(osMessageQueueNew(queue_def->queue_sz, sizeof(uint32_t), &queue_def->attr)));
}
osStatus osMessagePut (osMessageQId queue_id, uint32_t info, uint32_t millisec) {
return osMessageQueuePut((osMessageQueueId_t)queue_id, &info, 0U, millisec);
}
osEvent osMessageGet (osMessageQId queue_id, uint32_t millisec) {
osStatus_t status;
osEvent event;
uint32_t message;
status = osMessageQueueGet((osMessageQueueId_t)queue_id, &message, NULL, millisec);
switch (status) {
case osOK:
event.status = osEventMessage;
event.value.v = message;
break;
case osErrorResource:
event.status = osOK;
break;
case osErrorTimeout:
event.status = osEventTimeout;
break;
default:
event.status = status;
break;
}
return event;
}
#endif // Message Queue
// Mail Queue
#if (defined(osFeature_MailQ) && (osFeature_MailQ != 0))
typedef struct os_mail_queue_s {
osMemoryPoolId_t mp_id;
osMessageQueueId_t mq_id;
} os_mail_queue_t;
osMailQId osMailCreate (const osMailQDef_t *queue_def, osThreadId thread_id) {
os_mail_queue_t *ptr;
(void)thread_id;
if (queue_def == NULL) {
return (osMailQId)NULL;
}
ptr = queue_def->mail;
if (ptr == NULL) {
return (osMailQId)NULL;
}
ptr->mp_id = osMemoryPoolNew (queue_def->queue_sz, queue_def->item_sz, &queue_def->mp_attr);
ptr->mq_id = osMessageQueueNew(queue_def->queue_sz, sizeof(void *), &queue_def->mq_attr);
if ((ptr->mp_id == (osMemoryPoolId_t)NULL) || (ptr->mq_id == (osMessageQueueId_t)NULL)) {
if (ptr->mp_id != (osMemoryPoolId_t)NULL) {
osMemoryPoolDelete(ptr->mp_id);
}
if (ptr->mq_id != (osMessageQueueId_t)NULL) {
osMessageQueueDelete(ptr->mq_id);
}
return (osMailQId)NULL;
}
return (osMailQId)ptr;
}
void *osMailAlloc (osMailQId queue_id, uint32_t millisec) {
os_mail_queue_t *ptr = (os_mail_queue_t *)queue_id;
if (ptr == NULL) {
return NULL;
}
return osMemoryPoolAlloc(ptr->mp_id, millisec);
}
void *osMailCAlloc (osMailQId queue_id, uint32_t millisec) {
os_mail_queue_t *ptr = (os_mail_queue_t *)queue_id;
void *block;
uint32_t block_size;
if (ptr == NULL) {
return NULL;
}
block_size = osMemoryPoolGetBlockSize(ptr->mp_id);
if (block_size == 0U) {
return NULL;
}
block = osMemoryPoolAlloc(ptr->mp_id, millisec);
if (block != NULL) {
memset(block, 0, block_size);
}
return block;
}
osStatus osMailPut (osMailQId queue_id, const void *mail) {
os_mail_queue_t *ptr = (os_mail_queue_t *)queue_id;
if (ptr == NULL) {
return osErrorParameter;
}
if (mail == NULL) {
return osErrorValue;
}
return osMessageQueuePut(ptr->mq_id, &mail, 0U, 0U);
}
osEvent osMailGet (osMailQId queue_id, uint32_t millisec) {
os_mail_queue_t *ptr = (os_mail_queue_t *)queue_id;
osStatus_t status;
osEvent event;
void *mail;
if (ptr == NULL) {
event.status = osErrorParameter;
return event;
}
status = osMessageQueueGet(ptr->mq_id, &mail, NULL, millisec);
switch (status) {
case osOK:
event.status = osEventMail;
event.value.p = mail;
break;
case osErrorResource:
event.status = osOK;
break;
case osErrorTimeout:
event.status = osEventTimeout;
break;
default:
event.status = status;
break;
}
return event;
}
osStatus osMailFree (osMailQId queue_id, void *mail) {
os_mail_queue_t *ptr = (os_mail_queue_t *)queue_id;
if (ptr == NULL) {
return osErrorParameter;
}
if (mail == NULL) {
return osErrorValue;
}
return osMemoryPoolFree(ptr->mp_id, mail);
}
#endif // Mail Queue
#endif // osCMSIS