Define, create, and control thread functions. More...

Data Structures
struct	osThreadAttr_t
	Attributes structure for thread. More...

Macros
#define	osThreadJoinable 0x00000001U
	Thread created in joinable state. More...

#define	osThreadDetached 0x00000000U
	Thread attributes (attr_bits in osThreadAttr_t). More...

Typedefs
typedef void(*	osThreadFunc_t )(void *argument)
	Entry point of a thread. More...

typedef void *	osThreadId_t

Enumerations
enum	osThreadState_t { osThreadInactive = 0, osThreadReady = 1, osThreadRunning = 2, osThreadBlocked = 3, osThreadTerminated = 4, osThreadError = -1, osThreadReserved = 0x7FFFFFFF }
	Thread state. More...

enum	osPriority_t { osPriorityNone = 0, osPriorityIdle = 1, osPriorityLow = 8, osPriorityLow1 = 8+1, osPriorityLow2 = 8+2, osPriorityLow3 = 8+3, osPriorityLow4 = 8+4, osPriorityLow5 = 8+5, osPriorityLow6 = 8+6, osPriorityLow7 = 8+7, osPriorityBelowNormal = 16, osPriorityBelowNormal1 = 16+1, osPriorityBelowNormal2 = 16+2, osPriorityBelowNormal3 = 16+3, osPriorityBelowNormal4 = 16+4, osPriorityBelowNormal5 = 16+5, osPriorityBelowNormal6 = 16+6, osPriorityBelowNormal7 = 16+7, osPriorityNormal = 24, osPriorityNormal1 = 24+1, osPriorityNormal2 = 24+2, osPriorityNormal3 = 24+3, osPriorityNormal4 = 24+4, osPriorityNormal5 = 24+5, osPriorityNormal6 = 24+6, osPriorityNormal7 = 24+7, osPriorityAboveNormal = 32, osPriorityAboveNormal1 = 32+1, osPriorityAboveNormal2 = 32+2, osPriorityAboveNormal3 = 32+3, osPriorityAboveNormal4 = 32+4, osPriorityAboveNormal5 = 32+5, osPriorityAboveNormal6 = 32+6, osPriorityAboveNormal7 = 32+7, osPriorityHigh = 40, osPriorityHigh1 = 40+1, osPriorityHigh2 = 40+2, osPriorityHigh3 = 40+3, osPriorityHigh4 = 40+4, osPriorityHigh5 = 40+5, osPriorityHigh6 = 40+6, osPriorityHigh7 = 40+7, osPriorityRealtime = 48, osPriorityRealtime1 = 48+1, osPriorityRealtime2 = 48+2, osPriorityRealtime3 = 48+3, osPriorityRealtime4 = 48+4, osPriorityRealtime5 = 48+5, osPriorityRealtime6 = 48+6, osPriorityRealtime7 = 48+7, osPriorityISR = 56, osPriorityError = -1, osPriorityReserved = 0x7FFFFFFF }
	Priority values. More...

Functions
osThreadId_t	osThreadNew (osThreadFunc_t func, void argument, const osThreadAttr_t attr)
	Create a thread and add it to Active Threads. More...

const char *	osThreadGetName (osThreadId_t thread_id)
	Get name of a thread. More...

osThreadId_t	osThreadGetId (void)
	Return the thread ID of the current running thread. More...

osThreadState_t	osThreadGetState (osThreadId_t thread_id)
	Get current thread state of a thread. More...

osStatus_t	osThreadSetPriority (osThreadId_t thread_id, osPriority_t priority)
	Change priority of a thread. More...

osPriority_t	osThreadGetPriority (osThreadId_t thread_id)
	Get current priority of a thread. More...

osStatus_t	osThreadYield (void)
	Pass control to next thread that is in state READY. More...

osStatus_t	osThreadSuspend (osThreadId_t thread_id)
	Suspend execution of a thread. More...

osStatus_t	osThreadResume (osThreadId_t thread_id)
	Resume execution of a thread. More...

osStatus_t	osThreadDetach (osThreadId_t thread_id)
	Detach a thread (thread storage can be reclaimed when thread terminates). More...

osStatus_t	osThreadJoin (osThreadId_t thread_id)
	Wait for specified thread to terminate. More...

__NO_RETURN void	osThreadExit (void)
	Terminate execution of current running thread. More...

osStatus_t	osThreadTerminate (osThreadId_t thread_id)
	Terminate execution of a thread. More...

uint32_t	osThreadGetStackSize (osThreadId_t thread_id)
	Get stack size of a thread. More...

uint32_t	osThreadGetStackSpace (osThreadId_t thread_id)
	Get available stack space of a thread based on stack watermark recording during execution. More...

uint32_t	osThreadGetCount (void)
	Get number of active threads. More...

uint32_t	osThreadEnumerate (osThreadId_t *thread_array, uint32_t array_items)
	Enumerate active threads. More...

Description

The Thread Management function group allows defining, creating, and controlling thread functions in the system.

Note: Thread management functions cannot be called from Interrupt Service Routines.

Thread states

Threads can be in the following states:

RUNNING: The thread that is currently running is in the RUNNING state. Only one thread at a time can be in this state.
READY: Threads which are ready to run are in the READY state. Once the RUNNING thread has terminated, or is BLOCKED, the next READY thread with the highest priority becomes the RUNNING thread.
BLOCKED: Threads that are blocked either delayed, waiting for an event to occur or suspended are in the BLOCKED state.
TERMINATED: When osThreadTerminate is called, threads are TERMINATED with resources not yet released.
INACTIVE: Threads that are not created or have been terminated with all resources released are in the INACTIVE state.

Thread State and State Transitions

A CMSIS-RTOS assumes that threads are scheduled as shown in the figure Thread State and State Transitions. The thread states change as follows:

A thread is created using the function osThreadNew. This puts the thread into the READY or RUNNING state (depending on the thread priority).
CMSIS-RTOS is pre-emptive. The active thread with the highest priority becomes the RUNNING thread provided it does not wait for any event. The initial priority of a thread is defined with the osThreadAttr_t but may be changed during execution using the function osThreadSetPriority.
The RUNNING thread transfers into the BLOCKED state when it is delayed, waiting for an event or suspended.
Active threads can be terminated any time using the function osThreadTerminate. Threads can terminate also by just returning from the thread function. Threads that are terminated are in the INACTIVE state and typically do not consume any dynamic memory resources.

Note: Refer to Thread Configuration for RTX5 configuration options.

Thread Examples

The following examples show various scenarios to create threads:

Example 1 - Create a simple thread

Create a thread out of the function thread1 using all default values for thread attributes and memory from the Global Memory Pool.

__NO_RETURN void thread1 (void *argument) {
  // ...
  for (;;) {}
}
 
int main (void) {
  osKernelInitialize();
  ;
  osThreadNew(thread1, NULL, NULL);    // Create thread with default settings
  ;
  osKernelStart(); 
}

Example 2 - Create thread with stack non-default stack size

Similar to the simple thread all attributes are default. The stack is dynamically allocated from the Global Memory Pool

osThreadAttr_t::stack_size is used to pass the stack size in Bytes to osThreadNew.

__NO_RETURN void thread1 (void *argument) {
  // ...
  for (;;) {}
}
 
const osThreadAttr_t thread1_attr = {
  .stack_size = 1024                             // Create the thread stack with a size of 1024 bytes
};
 
int main (void) {
  ;  
  osThreadNew(thread1, NULL, &thread1_attr);     // Create thread with custom sized stack memory
  ;
}

Example 3 - Create thread with statically allocated stack

Similar to the simple thread all attributes are default. The stack is statically allocated using the uint64_t array thread1_stk_1. This allocates 64*8 Bytes (=512 Bytes) with an alignment of 8 Bytes (mandatory for Cortex-M stack memory).

osThreadAttr_t::stack_mem holds a pointer to the stacks lowest address.

osThreadAttr_t::stack_size is used to pass the stack size in Bytes to osThreadNew.

__NO_RETURN void thread1 (void *argument) {
  // ...
  for (;;) {}
}
 
static uint64_t thread1_stk_1[64];
 
const osThreadAttr_t thread1_attr = {
  .stack_mem  = &thread1_stk_1[0],
  .stack_size = sizeof(thread1_stk_1)
};
 
int main (void) {
  ;  
  osThreadNew(thread1, NULL, &thread1_attr);    // Create thread with statically allocated stack memory
  ;
}

Example 4 - Thread with statically allocated task control block

Typically this method is chosen together with a statically allocated stack as shown in Example 2.

#include "cmsis_os2.h"
 
//include rtx_os.h for types of RTX objects
#include "rtx_os.h"
__NO_RETURN void thread1 (void *argument) {
  // ...
  for (;;) {}
}
 
static osRtxThread_t thread1_tcb;
 
const osThreadAttr_t thread1_attr = {
  .cb_mem  = &thread1_tcb,
  .cb_size = sizeof(thread1_tcb),
};
 
int main (void) {
  ;
  osThreadNew(thread1, NULL, &thread1_attr);    // Create thread with custom tcb memory
  ;
}

Example 5 - Create thread with a different priority

The default priority of RTX is osPriorityNormal. Often you want to run a task with a higher or lower priority. Using the osThreadAttr_t control structure you can set any initial priority required.

__NO_RETURN void thread1 (void *argument) {
  // ...
  for (;;) {}
}
 
const osThreadAttr_t thread1_attr = {
  .priority = osPriorityHigh            //Set initial thread priority to high   
};
 
int main (void) {
  ;
  osThreadNew(thread1, NULL, &thread1_attr);   
  ;
}

Example 6 - Joinable threads

In this example a master thread creates four threads with the osThreadJoinable attribute. These will do some work and return using the osThreadExit call after finished. osThreadJoin is used to synchronize the thread termination.

__NO_RETURN void worker (void *argument) {     
    ; // work a lot on data[] 
    osDelay(1000);       
    osThreadExit();
}
 
__NO_RETURN void thread1 (void *argument) {
  osThreadAttr_t worker_attr;
  osThreadId_t worker_ids[4];
  uint8_t data[4][10];
  memset(&worker_attr, 0, sizeof(worker_attr));
  worker_attr.attr_bits = osThreadJoinable;
  
  worker_ids[0] = osThreadNew(worker, &data[0][0], &worker_attr);    
  worker_ids[1] = osThreadNew(worker, &data[1][0], &worker_attr);    
  worker_ids[2] = osThreadNew(worker, &data[2][0], &worker_attr);    
  worker_ids[3] = osThreadNew(worker, &data[3][0], &worker_attr);    
 
  osThreadJoin(worker_ids[0]);
  osThreadJoin(worker_ids[1]);
  osThreadJoin(worker_ids[2]);
  osThreadJoin(worker_ids[3]);
 
  osThreadExit(); 
}

Data Structure Documentation

struct osThreadAttr_t

Data Fields

const char *

name

name of the thread

String with a human readable name of the thread object.

uint32_t

attr_bits

attribute bits

The following predefined bit masks can be assigned to set options for a thread object.

Bit Mask	Description
osThreadJoinable	Thread is created in a join-able state.
osThreadDetached	Thread is created in a detached state (default).

void *

cb_mem

memory for control block

Pointer to a memory location for the thread object. This can optionally be used for custom memory management systems. Specify NULL to use the kernel memory management.

uint32_t

cb_size

size of provided memory for control block

The size of the memory block passed with cb_mem. Must be the size of a thread control block object or larger.

void *

stack_mem

memory for stack

Pointer to a memory location for the thread stack. This can optionally be used for custom memory management systems. Specify NULL to use the kernel memory management.

uint32_t

stack_size

size of stack

The size of the stack in Bytes.

osPriority_t

priority

initial thread priority (default: osPriorityNormal)

Specifies the initial thread priority with a value from osPriority_t.

TZ_ModuleId_t

tz_module

TrustZone module identifier.

TrustZone Thread Context Management Identifier to allocate context memory for threads. The RTOS kernel that runs in non-secure state calls the interface functions defined by the header file TZ_context.h. See TrustZone RTOS Context Management.

uint32_t

reserved

reserved (must be 0)

Reserved for future use. Must be 0.

Macro Definition Documentation

#define osThreadJoinable 0x00000001U

See osThreadJoin.

#define osThreadDetached 0x00000000U

Thread created in detached state (default)

A thread in this state cannot be joined using osThreadJoin.

Typedef Documentation

void(* osThreadFunc_t)(void *argument)

osThreadId_t

Thread ID identifies the thread.

Enumeration Type Documentation

enum osThreadState_t

State of a thread as retrieved by osThreadGetState. In case osThreadGetState fails or if it is called from an ISR, it will return osThreadError, otherwise it returns the thread state.

Enumerator
osThreadInactive	Inactive.
osThreadReady	Ready.
osThreadRunning	Running.
osThreadBlocked	Blocked.
osThreadTerminated	Terminated.
osThreadError	Error.
osThreadReserved	Prevents enum down-size compiler optimization.

enum osPriority_t

The osPriority_t value specifies the priority for a thread. The default thread priority should be osPriorityNormal. If a Thread is active that has a higher priority than the currently executing thread, then a thread switch occurs immediately to execute the new task.

To prevent from a priority inversion, a CMSIS-RTOS compliant OS may optionally implement a priority inheritance method. A priority inversion occurs when a high priority thread is waiting for a resource or event that is controlled by a thread with a lower priority.

Note: Priority inheritance only applies to mutexes.

Enumerator
osPriorityNone	No priority (not initialized).
osPriorityIdle	Reserved for Idle thread.
osPriorityLow	Priority: low.
osPriorityLow1	Priority: low + 1.
osPriorityLow2	Priority: low + 2.
osPriorityLow3	Priority: low + 3.
osPriorityLow4	Priority: low + 4.
osPriorityLow5	Priority: low + 5.
osPriorityLow6	Priority: low + 6.
osPriorityLow7	Priority: low + 7.
osPriorityBelowNormal	Priority: below normal.
osPriorityBelowNormal1	Priority: below normal + 1.
osPriorityBelowNormal2	Priority: below normal + 2.
osPriorityBelowNormal3	Priority: below normal + 3.
osPriorityBelowNormal4	Priority: below normal + 4.
osPriorityBelowNormal5	Priority: below normal + 5.
osPriorityBelowNormal6	Priority: below normal + 6.
osPriorityBelowNormal7	Priority: below normal + 7.
osPriorityNormal	Priority: normal.
osPriorityNormal1	Priority: normal + 1.
osPriorityNormal2	Priority: normal + 2.
osPriorityNormal3	Priority: normal + 3.
osPriorityNormal4	Priority: normal + 4.
osPriorityNormal5	Priority: normal + 5.
osPriorityNormal6	Priority: normal + 6.
osPriorityNormal7	Priority: normal + 7.
osPriorityAboveNormal	Priority: above normal.
osPriorityAboveNormal1	Priority: above normal + 1.
osPriorityAboveNormal2	Priority: above normal + 2.
osPriorityAboveNormal3	Priority: above normal + 3.
osPriorityAboveNormal4	Priority: above normal + 4.
osPriorityAboveNormal5	Priority: above normal + 5.
osPriorityAboveNormal6	Priority: above normal + 6.
osPriorityAboveNormal7	Priority: above normal + 7.
osPriorityHigh	Priority: high.
osPriorityHigh1	Priority: high + 1.
osPriorityHigh2	Priority: high + 2.
osPriorityHigh3	Priority: high + 3.
osPriorityHigh4	Priority: high + 4.
osPriorityHigh5	Priority: high + 5.
osPriorityHigh6	Priority: high + 6.
osPriorityHigh7	Priority: high + 7.
osPriorityRealtime	Priority: realtime.
osPriorityRealtime1	Priority: realtime + 1.
osPriorityRealtime2	Priority: realtime + 2.
osPriorityRealtime3	Priority: realtime + 3.
osPriorityRealtime4	Priority: realtime + 4.
osPriorityRealtime5	Priority: realtime + 5.
osPriorityRealtime6	Priority: realtime + 6.
osPriorityRealtime7	Priority: realtime + 7.
osPriorityISR	Reserved for ISR deferred thread.
osPriorityError	System cannot determine priority or illegal priority.
osPriorityReserved	Prevents enum down-size compiler optimization.

Function Documentation

osThreadId_t osThreadNew	(	osThreadFunc_t	func,
		void *	argument,
		const osThreadAttr_t *	attr
	)

Parameters

[in]	func	thread function.
[in]	argument	pointer that is passed to the thread function as start argument.
[in]	attr	thread attributes; NULL: default values.

Returns: thread ID for reference by other functions or NULL in case of error.

The function osThreadNew starts a thread function by adding it to the list of active threads and sets it to state READY. Arguments for the thread function are passed using the parameter pointer *argument. When the priority of the created thread function is higher than the current RUNNING thread, the created thread function starts instantly and becomes the new RUNNING thread. Thread attributes are defined with the parameter pointer attr. Attributes include settings for thread priority, stack size, or memory allocation.

The function osThreadNew returns the pointer to the thread object identifier or NULL in case of an error.

Note: Cannot be called from Interrupt Service Routines.

const char * osThreadGetName ( osThreadId_t thread_id )

Parameters

[in] thread_id thread ID obtained by osThreadNew or osThreadGetId.

Returns: name as NULL terminated string.

The function osThreadGetName returns the pointer to the name string of the thread identified by parameter thread_id or NULL in case of an error.

Note: This function cannot be called from Interrupt Service Routines.

Code Example

void ThreadGetName_example (void)  {
  char id;                                           // id for the currently running thread
   
  id = osThreadGetName ();
  if (id == NULL) {
    // Failed to get the thread name; not in a thread
  }
}

osThreadId_t osThreadGetId ( void )

Returns: thread ID for reference by other functions or NULL in case of error.

The function osThreadGetId returns the thread object ID of the currently running thread or NULL in case of an error.

Note: This function cannot be called from Interrupt Service Routines.

Code Example

void ThreadGetId_example (void)  {
  osThreadId_t id;                                           // id for the currently running thread
   
  id = osThreadGetId ();
  if (id == NULL) {
    // Failed to get the id; not in a thread
  }
}

osThreadState_t osThreadGetState ( osThreadId_t thread_id )

Parameters

[in] thread_id thread ID obtained by osThreadNew or osThreadGetId.

Returns: current thread state of the specified thread.

The function osThreadGetState returns the state of the thread identified by parameter thread_id. In case it fails or if it is called from an ISR, it will return osThreadError, otherwise it returns the thread state (refer to osThreadState_t for the list of thread states).

Note: This function cannot be called from Interrupt Service Routines.

osStatus_t osThreadSetPriority	(	osThreadId_t	thread_id,
		osPriority_t	priority
	)

Parameters

[in]	thread_id	thread ID obtained by osThreadNew or osThreadGetId.
[in]	priority	new priority value for the thread function.

Returns: status code that indicates the execution status of the function.

The function osThreadSetPriority changes the priority of an active thread specified by the parameter thread_id to the priority specified by the parameter priority.

Possible osStatus_t return values:

osOK: the priority of the specified thread has been changed successfully.
osErrorParameter: thread_id is NULL or invalid or priority is incorrect.
osErrorResource: thread specified by parameter thread_id is in an invalid thread state.
osErrorISR: the function osThreadSetPriority cannot be called from interrupt service routines.

Note: This function cannot be called from Interrupt Service Routines.

Code Example

#include "cmsis_os2.h"
 
void Thread_1 (void const *arg)  {                          // Thread function
  osThreadId_t id;                                          // id for the currently running thread
  osStatus_t   status;                                      // status of the executed function
   
  :  
  id = osThreadGetId ();                                    // Obtain ID of current running thread
   
  status = osThreadSetPriority (id, osPriorityBelowNormal); // Set thread priority
  if (status == osOK)  {
    // Thread priority changed to BelowNormal
  }
  else {
    // Failed to set the priority
  }
  :  
}

osPriority_t osThreadGetPriority ( osThreadId_t thread_id )

Parameters

[in] thread_id thread ID obtained by osThreadNew or osThreadGetId.

Returns: current priority value of the specified thread.

The function osThreadGetPriority returns the priority of an active thread specified by the parameter thread_id.

Possible osPriority_t return values:

priority: the priority of the specified thread.
osPriorityError: priority cannot be determined or is illegal. It is also returned when the function is called from Interrupt Service Routines.

Note: This function cannot be called from Interrupt Service Routines.

Code Example

#include "cmsis_os2.h"
 
void Thread_1 (void const *arg)  {                         // Thread function
  osThreadId_t id;                                         // id for the currently running thread
  osPriority_t priority;                                   // thread priority
   
  id = osThreadGetId ();                                   // Obtain ID of current running thread
  priority = osThreadGetPriority (id);                     // Obtain the thread priority
}

osStatus_t osThreadYield ( void )

Returns: status code that indicates the execution status of the function.

The function osThreadYield passes control to the next thread that is in the READY state. If there is no other thread in state READY, then the current thread continues execution and no thread switching occurs.

Possible osStatus_t return values:

osOK: control has been passed to the next thread successfully.
osError: an unspecified error has occurred.
osErrorISR: the function osThreadYield cannot be called from interrupt service routines.

Note: This function cannot be called from Interrupt Service Routines.

Code Example

#include "cmsis_os2.h"
 
void Thread_1 (void const *arg)  {                         // Thread function
  osStatus_t   status;                                     // status of the executed function
  :
  while (1)  {
    status = osThreadYield();                              // 
    if (status != osOK)  {
      // an error occurred
    }
  }
}

osStatus_t osThreadSuspend ( osThreadId_t thread_id )

Parameters

[in] thread_id thread ID obtained by osThreadNew or osThreadGetId.

Returns: status code that indicates the execution status of the function.

The function osThreadSuspend suspends the execution of the thread identified by parameter thread_id. The thread is put into the BLOCKED state (osThreadBlocked). The thread is not executed until restarted with the function osThreadResume. Threads that are already BLOCKED are suspended and become ready after they are resumed.

Possible osStatus_t return values:

osOK: the thread has been suspended successfully.
osErrorParameter: thread_id is NULL or invalid.
osErrorResource: thread specified by parameter thread_id is in an invalid thread state.
osErrorISR: the function osThreadSuspend cannot be called from interrupt service routines.

Note: This function cannot be called from Interrupt Service Routines.

osStatus_t osThreadResume ( osThreadId_t thread_id )

Parameters

[in] thread_id thread ID obtained by osThreadNew or osThreadGetId.

Returns: status code that indicates the execution status of the function.

The function osThreadResume forces a thread (specified with thread_id) in BLOCKED state to resume operation.

Functions that will put a thread into BLOCKED state are: osEventFlagsWait and osThreadFlagsWait, osDelay and osDelayUntil, osMutexAcquire and osSemaphoreAcquire, osMessageQueueGet, osMemoryPoolAlloc, osThreadJoin, osThreadSuspend.

Possible osStatus_t return values:

osOK: the thread has been resumed successfully.
osErrorParameter: thread_id is NULL or invalid.
osErrorResource: thread specified by parameter thread_id is in an invalid thread state.
osErrorISR: the function osThreadResume cannot be called from interrupt service routines.

Note: This function cannot be called from Interrupt Service Routines.

osStatus_t osThreadDetach ( osThreadId_t thread_id )

Parameters

[in] thread_id thread ID obtained by osThreadNew or osThreadGetId.

Returns: status code that indicates the execution status of the function.

The function osThreadDetach changes the attribute of a thread (specified by thread_id) to osThreadDetached. Detached threads are not joinable with osThreadJoin. When a detached thread is terminated, all resources are returned to the system. The behavior of osThreadDetach on an already detached thread is undefined.

Possible osStatus_t return values:

osOK: the attribute of the specified thread has been changed to detached successfully.
osErrorParameter: thread_id is NULL or invalid.
osErrorResource: thread specified by parameter thread_id is in an invalid thread state.
osErrorISR: the function osThreadDetach cannot be called from interrupt service routines.

Note: This function cannot be called from Interrupt Service Routines.

osStatus_t osThreadJoin ( osThreadId_t thread_id )

Parameters

[in] thread_id thread ID obtained by osThreadNew or osThreadGetId.

Returns: status code that indicates the execution status of the function.

The function osThreadJoin waits for the thread specified by thread_id to terminate. If that thread has already terminated, then osThreadJoin returns immediately. The thread must be joinable. By default threads are created with the attribute osThreadJoinable.

Possible osStatus_t return values:

osOK: if the thread has already been terminated and joined or once the thread has been terminated and the join operations succeeds.
osErrorParameter: thread_id is NULL or invalid.
osErrorResource: parameter thread_id is NULL or refers to a thread that is not an active thread or the thread is not joinable.
osErrorISR: the function osThreadJoin cannot be called from interrupt service routines.

Note: This function cannot be called from Interrupt Service Routines.

__NO_RETURN void osThreadExit ( void )

The function osThreadExit terminates the calling thread. This allows the thread to be synchronized with osThreadJoin.

Note: This function cannot be called from Interrupt Service Routines.

Code Example

__NO_RETURN void worker (void *argument) {
  // do something
  osDelay(1000);
  osThreadExit();
}

osStatus_t osThreadTerminate ( osThreadId_t thread_id )

Parameters

[in] thread_id thread ID obtained by osThreadNew or osThreadGetId.

Returns: status code that indicates the execution status of the function.

The function osThreadTerminate removes the thread specified by parameter thread_id from the list of active threads. If the thread is currently RUNNING, the thread terminates and the execution continues with the next READY thread. If no such thread exists, the function will not terminate the running thread, but return osErrorResource.

Possible osStatus_t return values:

osOK: the specified thread has been removed from the active thread list successfully.
osErrorParameter: thread_id is NULL or invalid.
osErrorResource: thread specified by parameter thread_id is in an invalid thread state or no other READY thread exists.
osErrorISR: the function osThreadTerminate cannot be called from interrupt service routines.

Note: This function cannot be called from Interrupt Service Routines.

Code Example

#include "cmsis_os2.h"
 
void Thread_1 (void *arg);                             // function prototype for Thread_1
 
void ThreadTerminate_example (void) {
  osStatus_t status;
  osThreadId_t id;
 
  id = osThreadNew (Thread_1, NULL, NULL);             // create the thread
                                                       // do something
  status = osThreadTerminate (id);                     // stop the thread
  if (status == osOK) {
                                                       // Thread was terminated successfully
    }
  else {
                                                       // Failed to terminate a thread
    }
}

uint32_t osThreadGetStackSize ( osThreadId_t thread_id )

Parameters

[in] thread_id thread ID obtained by osThreadNew or osThreadGetId.

Returns: stack size in bytes.

The function osThreadGetStackSize returns the stack size of the thread specified by parameter thread_id. In case of an error, it returns 0.

Note: This function cannot be called from Interrupt Service Routines.

uint32_t osThreadGetStackSpace ( osThreadId_t thread_id )

Parameters

[in] thread_id thread ID obtained by osThreadNew or osThreadGetId.

Returns: remaining stack space in bytes.

The function osThreadGetStackSpace returns the size of unused stack space for the thread specified by parameter thread_id. Stack watermark recording during execution needs to be enabled (refer to Thread Configuration). In case of an error, it returns 0.

Note: This function cannot be called from Interrupt Service Routines.

uint32_t osThreadGetCount ( void )

Returns: number of active threads.

The function osThreadGetCount returns the number of active threads or 0 in case of an error.

Note: This function cannot be called from Interrupt Service Routines.

uint32_t osThreadEnumerate	(	osThreadId_t *	thread_array,
		uint32_t	array_items
	)

Parameters

[out]	thread_array	pointer to array for retrieving thread IDs.
[in]	array_items	maximum number of items in array for retrieving thread IDs.

Returns: number of enumerated threads.

The function osThreadEnumerate returns the number of enumerated threads or 0 in case of an error.

Note: This function cannot be called from Interrupt Service Routines.

Data Structures

Macros

Typedefs

Enumerations

Functions

Description

Thread states

Thread Examples

Data Structure Documentation

Macro Definition Documentation

Typedef Documentation

Enumeration Type Documentation

Function Documentation