CMSIS-RTOS2  
Real-Time Operating System API
 
Loading...
Searching...
No Matches
Kernel Information and Control

Provides version/system information and starts/controls the RTOS Kernel. More...

Data Structures

struct  osVersion_t
 Version information. More...
 

Enumerations

enum  osKernelState_t {
  osKernelInactive = 0 ,
  osKernelReady = 1 ,
  osKernelRunning = 2 ,
  osKernelLocked = 3 ,
  osKernelSuspended = 4 ,
  osKernelError = -1 ,
  osKernelReserved = 0x7FFFFFFF
}
 Kernel state. More...
 

Functions

osStatus_t osKernelInitialize (void)
 Initialize the RTOS Kernel.
 
osStatus_t osKernelGetInfo (osVersion_t *version, char *id_buf, uint32_t id_size)
 Get RTOS Kernel Information.
 
osKernelState_t osKernelGetState (void)
 Get the current RTOS Kernel state.
 
osStatus_t osKernelStart (void)
 Start the RTOS Kernel scheduler.
 
int32_t osKernelLock (void)
 Lock the RTOS Kernel scheduler.
 
int32_t osKernelUnlock (void)
 Unlock the RTOS Kernel scheduler.
 
int32_t osKernelRestoreLock (int32_t lock)
 Restore the RTOS Kernel scheduler lock state.
 
uint32_t osKernelSuspend (void)
 Suspend the RTOS Kernel scheduler.
 
void osKernelResume (uint32_t sleep_ticks)
 Resume the RTOS Kernel scheduler.
 
uint32_t osKernelGetTickCount (void)
 Get the RTOS kernel tick count.
 
uint32_t osKernelGetTickFreq (void)
 Get the RTOS kernel tick frequency.
 
uint32_t osKernelGetSysTimerCount (void)
 Get the RTOS kernel system timer count.
 
uint32_t osKernelGetSysTimerFreq (void)
 Get the RTOS kernel system timer frequency.
 
osStatus_t osKernelProtect (uint32_t safety_class)
 Protect the RTOS Kernel scheduler access.
 
osStatus_t osKernelDestroyClass (uint32_t safety_class, uint32_t mode)
 Destroy objects for specified safety classes.
 
void osFaultResume (void)
 Resume normal operation when exiting exception faults.
 

Description

Provides version/system information and starts/controls the RTOS Kernel.

The kernel Information and Control function group allows to:

Note
The kernel information and control functions cannot be called from Interrupt Service Routines.
The kernel initialization is documented in System Startup.

Code Example

/*----------------------------------------------------------------------------
* Application main thread
*---------------------------------------------------------------------------*/
void app_main (void *argument) {
// ...
for (;;) {}
}
int main (void) {
// System Initialization
SystemCoreClockUpdate();
// ...
osKernelInitialize(); // Initialize CMSIS-RTOS
osThreadNew(app_main, NULL, NULL); // Create application main thread
osKernelStart(); // Start thread execution
for (;;) {}
}

Data Structure Documentation

◆ osVersion_t

struct osVersion_t

Version information.

Identifies the underlying RTOS kernel and API version number. The version is represented in a combined decimal number in the format: major.minor.rev: mmnnnrrrr

Use osKernelGetInfo to retrieve the version numbers.

Data Fields
uint32_t api API version (major.minor.rev: mmnnnrrrr dec).
uint32_t kernel Kernel version (major.minor.rev: mmnnnrrrr dec).

Enumeration Type Documentation

◆ osKernelState_t

Kernel state.

State of the kernel as retrieved by osKernelGetState. In case osKernelGetState fails or if it is called from an ISR, it will return osKernelError, otherwise it returns the kernel state.

Enumerator
osKernelInactive 

Inactive.

The kernel is not ready yet. osKernelInitialize needs to be executed successfully.

osKernelReady 

Ready.

The kernel is not yet running. osKernelStart transfers the kernel to the running state.

osKernelRunning 

Running.

The kernel is initialized and running.

osKernelLocked 

Locked.

The kernel was locked with osKernelLock. The functions osKernelUnlock or osKernelRestoreLock unlocks it.

osKernelSuspended 

Suspended.

The kernel was suspended using osKernelSuspend. The function osKernelResume returns to normal operation.

osKernelError 

Error.

An error occurred.

osKernelReserved 

Prevents enum down-size compiler optimization.

Reserved.

Function Documentation

◆ osKernelInitialize()

osStatus_t osKernelInitialize ( void  )

Initialize the RTOS Kernel.

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

The function osKernelInitialize initializes the RTOS Kernel. Before it is successfully executed, only the functions osKernelGetInfo and osKernelGetState may be called.

Possible osStatus_t return values:

  • osOK in case of success.
  • osError if an unspecific error occurred.
  • osErrorISR if called from an Interrupt Service Routine.
  • osErrorNoMemory if no memory could be reserved for the operation.
Note
This function cannot be called from Interrupt Service Routines.

Code Example

#include "RTE_Components.h"
#include CMSIS_device_header
#include "cmsis_os2.h"
/*----------------------------------------------------------------------------
* Application main thread
*---------------------------------------------------------------------------*/
void app_main (void *argument) {
// ...
for (;;) {}
}
int main (void) {
// System Initialization
SystemCoreClockUpdate();
// ...
osKernelInitialize(); // Initialize CMSIS-RTOS
osThreadNew(app_main, NULL, NULL); // Create application main thread
osKernelStart(); // Start thread execution
for (;;) {}
}

◆ osKernelGetInfo()

osStatus_t osKernelGetInfo ( osVersion_t version,
char *  id_buf,
uint32_t  id_size 
)

Get RTOS Kernel Information.

Parameters
[out]versionpointer to buffer for retrieving version information.
[out]id_bufpointer to buffer for retrieving kernel identification string.
[in]id_sizesize of buffer for kernel identification string.
Returns
status code that indicates the execution status of the function.

The function osKernelGetInfo retrieves the API and kernel version of the underlying RTOS kernel and a human readable identifier string for the kernel. It can be safely called before the RTOS is initialized or started (call to osKernelInitialize or osKernelStart).

Possible osStatus_t return values:

  • osOK in case of success.
  • osError if an unspecific error occurred.
Note
This function may be called from Interrupt Service Routines.

Code Example

void info (void) {
char infobuf[100];
osStatus_t status;
status = osKernelGetInfo(&osv, infobuf, sizeof(infobuf));
if(status == osOK) {
printf("Kernel Information: %s\r\n", infobuf);
printf("Kernel Version : %d\r\n", osv.kernel);
printf("Kernel API Version: %d\r\n", osv.api);
}
}

◆ osKernelGetState()

osKernelState_t osKernelGetState ( void  )

Get the current RTOS Kernel state.

Returns
current RTOS Kernel state.

The function osKernelGetState returns the current state of the kernel and can be safely called before the RTOS is initialized or started (call to osKernelInitialize or osKernelStart). In case it fails it will return osKernelError, otherwise it returns the kernel state (refer to osKernelState_t for the list of kernel states).

Possible osKernelState_t return values:

  • osKernelError if an unspecific error occurred.
  • the actual kernel state otherwise.
Note
This function may be called from Interrupt Service Routines.

Code Example

int main (void) {
// System Initialization
SystemCoreClockUpdate();
// ...
if(osKernelGetState() == osKernelInactive) { // Is the kernel initialized?
osKernelInitialize(); // Initialize CMSIS-RTOS kernel
}
;
}

◆ osKernelStart()

osStatus_t osKernelStart ( void  )

Start the RTOS Kernel scheduler.

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

The function osKernelStart starts the RTOS kernel and begins thread switching. It will not return to its calling function in case of success. Before it is successfully executed, only the functions osKernelGetInfo, osKernelGetState, and object creation functions (osXxxNew) may be called.

At least one initial thread should be created prior osKernelStart, see osThreadNew.

Possible osStatus_t return values:

Note
This function cannot be called from Interrupt Service Routines.

Code Example

int main (void) {
// System Initialization
SystemCoreClockUpdate();
// ...
}
; // ... Start Threads
if (osKernelGetState() == osKernelReady) { // If kernel is ready to run...
osKernelStart(); // ... start thread execution
}
while(1); // only reached in case of error
}

◆ osKernelLock()

int32_t osKernelLock ( void  )

Lock the RTOS Kernel scheduler.

Returns
previous lock state (1 - locked, 0 - not locked, error code if negative).

The function osKernelLock allows to lock all task switches. It returns the previous value of the lock state (1 if it was locked, 0 if it was unlocked), or a negative number representing an error code otherwise (refer to osStatus_t).

Possible osStatus_t return values:

  • osError if an unspecific error occurred.
  • osErrorISR if called from an Interrupt Service Routine.
  • osErrorSafetyClass if the calling thread safety class is lower than the kernel protect safety class.
Note
This function cannot be called from Interrupt Service Routines.

Code Example

int32_t state = osKernelLock();
// ... critical code
osKernelRestore(state);

◆ osKernelUnlock()

int32_t osKernelUnlock ( void  )

Unlock the RTOS Kernel scheduler.

Returns
previous lock state (1 - locked, 0 - not locked, error code if negative).

The function osKernelUnlock resumes from osKernelLock. It returns the previous value of the lock state (1 if it was locked, 0 if it was unlocked), or a negative number representing an error code otherwise (refer to osStatus_t).

Possible osStatus_t return values:

Note
This function cannot be called from Interrupt Service Routines.

Code Example

int32_t sl = osKernelLock();
// ... critical code
{
int32_t su = osKernelUnlock();
// ... uncritical code
}
// ... critical code

◆ osKernelRestoreLock()

int32_t osKernelRestoreLock ( int32_t  lock)

Restore the RTOS Kernel scheduler lock state.

Parameters
[in]locklock state obtained by osKernelLock or osKernelUnlock.
Returns
new lock state (1 - locked, 0 - not locked, error code if negative).

The function osKernelRestoreLock restores the previous lock state after osKernelLock or osKernelUnlock.

The argument lock specifies the lock state as obtained by osKernelLock or osKernelUnlock.

The function returns the new value of the lock state (1 if it was locked, 0 if it was unlocked), or a negative number representing an error code otherwise (refer to osStatus_t).

Possible osStatus_t return values:

  • osError if an unspecific error occurred.
  • osErrorISR if called from interrupt other than fault or osWatchdogAlarm_Handler.
  • osErrorSafetyClass if the calling thread safety class is lower than the kernel protect safety class.

Code Example

int32_t sl = osKernelLock();
// ... critical code
{
int32_t su = osKernelUnlock();
// ... uncritical code
}
// ... critical code

◆ osKernelSuspend()

uint32_t osKernelSuspend ( void  )

Suspend the RTOS Kernel scheduler.

Returns
time in ticks, for how long the system can sleep or power-down.

CMSIS-RTOS2 provides extension for tick-less operation which is useful for applications that use extensively low-power modes where the SysTick timer is also disabled.

To provide a time-tick in such power-saving modes a wake-up timer is used to derive timer intervals. The function osKernelSuspend suspends the RTOS kernel scheduler and thus enables sleep modes.

The return value can be used to determine the amount of system ticks until the next tick-based kernel event will occur, i.e. a delayed thread becomes ready again. It is recommended to set up the low power timer to generate a wake-up interrupt based on this return value.

Note
This function cannot be called from Interrupt Service Routines.

Code Example

void osRtxIdleThread (void) {
/* The idle thread is running
when no other thread is ready
to run. */
unsigned int sleep;
for (;;) {
/* HERE: include optional user
code to be executed when no
task runs. */
sleep = osKernelSuspend(); /* Suspend RTOS kernel scheduler */
if (sleep) { /* How long can we sleep? */
/* "sleep" is in kernel Timer Ticks
which is 1ms in this
configuration */
/* Setup wake-up e.g. watchdog */
__WFE(); /* Enter Power-down mode */
/* After Wake-up */
sleep = tc; /* Adjust with cycles slept */
}
osKernelResume(sleep); /* Resume thread scheduler */
}
}

◆ osKernelResume()

void osKernelResume ( uint32_t  sleep_ticks)

Resume the RTOS Kernel scheduler.

Parameters
[in]sleep_tickstime in ticks for how long the system was in sleep or power-down mode.

CMSIS-RTOS provides extension for tick-less operation which is useful for applications that use extensively low-power modes where the SysTick timer is also disabled.

To provide a time-tick in such power-saving modes a wake-up timer is used to derive timer intervals. The function osKernelResume enables the RTOS kernel scheduler and thus wakes up the system from sleep mode.

Note
This function cannot be called from Interrupt Service Routines.

Code Example

void osRtxIdleThread (void) {
/* The idle thread is running
when no other thread is ready
to run. */
unsigned int sleep;
for (;;) {
/* HERE: include optional user
code to be executed when no
task runs. */
sleep = osKernelSuspend(); /* Suspend RTOS kernel scheduler */
if (sleep) { /* How long can we sleep? */
/* "sleep" is in Kernel Timer Ticks
which is 1ms in this
configuration */
/* Setup wake-up e.g. watchdog */
__WFE(); /* Enter Power-down mode */
/* After Wake-up */
sleep = tc; /* Adjust with cycles slept */
}
osKernelResume(sleep); /* Resume thread scheduler */
}
}

◆ osKernelGetTickCount()

uint32_t osKernelGetTickCount ( void  )

Get the RTOS kernel tick count.

Returns
RTOS kernel current tick count.

The function osKernelGetTickCount returns the current RTOS kernel tick count.

Note
This function may be called from Interrupt Service Routines.

Code Example

#include "cmsis_os2.h"
void Thread_1 (void *arg) { // Thread function
uint32_t tick;
tick = osKernelGetTickCount(); // retrieve the number of system ticks
for (;;) {
tick += 1000; // delay 1000 ticks periodically
osDelayUntil(tick);
// ...
}
}

Due to the limited value range used for the tick count it may overflow during runtime, i.e. after 232 ticks which are roughly 49days @ 1ms. Typically one has not to take special care of this unless a monotonic counter is needed. For such a case an additional 64bit tick counter can be implemented as follows. The given example needs GetTick() called at least twice per tick overflow to work properly.

Code Example

uint64_t GetTick(void) {
static uint32_t tick_h = 0U;
static uint32_t tick_l = 0U;
uint32_t tick;
if (tick < tick_l) {
tick_h++;
}
tick_l = tick;
return (((uint64_t)tick_h << 32) | tick_l);
}

◆ osKernelGetTickFreq()

uint32_t osKernelGetTickFreq ( void  )

Get the RTOS kernel tick frequency.

Returns
frequency of the kernel tick in hertz, i.e. kernel ticks per second.

The function osKernelGetTickFreq returns the frequency of the current RTOS kernel tick.

Note
This function may be called from Interrupt Service Routines.

◆ osKernelGetSysTimerCount()

uint32_t osKernelGetSysTimerCount ( void  )

Get the RTOS kernel system timer count.

Returns
RTOS kernel current system timer count as 32-bit value.

The function osKernelGetSysTimerCount returns the current RTOS kernel system timer as a 32-bit value. The value is a rolling 32-bit counter that is composed of the kernel system interrupt timer value and the counter that counts these interrupts (RTOS kernel ticks).

This function allows the implementation of very short timeout checks below the RTOS tick granularity. Such checks might be required when checking for a busy status in a device or peripheral initialization routine, see code example below.

Note
This function may be called from Interrupt Service Routines.

Code Example

#include "cmsis_os2.h"
void SetupDevice (void) {
uint32_t tick;
// Calculating 100us timeout in system timer ticks
const uint32_t timeout = 100U * osKernelGetSysTimerFreq() / 1000000u;
tick = osKernelGetSysTimerCount(); // get start value of the Kernel system tick
Device.Setup (); // initialize a device or peripheral
do { // poll device busy status for 100 microseconds
if (!Device.Busy) break; // check if device is correctly initialized
} while ((osKernelGetSysTimerCount() - tick) < timeout));
if (Device.Busy) {
; // in case device still busy, signal error
}
// start interacting with device
}

◆ osKernelGetSysTimerFreq()

uint32_t osKernelGetSysTimerFreq ( void  )

Get the RTOS kernel system timer frequency.

Returns
frequency of the system timer in hertz, i.e. timer ticks per second.

The function osKernelGetSysTimerFreq returns the frequency of the current RTOS kernel system timer.

Note
This function may be called from Interrupt Service Routines.

◆ osKernelProtect()

osStatus_t osKernelProtect ( uint32_t  safety_class)

Protect the RTOS Kernel scheduler access.

Parameters
[in]safety_classsafety class.
Returns
status code that indicates the execution status of the function.

The function osKernelProtect configures kernel access protection. After its successful execution, only threads with safety class equal or higher than the safety_class specified in the argument can execute kernel control functions.

Possible osStatus_t return values:

  • osOK in case of success.
  • osErrorParameter if safety_class is invalid.
  • osError if kernel is not in ready or running state.
  • osErrorISR if called from an Interrupt Service Routine.
  • osErrorSafetyClass if the calling thread safety class is lower than the kernel protect safety class.
Note
This function cannot be called from Interrupt Service Routines.

Code Example:

#include "cmsis_os2.h"
void ProtectKernelControlFunctions (void) {
osStatus_t status;
status = osKernelProtect(4U); // Enable Kernel Control for threads with safety class 4 or higher
// verify status value here.
}

◆ osKernelDestroyClass()

osStatus_t osKernelDestroyClass ( uint32_t  safety_class,
uint32_t  mode 
)

Destroy objects for specified safety classes.

Parameters
[in]safety_classsafety class.
[in]modesafety mode.
Returns
status code that indicates the execution status of the function.

The function osKernelDestroyClass destroys RTOS objects based on safety class assignment. safety_class provides the reference safety class value, while mode is considered as a bitmap that additionally specifies the safety classes to be destroyed.

If osSafetyWithSameClass is set in mode than the RTOS objects with safety class value equal to safety_class will be destroyed.
If osSafetyWithLowerClass is set in mode than the RTOS objects with safety class value lower than safety_class will be destroyed.

Possible osStatus_t return values:

  • osOK in case of success.
  • osErrorParameter if safety_class is invalid.
  • osErrorResource if no other READY thread exists.
  • osErrorISR if called from interrupt other than osWatchdogAlarm_Handler.
  • osErrorSafetyClass if the calling thread safety class is lower than the kernel protect safety class.

Code Example:

#include "cmsis_os2.h"
void DestroyNonCriticalClasses (void) {
osStatus_t status;
status = osKernelDestroyClass(4U, osSafetyWithSameClass | osSafetyWithLowerClass); // Destroy objects with safety class 4 or lower
// verify status value here.
}

◆ osFaultResume()

void osFaultResume ( void  )

Resume normal operation when exiting exception faults.

Resume normal RTOS operation when exiting exception faults.

Code Example:

void HardFault_Handler (void) {
__ASM volatile (
"... \n\t" // Enter assembly and handle faults
"... \n\t"
"ldr r0,=osFaultResume \n\t" // Before exiting the handler load and
"bx r0 \n\t" // jump to osFaultResume
);
}