RTEMS 6.1-rc5
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The scheduling concepts relate to the allocation of processing time for tasks. More...
Macros | |
#define | rtems_scheduler_get_processor(void) _SMP_Get_current_processor() |
Returns the index of the current processor. | |
#define | rtems_scheduler_get_processor_maximum(void) _SMP_Get_processor_maximum() |
Returns the processor maximum supported by the system. | |
Functions | |
rtems_status_code | rtems_scheduler_ident (rtems_name name, rtems_id *id) |
Identifies a scheduler by the object name. | |
rtems_status_code | rtems_scheduler_ident_by_processor (uint32_t cpu_index, rtems_id *id) |
Identifies a scheduler by the processor index. | |
rtems_status_code | rtems_scheduler_ident_by_processor_set (size_t cpusetsize, const cpu_set_t *cpuset, rtems_id *id) |
Identifies a scheduler by the processor set. | |
rtems_status_code | rtems_scheduler_get_maximum_priority (rtems_id scheduler_id, rtems_task_priority *priority) |
Gets the maximum task priority of the scheduler. | |
rtems_status_code | rtems_scheduler_map_priority_to_posix (rtems_id scheduler_id, rtems_task_priority priority, int *posix_priority) |
Maps a Classic API task priority to the corresponding POSIX thread priority. | |
rtems_status_code | rtems_scheduler_map_priority_from_posix (rtems_id scheduler_id, int posix_priority, rtems_task_priority *priority) |
Maps a POSIX thread priority to the corresponding Classic API task priority. | |
rtems_status_code | rtems_scheduler_get_processor_set (rtems_id scheduler_id, size_t cpusetsize, cpu_set_t *cpuset) |
Gets the set of processors owned by the scheduler. | |
rtems_status_code | rtems_scheduler_add_processor (rtems_id scheduler_id, uint32_t cpu_index) |
Adds the processor to the set of processors owned by the scheduler. | |
rtems_status_code | rtems_scheduler_remove_processor (rtems_id scheduler_id, uint32_t cpu_index) |
Removes the processor from the set of processors owned by the scheduler. | |
The scheduling concepts relate to the allocation of processing time for tasks.
The concept of scheduling in real-time systems dictates the ability to provide an immediate response to specific external events, particularly the necessity of scheduling tasks to run within a specified time limit after the occurrence of an event. For example, software embedded in life-support systems used to monitor hospital patients must take instant action if a change in the patient’s status is detected.
The component of RTEMS responsible for providing this capability is appropriately called the scheduler. The scheduler’s sole purpose is to allocate the all important resource of processor time to the various tasks competing for attention.
uint32_t rtems_scheduler_get_processor | ( | void | ) | _SMP_Get_current_processor() |
Returns the index of the current processor.
Where the system was built with SMP support disabled, this directive evaluates to a compile time constant of zero.
Where the system was built with SMP support enabled, this directive returns the index of the current processor. The set of processor indices is the range of integers starting with zero up to rtems_scheduler_get_processor_maximum() minus one.
The following constraints apply to this directive:
uint32_t rtems_scheduler_get_processor_maximum | ( | void | ) | _SMP_Get_processor_maximum() |
Returns the processor maximum supported by the system.
Where the system was built with SMP support disabled, this directive evaluates to a compile time constant of one.
Where the system was built with SMP support enabled, this directive returns the minimum of the processors (physically or virtually) available at the target and the configured processor maximum (see CONFIGURE_MAXIMUM_PROCESSORS). Not all processors in the range from processor index zero to the last processor index (which is the processor maximum minus one) may be configured to be used by a scheduler or may be online (online processors have a scheduler assigned).
The following constraints apply to this directive:
rtems_status_code rtems_scheduler_add_processor | ( | rtems_id | scheduler_id, |
uint32_t | cpu_index | ||
) |
Adds the processor to the set of processors owned by the scheduler.
scheduler_id | is the scheduler identifier. |
cpu_index | is the index of the processor to add. |
This directive adds the processor specified by the cpu_index
to the scheduler specified by scheduler_id
.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ID | There was no scheduler associated with the identifier specified by scheduler_id . |
RTEMS_NOT_CONFIGURED | The processor was not configured to be used by the application. |
RTEMS_INCORRECT_STATE | The processor was configured to be used by the application, however, it was not online. |
RTEMS_RESOURCE_IN_USE | The processor was already assigned to a scheduler. |
The following constraints apply to this directive:
rtems_status_code rtems_scheduler_get_maximum_priority | ( | rtems_id | scheduler_id, |
rtems_task_priority * | priority | ||
) |
Gets the maximum task priority of the scheduler.
scheduler_id | is the scheduler identifier. | |
[out] | priority | is the pointer to an rtems_task_priority object. When the directive the maximum priority of the scheduler will be stored in this object. |
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ID | There was no scheduler associated with the identifier specified by scheduler_id . |
RTEMS_INVALID_ADDRESS | The priority parameter was NULL. |
The following constraints apply to this directive:
rtems_status_code rtems_scheduler_get_processor_set | ( | rtems_id | scheduler_id, |
size_t | cpusetsize, | ||
cpu_set_t * | cpuset | ||
) |
Gets the set of processors owned by the scheduler.
scheduler_id | is the scheduler identifier. | |
cpusetsize | is the size of the processor set referenced by cpuset in bytes. | |
[out] | cpuset | is the pointer to a cpu_set_t object. When the directive call is successful, the processor set of the scheduler will be stored in this object. A set bit in the processor set means that the corresponding processor is owned by the scheduler, otherwise the bit is cleared. |
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ADDRESS | The cpuset parameter was NULL. |
RTEMS_INVALID_ID | There was no scheduler associated with the identifier specified by scheduler_id . |
RTEMS_INVALID_SIZE | The provided processor set was too small for the set of processors owned by the scheduler. |
The following constraints apply to this directive:
rtems_status_code rtems_scheduler_ident | ( | rtems_name | name, |
rtems_id * | id | ||
) |
Identifies a scheduler by the object name.
name | is the scheduler name to look up. | |
[out] | id | is the pointer to an rtems_id object. When the directive call is successful, the identifier of the scheduler will be stored in this object. |
This directive obtains a scheduler identifier associated with the scheduler name specified in name
.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_NAME | There was no scheduler associated with the name. |
RTEMS_INVALID_ADDRESS | The id parameter was NULL. |
The scheduler name is determined by the scheduler configuration.
The scheduler identifier is used with other scheduler related directives to access the scheduler.
The following constraints apply to this directive:
rtems_status_code rtems_scheduler_ident_by_processor | ( | uint32_t | cpu_index, |
rtems_id * | id | ||
) |
Identifies a scheduler by the processor index.
cpu_index | is the processor index to identify the scheduler. | |
[out] | id | is the pointer to an rtems_id object. When the directive call is successful, the identifier of the scheduler will be stored in this object. |
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ADDRESS | The id parameter was NULL. |
RTEMS_INVALID_NAME | The processor index was invalid. |
RTEMS_INCORRECT_STATE | The processor index was valid, however, the corresponding processor was not owned by a scheduler. |
The following constraints apply to this directive:
rtems_status_code rtems_scheduler_ident_by_processor_set | ( | size_t | cpusetsize, |
const cpu_set_t * | cpuset, | ||
rtems_id * | id | ||
) |
Identifies a scheduler by the processor set.
cpusetsize | is the size of the processor set referenced by cpuset in bytes. The size shall be positive. | |
cpuset | is the pointer to a cpu_set_t. The referenced processor set will be used to identify the scheduler. | |
[out] | id | is the pointer to an rtems_id object. When the directive call is successful, the identifier of the scheduler will be stored in this object. |
The scheduler is selected according to the highest numbered online processor in the specified processor set.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ADDRESS | The id parameter was NULL. |
RTEMS_INVALID_ADDRESS | The cpuset parameter was NULL. |
RTEMS_INVALID_SIZE | The processor set size was invalid. |
RTEMS_INVALID_NAME | The processor set contained no online processor. |
RTEMS_INCORRECT_STATE | The processor set was valid, however, the highest numbered online processor in the processor set was not owned by a scheduler. |
The following constraints apply to this directive:
rtems_status_code rtems_scheduler_map_priority_from_posix | ( | rtems_id | scheduler_id, |
int | posix_priority, | ||
rtems_task_priority * | priority | ||
) |
Maps a POSIX thread priority to the corresponding Classic API task priority.
scheduler_id | is the scheduler identifier. | |
posix_priority | is the POSIX thread priority to map. | |
[out] | priority | is the pointer to an rtems_task_priority object. When the directive call is successful, the Classic API task priority value corresponding to the specified POSIX thread priority value will be stored in this object. |
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ADDRESS | The priority parameter was NULL. |
RTEMS_INVALID_ID | There was no scheduler associated with the identifier specified by scheduler_id . |
RTEMS_INVALID_PRIORITY | The POSIX thread priority was invalid. |
The following constraints apply to this directive:
rtems_status_code rtems_scheduler_map_priority_to_posix | ( | rtems_id | scheduler_id, |
rtems_task_priority | priority, | ||
int * | posix_priority | ||
) |
Maps a Classic API task priority to the corresponding POSIX thread priority.
scheduler_id | is the scheduler identifier. | |
priority | is the Classic API task priority to map. | |
[out] | posix_priority | is the pointer to an int object. When the directive call is successful, the POSIX thread priority value corresponding to the specified Classic API task priority value will be stored in this object. |
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ADDRESS | The posix_priority parameter was NULL. |
RTEMS_INVALID_ID | There was no scheduler associated with the identifier specified by scheduler_id . |
RTEMS_INVALID_PRIORITY | The Classic API task priority was invalid. |
The following constraints apply to this directive:
rtems_status_code rtems_scheduler_remove_processor | ( | rtems_id | scheduler_id, |
uint32_t | cpu_index | ||
) |
Removes the processor from the set of processors owned by the scheduler.
scheduler_id | is the scheduler identifier. |
cpu_index | is the index of the processor to remove. |
This directive removes the processor specified by the cpu_index
from the scheduler specified by scheduler_id
.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ID | There was no scheduler associated with the identifier specified by scheduler_id . |
RTEMS_INVALID_NUMBER | The processor was not owned by the scheduler. |
RTEMS_RESOURCE_IN_USE | The processor was required by at least one non-idle task that used the scheduler as its home scheduler. |
RTEMS_RESOURCE_IN_USE | The processor was the last processor owned by the scheduler and there was at least one task that used the scheduler as a helping scheduler. |
The following constraints apply to this directive: