RTEMS 6.1-rc6
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The Task Manager provides a comprehensive set of directives to create, delete, and administer tasks. More...
Data Structures | |
struct | rtems_task_config |
This structure defines the configuration of a task constructed by rtems_task_construct(). More... | |
struct | rtems_initialization_tasks_table |
This structure defines the properties of the Classic API user initialization task. More... | |
Macros | |
#define | RTEMS_CONFIGURED_MINIMUM_STACK_SIZE 0 |
This constant can be used to indicate that the task should be created with the configured minimum stack size. | |
#define | RTEMS_CURRENT_PRIORITY 0 |
This constant is passed to rtems_task_set_priority() when the caller wants to obtain the current priority. | |
#define | RTEMS_MAXIMUM_PRIORITY _RTEMS_Maximum_priority() |
This runtime constant represents the lowest (least important) task priority of the scheduler with index zero. | |
#define | RTEMS_MINIMUM_PRIORITY 1 |
This compile time constant provides the highest (most important) task priority settable by the API. | |
#define | RTEMS_MINIMUM_STACK_SIZE STACK_MINIMUM_SIZE |
This compile time constant provides the minimum task stack size recommended for the target architecture. | |
#define | RTEMS_NO_PRIORITY RTEMS_CURRENT_PRIORITY |
This compile time constant may be used for the rtems_task_set_priority() directive to get the current task priority. | |
#define | RTEMS_SELF OBJECTS_ID_OF_SELF |
This compile time constant may be used to identify the calling task in task related directives. | |
#define | RTEMS_TASK_STORAGE_ALIGNMENT CPU_STACK_ALIGNMENT |
This compile time constant defines the recommended alignment of a task storage area in bytes. | |
#define | RTEMS_TASK_STORAGE_SIZE(_size, _attributes) ( ( _size ) + CONTEXT_FP_SIZE ) |
Gets the recommended task storage area size for the size and task attributes. | |
#define | RTEMS_YIELD_PROCESSOR WATCHDOG_NO_TIMEOUT |
This compile time constant may be passed to the rtems_task_wake_after() directive as the interval when a task wishes to yield the processor. | |
Typedefs | |
typedef CPU_Uint32ptr | rtems_task_argument |
This integer type represents task argument values. | |
typedef void | rtems_task |
This type defines the return type of task entry points. | |
typedef rtems_task(* | rtems_task_entry) (rtems_task_argument) |
This type defines the task entry point of an RTEMS task. | |
typedef struct _Thread_Control | rtems_tcb |
This structure represents the TCB. | |
typedef bool(* | rtems_task_visitor) (rtems_tcb *, void *) |
Visitor routines invoked by rtems_task_iterate() shall have this type. | |
Functions | |
rtems_status_code | rtems_task_create (rtems_name name, rtems_task_priority initial_priority, size_t stack_size, rtems_mode initial_modes, rtems_attribute attribute_set, rtems_id *id) |
Creates a task. | |
rtems_status_code | rtems_task_construct (const rtems_task_config *config, rtems_id *id) |
Constructs a task from the specified task configuration. | |
rtems_status_code | rtems_task_ident (rtems_name name, uint32_t node, rtems_id *id) |
Identifies a task by the object name. | |
rtems_id | rtems_task_self (void) |
Gets the task identifier of the calling task. | |
rtems_status_code | rtems_task_start (rtems_id id, rtems_task_entry entry_point, rtems_task_argument argument) |
Starts the task. | |
rtems_status_code | rtems_task_restart (rtems_id id, rtems_task_argument argument) |
Restarts the task. | |
rtems_status_code | rtems_task_delete (rtems_id id) |
Deletes the task. | |
RTEMS_NO_RETURN void | rtems_task_exit (void) |
Deletes the calling task. | |
rtems_status_code | rtems_task_suspend (rtems_id id) |
Suspends the task. | |
rtems_status_code | rtems_task_resume (rtems_id id) |
Resumes the task. | |
rtems_status_code | rtems_task_is_suspended (rtems_id id) |
Checks if the task is suspended. | |
rtems_status_code | rtems_task_set_priority (rtems_id id, rtems_task_priority new_priority, rtems_task_priority *old_priority) |
Sets the real priority or gets the current priority of the task. | |
rtems_status_code | rtems_task_get_priority (rtems_id task_id, rtems_id scheduler_id, rtems_task_priority *priority) |
Gets the current priority of the task with respect to the scheduler. | |
rtems_status_code | rtems_task_mode (rtems_mode mode_set, rtems_mode mask, rtems_mode *previous_mode_set) |
Gets and optionally sets the mode of the calling task. | |
rtems_status_code | rtems_task_wake_after (rtems_interval ticks) |
Wakes up after a count of clock ticks have occurred or yields the processor. | |
rtems_status_code | rtems_task_wake_when (const rtems_time_of_day *time_buffer) |
Wakes up when specified. | |
rtems_status_code | rtems_task_get_scheduler (rtems_id task_id, rtems_id *scheduler_id) |
Gets the home scheduler of the task. | |
rtems_status_code | rtems_task_set_scheduler (rtems_id task_id, rtems_id scheduler_id, rtems_task_priority priority) |
Sets the home scheduler for the task. | |
rtems_status_code | rtems_task_get_affinity (rtems_id id, size_t cpusetsize, cpu_set_t *cpuset) |
Gets the processor affinity of the task. | |
rtems_status_code | rtems_task_set_affinity (rtems_id id, size_t cpusetsize, const cpu_set_t *cpuset) |
Sets the processor affinity of the task. | |
void | rtems_task_iterate (rtems_task_visitor visitor, void *arg) |
Iterates over all tasks and invokes the visitor routine for each task. | |
The Task Manager provides a comprehensive set of directives to create, delete, and administer tasks.
#define RTEMS_CONFIGURED_MINIMUM_STACK_SIZE 0 |
This constant can be used to indicate that the task should be created with the configured minimum stack size.
Using this constant when specifying the task stack size indicates that this task is to be created with a stack size of the minimum stack size that was configured by the application. If not explicitly configured by the application, the default configured minimum stack size is RTEMS_MINIMUM_STACK_SIZE which depends on the target architecture. Since this uses the configured minimum stack size value, you may get a stack size that is smaller or larger than the recommended minimum. This can be used to provide large stacks for all tasks on complex applications or small stacks on applications that are trying to conserve memory.
#define RTEMS_MINIMUM_STACK_SIZE STACK_MINIMUM_SIZE |
This compile time constant provides the minimum task stack size recommended for the target architecture.
It is the minimum stack size recommended for use on this processor. This value is selected by the RTEMS maintainers conservatively to minimize the risk of blown stacks for most user applications. Using this constant when specifying the task stack size, indicates that the stack size will be at least RTEMS_MINIMUM_STACK_SIZE bytes in size. If the user configured minimum stack size (see CONFIGURE_MINIMUM_TASK_STACK_SIZE) is larger than the recommended minimum, then it will be used.
#define RTEMS_TASK_STORAGE_ALIGNMENT CPU_STACK_ALIGNMENT |
This compile time constant defines the recommended alignment of a task storage area in bytes.
#define RTEMS_TASK_STORAGE_SIZE | ( | _size, | |
_attributes | |||
) | ( ( _size ) + CONTEXT_FP_SIZE ) |
Gets the recommended task storage area size for the size and task attributes.
_size | is the size dedicated to the task stack and thread-local storage in bytes. |
_attributes | is the attribute set of the task using the storage area. |
typedef void rtems_task |
This type defines the return type of task entry points.
This type can be used to document task entry points in the source code.
typedef CPU_Uint32ptr rtems_task_argument |
This integer type represents task argument values.
rtems_status_code rtems_task_construct | ( | const rtems_task_config * | config, |
rtems_id * | id | ||
) |
Constructs a task from the specified task configuration.
config | is the pointer to an rtems_task_config object. It configures the task. | |
[out] | id | is the pointer to an rtems_id object. When the directive call is successful, the identifier of the constructed task will be stored in this object. |
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ADDRESS | The config parameter was NULL. |
RTEMS_INVALID_NAME | The task name was invalid. |
RTEMS_INVALID_ADDRESS | The id parameter was NULL. |
RTEMS_INVALID_PRIORITY | The initial task priority was invalid. |
RTEMS_INVALID_SIZE | The thread-local storage size is greater than the maximum thread-local storage size specified in the task configuration. The thread-local storage size is determined by the thread-local variables used by the application and CONFIGURE_MAXIMUM_THREAD_LOCAL_STORAGE_SIZE. |
RTEMS_INVALID_SIZE | The task storage area was too small to provide a task stack of the configured minimum size, see CONFIGURE_MINIMUM_TASK_STACK_SIZE. The task storage area contains the task stack, the thread-local storage, and the floating-point context on architectures with a separate floating-point context. |
RTEMS_TOO_MANY | There was no inactive task object available to construct a task. |
RTEMS_TOO_MANY | In multiprocessing configurations, there was no inactive global object available to construct a global task. |
RTEMS_UNSATISFIED | One of the task create extensions failed during the task construction. |
RTEMS_UNSATISFIED | In SMP configurations, the non-preemption mode was not supported. |
RTEMS_UNSATISFIED | In SMP configurations, the interrupt level mode was not supported. |
In contrast to tasks created by rtems_task_create(), the tasks constructed by this directive use a user-provided task storage area. The task storage area contains the task stack, the thread-local storage, and the floating-point context on architectures with a separate floating-point context.
This directive is intended for applications which do not want to use the RTEMS Workspace and instead statically allocate all operating system resources. It is not recommended to use rtems_task_create() and rtems_task_construct() together in an application. It is also not recommended to use rtems_task_construct() for drivers or general purpose libraries. The reason for these recommendations is that the task configuration needs settings which can be only given with a through knowledge of the application resources.
An application based solely on static allocation can avoid any runtime memory allocators. This can simplify the application architecture as well as any analysis that may be required.
The stack space estimate done by <rtems/confdefs.h>
assumes that all tasks are created by rtems_task_create(). The estimate can be adjusted to take user-provided task storage areas into account through the CONFIGURE_MINIMUM_TASKS_WITH_USER_PROVIDED_STORAGE application configuration option.
The CONFIGURE_MAXIMUM_TASKS should include tasks constructed by rtems_task_construct().
The following constraints apply to this directive:
rtems_status_code rtems_task_create | ( | rtems_name | name, |
rtems_task_priority | initial_priority, | ||
size_t | stack_size, | ||
rtems_mode | initial_modes, | ||
rtems_attribute | attribute_set, | ||
rtems_id * | id | ||
) |
Creates a task.
name | is the object name of the task. | |
initial_priority | is the initial task priority. | |
stack_size | is the task stack size in bytes. | |
initial_modes | is the initial mode set of the task. | |
attribute_set | is the attribute set of the task. | |
[out] | id | is the pointer to an rtems_id object. When the directive call is successful, the identifier of the created task will be stored in this object. |
This directive creates a task which resides on the local node. The task has the user-defined object name specified in name
. The assigned object identifier is returned in id
. This identifier is used to access the task with other task related directives.
The initial priority of the task is specified in initial_priority
. The home scheduler of the created task is the home scheduler of the calling task at some time point during the task creation. The initial task priority specified in initial_priority
shall be valid for this scheduler.
The stack size of the task is specified in stack_size
. If the requested stack size is less than the configured minimum stack size, then RTEMS will use the configured minimum as the stack size for this task. The configured minimum stack size is defined by the CONFIGURE_MINIMUM_TASK_STACK_SIZE application configuration option. In addition to being able to specify the task stack size as a integer, there are two constants which may be specified:
The initial mode set specified in initial_modes
is built through a bitwise or of the mode constants described below. Not all combinations of modes are allowed. Some modes are mutually exclusive. If mutually exclusive modes are combined, the behaviour is undefined. Default task modes can be selected by using the RTEMS_DEFAULT_MODES constant. The task mode set defines
RTEMS_INTERRUPT_LEVEL( 0 )
which is associated with enabled interrupts.The initial preemption mode of the task is enabled or disabled.
The initial timeslicing mode of the task is enabled or disabled.
The initial ASR processing mode of the task is enabled or disabled.
The initial interrupt level mode of the task is defined by RTEMS_INTERRUPT_LEVEL().
The attribute set specified in attribute_set
is built through a bitwise or of the attribute constants described below. Not all combinations of attributes are allowed. Some attributes are mutually exclusive. If mutually exclusive attributes are combined, the behaviour is undefined. Attributes not mentioned below are not evaluated by this directive and have no effect. Default attributes can be selected by using the RTEMS_DEFAULT_ATTRIBUTES constant. The attribute set defines
The task has a local or global scope in a multiprocessing network (this attribute does not refer to SMP systems). The scope is selected by the mutually exclusive RTEMS_LOCAL and RTEMS_GLOBAL attributes.
The use of the floating-point unit is selected by the mutually exclusive RTEMS_FLOATING_POINT and RTEMS_NO_FLOATING_POINT attributes. On some target processors, the use of the floating-point unit can be enabled or disabled for each task. Other target processors may have no hardware floating-point unit or enable the use of the floating-point unit for all tasks. Consult the RTEMS CPU Architecture Supplement for the details.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_NAME | The name parameter was invalid. |
RTEMS_INVALID_ADDRESS | The id parameter was NULL. |
RTEMS_INVALID_PRIORITY | The initial_priority was invalid. |
RTEMS_TOO_MANY | There was no inactive object available to create a task. The number of tasks available to the application is configured through the CONFIGURE_MAXIMUM_TASKS application configuration option. |
RTEMS_TOO_MANY | In multiprocessing configurations, there was no inactive global object available to create a global task. The number of global objects available to the application is configured through the CONFIGURE_MP_MAXIMUM_GLOBAL_OBJECTS application configuration option. |
RTEMS_UNSATISFIED | There was not enough memory to allocate the task storage area. The task storage area contains the task stack, the thread-local storage, and the floating point context. |
RTEMS_UNSATISFIED | One of the task create extensions failed to create the task. |
RTEMS_UNSATISFIED | In SMP configurations, the non-preemption mode was not supported. |
RTEMS_UNSATISFIED | In SMP configurations, the interrupt level mode was not supported. |
The task processor affinity is initialized to the set of online processors.
When created, a task is placed in the dormant state and can only be made ready to execute using the directive rtems_task_start().
Application developers should consider the stack usage of the device drivers when calculating the stack size required for tasks which utilize the driver. The task stack size shall account for an target processor dependent interrupt stack frame which may be placed on the stack of the interrupted task while servicing an interrupt. The stack checker may be used to monitor the stack usage, see CONFIGURE_STACK_CHECKER_ENABLED.
For control and maintenance of the task, RTEMS allocates a TCB from the local TCB free pool and initializes it.
The TCB for a global task is allocated on the local node. Task should not be made global unless remote tasks must interact with the task. This is to avoid the system overhead incurred by the creation of a global task. When a global task is created, the task's name and identifier must be transmitted to every node in the system for insertion in the local copy of the global object table.
The following constraints apply to this directive:
rtems_status_code rtems_task_delete | ( | rtems_id | id | ) |
Deletes the task.
id | is the task identifier. The constant RTEMS_SELF may be used to specify the calling task. |
This directive deletes the task, either the calling task or another task, as specified by id
.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ID | There was no task associated with the identifier specified by id . |
RTEMS_CALLED_FROM_ISR | The directive was called from within interrupt context. |
RTEMS_INCORRECT_STATE | The task termination procedure was started, however, waiting for the terminating task would have resulted in a deadlock. |
RTEMS_ILLEGAL_ON_REMOTE_OBJECT | The task resided on a remote node. |
The task deletion is done in several steps. Firstly, the task is marked as terminating. While the task life of the terminating task is protected, it executes normally until it disables the task life protection or it deletes itself. A terminating task will eventually stop its normal execution and start its termination procedure. The procedure executes in the context of the terminating task. The task termination procedure involves the destruction of POSIX key values and running the task termination user extensions. Once complete the execution of the task is stopped and task-specific resources are reclaimed by the system, such as the stack memory, any allocated delay or timeout timers, the TCB, and, if the task is RTEMS_FLOATING_POINT, its floating point context area. RTEMS explicitly does not reclaim the following resources: region segments, partition buffers, semaphores, timers, or rate monotonic periods.
A task is responsible for releasing its resources back to RTEMS before deletion. To insure proper deallocation of resources, a task should not be deleted unless it is unable to execute or does not hold any RTEMS resources. If a task holds RTEMS resources, the task should be allowed to deallocate its resources before deletion. A task can be directed to release its resources and delete itself by restarting it with a special argument or by sending it a message, an event, or a signal.
Deletion of the calling task (RTEMS_SELF) will force RTEMS to select another task to execute.
When a task deletes another task, the calling task waits until the task termination procedure of the task being deleted has completed. The terminating task inherits the eligible priorities of the calling task.
When a global task is deleted, the task identifier must be transmitted to every node in the system for deletion from the local copy of the global object table.
The task must reside on the local node, even if the task was created with the RTEMS_GLOBAL attribute.
The following constraints apply to this directive:
RTEMS_NO_RETURN void rtems_task_exit | ( | void | ) |
Deletes the calling task.
This directive deletes the calling task.
The directive is an optimized variant of the following code sequences, see also rtems_task_delete():
The following constraints apply to this directive:
rtems_status_code rtems_task_get_affinity | ( | rtems_id | id, |
size_t | cpusetsize, | ||
cpu_set_t * | cpuset | ||
) |
Gets the processor affinity of the task.
id | is the task identifier. The constant RTEMS_SELF may be used to specify the calling task. | |
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 affinity set of the task will be stored in this object. A set bit in the processor set means that the corresponding processor is in the processor affinity set of the task, otherwise the bit is cleared. |
This directive returns the processor affinity of the task in cpuset
of the task specified by id
.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ADDRESS | The cpuset parameter was NULL. |
RTEMS_INVALID_ID | There was no task associated with the identifier specified by id . |
RTEMS_INVALID_SIZE | The size specified by cpusetsize of the processor set was too small for the processor affinity set of the task. |
RTEMS_ILLEGAL_ON_REMOTE_OBJECT | The task resided on a remote node. |
The following constraints apply to this directive:
rtems_status_code rtems_task_get_priority | ( | rtems_id | task_id, |
rtems_id | scheduler_id, | ||
rtems_task_priority * | priority | ||
) |
Gets the current priority of the task with respect to the scheduler.
task_id | is the task identifier. The constant RTEMS_SELF may be used to specify the calling task. | |
scheduler_id | is the scheduler identifier. | |
[out] | priority | is the pointer to an rtems_task_priority object. When the directive call is successful, the current priority of the task with respect to the specified scheduler will be stored in this object. |
This directive returns the current priority in priority
of the task specified by task_id
with respect to the scheduler specified by scheduler_id
.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ADDRESS | The priority parameter was NULL. |
RTEMS_INVALID_ID | There was no task associated with the identifier specified by task_id . |
RTEMS_INVALID_ID | There was no scheduler associated with the identifier specified by scheduler_id . |
RTEMS_NOT_DEFINED | The task had no priority with respect to the scheduler. |
RTEMS_ILLEGAL_ON_REMOTE_OBJECT | The task resided on a remote node. |
The following constraints apply to this directive:
rtems_status_code rtems_task_get_scheduler | ( | rtems_id | task_id, |
rtems_id * | scheduler_id | ||
) |
Gets the home scheduler of the task.
task_id | is the task identifier. The constant RTEMS_SELF may be used to specify the calling task. | |
[out] | scheduler_id | is the pointer to an rtems_id object. When the directive call is successful, the identifier of the home scheduler of the task will be stored in this object. |
This directive returns the identifier of the home scheduler of the task specified by task_id
in scheduler_id
.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ADDRESS | The scheduler_id parameter was NULL. |
RTEMS_INVALID_ID | There was no task associated with the identifier specified by task_id . |
RTEMS_ILLEGAL_ON_REMOTE_OBJECT | The task resided on a remote node. |
The following constraints apply to this directive:
rtems_status_code rtems_task_ident | ( | rtems_name | name, |
uint32_t | node, | ||
rtems_id * | id | ||
) |
Identifies a task by the object name.
name | is the object name to look up. | |
node | is the node or node set to search for a matching object. | |
[out] | id | is the pointer to an rtems_id object. When the directive call is successful, the object identifier of an object with the specified name will be stored in this object. |
This directive obtains a task identifier associated with the task name specified in name
.
A task may obtain its own identifier by specifying RTEMS_WHO_AM_I for the name.
The node to search is specified in node
. It shall be
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ADDRESS | The id parameter was NULL. |
RTEMS_INVALID_NAME | There was no object with the specified name on the specified nodes. |
RTEMS_INVALID_NODE | In multiprocessing configurations, the specified node was invalid. |
If the task name is not unique, then the task identifier will match the first task with that name in the search order. However, this task identifier is not guaranteed to correspond to the desired task.
The objects are searched from lowest to the highest index. If node
is RTEMS_SEARCH_ALL_NODES, all nodes are searched with the local node being searched first. All other nodes are searched from lowest to the highest node number.
If node is a valid node number which does not represent the local node, then only the tasks exported by the designated node are searched.
This directive does not generate activity on remote nodes. It accesses only the local copy of the global object table.
The task identifier is used with other task related directives to access the task.
The following constraints apply to this directive:
rtems_status_code rtems_task_is_suspended | ( | rtems_id | id | ) |
Checks if the task is suspended.
id | is the task identifier. The constant RTEMS_SELF may be used to specify the calling task. |
This directive returns a status code indicating whether or not the task specified by id
is currently suspended.
RTEMS_SUCCESSFUL | The task was not suspended. |
RTEMS_INVALID_ID | There was no task associated with the identifier specified by id . |
RTEMS_ALREADY_SUSPENDED | The task was suspended. |
RTEMS_ILLEGAL_ON_REMOTE_OBJECT | The task resided on a remote node. |
The following constraints apply to this directive:
void rtems_task_iterate | ( | rtems_task_visitor | visitor, |
void * | arg | ||
) |
Iterates over all tasks and invokes the visitor routine for each task.
visitor | is the visitor routine invoked for each task. |
arg | is the argument passed to each visitor routine invocation during the iteration. |
This directive iterates over all tasks in the system. This operation covers all tasks of all APIs. The user should be careful in accessing the contents of the TCB. The visitor argument arg
is passed to all invocations of visitor
in addition to the TCB. The iteration stops immediately in case the visitor routine returns true.
The following constraints apply to this directive:
rtems_status_code rtems_task_mode | ( | rtems_mode | mode_set, |
rtems_mode | mask, | ||
rtems_mode * | previous_mode_set | ||
) |
Gets and optionally sets the mode of the calling task.
mode_set | is the mode set to apply to the calling task. When mask is set to RTEMS_CURRENT_MODE, the value of this parameter is ignored. Only modes requested by mask are applied to the calling task. |
mask | is the mode mask which specifies which modes in mode_set are applied to the calling task. When the value is RTEMS_CURRENT_MODE, the mode of the calling task is not changed. |
previous_mode_set | is the pointer to an rtems_mode object. When the directive call is successful, the mode of the task before any mode changes done by the directive call will be stored in this object. |
This directive queries and optionally manipulates the execution mode of the calling task. A task's execution mode enables and disables preemption, timeslicing, asynchronous signal processing, as well as specifying the interrupt level. To modify an execution mode, the mode class(es) to be changed must be specified in the mask
parameter and the desired mode(s) must be specified in the mode_set
parameter.
A task can obtain its current execution mode, without modifying it, by calling this directive with a mask
value of RTEMS_CURRENT_MODE.
The mode set specified in mode_set
is built through a bitwise or of the mode constants described below. Not all combinations of modes are allowed. Some modes are mutually exclusive. If mutually exclusive modes are combined, the behaviour is undefined. Default task modes can be selected by using the RTEMS_DEFAULT_MODES constant. The task mode set defines
RTEMS_INTERRUPT_LEVEL( 0 )
which is associated with enabled interrupts.The mode mask specified in mask
is built through a bitwise or of the mode mask constants described below.
When the RTEMS_PREEMPT_MASK is set in mask
, the preemption mode of the calling task is
mode_set
andmode_set
.When the RTEMS_TIMESLICE_MASK is set in mask
, the timeslicing mode of the calling task is
mode_set
andmode_set
.Enabling timeslicing has no effect if preemption is disabled. For a task to be timesliced, that task must have both preemption and timeslicing enabled.
When the RTEMS_ASR_MASK is set in mask
, the ASR processing mode of the calling task is
mode_set
andmode_set
.When the RTEMS_INTERRUPT_MASK is set in mask
, interrupts of the calling task are
mode_set
andmode_set
.An interrupt level of zero is associated with enabled interrupts on all target processors. The interrupt level portion of the task mode supports a maximum of 256 interrupt levels. These levels are mapped onto the interrupt levels actually supported by the target processor in a processor dependent fashion.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_NOT_IMPLEMENTED | The RTEMS_NO_PREEMPT was set in mode_set and setting the preemption mode was requested by RTEMS_PREEMPT_MASK in mask and the system configuration had no implementation for this mode. |
RTEMS_NOT_IMPLEMENTED | The RTEMS_INTERRUPT_LEVEL() was set to a positive level in mode_set and setting the interrupt level was requested by RTEMS_INTERRUPT_MASK in mask and the system configuration had no implementation for this mode. |
The following constraints apply to this directive:
rtems_status_code rtems_task_restart | ( | rtems_id | id, |
rtems_task_argument | argument | ||
) |
Restarts the task.
id | is the task identifier. The constant RTEMS_SELF may be used to specify the calling task. |
argument | is the task entry point argument. |
This directive resets the task specified by id
to begin execution at its original entry point. The task's priority and execution mode are set to the original creation values. If the task is currently blocked, RTEMS automatically makes the task ready. A task can be restarted from any state, except the dormant state. The task's entry point argument is contained in argument
.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ID | There was no task associated with the identifier specified by id . |
RTEMS_INCORRECT_STATE | The task never started. |
RTEMS_ILLEGAL_ON_REMOTE_OBJECT | The task resided on a remote node. |
The type of the entry point argument is an unsigned integer type. However, the integer type has the property that any valid pointer to void
can be converted to this type and then converted back to a pointer to void
. The result will compare equal to the original pointer. The type can represent at least 32 bits. Some applications use the entry point argument as an index into a parameter table to get task-specific parameters.
A new entry point argument may be used to distinguish between the initial rtems_task_start() of the task and any ensuing calls to rtems_task_restart() of the task. This can be beneficial in deleting a task. Instead of deleting a task using the rtems_task_delete() directive, a task can delete another task by restarting that task, and allowing that task to release resources back to RTEMS and then delete itself.
The following constraints apply to this directive:
rtems_status_code rtems_task_resume | ( | rtems_id | id | ) |
Resumes the task.
id | is the task identifier. |
This directive removes the task specified by id
from the suspended state. If the task is in the ready state after the suspension is removed, then it will be scheduled to run. If the task is still in a blocked state after the suspension is removed, then it will remain in that blocked state.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ID | There was no task associated with the identifier specified by id . |
RTEMS_INCORRECT_STATE | The task was not suspended. |
The following constraints apply to this directive:
rtems_id rtems_task_self | ( | void | ) |
Gets the task identifier of the calling task.
This directive returns the task identifier of the calling task.
The following constraints apply to this directive:
rtems_status_code rtems_task_set_affinity | ( | rtems_id | id, |
size_t | cpusetsize, | ||
const cpu_set_t * | cpuset | ||
) |
Sets the processor affinity of the task.
id | is the task identifier. The constant RTEMS_SELF may be used to specify the calling task. |
cpusetsize | is the size of the processor set referenced by cpuset in bytes. |
cpuset | is the pointer to a cpu_set_t object. The processor set defines the new processor affinity set of the task. A set bit in the processor set means that the corresponding processor shall be in the processor affinity set of the task, otherwise the bit shall be cleared. |
This directive sets the processor affinity of the task specified by id
.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ADDRESS | The cpuset parameter was NULL. |
RTEMS_INVALID_ID | There was no task associated with the identifier specified by id . |
RTEMS_INVALID_NUMBER | The referenced processor set was not a valid new processor affinity set for the task. |
RTEMS_ILLEGAL_ON_REMOTE_OBJECT | The task resided on a remote node. |
The following constraints apply to this directive:
rtems_status_code rtems_task_set_priority | ( | rtems_id | id, |
rtems_task_priority | new_priority, | ||
rtems_task_priority * | old_priority | ||
) |
Sets the real priority or gets the current priority of the task.
id | is the task identifier. The constant RTEMS_SELF may be used to specify the calling task. | |
new_priority | is the new real priority or RTEMS_CURRENT_PRIORITY to get the current priority. | |
[out] | old_priority | is the pointer to an rtems_task_priority object. When the directive call is successful, the current or previous priority of the task with respect to its home scheduler will be stored in this object. |
This directive manipulates the priority of the task specified by id
. When new_priority
is not equal to RTEMS_CURRENT_PRIORITY, the specified task's previous priority is returned in old_priority
. When new_priority
is RTEMS_CURRENT_PRIORITY, the specified task's current priority is returned in old_priority
.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ADDRESS | The old_priority parameter was NULL. |
RTEMS_INVALID_ID | There was no task associated with the identifier specified by id . |
RTEMS_INVALID_PRIORITY | The task priority specified in new_priority was invalid with respect to the home scheduler of the task. |
Valid priorities range from one to a maximum value which depends on the configured scheduler. The lower the priority value the higher is the importance of the task.
If the task is currently holding any binary semaphores which use a locking protocol, then the task's priority cannot be lowered immediately. If the task's priority were lowered immediately, then this could violate properties of the locking protocol and may result in priority inversion. The requested lowering of the task's priority will occur when the task has released all binary semaphores which make the task more important. The task's priority can be increased regardless of the task's use of binary semaphores with locking protocols.
The following constraints apply to this directive:
rtems_status_code rtems_task_set_scheduler | ( | rtems_id | task_id, |
rtems_id | scheduler_id, | ||
rtems_task_priority | priority | ||
) |
Sets the home scheduler for the task.
task_id | is the task identifier. The constant RTEMS_SELF may be used to specify the calling task. |
scheduler_id | is the scheduler identifier of the new home scheduler for the task specified by task_id . |
priority | is the new real priority for the task with respect to the scheduler specified by scheduler_id . |
This directive sets the home scheduler to the scheduler specified by scheduler_id
for the task specified by task_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_PRIORITY | The task priority specified by priority was invalid with respect to the scheduler specified by scheduler_id . |
RTEMS_INVALID_ID | There was no task associated with the identifier specified by task_id . |
RTEMS_RESOURCE_IN_USE | The task specified by task_id was enqueued on a wait queue. |
RTEMS_RESOURCE_IN_USE | The task specified by task_id had a current priority which consisted of more than the real priority. |
RTEMS_RESOURCE_IN_USE | The task specified by task_id had a helping scheduler. |
RTEMS_RESOURCE_IN_USE | The task specified by task_id was pinned. |
RTEMS_UNSATISFIED | The scheduler specified by scheduler_id owned no processor. |
RTEMS_UNSATISFIED | The scheduler specified by scheduler_id did not support the affinity set of the task specified by task_id . |
RTEMS_ILLEGAL_ON_REMOTE_OBJECT | The task resided on a remote node. |
The following constraints apply to this directive:
rtems_status_code rtems_task_start | ( | rtems_id | id, |
rtems_task_entry | entry_point, | ||
rtems_task_argument | argument | ||
) |
Starts the task.
id | is the task identifier. The constant RTEMS_SELF may be used to specify the calling task. |
entry_point | is the task entry point. |
argument | is the task entry point argument. |
This directive readies the task, specified by id
, for execution based on the priority and execution mode specified when the task was created. The task entry point of the task is given in entry_point
. The task's entry point argument is contained in argument
.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ADDRESS | The entry_point parameter was NULL. |
RTEMS_INVALID_ID | There was no task associated with the identifier specified by id . |
RTEMS_INCORRECT_STATE | The task was not in the dormant state. |
RTEMS_ILLEGAL_ON_REMOTE_OBJECT | The task resided on a remote node. |
The type of the entry point argument is an unsigned integer type. However, the integer type has the property that any valid pointer to void
can be converted to this type and then converted back to a pointer to void
. The result will compare equal to the original pointer. The type can represent at least 32 bits. Some applications use the entry point argument as an index into a parameter table to get task-specific parameters.
Any actions performed on a dormant task such as suspension or change of priority are nullified when the task is initiated via the rtems_task_start() directive.
The following constraints apply to this directive:
rtems_status_code rtems_task_suspend | ( | rtems_id | id | ) |
Suspends the task.
id | is the task identifier. The constant RTEMS_SELF may be used to specify the calling task. |
This directive suspends the task specified by id
from further execution by placing it in the suspended state. This state is additive to any other blocked state that the task may already be in. The task will not execute again until another task issues the rtems_task_resume() directive for this task and any blocked state has been removed. The rtems_task_restart() directive will also remove the suspended state.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_INVALID_ID | There was no task associated with the identifier specified by id . |
RTEMS_ALREADY_SUSPENDED | The task was already suspended. |
RTEMS_ILLEGAL_ON_REMOTE_OBJECT | The task resided on a remote node. |
id
. In this case, the task will be suspended and a successful return code will be returned when the task is resumed.The following constraints apply to this directive:
rtems_status_code rtems_task_wake_after | ( | rtems_interval | ticks | ) |
Wakes up after a count of clock ticks have occurred or yields the processor.
ticks | is the count of clock ticks to delay the task or RTEMS_YIELD_PROCESSOR to yield the processor. |
This directive blocks the calling task for the specified ticks
count of clock ticks if the value is not equal to RTEMS_YIELD_PROCESSOR. When the requested count of ticks have occurred, the task is made ready. The clock tick directives automatically update the delay period. The calling task may give up the processor and remain in the ready state by specifying a value of RTEMS_YIELD_PROCESSOR in ticks
.
RTEMS_SUCCESSFUL | The requested operation was successful. |
The following constraints apply to this directive:
rtems_status_code rtems_task_wake_when | ( | const rtems_time_of_day * | time_buffer | ) |
Wakes up when specified.
time_buffer | is the date and time to wake up. |
This directive blocks a task until the date and time specified in time_buffer
. At the requested date and time, the calling task will be unblocked and made ready to execute.
RTEMS_SUCCESSFUL | The requested operation was successful. |
RTEMS_NOT_DEFINED | The system date and time was not set. |
RTEMS_INVALID_ADDRESS | The time_buffer parameter was NULL. |
RTEMS_INVALID_CLOCK | The time of day was invalid. |
time_buffer
structure is ignored. The timing granularity of this directive is a second.The following constraints apply to this directive: