zephyr/include/microkernel/task.h

338 lines
7.8 KiB
C

/* microkernel/task.h */
/*
* Copyright (c) 1997-2014 Wind River Systems, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef TASK_H
#define TASK_H
/**
* @brief Microkernel Tasks
* @defgroup microkernel_task Microkernel Tasks
* @ingroup microkernel_services
* @{
*/
#ifdef __cplusplus
extern "C" {
#endif
#include <sections.h>
/*
* The following task groups are reserved for system use.
* sysgen automatically generates corresponding TASKGROUPs with reserved
* GROUPIDs
* sysgen must be updated if any changes are made to the reserved groups.
*/
#define EXE_GROUP 1 /* TASKGROUP EXE */
#define USR_GROUP 2 /* TASKGROUP SYS */
#define FPU_GROUP 4 /* TASKGROUP FPU */
/**
* @cond internal
*/
/**
* @brief Initialize a struct k_task given parameters.
*
* @param ident Numeric identifier of this task object.
* @param priority Priority of task.
* @param state State of task.
* @param groups Groups this task belong to.
* @param fn_start Entry function.
* @param workspace Pointer to workspace (aka, stack).
* @param worksize Size of workspace.
* @param fn_abort Abort function.
*/
#define __K_TASK_INITIALIZER(ident, priority, state, groups, \
fn_start, workspace, worksize, fn_abort) \
{ \
NULL, NULL, priority, ident, state, ((groups) ^ SYS), \
fn_start, workspace, worksize, fn_abort, NULL, \
}
extern struct k_task _k_task_list[];
extern void _task_ioctl(ktask_t, int);
extern void _task_group_ioctl(ktask_group_t, int);
/**
* @endcond
*/
/**
* @brief Yield the CPU to another task
*
* This routine yields the processor to the next equal priority task that is
* runnable. Using task_yield(), it is possible to achieve the effect of round
* robin scheduling. If no task with the same priority is runnable then no task
* switch occurs and the calling task resumes execution.
*
* @return N/A
*/
extern void task_yield(void);
/**
* @brief Set the priority of a task
*
* This routine changes the priority of the specified task.
*
* The call has immediate effect. If the calling task is no longer the highest
* priority runnable task, a task switch occurs.
*
* The priority should be specified in the range 0 to 62. 0 is the highest
* priority.
*
* @param task Task whose priority is to be set
* @param prio New priority
*
* @return N/A
*/
extern void task_priority_set(ktask_t task, kpriority_t prio);
/**
* @brief Set the entry point of a task
*
* This routine sets the entry point of a task to a given routine. It is only
* needed if the entry point is different from that specified in the project
* file. It must be called before task_start() to have any effect, so it
* cannot work with members of the EXE group or of any group that automatically
* starts when the application is loaded.
*
* The routine is executed when the task is started
*
* @param task Task to operate on.
* @param func Entry point
*
* @return N/A
*/
extern void task_entry_set(ktask_t task, void (*func)(void));
/**
* @brief Install an abort handler
*
* This routine installs an abort handler for the calling task.
*
* The abort handler is run when the calling task is aborted by a _TaskAbort()
* or task_group_abort() call.
*
* Each call to task_abort_handler_set() replaces the previously installed
* handler.
*
* To remove an abort handler, set the parameter to NULL as below:
* task_abort_handler_set (NULL)
*
* @param func Abort handler
*
* @return N/A
*/
extern void task_abort_handler_set(void (*func)(void));
/**
* @brief Issue a custom call from within the microkernel server fiber
*
* This routine issues a request to execute a function from within the context
* of the microkernel server fiber.
*
* @param func function to call from within the microkernel server fiber
* @param argp argument to pass to custom function
*
* @return return value from custom @a func call
*/
extern int task_offload_to_fiber(int (*)(), void *);
/*
* Operations supported by _task_ioctl() and _task_group_ioctl()
*/
#define TASK_START 0
#define TASK_ABORT 1
#define TASK_SUSPEND 2
#define TASK_RESUME 3
#define TASK_BLOCK 4
#define TASK_UNBLOCK 5
#define TASK_GROUP_START 0
#define TASK_GROUP_ABORT 1
#define TASK_GROUP_SUSPEND 2
#define TASK_GROUP_RESUME 3
#define TASK_GROUP_BLOCK 4
#define TASK_GROUP_UNBLOCK 5
/**
* @brief Get task identifier
*
* @return identifier for current task
*/
extern ktask_t task_id_get(void);
/**
* @brief Get task priority
*
* @return priority of current task
*/
extern kpriority_t task_priority_get(void);
/**
* @brief Start a task
* @param t Task to start
* @return N/A
*/
#define task_start(t) _task_ioctl(t, TASK_START)
/**
* @brief Abort a task
*
* @param t Task to abort
*
* @return N/A
*/
#define task_abort(t) _task_ioctl(t, TASK_ABORT)
/**
* @brief Suspend a task
*
* @param t Task to suspend
*
* @return N/A
*/
#define task_suspend(t) _task_ioctl(t, TASK_SUSPEND)
/**
* @brief Resume a task
*
* @param t Task to resume
*
* @return N/A
*/
#define task_resume(t) _task_ioctl(t, TASK_RESUME)
/**
* @brief Get task groups for task
*
* @return task groups associated with current task
*/
extern uint32_t task_group_mask_get(void);
/**
* @brief Add task to task group(s)
*
* @param groups Task Groups
*
* @return N/A
*/
extern void task_group_join(uint32_t groups);
/**
* @brief Remove task from task group(s)
*
* @param groups Task Groups
*
* @return N/A
*/
extern void task_group_leave(uint32_t groups);
/**
* @brief Start a task group
*
* @param g Task group to start
*
* @return N/A
*/
#define task_group_start(g) _task_group_ioctl(g, TASK_GROUP_START)
/**
* @brief Abort a task group
*
* @param g Task group to abort
*
* @return N/A
*/
#define task_group_abort(g) _task_group_ioctl(g, TASK_GROUP_ABORT)
/**
* @brief Suspend a task group
*
* @param g Task group to suspend
*
* @return N/A
*/
#define task_group_suspend(g) _task_group_ioctl(g, TASK_GROUP_SUSPEND)
/**
* @brief Resume a task group
*
* @param g Task group to resume
*
* @return N/A
*/
#define task_group_resume(g) _task_group_ioctl(g, TASK_GROUP_RESUME)
/**
* @brief Get task identifier
*
* @return identifier for current task
*/
#define isr_task_id_get() task_id_get()
/**
* @brief Get task priority
*
* @return priority of current task
*/
#define isr_task_priority_get() task_priority_get()
/**
* @brief Get task groups for task
*
* @return task groups associated with current task
*/
#define isr_task_group_mask_get() task_group_mask_get()
/**
* @brief Define a private microkernel task.
*
* This declares and initializes a private task. The new task
* can be passed to the microkernel task functions.
*
* @param name Name of the task.
* @param priority Priority of task.
* @param entry Entry function.
* @param stack_size size of stack (in bytes)
* @param groups Groups this task belong to.
*/
#define DEFINE_TASK(name, priority, entry, stack_size, groups) \
extern void entry(void); \
char __noinit __stack __stack_##name[stack_size]; \
struct k_task _k_task_obj_##name \
__in_section(_k_task_list, private, task) = \
__K_TASK_INITIALIZER( \
(ktask_t)&_k_task_obj_##name, \
priority, 0x00000001, groups, \
entry, &__stack_##name[0], stack_size, NULL); \
const ktask_t name \
__in_section(_k_task_ptr, private, task) = \
(ktask_t)&_k_task_obj_##name;
#ifdef __cplusplus
}
#endif
/**
* @}
*/
#endif /* TASK_H */