/* 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 /* * 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 runnable * task. With task_yield(), the effect of round-robin scheduling is * possible. When no task of equal priority is runnable, 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. When the calling task no longer is the * highest-priority runnable task, a task switch occurs. * * Priority can be assigned in the range 0 to 62, where 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 * needed only when an entry point differs from what is set in the project * file. In order to have any effect, it must be called before task_start(), * and it cannot work with members of the EXE group or with any group that * starts automatically on application loading. * * 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 runs 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 (*func)(), void *argp); /* * 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 Gets task identifier * * @return identifier for current task */ extern ktask_t task_id_get(void); /** * @brief Gets 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 */