Difference between revisions of "OCEOS/oceos kernel/task"
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=<span style="color:#0000ff">'''OCEOS Task'''</span>= | =<span style="color:#0000ff">'''OCEOS Task'''</span>= | ||
==<span style="color:#0000ff">Introduction</span>== | ==<span style="color:#0000ff">Task Introduction</span>== | ||
In OCEOS all tasks are defined before scheduling begins and each task assigned a fixed priority, a pre-emption threshold, a current jobs limit, a maximum start to completion time, and an expected minimum inter start request time. | In OCEOS all tasks are defined before scheduling begins and each task assigned a fixed priority, a pre-emption threshold, a current jobs limit, a maximum start to completion time, and an expected minimum inter start request time. | ||
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For each task a record is kept of the shortest time between attempts to create a new job, and a record of the maximum time between these attempts. | For each task a record is kept of the shortest time between attempts to create a new job, and a record of the maximum time between these attempts. | ||
For each task a record is kept also of the maximum time a job was waiting before starting, the minimum execution time, the maximum execution time, the maximum time from job creation to completion, and the maximum number of job pre-emptions. The system state variable is updated if necessary.<br> | For each task a record is kept also of the maximum time a job was waiting before starting, the minimum execution time, the maximum execution time, the maximum time from job creation to completion, and the maximum number of job pre-emptions. The system state variable is updated if necessary.<br> | ||
Task chaining is supported. A job can create a new job and pass this to the scheduler or place it on the timed actions queue.<br> | Task chaining is supported. A job can create a new job and pass this to the scheduler or place it on the [[OCEOS/oceos introduction#Timed_Actions_Queue|timed actions queue]] .<br> | ||
Tasks provide a start address for a termination routine for use if task execution must be abandoned. | Tasks provide a start address for a termination routine for use if task execution must be abandoned. | ||
<blockquote style="background-color: #c6e2f7; border-left-style: solid; border-left-width: 3px; border-left-color: blue; "> '''Note'''<br> | <blockquote style="background-color: #c6e2f7; border-left-style: solid; border-left-width: 3px; border-left-color: blue; "> '''Note'''<br> | ||
All Tasks must be created before [[OCEOS/oceos kernel/initialisation#oceos_init_finish()|oceos_init_finish()]] is called. | All Tasks must be created before [[OCEOS/oceos kernel/initialisation#oceos_init_finish()|oceos_init_finish()]] is called. | ||
</blockquote> | |||
==<span style="color:#0000ff">Task Configuration</span>== | |||
<blockquote> | |||
User must define NUMBER_OF_TASKS. The example can be found in OCEOS demo projects.<br> | |||
User must create defined number of tasks before calling [[OCEOS/oceos kernel/initialisation#oceos_init_finish()|oceos_init_finish()]] | |||
<syntaxhighlight lang="C"> | |||
#define NUMBER_OF_TASKS 2 | |||
/* | |||
* Create the application configuration structure | |||
*/ | |||
struct application_configuration app_config = {0}; | |||
app_config.number_of_tasks = NUMBER_OF_TASKS; // >= 1 | |||
</syntaxhighlight> | |||
</blockquote> | |||
<blockquote> | |||
User must define NUMBER_OF_READYQ_ENTRIES. The example can be found in OCEOS demo projects.<br> | |||
Number of ready queue entries, 0 to 254. Defaults to number of tasks, as each task should have at least one job. | |||
If Number of ready queue entries is larger that number of total jobs it defaults to number of total jobs | |||
<syntaxhighlight lang="C"> | |||
#define NUMBER_OF_READYQ_ENTRIES 5 | |||
/* | |||
* Create the application configuration structure | |||
*/ | |||
struct application_configuration app_config = {0}; | |||
app_config.number_of_readyQ_entries = NUMBER_OF_READYQ_ENTRIES; // 0 => calculate size | |||
</syntaxhighlight> | |||
</blockquote> | </blockquote> | ||
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Current task is terminated and back to scheduler. This task can be restarted later.<br> | Current task is terminated and back to scheduler. This task can be restarted later.<br> | ||
If oceos_task_kill() is called from IRQ handler, the task is terminated when IRQ nesting is unraveled.<br> | If oceos_task_kill() is called from IRQ handler, the task is terminated when IRQ nesting is unraveled.<br> | ||
The user provided | The user provided '''end_function''' for this task when created with [[OCEOS/oceos kernel/task#oceos_task_create()|oceos_task_create()]] is called from the scheduler.<br> | ||
OCEOS can only kill the current job due to its single stack design. Application scenarios where this directive could be used include:<br> | OCEOS can only kill the current job due to its single stack design. Application scenarios where this directive could be used include:<br> | ||
* Application regular interrupt checking job status<br> | * Application regular interrupt checking job status<br> | ||
If such an application interrupt detected an error in the current job it can call oceos_task_kill() as part of its recovery actions. | If such an application interrupt detected an error in the current job it can call oceos_task_kill() as part of its recovery actions. | ||
* oceos_on_error()<br> | * oceos_on_error()<br> | ||
OCEOS calls oceos_on_error(TODO ADD THE LINK TO DESCRIPTION OF THIS FUNCTION) in the case of a system error. This is user implemented function where application recovery code is located.<br> | OCEOS calls oceos_on_error(<span style="color:red">TODO ADD THE LINK TO DESCRIPTION OF THIS FUNCTION</span>) in the case of a system error. This is user implemented function where application recovery code is located.<br> | ||
oceos_task_kill() is a possible directive to be used as part of error recovery. | oceos_task_kill() is a possible directive to be used as part of error recovery. | ||
<span style="color:#1b7ac2">'''Prototype'''</span><br> | <span style="color:#1b7ac2">'''Prototype'''</span><br> | ||
<syntaxhighlight lang="C"> | <syntaxhighlight lang="C"> | ||
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<span style="color:#1b7ac2">'''Description'''</span><br> | <span style="color:#1b7ac2">'''Description'''</span><br> | ||
Get task information for task with ID.<br> | |||
User must pass pointer to struct task_info in order to retrieve data. | |||
<span style="color:#1b7ac2">'''Prototype'''</span><br> | <span style="color:#1b7ac2">'''Prototype'''</span><br> | ||
<syntaxhighlight lang="C"> | <syntaxhighlight lang="C"> | ||
enum DIRECTIVE_STATUS oceos_task_get_info ( | |||
const unsigned int Task, // Task ID | |||
struct task_info *info // Pointer to struct task_info | |||
); | |||
</syntaxhighlight> | </syntaxhighlight> | ||
<span style="color:#1b7ac2">'''Parameters'''</span><br> | <span style="color:#1b7ac2">'''Parameters'''</span><br> | ||
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! Parameter !! Description | ! Parameter !! Description | ||
|- | |- | ||
| | | task_id || Task ID | ||
|- | |||
| info || Pointer to struct task_info | |||
|} | |} | ||
<span style="color:#1b7ac2">'''Returns'''</span><br> | <span style="color:#1b7ac2">'''Returns'''</span><br> | ||
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! enum DIRECTIVE_STATUS !! Description | ! enum DIRECTIVE_STATUS !! Description | ||
|- | |- | ||
| | |NOT_CONFIGURED || System Meta pointer is NULL or | ||
Fixed data start sentinel is corrupt | |||
|- | |||
|INCORRECT_STATE || Called while initialisation is ongoing | |||
|- | |||
|INTERNAL_ERROR || Dynamic Meta pointer is NULL | |||
|- | |- | ||
| | |INVALID_ID || Failed on task ID check | ||
|- | |- | ||
| | |NOT_DEFINED || Pointer to task_info is NULL | ||
|- | |- | ||
| SUCCESSFUL | |SUCCESSFUL || All is OK and data is valid | ||
|} | |} | ||
<span style="color:#1b7ac2">'''Example Usage'''</span><br> | <span style="color:#1b7ac2">'''Example Usage'''</span><br> | ||
<syntaxhighlight lang="C"> | <syntaxhighlight lang="C"> | ||
/** | |||
* task info to be used with oceos_task_get_info | |||
*/ | |||
struct task_info { | |||
unsigned int jobs_current_max :16; // maximum number of current jobs for this task, no roll over, can be reset | |||
unsigned int jobs_total :16; // number of times this task was started, no roll-over, can be reset | |||
unsigned int jobs_current; // Number of task instances currently in use by oceos | |||
U32_t time_max_delay; // maximum time job is waiting on ready queue before becoming active | |||
U32_t time_max_finish; // maximum time to finish job execution after starting | |||
U32_t time_max_exec; // maximum time spent executing | |||
U32_t time_total_exec_low; // total CPU time used by this task low bits | |||
U32_t time_total_exec_high; // total CPU time used by this task high bits | |||
U32_t time_min_gap_starts; // minimum time between job creations, can be reset | |||
U32_t time_min_gap_finish_start; // minimum time between job ending and new job creation, can be reset | |||
U32_t time_last_start; // time of most recent job creation | |||
U32_t time_last_finish; // time of most recent job finish | |||
U32_t preempt_max; // maximum times any job was pre-empted, no roll-over, can be reset | |||
}; | |||
enum TASK_NAME{ | |||
t_tom, // will have task ID 0 | |||
t_dick, // will have task ID 1 | |||
}; | |||
... | |||
struct task_info info; | |||
enum DIRECTIVE_STATUS status; | |||
status = oceos_task_get_info(t_tom, &info); | |||
if (SUCCESS != status) { | |||
// Deal with the problem | |||
return status; | |||
} | |||
</syntaxhighlight> | </syntaxhighlight> | ||
</blockquote> | </blockquote> |
Latest revision as of 09:53, 24 March 2022
OCEOS Task
Task Introduction
In OCEOS all tasks are defined before scheduling begins and each task assigned a fixed priority, a pre-emption threshold, a current jobs limit, a maximum start to completion time, and an expected minimum inter start request time.
A task’s pre-emption threshold limits the tasks that can pre-empt it to those with higher priority than this threshold. Tasks with short run times can use this to avoid context switch overheads.
Each task has two main states, enabled or disabled. OCEOS provides system calls to change task state. The state is usually enabled when the task is created, but can be initially disabled.
A disabled task will not be executed, and any attempt to start it will be logged and the system state variable updated.
A request to start an enabled task creates an execution instance of the task, a ‘job’. A count is kept for each task of the number of times it has been started, i.e. total number of jobs created.
Multiple jobs of the same task can be in existence simultaneously. A limit for the maximum number of these current jobs is set when a task is created, the ‘current jobs limit’.
Each task has a current jobs count. This increments each time a task is started and decrements on job completion unless completion creates a further job from this task.
A further execution instance of a task is not created if the current jobs count has reached the current jobs limit. Such job creation failures are logged and the system state updated.
For each task a record is kept of the shortest time between attempts to create a new job, and a record of the maximum time between these attempts.
For each task a record is kept also of the maximum time a job was waiting before starting, the minimum execution time, the maximum execution time, the maximum time from job creation to completion, and the maximum number of job pre-emptions. The system state variable is updated if necessary.
Task chaining is supported. A job can create a new job and pass this to the scheduler or place it on the timed actions queue .
Tasks provide a start address for a termination routine for use if task execution must be abandoned.
Note
All Tasks must be created before oceos_init_finish() is called.
Task Configuration
User must define NUMBER_OF_TASKS. The example can be found in OCEOS demo projects.
User must create defined number of tasks before calling oceos_init_finish()#define NUMBER_OF_TASKS 2 /* * Create the application configuration structure */ struct application_configuration app_config = {0}; app_config.number_of_tasks = NUMBER_OF_TASKS; // >= 1
User must define NUMBER_OF_READYQ_ENTRIES. The example can be found in OCEOS demo projects.
Number of ready queue entries, 0 to 254. Defaults to number of tasks, as each task should have at least one job. If Number of ready queue entries is larger that number of total jobs it defaults to number of total jobs#define NUMBER_OF_READYQ_ENTRIES 5 /* * Create the application configuration structure */ struct application_configuration app_config = {0}; app_config.number_of_readyQ_entries = NUMBER_OF_READYQ_ENTRIES; // 0 => calculate size
API Functions
Directive | Description | main | task | IRQ handler |
---|---|---|---|---|
oceos_task_create() | Create Task | * | ||
oceos_task_start() | Start Task | * | * | |
oceos_task_timed_start() | Schedule a task to start execution at a given system time | * | * | |
oceos_task_disable() | Disable Task | * | * | |
oceos_task_enable() | Enable Task | * | * | |
oceos_task_self() | Returns the task ID of the currently executing task | * | * | |
oceos_task_get_priority() | Get priority of a task | * | * | |
oceos_task_get_status() | Get status of a task | * | * | |
oceos_task_kill() | Directive to terminate current task | * | * | |
oceos_task_get_info() | Get task information | * | * |
oceos_task_create()
Header File
tasks.h
Description
Create a task. Can only be use before OCEOS starts. Stores the task information in the OCEOS fixed data area. This directive populates the data structures for a task. It should be called after oceos_init() and before oceos_init_finish().
It must be called for each task otherwise oceos_start() will return an error.Prototype
enum DIRECTIVE_STATUS oceos_task_create( unsigned int taskID, // unique, 0 to TASKS_MAX_ID U32_t priority, // TASK_MAX_PRIORITY to TASK_MIN_PRIORITY U32_t threshold, // TASK_MAX_PRIORITY to priority U32_t jobs_max, // 1 to JOBS_MAX BOOLE_t FP_used, // whether uses floating point hardware BOOLE_t initially_enabled, // whether task enabled initially void (void *) start_function,// task start address void (void *) end_function, // start of task end function U32_t time_deadline, // maximum time to complete (ignore if 0) U32_t time_mininterstart // minimum time between start requests );Parameters
Parameter Description taskID Unique task ID from 0 to TASKS_MAX_ID priority TASK_MAX_PRIORITY to TASK_MIN_PRIORITY threshold TASK_MAX_PRIORITY to priority jobs_max Number of 1 to JOBS_MAX FP_used whether uses floating point hardware initially_enabled whether task enabled initially start_function task start address end_function start of task end function time_deadline maximum time to complete (ignore if 0) time_mininterstart minimum time between start requests Returns
This function returns enum DIRECTIVE_STATUS.
enum DIRECTIVE_STATUS Description INCORRECT_STATE Init Meta Pointer is NULL or Pointer to Task fixed data is NULL
TOO_MANY Exceeds number of MAX Tasks or Exceeds number of MAX Jobs
INTERNAL_ERROR System Meta pointer is NULL or System Meta pointer start sentinel is corrupt
INVALID_ID Failed on task ID check INVALID_NAME Task ID is already in use INVALID_PRIORITY Failed on task priority check INVALID_NUMBER Failed on task threshold check INVALID_SIZE Failed on task max job check SUCCESSFUL All is OK Example Usage
enum TASK_NAME{ t_tom, // will have task ID 0 t_dick, // will have task ID 1 }; extern int task_tom_start(void* data); ... enum DIRECTIVE_STATUS status; // Task 0: priority 10, max jobs 1, enabled (consumer task) status = oceos_task_create(t_tom, // unique, 0 to TASKS_MAX_ID 10, // TASK_MAX_PRIORITY to TASK_MIN_PRIORITY 10, // TASK_MAX_PRIORITY to priority 1, // 1 to JOBS_MAX 0, // whether uses floating point hardware TASK_ENABLED, // whether task enabled initially task_tom_start, // task start address NULL, // start of task end function 0, // maximum time to complete (ignore if 0) 0 // minimum time between start requests );
oceos_task_start()
Header File
tasks.h
Description
Starting a task involves three main stages:
- Setting up a job
- Finding a free job entry
- Setting up this entry
- Placing the job on ready queue
- Doing a context switch
This function should only be called after OCEOS is initialized and the dynamic task and job structures are set up.
When used from an interrupt handler, the context switch is only done after all nested interrupts have unwound.
Note
FOR SPARC ONLY : Tasks can be started in IRQ routines but CANNOT be started in TRAP handlers.
Prototype
enum DIRECTIVE_STATUS oceos_task_start( const unsigned int taskID, // task ID, must be in range 0 to 254 void * const ptr // pointer to data );Parameters
Parameter Description taskID Task ID must be in range 0 to 254 ptr Pointer to task data Returns
This function returns enum DIRECTIVE_STATUS.
enum DIRECTIVE_STATUS Description NOT_CONFIGURED System Meta pointer is NULL or Fixed data start sentinel is corrupt INCORRECT_STATE One of the System Meta pointers is NULL INVALID_ID Failed on task ID check INCORRECT_STATE Tried to start disabled task TOO_MANY Max number of jobs(requests to start) for task is exceeded FAILED_TO_PUT_JOB_ON_REDYQ Failed to put job for task on ready Q SUCCESSFUL All is OK Example Usage
enum TASK_NAME{ t_tom, // will have task ID 0 t_dick, // will have task ID 1 }; ... enum DIRECTIVE_STATUS status; status = oceos_task_start(t_tom, NULL); if (SUCCESS != status) { // Deal with the problem return status; }
oceos_task_timed_start()
Header File
tasks.h
Description
Schedule a task to start execution at a given system time.
The before and after offsets define a window around the selected time in which the task may be started.
If the current system time is before the start window a job is created and a corresponding action put on the timed action queue.
If the current system time is within the time window for starting the task, it is started immediately.
If the current system time is after the window, an error is reported.
return_job_id can be stored and used later to cancel if need.
Times are in microseconds.
This function should only be used after oceos_start() is called.Note
This directive can only be called if timed actions (software timers) are initialized. Please see HERE.
Prototype
enum DIRECTIVE_STATUS oceos_task_timed_start( const unsigned int taskID,// Task ID void * const ptr, // data to be used by task U64_t start_time, // system time at which task should start U32_t before, // offset before time in which start o.k. U32_t after, // offset after time in which start o.k. U32_t *return_job_id // in case need to cancel later );Parameters
Parameter Description taskID Task ID must be in range 0 to 254 ptr Pointer to data start_time System time at which job should start before Forward tolerance for time after Backward tolerance for time return_job_id Return job_id to the user, to remove this job from timed action if needed Returns
This function returns enum DIRECTIVE_STATUS.
enum DIRECTIVE_STATUS Description NOT_CONFIGURED System Meta pointer is NULL or Fixed data start sentinel is corrupt
INCORRECT_STATE One of the System Meta pointers is NULL or System time is not initialized or Tried to start disabled task
INVALID_ID Failed on task ID check UNSATISFIED System time is greater when start time plus after time TOO_MANY Max number of jobs(requests to start) for task is exceeded INTERNAL_ERROR Failed to put job for task on ready Q SUCCESSFUL All is OK Example Usage
enum TASK_NAME{ t_tom, // will have task ID 0 t_dick, // will have task ID 1 }; ... enum DIRECTIVE_STATUS status; U32_t return_job_id = 0; U64_t time = oceos_time_sys_get64(); status = oceos_task_timed_start(t_tom, // Task ID must be in range 0 to 254 NULL, // Pointer to data time + 1000000, // System time at which job should start 1000, // Forward tolerance for time 1000, // Backward tolerance for time &return_job_id // Return job_id to the user, to remove this job from timed action if needed ); if (SUCCESS != status) { // Handle ERROR return status; }
oceos_task_disable()
Header File
tasks.h
Description
Disable a task and remove any current pending jobs on ready queue. A disabled task's jobs will not be put into execution nor put on ready queue.Note
If execution of a task has already commenced, disabling the task will not prevent it from completing.
Prototype
enum DIRECTIVE_STATUS oceos_task_disable( const unsigned int taskID // task ID, must be in range 0 to 254 );Parameters
Parameter Description taskID Task ID must be in range 0 to 254 Returns
This function returns enum DIRECTIVE_STATUS.
enum DIRECTIVE_STATUS Description NOT_CONFIGURED System Meta pointer is NULL or Fixed data start sentinel is corrupt
INTERNAL_ERROR One of the System Meta pointers is NULL or Dynamic Meta pointer is NULL
INVALID_ID Failed on task ID check ALREADY_SUSPENDED Task is already disabled SUCCESSFUL All is OK Example Usage
enum TASK_NAME{ t_tom, // will have task ID 0 t_dick, // will have task ID 1 }; ... enum DIRECTIVE_STATUS status; status = oceos_task_disable(t_tom); if (SUCCESS != status) { // Deal with the problem return status; }
oceos_task_enable()
Header File
tasks.h
Description
Enable a task - only enabled tasks are placed on ready queue or started.
Prototype
enum DIRECTIVE_STATUS oceos_task_enable( const unsigned int taskID // task ID, must be in range 0 to 254 );Parameters
Parameter Description taskID Task ID must be in range 0 to 254 Returns
This function returns enum DIRECTIVE_STATUS.
enum DIRECTIVE_STATUS Description NOT_CONFIGURED System Meta pointer is NULL or Fixed data start sentinel is corrupt
INCORRECT_STATE One of the System Meta pointers is NULL INTERNAL_ERROR Dynamic Meta pointer is NULL INVALID_ID Failed on task ID check ALREADY_SUSPENDED Task is already disabled SUCCESSFUL All is OK Example Usage
enum TASK_NAME{ t_tom, // will have task ID 0 t_dick, // will have task ID 1 }; ... enum DIRECTIVE_STATUS status; status = oceos_task_enable(t_tom); if (SUCCESS != status) { // Deal with the problem return status; }
oceos_task_self()
Header File
tasks.h
Description
Get the task ID of the current jobPrototype
unsigned int oceos_task_self();Parameters
Parameter Description Returns
This function returns enum DIRECTIVE_STATUS.
unsigned int Description ID Task ID of currently executing job TASK_ID_INVALID ERROR Example Usage
U32_t id; id = oceos_task_self(); if (TASK_ID_INVALID == id) { // Handle ERROR }
oceos_task_get_priority()
Header File
tasks.h
Description
Get priority of a task. The higher number is lower priority.Prototype
U8_t oceos_task_get_priority( const unsigned int taskID // task ID, must be in range 0 to 254 );Parameters
Parameter Description taskID Task ID must be in range 0 to 254 Returns
This function returns U8_t.
U8_t Description priority Priority of the given task ID TASK_INVALID_PRIORITY ERROR Example Usage
enum TASK_NAME{ t_tom, // will have task ID 0 t_dick, // will have task ID 1 }; ... U32_t priority; priority = oceos_task_get_priority(t_tom); if (TASK_INVALID_PRIORITY == priority ) { // Handle ERROR }
oceos_task_get_status()
Header File
tasks.h
Description
Get status of a task.Prototype
enum TASK_STATUS oceos_task_get_status( const unsigned int taskID // task ID, must be in range 0 to 254 );Parameters
Parameter Description taskID Task ID must be in range 0 to 254 Returns
This function returns enum TASK_STATUS.
enum TASK_STATUS Description TASK_DISABLED Cannot be scheduled, and no current jobs TASK_ENABLED Can be scheduled, but no current jobs TASK_INVALID Task does not exist Example Usage
enum TASK_NAME{ t_tom, // will have task ID 0 t_dick, // will have task ID 1 }; ... enum TASK_STATUS status; status = oceos_task_get_status(t_tom); if (TASK_ENABLED == status) { // Do Something } else if (TASK_DISABLED == status) { // Do Something } else { // Handle ERROR }
oceos_task_kill()
Header File
tasks.h
Description
Directive to terminate current task when undesired behavior was detected.
Current task is terminated and back to scheduler. This task can be restarted later.
If oceos_task_kill() is called from IRQ handler, the task is terminated when IRQ nesting is unraveled.
The user provided end_function for this task when created with oceos_task_create() is called from the scheduler.
OCEOS can only kill the current job due to its single stack design. Application scenarios where this directive could be used include:
- Application regular interrupt checking job status
If such an application interrupt detected an error in the current job it can call oceos_task_kill() as part of its recovery actions.
- oceos_on_error()
OCEOS calls oceos_on_error(TODO ADD THE LINK TO DESCRIPTION OF THIS FUNCTION) in the case of a system error. This is user implemented function where application recovery code is located.
oceos_task_kill() is a possible directive to be used as part of error recovery.Prototype
enum DIRECTIVE_STATUS oceos_task_kill();Parameters
Parameter Description Returns
This function returns enum DIRECTIVE_STATUS.
enum DIRECTIVE_STATUS Description NOT_CONFIGURED System Meta pointer is NULL or Fixed data start sentinel is corrupt
INCORRECT_STATE Called while initialisation is ongoing or Scheduling is not started
INTERNAL_ERROR Dynamic Meta pointer is NULL SUCCESSFUL All is OK (only return this if was called from IRQ handler) Example Usage
enum DIRECTIVE_STATUS status; status = oceos_task_kill(); if (SUCCESSFUL != status ) { // Handle ERROR }
oceos_task_get_info()
Header File
tasks.h
Description
Get task information for task with ID.
User must pass pointer to struct task_info in order to retrieve data.Prototype
enum DIRECTIVE_STATUS oceos_task_get_info ( const unsigned int Task, // Task ID struct task_info *info // Pointer to struct task_info );Parameters
Parameter Description task_id Task ID info Pointer to struct task_info Returns
This function returns enum DIRECTIVE_STATUS.
enum DIRECTIVE_STATUS Description NOT_CONFIGURED System Meta pointer is NULL or Fixed data start sentinel is corrupt
INCORRECT_STATE Called while initialisation is ongoing INTERNAL_ERROR Dynamic Meta pointer is NULL INVALID_ID Failed on task ID check NOT_DEFINED Pointer to task_info is NULL SUCCESSFUL All is OK and data is valid Example Usage
/** * task info to be used with oceos_task_get_info */ struct task_info { unsigned int jobs_current_max :16; // maximum number of current jobs for this task, no roll over, can be reset unsigned int jobs_total :16; // number of times this task was started, no roll-over, can be reset unsigned int jobs_current; // Number of task instances currently in use by oceos U32_t time_max_delay; // maximum time job is waiting on ready queue before becoming active U32_t time_max_finish; // maximum time to finish job execution after starting U32_t time_max_exec; // maximum time spent executing U32_t time_total_exec_low; // total CPU time used by this task low bits U32_t time_total_exec_high; // total CPU time used by this task high bits U32_t time_min_gap_starts; // minimum time between job creations, can be reset U32_t time_min_gap_finish_start; // minimum time between job ending and new job creation, can be reset U32_t time_last_start; // time of most recent job creation U32_t time_last_finish; // time of most recent job finish U32_t preempt_max; // maximum times any job was pre-empted, no roll-over, can be reset }; enum TASK_NAME{ t_tom, // will have task ID 0 t_dick, // will have task ID 1 }; ... struct task_info info; enum DIRECTIVE_STATUS status; status = oceos_task_get_info(t_tom, &info); if (SUCCESS != status) { // Deal with the problem return status; }