doc/kernel/timing/timers.rst - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 .. _timers_v2:

 Timers
 ######

 A :dfn:`timer` is a kernel object that measures the passage of time
 using the kernel's system clock. When a timer's specified time limit
 is reached it can perform an application-defined action,
 or it can simply record the expiration and wait for the application
 to read its status.

 .. contents::
     :local:
     :depth: 2

 Concepts
 ********

 Any number of timers can be defined. Each timer is referenced by its
 memory address.

 A timer has the following key properties:

 * A :dfn:`duration` specifying the time interval before the timer expires
   for the first time, measured in milliseconds. It must be greater than zero.

 * A :dfn:`period` specifying the time interval between all timer expirations
   after the first one, measured in milliseconds. It must be non-negative.
   A period of zero means that the timer is a one shot timer that stops
   after a single expiration. (For example then, if a timer is started with a
   duration of 200 and a period of 75, it will first expire after 200ms and
   then every 75ms after that.)

 * An :dfn:`expiry function` that is executed each time the timer expires.
   The function is executed by the system clock interrupt handler.
   If no expiry function is required a :c:macro:`NULL` function can be specified.

 * A :dfn:`stop function` that is executed if the timer is stopped prematurely
   while running. The function is executed by the thread that stops the timer.
   If no stop function is required a :c:macro:`NULL` function can be specified.

 * A :dfn:`status` value that indicates how many times the timer has expired
   since the status value was last read.

 A timer must be initialized before it can be used. This specifies its
 expiry function and stop function values, sets the timer's status to zero,
 and puts the timer into the **stopped** state.

 A timer is **started** by specifying a duration and a period.
 The timer's status is reset to zero, then the timer enters
 the **running** state and begins counting down towards expiry.

 When a running timer expires its status is incremented
 and the timer executes its expiry function, if one exists;
 If a thread is waiting on the timer, it is unblocked.
 If the timer's period is zero the timer enters the stopped state;
 otherwise the timer restarts with a new duration equal to its period.

 A running timer can be stopped in mid-countdown, if desired.
 The timer's status is left unchanged, then the timer enters the stopped state
 and executes its stop function, if one exists.
 If a thread is waiting on the timer, it is unblocked.
 Attempting to stop a non-running timer is permitted,
 but has no effect on the timer since it is already stopped.

 A running timer can be restarted in mid-countdown, if desired.
 The timer's status is reset to zero, then the timer begins counting down
 using the new duration and period values specified by the caller.
 If a thread is waiting on the timer, it continues waiting.

 A timer's status can be read directly at any time to determine how many times
 the timer has expired since its status was last read.
 Reading a timer's status resets its value to zero.
 The amount of time remaining before the timer expires can also be read;
 a value of zero indicates that the timer is stopped.

 A thread may read a timer's status indirectly by **synchronizing**
 with the timer. This blocks the thread until the timer's status is non-zero
 (indicating that it has expired at least once) or the timer is stopped;
 if the timer status is already non-zero or the timer is already stopped
 the thread continues without waiting. The synchronization operation
 returns the timer's status and resets it to zero.

 .. note::
     Only a single user should examine the status of any given timer,
     since reading the status (directly or indirectly) changes its value.
     Similarly, only a single thread at a time should synchronize
     with a given timer. ISRs are not permitted to synchronize with timers,
     since ISRs are not allowed to block.

 Timer Limitations
 =================

 Since timers are based on the system clock, the delay values specified
 when using a timer are **minimum** values.
 (See :ref:`clock_limitations`.)

 Implementation
 **************

 Defining a Timer
 ================

 A timer is defined using a variable of type :c:type:`struct k_timer`.
 It must then be initialized by calling :cpp:func:`k_timer_init()`.

 The following code defines and initializes a timer.

 .. code-block:: c

     struct k_timer my_timer;
     extern void my_expiry_function(struct k_timer *timer_id);

     k_timer_init(&my_timer, my_expiry_function, NULL);

 Alternatively, a timer can be defined and initialized at compile time
 by calling :c:macro:`K_TIMER_DEFINE`.

 The following code has the same effect as the code segment above.

 .. code-block:: c

     K_TIMER_DEFINE(my_timer, my_expiry_function, NULL);

 Using a Timer Expiry Function
 =============================

 The following code uses a timer to perform a non-trivial action on a periodic
 basis. Since the required work cannot be done at interrupt level,
 the timer's expiry function submits a work item to the
 :ref:`system workqueue <workqueues_v2>`, whose thread performs the work.

 .. code-block:: c

     void my_work_handler(struct k_work *work)
     {
         /* do the processing that needs to be done periodically */
         ...
     }

     K_WORK_DEFINE(my_work, my_work_handler);

     void my_timer_handler(struct k_timer *dummy)
     {
         k_work_submit(&my_work);
     }

     K_TIMER_DEFINE(my_timer, my_timer_handler, NULL);

     ...

     /* start periodic timer that expires once every second */
     k_timer_start(&my_timer, K_SECONDS(1), K_SECONDS(1));

 Reading Timer Status
 ====================

 The following code reads a timer's status directly to determine
 if the timer has expired on not.

 .. code-block:: c

     K_TIMER_DEFINE(my_status_timer, NULL, NULL);

     ...

     /* start one shot timer that expires after 200 ms */
     k_timer_start(&my_status_timer, K_MSEC(200), 0);

     /* do work */
     ...

     /* check timer status */
     if (k_timer_status_get(&my_status_timer) > 0) {
         /* timer has expired */
     } else if (k_timer_remaining_get(&my_status_timer) == 0) {
         /* timer was stopped (by someone else) before expiring */
     } else {
         /* timer is still running */
     }

 Using Timer Status Synchronization
 ==================================

 The following code performs timer status synchronization to allow a thread
 to do useful work while ensuring that a pair of protocol operations
 are separated by the specified time interval.

 .. code-block:: c

     K_TIMER_DEFINE(my_sync_timer, NULL, NULL);

     ...

     /* do first protocol operation */
     ...

     /* start one shot timer that expires after 500 ms */
     k_timer_start(&my_sync_timer, K_MSEC(500), 0);

     /* do other work */
     ...

     /* ensure timer has expired (waiting for expiry, if necessary) */
     k_timer_status_sync(&my_sync_timer);

     /* do second protocol operation */
     ...

 .. note::
     If the thread had no other work to do it could simply sleep
     between the two protocol operations, without using a timer.

 Suggested Uses
 **************

 Use a timer to initiate an asynchronous operation after a specified
 amount of time.

 Use a timer to determine whether or not a specified amount of time
 has elapsed.

 Use a timer to perform other work while carrying out operations
 involving time limits.

 .. note::
    If a thread has no other work to perform while waiting for time to pass
    it should call :cpp:func:`k_sleep()`.
    If a thread needs to measure the time required to perform an operation
    it can read the :ref:`system clock or the hardware clock <clocks_v2>`
    directly, rather than using a timer.

 Configuration Options
 *********************

 Related configuration options:

 * None.

 APIs
 ****

 The following timer APIs are provided by :file:`kernel.h`:

 * :c:macro:`K_TIMER_DEFINE`
 * :cpp:func:`k_timer_init()`
 * :cpp:func:`k_timer_start()`
 * :cpp:func:`k_timer_stop()`
 * :cpp:func:`k_timer_status_get()`
 * :cpp:func:`k_timer_status_sync()`
 * :cpp:func:`k_timer_remaining_get()`
	.. _timers_v2:

	Timers
	######

	A :dfn:`timer` is a kernel object that measures the passage of time
	using the kernel's system clock. When a timer's specified time limit
	is reached it can perform an application-defined action,
	or it can simply record the expiration and wait for the application
	to read its status.

	.. contents::
	:local:
	:depth: 2

	Concepts
	********

	Any number of timers can be defined. Each timer is referenced by its
	memory address.

	A timer has the following key properties:

	* A :dfn:`duration` specifying the time interval before the timer expires
	for the first time, measured in milliseconds. It must be greater than zero.

	* A :dfn:`period` specifying the time interval between all timer expirations
	after the first one, measured in milliseconds. It must be non-negative.
	A period of zero means that the timer is a one shot timer that stops
	after a single expiration. (For example then, if a timer is started with a
	duration of 200 and a period of 75, it will first expire after 200ms and
	then every 75ms after that.)

	* An :dfn:`expiry function` that is executed each time the timer expires.
	The function is executed by the system clock interrupt handler.
	If no expiry function is required a :c:macro:`NULL` function can be specified.

	* A :dfn:`stop function` that is executed if the timer is stopped prematurely
	while running. The function is executed by the thread that stops the timer.
	If no stop function is required a :c:macro:`NULL` function can be specified.

	* A :dfn:`status` value that indicates how many times the timer has expired
	since the status value was last read.

	A timer must be initialized before it can be used. This specifies its
	expiry function and stop function values, sets the timer's status to zero,
	and puts the timer into the stopped state.

	A timer is started by specifying a duration and a period.
	The timer's status is reset to zero, then the timer enters
	the running state and begins counting down towards expiry.

	When a running timer expires its status is incremented
	and the timer executes its expiry function, if one exists;
	If a thread is waiting on the timer, it is unblocked.
	If the timer's period is zero the timer enters the stopped state;
	otherwise the timer restarts with a new duration equal to its period.

	A running timer can be stopped in mid-countdown, if desired.
	The timer's status is left unchanged, then the timer enters the stopped state
	and executes its stop function, if one exists.
	If a thread is waiting on the timer, it is unblocked.
	Attempting to stop a non-running timer is permitted,
	but has no effect on the timer since it is already stopped.

	A running timer can be restarted in mid-countdown, if desired.
	The timer's status is reset to zero, then the timer begins counting down
	using the new duration and period values specified by the caller.
	If a thread is waiting on the timer, it continues waiting.

	A timer's status can be read directly at any time to determine how many times
	the timer has expired since its status was last read.
	Reading a timer's status resets its value to zero.
	The amount of time remaining before the timer expires can also be read;
	a value of zero indicates that the timer is stopped.

	A thread may read a timer's status indirectly by synchronizing
	with the timer. This blocks the thread until the timer's status is non-zero
	(indicating that it has expired at least once) or the timer is stopped;
	if the timer status is already non-zero or the timer is already stopped
	the thread continues without waiting. The synchronization operation
	returns the timer's status and resets it to zero.

	.. note::
	Only a single user should examine the status of any given timer,
	since reading the status (directly or indirectly) changes its value.
	Similarly, only a single thread at a time should synchronize
	with a given timer. ISRs are not permitted to synchronize with timers,
	since ISRs are not allowed to block.

	Timer Limitations
	=================

	Since timers are based on the system clock, the delay values specified
	when using a timer are minimum values.
	(See :ref:`clock_limitations`.)

	Implementation
	**************

	Defining a Timer
	================

	A timer is defined using a variable of type :c:type:`struct k_timer`.
	It must then be initialized by calling :cpp:func:`k_timer_init()`.

	The following code defines and initializes a timer.

	.. code-block:: c

	struct k_timer my_timer;
	extern void my_expiry_function(struct k_timer *timer_id);

	k_timer_init(&my_timer, my_expiry_function, NULL);

	Alternatively, a timer can be defined and initialized at compile time
	by calling :c:macro:`K_TIMER_DEFINE`.

	The following code has the same effect as the code segment above.

	.. code-block:: c

	K_TIMER_DEFINE(my_timer, my_expiry_function, NULL);

	Using a Timer Expiry Function
	=============================

	The following code uses a timer to perform a non-trivial action on a periodic
	basis. Since the required work cannot be done at interrupt level,
	the timer's expiry function submits a work item to the
	:ref:`system workqueue <workqueues_v2>`, whose thread performs the work.

	.. code-block:: c

	void my_work_handler(struct k_work *work)
	{
	/* do the processing that needs to be done periodically */
	...
	}

	K_WORK_DEFINE(my_work, my_work_handler);

	void my_timer_handler(struct k_timer *dummy)
	{
	k_work_submit(&my_work);
	}

	K_TIMER_DEFINE(my_timer, my_timer_handler, NULL);

	...

	/* start periodic timer that expires once every second */
	k_timer_start(&my_timer, K_SECONDS(1), K_SECONDS(1));

	Reading Timer Status
	====================

	The following code reads a timer's status directly to determine
	if the timer has expired on not.

	.. code-block:: c

	K_TIMER_DEFINE(my_status_timer, NULL, NULL);

	...

	/* start one shot timer that expires after 200 ms */
	k_timer_start(&my_status_timer, K_MSEC(200), 0);

	/* do work */
	...

	/* check timer status */
	if (k_timer_status_get(&my_status_timer) > 0) {
	/* timer has expired */
	} else if (k_timer_remaining_get(&my_status_timer) == 0) {
	/* timer was stopped (by someone else) before expiring */
	} else {
	/* timer is still running */
	}

	Using Timer Status Synchronization
	==================================

	The following code performs timer status synchronization to allow a thread
	to do useful work while ensuring that a pair of protocol operations
	are separated by the specified time interval.

	.. code-block:: c

	K_TIMER_DEFINE(my_sync_timer, NULL, NULL);

	...

	/* do first protocol operation */
	...

	/* start one shot timer that expires after 500 ms */
	k_timer_start(&my_sync_timer, K_MSEC(500), 0);

	/* do other work */
	...

	/* ensure timer has expired (waiting for expiry, if necessary) */
	k_timer_status_sync(&my_sync_timer);

	/* do second protocol operation */
	...

	.. note::
	If the thread had no other work to do it could simply sleep
	between the two protocol operations, without using a timer.

	Suggested Uses
	**************

	Use a timer to initiate an asynchronous operation after a specified
	amount of time.

	Use a timer to determine whether or not a specified amount of time
	has elapsed.

	Use a timer to perform other work while carrying out operations
	involving time limits.

	.. note::
	If a thread has no other work to perform while waiting for time to pass
	it should call :cpp:func:`k_sleep()`.
	If a thread needs to measure the time required to perform an operation
	it can read the :ref:`system clock or the hardware clock <clocks_v2>`
	directly, rather than using a timer.

	Configuration Options
	*********************

	Related configuration options:

	* None.

	APIs
	****

	The following timer APIs are provided by :file:`kernel.h`:

	* :c:macro:`K_TIMER_DEFINE`
	* :cpp:func:`k_timer_init()`
	* :cpp:func:`k_timer_start()`
	* :cpp:func:`k_timer_stop()`
	* :cpp:func:`k_timer_status_get()`
	* :cpp:func:`k_timer_status_sync()`
	* :cpp:func:`k_timer_remaining_get()`