.. COMMENT: COPYRIGHT (c) 1988-2008.
.. COMMENT: On-Line Applications Research Corporation (OAR).
.. COMMENT: All rights reserved.

Clock Manager
#############

.. index:: clock

Introduction
============

The clock manager provides support for time of day
and other time related capabilities.  The directives provided by
the clock manager are:

- rtems_clock_set_ - Set date and time

- rtems_clock_get_ - Get date and time information

- rtems_clock_get_tod_ - Get date and time in TOD format

- rtems_clock_get_tod_timeval_ - Get date and time in timeval format

- rtems_clock_get_seconds_since_epoch_ - Get seconds since epoch

- rtems_clock_get_ticks_per_second_ - Get ticks per second

- rtems_clock_get_ticks_since_boot_ - Get current ticks counter value

- rtems_clock_tick_later_ - Get tick value in the future

- rtems_clock_tick_later_usec_ - Get tick value in the future in microseconds

- rtems_clock_tick_before_ - Is tick value is before a point in time

- rtems_clock_get_uptime_ - Get time since boot

- rtems_clock_get_uptime_timeval_ - Get time since boot in timeval format

- rtems_clock_get_uptime_seconds_ - Get seconds since boot

- rtems_clock_get_uptime_nanoseconds_ - Get nanoseconds since boot

- rtems_clock_set_nanoseconds_extension_ - Install the nanoseconds since last tick handler

- rtems_clock_tick_ - Announce a clock tick

Background
==========

Required Support
----------------

For the features provided by the clock manager to be utilized, periodic timer
interrupts are required.  Therefore, a real-time clock or hardware timer is
necessary to create the timer interrupts.  The ``rtems_clock_tick`` directive
is normally called by the timer ISR to announce to RTEMS that a system clock
tick has occurred.  Elapsed time is measured in ticks.  A tick is defined to be
an integral number of microseconds which is specified by the user in the
Configuration Table.


Time and Date Data Structures
-----------------------------

The clock facilities of the clock manager operate upon calendar time.  These
directives utilize the following date and time structure for the native time
and date format:

.. index:: rtems_time_of_day

.. code-block:: c

    struct rtems_tod_control {
        uint32_t year;   /* greater than 1987 */
        uint32_t month;  /* 1 - 12 */
        uint32_t day;    /* 1 - 31 */
        uint32_t hour;   /* 0 - 23 */
        uint32_t minute; /* 0 - 59 */
        uint32_t second; /* 0 - 59 */
        uint32_t ticks;  /* elapsed between seconds */
    };
    typedef struct rtems_tod_control rtems_time_of_day;

The native date and time format is the only format supported when setting the
system date and time using the ``rtems_clock_set`` directive.  Some
applications expect to operate on a *UNIX-style* date and time data structure.
The ``rtems_clock_get_tod_timeval`` always returns the date and time in
``struct timeval`` format.  The ``rtems_clock_get`` directive can optionally
return the current date and time in this format.

The ``struct timeval`` data structure has two fields: ``tv_sec`` and
``tv_usec`` which are seconds and microseconds, respectively.  The ``tv_sec``
field in this data structure is the number of seconds since the POSIX epoch of
*January 1, 1970* but will never be prior to the RTEMS epoch of *January 1,
1988*.

Clock Tick and Timeslicing
--------------------------
.. index:: timeslicing

Timeslicing is a task scheduling discipline in which tasks of equal priority
are executed for a specific period of time before control of the CPU is passed
to another task.  It is also sometimes referred to as the automatic round-robin
scheduling algorithm.  The length of time allocated to each task is known as
the quantum or timeslice.

The system's timeslice is defined as an integral number of ticks, and is
specified in the Configuration Table.  The timeslice is defined for the entire
system of tasks, but timeslicing is enabled and disabled on a per task basis.

The ``rtems_clock_tick`` directive implements timeslicing by decrementing the
running task's time-remaining counter when both timeslicing and preemption are
enabled.  If the task's timeslice has expired, then that task will be preempted
if there exists a ready task of equal priority.

Delays
------
.. index:: delays

A sleep timer allows a task to delay for a given interval or up until a given
time, and then wake and continue execution.  This type of timer is created
automatically by the ``rtems_task_wake_after`` and ``rtems_task_wake_when``
directives and, as a result, does not have an RTEMS ID.  Once activated, a
sleep timer cannot be explicitly deleted.  Each task may activate one and only
one sleep timer at a time.

Timeouts
--------
.. index:: timeouts

Timeouts are a special type of timer automatically created when the timeout
option is used on the ``rtems_message_queue_receive``, ``rtems_event_receive``,
``rtems_semaphore_obtain`` and ``rtems_region_get_segment`` directives.  Each
task may have one and only one timeout active at a time.  When a timeout
expires, it unblocks the task with a timeout status code.

Operations
==========

Announcing a Tick
-----------------

RTEMS provides the ``rtems_clock_tick`` directive which is called from the
user's real-time clock ISR to inform RTEMS that a tick has elapsed.  The tick
frequency value, defined in microseconds, is a configuration parameter found in
the Configuration Table.  RTEMS divides one million microseconds (one second)
by the number of microseconds per tick to determine the number of calls to the
``rtems_clock_tick`` directive per second.  The frequency of
``rtems_clock_tick`` calls determines the resolution (granularity) for all time
dependent RTEMS actions.  For example, calling ``rtems_clock_tick`` ten times
per second yields a higher resolution than calling ``rtems_clock_tick`` two
times per second.  The ``rtems_clock_tick`` directive is responsible for
maintaining both calendar time and the dynamic set of timers.

Setting the Time
----------------

The ``rtems_clock_set`` directive allows a task or an ISR to set the date and
time maintained by RTEMS.  If setting the date and time causes any outstanding
timers to pass their deadline, then the expired timers will be fired during the
invocation of the ``rtems_clock_set`` directive.

Obtaining the Time
------------------

The ``rtems_clock_get`` directive allows a task or an ISR to obtain the current
date and time or date and time related information.  The current date and time
can be returned in either native or *UNIX-style* format.  Additionally, the
application can obtain date and time related information such as the number of
seconds since the RTEMS epoch, the number of ticks since the executive was
initialized, and the number of ticks per second.  The information returned by
the ``rtems_clock_get`` directive is dependent on the option selected by the
caller.  This is specified using one of the following constants associated with
the enumerated type ``rtems_clock_get_options``:

.. index:: rtems_clock_get_options

``RTEMS_CLOCK_GET_TOD``
  obtain native style date and time

``RTEMS_CLOCK_GET_TIME_VALUE``
  obtain *UNIX-style* date and time

``RTEMS_CLOCK_GET_TICKS_SINCE_BOOT``
  obtain number of ticks since RTEMS was initialized

``RTEMS_CLOCK_GET_SECONDS_SINCE_EPOCH``
  obtain number of seconds since RTEMS epoch

``RTEMS_CLOCK_GET_TICKS_PER_SECOND``
  obtain number of clock ticks per second

Calendar time operations will return an error code if invoked before the date
and time have been set.

Directives
==========

This section details the clock manager's directives.  A subsection is dedicated
to each of this manager's directives and describes the calling sequence,
related constants, usage, and status codes.

.. _rtems_clock_set:

CLOCK_SET - Set date and time
-----------------------------

**CALLING SEQUENCE:**

.. index:: set the time of day

.. index:: rtems_clock_set

.. code-block:: c

    rtems_status_code rtems_clock_set(
        rtems_time_of_day *time_buffer
    );

**DIRECTIVE STATUS CODES:**

``RTEMS_SUCCESSFUL``
  date and time set successfully

``RTEMS_INVALID_ADDRESS``
  ``time_buffer`` is NULL

``RTEMS_INVALID_CLOCK``
  invalid time of day

**DESCRIPTION:**

This directive sets the system date and time.  The date, time, and ticks in the
time_buffer structure are all range-checked, and an error is returned if any
one is out of its valid range.

**NOTES:**

Years before 1988 are invalid.

The system date and time are based on the configured tick rate (number of
microseconds in a tick).

Setting the time forward may cause a higher priority task, blocked waiting on a
specific time, to be made ready.  In this case, the calling task will be
preempted after the next clock tick.

Re-initializing RTEMS causes the system date and time to be reset to an
uninitialized state.  Another call to ``rtems_clock_set`` is required to
re-initialize the system date and time to application specific specifications.

.. _rtems_clock_get:

CLOCK_GET - Get date and time information
-----------------------------------------
.. index:: obtain the time of day

.. warning::

  This directive is deprecated and will be removed.

**CALLING SEQUENCE:**

.. index:: rtems_clock_get

.. code-block:: c

    rtems_status_code rtems_clock_get(
       rtems_clock_get_options  option,
       void                    *time_buffer
    );

**DIRECTIVE STATUS CODES:**

``RTEMS_SUCCESSFUL``
  current time obtained successfully

``RTEMS_NOT_DEFINED``
  system date and time is not set

``RTEMS_INVALID_ADDRESS``
  ``time_buffer`` is NULL

**DESCRIPTION:**

This directive obtains the system date and time.  If the caller is attempting
to obtain the date and time (i.e.  option is set to either
``RTEMS_CLOCK_GET_SECONDS_SINCE_EPOCH``, ``RTEMS_CLOCK_GET_TOD``, or
``RTEMS_CLOCK_GET_TIME_VALUE``) and the date and time has not been set with a
previous call to ``rtems_clock_set``, then the ``RTEMS_NOT_DEFINED`` status
code is returned.  The caller can always obtain the number of ticks per second
(option is ``RTEMS_CLOCK_GET_TICKS_PER_SECOND``) and the number of ticks since
the executive was initialized option is ``RTEMS_CLOCK_GET_TICKS_SINCE_BOOT``).

The ``option`` argument may taken on any value of the enumerated type
``rtems_clock_get_options``.  The data type expected for ``time_buffer`` is
based on the value of ``option`` as indicated below:

.. index:: rtems_clock_get_options

+-----------------------------------------+---------------------------+
| Option                                  | Return type               |
+=========================================+===========================+
| ``RTEMS_CLOCK_GET_TOD``                 | ``(rtems_time_of_day *)`` |
+-----------------------------------------+---------------------------+
| ``RTEMS_CLOCK_GET_SECONDS_SINCE_EPOCH`` | ``(rtems_interval *)``    |
+-----------------------------------------+---------------------------+
| ``RTEMS_CLOCK_GET_TICKS_SINCE_BOOT``    | ``(rtems_interval *)``    |
+-----------------------------------------+---------------------------+
|``RTEMS_CLOCK_GET_TICKS_PER_SECOND``     | ``(rtems_interval *)``    |
+-----------------------------------------+---------------------------+
| ``RTEMS_CLOCK_GET_TIME_VALUE``          | ``(struct timeval *)``    |
+-----------------------------------------+---------------------------+

**NOTES:**

This directive is callable from an ISR.

This directive will not cause the running task to be preempted.
Re-initializing RTEMS causes the system date and time to be reset to an
uninitialized state.  Another call to ``rtems_clock_set`` is required to
re-initialize the system date and time to application specific specifications.

.. _rtems_clock_get_tod:

CLOCK_GET_TOD - Get date and time in TOD format
-----------------------------------------------
.. index:: obtain the time of day

**CALLING SEQUENCE:**

.. index:: rtems_clock_get_tod

.. code-block:: c

    rtems_status_code rtems_clock_get_tod(
        rtems_time_of_day *time_buffer
    );

**DIRECTIVE STATUS CODES:**

``RTEMS_SUCCESSFUL``
  current time obtained successfully

``RTEMS_NOT_DEFINED``
  system date and time is not set

``RTEMS_INVALID_ADDRESS``
  ``time_buffer`` is NULL

**DESCRIPTION:**

This directive obtains the system date and time.  If the date and time has not
been set with a previous call to ``rtems_clock_set``, then the
``RTEMS_NOT_DEFINED`` status code is returned.

**NOTES:**

This directive is callable from an ISR.

This directive will not cause the running task to be preempted.
Re-initializing RTEMS causes the system date and time to be reset to an
uninitialized state.  Another call to ``rtems_clock_set`` is required to
re-initialize the system date and time to application specific specifications.

.. _rtems_clock_get_tod_timeval:

CLOCK_GET_TOD_TIMEVAL - Get date and time in timeval format
-----------------------------------------------------------
.. index:: obtain the time of day

**CALLING SEQUENCE:**

.. index:: rtems_clock_get_tod_timeval

.. code-block:: c

    rtems_status_code rtems_clock_get_tod_interval(
        struct timeval  *time
    );

**DIRECTIVE STATUS CODES:**

``RTEMS_SUCCESSFUL``
  current time obtained successfully

``RTEMS_NOT_DEFINED``
  system date and time is not set

``RTEMS_INVALID_ADDRESS``
  ``time`` is NULL

**DESCRIPTION:**

This directive obtains the system date and time in POSIX ``struct timeval``
format.  If the date and time has not been set with a previous call to
``rtems_clock_set``, then the ``RTEMS_NOT_DEFINED`` status code is returned.

**NOTES:**

This directive is callable from an ISR.

This directive will not cause the running task to be preempted.
Re-initializing RTEMS causes the system date and time to be reset to an
uninitialized state.  Another call to ``rtems_clock_set`` is required to
re-initialize the system date and time to application specific specifications.

.. _rtems_clock_get_seconds_since_epoch:

CLOCK_GET_SECONDS_SINCE_EPOCH - Get seconds since epoch
-------------------------------------------------------
.. index:: obtain seconds since epoch

**CALLING SEQUENCE:**

.. index:: rtems_clock_get_seconds_since_epoch

.. code-block:: c

    rtems_status_code rtems_clock_get_seconds_since_epoch(
        rtems_interval *the_interval
    );

**DIRECTIVE STATUS CODES:**

``RTEMS_SUCCESSFUL``
  current time obtained successfully

``RTEMS_NOT_DEFINED``
  system date and time is not set

``RTEMS_INVALID_ADDRESS``
  ``the_interval`` is NULL

**DESCRIPTION:**

This directive returns the number of seconds since the RTEMS epoch and the
current system date and time.  If the date and time has not been set with a
previous call to ``rtems_clock_set``, then the ``RTEMS_NOT_DEFINED`` status
code is returned.

**NOTES:**

This directive is callable from an ISR.

This directive will not cause the running task to be preempted.
Re-initializing RTEMS causes the system date and time to be reset to an
uninitialized state.  Another call to ``rtems_clock_set`` is required to
re-initialize the system date and time to application specific specifications.

.. _rtems_clock_get_ticks_per_second:

CLOCK_GET_TICKS_PER_SECOND - Get ticks per second
-------------------------------------------------
.. index:: obtain seconds since epoch

**CALLING SEQUENCE:**

.. index:: rtems_clock_get_ticks_per_second

.. code-block:: c

    rtems_interval rtems_clock_get_ticks_per_second(void);

**DIRECTIVE STATUS CODES:**

NONE

**DESCRIPTION:**

This directive returns the number of clock ticks per second.  This is strictly
based upon the microseconds per clock tick that the application has configured.

**NOTES:**

This directive is callable from an ISR.

This directive will not cause the running task to be preempted.

.. _rtems_clock_get_ticks_since_boot:

CLOCK_GET_TICKS_SINCE_BOOT - Get current ticks counter value
------------------------------------------------------------
.. index:: obtain ticks since boot
.. index:: get current ticks counter value

**CALLING SEQUENCE:**

.. index:: rtems_clock_get_ticks_since_boot

.. code-block:: c

    rtems_interval rtems_clock_get_ticks_since_boot(void);

**DIRECTIVE STATUS CODES:**

NONE

**DESCRIPTION:**

This directive returns the current tick counter value.  With a 1ms clock tick,
this counter overflows after 50 days since boot.  This is the historical
measure of uptime in an RTEMS system.  The newer service
``rtems_clock_get_uptime`` is another and potentially more accurate way of
obtaining similar information.

**NOTES:**

This directive is callable from an ISR.

This directive will not cause the running task to be preempted.

.. _rtems_clock_tick_later:

CLOCK_TICK_LATER - Get tick value in the future
-----------------------------------------------

**CALLING SEQUENCE:**

.. index:: rtems_clock_tick_later

.. code-block:: c

    rtems_interval rtems_clock_tick_later(
        rtems_interval delta
    );

**DESCRIPTION:**

Returns the ticks counter value delta ticks in the future.

**NOTES:**

This directive is callable from an ISR.

This directive will not cause the running task to be preempted.

.. _rtems_clock_tick_later_usec:

CLOCK_TICK_LATER_USEC - Get tick value in the future in microseconds
--------------------------------------------------------------------

**CALLING SEQUENCE:**

.. index:: rtems_clock_tick_later_usec

.. code-block:: c

    rtems_interval rtems_clock_tick_later_usec(
        rtems_interval delta_in_usec
    );

**DESCRIPTION:**

Returns the ticks counter value at least delta microseconds in the future.

**NOTES:**

This directive is callable from an ISR.

This directive will not cause the running task to be preempted.

.. _rtems_clock_tick_before:

CLOCK_TICK_BEFORE - Is tick value is before a point in time
-----------------------------------------------------------

**CALLING SEQUENCE:**

.. index:: rtems_clock_tick_before

.. code-block:: c

    rtems_interval rtems_clock_tick_before(
        rtems_interval tick
    );

**DESCRIPTION:**

Returns true if the current ticks counter value indicates a time before the
time specified by the tick value and false otherwise.

**NOTES:**

This directive is callable from an ISR.

This directive will not cause the running task to be preempted.

**EXAMPLE:**

.. code-block:: c

    status busy( void )
    {
        rtems_interval timeout = rtems_clock_tick_later_usec( 10000 );
        do {
            if ( ok() ) {
                return success;
            }
        } while ( rtems_clock_tick_before( timeout ) );
        return timeout;
    }

.. _rtems_clock_get_uptime:

CLOCK_GET_UPTIME - Get the time since boot
------------------------------------------
.. index:: clock get uptime
.. index:: uptime

**CALLING SEQUENCE:**

.. index:: rtems_clock_get_uptime

.. code-block:: c

    rtems_status_code rtems_clock_get_uptime(
        struct timespec *uptime
    );

**DIRECTIVE STATUS CODES:**

``RTEMS_SUCCESSFUL``
  clock tick processed successfully

``RTEMS_INVALID_ADDRESS``
  ``time_buffer`` is NULL

**DESCRIPTION:**

This directive returns the seconds and nanoseconds since the system was booted.
If the BSP supports nanosecond clock accuracy, the time reported will probably
be different on every call.

**NOTES:**

This directive may be called from an ISR.

.. _rtems_clock_get_uptime_timeval:

CLOCK_GET_UPTIME_TIMEVAL - Get the time since boot in timeval format
--------------------------------------------------------------------
.. index:: clock get uptime interval
.. index:: uptime

**CALLING SEQUENCE:**

.. index:: rtems_clock_get_uptime_timeval

.. code-block:: c

    void rtems_clock_get_uptime_timeval(
        struct timeval *uptime
    );

**DIRECTIVE STATUS CODES:**

NONE

**DESCRIPTION:**

This directive returns the seconds and microseconds since the system was
booted.  If the BSP supports nanosecond clock accuracy, the time reported will
probably be different on every call.

**NOTES:**

This directive may be called from an ISR.

.. _rtems_clock_get_uptime_seconds:

CLOCK_GET_UPTIME_SECONDS - Get the seconds since boot
-----------------------------------------------------
.. index:: clock get uptime seconds
.. index:: uptime

**CALLING SEQUENCE:**

.. index:: rtems_clock_get_uptime_seconds

.. code-block:: c

    time_t rtems_clock_get_uptime_seconds(void);

**DIRECTIVE STATUS CODES:**

The system uptime in seconds.

**DESCRIPTION:**

This directive returns the seconds since the system was booted.

**NOTES:**

This directive may be called from an ISR.

.. _rtems_clock_get_uptime_nanoseconds:

CLOCK_GET_UPTIME_NANOSECONDS - Get the nanoseconds since boot
-------------------------------------------------------------
.. index:: clock get nanoseconds uptime
.. index:: uptime

**CALLING SEQUENCE:**

.. index:: rtems_clock_get_uptime_nanoseconds

.. code-block:: c

    uint64_t rtems_clock_get_uptime_nanoseconds(void);

**DIRECTIVE STATUS CODES:**

The system uptime in nanoseconds.

**DESCRIPTION:**

This directive returns the nanoseconds since the system was booted.

**NOTES:**

This directive may be called from an ISR.

.. _rtems_clock_set_nanoseconds_extension:

CLOCK_SET_NANOSECONDS_EXTENSION - Install the nanoseconds since last tick handler
---------------------------------------------------------------------------------
.. index:: clock set nanoseconds extension
.. index:: nanoseconds extension
.. index:: nanoseconds time accuracy

**CALLING SEQUENCE:**

.. index:: rtems_clock_set_nanoseconds_extension

.. code-block:: c

    rtems_status_code rtems_clock_set_nanoseconds_extension(
        rtems_nanoseconds_extension_routine routine
    );

**DIRECTIVE STATUS CODES:**

``RTEMS_SUCCESSFUL``
  clock tick processed successfully

``RTEMS_INVALID_ADDRESS``
  ``time_buffer`` is NULL

**DESCRIPTION:**

This directive is used by the Clock device driver to install the ``routine``
which will be invoked by the internal RTEMS method used to obtain a highly
accurate time of day.  It is usually called during the initialization of the
driver.

When the ``routine`` is invoked, it will determine the number of nanoseconds
which have elapsed since the last invocation of the ``rtems_clock_tick``
directive.  It should do this as quickly as possible with as little impact as
possible on the device used as a clock source.

**NOTES:**

This directive may be called from an ISR.

This directive is called as part of every service to obtain the current date
and time as well as timestamps.

.. _rtems_clock_tick:

CLOCK_TICK - Announce a clock tick
----------------------------------
.. index:: clock tick

**CALLING SEQUENCE:**

.. index:: rtems_clock_tick

.. code-block:: c

    rtems_status_code rtems_clock_tick( void );

**DIRECTIVE STATUS CODES:**

``RTEMS_SUCCESSFUL``
  clock tick processed successfully

**DESCRIPTION:**

This directive announces to RTEMS that a system clock tick has occurred.  The
directive is usually called from the timer interrupt ISR of the local
processor.  This directive maintains the system date and time, decrements
timers for delayed tasks, timeouts, rate monotonic periods, and implements
timeslicing.

**NOTES:**

This directive is typically called from an ISR.

The ``microseconds_per_tick`` and ``ticks_per_timeslice`` parameters in the
Configuration Table contain the number of microseconds per tick and number of
ticks per timeslice, respectively.