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/*
* MOST NetServices "Light" V3.2.7.0.1796 MultiInstance Patch
*
* Copyright (C) 2015 Microchip Technology Germany II GmbH & Co. KG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
* You may also obtain this software under a propriety license from Microchip.
* Please contact Microchip for further information.
*
*/
/*!
* \file
* \brief Implementation of the timer management module.
*
* \cond MNS_INTERNAL_DOC
* \addtogroup G_TIMER
* @{
*/
/*------------------------------------------------------------------------------------------------*/
/* Includes */
/*------------------------------------------------------------------------------------------------*/
#include "mns_timer.h"
#include "mns_misc.h"
#include "mns_trace.h"
/*------------------------------------------------------------------------------------------------*/
/* Service parameters */
/*------------------------------------------------------------------------------------------------*/
/*! Priority of the TM service used by scheduler */
static const uint8_t TM_SRV_PRIO = 255U; /* parasoft-suppress MISRA2004-8_7 "Value shall be part of the module, not part of a function." */
/*! Main event for the TM service */
static const Srv_Event_t TM_EVENT_UPDATE_TIMERS = 1U;
/*------------------------------------------------------------------------------------------------*/
/* Internal prototypes */
/*------------------------------------------------------------------------------------------------*/
static void Tm_Service(void *self);
static void Tm_UpdateTimers(CTimerManagement *self);
static bool Tm_HandleElapsedTimer(CTimerManagement *self);
static bool Tm_UpdateTimersAdd(void *c_timer_ptr, void *n_timer_ptr);
static void Tm_SetTimerInternal(CTimerManagement *self,
CTimer *timer_ptr,
Tm_Handler_t handler_fptr,
void *args_ptr,
uint16_t elapse,
uint16_t period);
/*------------------------------------------------------------------------------------------------*/
/* Implementation of class CTimerManagement */
/*------------------------------------------------------------------------------------------------*/
/*! \brief Constructor of the timer management class.
* \param self Instance pointer
* \param scd Scheduler instance
* \param init_ptr Reference to the initialization data
*/
void Tm_Ctor(CTimerManagement *self, CScheduler *scd, const Tm_InitData_t *init_ptr)
{
MISC_MEM_SET(self, 0, sizeof(*self));
self->mns_inst_id = init_ptr->mns_inst_id;
/* Initialize subjects and add observers */
Ssub_Ctor(&self->get_tick_count_subject, self->mns_inst_id);
(void)Ssub_AddObserver(&self->get_tick_count_subject,
init_ptr->get_tick_count_obs_ptr);
if(init_ptr->set_application_timer_obs_ptr != NULL)
{
self->delayed_tm_service_enabled = true;
Ssub_Ctor(&self->set_application_timer_subject, self->mns_inst_id);
(void)Ssub_AddObserver(&self->set_application_timer_subject,
init_ptr->set_application_timer_obs_ptr);
}
/* Initialize timer management service */
Srv_Ctor(&self->tm_srv, TM_SRV_PRIO, self, &Tm_Service);
/* Add timer management service to scheduler */
(void)Scd_AddService(scd, &self->tm_srv);
}
/*! \brief Service function of the timer management.
* \param self Instance pointer
*/
static void Tm_Service(void *self)
{
CTimerManagement *self_ = (CTimerManagement *)self;
Srv_Event_t event_mask;
Srv_GetEvent(&self_->tm_srv, &event_mask);
if(TM_EVENT_UPDATE_TIMERS == (event_mask & TM_EVENT_UPDATE_TIMERS)) /* Is event pending? */
{
Srv_ClearEvent(&self_->tm_srv, TM_EVENT_UPDATE_TIMERS);
Tm_UpdateTimers(self_);
}
}
/*! \brief If event TM_EVENT_UPDATE_TIMERS is set this function is called. Handles the update
* of the timer list. If a timer has expired the corresponding callback function is
* executed. If the expired timer is a periodic timer, the timer will be set again.
* \param self Instance pointer
*/
static void Tm_UpdateTimers(CTimerManagement *self)
{
uint16_t current_tick_count;
Ssub_Notify(&self->get_tick_count_subject, ¤t_tick_count, false);
if(self->timer_list.head != NULL) /* At least one timer is running? */
{
bool continue_loop = true;
/* Calculate time difference between the current and the last TM service run */
uint16_t tick_count_diff = (uint16_t)(current_tick_count - self->last_tick_count);
/* Save current tick count for next service run */
self->last_tick_count = current_tick_count;
/* Loop while timer list is not empty */
while((self->timer_list.head != NULL) && (continue_loop!= false))
{
/* Is not first timer in list elapsed yet? */
if(tick_count_diff <= ((CTimer *)self->timer_list.head->data_ptr)->delta)
{
/* Update delta of first timer in list */
((CTimer *)self->timer_list.head->data_ptr)->delta -= tick_count_diff;
tick_count_diff = 0U;
}
else /* At least first timer in list elapsed */
{
/* Update tick count difference for next timer in list */
tick_count_diff -= ((CTimer *)self->timer_list.head->data_ptr)->delta;
/* First timer elapsed */
((CTimer *)self->timer_list.head->data_ptr)->delta = 0U;
}
/* First timer in list elapsed? */
if(0U == ((CTimer *)self->timer_list.head->data_ptr)->delta)
{
/* Handle elapsed timer */
continue_loop = Tm_HandleElapsedTimer(self);
}
else /* No elapsed timer in list. */
{
/* First timer in list updated! Set trigger to inform application (see
Tm_CheckForNextService()) and stop TM service. */
self->set_service_timer = true;
continue_loop = false;
}
}
}
}
/*! \brief This function is called if the first timer in list is elapsed. The timer handler
* callback function is invoked. If the timer is a periodic timer it is wound up again.
* \param self Instance pointer
* \return \c true if the next timer must be check.
* \return \c false if the wound up timer (periodic timer) is new head of timer list
*/
static bool Tm_HandleElapsedTimer(CTimerManagement *self)
{
bool ret_val = true;
CDlNode *node = self->timer_list.head;
/* Reset flag to be able to check if timer object has changed within handler
callback function */
((CTimer *)node->data_ptr)->changed = false;
/* Call timer handler callback function */
((CTimer *)node->data_ptr)->handler_fptr(((CTimer *)node->data_ptr)->args_ptr);
/* Timer object hasn't changed within handler callback function? */
if(false == ((CTimer *)node->data_ptr)->changed)
{
/* Remove current timer from list */
(void)Dl_Remove(&self->timer_list, node);
/* Mark timer as unused */
((CTimer *)node->data_ptr)->in_use = false;
/* Is current timer a periodic timer? */
if(((CTimer *)node->data_ptr)->period > 0U)
{
/* Reload current timer */
Tm_SetTimerInternal(self,
((CTimer *)node->data_ptr),
((CTimer *)node->data_ptr)->handler_fptr,
((CTimer *)node->data_ptr)->args_ptr,
((CTimer *)node->data_ptr)->period,
((CTimer *)node->data_ptr)->period);
if(node == self->timer_list.head) /* Is current timer new head of list? */
{
/* Set trigger to inform application (see Tm_CheckForNextService()) and
stop TM service. */
self->set_service_timer = true;
ret_val = false;
}
}
}
return ret_val;
}
/*! \brief Calls an application callback function to inform the application that the MNS must be
* serviced not later than the passed time period. If the timer list is empty a possible
* running application timer will be stopped. This function is called at the end of
* Mns_Service().
* \param self Instance pointer
*/
void Tm_CheckForNextService(CTimerManagement *self)
{
if(self->delayed_tm_service_enabled != false)
{
uint16_t current_tick_count;
Ssub_Notify(&self->get_tick_count_subject, ¤t_tick_count, false);
/* Has head of timer list changed? */
if(self->set_service_timer != false)
{
uint16_t new_time;
uint16_t diff = current_tick_count - self->last_tick_count;
self->set_service_timer = false;
/* Timer expired since last TM service? */
if(diff >= ((CTimer *)self->timer_list.head->data_ptr)->delta)
{
new_time = 1U; /* Return minimum value */
}
else
{
/* Calculate new timeout */
new_time = (uint16_t)(((CTimer *)self->timer_list.head->data_ptr)->delta - diff);
}
/* Inform the application that the MNS must be serviced not later than the passed
time period. */
Ssub_Notify(&self->set_application_timer_subject, &new_time, false);
}
}
else
{
Tm_TriggerService(self); /* Application timer not implemented -> Retrigger TM */
}
}
/*! \brief Helper function to set the TM service event.
* \details This function is used by the application to trigger a service call of the Timer
* Management if the application timer has expired.
* \param self Instance pointer
*/
void Tm_TriggerService(CTimerManagement *self)
{
if(self->timer_list.head != NULL) /* At least one timer is running? */
{
Srv_SetEvent(&self->tm_srv, TM_EVENT_UPDATE_TIMERS);
}
}
/*! \brief Helper function to stop the TM service.
* \param self Instance pointer
*/
void Tm_StopService(CTimerManagement *self)
{
uint16_t new_time = 0U;
/* Clear probable running application timer */
Ssub_Notify(&self->set_application_timer_subject, &new_time, false);
/* Reset the service timer. Not necessary ? */
self->set_service_timer = false;
/* Clear the timer head queue to prevent any event to be set */
self->timer_list.head = NULL;
}
/*! \brief Creates a new timer. The timer expires at the specified elapse time and then after
* every specified period. When the timer expires the specified callback function is
* called.
* \param self Instance pointer
* \param timer_ptr Reference to the timer object
* \param handler_fptr Callback function which is called when the timer expires
* \param args_ptr Reference to an optional parameter which is passed to the specified
* callback function
* \param elapse The elapse value before the timer expires for the first time, in
* milliseconds
* \param period The period of the timer, in milliseconds. If this parameter is zero, the
* timer is signaled once. If the parameter is greater than zero, the timer
* is periodic.
*/
void Tm_SetTimer(CTimerManagement *self,
CTimer *timer_ptr,
Tm_Handler_t handler_fptr,
void *args_ptr,
uint16_t elapse,
uint16_t period)
{
(void)Tm_ClearTimer(self, timer_ptr); /* Clear timer if running */
/* Call the internal method to set the new timer (-> does not trigger TM service!) */
Tm_SetTimerInternal(self, timer_ptr, handler_fptr, args_ptr, elapse, period);
Tm_TriggerService(self); /* New timer added -> trigger timer list update */
}
/*! \brief This function contains the internal part when adding a new timer. The function is
* called within Tm_SetTimer() and within Tm_UpdateTimers().
* \param self Instance pointer
* \param timer_ptr Reference to the timer object
* \param handler_fptr Callback function which is called when the timer expires
* \param args_ptr Reference to an optional parameter which is passed to the specified
* callback function
* \param elapse The elapse value before the timer expires for the first time, in
* milliseconds
* \param period The period of the timer, in milliseconds. If this parameter is zero, the
* timer is signaled once. If the parameter is greater than zero, the timer
* is periodic.
*/
static void Tm_SetTimerInternal(CTimerManagement *self,
CTimer *timer_ptr,
Tm_Handler_t handler_fptr,
void *args_ptr,
uint16_t elapse,
uint16_t period)
{
uint16_t current_tick_count;
Ssub_Notify(&self->get_tick_count_subject, ¤t_tick_count, false);
/* Save timer specific values */
timer_ptr->changed = true; /* Flag is needed by Tm_UpdateTimers() */
timer_ptr->in_use = true;
timer_ptr->handler_fptr = handler_fptr;
timer_ptr->args_ptr = args_ptr;
timer_ptr->elapse = elapse;
timer_ptr->period = period;
timer_ptr->delta = elapse;
/* Create back link to be able to point from node to timer object */
timer_ptr->node.data_ptr = (void *)timer_ptr;
if(NULL == self->timer_list.head) /* Is timer list empty? */
{
Dl_InsertHead(&self->timer_list, &timer_ptr->node); /* Add first timer to list */
/* Save current tick count */
Ssub_Notify(&self->get_tick_count_subject, &self->last_tick_count, false);
}
else /* Timer list is not empty */
{
CDlNode *result_ptr = NULL;
/* Set delta value in relation to last saved tick count (last TM service) */
timer_ptr->delta += (uint16_t)(current_tick_count - self->last_tick_count);
/* Search slot where new timer must be inserted. Update delta of new timer
and delta of the following timer in the list. */
result_ptr = Dl_Foreach(&self->timer_list, &Tm_UpdateTimersAdd, (void *)timer_ptr);
if(NULL != result_ptr) /* Slot found? */
{
/* Insert new timer at found position */
Dl_InsertBefore(&self->timer_list, result_ptr, &timer_ptr->node);
}
else /* No slot found -> Insert as last node */
{
/* Add new timer to end of list */
Dl_InsertTail(&self->timer_list, &timer_ptr->node);
}
}
}
/*! \brief Removes the specified timer from the timer list.
* \param self Instance pointer
* \param timer_ptr Reference to the timer object
* \attention Make sure that for a timer object Tm_SetTimer() is called before Tm_ClearTimer()
* is called!
*/
void Tm_ClearTimer(CTimerManagement *self, CTimer *timer_ptr)
{
if(timer_ptr->in_use != false) /* Is timer currently in use? */
{
timer_ptr->changed = true; /* Flag is needed by Tm_UpdateTimers() */
if(NULL != timer_ptr->node.next) /* Has deleted timer a follower? */
{
/* Adjust delta of following timer */
((CTimer *)timer_ptr->node.next->data_ptr)->delta += timer_ptr->delta;
}
(void)Dl_Remove(&self->timer_list, &timer_ptr->node);
timer_ptr->in_use = false;
Tm_TriggerService(self); /* Timer removed -> trigger timer list update */
}
}
/*! \brief Used by Tm_SetTimer() to find the slot where the new timer must be inserted.
* \param c_timer_ptr Reference to current timer processed by foreach loop
* \param n_timer_ptr Reference to new timer
* \return \c true: Slot found, stop foreach loop
* \return \c false: Slot not found, continue foreach loop
*/
static bool Tm_UpdateTimersAdd(void *c_timer_ptr, void *n_timer_ptr)
{
CTimer *current_timer_ptr = (CTimer *)c_timer_ptr;
CTimer *new_timer_ptr = (CTimer *)n_timer_ptr;
bool ret_val;
/* Is current timer lesser than new timer? */
if(current_timer_ptr->delta <= new_timer_ptr->delta)
{
/* Update delta of new timer and continue foreach loop */
new_timer_ptr->delta -= current_timer_ptr->delta;
ret_val = false;
}
else /* Slot found! */
{
/* Correct delta of current timer and stop foreach loop */
current_timer_ptr->delta -= new_timer_ptr->delta;
ret_val = true;
}
return ret_val;
}
/*------------------------------------------------------------------------------------------------*/
/* Implementation of class CTimer */
/*------------------------------------------------------------------------------------------------*/
/*! \brief Constructor of the Timer class.
* \param self Instance pointer
*/
void T_Ctor(CTimer *self)
{
MISC_MEM_SET(self, 0, sizeof(*self));
}
/*! \brief Returns the status of the given timer.
* \param self Instance pointer
* \return \c true if the timer is currently in use
* \return \c false if the timer is not currently in use
*/
bool T_IsTimerInUse(CTimer *self)
{
return self->in_use;
}
/*!
* @}
* \endcond
*/
/*------------------------------------------------------------------------------------------------*/
/* End of file */
/*------------------------------------------------------------------------------------------------*/
|