/*
%atmel_license%
*/
/** \addtogroup rtt_module Working with RTT
* The RTT driver provides the interface to configure and use the RTT
* peripheral.
*
* The Real-time Timer is used to count elapsed seconds.\n
* This timer is clocked by the 32kHz system clock divided by a programmable
* 16-bit balue. To be accurate, it is better to use an
* external 32kHz crystal instead of the internal 32kHz RC.\n
*
* To count elapsed seconds, the user could follow these few steps:
*
* - Programming PTPRES in RTT_MR to feeding the timer with a 1Hz signal.
* - Writing the bit RTTRST in RTT_MR to restart the timer with new settings.
*
*
* An alarm can be set to happen on second by setting alarm value in RTT_AR.
* Alarm occurence can be detected by polling or interrupt.
*
* For more accurate information, please look at the RTT section of the
* Datasheet.
*
* Related files :\n
* \ref rtt.c\n
* \ref rtt.h.\n
*/
/*@{*/
/*@}*/
/**
* \file
*
* Implementation of Real Time Timer (RTT) controller.
*
*/
/*----------------------------------------------------------------------------
* Headers
*----------------------------------------------------------------------------*/
#include "chip.h"
#include
/*----------------------------------------------------------------------------
* Exported functions
*----------------------------------------------------------------------------*/
/**
* \brief Changes the prescaler value of the given RTT and restarts it.
*
* \note This function disables RTT interrupt sources.
*
* \param rtt Pointer to a Rtt instance.
* \param prescaler Prescaler value for the RTT.
*/
void RTT_SetPrescaler(Rtt *rtt, uint16_t prescaler)
{
rtt->RTT_MR = (prescaler | RTT_MR_RTTRST);
}
/**
* \brief Returns the current value of the RTT timer value.
*
* \param rtt Pointer to a Rtt instance.
*/
uint32_t RTT_GetTime(Rtt *rtt)
{
return rtt->RTT_VR;
}
/**
* \brief Enables the specified RTT interrupt sources.
*
* \param rtt Pointer to a Rtt instance.
* \param sources Bitmask of interrupts to enable.
*/
void RTT_EnableIT(Rtt *rtt, uint32_t sources)
{
assert( (sources & 0x0004FFFF) == 0 ) ;
rtt->RTT_MR |= sources;
}
/**
* \brief Returns the status register value of the given RTT.
*
* \param rtt Pointer to an Rtt instance.
*/
uint32_t RTT_GetStatus(Rtt *rtt)
{
return rtt->RTT_SR;
}
/**
* \brief Configures the RTT to generate an alarm at the given time.
*
* \param pRtt Pointer to an Rtt instance.
* \param time Alarm time.
*/
void RTT_SetAlarm(Rtt *pRtt, uint32_t time)
{
assert(time > 0);
pRtt->RTT_AR = time - 1;
}