osd-contiki/cpu/stm32w108/hal/micro/cortexm3/micro-common.c
Adam Dunkels a5046e83c7 Cleanup and refactoring of the STM32w port
This is a general cleanup of things like code style issues and code structure of the STM32w port to make it more like the rest of Contiki is structured.
2013-03-18 13:31:26 +01:00

121 lines
3.8 KiB
C

/** @file micro-common.c
* @brief STM32W108 micro specific HAL functions common to
* full and minimal hal
*
*
* <!--(C) COPYRIGHT 2010 STMicroelectronics. All rights reserved. -->
*/
#include PLATFORM_HEADER
#include BOARD_HEADER
#include "error.h"
#include "hal/micro/micro-common.h"
#include "hal/micro/cortexm3/micro-common.h"
void halInternalEnableWatchDog(void)
{
//Just to be on the safe side, restart the watchdog before enabling it
WDOG_RESET = 1;
WDOG_KEY = 0xEABE;
WDOG_CFG = WDOG_ENABLE;
}
void halInternalResetWatchDog(void)
{
//Writing any value will restart the watchdog
WDOG_RESET = 1;
}
void halInternalDisableWatchDog(uint8_t magicKey)
{
if (magicKey == MICRO_DISABLE_WATCH_DOG_KEY) {
WDOG_KEY = 0xDEAD;
WDOG_CFG = WDOG_DISABLE;
}
}
boolean halInternalWatchDogEnabled(void)
{
if(WDOG_CFG&WDOG_ENABLE) {
return TRUE;
} else {
return FALSE;
}
}
void halGpioConfig(uint32_t io, uint32_t config)
{
static volatile uint32_t *const configRegs[] =
{ (volatile uint32_t *)GPIO_PACFGL_ADDR,
(volatile uint32_t *)GPIO_PACFGH_ADDR,
(volatile uint32_t *)GPIO_PBCFGL_ADDR,
(volatile uint32_t *)GPIO_PBCFGH_ADDR,
(volatile uint32_t *)GPIO_PCCFGL_ADDR,
(volatile uint32_t *)GPIO_PCCFGH_ADDR };
uint32_t portcfg;
portcfg = *configRegs[io/4]; // get current config
portcfg = portcfg & ~((0xF)<<((io&3)*4)); // mask out config of this pin
*configRegs[io/4] = portcfg | (config <<((io&3)*4));
}
void halGpioSet(uint32_t gpio, boolean value)
{
if(gpio/8 < 3) {
if (value) {
*((volatile uint32_t *)(GPIO_PxSET_BASE+(GPIO_Px_OFFSET*(gpio/8)))) = BIT(gpio&7);
} else {
*((volatile uint32_t *)(GPIO_PxCLR_BASE+(GPIO_Px_OFFSET*(gpio/8)))) = BIT(gpio&7);
}
}
}
uint16_t halInternalStartSystemTimer(void)
{
//Since the SleepTMR is the only timer maintained during deep sleep, it is
//used as the System Timer (RTC). We maintain a 32 bit hardware timer
//configured for a tick value time of 1024 ticks/second (0.9765625 ms/tick)
//using either the 10 kHz internal SlowRC clock divided and calibrated to
//1024 Hz or the external 32.768 kHz crystal divided to 1024 Hz.
//With a tick time of ~1ms, this 32bit timer will wrap after ~48.5 days.
//disable top-level interrupt while configuring
INT_CFGCLR = INT_SLEEPTMR;
#ifdef ENABLE_OSC32K
#ifdef DIGITAL_OSC32_EXT
//Disable both OSC32K and SLOWRC if using external digital clock input
SLEEPTMR_CLKEN = 0;
#else//!DIGITAL_OSC32_EXT
//Enable the 32kHz XTAL (and disable SlowRC since it is not needed)
SLEEPTMR_CLKEN = SLEEPTMR_CLK32KEN;
#endif
//Sleep timer configuration is the same for crystal and external clock
SLEEPTMR_CFG = (SLEEPTMR_ENABLE | //enable TMR
(0 << SLEEPTMR_DBGPAUSE_BIT)| //TMR paused when halted
(5 << SLEEPTMR_CLKDIV_BIT) | //divide down to 1024Hz
(1 << SLEEPTMR_CLKSEL_BIT)) ; //select XTAL
#else //!ENABLE_OSC32K
//Enable the SlowRC (and disable 32kHz XTAL since it is not needed)
SLEEPTMR_CLKEN = SLEEPTMR_CLK10KEN;
SLEEPTMR_CFG = (SLEEPTMR_ENABLE | //enable TMR
(0 << SLEEPTMR_DBGPAUSE_BIT)| //TMR paused when halted
(0 << SLEEPTMR_CLKDIV_BIT) | //already 1024Hz
(0 << SLEEPTMR_CLKSEL_BIT)) ; //select SlowRC
#ifndef DISABLE_RC_CALIBRATION
halInternalCalibrateSlowRc(); //calibrate SlowRC to 1024Hz
#endif//DISABLE_RC_CALIBRATION
#endif//ENABLE_OSC32K
//clear out any stale interrupts
INT_SLEEPTMRFLAG = (INT_SLEEPTMRWRAP | INT_SLEEPTMRCMPA | INT_SLEEPTMRCMPB);
//turn off second level interrupts. they will be enabled elsewhere as needed
INT_SLEEPTMRCFG = INT_SLEEPTMRCFG_RESET;
//enable top-level interrupt
INT_CFGSET = INT_SLEEPTMR;
return 0;
}