X-Git-Url: https://codewiz.org/gitweb?a=blobdiff_plain;f=bertos%2Fcpu%2Farm%2Fdrv%2Fadc_at91.c;h=bb6a8d11ffd1409fe86d557a86d31e6d233714f1;hb=89bd702e6979ee84ace7278175c56c2f514aa961;hp=d8cea88a7c4c467c1d1113eda189dfb60e056524;hpb=c22fe24a0da896a52dbc3882390ec18a440ef56a;p=bertos.git diff --git a/bertos/cpu/arm/drv/adc_at91.c b/bertos/cpu/arm/drv/adc_at91.c index d8cea88a..bb6a8d11 100644 --- a/bertos/cpu/arm/drv/adc_at91.c +++ b/bertos/cpu/arm/drv/adc_at91.c @@ -30,34 +30,41 @@ * * --> * - * * \brief ADC hardware-specific implementation * * This ADC module should be use both whit kernel or none. * If you are using a kernel, the adc drive does not wait the finish of - * conversion but use a singal every time a required conversion are - * ended. This signal wake up a process that return a result of + * conversion but use a singal every time a required conversion are + * ended. This signal wake up a process that return a result of * conversion. Otherwise, if you not use a kernl, this module wait * whit a loop the finishing of conversion. * * * \version $Id$ - * * \author Daniele Basile */ + #include "adc_at91.h" +#include + #include "cfg/cfg_adc.h" -#include "cfg/cfg_kern.h" +#include "cfg/cfg_proc.h" +#include "cfg/cfg_signal.h" #include #include +// Define log settings for cfg/log.h. +#define LOG_LEVEL ADC_LOG_LEVEL +#define LOG_FORMAT ADC_LOG_FORMAT +#include + #include #include -#if CONFIG_KERNEL +#if CONFIG_KERN #include #include #include @@ -100,14 +107,14 @@ ADC_IER = BV(ADC_DRDY); } -#endif /* CONFIG_KERNEL */ +#endif /* CONFIG_KERN */ /** * Select mux channel \a ch. * \todo only first 8 channels are selectable! */ -INLINE void adc_hw_select_ch(uint8_t ch) +void adc_hw_select_ch(uint8_t ch) { //Disable all channels ADC_CHDR = ADC_CH_MASK; @@ -121,20 +128,20 @@ INLINE void adc_hw_select_ch(uint8_t ch) * If a kernel is present, preempt until convertion is complete, otherwise * a busy wait on ADCS bit is done. */ -INLINE uint16_t adc_hw_read(void) +uint16_t adc_hw_read(void) { ASSERT(!(ADC_SR & ADC_EOC_MASK)); - #if CONFIG_KERNEL + #if CONFIG_KERN adc_process = proc_current(); #endif // Start convertion ADC_CR = BV(ADC_START); - #if CONFIG_KERNEL + #if CONFIG_KERN // Ensure IRQs enabled. - ASSERT(IRQ_ENABLED()); + IRQ_ASSERT_ENABLED(); sig_wait(SIG_ADC_COMPLETE); #else //Wait in polling until is done @@ -148,7 +155,7 @@ INLINE uint16_t adc_hw_read(void) /** * Init ADC hardware. */ -INLINE void adc_hw_init(void) +void adc_hw_init(void) { //Init ADC pins. ADC_INIT_PINS(); @@ -171,25 +178,25 @@ INLINE void adc_hw_init(void) #endif /* \} */ - TRACEMSG("prescaler[%ld], stup[%ld], shtim[%ld]\n",ADC_COMPUTED_PRESCALER,ADC_COMPUTED_STARTUPTIME,ADC_COMPUTED_SHTIME); + LOG_INFO("prescaler[%ld], stup[%ld], shtim[%ld]\n",ADC_COMPUTED_PRESCALER, ADC_COMPUTED_STARTUPTIME, ADC_COMPUTED_SHTIME); //Apply computed prescaler value ADC_MR &= ~ADC_PRESCALER_MASK; ADC_MR |= ((ADC_COMPUTED_PRESCALER << ADC_PRESCALER_SHIFT) & ADC_PRESCALER_MASK); - TRACEMSG("prescaler[%ld]\n", (ADC_COMPUTED_PRESCALER << ADC_PRESCALER_SHIFT) & ADC_PRESCALER_MASK); + LOG_INFO("prescaler[%ld]\n", (ADC_COMPUTED_PRESCALER << ADC_PRESCALER_SHIFT) & ADC_PRESCALER_MASK); //Apply computed start up time ADC_MR &= ~ADC_STARTUP_MASK; ADC_MR |= ((ADC_COMPUTED_STARTUPTIME << ADC_STARTUP_SHIFT) & ADC_STARTUP_MASK); - TRACEMSG("sttime[%ld]\n", (ADC_COMPUTED_STARTUPTIME << ADC_STARTUP_SHIFT) & ADC_STARTUP_MASK); + LOG_INFO("sttime[%ld]\n", (ADC_COMPUTED_STARTUPTIME << ADC_STARTUP_SHIFT) & ADC_STARTUP_MASK); //Apply computed sample and hold time ADC_MR &= ~ADC_SHTIME_MASK; ADC_MR |= ((ADC_COMPUTED_SHTIME << ADC_SHTIME_SHIFT) & ADC_SHTIME_MASK); - TRACEMSG("shtime[%ld]\n", (ADC_COMPUTED_SHTIME << ADC_SHTIME_SHIFT) & ADC_SHTIME_MASK); + LOG_INFO("shtime[%ld]\n", (ADC_COMPUTED_SHTIME << ADC_SHTIME_SHIFT) & ADC_SHTIME_MASK); - #if CONFIG_KERNEL + #if CONFIG_KERN //Register and enable irq for adc. adc_enable_irq(); #endif