#include <cfg/log.h>
#include <drv/dac.h>
+#include <cpu/irq.h>
#include <drv/irq_cm3.h>
#include <cpu/types.h>
+#include <mware/event.h>
+
#include <io/cm3.h>
#include <string.h>
struct DacHardware dac_hw;
+
+/* We use event to signal the end of conversion */
+static Event buff_emtpy;
+
#if CONFIG_DAC_TIMER == DACC_TRGSEL_TIO_CH0 /* Select Timer counter TIO Channel 0 */
#define DAC_TC_ID TC0_ID
#define DAC_TC_CCR TC0_CCR0
#error unimplemented pwm triger select.
#endif
-INLINE void tc_setup(uint32_t freq, size_t n_sample)
+
+INLINE void tc_init(void)
{
pmc_periphEnable(DAC_TC_ID);
/* Disable TC clock */
- DAC_TC_CCR = TC_CCR_CLKDIS;
+ DAC_TC_CCR = BV(TC_CCR_CLKDIS);
/* Disable interrupts */
DAC_TC_IDR = 0xFFFFFFFF;
/* Clear status register */
*/
DAC_TC_CMR = TC_TIMER_CLOCK1 | BV(TC_CMR_WAVE) | TC_CMR_ACPA_SET | TC_CMR_ACPC_CLEAR | BV(TC_CMR_CPCTRG);
+
+ /* Setup the pio: TODO: fix for more generic */
+ PIOB_PDR = BV(25);
+ PIO_PERIPH_SEL(PIOB_BASE, BV(25), PIO_PERIPH_B);
+}
+
+INLINE void tc_setup(uint32_t freq, size_t n_sample)
+{
/*
* Compute the sample frequency
* the RC counter will update every MCK/2 (see above)
DAC_TC_RC = rc;
/* generate the square wave with duty = 50% */
DAC_TC_RA = DIV_ROUND(50 * rc, 100);
-
- PIOB_PDR = BV(25);
- PIO_PERIPH_SEL(PIOB_BASE, BV(25), PIO_PERIPH_B);
}
INLINE void tc_start(void)
{
- DAC_TC_CCR = BV(TC_CCR_CLKEN)| BV(TC_CCR_SWTRG);
+ DAC_TC_CCR = BV(TC_CCR_CLKEN)| BV(TC_CCR_SWTRG);
}
INLINE void tc_stop(void)
/* we have only the ch0 and ch1 */
ASSERT(mask < BV(3));
dac->hw->channels = mask;
+
+ if (mask & BV(DACC_CH0))
+ DACC_MR |= (DACC_CH0 << DACC_USER_SEL_SHIFT) & DACC_USER_SEL_MASK;
+
+ if (mask & BV(DACC_CH1))
+ DACC_MR |= (DACC_CH1 << DACC_USER_SEL_SHIFT) & DACC_USER_SEL_MASK;
+
+ DACC_CHER |= mask;
+
}
static void sam3x_dac_setSampleRate(struct Dac *dac, uint32_t rate)
{
- (void)dac;
-
/* Eneble hw trigger */
DACC_MR |= BV(DACC_TRGEN) | (CONFIG_DAC_TIMER << DACC_TRGSEL_SHIFT);
dac->hw->rate = rate;
static void sam3x_dac_conversion(struct Dac *dac, void *buf, size_t len)
{
- if (dac->hw->channels & BV(DACC_CH0))
- DACC_MR |= (DACC_CH0 << DACC_USER_SEL_SHIFT) & DACC_USER_SEL_MASK;
-
- if (dac->hw->channels & BV(DACC_CH1))
- DACC_MR |= (DACC_CH1 << DACC_USER_SEL_SHIFT) & DACC_USER_SEL_MASK;
-
- DACC_CHER |= dac->hw->channels;
-
/* setup timer and start it */
tc_setup(dac->hw->rate, len);
tc_start();
/* Setup dma and start it */
- DACC_TPR = (uint32_t)buf ;
+ DACC_TPR = (uint32_t)buf;
DACC_TCR = len;
DACC_PTCR |= BV(DACC_PTCR_TXTEN);
}
+static uint16_t *sample_buff;
+static size_t next_idx = 0;
+static size_t chunk_size = 0;
+static size_t remaing_size = 0;
+
+static DECLARE_ISR(irq_dac)
+{
+ if (DACC_ISR & BV(DACC_ENDTX))
+ {
+ if (remaing_size > 0)
+ {
+ DACC_TNPR = (uint32_t)&sample_buff[next_idx];
+ DACC_TNCR = chunk_size;
+
+ remaing_size -= chunk_size;
+ next_idx += chunk_size;
+ }
+ else
+ /* Clear the pending irq when the dma ends the conversion */
+ DACC_TCR = 1;
+ }
+ event_do(&buff_emtpy);
+}
+
+
static bool sam3x_dac_isFinished(struct Dac *dac)
{
- (void)dac;
- return 0;
+ return dac->hw->end;
}
-static void sam3x_dac_start(struct Dac *dac, void *buf, size_t len, size_t slice_len)
+static void sam3x_dac_start(struct Dac *dac, void *_buf, size_t len, size_t slice_len)
{
- (void)dac;
- (void)buf;
- (void)len;
- (void)slice_len;
+ ASSERT(dac);
+ ASSERT(len >= slice_len);
+
+ /* Reset the previous status. */
+ dac->hw->end = false;
+
+ sample_buff = (uint16_t *)_buf;
+ next_idx = 0;
+ chunk_size = slice_len;
+ remaing_size = len;
+
+
+ /* Program the dma with the first and second chunk of samples and update counter */
+ dac->ctx.callback(dac, &sample_buff[0], chunk_size);
+ DACC_TPR = (uint32_t)&sample_buff[0];
+ DACC_TCR = chunk_size;
+ remaing_size -= chunk_size;
+ next_idx += chunk_size;
+
+ if (chunk_size <= remaing_size)
+ {
+ dac->ctx.callback(dac, &sample_buff[next_idx], chunk_size);
+
+ DACC_TNPR = (uint32_t)&sample_buff[next_idx];
+ DACC_TNCR = chunk_size;
+
+ remaing_size -= chunk_size;
+ next_idx += chunk_size;
+
+ }
+
+ DACC_PTCR |= BV(DACC_PTCR_TXTEN);
+ DACC_IER = BV(DACC_ENDTX);
+
+ /* Set up timer and trig the conversions */
+ tc_setup(dac->hw->rate, len);
+ tc_start();
+
+ while (1)
+ {
+ event_wait(&buff_emtpy);
+ if (remaing_size <= 0)
+ {
+ DAC_TC_CCR = BV(TC_CCR_CLKDIS);
+ dac->hw->end = true;
+ next_idx = 0;
+ chunk_size = 0;
+ remaing_size = 0;
+ break;
+ }
+
+ dac->ctx.callback(dac, &sample_buff[next_idx], chunk_size);
+ }
}
static void sam3x_dac_stop(struct Dac *dac)
{
- (void)dac;
+ dac->hw->end = false;
+ /* Disable the irq, timer and channel */
+ DACC_IDR = BV(DACC_ENDTX);
+ DACC_PTCR |= BV(DACC_PTCR_TXTDIS);
+ DAC_TC_CCR = BV(TC_CCR_CLKDIS);
}
void dac_init(struct Dac *dac)
{
+ /* Initialize the dataready event */
+ event_initGeneric(&buff_emtpy);
/* Fill the virtual table */
dac->ctx.write = sam3x_dac_write;
/* Configure the dac */
DACC_MR |= (CONFIG_DAC_REFRESH << DACC_REFRESH_SHIFT) & DACC_REFRESH_MASK;
DACC_MR |= (CONFIG_DAC_STARTUP << DACC_STARTUP_SHIFT) & DACC_STARTUP_MASK;
+
+ DACC_IDR = 0xFFFFFFFF;
+ sysirq_setHandler(INT_DACC, irq_dac);
+
+ tc_init();
}
projects / bertos.git / commitdiff