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Add stub for board selection page.
[bertos.git]
/
bertos
/
net
/
afsk.c
diff --git
a/bertos/net/afsk.c
b/bertos/net/afsk.c
index 5efce302ab08a7be4677a8331c79e25da4eebbc5..2b7fe0bedaa5df37b4e18e8f6283cae1f13e2073 100644
(file)
--- a/
bertos/net/afsk.c
+++ b/
bertos/net/afsk.c
@@
-127,7
+127,7
@@
INLINE uint8_t sin_sample(uint16_t idx)
* \param bit current bit to be parsed.
* \param fifo FIFO buffer used to push characters.
*
* \param bit current bit to be parsed.
* \param fifo FIFO buffer used to push characters.
*
- * \return
True if all is ok, F
alse if the fifo is full.
+ * \return
true if all is ok, f
alse if the fifo is full.
*/
static bool hdlc_parse(Hdlc *hdlc, bool bit, FIFOBuffer *fifo)
{
*/
static bool hdlc_parse(Hdlc *hdlc, bool bit, FIFOBuffer *fifo)
{
@@
-209,7
+209,7
@@
static bool hdlc_parse(Hdlc *hdlc, bool bit, FIFOBuffer *fifo)
* ADC ISR callback.
* This function has to be called by the ADC ISR when a sample of the configured
* channel is available.
* ADC ISR callback.
* This function has to be called by the ADC ISR when a sample of the configured
* channel is available.
- * \param af Afsk context to operate on
e (\see Afsk)
.
+ * \param af Afsk context to operate on.
* \param curr_sample current sample from the ADC.
*/
void afsk_adc_isr(Afsk *af, int8_t curr_sample)
* \param curr_sample current sample from the ADC.
*/
void afsk_adc_isr(Afsk *af, int8_t curr_sample)
@@
-340,12
+340,14
@@
static void afsk_txStart(Afsk *af)
* This function has to be called by the DAC ISR when a sample of the configured
* channel has been converted out.
*
* This function has to be called by the DAC ISR when a sample of the configured
* channel has been converted out.
*
- * \param af Afsk context to operate on
e (\see Afsk)
.
+ * \param af Afsk context to operate on.
*
* \return The next DAC output sample.
*/
uint8_t afsk_dac_isr(Afsk *af)
{
*
* \return The next DAC output sample.
*/
uint8_t afsk_dac_isr(Afsk *af)
{
+ AFSK_STROBE_ON();
+
/* Check if we are at a start of a sample cycle */
if (af->sample_count == 0)
{
/* Check if we are at a start of a sample cycle */
if (af->sample_count == 0)
{
@@
-356,6
+358,7
@@
uint8_t afsk_dac_isr(Afsk *af)
{
AFSK_DAC_IRQ_STOP(af->dac_ch);
af->sending = false;
{
AFSK_DAC_IRQ_STOP(af->dac_ch);
af->sending = false;
+ AFSK_STROBE_OFF();
return 0;
}
else
return 0;
}
else
@@
-395,6
+398,7
@@
uint8_t afsk_dac_isr(Afsk *af)
{
AFSK_DAC_IRQ_STOP(af->dac_ch);
af->sending = false;
{
AFSK_DAC_IRQ_STOP(af->dac_ch);
af->sending = false;
+ AFSK_STROBE_OFF();
return 0;
}
else
return 0;
}
else
@@
-453,6
+457,7
@@
uint8_t afsk_dac_isr(Afsk *af)
af->phase_acc %= SIN_LEN;
af->sample_count--;
af->phase_acc %= SIN_LEN;
af->sample_count--;
+ AFSK_STROBE_OFF();
return sin_sample(af->phase_acc);
}
return sin_sample(af->phase_acc);
}
@@
-530,7
+535,7
@@
static void afsk_clearerr(KFile *fd)
/**
* Initialize an AFSK1200 modem.
/**
* Initialize an AFSK1200 modem.
- * \param af Afsk context to operate on
e (\see Afsk)
.
+ * \param af Afsk context to operate on.
* \param adc_ch ADC channel used by the demodulator.
* \param dac_ch DAC channel used by the modulator.
*/
* \param adc_ch ADC channel used by the demodulator.
* \param dac_ch DAC channel used by the modulator.
*/