#define ao_radio_try_select(task_id) ao_spi_try_get_mask(AO_CC1120_SPI_CS_PORT,(1 << AO_CC1120_SPI_CS_PIN),AO_CC1120_SPI_BUS,AO_SPI_SPEED_4MHz, task_id)
#define ao_radio_select() ao_spi_get_mask(AO_CC1120_SPI_CS_PORT,(1 << AO_CC1120_SPI_CS_PIN),AO_CC1120_SPI_BUS,AO_SPI_SPEED_4MHz)
#define ao_radio_deselect() ao_spi_put_mask(AO_CC1120_SPI_CS_PORT,(1 << AO_CC1120_SPI_CS_PIN),AO_CC1120_SPI_BUS)
-#define ao_radio_spi_send_sync(d,l) ao_spi_send_sync((d), (l), AO_CC1120_SPI_BUS)
+#define ao_radio_spi_start_bytes() ao_spi_start_bytes(AO_CC1120_SPI_BUS)
+#define ao_radio_spi_stop_bytes() ao_spi_stop_bytes(AO_CC1120_SPI_BUS)
+#define ao_radio_spi_send_byte(b) ao_spi_send_byte(b, AO_CC1120_SPI_BUS)
+#define ao_radio_spi_recv_byte() ao_spi_recv_byte(AO_CC1120_SPI_BUS)
#define ao_radio_spi_send(d,l) ao_spi_send((d), (l), AO_CC1120_SPI_BUS)
#define ao_radio_spi_send_fixed(d,l) ao_spi_send_fixed((d), (l), AO_CC1120_SPI_BUS)
#define ao_radio_spi_recv(d,l) ao_spi_recv((d), (l), AO_CC1120_SPI_BUS)
static void
_ao_radio_burst_read_start (uint16_t addr)
{
- uint8_t data[2];
- uint8_t d;
+ ao_radio_spi_start_bytes();
if (CC1120_IS_EXTENDED(addr)) {
- data[0] = ((1 << CC1120_READ) |
- (1 << CC1120_BURST) |
- CC1120_EXTENDED);
- data[1] = addr;
- d = 2;
+ ao_radio_spi_send_byte((1 << CC1120_READ) |
+ (1 << CC1120_BURST) |
+ CC1120_EXTENDED);
} else {
- data[0] = ((1 << CC1120_READ) |
- (1 << CC1120_BURST) |
- addr);
- d = 1;
+ addr |= ((1 << CC1120_READ) |
+ (1 << CC1120_BURST));
}
-
- ao_radio_spi_send_sync(data, d);
+ ao_radio_spi_send_byte(addr);
}
static void
ao_radio_burst_read_stop (void)
{
+ ao_radio_spi_stop_bytes();
ao_radio_deselect();
}
static void
ao_radio_wait_isr(uint16_t timeout)
{
- if (timeout)
- ao_alarm(timeout);
ao_arch_block_interrupts();
while (!ao_radio_wake && !ao_radio_mcu_wake && !ao_radio_abort)
- if (ao_sleep(&ao_radio_wake))
+ if (ao_sleep_for(&ao_radio_wake, timeout))
ao_radio_abort = 1;
ao_arch_release_interrupts();
- if (timeout)
- ao_clear_alarm();
if (ao_radio_mcu_wake)
ao_radio_check_marc_status();
}
rx_starting = 0;
ao_wakeup(&ao_radio_wake);
}
- d = AO_CC1120_SPI.dr;
- AO_CC1120_SPI.dr = 0;
+ d = ao_radio_spi_recv_byte();
if (rx_ignore == 0) {
if (rx_data_cur < rx_data_count)
rx_data[rx_data_cur++] = d;
static uint16_t
ao_radio_rx_wait(void)
{
- ao_alarm(AO_MS_TO_TICKS(100));
ao_arch_block_interrupts();
rx_waiting = 1;
while (rx_data_cur - rx_data_consumed < AO_FEC_DECODE_BLOCK &&
!ao_radio_abort &&
!ao_radio_mcu_wake)
{
- if (ao_sleep(&ao_radio_wake))
+ if (ao_sleep_for(&ao_radio_wake, AO_MS_TO_TICKS(100)))
ao_radio_abort = 1;
}
rx_waiting = 0;
ao_arch_release_interrupts();
- ao_clear_alarm();
if (ao_radio_abort || ao_radio_mcu_wake)
return 0;
rx_data_consumed += AO_FEC_DECODE_BLOCK;
rx_data_count = len * 8; /* bytes to bits */
rx_data_cur = 0;
rx_data_consumed = 0;
- rx_ignore = 2;
+ rx_ignore = 1;
/* Must be set before changing the frequency; any abort
* after the frequency is set needs to terminate the read
ao_radio_strobe(CC1120_SRX);
- if (timeout)
- ao_alarm(timeout);
ao_arch_block_interrupts();
while (rx_starting && !ao_radio_abort) {
- if (ao_sleep(&ao_radio_wake))
+ if (ao_sleep_for(&ao_radio_wake, timeout))
ao_radio_abort = 1;
}
uint8_t rx_task_id_save = rx_task_id;
rx_task_id = 0;
rx_starting = 0;
ao_arch_release_interrupts();
- if (timeout)
- ao_clear_alarm();
if (ao_radio_abort) {
if (rx_task_id_save == 0)
ao_radio_select();
_ao_radio_burst_read_start(CC1120_SOFT_RX_DATA_OUT);
if (rx_ignore) {
- uint8_t ignore = AO_CC1120_SPI.dr;
- (void) ignore;
- AO_CC1120_SPI.dr = 0;
+ (void) ao_radio_spi_recv_byte();
--rx_ignore;
}
}