__xdata struct ao_packet ao_tx_packet;
__pdata uint8_t ao_packet_rx_len, ao_packet_rx_used, ao_packet_tx_used;
-static __xdata char tx_data[AO_PACKET_MAX];
-static __xdata char rx_data[AO_PACKET_MAX];
+static __xdata uint8_t tx_data[AO_PACKET_MAX];
+static __xdata uint8_t rx_data[AO_PACKET_MAX];
static __pdata uint8_t rx_seq;
__xdata struct ao_task ao_packet_task;
__xdata uint8_t ao_packet_enable;
+__xdata uint8_t ao_packet_restart;
+
+#if PACKET_HAS_MASTER
__xdata uint8_t ao_packet_master_sleeping;
+#endif
void
ao_packet_send(void)
#ifdef AO_LED_GREEN
ao_led_on(AO_LED_GREEN);
#endif
- dma_done = ao_radio_recv(&ao_rx_packet, sizeof (struct ao_packet_recv));
+ dma_done = ao_radio_recv(&ao_rx_packet, sizeof (struct ao_packet_recv), 0);
#ifdef AO_LED_GREEN
ao_led_off(AO_LED_GREEN);
#endif
/* Check for incoming data at the next sequence and
* for an empty data buffer
*/
- if (ao_rx_packet.packet.seq == (uint8_t) (rx_seq + (uint8_t) 1) &&
+ if ((ao_rx_packet.packet.seq == (uint8_t) (rx_seq + (uint8_t) 1) ||
+ ao_packet_restart) &&
ao_packet_rx_used == ao_packet_rx_len) {
/* Copy data to the receive data buffer and set up the
ao_wakeup(&ao_stdin_ready);
}
}
+ ao_packet_restart = 0;
/* If the other side has seen the latest data we queued,
* wake up any task waiting to send data and let them go again
return 1;
}
-#ifndef PACKET_HAS_MASTER
-#define PACKET_HAS_MASTER 1
-#endif
-
#if PACKET_HAS_MASTER
void
ao_packet_flush(void)
void
ao_packet_putchar(char c) __reentrant
{
+ /* No need to block interrupts, all variables here
+ * are only manipulated in task context
+ */
while (ao_packet_tx_used == AO_PACKET_MAX && ao_packet_enable) {
#if PACKET_HAS_MASTER
ao_packet_flush();
tx_data[ao_packet_tx_used++] = c;
}
-char
-ao_packet_pollchar(void) __critical
+/* May be called with interrupts blocked */
+int
+_ao_packet_pollchar(void)
{
if (!ao_packet_enable)
return AO_READ_AGAIN;