data[0] = ((1 << CC1200_READ) |
(0 << CC1200_BURST) |
CC1200_EXTENDED);
- data[1] = addr;
+ data[1] = (uint8_t) addr;
d = 2;
} else {
data[0] = ((1 << CC1200_READ) |
(0 << CC1200_BURST) |
- addr);
+ (uint8_t) addr);
d = 1;
}
ao_radio_select();
data[0] = ((0 << CC1200_READ) |
(0 << CC1200_BURST) |
CC1200_EXTENDED);
- data[1] = addr;
+ data[1] = (uint8_t) addr;
d = 2;
} else {
data[0] = ((0 << CC1200_READ) |
(0 << CC1200_BURST) |
- addr);
+ (uint8_t) addr);
d = 1;
}
data[d] = value;
int i;
for (i = 0; i < nreg; i++) {
- ao_radio_reg_write(regs[0], regs[1]);
+ ao_radio_reg_write(regs[0], (uint8_t) regs[1]);
regs += 2;
}
}
if (new_mode == ao_radio_mode)
return;
- changes = new_mode & (~ao_radio_mode);
+ changes = (uint16_t) (new_mode & (~ao_radio_mode));
if (changes & AO_RADIO_MODE_BITS_PACKET) {
ao_radio_set_regs(packet_setup);
{
static uint32_t last_radio_setting;
static uint8_t last_radio_rate;
+ static uint8_t last_radio_10mw;
ao_mutex_get(&ao_radio_mutex);
if (!ao_radio_configured)
ao_radio_setup();
if (ao_config.radio_setting != last_radio_setting) {
- ao_radio_reg_write(CC1200_FREQ2, ao_config.radio_setting >> 16);
- ao_radio_reg_write(CC1200_FREQ1, ao_config.radio_setting >> 8);
- ao_radio_reg_write(CC1200_FREQ0, ao_config.radio_setting);
+ ao_radio_reg_write(CC1200_FREQ2, (uint8_t) (ao_config.radio_setting >> 16));
+ ao_radio_reg_write(CC1200_FREQ1, (uint8_t) (ao_config.radio_setting >> 8));
+ ao_radio_reg_write(CC1200_FREQ0, (uint8_t) ao_config.radio_setting);
last_radio_setting = ao_config.radio_setting;
ao_radio_strobe(CC1200_SCAL);
}
if (ao_config.radio_rate != last_radio_rate) {
- ao_radio_mode &= ~AO_RADIO_MODE_BITS_PACKET;
+ ao_radio_mode &= (uint16_t) ~AO_RADIO_MODE_BITS_PACKET;
last_radio_rate = ao_config.radio_rate;
}
+ if(ao_config.radio_10mw != last_radio_10mw) {
+ last_radio_10mw = ao_config.radio_10mw;
+ /*
+ * 0x37 "should" be 10dBm, but measurements on TBT
+ * v4.0 show that too hot, so use * 0x32 to make sure
+ * we're in spec.
+ */
+ if (ao_config.radio_10mw)
+ ao_radio_reg_write(CC1200_PA_CFG1, 0x32);
+ else
+ ao_radio_reg_write(CC1200_PA_CFG1, 0x3f);
+ }
ao_radio_set_len(len);
}
/* Wait for the radio to signal an interrupt
*/
static void
-ao_radio_wait_isr(uint16_t timeout)
+ao_radio_wait_isr(AO_TICK_TYPE timeout)
{
ao_arch_block_interrupts();
while (!ao_radio_wake && !ao_radio_abort)
uint8_t mode = 2;
ao_cmd_white();
if (ao_cmd_lex_c != '\n')
- mode = ao_cmd_decimal();
+ mode = (uint8_t) ao_cmd_decimal();
mode++;
if ((mode & 2))
ao_radio_test_on();
/* At the last buffer, set the total length */
if (done)
- ao_radio_set_len(total & 0xff);
+ ao_radio_set_len((uint8_t) (total & 0xff));
/* Wait for some space in the fifo */
while (started && ao_radio_int_pin() != 0 && !ao_radio_abort) {
else
ao_radio_set_mode(AO_RADIO_MODE_APRS_BUF);
- ao_radio_fifo_write(buf, cnt);
+ ao_radio_fifo_write(buf, (uint8_t) cnt);
if (!started) {
ao_radio_strobe(CC1200_STX);
started = 1;
#endif
uint8_t
-ao_radio_recv(void *d, uint8_t size, uint8_t timeout)
+ao_radio_recv(void *d, uint8_t size, AO_TICK_TYPE timeout)
{
uint8_t success = 0;
switch (ao_config.radio_rate) {
default:
case AO_RADIO_RATE_38400:
- timeout = AO_MS_TO_TICKS(size * (8 * 2 * 10) / 384) + 1;
+ timeout = AO_MS_TO_TICKS((AO_TICK_TYPE) size * (8 * 2 * 10) / 384) + 1;
break;
case AO_RADIO_RATE_9600:
- timeout = AO_MS_TO_TICKS(size * (8 * 2 * 10) / 96) + 1;
+ timeout = AO_MS_TO_TICKS((AO_TICK_TYPE) size * (8 * 2 * 10) / 96) + 1;
break;
case AO_RADIO_RATE_2400:
- timeout = AO_MS_TO_TICKS(size * (8 * 2 * 10) / 24) + 1;
+ timeout = AO_MS_TO_TICKS((AO_TICK_TYPE) size * (8 * 2 * 10) / 24) + 1;
break;
}
}
rssi = -11;
/* Write it back to the packet */
- ((int8_t *) d)[size-2] = AO_RADIO_FROM_RSSI(rssi);
+ ((uint8_t *) d)[size-2] = AO_RADIO_FROM_RSSI(rssi);
} else {
ao_radio_idle();
ao_radio_rssi = 0;