interface Tda5250Control;
interface RadioByteComm;
interface ResourceRequested;
+ interface ClkDiv;
}
uses {
interface HplTda5250Config;
/**************** Radio Start *****************/
task void startDoneTask() {
+ signal ClkDiv.startDone();
signal SplitControl.startDone(SUCCESS);
}
switch(mode) {
case RADIO_MODE_ON_TRANSITION:
call HplTda5250Config.reset();
+ // call HplTda5250Config.SetRFPower(240);
+ // call HplTda5250Config.SetClockOnDuringPowerDown();
call HplTda5250Config.SetRFPower(255);
call ConfigResource.release();
atomic radioMode = RADIO_MODE_ON;
post startDoneTask();
break;
case RADIO_MODE_OFF_TRANSITION:
+ signal ClkDiv.stopping();
call HplTda5250Config.SetSleepMode();
call ConfigResource.release();
atomic radioMode = RADIO_MODE_OFF;
post stopDoneTask();
break;
case RADIO_MODE_SLEEP_TRANSITION:
+ signal ClkDiv.stopping();
call HplTda5250Config.SetSlaveMode();
call HplTda5250Config.SetSleepMode();
atomic radioMode = RADIO_MODE_SLEEP;
signal Tda5250Control.RssiStable();
break;
case RECEIVER_DELAY :
+ signal ClkDiv.startDone();
delayTimer = RSSISTABLE_DELAY;
call DelayTimer.start(TDA5250_RSSI_STABLE_TIME-TDA5250_RECEIVER_SETUP_TIME);
if (call DataResource.immediateRequest() == SUCCESS) {
}
break;
case TRANSMITTER_DELAY :
+ signal ClkDiv.startDone();
if (call DataResource.immediateRequest() == SUCCESS) {
switchDataResource();
} else {
}
default async event void RadioByteComm.txByteReady(error_t error) {
}
+ default async event void ClkDiv.startDone() {
+ }
+ default async event void ClkDiv.stopping() {
+ }
}