use of org.openhab.binding.maxcul.internal.messages.WallThermostatStateMsg in project openhab1-addons by openhab.
the class MaxCulBinding method maxCulMsgReceived.
@Override
public void maxCulMsgReceived(String data, boolean isBroadcast) {
logger.debug("Received data from CUL: " + data);
MaxCulMsgType msgType = BaseMsg.getMsgType(data);
/*
* Check if it's broadcast and we're in pair mode or a PAIR_PING message
* directly for us
*/
if (((pairMode && isBroadcast) || !isBroadcast) && msgType == MaxCulMsgType.PAIR_PING) {
logger.debug("Got PAIR_PING message");
MaxCulBindingConfig configWithTempsConfig = null;
/* process packet */
PairPingMsg pkt = new PairPingMsg(data);
/* Match serial number to binding configuration */
Collection<MaxCulBindingConfig> bindingConfigs = getBindingsBySerial(pkt.serial);
/*
* only respond and set pairing info if we found at least one
* binding config
*/
if (bindingConfigs != null) {
logger.debug("Found " + bindingConfigs.size() + " configs for " + pkt.serial);
for (MaxCulBindingConfig bc : bindingConfigs) {
/* Set pairing information */
bc.setPairedInfo(pkt.srcAddrStr);
/*
* where it came from gives
* the addr of the device
*/
if (bc.isTemperatureConfigSet() && configWithTempsConfig == null) {
configWithTempsConfig = bc;
}
}
/* if none have values set then send default from first config */
if (configWithTempsConfig == null) {
logger.debug("Using default temperature configuration from config 0");
configWithTempsConfig = (MaxCulBindingConfig) bindingConfigs.toArray()[0];
}
/* get device associations */
HashSet<MaxCulBindingConfig> associations = null;
for (MaxCulBindingProvider provider : super.providers) {
associations = provider.getAssociations(configWithTempsConfig.getSerialNumber());
if (associations != null && associations.isEmpty() == false) {
logger.debug("Found associations");
break;
}
}
/* start the initialisation sequence */
logger.debug("Creating pairing sequencer");
PairingInitialisationSequence ps = new PairingInitialisationSequence(this.DEFAULT_GROUP_ID, messageHandler, configWithTempsConfig, associations);
messageHandler.startSequence(ps, pkt);
} else {
logger.error("Pairing failed: Unable to find binding config for device " + pkt.serial);
}
} else {
switch(msgType) {
/*
* TODO there are other incoming messages that aren't handled that
* could be
*/
case WALL_THERMOSTAT_CONTROL:
WallThermostatControlMsg wallThermCtrlMsg = new WallThermostatControlMsg(data);
wallThermCtrlMsg.printMessage();
for (MaxCulBindingProvider provider : super.providers) {
Collection<MaxCulBindingConfig> bindingConfigs = provider.getConfigsForRadioAddr(wallThermCtrlMsg.srcAddrStr);
for (MaxCulBindingConfig bc : bindingConfigs) {
if (bc.getFeature() == MaxCulFeature.THERMOSTAT && wallThermCtrlMsg.getDesiredTemperature() != null) {
String itemName = provider.getItemNameForConfig(bc);
eventPublisher.postUpdate(itemName, new DecimalType(wallThermCtrlMsg.getDesiredTemperature()));
} else if (bc.getFeature() == MaxCulFeature.TEMPERATURE && wallThermCtrlMsg.getMeasuredTemperature() != null) {
String itemName = provider.getItemNameForConfig(bc);
eventPublisher.postUpdate(itemName, new DecimalType(wallThermCtrlMsg.getMeasuredTemperature()));
}
// TODO switch mode between manual/automatic?
}
}
/* reply only if not broadcast */
if (isBroadcast == false) {
this.messageHandler.sendAck(wallThermCtrlMsg);
}
break;
case SET_TEMPERATURE:
SetTemperatureMsg setTempMsg = new SetTemperatureMsg(data);
setTempMsg.printMessage();
for (MaxCulBindingProvider provider : super.providers) {
Collection<MaxCulBindingConfig> bindingConfigs = provider.getConfigsForRadioAddr(setTempMsg.srcAddrStr);
for (MaxCulBindingConfig bc : bindingConfigs) {
if (bc.getFeature() == MaxCulFeature.THERMOSTAT) {
String itemName = provider.getItemNameForConfig(bc);
eventPublisher.postUpdate(itemName, new DecimalType(setTempMsg.getDesiredTemperature()));
}
// TODO switch mode between manual/automatic?
}
}
/* respond to device */
if (isBroadcast == false) {
this.messageHandler.sendAck(setTempMsg);
}
break;
case THERMOSTAT_STATE:
ThermostatStateMsg thermStateMsg = new ThermostatStateMsg(data);
thermStateMsg.printMessage();
for (MaxCulBindingProvider provider : super.providers) {
Collection<MaxCulBindingConfig> bindingConfigs = provider.getConfigsForRadioAddr(thermStateMsg.srcAddrStr);
for (MaxCulBindingConfig bc : bindingConfigs) {
String itemName = provider.getItemNameForConfig(bc);
if (bc.getFeature() == MaxCulFeature.THERMOSTAT && thermStateMsg.getDesiredTemperature() != null) {
eventPublisher.postUpdate(itemName, new DecimalType(thermStateMsg.getDesiredTemperature()));
} else if (bc.getFeature() == MaxCulFeature.TEMPERATURE && thermStateMsg.getMeasuredTemperature() != null) {
eventPublisher.postUpdate(itemName, new DecimalType(thermStateMsg.getMeasuredTemperature()));
} else if (bc.getFeature() == MaxCulFeature.BATTERY) {
eventPublisher.postUpdate(itemName, thermStateMsg.getBatteryLow() ? OnOffType.ON : OnOffType.OFF);
} else if (bc.getFeature() == MaxCulFeature.MODE) {
eventPublisher.postUpdate(itemName, new DecimalType(thermStateMsg.getControlMode().toInt()));
} else if (bc.getFeature() == MaxCulFeature.VALVE_POS) {
eventPublisher.postUpdate(itemName, new DecimalType(thermStateMsg.getValvePos()));
}
// TODO switch mode between manual/automatic?
}
}
/* respond to device */
if (isBroadcast == false) {
this.messageHandler.sendAck(thermStateMsg);
}
break;
case WALL_THERMOSTAT_STATE:
WallThermostatStateMsg wallThermStateMsg = new WallThermostatStateMsg(data);
wallThermStateMsg.printMessage();
for (MaxCulBindingProvider provider : super.providers) {
Collection<MaxCulBindingConfig> bindingConfigs = provider.getConfigsForRadioAddr(wallThermStateMsg.srcAddrStr);
for (MaxCulBindingConfig bc : bindingConfigs) {
String itemName = provider.getItemNameForConfig(bc);
if (bc.getFeature() == MaxCulFeature.THERMOSTAT && wallThermStateMsg.getDesiredTemperature() != null) {
eventPublisher.postUpdate(itemName, new DecimalType(wallThermStateMsg.getDesiredTemperature()));
} else if (bc.getFeature() == MaxCulFeature.TEMPERATURE && wallThermStateMsg.getMeasuredTemperature() != null) {
eventPublisher.postUpdate(itemName, new DecimalType(wallThermStateMsg.getMeasuredTemperature()));
} else if (bc.getFeature() == MaxCulFeature.BATTERY) {
eventPublisher.postUpdate(itemName, wallThermStateMsg.getBatteryLow() ? OnOffType.ON : OnOffType.OFF);
} else if (bc.getFeature() == MaxCulFeature.MODE) {
eventPublisher.postUpdate(itemName, new DecimalType(wallThermStateMsg.getControlMode().toInt()));
}
}
}
/* respond to device */
if (isBroadcast == false) {
this.messageHandler.sendAck(wallThermStateMsg);
}
break;
case TIME_INFO:
TimeInfoMsg timeMsg = new TimeInfoMsg(data);
timeMsg.printMessage();
TimeUpdateRequestSequence timeSeq = new TimeUpdateRequestSequence(this.tzStr, messageHandler);
messageHandler.startSequence(timeSeq, timeMsg);
break;
case PUSH_BUTTON_STATE:
PushButtonMsg pbMsg = new PushButtonMsg(data);
pbMsg.printMessage();
for (MaxCulBindingProvider provider : super.providers) {
Collection<MaxCulBindingConfig> bindingConfigs = provider.getConfigsForRadioAddr(pbMsg.srcAddrStr);
for (MaxCulBindingConfig bc : bindingConfigs) {
String itemName = provider.getItemNameForConfig(bc);
if (bc.getFeature() == MaxCulFeature.SWITCH) {
// 'AUTO' maps to 'ON' and 'ECO' maps to 'OFF'
eventPublisher.postUpdate(itemName, pbMsg.getMode() == PushButtonMode.AUTO ? OnOffType.ON : OnOffType.OFF);
} else if (bc.getFeature() == MaxCulFeature.BATTERY) {
eventPublisher.postUpdate(itemName, pbMsg.getBatteryLow() ? OnOffType.ON : OnOffType.OFF);
}
}
}
if (isBroadcast == false) {
this.messageHandler.sendAck(pbMsg);
}
break;
case SHUTTER_CONTACT_STATE:
ShutterContactStateMsg shutterContactStateMsg = new ShutterContactStateMsg(data);
shutterContactStateMsg.printMessage();
for (MaxCulBindingProvider provider : super.providers) {
Collection<MaxCulBindingConfig> bindingConfigs = provider.getConfigsForRadioAddr(shutterContactStateMsg.srcAddrStr);
for (MaxCulBindingConfig bc : bindingConfigs) {
String itemName = provider.getItemNameForConfig(bc);
if (bc.getFeature() == MaxCulFeature.CONTACT) {
if (shutterContactStateMsg.getState() == ShutterContactState.CLOSED) {
eventPublisher.postUpdate(itemName, OpenClosedType.CLOSED);
} else if (shutterContactStateMsg.getState() == ShutterContactState.OPEN) {
eventPublisher.postUpdate(itemName, OpenClosedType.OPEN);
}
} else if (bc.getFeature() == MaxCulFeature.BATTERY) {
eventPublisher.postUpdate(itemName, shutterContactStateMsg.getBatteryLow() ? OnOffType.ON : OnOffType.OFF);
}
}
}
/* respond to device */
if (isBroadcast == false) {
this.messageHandler.sendAck(shutterContactStateMsg);
}
break;
default:
logger.debug("Unhandled message type " + msgType.toString());
break;
}
}
updateCreditMonitors();
}
use of org.openhab.binding.maxcul.internal.messages.WallThermostatStateMsg in project openhab1-addons by openhab.
the class MaxCulMsgHandler method listenModeHandler.
private void listenModeHandler(String data) {
switch(BaseMsg.getMsgType(data)) {
case WALL_THERMOSTAT_CONTROL:
new WallThermostatControlMsg(data).printMessage();
break;
case TIME_INFO:
new TimeInfoMsg(data).printMessage();
break;
case SET_TEMPERATURE:
new SetTemperatureMsg(data).printMessage();
break;
case ACK:
new AckMsg(data).printMessage();
break;
case PAIR_PING:
new PairPingMsg(data).printMessage();
break;
case PAIR_PONG:
new PairPongMsg(data).printMessage();
break;
case THERMOSTAT_STATE:
new ThermostatStateMsg(data).printMessage();
break;
case SET_GROUP_ID:
new SetGroupIdMsg(data).printMessage();
break;
case WAKEUP:
new WakeupMsg(data).printMessage();
break;
case WALL_THERMOSTAT_STATE:
new WallThermostatStateMsg(data).printMessage();
break;
case ADD_LINK_PARTNER:
case CONFIG_TEMPERATURES:
case CONFIG_VALVE:
case CONFIG_WEEK_PROFILE:
case PUSH_BUTTON_STATE:
case REMOVE_GROUP_ID:
case REMOVE_LINK_PARTNER:
case RESET:
case SET_COMFORT_TEMPERATURE:
case SET_DISPLAY_ACTUAL_TEMP:
case SET_ECO_TEMPERATURE:
case SHUTTER_CONTACT_STATE:
case UNKNOWN:
default:
BaseMsg baseMsg = new BaseMsg(data);
baseMsg.printMessage();
break;
}
}
Aggregations