/** {@inheritDoc} */
@Override
public void internalReceiveCommand(String itemName, Command command) {
logger.debug("Received command from {}", itemName);
// resolve serial number for item
String serialNumber = null;
for (MaxCubeBindingProvider provider : providers) {
serialNumber = provider.getSerialNumber(itemName);
if (StringUtils.isBlank(serialNumber)) {
continue;
}
// send command to MAX!Cube LAN Gateway
Device device = findDevice(serialNumber, devices);
if (device == null) {
logger.debug(
"Cannot send command to device with serial number {}, device not listed.",
serialNumber);
continue;
}
String rfAddress = device.getRFAddress();
String commandString = null;
if (command instanceof DecimalType || command instanceof OnOffType) {
DecimalType decimalType = DEFAULT_OFF_TEMPERATURE;
if (command instanceof DecimalType) {
decimalType = (DecimalType) command;
} else if (command instanceof OnOffType) {
decimalType =
OnOffType.ON.equals(command) ? DEFAULT_ON_TEMPERATURE : DEFAULT_OFF_TEMPERATURE;
}
S_Command cmd =
new S_Command(
rfAddress,
device.getRoomId(),
((HeatingThermostat) device).getMode(),
decimalType.doubleValue());
commandString = cmd.getCommandString();
} else if (command instanceof StringType) {
String commandContent = command.toString().trim().toUpperCase();
S_Command cmd = null;
ThermostatModeType commandThermoType = null;
if (commandContent.contentEquals(ThermostatModeType.AUTOMATIC.toString())) {
commandThermoType = ThermostatModeType.AUTOMATIC;
cmd = new S_Command(rfAddress, device.getRoomId(), commandThermoType);
} else if (commandContent.contentEquals(ThermostatModeType.BOOST.toString())) {
commandThermoType = ThermostatModeType.BOOST;
Double setTemp =
Double.parseDouble(((HeatingThermostat) device).getTemperatureSetpoint().toString());
cmd = new S_Command(rfAddress, device.getRoomId(), commandThermoType, setTemp);
} else if (commandContent.contentEquals(ThermostatModeType.MANUAL.toString())) {
commandThermoType = ThermostatModeType.MANUAL;
Double setTemp =
Double.parseDouble(((HeatingThermostat) device).getTemperatureSetpoint().toString());
cmd = new S_Command(rfAddress, device.getRoomId(), commandThermoType, setTemp);
logger.debug("updates to MANUAL mode with temperature '{}'", setTemp);
} else {
logger.debug(
"Only updates to AUTOMATIC, MANUAL & BOOST supported, received value ;'{}'",
commandContent);
continue;
}
commandString = cmd.getCommandString();
}
if (commandString != null) {
try {
if (socket == null) {
this.socketConnect();
}
writer.write(commandString);
logger.debug(commandString);
writer.flush();
Message message = null;
String raw = reader.readLine();
try {
while (!this.messageProcessor.isMessageAvailable()) {
this.messageProcessor.addReceivedLine(raw);
raw = reader.readLine();
}
message = this.messageProcessor.pull();
} catch (Exception e) {
logger.info("Error while handling response from MAX! Cube lan gateway!");
logger.debug(Utils.getStackTrace(e));
this.messageProcessor.reset();
}
if (message != null) {
if (message.getType() == MessageType.S) {
sMessageProcessing((S_Message) message);
}
}
if (!exclusive) {
socket.close();
socket = null;
}
} catch (UnknownHostException e) {
logger.info(
"Host error occurred while connecting to MAX! Cube lan gateway '{}': {}",
ip,
e.getMessage());
socketClose();
} catch (IOException e) {
logger.info(
"IO error occurred while writing to MAX! Cube lan gateway '{}': {}",
ip,
e.getMessage());
socketClose(); // reconnect on next execution
} catch (Exception e) {
logger.info(
"Error occurred while writing to MAX! Cube lan gateway '{}': {}", ip, e.getMessage());
logger.info(Utils.getStackTrace(e));
socketClose(); // reconnect on next execution
}
logger.debug("Command Sent to {}", ip);
} else {
logger.debug("Null Command not sent to {}", ip);
}
}
}
/** {@inheritDoc} */
@Override
public synchronized void execute() {
if (ip == null) {
logger.debug("Update prior to completion of interface IP configuration");
return;
}
try {
String raw = null;
if (maxRequestsPerConnection > 0 && requestCount >= maxRequestsPerConnection) {
logger.debug("maxRequestsPerConnection reached, reconnecting.");
socket.close();
this.socketConnect();
}
if (socket == null) {
this.socketConnect();
} else {
/*
* if the connection is already open (this happens in exclusive mode), just send a "l:\r\n" to get the
* latest live informations
* note that "L:\r\n" or "l:\n" would not work.
*/
logger.debug("Sending state request #" + this.requestCount + " to Maxcube");
writer.write("l:" + '\r' + '\n');
writer.flush();
requestCount++;
}
boolean cont = true;
while (cont) {
raw = reader.readLine();
if (raw == null) {
cont = false;
continue;
}
Message message = null;
try {
this.messageProcessor.addReceivedLine(raw);
if (this.messageProcessor.isMessageAvailable()) {
message = this.messageProcessor.pull();
} else {
continue;
}
message.debug(logger);
if (message != null) {
message.debug(logger);
if (message.getType() == MessageType.M) {
M_Message msg = (M_Message) message;
for (DeviceInformation di : msg.devices) {
Configuration c = null;
for (Configuration conf : configurations) {
if (conf.getSerialNumber().equalsIgnoreCase(di.getSerialNumber())) {
c = conf;
break;
}
}
if (c != null) {
configurations.remove(c);
}
c = Configuration.create(di);
configurations.add(c);
c.setRoomId(di.getRoomId());
}
} else if (message.getType() == MessageType.C) {
Configuration c = null;
for (Configuration conf : configurations) {
if (conf.getSerialNumber()
.equalsIgnoreCase(((C_Message) message).getSerialNumber())) {
c = conf;
break;
}
}
if (c == null) {
configurations.add(Configuration.create(message));
} else {
c.setValues((C_Message) message);
}
} else if (message.getType() == MessageType.S) {
sMessageProcessing((S_Message) message);
cont = false;
} else if (message.getType() == MessageType.L) {
((L_Message) message).updateDevices(devices, configurations);
logger.debug("{} devices found.", devices.size());
// the L message is the last one, while the reader
// would hang trying to read a new line and
// eventually the
// cube will fail to establish
// new connections for some time
cont = false;
}
}
} catch (IncorrectMultilineIndexException ex) {
logger.info(
"Incorrect MAX!Cube multiline message detected. Stopping processing and continue with next Line.");
this.messageProcessor.reset();
} catch (NoMessageAvailableException ex) {
logger.info(
"Could not process MAX!Cube message. Stopping processing and continue with next Line.");
this.messageProcessor.reset();
} catch (IncompleteMessageException ex) {
logger.info(
"Error while parsing MAX!Cube multiline message. Stopping processing, and continue with next Line.");
this.messageProcessor.reset();
} catch (UnprocessableMessageException ex) {
logger.info(
"Error while parsing MAX!Cube message. Stopping processing, and continue with next Line.");
this.messageProcessor.reset();
} catch (UnsupportedMessageTypeException ex) {
logger.info(
"Unsupported MAX!Cube message detected. Ignoring and continue with next Line.");
this.messageProcessor.reset();
} catch (MessageIsWaitingException ex) {
logger.info(
"There was and unhandled message waiting. Ignoring and continue with next Line.");
this.messageProcessor.reset();
} catch (Exception e) {
logger.info("Failed to process message received by MAX! protocol.");
logger.debug(Utils.getStackTrace(e));
this.messageProcessor.reset();
}
}
if (!exclusive) {
socketClose();
}
for (MaxCubeBindingProvider provider : providers) {
for (String itemName : provider.getItemNames()) {
String serialNumber = provider.getSerialNumber(itemName);
Device device = findDevice(serialNumber, devices);
if (device == null) {
logger.info("Cannot find MAX!cube device with serial number '{}'", serialNumber);
logAvailableMaxDevices();
continue;
}
// all devices have a battery state, so this is type-independent
if (provider.getBindingType(itemName) == BindingType.BATTERY) {
if (device.battery().isChargeUpdated()) {
eventPublisher.postUpdate(itemName, device.battery().getCharge());
}
} else if (provider.getBindingType(itemName) == BindingType.CONNECTION_ERROR) {
if (device.isErrorUpdated()) {
OnOffType connectionError = device.isError() ? OnOffType.ON : OnOffType.OFF;
eventPublisher.postUpdate(itemName, connectionError);
}
} else {
switch (device.getType()) {
case HeatingThermostatPlus:
case HeatingThermostat:
if (provider.getBindingType(itemName) == BindingType.VALVE
&& ((HeatingThermostat) device).isValvePositionUpdated()) {
eventPublisher.postUpdate(
itemName, ((HeatingThermostat) device).getValvePosition());
break;
}
// omitted break, fall through
case WallMountedThermostat: // and also HeatingThermostat
if (provider.getBindingType(itemName) == BindingType.MODE
&& ((HeatingThermostat) device).isModeUpdated()) {
eventPublisher.postUpdate(itemName, ((HeatingThermostat) device).getModeString());
} else if (provider.getBindingType(itemName) == BindingType.ACTUAL
&& ((HeatingThermostat) device).isTemperatureActualUpdated()) {
eventPublisher.postUpdate(
itemName, ((HeatingThermostat) device).getTemperatureActual());
} else if (((HeatingThermostat) device).isTemperatureSetpointUpdated()
&& provider.getBindingType(itemName) == null) {
eventPublisher.postUpdate(
itemName, ((HeatingThermostat) device).getTemperatureSetpoint());
}
break;
case ShutterContact:
if (((ShutterContact) device).isShutterStateUpdated()) {
eventPublisher.postUpdate(itemName, ((ShutterContact) device).getShutterState());
}
break;
default:
// no further devices supported yet
}
}
}
}
} catch (UnknownHostException e) {
logger.info(
"Host error occurred while connecting to MAX! Cube lan gateway '{}': {}",
ip,
e.getMessage());
socketClose();
} catch (IOException e) {
logger.info(
"IO error occurred while connecting to MAX! Cube lan gateway '{}': {}",
ip,
e.getMessage());
socketClose(); // reconnect on next execution
} catch (Exception e) {
logger.info(
"Error occurred while connecting to MAX! Cube lan gateway '{}': {}", ip, e.getMessage());
logger.info(Utils.getStackTrace(e));
socketClose(); // reconnect on next execution
}
}
