org.bidib.wizard.simulation.LightControlSimulator Maven / Gradle / Ivy
package org.bidib.wizard.simulation;
import java.util.HashMap;
import java.util.LinkedHashMap;
import java.util.Map;
import org.apache.commons.collections4.CollectionUtils;
import org.bidib.jbidibc.core.BidibLibrary;
import org.bidib.jbidibc.core.BidibPort;
import org.bidib.jbidibc.core.Feature;
import org.bidib.jbidibc.core.LcConfigX;
import org.bidib.jbidibc.core.LcMacro;
import org.bidib.jbidibc.core.enumeration.IoBehaviourEnum;
import org.bidib.jbidibc.core.enumeration.LcMacroOperationCode;
import org.bidib.jbidibc.core.enumeration.LcMacroState;
import org.bidib.jbidibc.core.enumeration.LcOutputType;
import org.bidib.jbidibc.core.enumeration.LightPortEnum;
import org.bidib.jbidibc.core.enumeration.SwitchPortEnum;
import org.bidib.jbidibc.core.exception.ProtocolException;
import org.bidib.jbidibc.core.message.AccessoryGetMessage;
import org.bidib.jbidibc.core.message.AccessoryParaGetMessage;
import org.bidib.jbidibc.core.message.AccessoryParaResponse;
import org.bidib.jbidibc.core.message.AccessoryParaSetMessage;
import org.bidib.jbidibc.core.message.AccessorySetMessage;
import org.bidib.jbidibc.core.message.AccessoryStateResponse;
import org.bidib.jbidibc.core.message.BidibCommand;
import org.bidib.jbidibc.core.message.LcConfigGetMessage;
import org.bidib.jbidibc.core.message.LcConfigResponse;
import org.bidib.jbidibc.core.message.LcConfigSetMessage;
import org.bidib.jbidibc.core.message.LcConfigXGetAllMessage;
import org.bidib.jbidibc.core.message.LcConfigXGetMessage;
import org.bidib.jbidibc.core.message.LcConfigXResponse;
import org.bidib.jbidibc.core.message.LcConfigXSetMessage;
import org.bidib.jbidibc.core.message.LcKeyMessage;
import org.bidib.jbidibc.core.message.LcKeyResponse;
import org.bidib.jbidibc.core.message.LcMacroGetMessage;
import org.bidib.jbidibc.core.message.LcMacroHandleMessage;
import org.bidib.jbidibc.core.message.LcMacroParaGetMessage;
import org.bidib.jbidibc.core.message.LcMacroParaResponse;
import org.bidib.jbidibc.core.message.LcMacroParaSetMessage;
import org.bidib.jbidibc.core.message.LcMacroResponse;
import org.bidib.jbidibc.core.message.LcMacroSetMessage;
import org.bidib.jbidibc.core.message.LcMacroStateResponse;
import org.bidib.jbidibc.core.message.LcNotAvailableResponse;
import org.bidib.jbidibc.core.message.LcOutputMessage;
import org.bidib.jbidibc.core.message.LcOutputQueryMessage;
import org.bidib.jbidibc.core.message.LcStatResponse;
import org.bidib.jbidibc.core.node.MacroFunctionsNode;
import org.bidib.jbidibc.core.port.BytePortConfigValue;
import org.bidib.jbidibc.core.port.Int16PortConfigValue;
import org.bidib.jbidibc.core.port.PortConfigValue;
import org.bidib.jbidibc.core.port.RgbPortConfigValue;
import org.bidib.jbidibc.core.utils.ByteUtils;
import org.bidib.jbidibc.core.utils.MacroUtils;
import org.bidib.jbidibc.core.utils.MessageUtils;
import org.bidib.jbidibc.simulation.SwitchingFunctionsNode;
import org.bidib.jbidibc.simulation.net.SimulationBidibMessageProcessor;
import org.bidib.jbidibc.simulation.nodes.DefaultNodeSimulator;
import org.bidib.jbidibc.simulation.nodes.InputPortType;
import org.bidib.jbidibc.simulation.nodes.LightPortParamsType;
import org.bidib.jbidibc.simulation.nodes.LightPortType;
import org.bidib.jbidibc.simulation.nodes.PortType;
import org.bidib.jbidibc.simulation.nodes.ServoPortType;
import org.bidib.jbidibc.simulation.nodes.SwitchPortType;
import org.bidib.wizard.comm.InputPortStatus;
import org.bidib.wizard.comm.LightPortStatus;
import org.bidib.wizard.comm.SwitchPortStatus;
import org.bidib.wizard.mvc.main.model.InputPort;
import org.bidib.wizard.mvc.main.model.LightPort;
import org.bidib.wizard.mvc.main.model.Port;
import org.bidib.wizard.mvc.main.model.ServoPort;
import org.bidib.wizard.mvc.main.model.SwitchPort;
import org.bidib.wizard.simulation.events.InputPortSetStatusEvent;
import org.bidib.wizard.simulation.events.InputPortStatusEvent;
import org.bidib.wizard.simulation.events.LightPortStatusEvent;
import org.bidib.wizard.simulation.events.ServoPortStatusEvent;
import org.bidib.wizard.simulation.events.SwitchPortStatusEvent;
import org.bidib.wizard.simulation.macro.MacroContainer;
import org.bushe.swing.event.EventBus;
import org.bushe.swing.event.annotation.AnnotationProcessor;
import org.bushe.swing.event.annotation.EventSubscriber;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
public class LightControlSimulator extends DefaultNodeSimulator implements SwitchingFunctionsNode, MacroFunctionsNode {
private static final Logger LOGGER = LoggerFactory.getLogger(LightControlSimulator.class);
private static final String SIMULATION_PANEL_CLASS = "org.bidib.wizard.mvc.simulation.view.panel.LightControlPanel";
protected final Map inputPorts = new HashMap();
protected final Map lightPorts = new HashMap();
protected final Map switchPorts = new HashMap();
protected final Map servoPorts = new HashMap();
protected final Map macros = new HashMap();
protected int inputPortCount;
protected int inputPortOffset;
protected int lightPortCount;
protected int servoPortCount;
protected int switchPortCount;
public LightControlSimulator(byte[] nodeAddress, long uniqueId, boolean autoAddFeature,
SimulationBidibMessageProcessor messageReceiver) {
super(nodeAddress, uniqueId, autoAddFeature, messageReceiver);
}
@Override
protected void prepareFeatures() {
LOGGER.info("Prepare the features.");
super.prepareFeatures();
features.add(new Feature(BidibLibrary.FEATURE_CTRL_INPUT_COUNT, inputPortCount));
features.add(new Feature(BidibLibrary.FEATURE_CTRL_LIGHT_COUNT, lightPortCount));
features.add(new Feature(BidibLibrary.FEATURE_CTRL_SERVO_COUNT, servoPortCount));
features.add(new Feature(BidibLibrary.FEATURE_CTRL_SWITCH_COUNT, switchPortCount));
features.add(new Feature(BidibLibrary.FEATURE_CTRL_PORT_QUERY_AVAILABLE, 1));
features.add(new Feature(BidibLibrary.FEATURE_SWITCH_CONFIG_AVAILABLE, 1));
features.add(new Feature(BidibLibrary.FEATURE_CTRL_INPUT_NOTIFY, 1));
features.add(new Feature(BidibLibrary.FEATURE_CTRL_MAC_COUNT, 40));
features.add(new Feature(BidibLibrary.FEATURE_CTRL_MAC_SIZE, 38));
features.add(new Feature(BidibLibrary.FEATURE_CTRL_MAC_SAVE, 40));
features.add(new Feature(BidibLibrary.FEATURE_CTRL_MAC_LEVEL, 2));
features.add(new Feature(BidibLibrary.FEATURE_ACCESSORY_COUNT, 20));
features.add(new Feature(BidibLibrary.FEATURE_ACCESSORY_SURVEILLED, 0));
features.add(new Feature(BidibLibrary.FEATURE_ACCESSORY_MACROMAPPED, 2));
}
@Override
protected void prepareCVs() {
super.prepareCVs();
configurationVariables.put("2", "0");
configurationVariables.put("90", "191");
}
@Override
public String getSimulationPanelClass() {
return SIMULATION_PANEL_CLASS;
}
@Override
public void start() {
LOGGER.info("Start the simulator for address: {}", getAddress());
AnnotationProcessor.process(this);
// prepare the input ports
setupInputPorts();
// prepare the light ports
setupLightPorts();
// prepare the switch ports
setupSwitchPorts();
// prepare the servo ports
setupServoPorts();
super.start();
}
@Override
public void stop() {
AnnotationProcessor.unprocess(this);
super.stop();
}
protected void setupInputPorts() {
if (CollectionUtils.isNotEmpty(inputPorts.values())) {
return;
}
for (int id = 0; id < inputPortCount; id++) {
InputPort port = new InputPort();
port.setId(id);
port.setStatus(id % 2 == 0 ? InputPortStatus.ON : InputPortStatus.OFF);
inputPorts.put(id, port);
}
}
protected void setupLightPorts() {
if (CollectionUtils.isNotEmpty(lightPorts.values())) {
return;
}
for (int id = 0; id < lightPortCount; id++) {
LightPort port = new LightPort();
port.setId(id);
port.setStatus(id % 3 == 0 ? LightPortStatus.ON : LightPortStatus.OFF);
lightPorts.put(id, port);
}
}
protected void setupSwitchPorts() {
if (CollectionUtils.isNotEmpty(switchPorts.values())) {
return;
}
for (int id = 0; id < switchPortCount; id++) {
SwitchPort port = new SwitchPort();
port.setId(id);
port.setStatus(SwitchPortStatus.OFF);
// set some default values
port.setIoBehaviour(IoBehaviourEnum.OUTPUT);
port.setSwitchOffTime(15);
switchPorts.put(id, port);
}
}
protected void setupServoPorts() {
if (CollectionUtils.isNotEmpty(servoPorts.values())) {
LOGGER.warn("The servo ports are already setup!");
return;
}
LOGGER.info("Create servoPorts, count: {}", servoPortCount);
for (int id = 0; id < servoPortCount; id++) {
ServoPort port = new ServoPort();
port.setId(id);
port.setRelativeValue((id % 4) * 25);
servoPorts.put(id, port);
}
}
@EventSubscriber(eventClass = InputPortSetStatusEvent.class)
public void inputPortSetStatus(InputPortSetStatusEvent setStatusEvent) {
LOGGER.info("The change of the input port was requested.");
String nodeAddress = setStatusEvent.getNodeAddr();
// check if the node is addressed
if (!isAddressEqual(nodeAddress)) {
LOGGER.trace("Another node is addressed.");
return;
}
int portNum = setStatusEvent.getPortNum();
changeInputPortStatus(portNum);
}
protected void changeInputPortStatus(int portNum) {
InputPort port = inputPorts.get(portNum);
if (port != null) {
switch (port.getStatus()) {
case OFF:
port.setStatus(InputPortStatus.ON);
break;
default:
port.setStatus(InputPortStatus.OFF);
break;
}
// prepare the request
final LcKeyMessage lcKeyMessage = new LcKeyMessage(
portNum) {
@Override
public byte[] getAddr() {
return getNodeAddress();
}
};
processRequest(lcKeyMessage);
}
else {
LOGGER.warn("The requested light port is not available: {}", portNum);
}
}
@Override
protected byte[] prepareResponse(BidibCommand bidibMessage) {
byte[] response = null;
switch (ByteUtils.getInt(bidibMessage.getType())) {
case BidibLibrary.MSG_LC_OUTPUT:
response = processLcOutputRequest(bidibMessage);
break;
case BidibLibrary.MSG_LC_CONFIG_GET:
response = processLcConfigGetRequest(bidibMessage);
break;
case BidibLibrary.MSG_LC_CONFIG_SET:
response = processLcConfigSetRequest(bidibMessage);
break;
case BidibLibrary.MSG_LC_KEY_QUERY:
response = processLcKeyQueryRequest(bidibMessage);
break;
case BidibLibrary.MSG_LC_OUTPUT_QUERY:
response = processLcOutputQueryRequest(bidibMessage);
break;
case BidibLibrary.MSG_LC_CONFIGX_SET:
response = processLcConfigXSetRequest(bidibMessage);
break;
case BidibLibrary.MSG_LC_CONFIGX_GET:
response = processLcConfigXGetRequest(bidibMessage);
break;
case BidibLibrary.MSG_LC_CONFIGX_GET_ALL:
processLcConfigXGetAllRequest(bidibMessage);
break;
case BidibLibrary.MSG_LC_MACRO_HANDLE:
response = processLcMacroHandleRequest(bidibMessage);
break;
case BidibLibrary.MSG_LC_MACRO_PARA_GET:
response = processLcMacroParaGetRequest(bidibMessage);
break;
case BidibLibrary.MSG_LC_MACRO_PARA_SET:
response = processLcMacroParaSetRequest(bidibMessage);
break;
case BidibLibrary.MSG_LC_MACRO_GET:
response = processLcMacroGetRequest(bidibMessage);
break;
case BidibLibrary.MSG_LC_MACRO_SET:
response = processLcMacroSetRequest(bidibMessage);
break;
case BidibLibrary.MSG_ACCESSORY_SET:
response = processAccessorySetRequest(bidibMessage);
break;
case BidibLibrary.MSG_ACCESSORY_GET:
response = processAccessoryGetRequest(bidibMessage);
break;
case BidibLibrary.MSG_ACCESSORY_PARA_SET:
response = processAccessoryParaSetRequest(bidibMessage);
break;
case BidibLibrary.MSG_ACCESSORY_PARA_GET:
response = processAccessoryParaGetRequest(bidibMessage);
break;
default:
response = super.prepareResponse(bidibMessage);
break;
}
return response;
}
protected byte[] processLcOutputRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the LcOutput request: {}", bidibMessage);
byte[] response = null;
try {
LcOutputMessage lcOutputMessage = (LcOutputMessage) bidibMessage;
LcOutputType outputType = lcOutputMessage.getOutputType(getPortModel());
int outputNumber = lcOutputMessage.getOutputNum(getPortModel());
byte outputStatus = lcOutputMessage.getOutputStatus();
Port port = null;
switch (outputType) {
case LIGHTPORT:
LightPort lightPort = lightPorts.get(Integer.valueOf(outputNumber));
lightPort.setStatus(LightPortStatus.valueOf(LightPortEnum.valueOf(outputStatus)));
port = lightPort;
break;
case SWITCHPORT:
SwitchPort switchPort = switchPorts.get(Integer.valueOf(outputNumber));
switchPort.setStatus(SwitchPortStatus.valueOf(SwitchPortEnum.valueOf(outputStatus)));
port = switchPort;
break;
case SERVOPORT:
ServoPort servoPort = servoPorts.get(Integer.valueOf(outputNumber));
servoPort.setValue(outputStatus);
port = servoPort;
break;
default:
LOGGER.warn("LcOutput request for unsupported port type detected: {}", outputType);
break;
}
BidibPort bidibPort = prepareBidibPort(getPortModel(), outputType, outputNumber);
if (port != null) {
LcStatResponse lcStatResponse =
new LcStatResponse(bidibMessage.getAddr(), getNextSendNum(), bidibPort,
lcOutputMessage.getOutputStatus());
response = lcStatResponse.getContent();
}
else {
LcNotAvailableResponse lcNotAvailableResponse =
new LcNotAvailableResponse(bidibMessage.getAddr(), getNextSendNum(), bidibPort);
response = lcNotAvailableResponse.getContent();
}
if (port != null) {
switch (outputType) {
case LIGHTPORT:
publishLightPortChange(port);
break;
case SWITCHPORT:
publishSwitchPortChange(port);
break;
case SERVOPORT:
publishServoPortChange(port);
break;
default:
break;
}
}
}
catch (ProtocolException ex) {
LOGGER.warn("Create LcStat response failed.", ex);
}
return response;
}
private void publishLightPortChange(Port port) {
LightPort lightPort = (LightPort) port;
LightPortStatus status = lightPort.getStatus();
LOGGER.info("The lightport status has changed, notify the listeners, nodeAddress: {}", nodeAddress);
EventBus.publish(new LightPortStatusEvent(ByteUtils.bytesToHex(nodeAddress), lightPort, status));
}
private void publishSwitchPortChange(Port port) {
SwitchPort switchPort = (SwitchPort) port;
SwitchPortStatus status = switchPort.getStatus();
LOGGER.info("The switchport status has changed, notify the listeners, nodeAddress: {}", nodeAddress);
EventBus.publish(new SwitchPortStatusEvent(ByteUtils.bytesToHex(nodeAddress), switchPort, status));
}
private void publishServoPortChange(Port port) {
ServoPort servoPort = (ServoPort) port;
int value = servoPort.getValue();
LOGGER.info("The servoport status has changed, notify the listeners, nodeAddress: {}", nodeAddress);
EventBus.publish(new ServoPortStatusEvent(ByteUtils.bytesToHex(nodeAddress), servoPort, value));
}
protected byte[] processLcConfigGetRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the LcConfigGet request: {}", bidibMessage);
byte[] response = null;
try {
LcConfigGetMessage lcConfigGetMessage = (LcConfigGetMessage) bidibMessage;
LcOutputType outputType = lcConfigGetMessage.getPortType(getPortModel());
int outputNumber = lcConfigGetMessage.getPortNumber(getPortModel());
Port port = null;
switch (outputType) {
case LIGHTPORT:
port = lightPorts.get(Integer.valueOf(outputNumber));
break;
case SWITCHPORT:
port = switchPorts.get(Integer.valueOf(outputNumber));
break;
case SERVOPORT:
// if (outputNumber != 1) { // testing
port = servoPorts.get(Integer.valueOf(outputNumber));
// }
break;
default:
LOGGER.warn("LcConfigGet request for unsupported port type detected: {}", outputType);
break;
}
BidibPort bidibPort = prepareBidibPort(getPortModel(), outputType, outputNumber);
if (port != null) {
LcConfigResponse lcConfigResponse =
new LcConfigResponse(bidibMessage.getAddr(), getNextSendNum(), bidibPort, port.getPortConfig());
response = lcConfigResponse.getContent();
}
else {
LOGGER.warn("No port assigned!");
LcNotAvailableResponse lcNotAvailableResponse =
new LcNotAvailableResponse(bidibMessage.getAddr(), getNextSendNum(), bidibPort);
response = lcNotAvailableResponse.getContent();
}
}
catch (ProtocolException ex) {
LOGGER.warn("Create LcConfig response failed.", ex);
}
return response;
}
protected byte[] processLcConfigSetRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the LcConfigSet request: {}", bidibMessage);
byte[] response = null;
try {
LcConfigSetMessage lcConfigSetMessage = (LcConfigSetMessage) bidibMessage;
LcOutputType outputType = lcConfigSetMessage.getPortType(getPortModel());
int outputNumber = lcConfigSetMessage.getPortNumber(getPortModel());
Port port = null;
switch (outputType) {
case LIGHTPORT:
LightPort lightPort = lightPorts.get(Integer.valueOf(outputNumber));
if (lightPort != null) {
lightPort.setPortConfig(lcConfigSetMessage.getPortConfig());
port = lightPort;
}
else {
LOGGER.warn("Lightport not available, outputNumber: {}", outputNumber);
}
break;
case SWITCHPORT:
SwitchPort switchPort = switchPorts.get(Integer.valueOf(outputNumber));
if (switchPort != null) {
switchPort.setPortConfig(lcConfigSetMessage.getPortConfig());
port = switchPort;
}
else {
LOGGER.warn("Switchport not available, outputNumber: {}", outputNumber);
}
break;
case SERVOPORT:
ServoPort servoPort = servoPorts.get(Integer.valueOf(outputNumber));
if (servoPort != null && outputNumber != 1) {
servoPort.setPortConfig(lcConfigSetMessage.getPortConfig());
port = servoPort;
}
else {
LOGGER.warn("Servoport not available, outputNumber: {}", outputNumber);
}
break;
default:
LOGGER.warn("LcConfigSet request for unsupported port type detected: {}", outputType);
break;
}
BidibPort bidibPort = prepareBidibPort(getPortModel(), outputType, outputNumber);
if (port != null) {
LcConfigResponse lcConfigResponse =
new LcConfigResponse(bidibMessage.getAddr(), getNextSendNum(), bidibPort, port.getPortConfig());
response = lcConfigResponse.getContent();
}
else {
LOGGER.warn("No port assigned!");
LcNotAvailableResponse lcNotAvailableResponse =
new LcNotAvailableResponse(bidibMessage.getAddr(), getNextSendNum(), bidibPort);
response = lcNotAvailableResponse.getContent();
}
}
catch (ProtocolException ex) {
LOGGER.warn("Create LcStat response failed.", ex);
}
return response;
}
protected byte[] processLcConfigXSetRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the LcConfigXSet request: {}", bidibMessage);
byte[] response = null;
try {
LcConfigXSetMessage lcConfigXSetMessage = (LcConfigXSetMessage) bidibMessage;
LcOutputType outputType = lcConfigXSetMessage.getPortType(getPortModel());
int outputNumber = lcConfigXSetMessage.getPortNumber(getPortModel());
Port port = null;
switch (outputType) {
case LIGHTPORT:
LightPort lightPort = lightPorts.get(Integer.valueOf(outputNumber));
if (lightPort != null) {
lightPort.setPortConfigX(lcConfigXSetMessage.getLcConfigX().getPortConfig());
port = lightPort;
}
else {
LOGGER.warn("Lightport not available, outputNumber: {}", outputNumber);
}
break;
default:
LOGGER.warn("LcConfigSet request for unsupported port type detected: {}", outputType);
break;
}
BidibPort bidibPort = prepareBidibPort(getPortModel(), outputType, outputNumber);
if (port == null) {
LcConfigX lcConfigX = new LcConfigX(bidibPort, lcConfigXSetMessage.getLcConfigX().getPortConfig());
LcConfigXResponse lcConfigXResponse =
new LcConfigXResponse(bidibMessage.getAddr(), getNextSendNum(), MessageUtils.getCodedPortConfig(
lcConfigX, getPortModel()));
// byte[] content =
// ByteUtils.concat(bidibPort.getValues(),
// MessageUtils.getCodedPortConfig(lcConfigXSetMessage.getLcConfigX(), getPortModel()));
//
// LcConfigXResponse lcConfigXResponse =
// new LcConfigXResponse(bidibMessage.getAddr(), getNextSendNum(), content);
response = lcConfigXResponse.getContent();
}
else {
LOGGER.warn("No port assigned!");
LcNotAvailableResponse magicResponse =
new LcNotAvailableResponse(bidibMessage.getAddr(), getNextSendNum(), bidibPort);
response = magicResponse.getContent();
}
}
catch (ProtocolException ex) {
LOGGER.warn("Create LcConfigX response failed.", ex);
}
return response;
}
protected byte[] processLcConfigXGetRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the LcConfigXGet request: {}", bidibMessage);
byte[] response = null;
try {
LcConfigXGetMessage lcConfigXGetMessage = (LcConfigXGetMessage) bidibMessage;
int outputNumber = lcConfigXGetMessage.getPortNumber(getPortModel());
LcOutputType lcOutputType = lcConfigXGetMessage.getPortType(getPortModel());
Port port = null;
// byte[] portConfig = null;
Map> values = new LinkedHashMap<>();
switch (lcOutputType) {
case LIGHTPORT:
port = lightPorts.get(Integer.valueOf(outputNumber));
// portConfig = port.getPortConfig();
LightPort lightPort = (LightPort) port;
values.put(BidibLibrary.BIDIB_PCFG_LEVEL_PORT_ON,
new BytePortConfigValue(ByteUtils.getLowByte(lightPort.getPwmMax())));
values.put(BidibLibrary.BIDIB_PCFG_LEVEL_PORT_OFF,
new BytePortConfigValue(ByteUtils.getLowByte(lightPort.getPwmMin())));
values.put(BidibLibrary.BIDIB_PCFG_DIMM_UP_8_8, new Int16PortConfigValue(lightPort.getDimMax()));
values.put(BidibLibrary.BIDIB_PCFG_DIMM_DOWN_8_8, new Int16PortConfigValue(lightPort.getDimMin()));
// TODO RGB
if (lightPort.getRgbValue() != null) {
values.put(BidibLibrary.BIDIB_PCFG_RGB, new RgbPortConfigValue(lightPort.getRgbValue()));
}
// TODO remove this test
if (outputNumber == 2) {
values.put(BidibLibrary.BIDIB_PCFG_NONE, new BytePortConfigValue((byte) 12));
}
break;
default:
LOGGER.warn("LcConfigGet request for unsupported port type detected: {}", lcOutputType);
break;
}
LOGGER.info("Return config of port: {}", port);
BidibPort bidibPort = prepareBidibPort(getPortModel(), lcOutputType, outputNumber);
LcConfigX lcConfigX = new LcConfigX(bidibPort, values);
LcConfigXResponse lcConfigXResponse =
new LcConfigXResponse(bidibMessage.getAddr(), getNextSendNum(), MessageUtils.getCodedPortConfig(
lcConfigX, getPortModel()));
response = lcConfigXResponse.getContent();
}
catch (ProtocolException ex) {
LOGGER.warn("Create LcConfigX response failed.", ex);
}
return response;
}
protected void processLcConfigXGetAllRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the LcConfigXGetAll request: {}", bidibMessage);
byte[] response = null;
try {
LcConfigXGetAllMessage lcConfigXGetAllMessage = (LcConfigXGetAllMessage) bidibMessage;
LcOutputType outputType = lcConfigXGetAllMessage.getPortTypeFrom(getPortModel());
// TODO evaluate port type/range to
Map> values = new LinkedHashMap<>();
if (outputType != null) {
LOGGER.info("Get all ports for output type: {}", outputType);
// TODO check the range
switch (outputType) {
case SERVOPORT:
for (ServoPort servoPort : servoPorts.values()) {
values.clear();
LOGGER.info("Return config of servo port: {}", servoPort);
BidibPort bidibPort = prepareBidibPort(getPortModel(), outputType, servoPort.getId());
LcConfigX lcConfigX = new LcConfigX(bidibPort, values);
LcConfigXResponse lcConfigXResponse =
new LcConfigXResponse(bidibMessage.getAddr(), getNextSendNum(),
MessageUtils.getCodedPortConfig(lcConfigX, getPortModel()));
response = lcConfigXResponse.getContent();
LOGGER.info("Prepared lcConfigXResponse: {}", ByteUtils.bytesToHex(response));
sendSpontanousResponse(response);
response = null;
}
break;
case SWITCHPORT:
for (SwitchPort switchPort : switchPorts.values()) {
values.clear();
LOGGER.info("Return config of switch port: {}", switchPort);
BidibPort bidibPort = prepareBidibPort(getPortModel(), outputType, switchPort.getId());
LcConfigX lcConfigX = new LcConfigX(bidibPort, values);
LcConfigXResponse lcConfigXResponse =
new LcConfigXResponse(bidibMessage.getAddr(), getNextSendNum(),
MessageUtils.getCodedPortConfig(lcConfigX, getPortModel()));
response = lcConfigXResponse.getContent();
LOGGER.info("Prepared lcConfigXResponse: {}", ByteUtils.bytesToHex(response));
sendSpontanousResponse(response);
response = null;
}
break;
case LIGHTPORT:
for (LightPort lightPort : lightPorts.values()) {
values.clear();
LOGGER.info("Return config of light port: {}", lightPort);
BidibPort bidibPort = prepareBidibPort(getPortModel(), outputType, lightPort.getId());
LcConfigX lcConfigX = new LcConfigX(bidibPort, values);
LcConfigXResponse lcConfigXResponse =
new LcConfigXResponse(bidibMessage.getAddr(), getNextSendNum(),
MessageUtils.getCodedPortConfig(lcConfigX, getPortModel()));
response = lcConfigXResponse.getContent();
LOGGER.info("Prepared lcConfigXResponse: {}", ByteUtils.bytesToHex(response));
sendSpontanousResponse(response);
response = null;
}
break;
default:
LOGGER.warn("Unsupported port type requested: {}", outputType);
break;
}
}
else {
// deliver servo ports
for (ServoPort servoPort : servoPorts.values()) {
values.clear();
LOGGER.info("Return config of servo port: {}", servoPort);
BidibPort bidibPort = prepareBidibPort(getPortModel(), LcOutputType.SERVOPORT, servoPort.getId());
LcConfigX lcConfigX = new LcConfigX(bidibPort, values);
LcConfigXResponse lcConfigXResponse =
new LcConfigXResponse(bidibMessage.getAddr(), getNextSendNum(),
MessageUtils.getCodedPortConfig(lcConfigX, getPortModel()));
response = lcConfigXResponse.getContent();
LOGGER.info("Prepared lcConfigXResponse: {}", ByteUtils.bytesToHex(response));
sendSpontanousResponse(response);
response = null;
}
// deliver switch ports
for (SwitchPort switchPort : switchPorts.values()) {
values.clear();
LOGGER.info("Return config of switch port: {}", switchPort);
values = switchPort.getPortConfigX();
BidibPort bidibPort = prepareBidibPort(getPortModel(), LcOutputType.SWITCHPORT, switchPort.getId());
LcConfigX lcConfigX = new LcConfigX(bidibPort, values);
LcConfigXResponse lcConfigXResponse =
new LcConfigXResponse(bidibMessage.getAddr(), getNextSendNum(),
MessageUtils.getCodedPortConfig(lcConfigX, getPortModel()));
response = lcConfigXResponse.getContent();
LOGGER.info("Prepared lcConfigXResponse: {}", ByteUtils.bytesToHex(response));
sendSpontanousResponse(response);
response = null;
}
// deliver input ports
for (InputPort inputPort : inputPorts.values()) {
values.clear();
LOGGER.info("Return config of input port: {}", inputPort);
BidibPort bidibPort = prepareBidibPort(getPortModel(), LcOutputType.INPUTPORT, inputPort.getId());
LcConfigX lcConfigX = new LcConfigX(bidibPort, values);
LcConfigXResponse lcConfigXResponse =
new LcConfigXResponse(bidibMessage.getAddr(), getNextSendNum(),
MessageUtils.getCodedPortConfig(lcConfigX, getPortModel()));
response = lcConfigXResponse.getContent();
LOGGER.info("Prepared lcConfigXResponse: {}", ByteUtils.bytesToHex(response));
sendSpontanousResponse(response);
response = null;
}
// deliver light ports
for (LightPort lightPort : lightPorts.values()) {
values.clear();
LOGGER.info("Return config of light port: {}", lightPort);
BidibPort bidibPort = prepareBidibPort(getPortModel(), LcOutputType.LIGHTPORT, lightPort.getId());
LcConfigX lcConfigX = new LcConfigX(bidibPort, values);
LcConfigXResponse lcConfigXResponse =
new LcConfigXResponse(bidibMessage.getAddr(), getNextSendNum(),
MessageUtils.getCodedPortConfig(lcConfigX, getPortModel()));
response = lcConfigXResponse.getContent();
LOGGER.info("Prepared lcConfigXResponse: {}", ByteUtils.bytesToHex(response));
sendSpontanousResponse(response);
response = null;
}
}
}
catch (ProtocolException ex) {
LOGGER.warn("Create lcConfigXResponse response failed.", ex);
}
}
protected byte[] processLcKeyQueryRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the LcKeyQuery request: {}", bidibMessage);
byte[] response = null;
byte keyState = 0;
Port port = null;
try {
LcKeyMessage lcKeyMessage = (LcKeyMessage) bidibMessage;
int keyNumber = lcKeyMessage.getKeyNumber();
port = inputPorts.get(keyNumber);
keyState = port.getStatus().getType().getType();
LcKeyResponse lcKeyResponse =
new LcKeyResponse(bidibMessage.getAddr(), getNextSendNum(), ByteUtils.getLowByte(lcKeyMessage
.getKeyNumber()), keyState);
response = lcKeyResponse.getContent();
}
catch (ProtocolException ex) {
LOGGER.warn("Create LcKey response failed.", ex);
}
if (port != null) {
publishInputPortChange(port);
}
return response;
}
private void publishInputPortChange(Port port) {
InputPort inputPort = (InputPort) port;
InputPortStatus status = inputPort.getStatus();
LOGGER.info("The inputport status has changed, notify the listeners, nodeAddress: {}", nodeAddress);
EventBus.publish(new InputPortStatusEvent(ByteUtils.bytesToHex(nodeAddress), inputPort.getId(), status));
}
protected byte[] processLcOutputQueryRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the LcOutputQuery request: {}", bidibMessage);
byte[] response = null;
byte portState = 0;
try {
LcOutputQueryMessage lcOutputQueryMessage = (LcOutputQueryMessage) bidibMessage;
LcOutputType outputType = lcOutputQueryMessage.getPortType(getPortModel());
int portNumber = lcOutputQueryMessage.getPortNumber(getPortModel());
switch (outputType) {
case LIGHTPORT:
portState = lightPorts.get(portNumber).getStatus().getType().getType();
break;
case SWITCHPORT:
portState = switchPorts.get(portNumber).getStatus().getType().getType();
break;
case SERVOPORT:
portState = ByteUtils.getLowByte(servoPorts.get(portNumber).getValue());
break;
default:
LOGGER.warn("LcOutputQuery for unsupported port type detected: {}", outputType);
break;
}
BidibPort bidibPort = prepareBidibPort(getPortModel(), outputType, portNumber);
LcStatResponse lcStatResponse =
new LcStatResponse(bidibMessage.getAddr(), getNextSendNum(), bidibPort, portState);
response = lcStatResponse.getContent();
}
catch (ProtocolException ex) {
LOGGER.warn("Create LcStat response failed.", ex);
}
return response;
}
protected byte[] processLcMacroParaGetRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the LcMacroParaGet request: {}", bidibMessage);
byte[] response = null;
try {
LcMacroParaGetMessage lcMacroParaGetMessage = (LcMacroParaGetMessage) bidibMessage;
int macroNumber = lcMacroParaGetMessage.getMacroNumber();
int paramId = lcMacroParaGetMessage.getParameterIndex();
LOGGER.info("Process macroNumber: {}, paramId: {}", macroNumber, paramId);
// return the stored parameter value
MacroContainer container = macros.get(macroNumber);
if (container == null) {
LOGGER.info("Create new MacroContainer for macro number: {}", macroNumber);
// initialize a new macro container
container = new MacroContainer(macroNumber);
macros.put(macroNumber, container);
}
byte[] parameter = container.getMacroParameter(paramId);
LcMacroParaResponse lcMacroParaResponse =
new LcMacroParaResponse(bidibMessage.getAddr(), getNextSendNum(), (byte) macroNumber, (byte) paramId,
parameter);
response = lcMacroParaResponse.getContent();
}
catch (ProtocolException ex) {
LOGGER.warn("Create LcMacroPara response failed.", ex);
}
return response;
}
protected byte[] processLcMacroParaSetRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the LcMacroParaSet request: {}", bidibMessage);
byte[] response = null;
try {
LcMacroParaSetMessage lcMacroParaSetMessage = (LcMacroParaSetMessage) bidibMessage;
int macroNumber = lcMacroParaSetMessage.getMacroNumber();
int paramId = lcMacroParaSetMessage.getParameterIndex();
byte[] parameter = lcMacroParaSetMessage.getValue();
// store the parameter value
MacroContainer container = macros.get(macroNumber);
if (container == null) {
// initialize a new macro container
container = new MacroContainer(macroNumber);
macros.put(macroNumber, container);
}
container.setMacroParameter(paramId, parameter);
LcMacroParaResponse lcMacroParaResponse =
new LcMacroParaResponse(bidibMessage.getAddr(), getNextSendNum(), (byte) macroNumber, (byte) paramId,
parameter);
response = lcMacroParaResponse.getContent();
}
catch (ProtocolException ex) {
LOGGER.warn("Create LcMacroPara response failed.", ex);
}
return response;
}
protected byte[] processLcMacroHandleRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the LcMacroHandle request: {}", bidibMessage);
byte[] response = null;
try {
LcMacroHandleMessage lcMacroHandleMessage = (LcMacroHandleMessage) bidibMessage;
Integer macroNumber = lcMacroHandleMessage.getMacroNumber();
LcMacroOperationCode lcMacroOperationCode = lcMacroHandleMessage.getMacroOperationCode();
LOGGER.info("Handle macro request, macroNumber: {}, lcMacroOperationCode: {}", macroNumber,
lcMacroOperationCode);
// TODO store the macro state value
LcMacroState macroState = null;
switch (lcMacroOperationCode) {
case START:
macroState = LcMacroState.RUNNING;
break;
case DELETE:
macroState = LcMacroState.DELETE;
LOGGER.info("Remove macro with number: {}", macroNumber);
macros.remove(macroNumber);
break;
case OFF:
macroState = LcMacroState.OFF;
break;
case RESTORE:
macroState = LcMacroState.RESTORE;
break;
case SAVE:
macroState = LcMacroState.SAVE;
break;
default:
macroState = LcMacroState.NOTEXIST;
break;
}
LcMacroStateResponse lcMacroStateResponse =
new LcMacroStateResponse(bidibMessage.getAddr(), getNextSendNum(), ByteUtils.getLowByte(macroNumber),
macroState);
response = lcMacroStateResponse.getContent();
}
catch (ProtocolException ex) {
LOGGER.warn("Create LcMacroState response failed.", ex);
}
return response;
}
protected byte[] processLcMacroGetRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the LcMacroGet request: {}", bidibMessage);
byte[] response = null;
try {
LcMacroGetMessage lcMacroGetMessage = (LcMacroGetMessage) bidibMessage;
Integer macroNumber = lcMacroGetMessage.getMacroNumber();
int stepNumber = lcMacroGetMessage.getStep();
// fetch the macro content and test if the macro is available
MacroContainer container = macros.get(macroNumber);
if (container == null) {
// initialize a new macro container
container = new MacroContainer(macroNumber);
macros.put(macroNumber, container);
}
LcMacro macroStep = container.getMacroStep(stepNumber);
LcMacro value = macroStep;
LcMacroResponse lcMacroResponse =
new LcMacroResponse(bidibMessage.getAddr(), getNextSendNum(), ByteUtils.getLowByte(macroNumber),
ByteUtils.getLowByte(stepNumber), value);
response = lcMacroResponse.getContent();
}
catch (ProtocolException ex) {
LOGGER.warn("Create LcMacro response failed.", ex);
}
return response;
}
protected byte[] processLcMacroSetRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the LcMacroSet request: {}", bidibMessage);
byte[] response = null;
try {
LcMacroSetMessage lcMacroSetMessage = (LcMacroSetMessage) bidibMessage;
int macroNumber = lcMacroSetMessage.getMacroNumber();
int stepNumber = lcMacroSetMessage.getStep();
LcMacro macroStep = MacroUtils.getMacro(this, lcMacroSetMessage.getData());
LOGGER.info("Current macroNumber: {}, stepNumber: {}, macroStep: {}", macroNumber, stepNumber, macroStep);
// fetch the macro content and test if the macro container is available
MacroContainer container = macros.get(macroNumber);
if (container == null) {
container = new MacroContainer(macroNumber);
macros.put(macroNumber, container);
}
container.setMacroStep(stepNumber, macroStep);
try {
LcMacroResponse lcMacroResponse =
new LcMacroResponse(bidibMessage.getAddr(), getNextSendNum(), ByteUtils.getLowByte(macroNumber),
ByteUtils.getLowByte(stepNumber), macroStep);
response = lcMacroResponse.getContent();
}
catch (NullPointerException npe) {
LOGGER.warn("create response failed.", npe);
}
}
catch (ProtocolException ex) {
LOGGER.warn("Create LcMacro response failed.", ex);
}
return response;
}
protected byte[] processAccessorySetRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the AccessorySet request: {}", bidibMessage);
byte[] response = null;
try {
AccessorySetMessage accessorySetMessage = (AccessorySetMessage) bidibMessage;
int accessoryNumber = accessorySetMessage.getAccessoryNumber();
int aspect = accessorySetMessage.getAspect();
byte[] value = new byte[] { 0, 0, 0 };
AccessoryStateResponse accessoryStateResponse =
new AccessoryStateResponse(bidibMessage.getAddr(), getNextSendNum(), (byte) accessoryNumber,
(byte) aspect, value);
response = accessoryStateResponse.getContent();
}
catch (ProtocolException ex) {
LOGGER.warn("Create AccessoryState response failed.", ex);
}
return response;
}
protected byte[] processAccessoryGetRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the AccessoryGet request: {}", bidibMessage);
byte[] response = null;
try {
AccessoryGetMessage accessoryGetMessage = (AccessoryGetMessage) bidibMessage;
int accessoryNumber = accessoryGetMessage.getAccessoryNumber();
int aspect = 0;
byte[] value = new byte[] { 0, 0, 0 };
AccessoryStateResponse accessoryStateResponse =
new AccessoryStateResponse(bidibMessage.getAddr(), getNextSendNum(), (byte) accessoryNumber,
(byte) aspect, value);
response = accessoryStateResponse.getContent();
}
catch (ProtocolException ex) {
LOGGER.warn("Create AccessoryState response failed.", ex);
}
return response;
}
protected byte[] processAccessoryParaSetRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the AccessoryParaSet request: {}", bidibMessage);
byte[] response = null;
try {
AccessoryParaSetMessage accessoryParaSetMessage = (AccessoryParaSetMessage) bidibMessage;
int accessoryNumber = accessoryParaSetMessage.getAccessoryNumber();
int paraNumber = accessoryParaSetMessage.getParaNumber();
byte[] value = accessoryParaSetMessage.getValue();
AccessoryParaResponse accessoryParaResponse =
new AccessoryParaResponse(bidibMessage.getAddr(), getNextSendNum(),
ByteUtils.getLowByte(accessoryNumber), ByteUtils.getLowByte(paraNumber), value);
response = accessoryParaResponse.getContent();
}
catch (ProtocolException ex) {
LOGGER.warn("Create AccessoryPara response failed.", ex);
}
return response;
}
protected byte[] processAccessoryParaGetRequest(BidibCommand bidibMessage) {
LOGGER.info("Process the AccessoryParaGet request: {}", bidibMessage);
byte[] response = null;
try {
AccessoryParaGetMessage accessoryParaGetMessage = (AccessoryParaGetMessage) bidibMessage;
int accessoryNumber = accessoryParaGetMessage.getAccessoryNumber();
int paraNumber = accessoryParaGetMessage.getParaNumber();
// TODO provide the correct data here ...
byte[] value = new byte[] { 0, 0, 0, 0 };
AccessoryParaResponse accessoryParaResponse =
new AccessoryParaResponse(bidibMessage.getAddr(), getNextSendNum(),
ByteUtils.getLowByte(accessoryNumber), ByteUtils.getLowByte(paraNumber), value);
response = accessoryParaResponse.getContent();
}
catch (ProtocolException ex) {
LOGGER.warn("Create AccessoryPara response failed.", ex);
}
return response;
}
@Override
public void queryStatus(Class portClass) {
if (InputPort.class.equals(portClass)) {
for (InputPort inputPort : inputPorts.values()) {
publishInputPortChange(inputPort);
}
}
else if (LightPort.class.equals(portClass)) {
for (LightPort lightPort : lightPorts.values()) {
publishLightPortChange(lightPort);
}
}
else if (SwitchPort.class.equals(portClass)) {
for (SwitchPort switchPort : switchPorts.values()) {
publishSwitchPortChange(switchPort);
}
}
else if (ServoPort.class.equals(portClass)) {
for (ServoPort servoPort : servoPorts.values()) {
publishServoPortChange(servoPort);
}
}
}
@Override
public void setPortsConfig(PortType portType) {
if (portType == null) {
return;
}
if (portType instanceof LightPortType) {
LightPortType lightPortType = (LightPortType) portType;
lightPortCount = lightPortType.getCount();
LOGGER.info("Total number of lightports: {}", lightPortCount);
lightPorts.clear();
// prepare initial lightports
for (int portId = 0; portId < lightPortCount; portId++) {
LightPort lightPort = new LightPort();
lightPort.setId(portId);
// add the unconfigured lightport
lightPorts.put(portId, lightPort);
}
// overwrite configured ports
if (CollectionUtils.isNotEmpty(lightPortType.getPort())) {
final int cvBaseOffset = 215 /* offset */;
// evaluate the configured ports
for (LightPortParamsType portParams : lightPortType.getPort()) {
LightPort lightPort = new LightPort();
lightPort.setId(portParams.getPortId());
lightPort.setDimMin(portParams.getDimSlopeDown());
lightPort.setDimMax(portParams.getDimSlopeUp());
lightPort.setPwmMax(portParams.getIntensityOn());
lightPort.setPwmMin(portParams.getIntensityOff());
if (portParams.getRgbValue() != null) {
try {
Integer rgbValue = Integer.parseInt(portParams.getRgbValue(), 16);
lightPort.setRgbValue(rgbValue);
}
catch (Exception ex) {
LOGGER.warn("Parse RGB value failed: {}", portParams.getRgbValue(), ex);
lightPort.setRgbValue(null);
}
}
lightPort.setStatus(LightPortStatus.OFF);
LOGGER.info("Add configured port: {}", lightPort);
// add the configured port
lightPorts.put(lightPort.getId(), lightPort);
// prepare the CVs
int cvOffset = cvBaseOffset + portParams.getPortId() * 7 /* next */;
configurationVariables.put(String.valueOf(cvOffset), String.valueOf(-1));
configurationVariables.put(String.valueOf(cvOffset + 1), String.valueOf(lightPort.getPwmMin()));
configurationVariables.put(String.valueOf(cvOffset + 2), String.valueOf(lightPort.getPwmMax()));
configurationVariables.put(String.valueOf(cvOffset + 3),
String.valueOf(ByteUtils.getLowByte(lightPort.getDimMin())));
configurationVariables.put(String.valueOf(cvOffset + 4),
String.valueOf(ByteUtils.getHighByte(lightPort.getDimMin())));
configurationVariables.put(String.valueOf(cvOffset + 5),
String.valueOf(ByteUtils.getLowByte(lightPort.getDimMax())));
configurationVariables.put(String.valueOf(cvOffset + 6),
String.valueOf(ByteUtils.getHighByte(lightPort.getDimMax())));
}
// use the number of configured ports
lightPortCount = lightPorts.size();
}
}
else if (portType instanceof SwitchPortType) {
switchPortCount = portType.getCount();
}
else if (portType instanceof InputPortType) {
inputPortCount = portType.getCount();
inputPortOffset = (portType.getOffset() != null ? portType.getOffset() : 0);
}
else if (portType instanceof ServoPortType) {
servoPortCount = portType.getCount();
}
}
public int getInputPortOffset() {
return inputPortOffset;
}
@Override
public boolean isPortFlatModelAvailable() {
return false;
}
@Override
public LcOutputType getPortType(BidibPort bidibPort) {
return null;
}
}
© 2015 - 2025 Weber Informatics LLC | Privacy Policy