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/**
* @author STF 424_ITS_Test_Platform
* @version $id$
*/
package org.etsi.its.tool.elvior;
import java.io.IOException;
import java.math.BigInteger;
import java.util.Properties;
import java.util.logging.ConsoleHandler;
import java.util.logging.Level;
import org.elvior.ttcn.tritci.ChannelEventHandler;
import org.elvior.ttcn.tritci.IntegerValueEx;
import org.elvior.ttcn.tritci.TciProvider;
import org.elvior.ttcn.tritci.TriFactory;
import org.elvior.ttcn.tritci.TriProvider;
import org.elvior.ttcn.tritci.TriTciChannel;
import org.etsi.adapter.TERFactory;
import org.etsi.codec.ITciCDWrapper;
import org.etsi.codec.TciCDWrapperFactory;
import org.etsi.common.ByteHelper;
import org.etsi.its.extfunc.IItsExternalFunctionsProvider;
import org.etsi.its.extfunc.ItsExternalFunctionsProvider;
import org.etsi.tool.elvior.TciCDWrapper;
import org.etsi.tool.elvior.TeRequiredImpl;
import org.etsi.ttcn.tci.BooleanValue;
import org.etsi.ttcn.tci.CharstringValue;
import org.etsi.ttcn.tci.EnumeratedValue;
import org.etsi.ttcn.tci.FloatValue;
import org.etsi.ttcn.tci.IntegerValue;
import org.etsi.ttcn.tci.OctetstringValue;
import org.etsi.ttcn.tci.RecordOfValue;
import org.etsi.ttcn.tci.RecordValue;
import org.etsi.ttcn.tci.TciParameterList;
import org.etsi.ttcn.tci.TciValueList;
import org.etsi.ttcn.tci.Value;
import org.etsi.ttcn.tri.TriAddress;
import org.etsi.ttcn.tri.TriAddressList;
import org.etsi.ttcn.tri.TriBoolean;
import org.etsi.ttcn.tri.TriCommunicationSA;
import org.etsi.ttcn.tri.TriCommunicationTE;
import org.etsi.ttcn.tri.TriComponentId;
import org.etsi.ttcn.tri.TriException;
import org.etsi.ttcn.tri.TriFunctionId;
import org.etsi.ttcn.tri.TriLong;
import org.etsi.ttcn.tri.TriMessage;
import org.etsi.ttcn.tri.TriParameter;
import org.etsi.ttcn.tri.TriParameterList;
import org.etsi.ttcn.tri.TriParameterPassingMode;
import org.etsi.ttcn.tri.TriPlatformPA;
import org.etsi.ttcn.tri.TriPortId;
import org.etsi.ttcn.tri.TriPortIdList;
import org.etsi.ttcn.tri.TriSignatureId;
import org.etsi.ttcn.tri.TriStatus;
import org.etsi.ttcn.tri.TriTestCaseId;
import org.etsi.ttcn.tri.TriTimerDuration;
import org.etsi.ttcn.tri.TriTimerId;
import org.etsi.ttcn.xtri.xTriCommunicationSA;
public class PluginAdapter implements TriCommunicationSA, TriCommunicationTE, xTriCommunicationSA, TriPlatformPA, ChannelEventHandler {
/**
* This is the main PluginAdapter class
*/
private org.etsi.its.adapter.TestAdapter _itsTestAdapter;
private static Properties _properties = new Properties();
/**
* Logger instance
*/
private final static Logger _logger = Logger.getLogger("org.etsi.its");
private TriStatus m_triOK;
private TriStatus m_triKO;
private IItsExternalFunctionsProvider _extfuncsImpl;
public PluginAdapter() {
_logger.entering("PluginAdapter", "Constructor");
try {
_properties.load(MainTA.class.getResourceAsStream("/org/etsi/its/tool/elvior/res/ta.properties"));
String debugLevel = _properties.getProperty("DEBUG_ENABLED", "OFF");
level = Level.OFF;
if (debugLevel.equalsIgnoreCase("ALL")) {
level = Level.ALL;
} else if (debugLevel.equalsIgnoreCase("INFO")) {
level = Level.INFO;
} else if (debugLevel.equalsIgnoreCase("SEVERE")) {
level = Level.SEVERE;
} else if (!debugLevel.equalsIgnoreCase("OFF")) {
TERFactory.getInstance().logError("Unsupported logging level: " + debugLevel);
}
} catch (IOException e) {
e.printStackTrace();
}
_logger.addHandler(new ConsoleHandler());
_logger.setLevel(level);
// _logger.getHandlers()[0].setLevel(level);
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// Register this object as the instance implementing the TRI-SA interface
TriProvider.getInstance().setTriCommunicationSA(this);
// Register this object as the instance implementing the TRI-PA interface
TriProvider.getInstance().setTriPlatformPA(this);
TriTciChannel channel = TriTciChannel.getInstance();
// Set application name that will be displayed in the TestCast log
channel.setApplicationName("ItsPlatform");
// Register this object as the receiver of events generated by TestCast framework
channel.setEventHandler(this);
TriFactory factory = TriProvider.getInstance().getTriFactory();
m_triOK = factory.createOkStatus();
m_triKO = factory.createErrorStatus();
TERFactory.setImpl(new TeRequiredImpl(this));
// External functions
TciCDWrapperFactory.getInstance().setImpl(new TciCDWrapper());
_extfuncsImpl = new ItsExternalFunctionsProvider();
}
public void run() {
_logger.entering("PluginAdapter", "run");
// Attempt to connect to TestCast
if (TriTciChannel.getInstance().open()) {
_itsTestAdapter = new org.etsi.its.adapter.TestAdapter();
try {
synchronized(this) {
wait();
}
} catch (InterruptedException e) {
}
}
_logger.exiting("PluginAdapter", "run");
}
public TriStatus triCall(TriComponentId componentId, TriPortId tsiPortId,
TriAddress sutAddress, TriSignatureId signatureId,
TriParameterList parameterList) {
return _itsTestAdapter.triCall(componentId, tsiPortId, sutAddress, signatureId, parameterList);
}
public TriStatus triCallBC(TriComponentId componentId, TriPortId tsiPortId,
TriSignatureId signatureId, TriParameterList parameterList) {
return _itsTestAdapter.triCallBC(componentId, tsiPortId, signatureId, parameterList);
}
public TriStatus triCallMC(TriComponentId componentId, TriPortId tsiPortId,
TriAddressList sutAddresses, TriSignatureId signatureId,
TriParameterList parameterList) {
return _itsTestAdapter.triCallMC(componentId, tsiPortId, sutAddresses, signatureId, parameterList);
}
public TriStatus triEndTestCase() {
return _itsTestAdapter.triEndTestCase();
}
public TriStatus triExecuteTestCase(TriTestCaseId testCaseId, TriPortIdList tsiPorts) {
// TERFactory.getInstance().logDebug("triExecuteTestCase");
// Disable XTRI functionality for all ports, so that existing SA implementation can be reused
for(int i = 0; i < tsiPorts.size(); i++) {
TriTciChannel.getInstance().enableXTriForPort(tsiPorts.get(i), false);
}
return _itsTestAdapter.triExecuteTestcase(testCaseId, tsiPorts);
}
public TriStatus triMap(TriPortId compPortId, TriPortId tsiPortId) {
// TERFactory.getInstance().logDebug("triMap: " + compPortId.getComponent().getComponentName() + " - " + tsiPortId.getPortName());
return _itsTestAdapter.triMap(compPortId, tsiPortId);
}
public TriStatus triRaise(TriComponentId componentId, TriPortId tsiPortId,
TriAddress sutAddress, TriSignatureId signatureId, TriException exception) {
return _itsTestAdapter.triRaise(componentId, tsiPortId, sutAddress, signatureId, exception);
}
public TriStatus triRaiseBC(TriComponentId componentId,
TriPortId tsiPortId, TriSignatureId signatureId, TriException exc) {
return _itsTestAdapter.triRaiseBC(componentId, tsiPortId, signatureId, exc);
}
public TriStatus triRaiseMC(TriComponentId componentId,
TriPortId tsiPortId, TriAddressList sutAddresses,
TriSignatureId signatureId, TriException exc) {
return _itsTestAdapter.triRaiseMC(componentId, tsiPortId, sutAddresses, signatureId, exc);
}
public TriStatus triReply(TriComponentId componentId, TriPortId tsiPortId,
TriAddress sutAddress, TriSignatureId signatureId,
TriParameterList parameterList, TriParameter returnValue) {
return _itsTestAdapter.triReply(componentId, tsiPortId, sutAddress, signatureId, parameterList, returnValue);
}
public TriStatus triReplyBC(TriComponentId componentId,
TriPortId tsiPortId, TriSignatureId signatureId,
TriParameterList parameterList, TriParameter returnValue) {
return _itsTestAdapter.triReplyBC(componentId, tsiPortId, signatureId, parameterList, returnValue);
}
public TriStatus triReplyMC(TriComponentId componentId,
TriPortId tsiPortId, TriAddressList sutAddresses,
TriSignatureId signatureId, TriParameterList parameterList,
TriParameter returnValue) {
return _itsTestAdapter.triReplyMC(componentId, tsiPortId, sutAddresses, signatureId, parameterList, returnValue);
}
public TriStatus triSAReset() {
return _itsTestAdapter.triSAReset();
}
public TriStatus triSend(TriComponentId componentId, TriPortId tsiPortId,
TriAddress address, TriMessage sendMessage) {
return _itsTestAdapter.triSend(componentId, tsiPortId, address, sendMessage);
}
public TriStatus triSendBC(TriComponentId componentId, TriPortId tsiPortId,
TriMessage sendMessage) {
return _itsTestAdapter.triSendBC(componentId, tsiPortId, sendMessage);
}
public TriStatus triSendMC(TriComponentId componentId, TriPortId tsiPortId,
TriAddressList addresses, TriMessage sendMessage) {
return _itsTestAdapter.triSendMC(componentId, tsiPortId, addresses, sendMessage);
}
public TriStatus triSutActionInformal(String description) {
// TERFactory.getInstance().logDebug("triSutActionInformal");
return _itsTestAdapter.triSutActionInformal(description);
}
public TriStatus triUnmap(TriPortId compPortId, TriPortId tsiPortId) {
return _itsTestAdapter.triUnmap(compPortId, tsiPortId);
}
public TriStatus triExternalFunction(TriFunctionId functionId, TriParameterList parameterList, TriParameter returnValue) {
//TERFactory.getInstance().logDebug(">>> PluginAdapter.triExternalFunction: " + functionId.getFunctionName()); // + " - " + parameterList + " - " + returnValue.getParameterName() + " - " + returnValue.getParameterPassingMode());
TriStatus result = m_triOK;
if (
functionId.getFunctionName().endsWith("fx_computeIPv6CheckSum") &&
(parameterList.size() == 5)
) {
// Calculate ICMPv6 checksum on pseudo header according RFC 4443 - Clause 2.3
exec_computeIPv6CheckSum(parameterList, returnValue);
} else if (
functionId.getFunctionName().endsWith("fx_computeDistance") &&
(parameterList.size() == 4)
) {
// Compute a distance between two points
exec_computeDistance(parameterList, returnValue);
} else if (
functionId.getFunctionName().endsWith("fx_computePositionUsingDistance") &&
(parameterList.size() == 6)
) {
// Compute a position using a reference position, a distance and an orientation
exec_computePositionUsingDistance(parameterList, returnValue);
} else if (
functionId.getFunctionName().endsWith("fx_computePositionFromRotation") &&
(parameterList.size() == 7)
) {
// Compute a reference position rotation
exec_computePositionFromRotation(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_computeGnTimestamp")) {
// Compute timestamp based on current time
exec_computeGnTimestamp(returnValue);
} else if (functionId.getFunctionName().endsWith("fx_getCurrentTime")) {
// Gets the current time
exec_getCurrentTime(returnValue);
} else if (functionId.getFunctionName().endsWith("fx_getCurrentTimeMark")) {
// Gets the tenths of a second in the current or next hour in units of 1/10th second from UTC time
exec_getCurrentTimeMark(returnValue);
} else if (functionId.getFunctionName().endsWith("fx_getMinuteOfTheYear")) {
// Gets the the minutes of current UTC year
exec_getMinuteOfTheYear(returnValue);
} else if (functionId.getFunctionName().endsWith("fx_getDSecond")) {
// Gets the milliseconds point in the current UTC minute
exec_getDSecond(returnValue);
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} else if (functionId.getFunctionName().endsWith("xf_parseIpv6Address")) {
exec_parseIpv6Address(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_hashWithSha256") && (parameterList.size() == 1)) {
exec_hashWithSha256(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_signWithEcdsaNistp256WithSha256") && (parameterList.size() == 2)) {
exec_signWithEcdsaNistp256WithSha256(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_verifyWithEcdsaNistp256WithSha256") && (parameterList.size() == 4)) {
exec_verifyWithEcdsaNistp256WithSha256(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_generateKeyPair") && (parameterList.size() == 3)) {
exec_generateKeyPair(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_dms2dd") && (parameterList.size() == 4)) {
exec_dms2dd(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_isValidPolygonalRegion") && (parameterList.size() == 1)) {
exec_isValidPolygonalRegion(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_isPolygonalRegionInside") && (parameterList.size() == 2)) {
exec_isPolygonalRegionInside(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_isLocationInsideCircularRegion") && (parameterList.size() == 2)) {
exec_isLocationInsideCircularRegion(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_isLocationInsideRectangularRegion") && (parameterList.size() == 2)) {
exec_isLocationInsideRectangularRegion(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_isLocationInsidePolygonalRegion") && (parameterList.size() == 2)) {
exec_isLocationInsidePolygonalRegion(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_isLocationInsideIdentifiedRegion") && (parameterList.size() == 2)) {
exec_isLocationInsideIdentifiedRegion(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_loadCertificates") && (parameterList.size() == 2)) {
exec_loadCertificates(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_unloadCertificates") && (parameterList.size() == 0)) {
exec_unloadCertificates(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_readCertificate") && (parameterList.size() == 2)) {
exec_readCertificate(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_readCertificateDigest") && (parameterList.size() == 2)) {
exec_readCertificateDigest(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_readSigningKey") && (parameterList.size() == 2)) {
exec_readSigningKey(parameterList, returnValue);
} else if (functionId.getFunctionName().endsWith("fx_readEncryptingKey") && (parameterList.size() == 2)) {
exec_readEncryptingKey(parameterList, returnValue);
_logger.severe("Unprocessed external function");
//TERFactory.getInstance().logDebug("<<< PluginAdapter.triExternalFunction: " + ByteHelper.byteArrayToString(returnValue.getEncodedParameter()));
public void onConnectionClosed() {
_logger.entering("PluginAdapter", "onConnectionClosed");
synchronized(this) {
notify();
}
}
public void onConnectionEstablished() {
_logger.entering("PluginAdapter", "onConnectionEstablished");
}
public void onError(String error) {
_logger.entering("PluginAdapter", "onError", error);
}
@Override
public TriStatus triPAReset() {
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return m_triOK;
}
@Override
public TriStatus triReadTimer(TriTimerId timerId, TriTimerDuration elapsedTime) {
throw new RuntimeException();
}
@Override
public TriStatus triStartTimer(TriTimerId timerId, TriTimerDuration timerDuration) {
throw new RuntimeException();
}
@Override
public TriStatus triStopTimer(TriTimerId timerId) {
throw new RuntimeException();
}
@Override
public TriStatus triTimerRunning(TriTimerId timerId, TriBoolean running) {
throw new RuntimeException();
}
@Override
public void triEnqueueCall(TriPortId tsiPortId, TriAddress SUTaddress, TriComponentId componentId, TriSignatureId signatureId, TriParameterList parameterList) {
throw new RuntimeException();
}
@Override
public void triEnqueueException(TriPortId tsiPortId, TriAddress sutAddress, TriComponentId componentId, TriSignatureId signatureId,
TriException exception) {
throw new RuntimeException();
}
@Override
public void triEnqueueMsg(TriPortId tsiPortId, TriAddress sutAddress, TriComponentId componentId, TriMessage receivedMessage) {
TriProvider.getInstance().getTriCommunicationTE().triEnqueueMsg(
tsiPortId,
null,
componentId,
receivedMessage);
}
@Override
public void triEnqueueReply(TriPortId tsiPortId, TriAddress address, TriComponentId componentId, TriSignatureId signatureId, TriParameterList parameterList, TriParameter returnValue) {
throw new RuntimeException();
}
@Override
public TriStatus triMapParam(TriPortId arg0, TriPortId arg1, TriParameterList arg2) {
throw new RuntimeException();
}
@Override
public TriStatus triUnmapParam(TriPortId arg0, TriPortId arg1, TriParameterList arg2) {
throw new RuntimeException();
}
@Override
public TriStatus xtriCall(TriComponentId arg0, TriPortId arg1, Value arg2, TriSignatureId arg3, TciParameterList arg4) {
throw new RuntimeException();
}
@Override
public TriStatus xtriCallBC(TriComponentId arg0, TriPortId arg1, TriSignatureId arg2, TciParameterList arg3) {
throw new RuntimeException();
}
@Override
public TriStatus xtriCallMC(TriComponentId arg0, TriPortId arg1, TciValueList arg2, TriSignatureId arg3, TciParameterList arg4) {
throw new RuntimeException();
}
@Override
public Value xtriConvert(Object arg0, org.etsi.ttcn.tci.Type arg1) {
throw new RuntimeException();
}
@Override
public TriStatus xtriMapParam(TriPortId arg0, TriPortId arg1, TciParameterList arg2) {
throw new RuntimeException();
}
@Override
public TriStatus xtriRaise(TriComponentId arg0, TriPortId arg1, Value arg2, TriSignatureId arg3, Value arg4) {
throw new RuntimeException();
}
@Override
public TriStatus xtriRaiseBC(TriComponentId arg0, TriPortId arg1, TriSignatureId arg2, Value arg3) {
throw new RuntimeException();
}
@Override
public TriStatus xtriRaiseMC(TriComponentId arg0, TriPortId arg1, TciValueList arg2, TriSignatureId arg3, Value arg4) {
throw new RuntimeException();
}
@Override
public TriStatus xtriReply(TriComponentId arg0, TriPortId arg1, Value arg2, TriSignatureId arg3, TciParameterList arg4, Value arg5) {
throw new RuntimeException();
}
@Override
public TriStatus xtriReplyBC(TriComponentId arg0, TriPortId arg1, TriSignatureId arg2, TciParameterList arg3, Value arg4) {
throw new RuntimeException();
}
@Override
public TriStatus xtriReplyMC(TriComponentId arg0, TriPortId arg1, TciValueList arg2, TriSignatureId arg3, TciParameterList arg4, Value arg5) {
throw new RuntimeException();
}
@Override
public TriStatus xtriSend(TriComponentId compPortId, TriPortId tsiPortId, Value arg2, Value arg3) {
throw new RuntimeException();
}
@Override
public TriStatus xtriSendBC(TriComponentId arg0, TriPortId arg1, Value arg2) {
throw new RuntimeException();
}
@Override
public TriStatus xtriSendMC(TriComponentId arg0, TriPortId arg1, TciValueList arg2, Value arg3) {
throw new RuntimeException();
}
@Override
public TriStatus xtriUnmapParam(TriPortId arg0, TriPortId arg1, TciParameterList arg2) {
throw new RuntimeException();
}
@Override
public TriStatus triStaticMap(TriPortId arg0, TriPortId arg1) {
throw new RuntimeException();
}
private void exec_computeIPv6CheckSum(TriParameterList parameterList, TriParameter returnValue) {
_logger.entering("PluginAdapter", "exec_computeIPv6CheckSum");
// Source address (128 bits)
byte[] value = parameterList.get(0).getEncodedParameter();
OctetstringValue sourceAddress = (OctetstringValue)TciProvider.getInstance().getTciCDRequired().getOctetstring().newInstance();
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sourceAddress.setLength(value.length);
for (int i = 0; i < value.length; i++) {
sourceAddress.setOctet(i, value[i]);
}
// Destination address (128 bits)
_logger.info(String.format("Setting parameter %s", parameterList.get(1).getParameterName()));
value = parameterList.get(1).getEncodedParameter();
OctetstringValue destinationAddress = (OctetstringValue)TciProvider.getInstance().getTciCDRequired().getOctetstring().newInstance();
destinationAddress.setLength(value.length);
for (int i = 0; i < value.length; i++) {
destinationAddress.setOctet(i, value[i]);
}
// Upper-Layer Packet Length (32 bits)
_logger.info(String.format("Setting parameter %s", parameterList.get(2).getParameterName()));
value = parameterList.get(2).getEncodedParameter();
IntegerValue payloadLength = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
payloadLength.setInteger(ByteHelper.byteArrayToInt(value));
// Upper-Layer payload
_logger.info(String.format("Setting parameter %s", parameterList.get(3).getParameterName()));
value = parameterList.get(3).getEncodedParameter();
OctetstringValue payload = (OctetstringValue)TciProvider.getInstance().getTciCDRequired().getOctetstring().newInstance();
payload.setLength(value.length);
for (int i = 0; i < value.length; i++) {
payload.setOctet(i, value[i]);
}
// Next header value (e.g. 0x3a for ICMPv6) (8bits)
_logger.info(String.format("Setting parameter %s", parameterList.get(4).getParameterName()));
value = parameterList.get(4).getEncodedParameter();
IntegerValue nextHdr = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
nextHdr.setInteger(ByteHelper.byteArrayToInt(value));
// Execute the function
OctetstringValue checksum = _extfuncsImpl.fx_computeIPv6CheckSum(
sourceAddress,
destinationAddress,
payloadLength,
payload,
nextHdr
);
_logger.info(String.format("fx_computeIPv6CheckSum returns 0x%02x%02x", checksum.getOctet(0), checksum.getOctet(1)));
value = new byte[checksum.getLength()];
for (int i = 0; i < value.length; i++) {
value[i] = (byte)checksum.getOctet(i);
}
returnValue.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
returnValue.setNumberOfBits(value.length * Byte.SIZE);
returnValue.setEncodedParameter(value);
_logger.exiting("PluginAdapter", "exec_computeIPv6CheckSum", ByteHelper.byteArrayToString(returnValue.getEncodedParameter()));
} // End of method exec_computeIPv6CheckSum
private void exec_computeDistance(TriParameterList parameterList, TriParameter returnValue) {
_logger.entering("PluginAdapter", "exec_computeDistance");
// _logger.info(String.format("Setting parameter %s: %s", parameterList.get(0).getParameterName(), ByteHelper.byteArrayToString(parameterList.get(0).getEncodedParameter())));
byte[] value = parameterList.get(0).getEncodedParameter();
IntegerValue latitudeA = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
latitudeA.setInteger(ByteHelper.byteArrayToInt(value));
// _logger.info(String.format("Setting parameter %s: %s", parameterList.get(1).getParameterName(), ByteHelper.byteArrayToString(parameterList.get(1).getEncodedParameter())));
value = parameterList.get(1).getEncodedParameter();
IntegerValue longitudeA = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
longitudeA.setInteger(ByteHelper.byteArrayToInt(value));
// _logger.info(String.format("Setting parameter %s: %s", parameterList.get(2).getParameterName(), ByteHelper.byteArrayToString(parameterList.get(2).getEncodedParameter())));
value = parameterList.get(2).getEncodedParameter();
IntegerValue latitudeB = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
latitudeB.setInteger(ByteHelper.byteArrayToInt(value));
// _logger.info(String.format("Setting parameter %s: %s", parameterList.get(3).getParameterName(), ByteHelper.byteArrayToString(parameterList.get(3).getEncodedParameter())));
value = parameterList.get(3).getEncodedParameter();
IntegerValue longitudeB = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
longitudeB.setInteger(ByteHelper.byteArrayToInt(value));
// Execute the function
// _logger.info(String.format("_extfuncsImpl.fx_computeDistance %d, %d, %d, %d", latitudeA.getInteger(), longitudeA.getInteger(), latitudeB.getInteger(), longitudeB.getInteger()));
FloatValue distance = _extfuncsImpl.fx_computeDistance(
latitudeA,
longitudeA,
latitudeB,
longitudeB
);
// _logger.info(String.format("fx_computeDistance returns %f", distance.getFloat()));
returnValue.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
byte[] convert = ByteHelper.floatToByteArray(distance.getFloat());
returnValue.setNumberOfBits(convert.length * Byte.SIZE);
returnValue.setEncodedParameter(convert);
_logger.exiting("PluginAdapter", "exec_computeDistance", ByteHelper.byteArrayToString(returnValue.getEncodedParameter()));
} // End of method exec_computeDistance
private void exec_computePositionUsingDistance(TriParameterList parameterList, TriParameter returnValue) {
_logger.entering("PluginAdapter", "exec_computePositionUsingDistance");
_logger.info(String.format("Setting parameter %s", parameterList.get(0).getParameterName()));
byte[] value = parameterList.get(0).getEncodedParameter();
IntegerValue refLatitude = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
refLatitude.setInteger(ByteHelper.byteArrayToInt(value));
_logger.info(String.format("Setting parameter %s", parameterList.get(1).getParameterName()));
value = parameterList.get(1).getEncodedParameter();
IntegerValue refLongitude = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
refLongitude.setInteger(ByteHelper.byteArrayToInt(value));
_logger.info(String.format("Setting parameter %s", parameterList.get(2).getParameterName()));
value = parameterList.get(2).getEncodedParameter();
FloatValue distance = (FloatValue)TciProvider.getInstance().getTciCDRequired().getFloat().newInstance();
distance.setFloat(ByteHelper.byteArrayToInt(value)); // FIXME Should be byteArrayToFloat???
_logger.info(String.format("Setting parameter %s", parameterList.get(3).getParameterName()));
value = parameterList.get(3).getEncodedParameter();
IntegerValue orientation = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
orientation.setInteger(ByteHelper.byteArrayToInt(value));
IntegerValue latitude = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
IntegerValue longitude = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
_extfuncsImpl.fx_computePositionUsingDistance(refLatitude, refLongitude, distance, orientation, latitude, longitude);
TriParameter param = parameterList.get(4);
param.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
param.setNumberOfBits(Integer.SIZE);
param.setEncodedParameter(ByteHelper.intToByteArray(latitude.getInteger(), Integer.SIZE / Byte.SIZE));
param = parameterList.get(5);
param.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
param.setNumberOfBits(Integer.SIZE);
param.setEncodedParameter(ByteHelper.intToByteArray(longitude.getInteger(), Integer.SIZE / Byte.SIZE));
_logger.exiting("PluginAdapter", "exec_computePositionUsingDistance");
} // End of method exec_computePositionUsingDistance
private void exec_computePositionFromRotation(TriParameterList parameterList, TriParameter returnValue) {
_logger.entering("PluginAdapter", "exec_computePositionUsingDistance");
_logger.info(String.format("Setting parameter %s", parameterList.get(0).getParameterName()));
byte[] value = parameterList.get(0).getEncodedParameter();
IntegerValue refLatitude = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
refLatitude.setInteger(ByteHelper.byteArrayToInt(value));
_logger.info(String.format("Setting parameter %s", parameterList.get(1).getParameterName()));
value = parameterList.get(1).getEncodedParameter();
IntegerValue refLongitude = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
refLongitude.setInteger(ByteHelper.byteArrayToInt(value));
_logger.info(String.format("Setting parameter %s", parameterList.get(2).getParameterName()));
value = parameterList.get(2).getEncodedParameter();
IntegerValue cenLatitude = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
cenLatitude.setInteger(ByteHelper.byteArrayToInt(value));
_logger.info(String.format("Setting parameter %s", parameterList.get(3).getParameterName()));
value = parameterList.get(3).getEncodedParameter();
IntegerValue cenLongitude = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
cenLongitude.setInteger(ByteHelper.byteArrayToInt(value));
_logger.info(String.format("Setting parameter %s", parameterList.get(4).getParameterName()));
value = parameterList.get(4).getEncodedParameter();
IntegerValue rotation = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
rotation.setInteger(ByteHelper.byteArrayToInt(value));
IntegerValue latitude = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
IntegerValue longitude = (IntegerValue)TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
_extfuncsImpl.fx_computePositionFromRotation(refLatitude, refLongitude, cenLatitude, cenLongitude, rotation, latitude, longitude);
TriParameter param = parameterList.get(5);
param.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
param.setNumberOfBits(Integer.SIZE);
param.setEncodedParameter(ByteHelper.intToByteArray(latitude.getInteger(), Integer.SIZE / Byte.SIZE));
param = parameterList.get(6);
param.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
param.setNumberOfBits(Integer.SIZE);
param.setEncodedParameter(ByteHelper.intToByteArray(longitude.getInteger(), Integer.SIZE / Byte.SIZE));
_logger.exiting("PluginAdapter", "exec_computePositionUsingDistance");
}
private void exec_computeGnTimestamp(TriParameter returnValue) {
_logger.entering("PluginAdapter", "exec_computeGnTimestamp");
// Execute the function
IntegerValue timestamp = _extfuncsImpl.fx_computeGnTimestamp();
// _logger.info(String.format("exec_computeGnTimestamp returns %d", timestamp.getInteger()));
returnValue.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
returnValue.setNumberOfBits(Integer.SIZE);
returnValue.setEncodedParameter(
ByteHelper.intToByteArray(
timestamp.getInteger(),
Integer.SIZE / Byte.SIZE
));
_logger.exiting("PluginAdapter", "exec_computeGnTimestamp", ByteHelper.byteArrayToString(returnValue.getEncodedParameter()));
} // End of method exec_computeGnTimestamp
private void exec_getCurrentTime(TriParameter returnValue) {
_logger.entering("PluginAdapter", "exec_getCurrentTime");
// Execute the function
IntegerValue time = _extfuncsImpl.fx_getCurrentTime();
// _logger.info(String.format("exec_getCurrentTime returns %d", ((IntegerValueEx)time).getInt64()));
returnValue.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
returnValue.setNumberOfBits(Long.SIZE);
returnValue.setEncodedParameter(
ByteHelper.longToByteArray(
// ((IntegerValueEx)time).getInt64() << 6, // Decoding starts from bit 0, byte 0, so we have to shift the value 6 bits to the left
// 6/*Long.SIZE / Byte.SIZE*/ // Encoding on 48 bits
((IntegerValueEx)time).getInt64(),
Long.SIZE / Byte.SIZE
_logger.exiting("PluginAdapter", "exec_getCurrentTime", ByteHelper.byteArrayToString(returnValue.getEncodedParameter()));
private void exec_getCurrentTimeMark(TriParameter returnValue) {
//_logger.entering("PluginAdapter", "exec_getCurrentTimeMark");
// Execute the function
IntegerValue time = _extfuncsImpl.fx_getCurrentTimeMark();
//_logger.info(String.format("exec_getCurrentTimeMark returns %d", ((IntegerValueEx)time).getInt64()));
returnValue.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
returnValue.setNumberOfBits(Long.SIZE);
returnValue.setEncodedParameter(
ByteHelper.longToByteArray(
((IntegerValueEx)time).getInt64(),
4/*Integer.SIZE / Byte.SIZE*/ // Encoding on 32 bits
));
//_logger.exiting("PluginAdapter", "exec_getCurrentTimeMark: ", ByteHelper.byteArrayToString(returnValue.getEncodedParameter()));
} // End of method exec_getCurrentTimeMark
private void exec_getMinuteOfTheYear(TriParameter returnValue) {
//_logger.entering("PluginAdapter", "exec_getMinuteOfTheYear");
// Execute the function
IntegerValue time = _extfuncsImpl.fx_getMinuteOfTheYear();
//_logger.info(String.format("exec_getMinuteOfTheYear returns %d", ((IntegerValueEx)time).getInt64()));
returnValue.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
returnValue.setNumberOfBits(Long.SIZE);
returnValue.setEncodedParameter(
ByteHelper.longToByteArray(
((IntegerValueEx)time).getInt64(),
2/*Short.SIZE / Byte.SIZE*/ // Encoding on 16 bits
));
//_logger.exiting("PluginAdapter", "exec_getMinuteOfTheYear: ", ByteHelper.byteArrayToString(returnValue.getEncodedParameter()));
} // End of method exec_getMinuteOfTheYear
private void exec_getDSecond(TriParameter returnValue) {
//_logger.entering("PluginAdapter", "exec_getDSecond");
// Execute the function
IntegerValue time = _extfuncsImpl.fx_getDSecond();
//_logger.info(String.format("exec_getDSecond returns %d", ((IntegerValueEx)time).getInt64()));
returnValue.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
returnValue.setNumberOfBits(Long.SIZE);
returnValue.setEncodedParameter(
ByteHelper.longToByteArray(
((IntegerValueEx)time).getInt64(),
2/*Short.SIZE / Byte.SIZE*/ // Encoding on 16 bits
));
//_logger.exiting("PluginAdapter", "exec_getDSecond: ", ByteHelper.byteArrayToString(returnValue.getEncodedParameter()));
} // End of method exec_getDSecond
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private void exec_generateKeyPair(TriParameterList parameterList, TriParameter returnValue) {
_logger.entering("PluginAdapter", "exec_generateKeyPair");
// Execute the function
OctetstringValue privateKey = (OctetstringValue) TciProvider.getInstance().getTciCDRequired().getOctetstring().newInstance();
OctetstringValue publicKeyX = (OctetstringValue) TciProvider.getInstance().getTciCDRequired().getOctetstring().newInstance();
OctetstringValue publicKeyY = (OctetstringValue) TciProvider.getInstance().getTciCDRequired().getOctetstring().newInstance();
BooleanValue result = _extfuncsImpl.fx_generateKeyPair(privateKey, publicKeyX, publicKeyY);
_logger.info(String.format("exec_generateKeyPair returns %s", (new Boolean(result.getBoolean()))));
// privateKey
TriParameter Key = parameterList.get(0);
Key.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
byte[] ref = new byte[privateKey.getLength()];
for (int i = 0; i < ref.length; i++) {
ref[i] = (byte) privateKey.getOctet(i);
} // End 'for' statement
Key.setEncodedParameter(ref);
// publicKeyX
Key = parameterList.get(1);
Key.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
Key.setNumberOfBits(publicKeyX.getLength() * Byte.SIZE);
ref = new byte[publicKeyX.getLength()];
for (int i = 0; i < ref.length; i++) {
ref[i] = (byte) publicKeyX.getOctet(i);
} // End 'for' statement
Key.setEncodedParameter(ref);
// publicKeyY
Key = parameterList.get(2);
Key.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
Key.setNumberOfBits(publicKeyY.getLength() * Byte.SIZE);
ref = new byte[publicKeyY.getLength()];
for (int i = 0; i < ref.length; i++) {
ref[i] = (byte) publicKeyY.getOctet(i);
} // End 'for' statement
Key.setEncodedParameter(ref);
// Return code
returnValue.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
returnValue.setNumberOfBits(Byte.SIZE);
returnValue.setEncodedParameter(new byte[] { (byte)((result.getBoolean() == true) ? 0x01 : 0x00) } );
_logger.exiting("PluginAdapter", "exec_generateKeyPair", ByteHelper.byteArrayToString(returnValue.getEncodedParameter()));
} // End of method exec_generateKeyPair
private void exec_verifyWithEcdsaNistp256WithSha256(TriParameterList parameterList, TriParameter returnValue) {
_logger.entering("PluginAdapter", "exec_verifyWithEcdsaNistp256WithSha256");
// Execute the function
_logger.info(String.format("Setting parameter %s", parameterList.get(0).getParameterName()));
byte[] value = parameterList.get(0).getEncodedParameter();
OctetstringValue toBeVerifiedData = (OctetstringValue) TciProvider.getInstance().getTciCDRequired().getOctetstring().newInstance();
toBeVerifiedData.setLength(value.length);
for (int i = 0; i < toBeVerifiedData.getLength(); i++) {
toBeVerifiedData.setOctet(i, value[i]);
} // End 'for' statement
_logger.info(String.format("Setting parameter %s", parameterList.get(1).getParameterName()));
value = parameterList.get(1).getEncodedParameter();
OctetstringValue signature = (OctetstringValue) TciProvider.getInstance().getTciCDRequired().getOctetstring().newInstance();
signature.setLength(value.length);
for (int i = 0; i < signature.getLength(); i++) {
signature.setOctet(i, value[i]);
} // End 'for' statement
_logger.info(String.format("Setting parameter %s", parameterList.get(2).getParameterName()));
value = parameterList.get(2).getEncodedParameter();
OctetstringValue ecdsaNistp256PublicKeyX = (OctetstringValue) TciProvider.getInstance().getTciCDRequired().getOctetstring().newInstance();
ecdsaNistp256PublicKeyX.setLength(value.length);
for (int i = 0; i < ecdsaNistp256PublicKeyX.getLength(); i++) {
ecdsaNistp256PublicKeyX.setOctet(i, value[i]);
} // End 'for' statement
_logger.info(String.format("Setting parameter %s", parameterList.get(3).getParameterName()));
value = parameterList.get(3).getEncodedParameter();
OctetstringValue ecdsaNistp256PublicKeyY = (OctetstringValue) TciProvider.getInstance().getTciCDRequired().getOctetstring().newInstance();
ecdsaNistp256PublicKeyY.setLength(value.length);
for (int i = 0; i < ecdsaNistp256PublicKeyY.getLength(); i++) {
ecdsaNistp256PublicKeyY.setOctet(i, value[i]);
} // End 'for' statement
BooleanValue result = _extfuncsImpl.fx_verifyWithEcdsaNistp256WithSha256(toBeVerifiedData, signature, ecdsaNistp256PublicKeyX, ecdsaNistp256PublicKeyY);
// Return code
returnValue.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
returnValue.setNumberOfBits(Byte.SIZE);
returnValue.setEncodedParameter(new byte[] { (byte)((result.getBoolean() == true) ? 0x01 : 0x00) } );
_logger.exiting("PluginAdapter", "exec_verifyWithEcdsaNistp256WithSha256", ByteHelper.byteArrayToString(returnValue.getEncodedParameter()));
} // End of method exec_fx_verifyWithEcdsaNistp256WithSha256
private void exec_signWithEcdsaNistp256WithSha256(TriParameterList parameterList, TriParameter returnValue) {
_logger.entering("PluginAdapter", "exec_signWithEcdsaNistp256WithSha256");
// Execute the function
_logger.info(String.format("Setting parameter %s", parameterList.get(0).getParameterName()));
byte[] value = parameterList.get(0).getEncodedParameter();
OctetstringValue toBeSignedData = (OctetstringValue) TciProvider.getInstance().getTciCDRequired().getOctetstring().newInstance();
toBeSignedData.setLength(value.length);
for (int i = 0; i < toBeSignedData.getLength(); i++) {
toBeSignedData.setOctet(i, value[i]);
} // End 'for' statement
_logger.info(String.format("Setting parameter %s", parameterList.get(1).getParameterName()));
value = parameterList.get(1).getEncodedParameter();
OctetstringValue privateKey = (OctetstringValue) TciProvider.getInstance().getTciCDRequired().getOctetstring().newInstance();
privateKey.setLength(value.length);
for (int i = 0; i < privateKey.getLength(); i++) {
privateKey.setOctet(i, value[i]);
} // End 'for' statement
// IntegerValueEx privateKey = (IntegerValueEx) TciProvider.getInstance().getTciCDRequired().getInteger().newInstance();
// privateKey.setInt64(ByteHelper.byteArrayToLong(value));
OctetstringValue result = _extfuncsImpl.fx_signWithEcdsaNistp256WithSha256(toBeSignedData, privateKey);
// Return code
returnValue.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
returnValue.setNumberOfBits(result.getLength() * Byte.SIZE);
value = new byte[result.getLength()];
for (int i = 0; i < value.length; i++) {
value[i] = (byte) result.getOctet(i);
} // End 'for' statement
returnValue.setEncodedParameter(value);
_logger.exiting("PluginAdapter", "exec_signWithEcdsaNistp256WithSha256", ByteHelper.byteArrayToString(returnValue.getEncodedParameter()));
} // End of method exec_signWithEcdsaNistp256WithSha256
private void exec_hashWithSha256(TriParameterList parameterList, TriParameter returnValue) {
_logger.entering("PluginAdapter", "exec_hashWithSha256");
// Execute the function
_logger.info(String.format("Setting parameter %s", parameterList.get(0).getParameterName()));
byte[] value = parameterList.get(0).getEncodedParameter();
OctetstringValue toBeHashedData = (OctetstringValue) TciProvider.getInstance().getTciCDRequired().getOctetstring().newInstance();
toBeHashedData.setLength(value.length);
for (int i = 0; i < toBeHashedData.getLength(); i++) {
toBeHashedData.setOctet(i, value[i]);
} // End 'for' statement
OctetstringValue result = _extfuncsImpl.fx_hashWithSha256(toBeHashedData);
// Return code
returnValue.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
returnValue.setNumberOfBits(result.getLength() * Byte.SIZE);
// TERFactory.getInstance().logDebug("Result length = " + result.getLength());
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value = new byte[result.getLength()];
for (int i = 0; i < value.length; i++) {
value[i] = (byte) result.getOctet(i);
} // End 'for' statement
returnValue.setEncodedParameter(value);
_logger.exiting("PluginAdapter", "exec_hashWithSha256", ByteHelper.byteArrayToString(returnValue.getEncodedParameter()));
} // End of method exec_hashWithSha256
private void exec_dms2dd(TriParameterList parameterList, TriParameter returnValue) {
_logger.entering("PluginAdapter", "exec_dms2dd");
// Prepare arguments
ITciCDWrapper wrapper = TciCDWrapperFactory.getTciCDInstance();
IntegerValue degrees = wrapper.setInteger(new BigInteger(parameterList.get(0).getEncodedParameter()));
IntegerValue minutes = wrapper.setInteger(new BigInteger(parameterList.get(1).getEncodedParameter()));
FloatValue seconds = wrapper.getFloat();
seconds.setFloat(ByteHelper.byteArrayToFloat(parameterList.get(2).getEncodedParameter()));
OctetstringValue latlon = wrapper.getOctetstring();
latlon.setLength(1);
latlon.setOctet(0, parameterList.get(3).getEncodedParameter()[0]);
FloatValue result = _extfuncsImpl.fx_dms2dd(degrees, minutes, seconds, latlon);
// Return code
returnValue.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
returnValue.setNumberOfBits(Float.SIZE);
returnValue.setEncodedParameter(ByteHelper.floatToByteArray(result.getFloat()));
_logger.exiting("PluginAdapter", "exec_dms2dd", ByteHelper.byteArrayToString(returnValue.getEncodedParameter()));
} // End of method exec_dms2dd
private void exec_isValidPolygonalRegion(TriParameterList parameterList, TriParameter returnValue) {
_logger.entering("PluginAdapter", "exec_isValidPolygonalRegion");
// Decode region parameter
ITciCDWrapper wrapper = TciCDWrapperFactory.getTciCDInstance();
RecordOfValue region = wrapper.getRecordOfValue("LibItsSecurity_TypesAndValues.PolygonalRegion");
byte[] value = parameterList.get(0).getEncodedParameter();
byte length = value[0];
int offset = 1;
while (offset < length) { // TODO Create a method to fill PolygonRegions
// WGS84 Latitude
int latitude = ByteHelper.byteArrayToInt(ByteHelper.extract(value, offset, Integer.SIZE / Byte.SIZE));
offset += Integer.SIZE / Byte.SIZE;
// WGS84 Longitude
int longitude = ByteHelper.byteArrayToInt(ByteHelper.extract(value, offset, Integer.SIZE / Byte.SIZE));
offset += Integer.SIZE / Byte.SIZE;
RecordValue twoDLocation = wrapper.getRecordValue("LibItsSecurity_TypesAndValues.TwoDLocation");
twoDLocation.setField("latitude", wrapper.setInteger(latitude));
twoDLocation.setField("longitude", wrapper.setInteger(longitude));
}
// Execute the function
BooleanValue result = _extfuncsImpl.fx_isValidPolygonalRegion(region);
// Return code
returnValue.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
returnValue.setNumberOfBits(Byte.SIZE);
returnValue.setEncodedParameter(new byte[] { (byte)((result.getBoolean() == true) ? 0x01 : 0x00) });
_logger.exiting("PluginAdapter", "exec_isValidPolygonalRegion", ByteHelper.byteArrayToString(returnValue.getEncodedParameter()));
} // End of method exec_isValidPolygonalRegion
private void exec_isPolygonalRegionInside(TriParameterList parameterList, TriParameter returnValue) {
_logger.entering("PluginAdapter", "exec_isPolygonalRegionInside");
// Decode parent parameter
// ByteHelper.dump("exec_isPolygonalRegionInside: ", parameterList.get(0).getEncodedParameter());
// Execute the function
ITciCDWrapper wrapper = TciCDWrapperFactory.getTciCDInstance();
RecordOfValue parent = wrapper.getRecordOfValue("LibItsSecurity_TypesAndValues.PolygonalRegion");
byte[] value = parameterList.get(0).getEncodedParameter();
byte length = value[0];
int offset = 1;
while (offset < length) { // TODO Create a method to fill PolygonRegions
// WGS84 Latitude
int latitude = ByteHelper.byteArrayToInt(ByteHelper.extract(value, offset, Integer.SIZE / Byte.SIZE));
offset += Integer.SIZE / Byte.SIZE;
// WGS84 Longitude
int longitude = ByteHelper.byteArrayToInt(ByteHelper.extract(value, offset, Integer.SIZE / Byte.SIZE));
offset += Integer.SIZE / Byte.SIZE;
RecordValue twoDLocation = wrapper.getRecordValue("LibItsSecurity_TypesAndValues.TwoDLocation");
twoDLocation.setField("latitude", wrapper.setInteger(latitude));
twoDLocation.setField("longitude", wrapper.setInteger(longitude));
parent.appendField(twoDLocation);
} // End of 'while' statement
// Decode region parameter
RecordOfValue region = wrapper.getRecordOfValue("LibItsSecurity_TypesAndValues.PolygonalRegion");
value = ByteHelper.extract(parameterList.get(0).getEncodedParameter(), offset, parameterList.get(0).getEncodedParameter().length - offset);
length = value[0];
offset = 1;
while (offset < length) { // TODO Create a method to fill PolygonRegions
// WGS84 Latitude
int latitude = ByteHelper.byteArrayToInt(ByteHelper.extract(value, offset, Integer.SIZE / Byte.SIZE));
offset += Integer.SIZE / Byte.SIZE;
// WGS84 Longitude
int longitude = ByteHelper.byteArrayToInt(ByteHelper.extract(value, offset, Integer.SIZE / Byte.SIZE));
offset += Integer.SIZE / Byte.SIZE;
RecordValue twoDLocation = wrapper.getRecordValue("LibItsSecurity_TypesAndValues.TwoDLocation");
twoDLocation.setField("latitude", wrapper.setInteger(latitude));
twoDLocation.setField("longitude", wrapper.setInteger(longitude));
region.appendField(twoDLocation);
} // End of 'while' statement
// Execute the function
BooleanValue result = _extfuncsImpl.fx_isPolygonalRegionInside(parent, region);
// Return code
returnValue.setParameterPassingMode(TriParameterPassingMode.TRI_OUT);
returnValue.setNumberOfBits(Byte.SIZE);
returnValue.setEncodedParameter(new byte[] { (byte)((result.getBoolean() == true) ? 0x01 : 0x00) });