Files
JIMRI/java/test/jmri/jmrix/powerline/insteon2412s/SpecificTrafficControllerTest.java
2026-06-17 14:00:51 +02:00

250 lines
9.3 KiB
Java

package jmri.jmrix.powerline.insteon2412s;
import java.io.DataInputStream;
import java.io.DataOutputStream;
import java.io.PipedInputStream;
import java.io.PipedOutputStream;
import jmri.jmrix.powerline.SerialPortController;
import jmri.jmrix.powerline.SerialReply;
import jmri.jmrix.powerline.SerialSystemConnectionMemo;
import jmri.jmrix.powerline.SerialTrafficController;
import jmri.util.JUnitUtil;
import org.junit.Assert;
import org.junit.jupiter.api.*;
/**
* JUnit tests for the SpecificTrafficController class.
*
* @author Bob Jacobsen Copyright 2005, 2007, 2008, 2009 Converted to multiple
* connection
* @author kcameron Copyright (C) 2011
*/
public class SpecificTrafficControllerTest extends jmri.jmrix.powerline.SerialTrafficControllerTest {
SerialTrafficController t = null;
SerialSystemConnectionMemo memo = null;
// inner class to give access to protected endOfMessage method
private static class TestSerialTC extends SpecificTrafficController {
TestSerialTC(SerialSystemConnectionMemo m) {
super(m);
}
boolean testEndOfMessage(SerialReply r) {
return endOfMessage(r);
}
@Override
protected void forwardToPort(jmri.jmrix.AbstractMRMessage m, jmri.jmrix.AbstractMRListener reply) {
}
}
@Test
public void testReceiveStates1() {
TestSerialTC c = new TestSerialTC(memo);
SerialReply r = new SpecificReply(t);
r.setElement(0, Constants.HEAD_STX);
Assert.assertTrue("STX", !c.testEndOfMessage(r));
r.setElement(1, Constants.POLL_REQ_BUTTON_RESET);
Assert.assertTrue("Reset", c.testEndOfMessage(r));
}
@Test
public void testReceiveStatesRead() {
// build a dim for address 11.22.33 to 50%
TestSerialTC c = new TestSerialTC(memo);
SerialReply r = new SpecificReply(t);
r.setElement(0, Constants.HEAD_STX);
Assert.assertTrue("wait for read", !c.testEndOfMessage(r));
r.setElement(1, Constants.POLL_REQ_STD);
Assert.assertTrue("IM Command", !c.testEndOfMessage(r));
r.setElement(2, 0x11);
Assert.assertTrue("Addr High", !c.testEndOfMessage(r));
r.setElement(3, 0x22);
Assert.assertTrue("Addr Middle", !c.testEndOfMessage(r));
r.setElement(4, 0x33);
Assert.assertTrue("Addr Low", !c.testEndOfMessage(r));
r.setElement(5, 0x44);
Assert.assertTrue("Addr High", !c.testEndOfMessage(r));
r.setElement(6, 0x55);
Assert.assertTrue("Addr Middle", !c.testEndOfMessage(r));
r.setElement(7, 0x66);
Assert.assertTrue("Addr Low", !c.testEndOfMessage(r));
r.setElement(8, 0x00);
Assert.assertTrue("Flags", !c.testEndOfMessage(r));
r.setElement(9, Constants.CMD_LIGHT_CHG);
Assert.assertTrue("Dim Cmd", !c.testEndOfMessage(r));
r.setElement(10, 0x80);
Assert.assertTrue("50% dim", c.testEndOfMessage(r));
// and next reply OK
//r.setElement(8, Constants.REPLY_ACK);
//Assert.assertTrue("single byte reply", c.testEndOfMessage(r));
}
// public void testSerialNodeEnumeration() {
// SpecificTrafficController c = new SpecificTrafficController();
// SerialNode b = new SerialNode(1,SerialNode.DAUGHTER);
// SerialNode f = new SerialNode(3,SerialNode.CABDRIVER);
// SerialNode d = new SerialNode(2,SerialNode.CABDRIVER);
// SerialNode e = new SerialNode(6,SerialNode.DAUGHTER);
// Assert.assertEquals("1st Node", b, c.getSerialNode(0) );
// Assert.assertEquals("2nd Node", f, c.getSerialNode(1) );
// Assert.assertEquals("3rd Node", d, c.getSerialNode(2) );
// Assert.assertEquals("4th Node", e, c.getSerialNode(3) );
// Assert.assertEquals("no more Nodes", null, c.getSerialNode(4) );
// Assert.assertEquals("1st Node Again", b, c.getSerialNode(0) );
// Assert.assertEquals("2nd Node Again", f, c.getSerialNode(1) );
// Assert.assertEquals("node with address 6", e, c.getNodeFromAddress(6) );
// Assert.assertEquals("3rd Node again", d, c.getSerialNode(2) );
// Assert.assertEquals("no node with address 0", null, c.getNodeFromAddress(0) );
// c.deleteSerialNode(6);
// Assert.assertEquals("1st Node after del", b, c.getSerialNode(0) );
// Assert.assertEquals("2nd Node after del", f, c.getSerialNode(1) );
// Assert.assertEquals("3rd Node after del", d, c.getSerialNode(2) );
// Assert.assertEquals("no more Nodes after del", null, c.getSerialNode(3) );
// c.deleteSerialNode(1);
// jmri.util.JUnitAppender.assertWarnMessage("Deleting the serial node active in the polling loop");
// Assert.assertEquals("1st Node after del2", f, c.getSerialNode(0) );
// Assert.assertEquals("2nd Node after del2", d, c.getSerialNode(1) );
// Assert.assertEquals("no more Nodes after del2", null, c.getSerialNode(2) );
// }
/* public void testSerialOutput() { */
/* SerialTrafficController c = new SerialTrafficController(); */
/* SerialNode a = new SerialNode(); */
/* SerialNode g = new SerialNode(5,SerialNode.DAUGHTER); */
/* Assert.assertTrue("must Send", g.mustSend() ); */
/* g.resetMustSend(); */
/* Assert.assertTrue("must Send off", !(g.mustSend()) ); */
/* //c.setSerialOutput("PL5B2",false); // test and 12 year old method removed, called nowhere as of 4.9.4 */
/* SerialMessage m = g.createOutPacket(); */
/* Assert.assertEquals("packet size", 9, m.getNumDataElements() ); */
/* Assert.assertEquals("node address", 5, m.getElement(0) ); */
/* Assert.assertEquals("byte 1 lo nibble", 0x02, m.getElement(1) ); */
/* Assert.assertEquals("byte 1 hi nibble", 0x10, m.getElement(2) ); */
/* Assert.assertEquals("byte 2 lo nibble", 0x20, m.getElement(3) ); */
/* Assert.assertEquals("byte 2 hi nibble", 0x30, m.getElement(4) ); */
/* Assert.assertEquals("byte 3 lo nibble", 0x41, m.getElement(5) ); */
/* Assert.assertEquals("byte 3 hi nibble", 0x50, m.getElement(6) ); */
/* Assert.assertEquals("byte 4 lo nibble", 0x60, m.getElement(7) ); */
/* Assert.assertEquals("byte 4 hi nibble", 0x70, m.getElement(8) ); */
/* } */
@Test
public void testScaffold() throws java.io.IOException {
SerialPortControllerScaffold scaff = new SerialPortControllerScaffold(memo);
Assertions.assertNotNull(scaff);
Assertions.assertNotNull(tostream);
Assertions.assertNotNull(ostream);
Assertions.assertNotNull(istream);
Assertions.assertNotNull(tistream);
scaff.dispose();
}
// internal class to simulate a PortController
private class SerialPortControllerScaffold extends SerialPortController {
SerialPortControllerScaffold(SerialSystemConnectionMemo memo ) throws java.io.IOException {
super(memo);
PipedInputStream tempPipe;
tempPipe = new PipedInputStream();
tostream = new DataInputStream(tempPipe);
ostream = new DataOutputStream(new PipedOutputStream(tempPipe));
tempPipe = new PipedInputStream();
istream = new DataInputStream(tempPipe);
tistream = new DataOutputStream(new PipedOutputStream(tempPipe));
}
@Override
public java.util.Vector<String> getPortNames() {
return null;
}
@Override
public String openPort(String portName, String appName) {
return null;
}
@Override
public void configure() {
}
@Override
public String[] validBaudRates() {
return new String[] {};
}
//@Override
@Override
public int[] validBaudNumbers() {
return new int[] {};
}
// returns the InputStream from the port
@Override
public DataInputStream getInputStream() {
return istream;
}
// returns the outputStream to the port
@Override
public DataOutputStream getOutputStream() {
return ostream;
}
// check that this object is ready to operate
@Override
public boolean status() {
return true;
}
}
private DataOutputStream ostream; // Traffic controller writes to this
private DataInputStream tostream; // so we can read it from this
private DataOutputStream tistream; // tests write to this
private DataInputStream istream; // so the traffic controller can read from this
@Override
@BeforeEach
public void setUp() {
JUnitUtil.setUp();
memo = new SpecificSystemConnectionMemo();
tc = t = new SpecificTrafficController(memo);
}
@Override
@AfterEach
public void tearDown() {
if ( memo != null ) {
memo.dispose();
memo = null;
}
JUnitUtil.clearShutDownManager(); // put in place because AbstractMRTrafficController implementing subclass was not terminated properly
JUnitUtil.tearDown();
}
// private static final Logger log = LoggerFactory.getLogger(SpecificTrafficControllerTest.class);
}