public void TestCatchExecption() { string msg; var param = CreateParam; var log = MockIlog(); var protocol = new Mock <IParallelProtocol>(); var floorNum = int.Parse(param["Floor"]); var boardNum = int.Parse(param["Locate"]); var parallelProtocol = protocol.Object; var board = new ParallelQsfp28(param, parallelProtocol, log); protocol.Setup(m => m.SelectDut(floorNum, boardNum, _seat, out msg)).Returns(true); protocol.Setup(m => m.SendPassword(out msg)).Returns(true); board.CatchException(_seat); protocol.Setup(m => m.SelectDut(floorNum, boardNum, _seat, out msg)).Returns(false); protocol.Setup(m => m.SendPassword(out msg)).Returns(true); board.CatchException(_seat); protocol.Setup(m => m.SelectDut(floorNum, boardNum, _seat, out msg)).Returns(true); protocol.Setup(m => m.SendPassword(out msg)).Returns(false); board.CatchException(_seat); }
public void TestConstructDriver() { var log = MockIlog(); var protocol = new Mock <IParallelProtocol>(); var parallelProtocol = protocol.Object; var param = CreateParam; var board = new ParallelQsfp28(param, parallelProtocol, log); Assert.AreNotEqual(board, null); }
public void TestVersion() { var log = MockIlog(); var protocol = new Mock <IParallelProtocol>(); var parallelProtocol = protocol.Object; var param = CreateParam; var board = new ParallelQsfp28(param, parallelProtocol, log); var vsn = board.GetVersion(); Assert.AreEqual(vsn, "V1.00"); }
public void TestAddSeat() { var param = CreateParam; var log = MockIlog(); var protocol = new Mock <IParallelProtocol>(); var parallelProtocol = protocol.Object; var board = new ParallelQsfp28(param, parallelProtocol, log); board.AddSeat(1, "A"); board.AddSeat(2, "A"); board.AddSeat(17, "B"); }
public IBoard CreateDriver(string driverType, ILog logger, Dictionary <string, string> param) { _log = logger; IBoard driver = null; switch (driverType.Trim()) { case "TEST_TYPE": driver = new TestType(param, _log); break; case "CFP8TOSA": driver = new Cfp8Tosa(param, _log); break; case "TOSA25G": driver = new Tosa25G(param, _log); break; case "QSFP28G_TEC": driver = new Qsfp28G(param, _log); break; case "QSFP28G_NOTEC": driver = new Qsfp28GNoTec(param, _log); break; case "TOSA32G": driver = new Tosa32G(param, _log); break; case "CFP4": //driver = new QSFP28GNoTec(param, _log); break; case "IQMGenI": driver = new IqmGenI(param, _log); break; case "PARALLEL_QSFP28G_INTERNAL": var vbmsAddr = VbmsDriverAddr.Inst(); var cmd = VbmsCmd.Inst(); var parallelProtocol = ParallelProtocolQsfp28G.Inst(vbmsAddr, cmd); driver = new ParallelQsfp28(param, parallelProtocol, _log); break; default: _log.Error("BiBsp don't support the driver:" + driverType); break; } return(driver); }
public void TestDisableBoard() { var msg = "ok"; var param = CreateParam; var log = MockIlog(); var protocol = new Mock <IParallelProtocol>(); var floorNum = int.Parse(param["Floor"]); var boardNum = int.Parse(param["Locate"]); var parallelProtocol = protocol.Object; var board = new ParallelQsfp28(param, parallelProtocol, log); protocol.Setup(m => m.SelectDut(floorNum, boardNum, _seat, out msg)).Returns(true); protocol.Setup(m => m.EnableVoltage(_seat, true, out msg)).Returns(true); var data = Encoding.Default.GetBytes("ABCDEFG"); protocol.Setup(m => m.ReadParam(CmdType.ReadSn, out data, out msg)).Returns(true); var snSet = board.GetSnSet(); Assert.AreEqual(true, (snSet.Count == 1)); Assert.AreEqual(snSet[_seat], "ABCDEFG"); snSet.Clear(); data = Encoding.Default.GetBytes(" "); protocol.Setup(m => m.ReadParam(CmdType.ReadSn, out data, out msg)).Returns(true); snSet = board.GetSnSet(); Assert.AreEqual(true, (snSet.Count == 0)); data = Encoding.Default.GetBytes("ABCDEFG"); snSet.Clear(); protocol.Setup(m => m.SelectDut(floorNum, boardNum, _seat, out msg)).Returns(false); protocol.Setup(m => m.ReadParam(CmdType.ReadSn, out data, out msg)).Returns(true); snSet = board.GetSnSet(); Assert.AreEqual(true, (snSet.Count == 0)); snSet.Clear(); protocol.Setup(m => m.SelectDut(floorNum, boardNum, _seat, out msg)).Returns(true); protocol.Setup(m => m.EnableVoltage(_seat, true, out msg)).Returns(false); protocol.Setup(m => m.ReadParam(CmdType.ReadSn, out data, out msg)).Returns(true); Assert.AreEqual(true, (snSet.Count == 0)); snSet.Clear(); protocol.Setup(m => m.SelectDut(floorNum, boardNum, _seat, out msg)).Returns(true); protocol.Setup(m => m.EnableVoltage(_seat, true, out msg)).Returns(true); protocol.Setup(m => m.ReadParam(CmdType.ReadSn, out data, out msg)).Returns(false); Assert.AreEqual(true, (snSet.Count == 0)); }
public void TestCheckCOnnections() { var param = CreateParam; var log = MockIlog(); var protocol = new Mock <IParallelProtocol>(); var parallelProtocol = protocol.Object; var board = new ParallelQsfp28(param, parallelProtocol, log); var connections = board.CheckConnections(); foreach (var con in connections) { Assert.AreEqual(true, con); } }