using Microsoft.VisualStudio.TestTools.UnitTesting; using Modbus.Net.Siemens; namespace Modbus.Net.Tests { [TestClass] public class SiemensTest { private BaseMachine? _siemensTcpMachine; private BaseMachine? _siemensPpiMachine; private string _machineIp = "10.10.18.251"; private string _machineCom = "COM11"; [TestInitialize] public void Init() { _siemensTcpMachine = new SiemensMachine("1", SiemensType.Tcp, _machineIp, SiemensMachineModel.S7_1200, null, true, 2, 0); _siemensPpiMachine = new SiemensMachine("2", SiemensType.Ppi, _machineCom, SiemensMachineModel.S7_200, null, true, 2, 0, 1, 0); } [TestMethod] public async Task SiemensCoilSingle() { Random r = new Random(); var addresses = new List { new AddressUnit { Id = "0", Area = "Q", Address = 0, SubAddress = 0, CommunicationTag = "A1", DataType = typeof(bool) } }; var dic1 = new Dictionary() { { "Q 0.0", r.Next(0, 2) } }; _siemensTcpMachine!.GetAddresses = addresses; await _siemensTcpMachine.SetDatasAsync(MachineDataType.Address, dic1); _siemensPpiMachine!.GetAddresses = addresses; await _siemensPpiMachine.SetDatasAsync(MachineDataType.Address, dic1); var ans = await _siemensTcpMachine.GetDatasAsync(MachineDataType.Address); var ans2 = await _siemensPpiMachine.GetDatasAsync(MachineDataType.Address); Assert.AreEqual(ans.Datas["Q 0.0"].DeviceValue, dic1["Q 0.0"]); Assert.AreEqual(ans2.Datas["Q 0.0"].DeviceValue, dic1["Q 0.0"]); } [TestMethod] public async Task SiemensDInputSingle() { var addresses = new List { new AddressUnit { Id = "0", Area = "I", Address = 0, SubAddress = 0, CommunicationTag = "A1", DataType = typeof(bool) } }; _siemensTcpMachine!.GetAddresses = addresses; _siemensPpiMachine!.GetAddresses = addresses; var ans = await _siemensTcpMachine.GetDatasAsync(MachineDataType.Address); var ans2 = await _siemensPpiMachine.GetDatasAsync(MachineDataType.Address); Assert.AreEqual(ans.Datas["I 0.0"].DeviceValue, 0); Assert.AreEqual(ans2.Datas["I 0.0"].DeviceValue, 0); } [TestMethod] public async Task SiemensMSingle() { Random r = new Random(); var addresses = new List { new AddressUnit { Id = "0", Area = "M", Address = 0, SubAddress = 0, CommunicationTag = "A1", DataType = typeof(ushort) } }; _siemensTcpMachine!.GetAddresses = addresses; _siemensPpiMachine!.GetAddresses = addresses; var dic1 = new Dictionary() { { "M 0", r.Next(0, UInt16.MaxValue) } }; await _siemensTcpMachine.SetDatasAsync(MachineDataType.Address, dic1); await _siemensPpiMachine.SetDatasAsync(MachineDataType.Address, dic1); var ans = await _siemensTcpMachine.GetDatasAsync(MachineDataType.Address); var ans2 = await _siemensPpiMachine.GetDatasAsync(MachineDataType.Address); Assert.AreEqual(ans.Datas["M 0.0"].DeviceValue, dic1["M 0"]); Assert.AreEqual(ans2.Datas["M 0.0"].DeviceValue, dic1["M 0"]); } [TestMethod] public async Task SiemensMSingleBool() { Random r = new Random(); var addresses = new List { new AddressUnit { Id = "0", Area = "M", Address = 0, SubAddress = 0, CommunicationTag = "A1", DataType = typeof(bool) } }; _siemensTcpMachine!.GetAddresses = addresses; _siemensPpiMachine!.GetAddresses = addresses; var dic1 = new Dictionary() { { "M 0.0", r.Next(0, 2) } }; await _siemensTcpMachine.SetDatasAsync(MachineDataType.Address, dic1); await _siemensPpiMachine.SetDatasAsync(MachineDataType.Address, dic1); var ans = await _siemensTcpMachine.GetDatasAsync(MachineDataType.Address); var ans2 = await _siemensPpiMachine.GetDatasAsync(MachineDataType.Address); Assert.AreEqual(ans.Datas["M 0.0"].DeviceValue, dic1["M 0.0"]); Assert.AreEqual(ans2.Datas["M 0.0"].DeviceValue, dic1["M 0.0"]); } [TestMethod] public async Task SiemensDbSingle() { Random r = new Random(); var addresses = new List { new AddressUnit { Id = "0", Area = "DB1", Address = 0, SubAddress = 0, CommunicationTag = "A1", DataType = typeof(ushort) } }; var dic1 = new Dictionary() { { "DB1 0.0", r.Next(0, UInt16.MaxValue) } }; _siemensTcpMachine!.GetAddresses = addresses; _siemensPpiMachine!.GetAddresses = addresses; await _siemensTcpMachine.SetDatasAsync(MachineDataType.Address, dic1); await _siemensPpiMachine.SetDatasAsync(MachineDataType.Address, dic1); var ans = await _siemensTcpMachine.GetDatasAsync(MachineDataType.Address); var ans2 = await _siemensPpiMachine.GetDatasAsync(MachineDataType.Address); Assert.AreEqual(ans.Datas["DB1 0.0"].DeviceValue, dic1["DB1 0.0"]); Assert.AreEqual(ans2.Datas["DB1 0.0"].DeviceValue, dic1["DB1 0.0"]); } [TestMethod] public async Task SiemensDbMultiple() { Random r = new Random(); var addresses = new List { new AddressUnit { Id = "0", Area = "DB1", Address = 2, SubAddress = 0, CommunicationTag = "A1", DataType = typeof(ushort) }, new AddressUnit { Id = "1", Area = "DB1", Address = 4, SubAddress = 0, CommunicationTag = "A2", DataType = typeof(ushort) }, new AddressUnit { Id = "2", Area = "DB1", Address = 6, SubAddress = 0, CommunicationTag = "A3", DataType = typeof(ushort) }, new AddressUnit { Id = "3", Area = "DB1", Address = 8, SubAddress = 0, CommunicationTag = "A4", DataType = typeof(ushort) }, new AddressUnit { Id = "4", Area = "DB1", Address = 10, SubAddress = 0, CommunicationTag = "A5", DataType = typeof(uint) }, new AddressUnit { Id = "5", Area = "DB1", Address = 14, SubAddress = 0, CommunicationTag = "A6", DataType = typeof(uint) } }; var dic1 = new Dictionary() { { "A1", r.Next(0, UInt16.MaxValue) }, { "A2", r.Next(0, UInt16.MaxValue) }, { "A3", r.Next(0, UInt16.MaxValue) }, { "A4", r.Next(0, UInt16.MaxValue) }, { "A5", r.Next() }, { "A6", r.Next() }, }; _siemensTcpMachine!.GetAddresses = addresses; _siemensPpiMachine!.GetAddresses = addresses; await _siemensTcpMachine.SetDatasAsync(MachineDataType.CommunicationTag, dic1); await _siemensPpiMachine.SetDatasAsync(MachineDataType.CommunicationTag, dic1); var ans = await _siemensTcpMachine.GetDatasAsync(MachineDataType.CommunicationTag); var ans2 = await _siemensPpiMachine.GetDatasAsync(MachineDataType.CommunicationTag); Assert.AreEqual(ans.Datas["A1"].DeviceValue, dic1["A1"]); Assert.AreEqual(ans.Datas["A2"].DeviceValue, dic1["A2"]); Assert.AreEqual(ans.Datas["A3"].DeviceValue, dic1["A3"]); Assert.AreEqual(ans.Datas["A4"].DeviceValue, dic1["A4"]); Assert.AreEqual(ans.Datas["A5"].DeviceValue, dic1["A5"]); Assert.AreEqual(ans.Datas["A6"].DeviceValue, dic1["A6"]); Assert.AreEqual(ans2.Datas["A1"].DeviceValue, dic1["A1"]); Assert.AreEqual(ans2.Datas["A2"].DeviceValue, dic1["A2"]); Assert.AreEqual(ans2.Datas["A3"].DeviceValue, dic1["A3"]); Assert.AreEqual(ans2.Datas["A4"].DeviceValue, dic1["A4"]); Assert.AreEqual(ans2.Datas["A5"].DeviceValue, dic1["A5"]); Assert.AreEqual(ans2.Datas["A6"].DeviceValue, dic1["A6"]); } [TestCleanup] public void MachineClean() { _siemensTcpMachine!.Disconnect(); _siemensPpiMachine!.Disconnect(); } } }