SSPC-Tester/SSPCTester.Tests/It87xxLoadTests.cs
2026-07-12 12:07:41 +08:00

243 lines
8.3 KiB
C#

using System.Net;
using System.Net.Sockets;
using System.Text;
using Microsoft.Extensions.Logging.Abstractions;
using Microsoft.Extensions.Options;
using SSPCTester.Devices.Config;
using SSPCTester.Devices.Drivers.Real;
using SSPCTester.Devices.Interfaces;
namespace SSPCTester.Tests;
public sealed class It87xxLoadTests
{
[Fact]
public async Task CombinedQuery_ReadsVoltageCurrentAndPower()
{
var sync = new object();
var commands = new List<string>();
await using var server = await FakeScpiServer.StartAsync(command =>
{
lock (sync)
commands.Add(command);
return command switch
{
"*IDN?" => "ITECH,IT8702P,SN,1.0",
"SYST:REM" => FakeScpiServer.NoResponse,
"CHAN 1" => FakeScpiServer.NoResponse,
"FETC:VOLT?;:FETC:CURR?;:FETC:POW?" => "2.971700E+00;1.040000E+00;3.090000E+00",
"SYST:LOC" => FakeScpiServer.NoResponse,
_ => "0"
};
});
var driver = CreateDriver(server.Port, LoadQueryMode.Combined);
Assert.True(await driver.ConnectAsync());
var reading = await driver.ReadPowerAsync();
await driver.DisconnectAsync();
Assert.Equal(2.9717, reading.Volts, 6);
Assert.Equal(1.04, reading.Amps, 6);
Assert.Equal(3.09, reading.Watts, 6);
Assert.Contains("*IDN?", commands);
Assert.Contains("SYST:REM", commands);
Assert.Contains("CHAN 1", commands);
}
[Fact]
public async Task SeparateQuery_ReadsVoltageCurrentAndPower()
{
await using var server = await FakeScpiServer.StartAsync(command => command switch
{
"*IDN?" => "ITECH,IT8702P,SN,1.0",
"SYST:REM" => FakeScpiServer.NoResponse,
"CHAN 1" => FakeScpiServer.NoResponse,
"FETC:VOLT?" => "2.5",
"FETC:CURR?" => "1.2",
"FETC:POW?" => "3.0",
"SYST:LOC" => FakeScpiServer.NoResponse,
_ => "0"
});
var driver = CreateDriver(server.Port, LoadQueryMode.Separate);
Assert.True(await driver.ConnectAsync());
var reading = await driver.ReadPowerAsync();
Assert.Equal(2.5, reading.Volts, 6);
Assert.Equal(1.2, reading.Amps, 6);
Assert.Equal(3.0, reading.Watts, 6);
}
[Fact]
public async Task ControlCommands_SetCurrentAndReset()
{
var sync = new object();
var commands = new List<string>();
await using var server = await FakeScpiServer.StartAsync(command =>
{
lock (sync)
commands.Add(command);
return command switch
{
"*IDN?" => "ITECH,IT8702P,SN,1.0",
"SYST:REM" => FakeScpiServer.NoResponse,
"CHAN 1" => FakeScpiServer.NoResponse,
"CURR 1.25" => FakeScpiServer.NoResponse,
"INP?" => "0",
"*RST" => FakeScpiServer.NoResponse,
"SYST:LOC" => FakeScpiServer.NoResponse,
_ => "0"
};
});
var driver = CreateDriver(server.Port, LoadQueryMode.Combined);
Assert.True(await driver.ConnectAsync());
await driver.SetModeAsync(LoadMode.CC);
await driver.SetValueAsync(1.25);
Assert.False(await driver.GetInputStateAsync());
await driver.ResetAsync();
await driver.DisconnectAsync();
await WaitForCommandAsync("SYST:LOC");
string[] sentCommands;
lock (sync)
sentCommands = commands.ToArray();
Assert.Contains("CURR 1.25", sentCommands);
Assert.Contains("INP?", sentCommands);
Assert.Contains("*RST", sentCommands);
Assert.Equal(2, sentCommands.Count(x => x == "SYST:REM"));
Assert.Equal(2, sentCommands.Count(x => x == "CHAN 1"));
Assert.DoesNotContain("MODE CC", sentCommands);
async Task WaitForCommandAsync(string expected)
{
for (int i = 0; i < 20; i++)
{
lock (sync)
{
if (commands.Contains(expected))
return;
}
await Task.Delay(10);
}
}
}
[Theory]
[InlineData("ON", true)]
[InlineData("1", true)]
[InlineData("OFF", false)]
[InlineData("0", false)]
public void ParseSwitchState_AcceptsScpiValues(string response, bool expected) =>
Assert.Equal(expected, It87xxLoad.ParseSwitchState(response));
[Fact]
public async Task QueryFailure_MarksDisconnected()
{
await using var server = await FakeScpiServer.StartAsync(command => command switch
{
"*IDN?" => "ITECH,IT8702P,SN,1.0",
"SYST:REM" => FakeScpiServer.NoResponse,
"CHAN 1" => FakeScpiServer.NoResponse,
"FETC:VOLT?;:FETC:CURR?;:FETC:POW?" => FakeScpiServer.CloseConnection,
_ => "0"
});
var driver = CreateDriver(server.Port, LoadQueryMode.Combined);
Assert.True(await driver.ConnectAsync());
await Assert.ThrowsAsync<InvalidOperationException>(() => driver.ReadPowerAsync());
Assert.False(driver.IsConnected);
}
private static It87xxLoad CreateDriver(int port, LoadQueryMode queryMode)
{
var options = Options.Create(new DeviceOptions
{
Load = new LoadOptions
{
Host = IPAddress.Loopback.ToString(),
Port = port,
TimeoutSeconds = 1,
Channel = 1,
UseFetch = true,
QueryMode = queryMode
}
});
return new It87xxLoad(options, NullLogger<It87xxLoad>.Instance);
}
private sealed class FakeScpiServer : IAsyncDisposable
{
public const string NoResponse = "__NO_RESPONSE__";
public const string CloseConnection = "__CLOSE_CONNECTION__";
private readonly TcpListener _listener;
private readonly Func<string, string> _handler;
private readonly CancellationTokenSource _cts = new();
private readonly Task _loop;
private FakeScpiServer(TcpListener listener, Func<string, string> handler)
{
_listener = listener;
_handler = handler;
Port = ((IPEndPoint)listener.LocalEndpoint).Port;
_loop = Task.Run(AcceptLoopAsync);
}
public int Port { get; }
public static Task<FakeScpiServer> StartAsync(Func<string, string> handler)
{
var listener = new TcpListener(IPAddress.Loopback, 0);
listener.Start();
return Task.FromResult(new FakeScpiServer(listener, handler));
}
public async ValueTask DisposeAsync()
{
_cts.Cancel();
_listener.Stop();
try { await _loop; } catch { }
_cts.Dispose();
}
private async Task AcceptLoopAsync()
{
while (!_cts.IsCancellationRequested)
{
using var client = await _listener.AcceptTcpClientAsync(_cts.Token);
await using var stream = client.GetStream();
var buffer = new byte[1024];
var pending = "";
while (!_cts.IsCancellationRequested)
{
int read = await stream.ReadAsync(buffer, _cts.Token);
if (read <= 0) break;
pending += Encoding.ASCII.GetString(buffer, 0, read);
while (true)
{
int newline = pending.IndexOf('\n');
if (newline < 0)
break;
string command = pending[..newline].Trim();
pending = pending[(newline + 1)..];
if (string.IsNullOrEmpty(command))
continue;
string response = _handler(command);
if (response == CloseConnection) return;
if (response == NoResponse) continue;
byte[] payload = Encoding.ASCII.GetBytes(response + "\n");
await stream.WriteAsync(payload, _cts.Token);
await stream.FlushAsync(_cts.Token);
}
}
}
}
}
}