using Shouldly;
using Xunit;
using ZB.MOM.WW.OtOpcUa.Driver.FOCAS.Wire;
namespace ZB.MOM.WW.OtOpcUa.Driver.FOCAS.IntegrationTests.Series;
///
/// Dual-run companion to — exercises the same
/// fixed-tree scenarios through the pure-managed
/// instead of the shim/P-Invoke path. Proves both backends observe identical
/// state against the same focas-mock instance.
///
///
/// Scheduled for removal in Wire migration phase 3 (task #104) once the shim is
/// deleted — at that point only this class survives and becomes the canonical
/// fixed-tree integration test.
///
[Collection(FocasSimCollection.Name)]
public sealed class WireBackendTests
{
private readonly FocasSimFixture _fx;
public WireBackendTests(FocasSimFixture fx) => _fx = fx;
private const string DeviceHost = "focas://127.0.0.1:8193";
[Fact]
public async Task Identity_axes_and_dynamic_populate_via_wire_backend()
{
if (_fx.SkipReason is not null) Assert.Skip(_fx.SkipReason);
var ct = TestContext.Current.CancellationToken;
await _fx.LoadProfileAsync("FWLIB64", ct);
await _fx.PatchStateAsync(new
{
sysinfo = new
{
addinfo = 0, max_axis = 8, cnc_type = "M ", mt_type = "M ",
series = "30i ", version = "A1.0", axes = "3 ",
},
axis_names = new[] { "X", "Y", "Z" },
rddynamic2 = new
{
axis = 1, alarm = 0, prgnum = 1, prgmnum = 1, seqnum = 42,
actf = 1500, acts = 3200,
pos = new { absolute = 123456, machine = 123450, relative = 6, distance = 0 },
},
}, ct);
var driver = new FocasDriver(new FocasDriverOptions
{
Devices = [new FocasDeviceOptions(DeviceHost)],
Tags = [],
Probe = new FocasProbeOptions { Enabled = false },
FixedTree = new FocasFixedTreeOptions
{
Enabled = true,
PollInterval = TimeSpan.FromMilliseconds(100),
},
}, driverInstanceId: "focas-wire-identity", clientFactory: new WireFocasClientFactory());
await using (driver)
{
await driver.InitializeAsync("{}", ct);
await WaitFor(() =>
driver.GetDeviceState(DeviceHost) is { FixedTreeCache: not null }, TimeSpan.FromSeconds(5));
var state = driver.GetDeviceState(DeviceHost);
state.ShouldNotBeNull();
state.FixedTreeCache.ShouldNotBeNull();
state.FixedTreeCache.SysInfo.Series.ShouldStartWith("30i");
state.FixedTreeCache.Axes.Count.ShouldBe(3);
state.FixedTreeCache.Axes[0].Display.ShouldBe("X");
await WaitFor(() =>
state.LastFixedSnapshots.ContainsKey($"{DeviceHost}/Axes/X/AbsolutePosition"),
TimeSpan.FromSeconds(3));
state.LastFixedSnapshots[$"{DeviceHost}/Axes/X/AbsolutePosition"].ShouldBe(123456);
}
}
[Fact]
public async Task Program_and_operation_mode_populate_via_wire_backend()
{
if (_fx.SkipReason is not null) Assert.Skip(_fx.SkipReason);
var ct = TestContext.Current.CancellationToken;
await _fx.LoadProfileAsync("FWLIB64", ct);
await _fx.PatchStateAsync(new
{
sysinfo = new
{
addinfo = 0, max_axis = 8, cnc_type = "M ", mt_type = "M ",
series = "30i ", version = "A1.0", axes = "1 ",
},
axis_names = new[] { "X" },
rddynamic2 = new
{
axis = 1, alarm = 0, prgnum = 42, prgmnum = 42, seqnum = 100,
actf = 0, acts = 0,
pos = new { absolute = 0, machine = 0, relative = 0, distance = 0 },
},
program = new
{
current = 42, main = 42, sequence = 100, block_count = 17,
executing_path = "O0042.NC",
},
operation_mode = new { mode = 3 },
}, ct);
var driver = new FocasDriver(new FocasDriverOptions
{
Devices = [new FocasDeviceOptions(DeviceHost)],
Tags = [],
Probe = new FocasProbeOptions { Enabled = false },
FixedTree = new FocasFixedTreeOptions
{
Enabled = true,
PollInterval = TimeSpan.FromMilliseconds(100),
ProgramPollInterval = TimeSpan.FromMilliseconds(200),
},
}, driverInstanceId: "focas-wire-program", clientFactory: new WireFocasClientFactory());
await using (driver)
{
await driver.InitializeAsync("{}", ct);
await WaitFor(() =>
driver.GetDeviceState(DeviceHost) is { LastProgramInfo: not null },
TimeSpan.FromSeconds(5));
var snapshots = await driver.ReadAsync(
[$"{DeviceHost}/Program/Name",
$"{DeviceHost}/Program/ONumber",
$"{DeviceHost}/Program/BlockCount",
$"{DeviceHost}/OperationMode/Mode"], ct);
snapshots.ShouldAllBe(s => s.StatusCode == FocasStatusMapper.Good);
snapshots[0].Value!.ToString().ShouldStartWith("O0042");
Convert.ToInt32(snapshots[1].Value).ShouldBe(42);
Convert.ToInt32(snapshots[2].Value).ShouldBe(17);
Convert.ToInt32(snapshots[3].Value).ShouldBe(3);
}
}
[Fact]
public async Task Timers_populate_via_wire_backend()
{
if (_fx.SkipReason is not null) Assert.Skip(_fx.SkipReason);
var ct = TestContext.Current.CancellationToken;
await _fx.LoadProfileAsync("FWLIB64", ct);
await _fx.PatchStateAsync(new
{
axis_names = new[] { "X" },
timers = new
{
power_on = 3600,
operating = 7200,
cutting = 1800,
cycle = 120,
},
}, ct);
var driver = new FocasDriver(new FocasDriverOptions
{
Devices = [new FocasDeviceOptions(DeviceHost)],
Tags = [],
Probe = new FocasProbeOptions { Enabled = false },
FixedTree = new FocasFixedTreeOptions
{
Enabled = true,
PollInterval = TimeSpan.FromMilliseconds(100),
TimerPollInterval = TimeSpan.FromMilliseconds(200),
ProgramPollInterval = TimeSpan.Zero,
},
}, driverInstanceId: "focas-wire-timers", clientFactory: new WireFocasClientFactory());
await using (driver)
{
await driver.InitializeAsync("{}", ct);
await WaitFor(() =>
{
var state = driver.GetDeviceState(DeviceHost);
return state is not null && state.LastTimers.Count == 4;
}, TimeSpan.FromSeconds(5));
var snapshots = await driver.ReadAsync(
[$"{DeviceHost}/Timers/PowerOnSeconds",
$"{DeviceHost}/Timers/OperatingSeconds",
$"{DeviceHost}/Timers/CuttingSeconds",
$"{DeviceHost}/Timers/CycleSeconds"], ct);
snapshots.ShouldAllBe(s => s.StatusCode == FocasStatusMapper.Good);
Convert.ToDouble(snapshots[0].Value).ShouldBe(3600.0, tolerance: 1);
Convert.ToDouble(snapshots[1].Value).ShouldBe(7200.0, tolerance: 1);
Convert.ToDouble(snapshots[2].Value).ShouldBe(1800.0, tolerance: 1);
Convert.ToDouble(snapshots[3].Value).ShouldBe(120.0, tolerance: 1);
}
}
[Fact]
public async Task Spindle_load_and_max_rpm_populate_via_wire_backend()
{
if (_fx.SkipReason is not null) Assert.Skip(_fx.SkipReason);
var ct = TestContext.Current.CancellationToken;
await _fx.LoadProfileAsync("FWLIB64", ct);
await _fx.PatchStateAsync(new
{
axis_names = new[] { "X" },
spindle_names = new[] { "S1", "S2" },
spindle = new
{
load = new object[]
{
new { name = "S1", load = 56, speed = 3200 },
new { name = "S2", load = 12, speed = 1800 },
},
max_rpm = new[] { 6000, 4500 },
},
rddynamic2 = new
{
axis = 1, alarm = 0, prgnum = 1, prgmnum = 1, seqnum = 1,
actf = 0, acts = 0,
pos = new { absolute = 0, machine = 0, relative = 0, distance = 0 },
},
}, ct);
var driver = new FocasDriver(new FocasDriverOptions
{
Devices = [new FocasDeviceOptions(DeviceHost)],
Tags = [],
Probe = new FocasProbeOptions { Enabled = false },
FixedTree = new FocasFixedTreeOptions
{
Enabled = true,
PollInterval = TimeSpan.FromMilliseconds(100),
ProgramPollInterval = TimeSpan.Zero,
TimerPollInterval = TimeSpan.Zero,
},
}, driverInstanceId: "focas-wire-spindle", clientFactory: new WireFocasClientFactory());
await using (driver)
{
await driver.InitializeAsync("{}", ct);
await WaitFor(() =>
{
var state = driver.GetDeviceState(DeviceHost);
return state?.FixedTreeCache is { Capabilities.SpindleLoad: true, Capabilities.SpindleMaxRpm: true }
&& state.LastSpindleLoads.Count >= 2;
}, TimeSpan.FromSeconds(5));
var snapshots = await driver.ReadAsync(
[$"{DeviceHost}/Spindle/S1/Load",
$"{DeviceHost}/Spindle/S1/MaxRpm",
$"{DeviceHost}/Spindle/S2/Load",
$"{DeviceHost}/Spindle/S2/MaxRpm"], ct);
snapshots.ShouldAllBe(s => s.StatusCode == FocasStatusMapper.Good);
Convert.ToInt32(snapshots[0].Value).ShouldBe(56);
Convert.ToInt32(snapshots[1].Value).ShouldBe(6000);
Convert.ToInt32(snapshots[2].Value).ShouldBe(12);
Convert.ToInt32(snapshots[3].Value).ShouldBe(4500);
}
}
private static async Task WaitFor(Func pred, TimeSpan timeout)
{
var deadline = DateTime.UtcNow + timeout;
while (DateTime.UtcNow < deadline)
{
if (pred()) return;
await Task.Delay(50);
}
}
}