sharee.bike-App/TestShareeLib/ViewModel/Bikes/Bike/BluetoothLock/RequestHandler/TestBookedClosed.cs
2022-11-25 09:55:23 +01:00

1340 lines
52 KiB
C#

using System;
using System.Threading;
using System.Threading.Tasks;
using Newtonsoft.Json;
using NSubstitute;
using NUnit.Framework;
using TINK.Model;
using TINK.Model.Bikes.BikeInfoNS.BluetoothLock;
using TINK.Model.Connector;
using TINK.Model.Device;
using TINK.Model.State;
using TINK.Model.User;
using TINK.Repository.Exception;
using TINK.Repository.Request;
using TINK.Repository.Response;
using TINK.Services.BluetoothLock;
using TINK.Services.BluetoothLock.Exception;
using TINK.Services.BluetoothLock.Tdo;
using TINK.Services.Geolocation;
using TINK.View;
using TINK.ViewModel;
using TINK.ViewModel.Bikes;
using TINK.ViewModel.Bikes.Bike.BluetoothLock.RequestHandler;
namespace TestTINKLib.Fixtures.ObjectTests.ViewModel.Bikes.Bike.BluetoothLock.RequestHandler
{
[TestFixture]
public class TestBookedClosed
{
/// <summary>
/// Test construction of object.
/// </summary>
[Test]
public void Testctor()
{
var handler = new BookedClosed(
Substitute.For<IBikeInfoMutable>(),
() => true, // isConnectedDelegate
(isConnexted) => Substitute.For<IConnector>(),
Substitute.For<IGeolocation>(),
Substitute.For<ILocksService>(),
() => Substitute.For<IPollingUpdateTaskManager>(),
Substitute.For<ISmartDevice>(),
Substitute.For<IViewService>(),
Substitute.For<IBikesViewModel>(),
Substitute.For<IUser>());
// Verify prerequisites.
//Assert.AreEqual("Return bike", handler.ButtonText);
//Assert.IsTrue(handler.IsButtonVisible);
Assert.AreEqual("Open lock", handler.LockitButtonText);
Assert.IsTrue(handler.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Return bike.
/// Comment: User deceide to abort returning bike
/// Final state: Same as initial state.
/// </summary>
[Test]
public void TestReturnCancel()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
bike.Id.Returns("0");
viewService.DisplayAlert(string.Empty, "Return bike Nr. 0?", "Yes", "No").Returns(Task.FromResult(false));
var subsequent = handler.HandleRequestOption1().Result;
locks.DidNotReceive().DisconnectAsync(Arg.Any<int>(), Arg.Any<Guid>());
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
viewService.DisplayAlert(string.Empty, "Return bike Nr. 0?", "Yes", "No");
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state after action
//Assert.AreEqual("Return bike", subsequent.ButtonText);
//Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("Open lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Return bike.
/// Final state: Disposable closed
/// </summary>
[Test]
public void TestReturnOutOfReach()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
bike.Id.Returns("0");
viewService.DisplayAlert(string.Empty, "Return bike Nr. 0?", "Yes", "No").Returns(Task.FromResult(true));
locks[0].GetDeviceState().Returns(DeviceState.Disconnected); // Simulate bike out of reach.
bike.State.Value.Returns(InUseStateEnum.Disposable); // Reqesthandler factory queries state to create appropriate request handler object.
var subsequent = handler.HandleRequestOption1().Result;
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "Returning bike...";
connector.Command.DoReturn(bike, Arg.Is<LocationDto>(x => x == null));
bikesViewModel.ActionText = "Disconnecting lock...";
locks.DisconnectAsync(Arg.Any<int>(), Arg.Any<Guid>());
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state after action
Assert.AreEqual("Reserve bike", subsequent.ButtonText);
Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("DisposableDisconnected", subsequent.LockitButtonText);
Assert.IsFalse(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Return bike.
/// Final state: Disposable closed
/// </summary>
[Test]
public void TestReturnLockInReach()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
bike.Id.Returns("0");
viewService.DisplayAlert(string.Empty, "Return bike Nr. 0?", "Yes", "No").Returns(Task.FromResult(true));
locks[0].GetDeviceState().Returns(DeviceState.Connected); // Simulate bike in reach. If bike is out of reach bluetooth state changes to unknown.
geolocation.GetAsync(Arg.Any<CancellationToken?>(), Arg.Any<DateTime>()).Returns(Task.FromResult(
new Xamarin.Essentials.Location(7, 9)
));
bike.State.Value.Returns(InUseStateEnum.Disposable); // Reqesthandler factory queries state to create appropriate request handler object.
bike.LockInfo.State.Returns(LockingState.Closed); // Requsthandler factory queries lock state to create appropriate request handler object.
var subsequent = handler.HandleRequestOption1().Result;
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
geolocation.GetAsync(Arg.Any<CancellationToken?>(), Arg.Any<DateTime>());
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "Query location...";
bikesViewModel.ActionText = "Returning bike...";
connector.Command.DoReturn(bike, Arg.Is<LocationDto>(x => x != null));
bikesViewModel.ActionText = "Disconnecting lock...";
locks.DisconnectAsync(Arg.Any<int>(), Arg.Any<Guid>());
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state after action
Assert.AreEqual("Reserve bike", subsequent.ButtonText);
Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("DisposableDisconnected", subsequent.LockitButtonText);
Assert.IsFalse(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Return bike.
/// Final state: Disposable closed
/// </summary>
[Test]
public void TestReturnLockInReachNoGeolocation()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
bike.Id.Returns("0");
viewService.DisplayAlert(string.Empty, "Return bike Nr. 0?", "Yes", "No").Returns(Task.FromResult(true));
locks[0].GetDeviceState().Returns(DeviceState.Connected); // Simulate bike in reach. If bike is out of reach bluetooth state changes to unknown.
geolocation.GetAsync(Arg.Any<CancellationToken?>(), Arg.Any<DateTime>()).Returns<Xamarin.Essentials.Location>(x => throw new Exception());
bike.State.Value.Returns(InUseStateEnum.Disposable); // Reqesthandler factory queries state to create appropriate request handler object.
bike.LockInfo.State.Returns(LockingState.Closed); // Requsthandler factory queries lock state to create appropriate request handler object.
var subsequent = handler.HandleRequestOption1().Result;
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
geolocation.GetAsync(Arg.Any<CancellationToken?>(), Arg.Any<DateTime>());
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "Query location...";
bikesViewModel.ActionText = "Returning bike...";
connector.Command.DoReturn(bike, Arg.Is<LocationDto>(x => x == null));
bikesViewModel.ActionText = "Disconnecting lock...";
locks.DisconnectAsync(Arg.Any<int>(), Arg.Any<Guid>());
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state after action
Assert.AreEqual("Reserve bike", subsequent.ButtonText);
Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("DisposableDisconnected", subsequent.LockitButtonText);
Assert.IsFalse(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Return bike.
/// Final state: Same as initial state.
/// </summary>
[Test]
public void TestReturnReturnFailsWebConnectFailureException()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
bike.Id.Returns("0");
viewService.DisplayAlert(string.Empty, "Return bike Nr. 0?", "Yes", "No").Returns(Task.FromResult(true));
locks[0].GetDeviceState().Returns(DeviceState.Connected); // Simulate bike in reach. If bike is out of reach bluetooth state changes to unknown.
connector.Command.DoReturn(bike, Arg.Any<LocationDto>()).Returns<BookingFinishedModel>(x => throw new WebConnectFailureException("Context info", new Exception("hoppla")));
bike.State.Value.Returns(InUseStateEnum.Booked); // Reqesthandler factory queries state to create appropriate request handler object.
bike.LockInfo.State.Returns(LockingState.Closed); // Requsthandler factory queries lock state to create appropriate request handler object.
var subsequent = handler.HandleRequestOption1().Result;
locks.DidNotReceive().DisconnectAsync(Arg.Any<int>(), Arg.Any<Guid>());
locks.DidNotReceive().DisconnectAsync(Arg.Any<int>(), Arg.Any<Guid>());
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "Returning bike...";
connector.Command.DoReturn(bike, Arg.Any<LocationDto>());
bikesViewModel.ActionText = "";
viewService.DisplayAdvancedAlert(
"Connection error when returning the bike!",
"Internet must be available when returning the bike.\r\nIs WIFI available/ mobile network available and mobile data activated / ... ?",
"Context info",
"OK");
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state after action
//Assert.AreEqual("Return bike", subsequent.ButtonText);
//Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("Open lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Return bike.
/// Final state: Same as initial state.
/// </summary>
[Test]
public void TestReturnReturnFailsNotAtStationException()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
bike.Id.Returns("0");
viewService.DisplayAlert(string.Empty, "Return bike Nr. 0?", "Yes", "No").Returns(Task.FromResult(true));
locks[0].GetDeviceState().Returns(DeviceState.Connected); // Simulate bike in reach. If bike is out of reach bluetooth state changes to unknown.
NotAtStationException.IsNotAtStation("Failure 2178: bike 1545 out of GEO fencing. 15986 meter distance to next station 42. OK: bike 1545 locked confirmed", out NotAtStationException notAtStationException);
connector.Command.DoReturn(bike, Arg.Any<LocationDto>()).Returns<BookingFinishedModel>(x =>
throw notAtStationException);
bike.State.Value.Returns(InUseStateEnum.Booked); // Reqesthandler factory queries state to create appropriate request handler object.
bike.LockInfo.State.Returns(LockingState.Closed); // Requsthandler factory queries lock state to create appropriate request handler object.
var subsequent = handler.HandleRequestOption1().Result;
locks.DidNotReceive().DisconnectAsync(Arg.Any<int>(), Arg.Any<Guid>());
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "Returning bike...";
connector.Command.DoReturn(bike, Arg.Any<LocationDto>());
bikesViewModel.ActionText = "";
viewService.DisplayAlert("Error returning bike!", "Returning bike outside of station is not possible. Distance to station 42 is 15986 m.", "OK");
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state after action
//Assert.AreEqual("Return bike", subsequent.ButtonText);
//Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("Open lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Return bike.
/// Final state: Same as initial state.
/// </summary>
[Test]
public void TestReturnReturnFailsNoGPSDataException()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
bike.Id.Returns("0");
viewService.DisplayAlert(string.Empty, "Return bike Nr. 0?", "Yes", "No").Returns(Task.FromResult(true));
locks[0].GetDeviceState().Returns(DeviceState.Connected); // Simulate bike in reach. If bike is out of reach bluetooth state changes to unknown.
NoGPSDataException.IsNoGPSData("Failure 2245: No GPS data, state change forbidden.", out NoGPSDataException noGPSDataException);
connector.Command.DoReturn(bike, Arg.Any<LocationDto>()).Returns<BookingFinishedModel>(x =>
throw noGPSDataException);
bike.State.Value.Returns(InUseStateEnum.Booked); // Reqesthandler factory queries state to create appropriate request handler object.
bike.LockInfo.State.Returns(LockingState.Closed); // Requsthandler factory queries lock state to create appropriate request handler object.
var subsequent = handler.HandleRequestOption1().Result;
locks.DidNotReceive().DisconnectAsync(Arg.Any<int>(), Arg.Any<Guid>());
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "Returning bike...";
connector.Command.DoReturn(bike, Arg.Any<LocationDto>());
bikesViewModel.ActionText = "";
viewService.DisplayAlert("Error returning bike!", "Returning bike at an unknown location is not possible.\r\nBike can be returned if\r\n- location information is available when closing lock\r\n- bike is in reach and location information is available when pressing button \"Return bike\"", "OK");
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state after action
//Assert.AreEqual("Return bike", subsequent.ButtonText);
//Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("Open lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Return bike.
/// Final state: Same as initial state.
/// </summary>
[Test]
public void TestReturnReturnFailsResponseException()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
bike.Id.Returns("0");
viewService.DisplayAlert(string.Empty, "Return bike Nr. 0?", "Yes", "No").Returns(Task.FromResult(true));
locks[0].GetDeviceState().Returns(DeviceState.Connected); // Simulate bike in reach. If bike is out of reach bluetooth state changes to unknown.
connector.Command.DoReturn(bike, Arg.Any<LocationDto>()).Returns<BookingFinishedModel>(x =>
throw new ReturnBikeException(JsonConvert.DeserializeObject<DoReturnResponse>(@"{ ""response_text"" : ""Some invalid data received!""}"), "Outer message."));
bike.State.Value.Returns(InUseStateEnum.Booked); // Reqesthandler factory queries state to create appropriate request handler object.
bike.LockInfo.State.Returns(LockingState.Closed); // Requsthandler factory queries lock state to create appropriate request handler object.
var subsequent = handler.HandleRequestOption1().Result;
locks.DidNotReceive().DisconnectAsync(Arg.Any<int>(), Arg.Any<Guid>());
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "Returning bike...";
connector.Command.DoReturn(bike, Arg.Any<LocationDto>());
bikesViewModel.ActionText = "";
viewService.DisplayAdvancedAlert("Statusfehler beim Zurückgeben des Rads!", "Outer message.", "Some invalid data received!", "OK");
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state after action
//Assert.AreEqual("Return bike", subsequent.ButtonText);
//Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("Open lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Return bike.
/// Final state: Same as initial state.
/// </summary>
[Test]
public void TestReturnReturnFailsException()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
bike.Id.Returns("0");
viewService.DisplayAlert(string.Empty, "Return bike Nr. 0?", "Yes", "No").Returns(Task.FromResult(true));
locks[0].GetDeviceState().Returns(DeviceState.Connected); // Simulate bike in reach. If bike is out of reach bluetooth state changes to unknown.
connector.Command.DoReturn(bike, Arg.Any<LocationDto>()).Returns<BookingFinishedModel>(x => throw new Exception("Exception message."));
bike.State.Value.Returns(InUseStateEnum.Booked); // Reqesthandler factory queries state to create appropriate request handler object.
bike.LockInfo.State.Returns(LockingState.Closed); // Requsthandler factory queries lock state to create appropriate request handler object.
var subsequent = handler.HandleRequestOption1().Result;
locks.DidNotReceive().DisconnectAsync(Arg.Any<int>(), Arg.Any<Guid>());
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "Returning bike...";
connector.Command.DoReturn(bike, Arg.Any<LocationDto>());
bikesViewModel.ActionText = "";
viewService.DisplayAlert("Error returning bike!", "Exception message.", "OK");
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state after action
//Assert.AreEqual("Return bike", subsequent.ButtonText);
//Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("Open lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Open lock
/// Final state: Booked opened.
/// </summary>
[Test]
public void TestOpen()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
locks[0].OpenAsync()
.Returns(Task.FromResult((LockitLockingState?)LockitLockingState.Open)); // Return lock state indicating success
bike.State.Value.Returns(InUseStateEnum.Booked);
var subsequent = handler.HandleRequestOption2().Result;
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "<h4><b>Lock is opening.<br/>Please wait until it is completely open.</b></h4>";
locks.Received()[0].OpenAsync(); // Lock must be closed
bikesViewModel.ActionText = "Reading charging level...";
locks[0].GetBatteryPercentageAsync();
bikesViewModel.ActionText = "Updating lock state...";
connector.Command.UpdateLockingStateAsync(bike, null);
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state "Booked Open" after action
Assert.AreEqual("Close lock & return bike", subsequent.ButtonText);
Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("Close lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Open lock
/// Final state: Same as initial state.
/// </summary>
[Test]
public void TestOpenOpenFailsOutOfReachException()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
locks[0].OpenAsync()
.Returns<Task<LockitLockingState?>>(x => throw new OutOfReachException());
bike.State.Value.Returns(InUseStateEnum.Booked);
bike.LockInfo.State.Returns(LockingState.Closed);
var subsequent = handler.HandleRequestOption2().Result;
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "<h4><b>Lock is opening.<br/>Please wait until it is completely open.</b></h4>";
locks.Received()[0].OpenAsync(); // Lock must be closed
bikesViewModel.ActionText = "";
viewService.DisplayAlert("Error while opening lock!", "Lock cannot be opened until bike is near.", "OK");
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state "Booked Disconnected" after action
Assert.AreEqual(nameof(BookedDisconnected), subsequent.ButtonText);
Assert.IsFalse(subsequent.IsButtonVisible);
Assert.AreEqual("Search lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Open lock
/// Final state: Same as initial state.
/// </summary>
[Test]
public void TestOpenOpenFailsCouldntOpenBoldBlockedException()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
locks[0].OpenAsync()
.Returns<Task<LockitLockingState?>>(x => throw new CouldntOpenBoldIsBlockedException());
bike.State.Value.Returns(InUseStateEnum.Booked);
bike.LockInfo.State.Returns(LockingState.Closed);
var subsequent = handler.HandleRequestOption2().Result;
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "<h4><b>Lock is opening.<br/>Please wait until it is completely open.</b></h4>";
locks.Received()[0].OpenAsync(); // Lock must be closed
bikesViewModel.ActionText = "";
viewService.DisplayAlert("Error while opening lock!", "Lock is blocked. Please ensure that no obstacle prevents lock from opening and try again.", "OK");
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state "Booked Unknown" after action
Assert.AreEqual("Open lock", subsequent.ButtonText);
Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("Close lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Open lock
/// Final state: Same as initial state.
/// </summary>
[Test]
public void TestOpenOpenFailsCouldntOpenInconsistentStateExecptionClosed()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
locks[0].OpenAsync()
.Returns<Task<LockitLockingState?>>(x => throw new CouldntOpenInconsistentStateExecption(LockingState.Closed));
bike.State.Value.Returns(InUseStateEnum.Booked);
bike.LockInfo.State.Returns(LockingState.Closed);
var subsequent = handler.HandleRequestOption2().Result;
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "<h4><b>Lock is opening.<br/>Please wait until it is completely open.</b></h4>";
locks.Received()[0].OpenAsync(); // Lock must be closed
bikesViewModel.ActionText = "";
viewService.DisplayAlert("Error while opening lock!", "After try to open lock state closed is reported.", "OK");
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state "Booked Closed" after action
Assert.AreEqual("Return bike", subsequent.ButtonText);
Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("Open lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Open lock
/// Final state: Same as initial state.
/// </summary>
[Test]
public void TestOpenOpenFailsCouldntOpenInconsistentStateExecption()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
locks[0].OpenAsync()
.Returns<Task<LockitLockingState?>>(x => throw new CouldntOpenBoldWasBlockedException());
bike.State.Value.Returns(InUseStateEnum.Booked);
bike.LockInfo.State.Returns(LockingState.Closed);
var subsequent = handler.HandleRequestOption2().Result;
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "<h4><b>Lock is opening.<br/>Please wait until it is completely open.</b></h4>";
locks.Received()[0].OpenAsync(); // Lock must be closed
bikesViewModel.ActionText = "";
viewService.DisplayAlert("Lock can not be opened!", "Lock was blocked and might still be. Please ensure that no obstacle prevents lock from opening and try again.", "OK");
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state "Booked Disconnected" after action
Assert.AreEqual("Open lock", subsequent.ButtonText);
Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("Close lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Open lock
/// Final state: Same as initial state.
/// </summary>
[Test]
public void TestOpenOpenFailsException()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
locks[0].OpenAsync()
.Returns<Task<LockitLockingState?>>(x => throw new Exception("Exception message."));
bike.State.Value.Returns(InUseStateEnum.Booked);
bike.LockInfo.State.Returns(LockingState.Closed);
var subsequent = handler.HandleRequestOption2().Result;
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "<h4><b>Lock is opening.<br/>Please wait until it is completely open.</b></h4>";
locks.Received()[0].OpenAsync(); // Lock must be closed
bikesViewModel.ActionText = "";
viewService.DisplayAlert("Error while opening lock!", "Exception message.", "OK");
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state "Booked Disconnected" after action
Assert.AreEqual(nameof(BookedDisconnected), subsequent.ButtonText);
Assert.IsFalse(subsequent.IsButtonVisible);
Assert.AreEqual("Search lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Open lock
/// Final state: Booked opened.
/// </summary>
[Test]
public void TestOpenGetBatteryPercentageAsyncThrowsOutOfReachException()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
locks[0].OpenAsync()
.Returns(Task.FromResult((LockitLockingState?)LockitLockingState.Open)); // Return lock state indicating success
locks[0].GetBatteryPercentageAsync().Returns<Task<double>>(x => throw new OutOfReachException());
bike.State.Value.Returns(InUseStateEnum.Booked);
var subsequent = handler.HandleRequestOption2().Result;
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "<h4><b>Lock is opening.<br/>Please wait until it is completely open.</b></h4>";
locks.Received()[0].OpenAsync(); // Lock must be closed
bikesViewModel.ActionText = "Reading charging level...";
locks[0].GetBatteryPercentageAsync();
bikesViewModel.ActionText = "Battery status can only be read when bike is nearby.";
bikesViewModel.ActionText = "Updating lock state...";
connector.Command.UpdateLockingStateAsync(bike, null);
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state "Booked Open" after action
Assert.AreEqual("Close lock & return bike", subsequent.ButtonText);
Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("Close lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Open lock
/// Final state: Booked opened.
/// </summary>
[Test]
public void TestOpenGetBatteryPercentageAsyncThrowsExcepton()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
locks[0].OpenAsync()
.Returns(Task.FromResult((LockitLockingState?)LockitLockingState.Open)); // Return lock state indicating success
locks[0].GetBatteryPercentageAsync().Returns<Task<double>>(x => throw new Exception());
bike.State.Value.Returns(InUseStateEnum.Booked);
var subsequent = handler.HandleRequestOption2().Result;
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "<h4><b>Lock is opening.<br/>Please wait until it is completely open.</b></h4>";
locks.Received()[0].OpenAsync(); // Lock must be closed
bikesViewModel.ActionText = "Reading charging level...";
locks[0].GetBatteryPercentageAsync();
bikesViewModel.ActionText = "Battery status cannot be read.";
bikesViewModel.ActionText = "Updating lock state...";
connector.Command.UpdateLockingStateAsync(bike, null);
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state "Booked Closed" after action
Assert.AreEqual("Close lock & return bike", subsequent.ButtonText);
Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("Close lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Open lock
/// Final state: Booked open.
/// </summary>
[Test]
public void TestOpenUpdateLockingStateFailsWebConnectFailureException()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
locks[0].OpenAsync()
.Returns(LockitLockingState.Open);
connector.Command.UpdateLockingStateAsync(bike, null).Returns(x => throw new WebConnectFailureException("Context info", new System.Exception("hoppla")));
bike.State.Value.Returns(InUseStateEnum.Booked);
bike.LockInfo.State.Returns(LockingState.Open);
var subsequent = handler.HandleRequestOption2().Result;
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "<h4><b>Lock is opening.<br/>Please wait until it is completely open.</b></h4>";
locks.Received()[0].OpenAsync(); // Lock must be closed
bikesViewModel.ActionText = "Reading charging level...";
locks[0].GetBatteryPercentageAsync();
bikesViewModel.ActionText = "Updating lock state...";
connector.Command.UpdateLockingStateAsync(bike, null);
bikesViewModel.ActionText = "No web error on updating locking status.";
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state "Booked Open" after action
Assert.AreEqual("Close lock & return bike", subsequent.ButtonText);
Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("Close lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Open lock
/// Final state: Booked open.
/// </summary>
[Test]
public void TestOpenUpdateLockingStateFailsException()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
locks[0].OpenAsync()
.Returns(LockitLockingState.Open);
connector.Command.UpdateLockingStateAsync(bike, Arg.Any<LocationDto>()).Returns(x => throw new Exception("Exception message."));
bike.State.Value.Returns(InUseStateEnum.Booked);
bike.LockInfo.State.Returns(LockingState.Open);
var subsequent = handler.HandleRequestOption2().Result;
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "<h4><b>Lock is opening.<br/>Please wait until it is completely open.</b></h4>";
locks.Received()[0].OpenAsync(); // Lock must be closed
bikesViewModel.ActionText = "Reading charging level...";
locks[0].GetBatteryPercentageAsync();
bikesViewModel.ActionText = "Updating lock state...";
connector.Command.UpdateLockingStateAsync(bike, Arg.Any<LocationDto>());
bikesViewModel.ActionText = "Connection error on updating locking status.";
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state "Booked Open" after action
Assert.AreEqual("Close lock & return bike", subsequent.ButtonText);
Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("Close lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
/// <summary>
/// Use case: Open lock
/// Final state: Booked open.
/// </summary>
[Test]
public void TestOpenUpdateLockingStateFailsResponseException()
{
var bike = Substitute.For<IBikeInfoMutable>();
var connector = Substitute.For<IConnector>();
var command = Substitute.For<ICommand>();
var geolocation = Substitute.For<IGeolocation>();
var locks = Substitute.For<ILocksService>();
var pollingManager = Substitute.For<IPollingUpdateTaskManager>();
var viewService = Substitute.For<IViewService>();
var bikesViewModel = Substitute.For<IBikesViewModel>();
var activeUser = Substitute.For<IUser>();
var handler = new BookedClosed(
bike,
() => true, // isConnectedDelegate
(isConnexted) => connector,
geolocation,
locks,
() => pollingManager,
Substitute.For<ISmartDevice>(),
viewService,
bikesViewModel,
activeUser);
locks[0].OpenAsync()
.Returns(LockitLockingState.Open);
connector.Command.UpdateLockingStateAsync(bike, Arg.Any<LocationDto>()).Returns(x =>
throw new ReturnBikeException(JsonConvert.DeserializeObject<DoReturnResponse>(@"{ ""response_text"" : ""Some invalid data received!""}"), "Outer message."));
bike.State.Value.Returns(InUseStateEnum.Booked);
bike.LockInfo.State.Returns(LockingState.Open);
var subsequent = handler.HandleRequestOption2().Result;
// Verify behaviour
Received.InOrder(() =>
{
bikesViewModel.Received(1).IsIdle = false; // GUI must be locked
bikesViewModel.ActionText = "One moment please...";
pollingManager.StopUpdatePeridically(); // Polling must be stopped before any COPR and lock service action
bikesViewModel.ActionText = "<h4><b>Lock is opening.<br/>Please wait until it is completely open.</b></h4>";
locks.Received()[0].OpenAsync(); // Lock must be closed
bikesViewModel.ActionText = "Reading charging level...";
locks[0].GetBatteryPercentageAsync();
bikesViewModel.ActionText = "Updating lock state...";
connector.Command.UpdateLockingStateAsync(bike, Arg.Any<LocationDto>());
bikesViewModel.ActionText = "Status error on updating lock state.";
bikesViewModel.ActionText = "Updating...";
pollingManager.StartUpdateAyncPeridically(); // polling must be restarted again
bikesViewModel.ActionText = "";
bikesViewModel.Received(1).IsIdle = true; // GUI must be unlocked
});
// Verify state "Booked Open" after action
Assert.AreEqual("Close lock & return bike", subsequent.ButtonText);
Assert.IsTrue(subsequent.IsButtonVisible);
Assert.AreEqual("Close lock", subsequent.LockitButtonText);
Assert.IsTrue(subsequent.IsLockitButtonVisible);
}
}
}