/// <summary>
/// Clears and test related state.
/// </summary>
private void ClearState()
{
// Put Hyper-V into a known state by ensuring that any test related assets
// left over from a previous run are removed.
using (var hyperv = new HyperVClient())
{
if (hyperv.GetVm(machineName: TestMachineName1) != null)
{
hyperv.StopVm(TestMachineName1, turnOff: true);
hyperv.RemoveVm(TestMachineName1);
}
if (hyperv.GetVm(machineName: TestMachineName2) != null)
{
hyperv.StopVm(TestMachineName2, turnOff: true);
hyperv.RemoveVm(TestMachineName2);
}
if (hyperv.GetSwitch(switchName: TestSwitchName) != null)
{
hyperv.RemoveSwitch(TestSwitchName);
}
NeonHelper.DeleteFile(test1VhdxPath);
NeonHelper.DeleteFile(test2VhdxPath);
}
}
/// <inheritdoc/>
public async Task <GrpcGetVmReply> GetVmAsync(GrpcGetVmRequest request, CallContext context = default)
{
await SyncContext.Clear;
try
{
return(new GrpcGetVmReply(machine: hyperv.GetVm(request.MachineName).ToProto()));
}
catch (Exception e)
{
return(new GrpcGetVmReply(e));
}
}
/// <summary>
/// Gets the current status for a named virtual machine.
/// </summary>
/// <param name="machineName">The machine name.</param>
/// <returns>The <see cref="VirtualMachine"/> or <c>null</c> when the virtual machine doesn't exist..</returns>
public VirtualMachine GetVm(string machineName)
{
if (isAdmin)
{
return(hypervClient.GetVm(machineName: machineName));
}
else
{
var request = new GrpcGetVmRequest(machineName: machineName);
var reply = desktopService.GetVmAsync(request).Result;
reply.Error.EnsureSuccess();
return(reply.Machine.ToLocal());
}
}