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Drivers and Multi-Threading
Drivers and Multi-Threading

Client applications that use ASCOM drivers are becoming increasingly sophisticated in their use of multiple threads to provide a comprehensive and responsive user experience. This being the case, drivers authors have to ensure that their drivers will perform well if used by such applications. So, what does this mean for a driver author?

The key question to ask yourself is what will happen if two or more of your properties or methods are called at the same time? For each of these you should be clear about whether it can function independently or whether it has dependencies. In many cases the communication channel to the hardware that you are driving will be such a dependency and this will definitely be the case if you use a serial port as these can generally do just one thing at a time!

The ASCOM Serial component has a measure of protection built in which prevents multiple simultaneous use of the serial port by multi-threaded applications when using its transmit and receive mehtods. This however is unlikely to be sufficient for your needs as in many cases you will need to transmit something to your device and then wait for its reply while blocking any attempts by other threads to interrupt your "transmit - receive" transaction.

In the .NET world there are a variety of mechanics including Mutexes, Monitors and Semaphores each with its own pros and cons. Mutexes are a good place to start if you are unsure. In other languages you will need to check out what synchronisation features are provided.

The example below shows how to protect a transmit - receive transaction with a mutex. The key synchronisation lines are SerMutex.WaitOne and SerMutex.ReleaseMutex in the SerialWorker class. The rest of the code is to create the multiple threads in order to demonstrate that the mutex works! If you do try this out you should find that each command receives the response that it is expecting. If you comment out the two SerMutex lines, you will find that from time to time a thread will pick up the response from another thread because that second thread just happend to get in between the SerPort.Transmit and SerPort.ReceiveTerminated commands of the first thread.

This is impossible when the mutexes are in place because although the seond thread starts, it gets hung up on its SerMutex.WaitOne until the first thread releases the mutex.

CommandString and CommandBool are specific (but are unlikely to be the only cases) where you should use synchronisation to ensure that you get the correct response to the command that you sent.

ASCOM Serial Threading Examples
                  'This example is advanced and demonstrates in the SerWorker class how to use a Mutex to protect
'a serial transmit - receive transaction. Sub ThreadingExample is the main controller that starts the threads

'To run this example you will need to customise the serial portname for the device that you are talking to
'and the commands and expected responses. The example commands and responses are for the Gemini level 4 controller

'Main thread class
Public Class SerialThreadingExamples

    'This example starts three threads t1 to 3 each running an instanace of the SerWorker class, SerWorker1 to 3
    'Each SerWork instance has different values set for the command to be sent, the expected result and its instance number
    'A common serial port SerPort is created along with a common Mutex to synchronise access to the serial port
    'so that the threads will access the serial port one at a time.
    Sub ThreadingExample()
        'Define the threads and SerWorker instances
        Dim t1, t2, t3 As System.Threading.Thread
        Dim SerWorker1, SerWorker2, SerWorker3 As New SerialWorker

        'Create the Mutex, Serial Port and a trace logger instance to record the main thread output.
        Dim Mutex As New System.Threading.Mutex
        Dim SerPort As New ASCOM.Utilities.Serial
        Dim TLMain As New ASCOM.Utilities.TraceLogger("", "SerialMainThread")

            'Set up the  serial port and tracelogger
            SerPort.PortName = "COM1"
            SerPort.Connected = True
            TLMain.Enabled = True

            'Create the threads and point them at the three serworker instances
            t1 = New System.Threading.Thread(AddressOf SerWorker1.SerialWork)
            t2 = New System.Threading.Thread(AddressOf SerWorker2.SerialWork)
            t3 = New System.Threading.Thread(AddressOf SerWorker3.SerialWork)

            'Set up the commands and responses for the three serworker instances
            SerWorker1.Command = ":GVP#"
            SerWorker1.Response = "Losmandy Gemini#"
            SerWorker1.SerPort = SerPort
            SerWorker1.Instance = 1
            SerWorker1.SerMutex = Mutex

            SerWorker2.Command = ":GVN#"
            SerWorker2.Response = "4.10#"
            SerWorker2.SerPort = SerPort
            SerWorker2.Instance = 2
            SerWorker2.SerMutex = Mutex

            SerWorker3.Command = ":GV#"
            SerWorker3.Response = "410#"
            SerWorker3.SerPort = SerPort
            SerWorker3.Instance = 3
            SerWorker3.SerMutex = Mutex

            'Start the threads and wait a quarter of a second between each start

            'Now send this main thread to sleep for 5 seconds while the three worker threads do their work.
            'The 500 commands per worker take about 4 seconds in total to process so are finished before
            'the main thread wakes up from its 5 second sleep
            TLMain.LogMessage("SerialThread", "Starting sleep")
            TLMain.LogMessage("SerialThread", "Finished sleep")

            'Clean up the serial port and trace logger
            SerPort.Connected = False
            SerPort = Nothing
            TLMain.Enabled = False
            TLMain = Nothing
        Catch ex As Exception
            TLMain.LogMessage("SerialThread", "Exception " & ex.ToString)
        End Try
    End Sub
End Class

'Worker thread class
Public Class SerialWorker
    Public Command As String
    Public Response As String
    Public Instance As Integer
    Public SerPort As ASCOM.Utilities.Serial 'Serial port to use
    Public SerMutex As System.Threading.Mutex 'Semaphore to use 
    'Worker class that will run on a thread and undertake 500 transmit - receive transactions
    'checking each time that the received response is the expected response.
    Public Sub SerialWork()
        'Create a trace logger to log information
        Dim TL As New ASCOM.Utilities.TraceLogger("", "SerialThread " & Instance.ToString)
        Dim SerResponse As String

            'Enable the trace logger and report the given parameters
            TL.Enabled = True
            TL.LogMessage("Command", Command)
            TL.LogMessage("Response", Response)
            TL.LogMessage("Instance", Instance)

            For i = 1 To 500
                TL.LogStart("SerialThread " & Instance, "Loop " & i.ToString & " ")

                'Start the transaction by waiting until the mutex is granted
                'Now we have the mutex so send the command and wait for its response
                SerResponse = SerPort.ReceiveTerminated("#")
                'Release the mutex so the next thread can start

                'Log the response and compare it to what is expected.
                If SerResponse <> Response Then
                    TL.LogMessage("*****", "Response not what was expected: " & SerResponse & " " & Response)
                End If

        Catch ex As Exception
            TL.LogFinish(" " & ex.ToString)
        End Try

        'Clean up the trace logger
        Try : TL.Enabled = False : Catch : End Try
        Try : TL.Dispose() : Catch : End Try
        TL = Nothing

    End Sub
End Class