shown in Listing~\ref{lst:avmsg}. Detailed explanation about the message types
and according actions will be given in the following subsections.
-\begin{lstlisting}[label={lst:avmsg},caption={Available messages}]
+\begin{lstlisting}[language=Clean,label={lst:avmsg},caption={Available messages}]
:: MTaskId :== Int
:: MSDSId :== Int
:: MTaskFreeBytes :== Int
\glspl{SDS} and the size of the stack. Not all peripheral flags are shown for
brevity.
-\begin{lstlisting}[label={lst:devicespec},
+\begin{lstlisting}[language=Clean,label={lst:devicespec},
caption={Device specification for \gls{mTask}-\glspl{Task}}]
:: MTaskDeviceSpec =
{ haveLed :: Bool
}
\end{lstlisting}
+The code on the device generates the specification. When a device does not have
+a specific peripheral, the code will also not be on the device. In the
+interface file, the code for peripherals is always guarded by macros. Thus, if
+the peripheral is not there, the macro is set accordingly and the code will not
+be included. To illustrate this, Listings~\ref{lst:macro}-\ref{lst:macro3}
+show parts of the interface file and device specification generation function
+for the \emph{NodeMCU} microcontroller which only boasts a single analog pin
+and eight digital pins.
+
+\begin{minipage}{.49\textwidth}
+ \begin{lstlisting}[label={lst:macro},language=C,%
+ caption={Specification in the interface}]
+...
+#elif defined ARDUINO_ESP8266_NODEMCU
+#define APINS 1
+#define DPINS 8
+#define STACKSIZE 1024
+#define MEMSIZE 1024
+#define HAVELED 0
+#define HAVEHB 0
+
+#if APINS > 0
+void write_apin(uint8_t p, uint8_t v);
+uint8_t read_apin(uint8_t pin);
+#endif
+ \end{lstlisting}
+\end{minipage}
+\begin{minipage}{.49\textwidth}
+ \begin{lstlisting}[label={lst:macro3},language=C,%
+ caption={Actual generation}]
+...
+void spec_send(void) {
+ write_byte('c');
+ write_byte(0 | (HAVELED << 0)
+ | (HAVELCD << 1)
+ | (HAVEHB << 2)
+ | ...);
+ write16(MEMSIZE);
+ write16(STACKSIZE);
+ write_byte(APINS);
+ write_byte(DPINS);
+ write_byte('\n');
+}
+ \end{lstlisting}
+\end{minipage}
+
\subsection{Add a device}
A device can be added by filling in the \CI{MTaskDevice} record as much as
-possible and running the \CI{connectDevice} function. This function grabs the
-channels, starts the synchronization \gls{Task} (\CI{synFun}), makes sure the
-errors are handled when needed and runs a processing function in parallel to
-react on the incoming messages. Moreover, it sends a specification request to
-the device in question to determine the details of the device and updates the
-record to contain the top-level \gls{Task}-id. All device functionality
-heavily depends on the specific \CI{deviceShare} function that generates an
-\gls{SDS} for a specific device. This allows giving an old device record to the
-function and still update the latest instance. Listing~\ref{lst:connectDevice}
-shows the connection function.
-
-\begin{lstlisting}[label={lst:connectDevice},%
+possible and running the \CI{connectDevice} function. This function grabs and
+clears the channels, starts the synchronization \gls{Task} (\CI{synFun}), makes
+sure the errors are handled when needed and runs a processing function in
+parallel to react on the incoming messages. Moreover, it sends a specification
+request to the device in question to determine the details of the device and
+updates the record to contain the top-level \gls{Task}-id. All device
+functionality heavily depends on the specific \CI{deviceShare} function that
+generates an \gls{SDS} for a specific device. This allows giving an old device
+record to the function and still update the latest instance.
+Listing~\ref{lst:connectDevice} shows the connection function.
+
+\begin{lstlisting}[language=Clean,label={lst:connectDevice},%
caption={Connect a device}]
-connectDevice :: (MTaskDevice (Shared Channels) -> Task ()) MTaskDevice -> Task Channels
-connectDevice procFun device = set ([], [], False) ch
- >>| appendTopLevelTask 'DM'.newMap True
- ( procFun device ch -||- catchAll (getSynFun device.deviceData ch) errHdl)
- >>= \tid->upd (\d->{d&deviceTask=Just tid,deviceError=Nothing}) (deviceShare device)
- >>| set (r,[MTSpec],ss) ch
- >>| treturn device
+process :: MTaskDevice (Shared Channels) -> Task ()
+process device ch = forever $ wait "process" (not o isEmpty o fst3) ch
+ >>= \(r,s,ss)->upd (appFst3 (const [])) ch >>| proc r
+where
+ proc :: [MTaskMSGRecv] -> Task ()
+ proc [] = treturn ()
+ proc [m:ms] = (case m of
+ MTPub i val = updateShareFromPublish device i val @! ()
+ ...
+ MTDevSpec s = deviceAddSpec device s @! ()
+ ) >>| proc ms
+
+connectDevice :: MTaskDevice -> Task MTaskDevice
+connectDevice device = set ([], [], False) ch
+ >>| appendTopLevelTask 'DM'.newMap True
+ ( process device ch -||- catchAll (getSynFun device.deviceData ch) errHdl)
+ >>= \tid->upd (\d->{d&deviceTask=Just tid,deviceError=Nothing}) (deviceShare device)
+ >>| set (r,[MTSpec],ss) ch
+ >>| treturn device
where
errHdl e = upd (\d->{d & deviceTask=Nothing, deviceError=Just e}) (deviceShare device) @! ()
ch = channels device
and with the new \gls{Task}. After waiting for the acknowledgement the device
is updated again and the \gls{Task} returns.
-\begin{lstlisting}[label={lst:sendtask},%
+\begin{lstlisting}[language=Clean,label={lst:sendtask},%
caption={Sending a \gls{Task} to a device}]
makeTask :: String Int -> Task MTaskTask
makeTask name ident = get currentDateTime @ \dt->{MTaskTask | name=name, ident=ident, dateAdded=dt}
makeShare :: String Int BCValue -> MTaskShare
makeShare withTask identifier value = {MTaskShare | withTask=[withTask], identifier=identifier, value=value}
-sendTaskToDevice :: String (Main (ByteCode a Stmt)) (MTaskDevice, MTaskInterval) -> Task MTaskTask
+sendTaskToDevice :: String (Main (ByteCode a Stmt)) (MTaskDevice, MTaskInterval) -> Task (MTaskTask, [MTaskShare])
sendTaskToDevice wta mTask (device, timeout)
# (msgs, newState=:{sdss}) = toMessages timeout mTask device.deviceState
# shares = [makeShare wta "" sdsi sdsval\\{sdsi,sdsval}<-sdss, (MTSds sdsi` _)<-msgs | sdsi == sdsi`]
>>| makeTask wta -1
>>= \t->upd (addTaskUpState newState t) (deviceShare device)
>>| wait "Waiting for task to be acked" (taskAcked t) (deviceShare device)
- >>| treturn t
+ >>| treturn (t, shares)
where
addTaskUpState :: BCState MTaskTask MTaskDevice -> MTaskDevice
addTaskUpState st task device = {MTaskDevice | device & deviceState=st, deviceTasks=[task:device.deviceTasks]}
contain \glspl{Task}, \glspl{SDS} or errors that are no longer applicable in
this run. A user or programmer can later choose to reconnect to some devices.
-\begin{lstlisting}[caption={Starting up the devices},%
+\begin{lstlisting}[language=Clean,caption={Starting up the devices},%
label={lst:startupdevs}]
startupDevices :: Task [MTaskDevice]
startupDevices = upd (map reset) deviceStoreNP
interface shows the list of example \glspl{Task} that are present in the
system. When clicking a \gls{Task}, a dialog opens in which a device can be
selected to send the \gls{Task} to. The dialog might contain user specified
-variables. All example \gls{mTask}-\glspl{Task} are of the type \CI{Task (Main
-(ByteCode () Stmt))} and can thus ask for user input first if needed for
-parameterized \gls{mTask}-\glspl{Task}. The bottom panel shows the device
-information. In this panel, the devices can be created and modified. Moreover,
-this panel allows the user to reconnect with a device after a restart of the
-server application.
-
-\begin{figure}[H]
+variables. All example \gls{mTask}-\glspl{Task} are of the type
+\CI{Task (Main (ByteCode () Stmt))} and can thus ask for user input first if
+needed for parameterized \gls{mTask}-\glspl{Task}. The bottom panel shows the
+device information. In this panel, the devices can be created and modified.
+Moreover, this panel allows the user to reconnect with a device after a restart
+of the server application.
+
+\begin{figure}[ht]
\centering
\includegraphics[width=\linewidth]{manage}
\caption{The device management interface}\label{lst:manage}