=================================================================== RCS file: /home/cvs/OpenXM/doc/issac2000/session-management.tex,v retrieving revision 1.10 retrieving revision 1.11 diff -u -p -r1.10 -r1.11 --- OpenXM/doc/issac2000/session-management.tex 2000/01/17 01:24:27 1.10 +++ OpenXM/doc/issac2000/session-management.tex 2000/01/17 06:10:41 1.11 @@ -1,4 +1,4 @@ -% $OpenXM: OpenXM/doc/issac2000/session-management.tex,v 1.9 2000/01/16 06:39:39 takayama Exp $ +% $OpenXM: OpenXM/doc/issac2000/session-management.tex,v 1.10 2000/01/17 01:24:27 noro Exp $ \section{Session Management} \label{secsession} @@ -83,12 +83,12 @@ send a signal from the control server. A control serve OpenXM stack machine and it accepts {\tt SM\_control\_*} commands to send signals to a server or to terminate a server. -\subsection{Resetting a server} +\subsection{Resetting an engine} A client can send a signal to an engine by using the control channel at any time. However, I/O operations are usually buffered, which may cause troubles. -To reset a server safely the following are required. +To reset an engine safely the following are required. \begin{enumerate} \item Any OX message must be a synchronized object in the sense of Java. @@ -96,60 +96,67 @@ To reset a server safely the following are required. As an {\tt OX} message is sent as a combination of several {\tt CMO} data, a global exit without sending all may generate broken data. -\item After restarting a server, a request from a client -must correctly corresponds to the response from the server. +\item After restarting an engine, a request from a client +must correctly corresponds to the response from the engine. An incorrect correspondence occurs if some data remain on the stream -after restarting a server. +after restarting an engine. \end{enumerate} {\tt SM\_control\_reset\_connection} is an {\tt SM} command to -initiate a safe resetting of a server. -Under the OpenXM reset protocol a server and a client act as follows. +initiate a safe resetting of an engine. +The control server sends {\tt SIGUSR1} to the engine if it receives +{\tt SM\_control\_reset\_connection} from the client. +Under the OpenXM reset protocol an engine and a client act as follows. -\centerline{\fbox{client}} - +\vskip 2mm +\noindent +{\it Client side} \begin{enumerate} -\item The client sends {\tt SM\_control\_reset\_connection} to the -control server. The control server sends {\tt SIGUSR1} to the engine. -\item The client enters the resetting state. It skips all {\tt +\item After sending {\tt SM\_control\_reset\_connection} to the +control server, the client enters the resetting state. It skips all {\tt OX} messages from the engine until it receives {\tt OX\_SYNC\_BALL}. \item After receiving {\tt OX\_SYNC\_BALL} the client sends {\tt OX\_SYNC\_BALL} to the engine and returns to the usual state. \end{enumerate} -\centerline{\fbox{engine}} - +\noindent +{\it Engine side} \begin{enumerate} -\item After receiving {\tt SIGUSR1} from the control server, +\item +After receiving {\tt SIGUSR1} from the control server, the engine enters the resetting state. -\item The engine sends {\tt OX\_SYNC\_BALL} to the client. -We note that the operation does not block because -the client reads and skips {\tt OX} messages soon after sending -{\tt SM\_control\_reset\_connection}. +The engine sends {\tt OX\_SYNC\_BALL} to the client. +The operation does not block because +the client is now in the resetting state. \item The engine skips all {\tt OX} messages from the engine until it -receives {\tt OX\_SYNC\_BALL}. -\item After receiving {\tt OX\_SYNC\_BALL} the engine returns to the -usual state. +receives {\tt OX\_SYNC\_BALL}. After receiving {\tt OX\_SYNC\_BALL} +the engine returns to the usual state. \end{enumerate} +\begin{figure}[htbp] +\epsfxsize=8.5cm +\epsffile{reset.eps} +\caption{OpenXM reset procedure} +\label{reset} +\end{figure} + +Figure \ref{reset} illustrates the flow of data. {\tt OX\_SYNC\_BALL} is used to mark the end of data remaining in the I/O streams. After reading it, it is assured that each stream is empty and that the subsequent request from a client correctly -corresponds to the response from the server. +corresponds to the response from the engine. We note that we don't have to associate {\tt OX\_SYNC\_BALL} with -any special action to be executed by the server because it is -assured that the peer is in the resetting state when one has received +any special action to be executed by the engine because it is +assured that the engine is in the resetting state when it has received {\tt OX\_SYNC\_BALL}. \subsection{Debugging facilities} -Debugging is not easy for distributed computations. -We provide two methods to help debugging. -If servers are executed on X window system, -the diagnostic messages from the engine are displayed in a {\tt xterm} -window. -Furthermore, if the engine provides an interface to input commands, -then each engine can pop up a debug window. +Debugging is sometimes very hard for distributed computations. +We provide two methods to help debugging on X window system: +1. the diagnostic messages from the engine are displayed in a {\tt xterm} +window; +2. the engine can pop up a window to input debug commands. For example {\tt ox\_asir}, which is the OpenXM server of {\tt Risa/Asir}, can pop up a window to input debug commands and the debugging similar to that on usual terminals is possible.