The problem is over-complicated. A much straightforward solution is to redesign as Uwe and David suggested:

(1) Worker app. (2) Long-running TcpServer, that awaits clients and calls workers (3) Clients.


I would like to build a SampleApp that functions as:

  • When started, it checks if there is already SampleApp running;
  • If not, it starts a TcpServer, a TcpClient, passes certain command from its TcpClient to its TcpServer, does the work, closes the TcpServer, and quits;
  • If yes, it starts a TcpClient, passes the command to the other's TcpServer and quits. (The other's TcpServer will do the work.)
  • There may be multiple SampleApp started when the first one is still running.

I have no idea about how to solve this problem practically, for example :

  1. Which architecture to start with ? ( The reputed OmniThreadLibrary seems to deal with thread-based concurrency instead of OS-process-based concurrency. )
  2. There is no SampleApp running. Two SampleApp are started (almost) simultaneously. How to guarantee only one TcpServer is started? (There is no "global list" to register the incoming "players".)
  3. There is one SampleApp running. How to handle if a 2nd detects the 1st's mutex and thus decides to be a TcpClient, but the 1st stops its TcpServer and quits?

Any insights are appreciated!


If you want to use this primarily to communicate between processes on a single computer (in a single user session), you should like at ActiveX Automation Objects. Creating a COM object that uses a LocalServer will do the starting and stopping of the 'server' process for you.

See more here: http://docwiki.embarcadero.com/RADStudio/XE4/en/Creating_an_Active_Server_Object

In case you insist on using TTcpServer, when two processes start (almost) simultaneously, still only one is allowed to bind to a certain TCP port, and the other will get an exception when calling Listen on the TTcpServer.

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