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I'm trying to provide communication between a C# app and a Java app on windows using named pipes with the method described by v01ver in this question: How to open a Windows named pipe from Java?

I'm running into a problem on the Java side because I have a reader thread constantly waiting for input on the pipe and when I try to write to the pipe from my main thread it gets stuck forever.

final RandomAccessFile pipe;
try {
   pipe = new RandomAccessFile("\\\\.\\pipe\\mypipe", "rw");
}
catch (FileNotFoundException ex) {
   ex.printStackTrace();
   return;
}

Thread readerThread = new Thread(new Runnable() {
   @Override
   public void run() {
      String line = null;
      try {
         while (null != (line = pipe.readLine())) {
            System.out.println(line);
         }
      }
      catch (IOException ex) {
         ex.printStackTrace();
      }
   }
});
readerThread.start();

try { Thread.sleep(500); } catch (InterruptedException e) {}

try {
   System.out.println("Writing a message...");
   pipe.write("Hello there.\n".getBytes());
   System.out.println("Finished.");
}
catch (IOException ex) {
   ex.printStackTrace();
}

The output is:

Writing a message...
and then it waits forever.

How can I write to a named pipe while waiting for input in another thread?

share|improve this question
    
...and you cannot switch off and not switch off reading? read only if the file is not at the end, otherwise block on poll a blocking queue to wait for writes; and ultimately use a single thread. if you are interested i can show a snippet; however I have no xp w/ named pipes like that and a simple socket is 10 times easy to manage –  bestsss Feb 12 '11 at 0:11
    
It might help to use JVisualVM to see whether you thread(s) are blocked at the O/S level or on a Java synchronization acquisition. –  Lawrence Dol Feb 12 '11 at 2:28
    
Rather than using a named pipe, you might find using sockets is more scalable (named pipes are implemented using sockets in Windows anyway) You will find more examples of how to use them (as they used more often) which should help you. –  Peter Lawrey Feb 12 '11 at 9:21
    
@Peter Lawrey: Named pipes in Windows are NOT implemented using sockets. When both client and server are on the same machine, they use shared memory for IPC and are extremely fast. –  Chris Dickson Feb 15 '11 at 10:47
1  
@Peter, Java pipes (nio ones) are implemented via sockets on Windows and with OS pipes on Linux. Windows native named pipes are not sockets and their impl. does not depend on winsock. It's just java that doesn't use them since it's not possible to register the same selector for sockets and windows pipes. –  bestsss Mar 4 '11 at 19:10

6 Answers 6

This is expected behaviour of pipes. It is supposed to hang untill other process connects to the pipe and reads it.

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This is the link which you can use for Named pipe implementation : http://sonalimendis.blogspot.in/2010/10/named-pipes-for-inter-process.html

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I suppose that RandomAccessFile is not the right API here. Try a FileInputStream + FileOutputStream on the Java side. But that is only a guess, as I last used the Windows API in times when named pipes didn't yet exist.

share|improve this answer
1  
Yes, RandomAccessFile is completely the wrong abstraction for a pipe. –  Lawrence Dol Feb 12 '11 at 2:27
2  
ŭlo, you can not open file w/ 2 separate descriptors for both read and write. RadndomAccessFile is the way to go if you need both read and write at the same time. –  bestsss Mar 6 '11 at 0:07
    
It is the right API, it maps to CreateFile() in WIN32 API. –  eckes Aug 15 '12 at 23:54

I have a same problem -- communication between a C#/Python app and a Java app on windows using named pipes:

We have example of Client Code written on Java, but in line String echoResponse = pipe.readLine(); tread waits forever.

try {
    // Connect to the pipe
    RandomAccessFile pipe = new RandomAccessFile("\\\\.\\pipe\\testpipe", "rw");
    String echoText = "Hello word\n";
    // write to pipe
    pipe.write ( echoText.getBytes() );
    // read response
    String echoResponse = pipe.readLine();
    System.out.println("Response: " + echoResponse );
    pipe.close();

    } catch (Exception e) {
    // TODO Auto-generated catch block
    e.printStackTrace();
    }

Solution of problem: I have a ServerPipe code written on Python from here Example Code - Named Pipes: and run its on Python 2.6.6

from ctypes import *

PIPE_ACCESS_DUPLEX = 0x3
PIPE_TYPE_MESSAGE = 0x4
PIPE_READMODE_MESSAGE = 0x2
PIPE_WAIT = 0
PIPE_UNLIMITED_INSTANCES = 255
BUFSIZE = 4096
NMPWAIT_USE_DEFAULT_WAIT = 0
INVALID_HANDLE_VALUE = -1
ERROR_PIPE_CONNECTED = 535

MESSAGE = "Default answer from server\0"
szPipename = "\\\\.\\pipe\\mynamedpipe"


def ReadWrite_ClientPipe_Thread(hPipe):
    chBuf = create_string_buffer(BUFSIZE)
    cbRead = c_ulong(0)
    while 1:
        fSuccess = windll.kernel32.ReadFile(hPipe, chBuf, BUFSIZE,
byref(cbRead), None)
        if ((fSuccess ==1) or (cbRead.value != 0)):
            print chBuf.value
            cbWritten = c_ulong(0)
            fSuccess = windll.kernel32.WriteFile(hPipe,
                                                 c_char_p(MESSAGE),
                                                 len(MESSAGE),
                                                 byref(cbWritten),
                                                 None
                                                )
        else:
            break
        if ( (not fSuccess) or (len(MESSAGE) != cbWritten.value)):
            print "Could not reply to the client's request from the
pipe"
            break
        else:
            print "Number of bytes written:", cbWritten.value

    windll.kernel32.FlushFileBuffers(hPipe)
    windll.kernel32.DisconnectNamedPipe(hPipe)
    windll.kernel32.CloseHandle(hPipe)
    return 0

def main():
    THREADFUNC = CFUNCTYPE(c_int, c_int)
    thread_func = THREADFUNC(ReadWrite_ClientPipe_Thread)
    while 1:
        hPipe = windll.kernel32.CreateNamedPipeA(szPipename,
                                                 PIPE_ACCESS_DUPLEX,
                                                 PIPE_TYPE_MESSAGE |
                                                 PIPE_READMODE_MESSAGE
|
                                                 PIPE_WAIT,

PIPE_UNLIMITED_INSTANCES,
                                                 BUFSIZE, BUFSIZE,

NMPWAIT_USE_DEFAULT_WAIT,
                                                 None
                                                )
        if (hPipe == INVALID_HANDLE_VALUE):
            print "Error in creating Named Pipe"
            return 0

        fConnected = windll.kernel32.ConnectNamedPipe(hPipe, None)
        if ((fConnected == 0) and (windll.kernel32.GetLastError() ==
ERROR_PIPE_CONNECTED)):
            fConnected = 1
        if (fConnected == 1):
            dwThreadId = c_ulong(0)
            hThread = windll.kernel32.CreateThread(None, 0,
thread_func, hPipe, 0, byref(dwThreadId))
            if (hThread == -1):
                print "Create Thread failed"
                return 0
            else:
                windll.kernel32.CloseHandle(hThread)
        else:
            print "Could not connect to the Named Pipe"
            windll.kernel32.CloseHandle(hPipe)
    return 0


if __name__ == "__main__":
    main()

After server have start you can use slightly modified version of the Java Client code:

try {
    // Connect to the pipe
    RandomAccessFile pipe = new RandomAccessFile("\\\\.\\pipe\\mynamedpipe", "rw");
    String echoText = "Hello world\n";
    // write to pipe
    pipe.write(echoText.getBytes());

    //String aChar;
    StringBuffer fullString = new StringBuffer();

    while(true){
        int charCode = pipe.read();
        if(charCode == 0) break;
        //aChar = new Character((char)charCode).toString();
        fullString.append((char)charCode);
    }

    System.out.println("Response: " + fullString);
    pipe.close();
}
catch (Exception e) {
    // TODO Auto-generated catch block
    e.printStackTrace();
}

It works well in NetBeans 6.9.1.

share|improve this answer
    
Well, if your Server write a message which is null-byte terminated it is no wonder that the readLine() function does not return. It is waiting for "\n\r" from your server. I would also not use the read() method in production code. Use a byte[] barr = new byte[1024]; count = pipe.read(barr); method in a look and make sure to not expect the whole message from the server in a single return. –  eckes Aug 15 '12 at 4:52

Don't worry, using RandomAccessFile to access a named pipe is correct. A named pipe is a file system object. Under Linux/Unix it is also called "fifo". Those objects are readable just like a file. (and not the same as pipes used between processes which are abstracted by Java Pipe class).

However I see two problems with your program. I cannot test it currently as I would need your test server (feel free to publish). Your reader thread waits for answers from the other side (i.e. the server). It uses readLine(), I would use a different method (for debugging reading char by char might be the best).

With Java (without JNI) you cannot actually create a named pipe (server side). Opening a named pipe with the generic method used by RandomAccessFile you will get a byte-type stream which can be one-way or duplex.

BTW: JTDS (the free JDBC driver for SQL Server) can optionally use a named pipe to access SQL server, even over the network. And it is using exactly the RandomAccessFile method.

BTW2: there is a makepipe.exe test server on older MS SQL Server installation media, however I did not find a trusted source to get that file.

share|improve this answer
    
I don't really see how one could do random access with a pipe, could you add some example code? –  Paŭlo Ebermann Aug 16 '12 at 9:03
    
You cannot do random access (only skip of course), but still the class is the one to read and write from the named pipe. –  eckes Sep 6 '12 at 2:31

I'm not familiar with JAVA, and my C# is pretty elementary too. However I'm had a similar problem with a multithreaded C++ client that I fixed by opening the pipe for overlapped IO. Until I did this, Windows serialized reads and writes, effectively causing an unsatisfied (blocking) ReadFile to prevent completion of a subsequent WriteFile until the read was done.

See CreateFile function
FILE_FLAG_OVERLAPPED

share|improve this answer
    
Java doesn't have any easy way of passing specific flags to CreateFile (unless you do a bunch of JNI). –  Martin Oct 5 '12 at 4:50

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