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I am having problems to make a proper read-write between process with fork() and ncurses. I have a process (let me call it son) that control the input on the application, and also i have a process (the parent) that control the logic of the app.

My problem is that i write inside the pipe to send information from son to parent but parent doesn't read anything.

Due to non-blocking nature, i added waits and signals to mutualy exclude process while read and write.

Let me show you some code :)

    //---- pipes, read i write no bloquejants ---------
    int flags_f0 = fcntl(pip_fill[0],F_GETFL);
    int flags_f1 = fcntl(pip_fill[1],F_GETFL);
    int flags_p0 = fcntl(pip_pare[0],F_GETFL);
    int flags_p1 = fcntl(pip_pare[1],F_GETFL);
    int flags_read = fcntl(0,F_GETFL);
    int flags_write = fcntl(1,F_GETFL);


    fcntl(pip_fill[0],F_SETFL,flags_f0 | O_NONBLOCK);
    fcntl(pip_fill[1],F_SETFL,flags_f1 | O_NONBLOCK);
    fcntl(pip_pare[0],F_SETFL,flags_p0 | O_NONBLOCK);
    fcntl(pip_pare[1],F_SETFL,flags_p1 | O_NONBLOCK);
    fcntl(0,F_SETFL,flags_read | O_NONBLOCK);
    fcntl(1,F_SETFL,flags_write | O_NONBLOCK);
    //-------------------------------------------------

    //---- semàfors ----
    int id_Sem;

    id_Sem = shmget (IPC_PRIVATE, sizeof(int), IPC_CREAT | 0600);
    if (id_Sem == -1)
    {
        write(2,"Error!\n",7);
        Sortir(&ll_a_r,&ll_res,&ll_mis,&ll_n_mis,&c,&c_write);
        exit (0);
    }


if(SEM_constructor(&sem1) < 0)
{
       shmctl(id_Sem, IPC_RMID, NULL);
    }

    if(SEM_constructor(&sem2) < 0)
{
        shmctl(id_Sem, IPC_RMID, NULL);
        SEM_destructor (&sem1);
    }

    SEM_init (&sem1, 0);
    SEM_init (&sem2, 0);

//------------------



//la primera vegada que entri en el fill posarem les següents dades a la var valor

Afegir_Cadena(&c,"M0:");    //on M0: menú principal

pantalla(w);
pinta_menu_principal(w,a_menus);    //pinta el menú principal per pantalla

pid = fork();

switch (pid)
{
    case -1: //ERROR
        write(2,"Error!\n",7);
        Sortir(&ll_a_r,&ll_res,&ll_mis,&ll_n_mis,&c,&c_write);
        exit(-1);
            break;

    case 0: //FILL
        close(pip_fill[0]); //tanquem l'extrem de la pipe que no usem (la de lectura)
        close(pip_pare[1]); //tanquem l'extrem de la pipe que no usem (la d'escriptura)

        while(1)
        {
                cc = getch();
                if(cc != ERR)
            {
                if(cc == 0x0A)
                {
                    printf("Enter [%s]\n", Retorna_Cad(&c_write));
                    SEM_wait (&sem1);
                    tmp = write(pip_fill[1],Retorna_Cad(&c_write),Retorna_Longitud(&c_write) + 1);  //el fill escriu a la pipe la variable c
                    SEM_signal (&sem1);                                                     //longitud + 1: el +1 es per el \0
                    //printf("Ret: %d",tmp);
                    Esborra_Cadena(&c_write);
                    actualitza_pantalla(w);
                }
                else
                {
                    Afegir_Caracter(&c_write,cc);
                    cc = ERR;
                }
            }

    //***** READ PARE *********
            SEM_wait (&sem2);
            nbytes = read(pip_pare[0],valor,256); //el fill llegeix de la pipe la var un cop ha estat tractada per el pare
            SEM_signal (&sem2);

            if (nbytes > -1)
            {   
                Inserir_Cad(&c,valor);
                //tractar el missatge del pare
        Tractar_Missatge_del_Pare(&ll_mis,&ll_res,&c,w,a_menus,&ll_a_r);
            }
        }
        break;

    default: //PARE
        close(pip_fill[1]); //tanquem l'extrem de la pipe que no usem (la d'escriptura)
        close(pip_pare[0]); //tanquem l'extrem de la pipe que no usem (la de lectura)

        while(1)
        {
            temps_inici = (float)clock();
            SEM_wait (&sem1);
            nbytes = read(pip_fill[0],valor,256);//el pare llegeix de la pipe la var c 
            SEM_signal (&sem1);

            if (nbytes > -1 || tmp > 0)
            {   //vol dir que hem llegit algo per la pipe pip_fill
                tmp++;
                Inserir_Cad(&c,valor);
                Tractar_Missatge_del_Fill (&ll_mis,&c,&ll_n_mis,w);
                SEM_wait (&sem2);
                   write(pip_pare[1],Retorna_Cad(&c),Retorna_Longitud(&c) + 1); //el pare escriu a la pipe la var tractada
                SEM_signal (&sem2);

                actualitza_pantalla(w);
            }


            temps_final = (float)clock();
            temps_per_bucle = (float)(temps_final - temps_inici) / (float)CLOCKS_PER_SEC;

            Esborra_Cadena(&aux);
            Afegir_Float (&aux, temps_per_bucle);
            //mvwprintw(w[4],8,1,Retorna_Cad(&aux));

        }
        break;
    }
}
else
    {
    exit(1);    //login incorrecte --> sortim de l'aplicacio
}

I didn't post all the code, only the main part where read+writes are done with waits and signals.

Maybe i am losing something that i can't see right now. The fact is that son will write on 'pipe_fill' and parent will read from this pipe, also, parent will write on 'pipe_pare' and then, son will read from it to send information.

Also i am using ncurses to make all the window drawing.

Thanks for your help :)

share|improve this question
    
Why don't you just use blocking I/O instead of messing with semaphores? Your parent locks the semaphore, tries to read, fails, unlocks, locks again, tries to read etc, and the poor son never gets a chance to write anything because it's always waiting on SEM_wait. –  n.m. Jun 21 '11 at 7:32
    
if i only block the O/I, can parent read from the pipe before son ends his write to the same pipe ? I think that i can put a sleep(1) at the end of parent process, but i am not allowed to use this function for this application :( –  Llorens Marti Jun 21 '11 at 8:22
    
Blocking I/O will do exactly what you want. Just throw all your semaphores and fcntls away. You don't do this stuff when you use stdio and you don't need it here. read will wait until some data is available on the pipe. Not necessarily all 256 bytes, but at least 1 byte. –  n.m. Jun 21 '11 at 8:31
    
I agree with you, but i need a non-blocking system, i mean, i don't need that parents waits for something in the pipe. I think in this case i need the fcntls and semaphores because mutual exclusion. Correct me if i am wrong. –  Llorens Marti Jun 21 '11 at 8:37
    
You don't need the semaphores because you don't need mutual exclusion. You might think you want to establish order: writer first, reader second. This is not mutual exclusion and it can't be done with mutual exclusion mechanisms. But you don't need order either, the pipe will magically do everything by itself. If you don't want the reader to wait, then go non-blocking (but then why you had it waiting on a sema?) If you go non-blocking, the reader must have some job to do when there's no input on the pipe. It also needs to know when it must stop doing that job and go back to check the pipe. –  n.m. Jun 21 '11 at 9:12

1 Answer 1

OK so here's the code I had in mind.

#include <unistd.h>
#include <stdio.h>
#include <stdlib.h>

int main ()
{
  int pipePC[2];
  int pipeCP[2];

  pipe(pipePC);
  pipe(pipeCP);

  char buf[11];
  int n;

  switch (fork()) {
  case -1:
    exit (1);
    break;
  case 0: /* child */
    close(pipePC[1]);
    close(pipeCP[0]);
    while (1) { /* read, then write */
        n = read(pipePC[0], buf, 10); /* read the question */
        if (n > 0) {
            buf[n] = 0;
            printf ("child got '%s'\n", buf); /* calculate the answer here */
            write(pipeCP[1], "foobar", 6); /* write the answer */
        }
        else {
            printf ("child got nothing\n");
            exit (1);
        }
        sleep(2); /* only to slow down the output */
    }
    break;
  default: /* parent */
    close(pipePC[0]);
    close(pipeCP[1]);
    while (1) { /* write, then read */
        write(pipePC[1], "barfoo", 6); /* ask a question */
        n = read(pipeCP[0], buf, 10); /* get the answer */
        if (n > 0) {
            buf[n] = 0;
            printf ("parent got '%s'\n", buf);
        }
        else {
            printf ("parent got nothing\n");
            exit (1);
        }
        sleep(3); /* only to slow down the output */
    }
    break;
  }
}
share|improve this answer
    
With this code, if you block the son waiting for input, the parent is still looping ? –  Llorens Marti Jun 22 '11 at 6:49
    
No. In your original code both parent and child wait for the other to finish writing, and so they do in my code. If you want you can make I/O non-blocking on one or both sides, just remove the calls to exit after the "got nothing" message. It will still work, no semaphores required. They will sometimes print "got nothing", and sometimes print parts of the message or several messages together, like "rfoobarfoo". But you shouldn't rely on being able to read the entire message with one read call anyway. –  n.m. Jun 22 '11 at 7:26
    
if i only remove the exit, it will not grant me non-bloking behaviour for the parent if son is waiting for input, because if there is nothing to read on the pipe, parent will wait until it is. I need that parent still looping if there is no data from the son. –  Llorens Marti Jun 22 '11 at 7:53
    
You need to add the fcntl for non-blocking input too of course. –  n.m. Jun 22 '11 at 8:24
    
And then, if you imagine i remove only the semaphores in my initial code, why parent didn't recieve anything from the son if son is writing correctly to the pipe ? –  Llorens Marti Jun 22 '11 at 8:29

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