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Inter-Process Communication in C

Description

This project contains a series of C programs that demonstrate various methods of inter-process communication (IPC) in Unix-like operating systems. These programs illustrate the use of pipes and named pipes (FIFOs) to facilitate communication between processes. Each file showcases different aspects of IPC, providing a comprehensive overview of how to implement these mechanisms in C.

Key Features

  • Anonymous Pipes: Examples of using pipes for communication between a parent and child process.
  • Named Pipes (FIFOs): Demonstrations of using named pipes to communicate between unrelated processes.
  • Process Synchronization: Basic examples of synchronizing processes using IPC mechanisms.

Files

  1. A1P7.c

    • Demonstrates the use of anonymous pipes for communication between a parent process and a child process.
    • Key Code Snippet:
      #include <stdio.h>
      #include <stdlib.h>
      #include <string.h>
      
      #define MAX 256
      
      int main() {
          int tuberia[2];
          int pid;
          char mensaje[MAX];
      
          if (pipe(tuberia) == -1) {
              perror("pipe");
              exit(-1);
          }
          if ((pid = fork()) == -1) {
              perror("fork");
              exit(-1);
          } else if (pid == 0) {
              while (read(tuberia[0], mensaje, MAX) > 0 && strcmp(mensaje, "FIN") != 0) {
                  printf("PROCESO RECEPTOR. MENSAJE: %s\n", mensaje);
              }
              close(tuberia[0]);
              close(tuberia[1]);
              exit(0);
          } else {
              while (printf("PROCESO EMISOR. MENSAJE:") != 0 && gets(mensaje) != NULL && write(tuberia[1], mensaje, strlen(mensaje) + 1) > 0 && strcmp(mensaje, "FIN") != 0);
              close(tuberia[0]);
              close(tuberia[1]);
              exit(0);
          }
      }
      This code creates a pipe and uses it to send messages from the parent process to the child process.
  2. A2P7.c

    • Illustrates the use of two pipes for bidirectional communication between a parent process and a child process.
    • Key Code Snippet:
      #include <sys/types.h>
      #include <fcntl.h>
      #include <unistd.h>
      #include <stdio.h>
      #include <string.h>
      #include <stdlib.h>
      #include <wait.h>
      
      #define SIZE 512
      
      int main(int argc, char **argv) {
          pid_t pid;
          int a[2], b[2], readbytes;
          char buffer[SIZE];
      
          pipe(a);
          pipe(b);
      
          if ((pid = fork()) == 0) {
              close(a[1]);
              close(b[0]);
              while ((readbytes = read(a[0], buffer, SIZE)) > 0)
                  write(1, buffer, readbytes);
              close(a[0]);
              strcpy(buffer, "Soy tu hijo hablandote por la otra tuberia\n");
              write(b[1], buffer, strlen(buffer));
              close(b[1]);
          } else {
              close(a[0]);
              close(b[1]);
              strcpy(buffer, "Soy tu padre hablandote por una tuberia\n");
              write(a[1], buffer, strlen(buffer));
              close(a[1]);
              while ((readbytes = read(b[0], buffer, SIZE)) > 0)
                  write(1, buffer, readbytes);
              close(b[0]);
          }
          waitpid(pid, NULL, 0);
          exit(0);
      }
      This code sets up two pipes for bidirectional communication between the parent and child processes.
  3. A3P7.c

    • Demonstrates the use of a named pipe (FIFO) to send a message from one process to another.
    • Key Code Snippet:
      #include <sys/stat.h>
      #include <unistd.h>
      #include <fcntl.h>
      #include <stdio.h>
      
      int main(void) {
          int fd;
          char buf[] = "Hola, pase por la tuberia";
          mkfifo("fifo2", 0666);
          fd = open("fifo2", O_WRONLY);
          write(fd, buf, sizeof(buf));
          close(fd);
          return 0;
      }
      This code creates a named pipe and writes a message to it.
  4. receptor.c

    • Demonstrates reading a message from a named pipe (FIFO).
    • Key Code Snippet:
      #include <sys/stat.h>
      #include <unistd.h>
      #include <fcntl.h>
      #include <stdio.h>
      
      int main(void) {
          int fd, n;
          char buf[1024];
      
          fd = open("fifo2", O_RDONLY);
          n = read(fd, buf, sizeof(buf));
          printf("Numero de bytes rx: %d\n", n);
          printf("RX Mensaje: %s\n", buf);
          close(fd);
          return 0;
      }
      This code opens a named pipe and reads a message from it.

How to Use

  1. Compilation: Each C file can be compiled using a C compiler such as gcc.

    gcc A1P7.c -o A1P7
    gcc A2P7.c -o A2P7
    gcc A3P7.c -o A3P7
    gcc receptor.c -o receptor
  2. Execution:

    • Run the anonymous pipe example:
      ./A1P7
    • Run the bidirectional pipe example:
      ./A2P7
    • Run the named pipe examples:
      • First, run the receptor in one terminal:
        ./receptor
      • Then, run the sender in another terminal:
        ./A3P7