/* For those who would like to continue to learn more about UNIX programming, * see the YoLinux tutorial (e.g. Fork/Exec): * http://www.yolinux.com/TUTORIALS/ForkExecProcesses.html * for the many details of UNIX programming. * * This version includes error checking. See man pages for details. */ #include #include #include /* 'man fprintf' says we need this. */ #include /* 'man waitpid' says we need this. */ #define PIPE_READ 0 #define PIPE_WRITE 1 int main() { int pipe_fd[2]; /* 'man pipe' says its arg is this type */ int fd; /* 'man dup' says its arg is this type */ pid_t child1, child2; /* 'man fork' says it returns type 'pid_t' */ char * argvChild[2]; printf("Executing \"ls | wc\";\n"); printf("Number of files in curr dir is (first # is answer): "); fflush(stdout); /* Force printing to complete, before continuing. */ if (-1 == pipe(pipe_fd)) { perror("pipe"); } child1 = fork(); /* child1 > 0 implies that we're still the parent. */ if (child1 > 0) { child2 = fork(); } if (child1 == 0) { /* if we are child1, do: "ls | ..." */ /* close */ if (-1 == close(STDOUT_FILENO)) { perror("close"); } fd = dup(pipe_fd[PIPE_WRITE]); /* set up empty STDOUT to be pipe_fd[1] */ if (-1 == fd) { perror("dup"); } if (fd != STDOUT_FILENO) { fprintf(stderr, "Pipe output not at STDOUT.\n"); } close(pipe_fd[PIPE_READ]); /* never used by child1 */ close(pipe_fd[PIPE_WRITE]); /* not needed any more */ argvChild[0] = "ls"; argvChild[1] = NULL; if (-1 == execvp(argvChild[0], argvChild)) { perror("execvp"); } } else if (child2 == 0) { /* if we are child2, do: "... | wc" */ /* close */ if (-1 == close(STDIN_FILENO)) { perror("close"); } /* set up empty STDIN to be pipe_fd[0] */ fd = dup(pipe_fd[PIPE_READ]); if (-1 == fd) { perror("dup"); } if (fd != STDIN_FILENO) { fprintf(stderr, "Pipe input not at STDIN.\n"); } close(pipe_fd[PIPE_READ]); /* not needed any more */ close(pipe_fd[PIPE_WRITE]); /* never used by child2 */ argvChild[0] = "wc"; argvChild[1] = NULL; if (-1 == execvp(argvChild[0], argvChild)) { perror("execvp"); } } else { /* else we're parent */ int status; /* Close parent copy of pipes; * In particular, if pipe_fd[1] not closed, child2 will hang * forever waiting since parent could also write to pipe_fd[1] */ close(pipe_fd[PIPE_READ]); close(pipe_fd[PIPE_WRITE]); if (-1 == waitpid(child1, &status, 0)) { perror("waitpid"); } /* Optionally, check return status. This is what main() returns. */ if (WIFEXITED(status) == 0) { printf("child1 returned w/ error code %d\n", WEXITSTATUS(status)); } if (-1 == waitpid(child2, &status, 0)) { perror("waitpid"); } /* Optionally, check return status. This is what main() returns. */ if (WIFEXITED(status) == 0) { printf("child2 returned w/ error code %d\n", WEXITSTATUS(status)); } } return 0; /* returning 0 from main() means success. */ }