You need to close more of the pipes. The child processes must close every pipe file descriptor that they are not using. You have 8 pipe file descriptors; each child process has to close 6 of those - at least! You would be very well advised not to create all the pipes up front as you have done - it is complicated to control things and get all the right descriptors closed.
Looking at the code more closely, the parent does not write messages to the child processes, so you have twice as many pipes as you need - you only need one pipe for each child process to write back to the parent with.
You also do not
open() already open file descriptors to the pipes...but how did you get the code to compile? You must be missing the correct header (
#include <fcntl.h>) for
open() and compiling without enough warning options enabled.
Your variables COOP and SIL are unused in the code presented.
writer() function not only mistakenly tries to open an already closed file descriptor, it also closes it, which means that there is no way to send back the extra messages after the first. You should only close the file descriptor once finished - after the loop in the main program for each child. This is why you only see one message.
It is also worth getting into the habit of error-checking the return from every system call that can fail. There are a few that can't fail -
getpid() is one such. But I/O operations are notorious for failing for reasons outside the direct control of the program (or, in this case, within the control of the program), so you should check that writes succeed. When you get back an EBADF - bad file descriptor - error, you know something is up.
You have similar problems with
reader(), plus the additional problem that you attempt to return a pointer to a local automatic variable - which is not a good idea, ever. Again, a decent compiler (like GCC) with warnings enabled will tell you about such things. I used this command to compile your program:
gcc -O -std=c99 -Wall -Wextra -Wmissing-prototypes -Wstrict-prototypes \
pipe.c -o pipe
Your child processes are always going to generate the same sequence of (pseudo-)random numbers, which isn't very exciting. You should probably use something like:
to ensure they get different sequences.
reader() function is both not enthusiastic enough and too enthusiastic about reading the data. You read a single byte at a time, but you then loop to accumulate single bytes, so the code waits around for all 10 results to be known, and then spits everything out at once. Since a 32-bit integer can store a number up to 1,111,111,111 without problem, you would get just one number back from your call to
atoi() on the first iteration, which isn't quite what you wanted.
Reads and writes on pipes are atomic - in the sense that if the writing process writes 6 bytes and the reading process attempts to read more than 6 bytes, then the packet of 6 bytes will be returned by a single read, even if there are other bytes in the pipe waiting to be read; those extra bytes will be returned on subsequent calls to
reader() function should be passed in a buffer to use, along with its size; the code should attempt to read that buffer size; it should null terminate what it does receive; it can return the pointer to the buffer it was passed; it should error check the returned value from
The code for the two child processes is essentially the same - you should use an appropriately parameterized function rather than writing out the code twice.
Putting it all together, you end up with something like this (which works fine for me on MacOS X 10.6.6 with GCC 4.5.2):
const int READ = 0;
const int WRITE = 1;
static char* reader(int fd, char *buffer, size_t bufsiz);
static void writer(int fd, const char *c);
static void child_process(int *my_pipe, int *his_pipe);
static void err_exit(const char *fmt, ...)
int errnum = errno;
vfprintf(stderr, fmt, args);
if (errnum != 0)
fprintf(stderr, "%d: %s\n", errnum, strerror(errnum));
int c1sentence = 0;
int c2sentence = 0;
if (pipe(c1pipe) != 0 || pipe(c2pipe) != 0)
err_exit("Failed to open a pipe\n");
int C2 = 0;
int C1 = fork();
if (C1 > 0)
C2 = fork();
if (C1 < 0 || C2 < 0) //error
else if (C1 == 0)
else if (C2 == 0)
int choice1; //stores choice of c1
int choice2; //stores choice of c2
for (c = 0; c< 10; c++)
choice1 = atoi(reader(c1pipe[READ], buffer1, sizeof(buffer1)));
choice2 = atoi(reader(c2pipe[READ], buffer2, sizeof(buffer1)));
printf("C1's (%d) choice trial %d : %d\n", C1, c+1, choice1);
printf("C2's (%d) choice trial %d : %d\n", C2, c+1, choice2);
if (choice1 && choice2) //c1 and c2 cooperate with police
c1sentence = c1sentence + 6;
c2sentence = c2sentence + 6;
else if (!(choice1 && choice2)) //both c1 and c2 are silent
c1sentence = c1sentence + 1;
c2sentence = c2sentence + 1;
else if (choice1) // if c1 cooperates and c2 is silent
c1sentence = c1sentence + 0;
c2sentence = c2sentence + 10;
else // if c2 cooperates and c1 is silent
c1sentence = c1sentence + 10;
c2sentence = c2sentence + 0;
printf("C1 is in jail for %d years total\n", c1sentence);
printf("C2 is in jail for %d years total\n", c2sentence);
static void writer(int pipe_write_fd, const char *c)
int len = strlen(c);
if (write(pipe_write_fd, c, len) != len)
static char* reader(int pipe_read_fd, char *buffer, size_t bufsiz)
int i = read(pipe_read_fd, buffer, bufsiz-1);
if (i < 0)
buffer[i] = '\0';
static void child_process(int *my_pipe, int *his_pipe)
for (c = 0; c < 10; c++)
writer(my_pipe[WRITE], ((rand() % 2) == 1) ? "1" : "0");
Note how the error routine captures
errno early - to avoid damaging it. It is one of the perils of using global variables; they may change when you call a function. Don't use them when you can avoid them (but note that you can't avoid using
errno completely, in general).