You can call
setpgid() in the forked child process that will execute the shell script. That will give any spawned processes from that shell script the same group ID as the child process. You can then use
killpg() to send a signal to the entire group that all processes in that group will receive.
For instance, if inside the child process you called
setpgid(0, 0), this would setup a special instance where the child-process' group ID will be set to the same value as the child's PID. Then any processes overlaid on the child process using one of the
exec family of functions will have the same group-ID value that the child had. In addition, any processes that the newly overlaid process may spawn will also have the same group ID (i.e., your shell-script). You can then, using
killpg(), send a signal to any processes sharing a group ID value using just the child's PID value that
fork() returned since the group ID of the child process is the same value as the child's PID after the
setpgid(0, 0) call.
If you are using
fork(), depending on how quickly you need to send signals to the group from the parent process may create some synchronization issues ... for example, you want to immediately send a signal to the process group right after forking the child process. There are two work-arounds for this: Either 1) use
vfork() instead of fork, so that the parent is suspended until the child has changed it's group-ID and successfully called
exec, or 2) call
setpgid() in the parent process as well as in the child-process, but in the parent, rather than using
setgpid(0, 0) like you would in the child, you can use
setpgid(CHILD_PID, CHILD_PID). Then it won't matter which call was successful (one of them will be successful, and the other will fail with a
EACCES), and any successive signals sent from the parent wil now go to a valid group ID.