It's bash that tries to do something clever (again! I still remember shellshock. And here (in Chinese) is another one).
strace -f the script, and you'll notice that
SIGTTIN is sent by bash, not kernel. Search the source code and you'll see this in jobs.c:
if (shell_pgrp == 0)
shell_pgrp = getpid ();
setpgid (0, shell_pgrp);
tcsetpgrp (shell_tty, shell_pgrp);
while ((terminal_pgrp = tcgetpgrp (shell_tty)) != -1)
if (shell_pgrp != terminal_pgrp)
ottin = set_signal_handler(SIGTTIN, SIG_DFL);
kill (0, SIGTTIN);
set_signal_handler (SIGTTIN, ottin);
Why the second (and the third, if you put one there) bash sends
SIGTTIN but not the first?
Because the first time,
shell_pgrp == terminal_pgrp (the process executing the script). Then the interactive bash sets itself as the group process and the foreground process group. Then it exits.
The second (and the third if you have) bash sees the process group is the process executing the script (this is a new group), but the terminal's foreground process group is still the exited first bash (the executor doesn't do any job control since it's executing a script uninteractively). So
shell_pgrp != terminal_pgrp and the
kill part above executes.
man 4 tty_ioctl and
tcsetpgrp if you need some docs.
zsh doesn't kill like this.
For this script:
bash -ic "which mvn"
python -ic "print('hello')"
You don't receive a
SIGTTIN. You receive a
SIGTTOU instead, because Python tries to output something while it's not the foreground process group (the first, exited bash is). (And if you do receive a
SIGTTIN, that because
python -i by definition, reads from the terminal.
SIGTTOU may not be sent from the kernel depending on your terminal settings.)