exec system call of the Linux kernel understands shebangs (
When you do on bash:
on Linux, this calls the
exec system call with the path
This line of the kernel gets called on the file passed to
if ((bprm->buf != '#') || (bprm->buf != '!'))
It reads the very first bytes of the file, and compares them to
If the comparison is true, then the rest of the line is parsed by the Linux kernel, which makes another
exec call with path
/usr/bin/python3 and current file as the first argument:
and this works for any scripting language that uses
# as a comment character.
And analogously, if you decide to use
env instead, which you likely should always do to work on systems that have the
python3 in a different location, notably
pyenv, see also this question, the shebang:
ends up calling analogously:
/usr/bin/env python3 /path/to/script.py
which does what you expect from
env python3: searches
python3 and runs
And yes, you can make an infinite loop with:
printf '#!/a\n' | sudo tee /a
sudo chmod +x /a
Bash recognizes the error:
-bash: /a: /a: bad interpreter: Too many levels of symbolic links
#! just happens to be human readable, but that is not required.
If the file started with different bytes, then the
exec system call would use a different handler. The other most important built-in handler is for ELF executable files: https://github.com/torvalds/linux/blob/v4.8/fs/binfmt_elf.c#L1305 which checks for bytes
7f 45 4c 46 (which also happens to be human readable for
.ELF). Let's confirm that by reading the 4 first bytes of
/bin/ls, which is an ELF executable:
head -c 4 "$(which ls)" | hd
00000000 7f 45 4c 46 |.ELF|
So when the kernel sees those bytes, it takes the ELF file, puts it into memory correctly, and starts a new process with it. See also: How does kernel get an executable binary file running under linux?
Finally, you can add your own shebang handlers with the
binfmt_misc mechanism. For example, you can add a custom handler for
.jar files. This mechanism even supports handlers by file extension. Another application is to transparently run executables of a different architecture with QEMU.
I don't think POSIX specifies shebangs however: https://unix.stackexchange.com/a/346214/32558 , although it does mention in on rationale sections, and in the form "if executable scripts are supported by the system something may happen". macOS and FreeBSD also seem to implement it however.
PATH search motivation
Likely, one big motivation for the existence of shebangs is the fact that in Linux, we often want to run commands from
PATH just as:
But then, without the shebang mechanism, how would Linux know how to launch each type of file?
Hardcoding the extension in commands:
or implementing PATH search on every interpreter:
would be a possibility, but this has the major problem that everything breaks if we ever decide to refactor the command into another language.
Shebangs solve this problem beautifully.
See also: Why do people write #!/usr/bin/env python on the first line of a Python script?