In the header of a Bash script, what's the difference between those two statements:
When I consulted the
env man page, I get this definition:
env - run a program in a modified environment
What does it mean?
Running a command through
/usr/bin/env has the benefit of looking for whatever the default version of the program is in your current environment.
This way, you don't have to look for it in a specific place on the system, as those paths may be in different locations on different systems. As long as it's in your path, it will find it.
One downside is that you will be unable to pass more than one argument (e.g. you will be unable to write
/usr/bin/env awk -f) if you wish to support Linux, as POSIX is vague on how the line is to be interpreted, and Linux interprets everything after the first space to denote a single argument. You can use
/usr/bin/env -S on some versions of
env to get around this, but then the script will become even less portable and break on fairly recent systems (e.g. even Ubuntu 16.04 if not later).
Another downside is that since you aren't calling an explicit executable, it's got the potential for mistakes, and on multiuser systems security problems (if someone managed to get their executable called
bash in your path, for example).
#!/usr/bin/env bash #lends you some flexibility on different systems #!/usr/bin/bash #gives you explicit control on a given system of what executable is called
In some situations, the first may be preferred (like running python scripts with multiple versions of python, without having to rework the executable line). But in situations where security is the focus, the latter would be preferred, as it limits code injection possibilities.
#!/usr/bin/env echo Hellocomplains:
/usr/bin/env: echo Hello: No such file or directory. Apparently it treats
echo Helloas a single argument to
/usr/bin/env. May 30, 2014 at 14:44
envcommand certainly allows arguments to be passed to the command. The issue is the semantics of the
#!line, and that depends on the kernel. Recent Linux kernels do allow things like
#!/usr/bin/env command args, but older Linux kernels and other systems don't. Dec 18, 2014 at 15:42
#!/usr/bin/env NAME makes the shell search for the first match of NAME in the $PATH environment variable. It can be useful if you aren't aware of the absolute path or don't want to search for it.
"./script.sh"does have its executable flag unchecked (so you can't execute it on its own).
"bash ./script.sh"happily accepts non-executable script files. (Solution:
chmod +x ./script.sh)
If the shell scripts start with
#!/bin/bash, they will always run with
/bin. If they however start with
#!/usr/bin/env bash, they will search for
$PATH and then start with the first one they can find.
Why would this be useful? Assume you want to run
bash scripts, that require bash 4.x or newer, yet your system only has
bash 3.x installed and currently your distribution doesn't offer a newer version or you are no administrator and cannot change what is installed on that system.
Of course, you can download bash source code and build your own bash from scratch, placing it to
~/bin for example. And you can also modify your
$PATH variable in your
.bash_profile file to include
~/bin as the first entry (
~ will not expand in
$PATH). If you now call
bash, the shell will first look for it in
$PATH in order, so it starts with
~/bin, where it will find your
bash. Same thing happens if scripts search for
#!/usr/bin/env bash, so these scripts would now be working on your system using your custom
One downside is, that this can lead to unexpected behavior, e.g. same script on the same machine may run with different interpreters for different environments or users with different search paths, causing all kind of headaches.
The biggest downside with
env is that some systems will only allow one argument, so you cannot do this
#!/usr/bin/env <interpreter> <arg>, as the systems will see
<interpreter> <arg> as one argument (they will treat it as if the expression was quoted) and thus
env will search for an interpreter named
<interpreter> <arg>. Note that this is not a problem of the
env command itself, which always allowed multiple parameters to be passed through but with the shebang parser of the system that parses this line before even calling
env. Meanwhile this has been fixed on most systems but if your script wants to be ultra portable, you cannot rely that this has been fixed on the system you will be running.
It can even have security implications, e.g. if
sudo was not configured to clean environment or
$PATH was excluded from clean up. Let me demonstrate this:
/bin is a well protected place, only
root is able to change anything there. Your home directory is not, though, any program you run is able to make changes to it. That means malicious code could place a fake
bash into some hidden directory, modify your
.bash_profile to include that directory in your
$PATH, so all scripts using
#!/usr/bin/env bash will end up running with that fake
$PATH, you are in big trouble.
E.g. consider a tool creates a file
~/.evil/bash with the following content:
#!/bin/bash if [ $EUID -eq 0 ]; then echo "All your base are belong to us..." # We are root - do whatever you want to do fi /bin/bash "$@"
Let's make a simple script
#!/usr/bin/env bash echo "Hello World"
Proof of concept (on a system where
$ ./sample.sh Hello World $ sudo ./sample.sh Hello World $ export PATH="$HOME/.evil:$PATH" $ ./sample.sh Hello World $ sudo ./sample.sh All your base are belong to us... Hello World
Usually the classic shells should all be located in
/bin and if you don't want to place them there for whatever reason, it's really not an issue to place a symlink in
/bin that points to their real locations (or maybe
/bin itself is a symlink), so I would always go with
#!/bin/bash. There's just too much that would break if these wouldn't work anymore. It's not that POSIX would require these position (POSIX does not standardize path names and thus it doesn't even standardize the shebang feature at all) but they are so common, that even if a system would not offer a
/bin/sh, it would probably still understand
#!/bin/sh and know what to do with it and may it only be for compatibility with existing code.
But for more modern, non standard, optional interpreters like Perl, PHP, Python, or Ruby, it's not really specified anywhere where they should be located. They may be in
/usr/bin but they may as well be in
/usr/local/bin or in a completely different hierarchy branch (
/Applications/..., etc.). That's why these often use the
#!/usr/bin/env xxx shebang syntax.
PATH, in the first place. Even if you have it in the last position in
PATH, at it later might not be last any longer.
Instead of explicitly defining the path to the interpreter as in
/usr/bin/bash/, by using the env command, the interpreter is searched for and launched from wherever it is first found. This has both upsides and downsides
I find it useful, because when I didn't know about env, before I started to write script I was doing this:
type nodejs > scriptname.js #or any other environment
and then I was modifying that line in the file into shebang.
I was doing this, because I didn't always remember where is nodejs on my computer -- /usr/bin/ or /bin/, so for me
env is very useful. Maybe there are details with this, but this is my reason
One reason is that it is portable across both Linux and BSD.
#!/usr/bin/bashwon't work. On my system (Ubuntu 17.04),
/bin/bash, and there is no
/usr/bin/bash. The distinction between
/usr/binis largely arbitrary. And just to add to the frivolity, most systems put the
/usr/bin, but that's not guaranteed.