"#!/bin/sh" is a common idiom to insure that the correct interpreter is used to run the script. Here, "sh" is the "Bourne Shell". A good, standard "least common denominator" for shell scripts.
In your case, however, "#!/bin/sh" seems to be the wrong interpreter.
Here's a bit more info:
Originally, we only had one shell on unix. When you asked to run a
command, the shell would attempt to invoke one of the exec() system
calls on it. It the command was an executable, the exec would succeed
and the command would run. If the exec() failed, the shell would not
give up, instead it would try to interpet the command file as if it
were a shell script.
Then unix got more shells and the situation became confused. Most
folks would write scripts in one shell and type commands in another.
And each shell had differing rules for feeding scripts to an
This is when the "#! /" trick was invented. The idea was to let the
kernel's exec() system calls succeed with shell scripts. When the
kernel tries to exec() a file, it looks at the first 4 bytes which
represent an integer called a magic number. This tells the kernel if
it should try to run the file or not. So "#! /" was added to magic
numbers that the kernel knows and it was extended to actually be able
to run shell scripts by itself. But some people could not type "#! /",
they kept leaving the space out. So the kernel was exended a bit again
to allow "#!/" to work as a special 3 byte magic number.
#! /usr/bin/ksh and
#!/usr/bin/ksh now mean the same thing. I always use the former since at least some kernels might still exist that don't understand the
And note that the first line is a signal to the kernel, and not to the
shell. What happens now is that when shells try to run scripts via
exec() they just succeed. And we never stumble on their various