Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

First, I already googled but only found examples where a compressed file (say a .tar.gz) is embedded into a shell script.

Basically if I have a C program (hello.c) that prints a string, say Hello World!.

I compile it to get an executable binary

gcc hello.c -o hello

Now I have a shell script

What I am asking is if it is possible to embed the binary (hello) inside the shell script so that when I run


it executes the binary to print Hello World!.

Clarification: One alternative is that I compress the executable into an archive and then extract it when the script runs. What I am asking is if it is possible to run the program without that.

Up until now, I was trying the method here. But it does not work for me. I guess the author was using some other distribution on another architecture. So, basically this did not work for me. :P

Also, if the workflow for a C program differs from a Java jar, I would like to know that too!

share|improve this question

3 Answers 3

up vote 10 down vote accepted

Yes, this can be done. It's actually quite similar in concept to your linked article. The trick is to use uuencode to encode the binary into text format then tack it on to the end of your script.

Your script is then written in such a way that it runs uudecode on itself to create a binary file, change the permissions then execute it.

uuencode and uudecode were originally created for shifting binary content around on the precursor to the internet, which didn't handles binary information that well. The conversion into text means that it can be shipped as a shell script as well. If, for some reason your distribution complains when you try to run uuencode, it probably means you have to install it. For example, on Debian Squeeze:

sudo aptitude install sharutils

will get the relevant executables for you. Here's the process I went through. First create and compile your C program hello.c:

pax> cat hello.c

#include <stdio.h>
int main (void) {
    printf ("Hello\n");
    return 0;

pax> gcc -o hello hello.c

Then create a shell script, which will decode itself:

pax> cat

rm -f hello
uudecode $0
rm -f hello

The first rm statement demonstrates that the hello executable is being created anew by this script, not left hanging around from your compilation. Since you need the payload in the file as well, attach the encoded executable to the end of it:

pax> uuencode hello hello >>

Afterwards, when you execute the script, it extracts the executable and runs it.

The reason this works is because uudecode looks for certain marker lines in its input (begin and end) which are put there by uuencode, so it only tries to decode the encoded program, not the entire script:

pax> cat

rm -f hello
uudecode $0
rm -f hello

begin 755 hello
: : :

There are other things you should probably worry about, such as the possibility that your program may require shared libraries that don't exist on the target system, but the process above is basically what you need.

The process for a JAR file is very similar, except that the way you run it is different. It's still a single file but you need to replace the line:


with something capable of running JAR files, such as:

java -jar hello.jar
share|improve this answer
It might also be a good idea to add a trap 'rm -f hello' SIGINT to the shell script so that the temporary file gets cleaned up in case the user Ctrl-C's the program. – Adam Rosenfield May 8 '12 at 3:08
Yes, I don't doubt there are a large number of improvements you could make to that code and that is a good one. I don't want to complicate it too much since I'm only trying to get across the concept. – paxdiablo May 8 '12 at 3:10
A really nice explanation. Thanks – Ankit May 8 '12 at 3:16
Above works great when script content is moved around as a file (cp, ftp etc.) but generally does not work if content is cut-and-pasted between machines. The default encoding for uuencode has characters / sequences that your shell could try to interpret. For example, in bash this line in uuencode output: M9"TE2"TE32TE4RDN='AT"E!33TQ$/20H96-H;RD4%,Q*0I04S$](EM<=2O (note the backtick single quote) produces this error: "-bash: command substitution: line 1: `D4%,Q*0I04S$](EM<=2'". To make your script cut-and-pastable, use base64 encoding by adding -m option to the uuencode command line. – Chris Johnson Jun 9 '12 at 21:11
Chris, at no stage should you be in a position where the shell is trying to interpret the uuencode output. It's meant to be put directly into a file, after an exit to ensure the shell ignores it totally. If you're cut'n'pasting it into an interactive shell rather than an editor, you're doing it wrong :-) – paxdiablo Oct 20 at 0:44

I think makeself is what you're describing.

share|improve this answer

The portable way to do this is with the printf command and octal escapes:

printf '\001\002\003'

to print bytes 1, 2, and 3. Since you probably don't want to write that all by hand, the od -b command can be used to generate an octal dump of the file, then you can use a sed script to strip off the junk and put the right backslashes in place.

share|improve this answer
The command to create the string with the octals is od -b BINARYFILE | sed -n 's%[0-9]\{4,\}\ \([0-9]\{3\}.*\)%\1%p' | perl -pe 's%^%\\%;s%\ %\\%g;s%\n%%'). This created octal string is the one, that printf has to have as argument. – erik Feb 7 '14 at 10:50

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.