Software Exercise 2.1: Compile Statically Linked Code¶
The goal of this exercise is to compile and statically link a piece of code and then submit it as a job. This exercise should take 5-10 minutes.
Background¶
There is a large amount of scientific software that is available as source code. Source code is usually a group of text files (code) meant to be downloaded and then compiled into a binary file which a computer can understand. Sometimes the source code depends on other pieces of code called libraries. If the source code is linked statically, these libraries are bundled into the compilation with the source code, creating a static binary which can be run on any computer with the same operating system.
Our Software Example¶
For this compiling example, we will use a script written in C. C code depends on libraries and therefore will benefit from being statically linked.
Our C code prints 7 rows of Pascal's triangle.
- Log into the OSG submit node
login04.osgconnect.net
. Create a directory for this exercise andcd
into it. - Copy and paste the following code into a file named
pascal.c
.#include "stdio.h" long factorial(int); int main() { int i, n, c; n=7; for (i = 0; i < n; i++){ for (c = 0; c <= (n - i - 2); c++) printf(" "); for (c = 0 ; c <= i; c++) printf("%ld ",factorial(i)/(factorial(c)*factorial(i-c))); printf("\n"); } return 0; } long factorial(int n) { int c; long result = 1; for (c = 1; c <= n; c++) result = result*c; return result; }
Compiling¶
In order to use this code in a job, we will first need to statically compile the code. Recall the slide from the lecture - where can we compile and where should we compile? In particular:
- Where is the compiler available?
- How computationally intensive will this compilation be?
-
Think about these questions before moving on. Where do you think we should compile?
-
Most linux servers (including our submit node) have the
gcc
(GNU compiler collection) installed, so we already have a compiler on the submit node. Furthermore, this is a simple piece of C code, so the compilation will not be computationally intensive. Thus, we should be able to compile directly on the submit node. -
Compile the code, using the command:
username@login $ gcc -static pascal.c -o pascal
Note that we have added the
-static
option to make sure that the compiled binary includes the necessary libraries. This will allow the code to run on any Linux machine, no matter where those libraries are located. -
Verify that the compiled binary was statically linked:
username@login $ file pascal
The Linux file
command provides information about the type or kind of file that is given as an argument. In this case, you should get output like this:
username@host $ file pascal
pascal: ELF 64-bit LSB executable, x86-64, version 1 (GNU/Linux), statically linked,
for GNU/Linux 2.6.18, not stripped
The output clearly states that this executable (software) is statically linked. The same command run on a non-statically linked executable file would include the text dynamically linked (uses shared libs)
instead. So with this simple verification step, which could even be run on files that you did not compile yourself, you have some further reassurance that it is safe to use on other Linux machines. (Bonus exercise: Try the file
command on lots of other files)
Submit the Job¶
Now that our code is compiled, we can use it to submit a job.
-
Think about what submit file lines we need to use to run this job:
- Are there input files?
- Are there command line arguments?
- Where is its output written?
-
Based on what you thought about in 1., find a submit file from earlier that you can modify to run our compiled
pascal
code. -
Copy it to the directory with the
pascal
binary and make those changes. -
Submit the job using
condor_submit
. -
Once the job has run and left the queue, you should be able to see the results (seven rows of Pascal's triangle) in the
.out
file created by the job.