Explore disassembly, binary exploitation& reverse-engineering through 10 little challenges.
In the folder for each level you will find:
flag - password for next level
README.md - how to find password
source.c - the reverse engineered binary
dissasembly_notes.md - notes on asm
See the subject for more details.
For more gdb & exploitation fun check out the previous project RainFall.
Final Score 125/100First download from 42 OverRide.iso.
Virtual Machine setup
On Mac OSX, install VirtualBox.
In VirtualBox create a new VM (click new).
- Name and operating system - Type: Linux, Version: (Oracle 64-bit)
Continue through all the next steps with the default settings:
- Memory size: 4MB
- Hard disk: Create a disk now
- Hard disk file type: VDI(VirtualBox Disk Image)
- Storage on physical hard disk: Dynamically allocated
- File size: 12,00GB
Next click Settings > Network > Adapter 1 > Attached to: Bridged Adapter.
Still in settings click Storage > Right of "Controller: IDE", there is a CD icon with a + sign (add optical drive). Click Add Disk Image, and select OverRide.iso.
Click Start to start the VM, once runnning it should show the VM IP address and prompt user to login.
SSH connect
Log in from a separate shell as user level00 with password level00.
ssh level00@{VM_IP} -p 4242
As user level00 the goal is to read the password for user level01, found at /home/users/level01/.pass. However, user level00 does not have permissions to read this file.
In the home folder for user level00 is a binary level00 with SUID set and owner level01.
This means when we execute the binary level00, we do so with the permissions of user level01.
We must find a vulnerability in the binary level00 with gdb. Then exploit the vulnerability to run system("/bin/sh"), opening a shell as user level01 where we have permissions to read the password.
cat /home/users/level01/.pass
Then log in as user level01.
su level01
Repeat for each level.
Reverse-engineered binary
For each level, we reverse engineered the original source.c by examining the gdb disassembly of the binary.
Levels Overview
0 - Hardcoded password
1 - Ret2Libc attack
2 - printf() format string attack
3 - Brute force password
4 - gets() stack overflow + Return-to-libc attack
5 - Shellcode in env variable + printf() format string attack
6 - Hash value discoverable with gdb
7 - Ret2Libc Attack on unprotected data table
8 - Binary backs up password via symlink
9 - Off-by-one error
Team
I wrote this project in a team with the awesome @dfinnis.