Skip to content
/ sci Public

Framework designed to automate the process of assembly code injection (trojanising) within Android applications.

License

Notifications You must be signed in to change notification settings

aress31/sci

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

40 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Smali Code Injector (SCI)

Language Language Language Language License

Automate assembly code (smali) injection within Android applications.

The initial ambition of this project was to automate stack trace injections within Android applications in order to facilitate my master thesis work. Being able to log and display applications' runtime method calls along with their returned value greatly helps in reverse engineering complex applications by providing an insight into their logic and workflow.

Then, new features and payloads were progressively added in an attempt to create a framework fully capable of injecting any type of assembly code. Users familiar with Android development can easily implement compatible payloads. SCI is in charge of automating low level operation such as registers allocation, dependancie, type, etc.

Tampering Android applications has never been that easy!

Further information about Android reverse engineering can be found at:

Automation for a simpler world...

Code injections are performed at the assembly level (smali files) making the differenciation process between legit and modified applications complicated and time consuming - it would require considerable forensic work such as network, permissions, signature and code analysis -.

A high level overview of the steps involved during code injection is:

  1. Disassembling the application.
  2. Collecting relevant information about the application.
    • Classes name.
    • Methods name.
    • Registers number and type.
    • etc.
  3. Editing the AndroidManifest.xml to add permissions, services and broadcastReceivers (depending on the payload requirements).
  4. Injecting and tweaking up the selected payload within the targeted method(s). Some Android libraries are also injected in order to defeat obfuscation.
  5. Reassembling and signing the app with a valid self-signed certificate.

Usage

  • To list the available options:

    python3 sci.py -h
    
    -a APP, --app APP  	Android application to trojanize
    
    positional arguments:
        search          search command - identifies the main activity
        payload         payload command
  • To list search options:

    python3 sci.py -a APP search -h
    
    -a APP, --app APP   Android application to trojanize
  • To list payload options:

    python3 sci.py -a APP payload -h
    
    -a APP, --app APP   Android application to trojanize
    -d DESTINATION, --dest DESTINATION
                        the destination file or directoy for injection
    -k KEYWORDS, --keywords KEYWORDS
                        keywords (separated by ',') for injection filtering
    
    positional arguments:
        logger          logger command
        spyware         spyware command
    • To list logger options:

      python3 sci.py -a APP [-d DESTINATION] [-k KEYWORDS] logger -h
      
      -a APP, --app APP   Android application to trojanize
      -d DESTINATION, --dest DESTINATION
                          the destination file or directoy for injection
      -k KEYWORDS, --keywords KEYWORDS
                          keywords (separated by ',') for injection filtering

      Launch the Android debugger adb using the following command to view application's runtime method calls:

      adb logcat | grep "::trace"
    • To list spyware options:

      python3 sci.py -a APP payload [-d DESTINATION] [-k KEYWORDS] spyware -h
      
      -a APP, --app APP   Android application to trojanize
      -d DESTINATION, --dest DESTINATION
                          the destination file or directoy for injection
      -k KEYWORDS, --keywords KEYWORDS
                          keywords (separated by ',') for injection filtering
      -ppg PROPAGATE, --propagate PROPAGATE
                          spoofed SMS to send for the malware propagation
      -rh RHOST, --rhost RHOST
                          attacker's host/ip for stolen data transmission, e.g.
                          http://192.168.0.24/handler.php

      [!IMPORTANT] For optimal results, inject Spyware on the onCreate() method of the application main activity.

      Server-side scripts used to insert and store the stolen data sent into an attacker-controlled MySQL database are available under scripts.

      To enable spyware debugging mode set DEV_MODE to true in payloads\smali\spyware at line 7. Then launch the Android debugger adb using the following command:

      adb logcat | grep "::trace"

Roadmap

  • Implement new payloads (e.g. reverse shell).
  • Source code optimisation.

Project Information

This framework was developed in the context of my master thesis work in July 2015 and rewritten in 2017.

Sponsor 💖

If you want to support this project and appreciate the time invested in developping, maintening and extending it; consider donating toward my next cup of coffee. ☕

It is easy, all you got to do is press the Sponsor button at the top of this page or alternatively click this link. 💸

Reporting Issues

Found a bug? I would love to squash it! 🐛

Please report all issues on the GitHub issues tracker.

Contributing

You would like to contribute to better this project? 🤩

Please submit all PRs on the GitHub pull requests tracker.

License

See LICENSE.

Releases

No releases published

Sponsor this project

 

Packages

No packages published

Languages