/DarkWidow

Indirect Dynamic Syscall, SSN + Syscall address sorting via Modified TartarusGate approach + Remote Process Injection via APC Early Bird + Spawns a sacrificial Process as target process + (ACG+BlockDll) mitigation policy on spawned process + PPID spoofing + Api resolving from TIB + API hashing

Primary LanguageCMIT LicenseMIT

DarkWidow

A Customizable Dropper Tool targeting Windows.


Honourable Mentions:

  1. BlackHat Asia, 2024 - Call For Tools
  2. BlackHat USA, 2024 - Call For Tools
  3. BlackHat SecTor, 2024 - Call For Tools
  • Thanks a lot to Soumyadeep Da aka @SoumyadeepBas12 for encouraging me to apply for these conferences, else I wouldn't have done it :)
  • Thanks a lot to Faran aka @Chrollo_l33t for helping me to create the Slides and PPT for the presentation for this tool :)

Capabilities:

  1. Indirect Dynamic Syscall. (MITRE ATT&CK TTP: T1106)
  2. SSN + Syscall address sorting via Modified TartarusGate approach
  3. Remote Process Injection via APC Early Bird to CUT OFF telemetry Catching by EDR. (MITRE ATT&CK TTP: T1055.004)
  4. Spawns a sacrificial Process as the target process, not disrupting already open processes in the environment.
  5. ACG(Arbitrary Code Guard)/BlockDll mitigation policy on spawned sacrificial process.
  6. PPID spoofing (MITRE ATT&CK TTP: T1134.004)
  7. Api and Dll resolving from TIB (Directly via offset (from TIB) -> TEB -> PEB -> resolve Nt Api) (MITRE ATT&CK TTP: T1106)
  8. Cursed Nt API hashing (MITRE ATT&CK ID: S0574)

Bonus: If blessed with Admin privilege =>

  1. Disables Event Log via killing EventLog Service Threads (MITRE ATT&CK TTP: T1562.002)

Disadv: If threads are resumed, all events that occurred during the suspension of Event Logger, get logged Again!

So, thought of killing them instead!

"It's more Invasive than suspension, but the decision is always up to the operator. Besides, killing threads get logged on the kernel level" - @SEKTOR7net

While Killing only those threads in the indirect syscall implant, was facing an error. I was unable to get the "eventlog" SubProcessTag Value. So thought of killing all threads, i.e. killing the whole process (responsible svchost.exe). Yeah creating an IOC!.

=

1. EDR/Ring-3/UserLand hook Bypass

2. The syscall and return statement are executed from memory of ntdll.dll

3. EDR detection based on checking the return address in the call stack can be bypassed.

Compile:

Directly via VS compiler:

image

Also add /MT compiler flag! => To statically links CRT functions together in a binary (Yeah, U guessed it, it bloats the implant)

image

  1. Also via compile.bat (prefer option 1.)
./compile.bat

Usage:

PS C:> .\x64\Release\indirect.exe
[!] Wrong!
[->] Syntax: .\x64\Release\indirect.exe <PPID to spoof>

In Action:

DarkWidow.mp4

Successful Execution WithOut Creating Alert on Sofos XDR EndPoint:

SofosXDREvade


Further Improvements:

  1. PPID spoofing (Emotet method)
  2. Much Stealthier Use Case of EventLog Disabling!

Portions of the Code and links those helped:

  1. TIB:

  2. GS and FS register:

  3. PEB LDR structure:

  4. TIB -> TEB -> PEB -> Resolve Nt API and API hashing

#include <stdint.h>
#include <stdio.h>
#include <Windows.h>

DWORD64 djb2(const char* str)
{
	DWORD64 dwHash = 0x7734773477347734;
	int c;

	while (c = *str++)
		dwHash = ((dwHash << 0x5) + dwHash) + c;


	return dwHash;
}

int main(int argc, char** argv)
{
	if (argc < 2)
	{
		printf("[!] Wrong!\n");
		printf("[->] Syntax: .\\%s <NTFuncName>\n\n", argv[0]);
		return 1;
	}

	const char* string = argv[1];

	DWORD64 hashvalue = djb2(string);

	printf("Hash Value: 0x%llX\n", hashvalue);

	return 0;
}
  1. ACG(Arbitrary Code Guard)/BlockDll mitigation policy:

  2. PPID Spoofing Detection:

    • PPID Spoofing Detect by @spotheplanet
    • If got time, I will be adding a detection Portion to this portion! -> [Remaining..............................................!]
  3. Moneta Detection and PESieve Detection:\

    • Moneta:
      alt text

    • PESieve:
      alt text

  4. Capa Scan:
    alt text

  5. How Thread Stack Looks of the Implant Process:

Implant Process Legit Cmd process
alt text alt text

It follows that by executing the return instruction in the memory of the ntdll.dll in the indirect syscall POC, the return address can be successfully spoofed, the ntdll.dll can be placed at the top of the call stack and the EDR will interpret a higher legitimacy. - @VirtualAllocEx from DirectSyscall Vs Indirect Syscall
Also thanks to, @peterwintrsmith!

  1. Instrumentation CallBack Evasion: Used this POC - syscall-detect by winternl_t

image

  1. EventLogger Config, I used:

alt text alt text

  1. Setting SeDebugPrivilege:
    From Here: alt text To Here: alt text

  2. Killing Event Log Threads:

Sophos XDR Event Loging Scenario:

  1. Case 1: When Darkwidow executed under normal privilege

image

No Critical Alerts gets created except One Low Severity Log!

  1. Case 2: When Darkwidow executed under Admin privilege

image

One Low Severity Log => APC Injection (Like Before)

image

Another one which is a Medium Severity Log occured for setting SeDebugPrivilege.

image

DarkWidow V2:

To get around this Event Logging Detection, I added the concept of Synthetic Frame Thread Stack Spoofing into it.

This is how stack looks after applying synthetic frame thread stack spoofing.

image

This is the NT api Thread Stack

image

This is the shellcode (btw, this is not custom made, this is Havoc Shellcode :)) thread stack.

For shellcode development, I have used havoc and this below configuration:

image

NOTE:

Newly Created Thread Start Address Spoofing was not really required in this project cause within APC Injection technique, APC hijacks the execution of an already and legit running thread. Thanks to @C5pider!

Demo Execution Pic:

1708744707672

Demo Video against Sophos XDR:

Demo Video Youtube Link

Now Status On Event Logs ?

image

No logs got generated. I also have removed the Event Logger Killing part from the DarkWidow V2, which decreases down the Event generation too!

My BlackHat Arsenal Demo Video can be found in here:

Demo Video Youtube Link

Future Updates to this:

  1. Porting this version to C++ Clang Compiler, which would help us to perform LLVM obfuscation.
  2. Upgrading to NtCreateUserProcess() to perform indirect syscall and stack spoofing.
  3. Applying Manual Load Library capability for bypassing Image Load Kernel Callbacks.
  4. Applying Module Stomping capability.
  5. Encrypted shellcode Injection to avoid Kernel triggered memory scans (Caro-Kann).

Major Thanks for helping me out (Directly/indirectly (pun NOT intended :))):

  1. @SEKTOR7net
  2. @peterwintrsmith
  3. @Jean_Maes_1994
  4. @D1rkMtr
  5. @spotheplanet
  6. @0xBoku
  7. @Sh0ckFR
  8. @winterknife
  9. @monnappa22
  10. @xpn
  11. @hlldz
  12. @d_tranman�
  13. @SoumyadeepBas12
  14. @jack_halon
  15. @KlezVirus
  16. @C5pider

I hope I didn't miss someone!

This project is a part of my journey to learn about EDR World! => Learning-EDR-and-EDR_Evasion