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TECHNIQUES
PRE-ATT&CK
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Target Selection
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Pre-OS Boot
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Signed Binary Proxy Execution
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Subvert Trust Controls
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Trusted Developer Utilities Proxy Execution
Use Alternate Authentication Material
Valid Accounts
Virtualization/Sandbox Evasion
Credential Access
Brute Force
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Modify Authentication Process
OS Credential Dumping
Steal or Forge Kerberos Tickets
Unsecured Credentials
Discovery
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Permission Groups Discovery
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Virtualization/Sandbox Evasion
Lateral Movement
Remote Service Session Hijacking
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Use Alternate Authentication Material
Collection
Archive Collected Data
Data from Information Repositories
Data Staged
Email Collection
Input Capture
Man-in-the-Middle
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Application Layer Protocol
Data Encoding
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Dynamic Resolution
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Exfiltration
Exfiltration Over Alternative Protocol
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Impact
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Disk Wipe
Endpoint Denial of Service
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  1. Home
  2. Techniques
  3. Enterprise
  4. Process Injection
  5. VDSO Hijacking

Process Injection: VDSO Hijacking

ID Name
T1055.001 Dynamic-link Library Injection
T1055.002 Portable Executable Injection
T1055.003 Thread Execution Hijacking
T1055.004 Asynchronous Procedure Call
T1055.005 Thread Local Storage
T1055.008 Ptrace System Calls
T1055.009 Proc Memory
T1055.011 Extra Window Memory Injection
T1055.012 Process Hollowing
T1055.013 Process Doppelgänging
T1055.014 VDSO Hijacking

Adversaries may inject malicious code into processes via VDSO hijacking in order to evade process-based defenses as well as possibly elevate privileges. Virtual dynamic shared object (vdso) hijacking is a method of executing arbitrary code in the address space of a separate live process.

VDSO hijacking involves redirecting calls to dynamically linked shared libraries. Memory protections may prevent writing executable code to a process via Ptrace System Calls. However, an adversary may hijack the syscall interface code stubs mapped into a process from the vdso shared object to execute syscalls to open and map a malicious shared object. This code can then be invoked by redirecting the execution flow of the process via patched memory address references stored in a process' global offset table (which store absolute addresses of mapped library functions).[1] [2] [3] [4]

Running code in the context of another process may allow access to the process's memory, system/network resources, and possibly elevated privileges. Execution via VDSO hijacking may also evade detection from security products since the execution is masked under a legitimate process.

ID: T1055.014
Sub-technique of:  T1055
Tactics: Defense Evasion, Privilege Escalation
Platforms: Linux
Data Sources: Process monitoring, System calls
Defense Bypassed: Anti-virus, Application control
Version: 1.0
Created: 14 January 2020
Last Modified: 20 June 2020

Mitigations

Mitigation Description
Behavior Prevention on Endpoint

Some endpoint security solutions can be configured to block some types of process injection based on common sequences of behavior that occur during the injection process.

Detection

Monitor for malicious usage of system calls, such as ptrace and mmap, that can be used to attach to, manipulate memory, then redirect a processes' execution path. Monitoring for Linux specific calls such as the ptrace system call should not generate large amounts of data due to their specialized nature, and can be a very effective method to detect some of the common process injection methods.[5] [6] [7] [8]

Analyze process behavior to determine if a process is performing actions it usually does not, such as opening network connections, reading files, or other suspicious actions that could relate to post-compromise behavior.

References

  1. O'Neill, R. (2009, May). Modern Day ELF Runtime infection via GOT poisoning. Retrieved March 15, 2020.
  2. backtrace. (2016, April 22). ELF SHARED LIBRARY INJECTION FORENSICS. Retrieved June 15, 2020.
  3. Petersson, J. (2005, August 14). What is linux-gate.so.1?. Retrieved June 16, 2020.
  4. Drysdale, D. (2014, July 16). Anatomy of a system call, part 2. Retrieved June 16, 2020.
  1. Ligh, M.H. et al.. (2014, July). The Art of Memory Forensics: Detecting Malware and Threats in Windows, Linux, and Mac Memory. Retrieved December 20, 2017.
  2. GNU. (2010, February 5). The GNU Accounting Utilities. Retrieved December 20, 2017.
  3. Jahoda, M. et al.. (2017, March 14). redhat Security Guide - Chapter 7 - System Auditing. Retrieved December 20, 2017.
  4. stderr. (2014, February 14). Detecting Userland Preload Rootkits. Retrieved December 20, 2017.