Hijack Execution Flow: DLL Search Order Hijacking
Other sub-techniques of Hijack Execution Flow (11)
Adversaries may execute their own malicious payloads by hijacking the search order used to load DLLs. Windows systems use a common method to look for required DLLs to load into a program. [1] Hijacking DLL loads may be for the purpose of establishing persistence as well as elevating privileges and/or evading restrictions on file execution.
There are many ways an adversary can hijack DLL loads. Adversaries may plant trojan dynamic-link library files (DLLs) in a directory that will be searched before the location of a legitimate library that will be requested by a program, causing Windows to load their malicious library when it is called for by the victim program. Adversaries may also perform DLL preloading, also called binary planting attacks, [2] by placing a malicious DLL with the same name as an ambiguously specified DLL in a location that Windows searches before the legitimate DLL. Often this location is the current working directory of the program. Remote DLL preloading attacks occur when a program sets its current directory to a remote location such as a Web share before loading a DLL. [3]
Adversaries may also directly modify the way a program loads DLLs by replacing an existing DLL or modifying a .manifest or .local redirection file, directory, or junction to cause the program to load a different DLL. [4] [5] [6]
If a search order-vulnerable program is configured to run at a higher privilege level, then the adversary-controlled DLL that is loaded will also be executed at the higher level. In this case, the technique could be used for privilege escalation from user to administrator or SYSTEM or from administrator to SYSTEM, depending on the program.Programs that fall victim to path hijacking may appear to behave normally because malicious DLLs may be configured to also load the legitimate DLLs they were meant to replace.
Procedure Examples
Name | Description |
---|---|
BOOSTWRITE |
BOOSTWRITE has exploited the loading of the legitimate Dwrite.dll file by actually loading the gdi library, which then loads the gdiplus library and ultimately loads the local Dwrite dll.[7] |
Downdelph |
Downdelph uses search order hijacking of the Windows executable sysprep.exe to escalate privileges.[8] |
Empire |
Empire contains modules that can discover and exploit various DLL hijacking opportunities.[9] |
FinFisher |
A FinFisher variant uses DLL search order hijacking.[10][11] |
Hikit |
Hikit has used DLL Search Order Hijacking to load |
HTTPBrowser |
HTTPBrowser abuses the Windows DLL load order by using a legitimate Symantec anti-virus binary, VPDN_LU.exe, to load a malicious DLL that mimics a legitimate Symantec DLL, navlu.dll.[13] |
InvisiMole |
InvisiMole can be launched by using DLL search order hijacking in which the wrapper DLL is placed in the same folder as explorer.exe and loaded during startup into the Windows Explorer process instead of the legitimate library.[14] |
menuPass | |
MirageFox |
MirageFox is likely loaded via DLL hijacking into a legitimate McAfee binary.[16] |
PowerSploit |
PowerSploit contains a collection of Privesc-PowerUp modules that can discover and exploit DLL hijacking opportunities in services and processes.[17][18] |
Prikormka |
Prikormka uses DLL search order hijacking for persistence by saving itself as ntshrui.dll to the Windows directory so it will load before the legitimate ntshrui.dll saved in the System32 subdirectory.[19] |
RedLeaves |
RedLeaves is launched through use of DLL search order hijacking to load a malicious dll.[20] |
RTM |
RTM has used search order hijacking to force TeamViewer to load a malicious DLL.[21] |
Threat Group-3390 |
Threat Group-3390 has performed DLL search order hijacking to execute their payload.[22] |
WEBC2 |
Variants of WEBC2 achieve persistence by using DLL search order hijacking, usually by copying the DLL file to |
Whitefly |
Whitefly has used search order hijacking to run the loader Vcrodat.[24] |
Mitigations
Mitigation | Description |
---|---|
Audit |
Use auditing tools capable of detecting DLL search order hijacking opportunities on systems within an enterprise and correct them. Toolkits like the PowerSploit framework contain PowerUp modules that can be used to explore systems for DLL hijacking weaknesses.[25] |
Execution Prevention |
Adversaries may use new DLLs to execute this technique. Identify and block potentially malicious software executed through search order hijacking by using application control solutions capable of blocking DLLs loaded by legitimate software. |
Restrict Library Loading |
Disallow loading of remote DLLs. This is included by default in Windows Server 2012+ and is available by patch for XP+ and Server 2003+. Enable Safe DLL Search Mode to force search for system DLLs in directories with greater restrictions (e.g. The Safe DLL Search Mode can be enabled via Group Policy at Computer Configuration > [Policies] > Administrative Templates > MSS (Legacy): MSS: (SafeDllSearchMode) Enable Safe DLL search mode. The associated Windows Registry key for this is located at |
Detection
Monitor file systems for moving, renaming, replacing, or modifying DLLs. Changes in the set of DLLs that are loaded by a process (compared with past behavior) that do not correlate with known software, patches, etc., are suspicious. Monitor DLLs loaded into a process and detect DLLs that have the same file name but abnormal paths. Modifications to or creation of .manifest and .local redirection files that do not correlate with software updates are suspicious.
References
- Microsoft. (2018, May 31). Dynamic-Link Library Search Order. Retrieved November 30, 2014.
- OWASP. (2013, January 30). Binary planting. Retrieved June 7, 2016.
- Microsoft. (, May 23). Microsoft Security Advisory 2269637. Retrieved March 13, 2020.
- Microsoft. (2018, May 31). Dynamic-Link Library Redirection. Retrieved March 13, 2020.
- Microsoft. (n.d.). Manifests. Retrieved December 5, 2014.
- Nick Harbour. (2010, September 1). DLL Search Order Hijacking Revisited. Retrieved March 13, 2020.
- Carr, N, et all. (2019, October 10). Mahalo FIN7: Responding to the Criminal Operators’ New Tools and Techniques. Retrieved October 11, 2019.
- ESET. (2016, October). En Route with Sednit - Part 3: A Mysterious Downloader. Retrieved November 21, 2016.
- Schroeder, W., Warner, J., Nelson, M. (n.d.). Github PowerShellEmpire. Retrieved April 28, 2016.
- FinFisher. (n.d.). Retrieved December 20, 2017.
- Kaspersky Lab's Global Research & Analysis Team. (2017, October 16). BlackOasis APT and new targeted attacks leveraging zero-day exploit. Retrieved February 15, 2018.
- Glyer, C., Kazanciyan, R. (2012, August 20). The “Hikit” Rootkit: Advanced and Persistent Attack Techniques (Part 1). Retrieved June 6, 2016.
- Desai, D.. (2015, August 14). Chinese cyber espionage APT group leveraging recently leaked Hacking Team exploits to target a Financial Services Firm. Retrieved January 26, 2016.
- Hromcová, Z. (2018, June 07). InvisiMole: Surprisingly equipped spyware, undercover since 2013. Retrieved July 10, 2018.
- PwC and BAE Systems. (2017, April). Operation Cloud Hopper. Retrieved April 5, 2017.
- Rosenberg, J. (2018, June 14). MirageFox: APT15 Resurfaces With New Tools Based On Old Ones. Retrieved September 21, 2018.
- PowerShellMafia. (2012, May 26). PowerSploit - A PowerShell Post-Exploitation Framework. Retrieved February 6, 2018.
- PowerSploit. (n.d.). PowerSploit. Retrieved February 6, 2018.
- Cherepanov, A.. (2016, May 17). Operation Groundbait: Analysis of a surveillance toolkit. Retrieved May 18, 2016.
- FireEye iSIGHT Intelligence. (2017, April 6). APT10 (MenuPass Group): New Tools, Global Campaign Latest Manifestation of Longstanding Threat. Retrieved June 29, 2017.
- Skulkin, O. (2019, August 5). Following the RTM Forensic examination of a computer infected with a banking trojan. Retrieved May 11, 2020.
- Pantazopoulos, N., Henry T. (2018, May 18). Emissary Panda – A potential new malicious tool. Retrieved June 25, 2018.
- Mandiant. (n.d.). Appendix C (Digital) - The Malware Arsenal. Retrieved July 18, 2016.
- Symantec. (2019, March 6). Whitefly: Espionage Group has Singapore in Its Sights. Retrieved May 26, 2020.
- PowerSploit. (n.d.). Retrieved December 4, 2014.
- Microsoft. (2010, August 12). More information about the DLL Preloading remote attack vector. Retrieved December 5, 2014.