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Read the original article at https://www.cisa.gov/news-events/cybersecurity-advisories/aa23-165a

SUMMARY

In 2022, LockBit was the most deployed ransomware variant across the world and continues to be prolific in 2023. Since January 2020, affiliates using LockBit have attacked organizations of varying sizes across an array of critical infrastructure sectors, including financial services, food and agriculture, education, energy, government and emergency services, healthcare, manufacturing, and transportation. LockBit ransomware operation functions as a Ransomware-as-a-Service (RaaS) model where affiliates are recruited to conduct ransomware attacks using LockBit ransomware tools and infrastructure. Due to the large number of unconnected affiliates in the operation, LockBit ransomware attacks vary significantly in observed tactics, techniques, and procedures (TTPs). This variance in observed ransomware TTPs presents a notable challenge for organizations working to maintain network security and protect against a ransomware threat.

The Cybersecurity and Infrastructure Security Agency (CISA), Federal Bureau of Investigation (FBI), the Multi-State Information Sharing and Analysis Center (MS-ISAC), and the following international partners, hereafter referred to as “authoring organizations,” are releasing this Cybersecurity Advisory (CSA) detailing observed activity in LockBit ransomware incidents and providing recommended mitigations to enable network defenders to proactively improve their organization’s defenses against this ransomware operation. 

  • Australian Cyber Security Centre (ACSC)
  • Canadian Centre for Cyber Security (CCCS)
  • United Kingdom’s National Cyber Security Centre (NCSC-UK)
  • National Cybersecurity Agency of France (ANSSI)
  • Germany’s Federal Office for Information Security (BSI)
  • New Zealand’s Computer Emergency Response Team (CERT NZ) and National Cyber Security Centre (NCSC NZ) 

The authoring organizations encourage the implementation of the recommendations found in this CSA to reduce the likelihood and impact of future ransomware incidents.

TECHNICAL DETAILS

Note: This advisory uses the MITRE ATT&CK for Enterprise framework, version 13.1. See the MITRE ATT&CK Tactics and Techniques section for tables of LockBit’s activity mapped to MITRE ATT&CK® tactics and techniques.

Introduction

The LockBit RaaS and its affiliates have negatively impacted organizations, both large and small, across the world. In 2022, LockBit was the most active global ransomware group and RaaS provider in terms of the number of victims claimed on their data leak site. [1] A RaaS cybercrime group maintains the functionality of a particular ransomware variant, sells access to that ransomware variant to individuals or groups of operators (often referred to as “affiliates”), and supports affiliates’ deployment of their ransomware in exchange for upfront payment, subscription fees, a cut of profits, or a combination of upfront payment, subscription fees, and a cut of profits. Some of the methods LockBit has used to successfully attract affiliates include, but are not limited to:

  • Assuring payment by allowing affiliates to receive ransom payments before sending a cut to the core group; this practice stands in stark contrast to other RaaS groups who pay themselves first and then disburse the affiliates’ cut.
  • Disparaging other RaaS groups in online forums.
  • Engaging in publicity-generating activities stunts, such as paying people to get LockBit tattoos and putting a $1 million bounty on information related to the real-world identity of LockBit’s lead who goes by the persona “LockBitSupp.”
  • Developing and maintaining a simplified, point-and-click interface for its ransomware, making it accessible to those with a lower degree of technical skill. [2, 3]

LockBit has been successful through innovation and ongoing development of the group’s administrative panel and the RaaS supporting functions. In parallel, affiliates that work with LockBit and other notable variants are constantly revising the TTPs used for deploying and executing ransomware.

Table 1 shows LockBit RaaS’s innovation and development.

Table 1: Evolution of LockBit RaaS

Date

Event

September 2019

First observed activity of ABCD ransomware, the predecessor to LockBit. [4]

January 2020

LockBit-named ransomware first seen on Russian-language based cybercrime forums.

June 2021

Appearance of LockBit version 2 (LockBit 2.0), also known as LockBit Red including StealBit, a built-in information-stealing tool.

October 2021

Introduction of LockBit Linux-ESXi Locker version 1.0 expanding capabilities to target systems to Linux and VMware ESXi. [5]

March 2022

Emergence of LockBit 3.0, also known as LockBit Black, that shares similarities with BlackMatter and Alphv (also known as BlackCat) ransomware.

September 2022

Non-LockBit affiliates able to use LockBit 3.0 after its builder was leaked. [2, 6]

January 2023

Arrival of LockBit Green incorporating source code from Conti ransomware. [7]

April 2023

LockBit ransomware encryptors targeting macOS seen on VirusTotal [8, 9]

LockBit 2.0, LockBit 3.0, LockBit Green, and LockBit Linux-ESXi Locker are still available for affiliates’ use on LockBit’s panel.

LockBit Statistics

Percentage of ransomware incidents attributed to LockBit:
  • Australia: From April 1, 2022, to March 31, 2023, LockBit made up 18% of total reported Australian ransomware incidents. This figure includes all variants of LockBit ransomware, not solely LockBit 3.0.
  • Canada: In 2022, LockBit was responsible for 22% of attributed ransomware incidents in Canada.[10]
  • New Zealand: In 2022, CERT NZ received 15 reports of LockBit ransomware, representing 23% of 2022 ransomware reports.
  • United States: In 2022, 16% of the State, Local, Tribal, and Tribunal (SLTT) government ransomware incidents reported to the MS-ISAC were identified as LockBit attacks. This included ransomware incidents impacting municipal governments, county governments, public higher education and K-12 schools, and emergency services (e.g., law enforcement).
Number of LockBit ransomware attacks in the U.S. since 2020:
  • About 1,700 attacks according to the FBI.
Total of U.S. ransoms paid to LockBit:
  • Approximately $91M since LockBit activity was first observed in the U.S. on January 5, 2020.
Earliest observed LockBit activity:
  • Australia: The earliest documented occurrence of LockBit 3.0 was in early August 2022.
  • Canada: The first recorded instance of LockBit activity in Canada was in March 2020.
  • New Zealand: The first recorded incident involving LockBit ransomware was in March 2021.
  • United States: LockBit activity was first observed on January 5, 2020.
Most recently observed LockBit activity:
  • Australia: April 21, 2023.
  • New Zealand: February 2023.
  • United States: As recently as May 25, 2023.
Operational activity related to LockBit in France

Since the first case in July 2020 to present, ANSSI has handled 80 alerts linked to the LockBit ransomware, which accounts for 11% of all ransomware cases handled by ANSSI in that period. In about 13% of those cases, ANSSI was not able to confirm nor deny the breach of its constituents’ networks – as the alerts were related to the threat actor’s online claims. So far, 69 confirmed incidents have been handled by ANSSI. Table 2 shows the LockBit activity observed by ANSSI versus overall ransomware activity tracked by the Computer Emergency Response Team-France (CERT-FR).

Table 2: ANSSI-Observed LockBit vs. Overall Ransomware Activity

Year

Number of Incidents

Percentage of CERT-FR’s Ransomware-Related Activity

2020 (from July)

4

2%

2021

20

10%

2022

30

27%

2023

15

27%

Total (2020-2023)

69

11%

Table 3 shows the number of instances different LockBit strains were observed by ANSSI from July 2020 to present.

Table 3: ANSSI-Observed LockBit Strain and Number of Instances

Name of the Strain*

Number of Instances

LockBit 2.0 (LockBit Red)

26

LockBit 3.0 (LockBit Black)

23

LockBit

21

LockBit Green

1

LockBit (pre-encryption)

1

Total

72**

* Name either obtained from ANSSI’s or the victim’s investigations
** Includes incidents with multiple strains
Figure 1: ANSSI-Observed LockBit Strains by Year

Figure 1: ANSSI-Observed LockBit Strains by Year

From the incidents handled, ANSSI can infer that LockBit 3.0 widely took over from LockBit 2.0 and the original LockBit strain from 2022. In two cases, victims were infected with as many as three different strains of LockBit (LockBit 2.0/Red, LockBit 3.0/Black, and LockBit Green).

Leak Sites

The authoring agencies observe data leak sites, where attackers publish the names and captured data of victims if they do not pay ransom or hush money. Additionally, these sites can be used to record alleged victims who have been threatened with a data leak. The term ‘victims’ may include those who have been attacked, or those who have been threatened or blackmailed (with the attack having taken place).

The leak sites only show the portion of LockBit affiliates’ victims subjected to secondary extortion. Since 2021, LockBit affiliates have employed double extortion by first encrypting victim data and then exfiltrating that data while threatening to post that stolen data on leak sites. Because LockBit only reveals the names and leaked data of victims who refuse to pay the primary ransom to decrypt their data, some LockBit victims may never be named or have their exfiltrated data posted on leak sites. As a result, the leak sites reveal a portion of LockBit affiliates’ total victims. For these reasons, the leak sites are not a reliable indicator of when LockBit ransomware attacks occurred. The date of data publication on the leak sites may be months after LockBit affiliates actually executed ransomware attacks.

Up to the Q1 2023, a total of 1,653 alleged victims were observed on LockBit leak sites. With the introduction of LockBit 2.0 and LockBit 3.0, the leak sites have changed, with some sources choosing to differentiate leak sites by LockBit versions and others ignoring any differentiation. Over time, and through different evolutions of LockBit, the address and layout of LockBit leak sites have changed and are aggregated under the common denominator of the LockBit name. The introduction of LockBit 2.0 at the end of the Q2 2021 had an immediate impact on the cybercriminal market due to multiple RaaS operations shutting down in May and June 2021 (e.g., DarkSide and Avaddon). LockBit competed with other RaaS operations, like Hive RaaS, to fill the gap in the cybercriminal market leading to an influx of LockBit affiliates. Figure 2 shows the alleged number of victims worldwide on LockBit leak sites starting in Q3 2020. Figure 2 shows the alleged number of victims worldwide on LockBit leak sites starting in Q3 2020.

Figure 2: Alleged Number of Victims Worldwide on LockBit Leak Sites

Figure 2: Alleged Number of Victims Worldwide on LockBit Leak Sites

Tools

During their intrusions, LockBit affiliates have been observed using various freeware and open-source tools that are intended for legal use.. When repurposed by LockBit, these tools are then used for a range of malicious cyber activity, such as network reconnaissance, remote access and tunneling, credential dumping, and file exfiltration. Use of PowerShell and batch scripts are observed across most intrusions, which focus on system discovery, reconnaissance, password/credential hunting, and privilege escalation. Artifacts of professional penetration-testing tools such as Metasploit and Cobalt Strike have also been observed.

Table 4 shows a list of legitimate freeware and open-source tools LockBit affiliates have repurposed for ransomware operations. The legitimate freeware and open-source tools mentioned in this product are all publicly available and legal. The use of these tools by a threat actor should not be attributed to the freeware and open-source tools, absent specific articulable facts tending to show they are used at the direction or under the control of a threat actor.

Table 4: Freeware and Open-Source Tools Used by LockBit Affiliates

Tool

Intended Use

Repurposed Use by LockBit Affiliates

MITRE ATT&CK ID

7-zip

Compresses files into an archive.

Compresses data to avoid detection before exfiltration.

T1562

Impair Defenses

AdFind

Searches Active Directory (AD) and gathers information.

Gathers AD information used to exploit a victim’s network, escalate privileges, and facilitate lateral movement.

S0552

AdFind

Advanced Internet Protocol (IP) Scanner

Performs network scans and shows network devices.

Maps a victim’s network to identify potential access vectors.

T1046

Network Service Discovery

Advanced Port Scanner

Performs network scans.

Finds open Transmission Control Protocol (TCP) and User Data Protocol (UDP) ports for exploitation.

T1046

Network Service Discovery

AdvancedRun

Allows software to be run with different settings.

Enables escalation of privileges by changing settings before running software.

TA0004

Privilege Escalation

AnyDesk

Enables remote connections to network devices.

Enables remote control of victim’s network devices.

T1219

Remote Access Software

Atera Remote Monitoring & Management (RMM)

Enables remote connections to network devices.

Enables remote control of victim’s network devices.

T1219

Remote Access Software

Backstab

Terminates antimalware-protected processes.

Terminates endpoint detection and response (EDR)- protected processes.

T1562.001

Impair Defenses: Disable or Modify Tools

Bat Armor

Generates .bat files using PowerShell scripts.

Bypasses PowerShell execution policy.

T1562.001

Impair Defenses: Disable or Modify Tools

Bloodhound

Performs reconnaissance of AD for attack path management.

Enables identification of AD relationships that can be exploited to gain access onto a victim’s network.

T1482

Domain Trust Discovery

Chocolatey

Handles command-line package management on Microsoft Windows.

Facilitates installation of LockBit affiliate actors’ tools.

T1072

Software Deployment Tools

Defender Control

Disables Microsoft Defender.

Enables LockBit affiliate actors to bypass Microsoft Defender.

T1562.001

Impair Defenses: Disable or Modify Tools

ExtPassword

Recovers passwords from Windows systems.

Obtains credentials for network access and exploitation.

T1003

Operating System (OS) Credential Dumping

FileZilla

Performs cross-platform File Transfer Protocol (FTP) to a site, server, or host.

Enables data exfiltration over FTP to the LockBit affiliate actors’ site, server, or host.

T1071.002

Application Layer Protocol: File Transfer Protocols

FreeFileSync

Facilitates cloud-based file synchronization.

Facilitates cloud-based file synchronization for data exfiltration.

T1567.002

Exfiltration Over Web Service: Exfiltration to Cloud Storage

GMER

Removes rootkits.

Terminates and removes EDR software.

T1562.001

Impair Defenses: Disable or Modify Tools

Impacket

Collection of Python classes for working with network protocols.

Enables lateral movement on a victim’s network.

S0357

Impacket

LaZagne

Recovers system passwords across multiple platforms.

Collect credentials for accessing a victim’s systems and network.

S0349

LaZagne

Ligolo

Establishes SOCKS5 or TCP tunnels from a reverse connection for pen testing.

Enables connections to systems within the victim’s network via reverse tunneling.

T1095

Non-Application Layer Protocol

LostMyPassword

Recovers passwords from Windows systems.

Obtains credentials for network access and exploitation.

T1003

OS Credential Dumping

MEGA Ltd MegaSync

Facilitates cloud-based file synchronization.

Facilitates cloud-based file synchronization for data exfiltration.

T1567.002

Exfiltration Over Web Service: Exfiltration to Cloud Storage

Microsoft Sysinternals ProcDump

Monitors applications for central processing unit (CPU) spikes and generates crash dumps during a spike.

Obtains credentials by dumping the contents of Local Security Authority Subsystem Service (LSASS).

T1003.001

OS Credential Dumping: LSASS Memory

Microsoft Sysinternals PsExec

Executes a command-line process on a remote machine.

Enables LockBit affiliate actors to control victim’s systems.

S0029

PsExec

Mimikatz

Extracts credentials from a system.

Extracts credentials from a system for gaining network access and exploiting systems.

S0002

Mimikatz

Ngrok

Enables remote access to a local web server by tunnelling over the internet.

Enables victim network protections to be bypassed by tunnelling to a system over the internet.

S0508

Ngrok

PasswordFox

Recovers passwords from Firefox Browser.

Obtains credentials for network access and exploitation.

T1555.003

Credentials from Web Browsers

PCHunter

Enables advanced task management including system processes and kernels.

Terminates and circumvents EDR processes and services.

T1562.001

Impair Defenses: Disable or Modify Tools

PowerTool

Removes rootkits, as well as detecting, analyzing, and fixing kernel structure modifications.

Terminates and removes EDR software.

T1562.001

Impair Defenses: Disable or Modify Tools

Process Hacker

Removes rootkits.

Terminates and removes EDR software.

T1562.001

Impair Defenses: Disable or Modify Tools

PuTTY Link (Plink)

Automates Secure Shell (SSH) actions on Windows.

Enables LockBit affiliate actors to avoid detection.

T1572

Protocol Tunneling

Rclone

Manages cloud storage files using a command-line program.

Facilitates data exfiltration over cloud storage.

S1040

Rclone

Seatbelt

Performs numerous security-oriented checks.

 

Performs numerous security-oriented checks to enumerate system information.

T1082

System Information Discovery

ScreenConnect (also known as ConnectWise)

Enables remote connections to network devices for management.

Enables LockBit affiliate actors to remotely connect to a victim’s systems.

T1219

Remote Access Software

SoftPerfect Network Scanner

Performs network scans for systems management.

Enables LockBit affiliate actors to obtain information about a victim’s systems and network.

T1046

Network Service Discovery

Splashtop

Enables remote connections to network devices for management.

Enables LockBit affiliate actors to remotely connect to systems over Remote Desktop Protocol (RDP).

T1021.001

Remote Services: Remote Desktop Protocol

TDSSKiller

Removes rootkits.

Terminates and removes EDR software.

T1562.001

Impair Defenses: Disable or Modify Tools

TeamViewer

Enables remote connections to network devices for management.

Enables LockBit affiliate actors to remotely connect to a victim’s systems.

T1219

Remote Access Software

ThunderShell

Facilitates remote access via Hypertext Transfer Protocol (HTTP) requests.

Enables LockBit affiliate actors to remotely access systems while encrypting network traffic.

T1071.001

Application Layer Protocol: Web Protocols

WinSCP

Facilitates file transfer using SSH File Transfer Protocol for Microsoft Windows.

Enables data exfiltration via the SSH File Transfer Protocol.

T1048

Exfiltration Over Alternative Protocol

Common Vulnerabilities and Exposures (CVEs) Exploited

Based on secondary sources, it was noted that affiliates exploit older vulnerabilities like CVE-2021-22986, F5 iControl REST unauthenticated Remote Code Execution Vulnerability, as well as newer vulnerabilities such as:

  • CVE-2023-0669: Fortra GoAnyhwere Managed File Transfer (MFT) Remote Code Execution Vulnerability
  • CVE-2023-27350: PaperCut MF/NG Improper Access Control Vulnerability

LockBit affiliates have been documented exploiting numerous CVEs, including:

For further information on these CVEs , see CISA’s Known Exploited Vulnerabilities (KEV) Catalog.

Post Detonation TTPs

When LockBit affiliates target an organization responsible for managing other organizations’ networks, CERT NZ has observed LockBit affiliates attempt secondary ransomware extortion after detonation of the LockBit variant on the primary target. Once the primary target is hit, LockBit affiliates then attempt to extort the companies that are customers of the primary target. This extortion is in the form of secondary ransomware that locks down services those customers consume. Additionally, the primary target’s customers may be extorted by LockBit affiliates threatening to release those customers’ sensitive information.

MITRE ATT&CK Tactics and Techniques

Tables 5-16 show the LockBit affiliate tactics and techniques referenced in this advisory.

Table 5: LockBit Affiliates’ ATT&CK Techniques for Enterprise – Initial Access

Technique Title

ID

Use

Drive-by Compromise

T1189

LockBit affiliates gain access to a system through a user visiting a website over the normal course of browsing.

Exploit Public-Facing Application

T1190

LockBit affiliates may exploit vulnerabilities (e.g., Log4Shell) in internet-facing systems to gain access to victims’ systems.

External Remote Services

T1133

LockBit affiliates exploit RDP to gain access to victims’ networks.

Phishing

T1566

LockBit affiliates use phishing and spearphishing to gain access to victims’ networks.

Valid Accounts

T1078

LockBit affiliates obtain and abuse credentials of existing accounts as a means of gaining initial access.

Table 6: LockBit Affiliates’ ATT&CK Techniques for Enterprise – Execution

Technique Title

ID

Use

Execution

TA0002

LockBit 3.0 launches commands during its execution.

Command and Scripting Interpreter: Windows Command Shell

T1059.003

LockBit affiliates use batch scripts to execute malicious commands.

Software Deployment Tools

T1072

LockBit affiliates may use Chocolatey, a command-line package manager for Windows.

 

 

Technique Title

ID

Use

System Services: Service Execution

T1569.002

LockBit 3.0 uses PsExec to execute commands or payloads.

Table 7: LockBit Affiliates’ ATT&CK Techniques for Enterprise – Persistence

Technique Title

ID

Use

Boot or Logon Autostart Execution

T1547

LockBit affiliates enables automatic logon for persistence.

Valid Accounts

T1078

LockBit affiliates may use a compromised user account to maintain persistence on the target network.

Table 8: LockBit Affiliates’ ATT&CK Techniques for Enterprise – Privilege Escalation

Technique Title

ID

Use

Privilege Escalation

TA0004

LockBit affiliates will attempt to escalate to the required privileges if current account privileges are insufficient.

Abuse Elevation Control Mechanism

T1548

LockBit affiliates may use ucmDccwCOM Method in UACMe, a GitHub collection of User Account Control (UAC) bypass techniques.

Boot or Logon Autostart Execution

T1547

LockBit affiliates enable automatic logon for privilege escalation.

Domain Policy Modification: Group Policy Modification

T1484.001

LockBit affiliates may create Group Policy for lateral movement and can force group policy updates. 

Valid Accounts

T1078

LockBit affiliates may use a compromised user account to escalate privileges on a victim’s network.

Table 9: LockBit Affiliates’ ATT&CK Techniques for Enterprise – Defense Evasion

Technique Title

ID

Use

Execution Guardrails: Environmental Keying

T1480.001

LockBit 3.0 will only decrypt the main component or continue to decrypt and/or decompress data if the correct password is entered.

Impair Defenses: Disable or Modify Tools

T1562.001

LockBit 3.0 affiliates use Backstab, Defender Control, GMER, PCHunter, PowerTool, Process Hacker or TDSSKiller to disable EDR processes and services.

 

LockBit 3.0 affiliates use Bat Armor to bypass the PowerShell execution Policy.

 

LockBit affiliates may deploy a batch script, 123.bat, to disable and uninstall antivirus software.

 

Lockbit 3.0 may modify and/or disable security tools including EDR and antivirus to avoid possible detection of malware, tools, and activities.

Indicator Removal: Clear Windows Event Logs

T1070.001

 

LockBit executable clears the Windows Event Logs files.

Indicator Removal: File Deletion

T1070.004

LockBit 3.0 will delete itself from the disk.

Obfuscated Files or Information

T1027

LockBit 3.0 will send encrypted host and bot information to its command and control (C2) servers.

Obfuscated Files or Information: Software Packing

T1027.002

LockBit affiliates may perform software packing or virtual machine software protection to conceal their code. Blister Loader has been used for such purpose.

Table 10: LockBit Affiliates’ ATT&CK Techniques for Enterprise – Credential Access

Technique Title

ID

Use

Brute Force

T1110

LockBit affiliates may leverage VPN or RDP brute force credentials as an initial access.

Credentials from Password Stores: Credentials from Web Browsers

T1555.003

LockBit 3.0 actors use PasswordFox to recover passwords from Firefox Browser.

OS Credential Dumping

T1003

LockBit 3.0 actors use ExtPassword or LostMyPassword to recover passwords from Windows systems.

OS Credential Dumping: LSASS Memory

T1003.001

LockBit affiliates may use Microsoft Sysinternals ProDump to dump the contents of lsass.exe.

LockBit affiliates have used Mimikatz to dump credentials.

Table 11: LockBit Affiliates’ ATT&CK Techniques for Enterprise – Discovery

Technique Title

ID

Use

Network Service Discovery

T1046

LockBit affiliates use SoftPerfect Network Scanner, Advanced IP Scanner, or Advanced Port Scanner to scan target networks.

LockBit affiliates may use SoftPerfect Network Scanner, Advanced Port Scanner, and AdFind to enumerate connected machines in the network.

System Information Discovery

T1082

LockBit affiliates will enumerate system information to include hostname, host configuration, domain information, local drive configuration, remote shares, and mounted external storage devices.

System Location Discovery: System Language Discovery

T1614.001

LockBit 3.0 will not infect machines with language settings that match a defined exclusion list.

Table 12: LockBit Affiliates’ ATT&CK Techniques for Enterprise – Lateral Movement

Technique Title

ID

Use

Lateral Movement

TA0008

LockBit affiliates will laterally move across networks and access domain controllers.

Remote Services: Remote Desktop Protocol

T1021.001

LockBit affiliates use Splashtop remote-desktop software to facilitate lateral movement.

Remote Services: Server Message Block (SMB)/Admin Windows Shares

T1021.002

LockBit affiliates may use Cobalt Strike and target SMB shares for lateral movement.

Table 13: LockBit Affiliates’ ATT&CK Techniques for Enterprise – Collection

Technique Title

ID

Use

Archive Collected Data: Archive via Utility

T1560.001

LockBit affiliates may use 7-zip to compress and/or encrypt collected data prior to exfiltration.

Table 14: LockBit Affiliates’ ATT&CK Techniques for Enterprise – Command and Control

Technique Title

ID

Use

Application Layer Protocol: File Transfer Protocols

T1071.002

LockBit affiliates may use FileZilla for C2.

Application Layer Protocol: Web Protocols

T1071.001

LockBit affiliates use ThunderShell as a remote access tool that communicates via HTTP requests.

Non-Application Layer Protocol

T1095

LockBit affiliates use Ligolo to establish SOCKS5 or TCP tunnels from a reverse connection.

Protocol Tunneling

T1572

LockBit affiliates use Plink to automate SSH actions on Windows.

Remote Access Software T1219 LockBit 3.0 actors use AnyDesk, Atera RMM, ScreenConnect or TeamViewer for C2.

Table 15: LockBit Affiliates’ ATT&CK Techniques for Enterprise – Exfiltration

Technique Title

ID

Use

Exfiltration

TA0010

LockBit affiliates use StealBit, a custom exfiltration tool first used with LockBit 2.0, to steal data from a target network.

Exfiltration Over Web Service

T1567

LockBit affiliates use publicly available file sharing services to exfiltrate a target’s data. 

Exfiltration Over Web Service: Exfiltration to Cloud Storage

T1567.002

LockBit affiliates use (1) Rclone, an open-source command line cloud storage manager or FreeFileSync to exfiltrate and (2) MEGA, a publicly available file sharing service for data exfiltration.

Table 16: LockBit Affiliates’ ATT&CK Techniques for Enterprise – Impact

Technique Title

ID

Use

Data Destruction T1485 LockBit 3.0 deletes log files and empties the recycle bin.
Data Encrypted for Impact T1486

LockBit 3.0 encrypts data on target systems to interrupt availability to system and network resources.

LockBit affiliates can encrypt Windows and Linux devices, as well as VMware instances. 

Defacement: Internal Defacement

T1491.001

LockBit 3.0 changes the host system’s wallpaper and icons to the LockBit 3.0 wallpaper and icons, respectively.

Inhibit System Recovery

T1490

LockBit 3.0 deletes volume shadow copies residing on disk.

Service Stop

T1489

LockBit 3.0 terminates processes and services.

Mitigations

The authoring organizations recommend implementing the mitigations listed below to improve their cybersecurity posture to better defend against LockBit’s activity. These mitigations align with the Cross-Sector Cybersecurity Performance Goals (CPGs) developed by CISA and the National Institute of Standards and Technology (NIST). The CPGs provide a minimum set of practices and protections that CISA and NIST recommend all organizations implement. CISA and NIST based the CPGs on existing cybersecurity frameworks and guidance to protect against the most common and impactful threats, tactics, techniques, and procedures. Visit CISA’s Cross-Sector Cybersecurity Performance Goals for more information on the CPGs, including additional recommended baseline protections.

The listed mitigations are ordered by MITRE ATT&CK tactic. Mitigations that apply to multiple MITRE ATT&CK tactics are listed under the tactic that occurs earliest in an incident’s lifecycle. For example, account use polices are mitigations for initial access, persistence, privilege escalation, and credential access but would be listed under initial access mitigations.

Initial Access

  • Consider implementing sandboxed browsers to protect systems from malware originating from web browsing. Sandboxed browsers isolate the host machine from malicious code.
  • Require all accounts with password logins (e.g., service account, admin accounts, and domain admin accounts) to comply with NIST standards for developing and managing password policies [CPG 2.L].
    • Enforce use of longer passwords consisting of at least 15 characters in length [CPG 2.B, 2.C].
    • Store passwords in a salted and hashed format using industry-recognized password hashing algorithms.
    • Prevent use of commonly used or known-compromised passwords [CPG 2.C].
    • Implement multiple failed login attempt account lockouts [CPG 2.G].
    • Disable password “hints.”
    • Refrain from requiring password changes more frequently than once per year.
      Note: NIST guidance suggests favoring longer passwords instead of requiring regular and frequent password resets. Frequent password resets are more likely to result in users developing password “patterns” cyber criminals can easily decipher.
    • Require administrator credentials to install software [CPG 2.Q].
  • Implement filters at the email gateway to filter out emails with known malicious indicators, such as known malicious subject lines, and block suspicious IP addresses at the firewall [CPG 2.M].
  • Install a web application firewall and configure with appropriate rules to protect enterprise assets.
  • Segment networks to prevent the spread of ransomware. Network segmentation can help prevent the spread of ransomware by controlling traffic flows between—and access to—various subnetworks and by restricting adversary lateral movement. Isolate web-facing applications to further minimize the spread of ransomware across a network [CPG 2.F].
  • Follow the least-privilege best practice by requiring administrators to use administrative accounts for managing systems and use simple user accounts for non-administrative tasks [CPG 2.E].
  • Enforce the management of and audit user accounts with administrative privileges. Configure access controls according to the principle of least privilege [CPG 2.E]. 
  • Implement time-based access for accounts set at the admin level and higher. For example, the Just-in-Time (JIT) access method provisions privileged access when needed and can support enforcement of the principle of least privilege (as well as the Zero Trust model). This is a process where a network-wide policy is set in place to automatically disable admin accounts at the Active Directory level when the account is not in direct need. Individual users may submit their requests through an automated process that grants them access to a specified system for a set timeframe when they need to support the completion of a certain task.
  • Keep all operating systems, software, and firmware up to date. Timely patching is one of the most efficient and cost-effective steps an organization can take to minimize its exposure to cybersecurity threats. Public-facing applications must be patched in a timely manner as vulnerabilities can often be exploited directly by the threat actor. By closely monitoring the threat landscape, threat actors often take advantage of vulnerabilities before systems are patched. Organizations should patch vulnerable software and hardware systems within 24 to 48 hours from when a vulnerability is disclosed. Prioritize patching known exploited vulnerabilities in internet-facing systems [CPG 1.E].
  • Restrict service accounts from remotely accessing other systems. Configure group policy to Deny log on locally, Deny log on through Terminal Services, and Deny access to this computer from the network for all service accounts to limit the ability for compromised service accounts to be used for lateral movement.
  • Block direct internet access for administration interfaces (e.g., application protocol interface (API)) and for remote access.
  • Require phishing-resistant multifactor authentication (MFA) for all services to the extent possible, particularly for webmail, virtual private networks, and privileged accounts that access critical systems [CPG 2.H].
  • Consolidate, monitor, and defend internet gateways.
  • Install, regularly update, and enable real-time detection for antivirus software on all hosts.
  • Raise awareness for phishing threats in your organization. Phishing is one of the primary infection vectors in ransomware campaigns, and all employees should receive practical training on the risks associated with the regular use of  email. With the rise of sophisticated phishing methods, such as using stolen email communication or artificial intelligence (AI) systems such as ChatGPT, the distinction between legitimate and malicious emails becomes more complex. This particularly applies to employees from corporate divisions that have to deal with a high volume of external email communication (e.g., staff recruitment) [CPG 2.I, 2.J].
  • Consider adding an external email warning banner for emails sent to or received from outside of your organization [CPG 2.M].
  • Review internet-facing services and disable any services that are no longer a business requirement to be exposed or restrict access to only those users with an explicit requirement to access services, such as SSL, VPN, or RDP. If internet-facing services must be used, control access by only allowing access from an admin IP range [CPG 2.X].
  •  Review domain controllers, servers, workstations, and active directories for new and/or unrecognized accounts.
  • Regularly verify the security level of the Active Directory domain by checking for misconfigurations.

Execution

  • Develop and regularly update comprehensive network diagram(s) that describes systems and data flows within your organization’s network(s) [CPG 2.P].
  • Control and restrict network connections accordingly with a network flow matrix.
  • Enable enhanced PowerShell logging [CPG 2.T, 2.U].
    • PowerShell logs contain valuable data, including historical OS, registry interaction, and possibility of a threat actor’s PowerShell use.
    • Ensure PowerShell instances are configured to use the latest version, and have module, script block, and transcription logging enabled (enhanced logging).
    • The two logs that record PowerShell activity are the PowerShell Windows Event Log and the PowerShell Operational Log. It is recommended to turn on these two Windows Event Logs with a retention period of at least 180 days. These logs should be checked on a regular basis to confirm whether the log data has been deleted or logging has been turned off. Set the storage size permitted for both logs to as large as reasonably practical.
  • Configure the Windows Registry to require UAC approval for any PsExec operations requiring administrator privileges to reduce the risk of lateral movement by PsExec.

Privilege Escalation

  • Disable command-line and scripting activities and permissions. Privilege escalation and lateral movement often depend on software utilities running from the command line. If threat actors are not able to run these tools, they will have difficulty escalating privileges and/or moving laterally [CPG 2.N].
  • Enable Credential Guard to protect your Windows system credentials. This is enabled by default on Windows 11 Enterprise 22H2 and Windows 11 Education 22H2. Credential Guard prevents credential dumping techniques of the Local Security Authority (LSA) secrets. Be aware that enabling this security control has some downsides. In particular, you can no longer use New Technology Local Area Network (LAN) Manager (NTLM) classic authentication single sign-on, Kerberos unconstrained delegation, as well as Data Encryption Standard (DES) encryption.
  • Implement Local Administrator Password Solution (LAPS) where possible if your OS is older than Windows Server 2019 and Windows 10 as these versions do not have LAPS built in. NOTE: The authoring organizations recommend organizations upgrade to Windows Server 2019 and Windows 10 or greater.

Defense Evasion

  • Apply local security policies to control application execution (e.g., Software Restriction Policies (SRP), AppLocker, Windows Defender Application Control (WDAC)) with a strict allowlist.
  • Establish an application allowlist of approved software applications and binaries that are allowed to be executed on a system. This measure prevents unwanted software to be run. Usually, application allowlist software can also be used to define blocklists so that the execution of certain programs can be blocked, for example cmd.exe or PowerShell.exe [CPG 2.Q].

Credential Access

  • Restrict NTLM uses with security policies and firewalling.

Discovery

  • Disable unused ports. Disable ports that are not being used for business purposes (e.g., RDP-TCP Port 3389). Close unused RDP ports.

Lateral Movement

  • Identify Active Directory control paths and eliminate the most critical among them according to the business needs and assets.
  • Identify, detect, and investigate abnormal activity and potential traversal of the indicated ransomware with a networking monitoring tool. To aid in detecting the ransomware, implement a tool that logs and reports all network traffic, including lateral movement activity on a network [CPG 1.E]. EDR tools are particularly useful for detecting lateral connections as they have insight into common and uncommon network connections for each host.

Command and Control

  • Implement a tiering model by creating trust zones dedicated to an organization’s most sensitive assets.
  • VPN access should not be considered as a trusted network zone. Organizations should instead consider moving to zero trust architectures.

Exfiltration

  • Block connections to known malicious systems by using a Transport Layer Security (TLS) Proxy. Malware often uses TLS to communicate with the infrastructure of the threat actor. By using feeds for known malicious systems, the establishment of a connection to a C2 server can be prevented.
  • Use web filtering or a Cloud Access Security Broker (CASB) to restrict or monitor access to public-file sharing services that may be used to exfiltrate data from a network.

Impact

  • Implement a recovery plan to maintain and retain multiple copies of sensitive or proprietary data and servers in a physically separate, segmented, and secure location (e.g., hard drive, storage device, the cloud) [CPG 2.R].
  • Maintain offline backups of data, and regularly maintain backup and restoration (daily or weekly at the minimum). By instituting this practice, the organization ensures they will not be severely interrupted, and/or only have irretrievable data [CPG 2.R]. ACSC recommends organizations follow the 3-2-1 backup strategy in which organizations have three copies of data (one copy of production data and two backup copies) on two different media, such as disk and tape, with one copy kept off-site for disaster recovery.
  • Ensure all backup data is encrypted, immutable (i.e., cannot be altered or deleted), and covers the entire organization’s data infrastructure [CPG 2.K, 2.R].

Implement Mitigations for Defense-in-Depth

Implementing multiple mitigations within a defense-in-depth approach can help protect against ransomware, such as LockBit. CERT NZ explains How ransomware happens and how to stop it by applying mitigations, or critical controls, to provide a stronger defense to detect, prevent, and respond to ransomware before an organization’s data is encrypted. By understanding the most common attack vectors, organizations can identify gaps in network defenses and implement the mitigations noted in this advisory to harden organizations against ransomware attacks. In Figure 3, a ransomware attack is broken into three phases:

  • Initial Access where the cyber actor is looking for a way into a network.
  • Consolidation and Preparation when the actor is attempting to gain access to all devices.
  • Impact on Target where the actor is able to steal and encrypt data and then demand ransom.

Figure 3 shows the mitigations/critical controls, as various colored hexagons, working together to stop a ransomware attacker from accessing a network to steal and encrypt data. In the Initial Access phase, mitigations working together to deny an attacker network access include securing internet-exposed services, patching devices, implementing MFA, disabling macros, employing application allowlisting, and using logging and alerting. In the Consolidation and Preparation phase, mitigations working together to keep an attacker from accessing network devices are patching devices, using network segmentation, enforcing the principle of least privilege, implementing MFA, and using logging and alerting. Finally, in the Impact on Target phase, mitigations working together to deny or degrade an attacker’s ability to steal and/or encrypt data includes using logging and alerting, using and maintaining backups, and employing application allowlisting.

Figure 3 shows the mitigations/critical controls, as various colored hexagons, working together to stop a ransomware attacker from accessing a network to steal and encrypt data.

Critical Controls Key

Figure 3: Stopping Ransomware Using Layered Mitigations

Figure 3: Stopping Ransomware Using Layered Mitigations

Validate Security Controls

In addition to applying mitigations, the authoring organizations recommend exercising, testing, and validating your organization’s security program against the threat behaviors mapped to the MITRE ATT&CK for Enterprise framework in this advisory. The authoring organizations recommend testing your existing security controls inventory to assess how they perform against the ATT&CK techniques described in this advisory.

To get started:

  1. Select an ATT&CK technique described in this advisory (see Tables 5-16).
  2. Align your security technologies against the technique.
  3. Test your technologies against the technique.
  4. Analyze your detection and prevention technologies performance.
  5. Repeat the process for all security technologies to obtain a set of comprehensive performance data.
  6. Tune your security program, including people, processes, and technologies, based on the data generated by this process.

The authoring organizations recommend continually testing your security program, at scale, in a production environment to ensure optimal performance against the MITRE ATT&CK techniques identified in this advisory.

Resources

Reporting

The authoring organizations do not encourage paying ransom, as payment does not guarantee victim files will be recovered. Furthermore, payment may also embolden adversaries to target additional organizations, encourage other criminal actors to engage in the distribution of ransomware, and/or fund illicit activities. Regardless of whether you or your organization have decided to pay the ransom, the authoring organizations urge you to promptly report ransomware incidents to your country’s respective authorities.

  • Australia: Australian organizations that have been impacted or require assistance in regard to a ransomware incident can contact ACSC via 1300 CYBER1 (1300 292 371), or by submitting a report to cyber.gov.au.
  • Canada: Canadian victims of ransomware are encouraged to consider reporting cyber incidents to law enforcement (e.g., local police or the Canadian Anti-Fraud Centre) as well as to the Canadian Centre for Cyber Security online via My Cyber Portal.
  • France:
  • Germany: German victims of ransomware are encouraged to consider reporting cyber incidents to law enforcement (e.g., local police or the Central Contact Point for Cybercrime as well as to the Federal Office for Information Security (BSI) via the Reporting and Information Portal.
  • New Zealand: New Zealand organizations and businesses can report security incidents to the NCSC at incidents@ncsc.govt.nz or call 04 498 7654, or to CERT NZ through https://www.cert.govt/nz/it-specialists/report-an-incident/ or to ir@ops.cert.govt.nz.
  • United States:
    • Report ransomware incidents to a local FBI Field Office or CISA’s 24/7 Operations Center at Report@cisa.dhs.gov, cisa.gov/report, or (888) 282-0870. When available, please include the information regarding the incident: date, time, and location of the incident; type of activity; number of people affected; type of equipment used for the activity; the name of the submitting company or organization; and a designated point of contact.
    • For SLTTs, email soc@msisac.org or call (866) 787-4722.
  • United Kingdom: UK organizations should report any suspected compromises to NCSC.

Disclaimer

The information in this report is being provided “as is” for informational purposes only. The authoring organizations do not endorse any commercial product or service, including any subjects of analysis. Any reference to specific commercial products, processes, or services by service mark, trademark, manufacturer, or otherwise, does not constitute or imply endorsement, recommendation, or favoring by the authoring organizations.

References

[1] LockBit, BlackCat, and Royal Dominate the Ransomware Scene

[2] Ransomware Diaries: Volume 1

[3] What is LockBit ransomware and how does it operate?

[4] Ransomware Spotlight: LockBit

[5] Analysis and Impact of LockBit Ransomware’s First Linux and VMware ESXi Variant

[6] A first look at the builder for LockBit 3.0 Black

[7] LockBit ransomware gang releases LockBit Green version

[8] LockBit Ransomware Now Targeting Apple macOS Devices

[9] Apple’s Macs Have Long Escaped Ransomware. That May be Changing

[10] Intelligence agency says ransomware group with Russian ties poses ‘an enduring threat’ to Canada

Read the original article at https://www.cisa.gov/news-events/cybersecurity-advisories/aa23-165a