Building Adaptable Security Architecture Against NetWalker

NetWalker Overview

The NetWalker ransomware, initially known as Mailto, was first detected in August 2019. Since then, new variants were discovered throughout 2019 and the beginning of 2020, with a strong uptick noticed in March of this year. NetWalker has noticeably evolved to a more stable and robust ransomware-as-a-service (RaaS) model, and McAfee research suggests that the malware operators are targeting and attracting a broader range of technically advanced and enterprising criminal affiliates. McAfee Advanced Threat Research (ATR) discovered a large sum of bitcoins linked to NetWalker which suggest its extortion efforts are effective and that many victims have had no option other than to succumb to its criminal demands. For more details on NetWalker, see the McAfee ATR blog here.

We do not want you to be one of those victims, so this blog is focused on how to build an adaptable security architecture to defeat this threat and, specifically, how McAfee’s portfolio delivers the capability to prevent, detect and respond to NetWalker ransomware.

Gathering Intelligence on NetWalker

As always, building adaptable defensive architecture starts with intelligence. In most organizations, the Security Operations team is responsible for threat intelligence analysis, as well as threat and incident response. The Preview of McAfee MVISION Insights is a sneak peek of some of MVISION Insights capabilities for the threat intel analyst and threat responder. The preview identifies the prevalence and severity of select top emerging threats across the globe which enables the Security Operations Center (SOC) to prioritize threat response actions and gather relevant cyber threat intelligence (CTI) associated with the threat, in this case NetWalker ransomware. The CTI is provided in the form of technical Indicators of Compromise (IOCs) as well as MITRE ATT&CK framework tactics and techniques.

As a threat intel analyst or responder, you can drill down to gather more specific information on NetWalker, such as prevalence and links to other sources of information.

As a threat intel analyst or responder, you can further drill down to gather more specific actionable intelligence on NetWalker, such as indicators of compromise and tactics/techniques aligned to the MITRE ATT&CK framework.

From MVISION Insights preview, you can see that NetWalker leverages tactics and techniques common to other ransomware attacks, such as spear phishing attachments for Initial Access, use of PowerShell for deployment, modification of Registry Keys/Startup folder for persistence and encryption of files for impact of course.

Defensive Architecture Overview

Today’s digital enterprise is a hybrid environment of on-premise systems and cloud services with multiple entry points for attacks like NetWalker. The work from home operating model forced by COVID-19 has only expanded the attack surface and increased the risk for successful ransomware attack if organizations did not adapt their security posture. Mitigating the risk of attacks like NetWalker requires a security architecture with the right controls at the device, on the network and in security operations (sec ops). The Center for Internet Security (CIS) Top 20 Cyber Security Controls provides a good guide to build that architecture. For ransomware, and NetWalker in particular, the controls must be layered throughout the enterprise. The following outlines the key security controls needed at each layer of the architecture to protect your enterprise against ransomware.

To assess your capability against NetWalker, you must match your existing controls against the attack stages we learned from the Preview of MVISION Insights. For detailed analysis on the NetWalker ransomware attack, see McAfee ATR’s blog but, for simplicity, we matched the attack stages to the MITRE ATT&CK Framework below.

Initial Access Stage Defensive Overview

According to Threat Intelligence and Research, the initial access is performed either through vulnerability exploitation or spear phishing attachments. The following chart summarizes the controls expected to have the most effect against initial stage techniques and the McAfee solutions to implement those controls where possible.

MITRE Tactic	MITRE Techniques	CSC Controls	McAfee Capability
Initial Access	Exploit Public-Facing Applications (T1190) Tomcat, Web Logic	CSC 2 Inventory of Software Assets CSC 3 Continuous Vulnerability Assessment CSC 5 Secure Configuration of hardware and software CSC 9 Limitation of Network Ports and Protocols CSC 12 Boundary Defense CSC 18 Application Software Security	Endpoint Security Platform 10.7, Threat Prevention, Application Control (MAC) Network Security Platform (NSP)
Initial Access	Spear Phishing Attachments (T1566.001)	CSC 7 – Email and Web Browser Protection CSC 8 – Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, Web Gateway (MWG), Advanced Threat Defense, Web Gateway Cloud Service (WGCS)
Initial Access	Valid Accounts (T1078) RDP Compromised	CSC 5 Secure Configuration of hardware and software CSC 9 Limitation of Network Ports and Protocols CSC 12 Boundary Defense	Endpoint Security Platform 10.7, Threat Prevention

As attackers can quickly change spear phishing attachments, it is important to have adaptable defenses that include user awareness training and response procedures, behavior-based malware defenses on email systems, web access and endpoint systems, and finally sec ops playbooks for early detection and response against suspicious email attachments or other phishing techniques. For more information on how McAfee can protect against suspicious email attachments, review this additional blog post.

Using valid accounts and protocols, such as for Remote Desktop Protocol, is an attack technique we have seen rise during the initial COVID-19 period. To further understand how McAfee defends against RDP as an initial access vector, as well as how the attackers are using it to deploy ransomware, please see our previous posts.

https://www.mcafee.com/blogs/other-blogs/mcafee-labs/rdp-security-explained/

https://www.mcafee.com/blogs/other-blogs/mcafee-labs/cybercriminals-actively-exploiting-rdp-to-target-remote-organizations/

https://www.mcafee.com/blogs/other-blogs/mcafee-labs/ens-10-7-rolls-back-the-curtain-on-ransomware/

Exploitation Stage Defensive Overview

The exploitation stage is where the attacker gains access to the target system. Protection at this stage is heavily dependent on system vulnerability management, adaptable anti-malware on both end user devices and servers and security operations tools like endpoint detection and response sensors.

McAfee Endpoint Security 10.7 provides a defense in depth capability including signatures and threat intelligence to cover known bad indicators or programs.

Additionally, machine-learning and behavior-based protection reduces the attack surface against NetWalker and detects new exploitation attack techniques.

For more information on how McAfee Endpoint Security 10.7 can prevent or identify the techniques used in NetWalker, review these additional blog posts.

https://www.mcafee.com/blogs/other-blogs/mcafee-labs/ens-10-7-rolls-back-the-curtain-on-ransomware/

https://www.mcafee.com/blogs/other-blogs/mcafee-labs/mcafee-amsi-integration-protects-against-malicious-scripts/

https://www.mcafee.com/blogs/other-blogs/mcafee-labs/how-to-use-mcafee-atp-to-protect-against-emotet-lemonduck-and-powerminer/

The following chart summarizes the critical security controls expected to have the most effect against exploitation stage techniques and the McAfee solutions to implement those controls where possible.

MITRE Tactic	MITRE Techniques	CSC Controls	McAfee Portfolio Mitigation
Execution	PowerShell (T1059.001) PowerShell Script	CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, Application Control (MAC), MVISION EDR
Execution	Service Execution (T1569.002) PS Exec	CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, Application Control (MAC), MVISION EDR
Execution	Command and Scripting Interpreter (T1059.003) Windows Command Shell	CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, Application Control (MAC), MVISION EDR
Execution	Native API (T1106) Use Windows API functions to inject DLL	CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, Application Control (MAC), MVISION EDR
Execution	Windows Management Instrumentation ((T1047)	CSC 4 Controlled Use of Admin Privileges CSC 5 Secure Configuration CSC 9 Limitation of Network Ports and Protocols CSC 8 Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, Application Control (MAC), MVISION EDR
Persistence	Registry Key – Place Value on Run Once Key (T1060)	CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7 Threat Prevention
Persistence	Modify Registry key – Create own key (T1112)	CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7 Threat Prevention
Privilege Escalation	Exploitation for Privilege Exploitation ((T1068) CVE-2020-0796	CSC 3 Vulnerability Management CSC 5 Secure Configuration CSC 8 Malware Defenses CSC 12 Boundary Defenses	Network Security Platform (CVE-2020-0796)
Privilege Escalation	Exploitation for Privilege Exploitation ((T1068) CVE-2019-1458	CSC 3 Vulnerability Management CSC 5 Secure Configuration CSC 8 Malware Defenses CSC 12 Boundary Defenses	Network Security Platform (CVE-2019-1458); Endpoint Security Platform 10.7 (CVE-2019-1458) Threat Prevention, Application Control (MAC)
Privilege Escalation	Exploitation for Privilege Exploitation ((T1068) CVE-2017-0213	CSC 3 Vulnerability Management CSC 5 Secure Configuration CSC 8 Malware Defenses CSC 12 Boundary Defenses	Network Security Platform (CVE-2017-0213); Endpoint Security Platform 10.7 (CVE-2017-0213) Threat Prevention, Application Control (MAC)
Privilege Escalation	Exploitation for Privilege Exploitation ((T1068) CVE-2015-1701	CSC 3 Vulnerability Management CSC 5 Secure Configuration CSC 8 Malware Defenses CSC 12 Boundary Defenses	Network Security Platform (CVE-2015-1701); Endpoint Security Platform 10.7, Threat Prevention, Application Control (MAC)
Privilege Escalation	Process Injection: Reflective DLL (T1055)	CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, MVISION EDR
Defensive Evasion	Disabling Security Tools (T1562.001) ESET, Trend Micro, MS	CSC 5 Secure Configuration CSC 8 Malware Defenses
Defensive Evasion	Process Injection: Reflective DLL (T1055)	CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, MVISION EDR
Defensive Evasion	Deobfuscate/Decode Files or Information (T1140)	CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, MVISION EDR
Defensive Evasion	Obfuscated Files or Information (T1027): PowerShell Script uses Base64 and hexadecimal encoding and XOR-encryption	CSC 5 Secure Configuration CSC 8 Malware Defenses CSC 12 Boundary Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, MVISION EDR
Credential Access	Credential Dumping (T1003) Mimikatz, Mimidogz, Mimikittenz, Pwdump, LaZagne, Windows Credentials	CSC 4 Controlled Use of Admin Privileges CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, Application Control (MAC), MVISION EDR
Credential Access	Brute Force (T1110) NL Brute	CSC 4 Controlled use of admin privileges CSC 16 Account Monitoring	Enterprise Security Manager – Log Analysis

 

Impact Stage Defensive Overview

The impact stage is where the attacker encrypts the target system, data and perhaps moves laterally to other systems on the network. Protection at this stage is heavily dependent on adaptable anti-malware on both end user devices and servers, network controls and security operation’s capability to monitor logs for anomalies in privileged access or network traffic. The following chart summarizes the controls expected to have the most effect against impact stage techniques and the McAfee solutions to implement those controls where possible.

MITRE Tactic	MITRE Techniques	CSC Controls	McAfee Portfolio Mitigation
Discovery	Network Service Scanning (T1046) Network Scanner	CSC 5 Secure Configuration CSC 8 Malware Defenses CSC 12 Boundary Defenses	Endpoint Security Platform 10.7, Threat Prevention, Application Control (MAC), Network Security Platform
Lateral Movement	Third Party Software (T1072) TeamViewer, Anydesk	CSC 5 Secure Configuration CSC 8 Malware Defenses CSC 12 Boundary Defenses	Endpoint Security Platform 10.7, Threat Prevention, Network Security Platform
Lateral Movement	Service Execution (T1035) PS Exec	CSC 5 Secure Configuration CSC 8 Malware Defenses CSC 12 Boundary Defenses	Endpoint Security Platform 10.7, Threat Prevention, MVISION EDR
Collection	Data from Information Repositories (T1213)	CSC 4 Control Admin Privileges CSC 5 Secure Configuration CSC 6 Log Analysis	Enterprise Security Manger – Log Collection and Analysis
Collection	Data from local system (T1005)	CSC 4 Control Admin Privileges CSC 5 Secure Configuration CSC 6 Log Analysis	Endpoint Security Platform 10.7, Threat Prevention, MVISION EDR
Collection	Data from network shared drive (T1039)	CSC 4 Control Admin Privileges CSC 5 Secure Configuration CSC 6 Log Analysis	Endpoint Security Platform 10.7, Threat Prevention, MVISION EDR
Command and Control	Ingress Tool Transfer (T1105)	CSC 8 Malware Defenses CSC 12 Boundary Defenses	Web Gateway, Network Security Platform
Impact	Data Encrypted (T1486) Netwalker Ransomeware	CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, MVISION EDR, Web Gateway
Impact	Inhibit System Recovery (T1490) Shadow	CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, MVISION EDR, Web Gateway

 

Hunting for NetWalker Indicators

As a threat intel analyst or hunter, you might want to quickly scan your systems for any of NetWalker indicators. Of course, you can do that manually by downloading a list of indicators and searching with available tools. However, if you have MVISION EDR, you will be able to that search right from Insights, saving precious time. Hunting the attacker can be a game of inches so every second counts. Of course, if you found infected systems or systems with indicators, you can take action to contain and start an investigation for incident response immediately from the MVISION EDR console.

Proactively Detecting NetWalker Techniques

Many of the exploit stage techniques in this attack use legitimate Windows tools or valid accounts to either exploit, avoid detection or move laterally. These techniques are not easily prevented but can be detected using MVISION EDR. As security analysts, we want to focus on suspicious techniques, such as PowerShell, used to download files…

or execute scripts…

or evade defenses…

Monitoring or Reporting on NetWalker Events

Events from McAfee Endpoint Protection and Web Gateway play a key role in NetWalker incident and threat response. McAfee ePO centralizes event collection from all managed endpoint systems. As a threat responder, you may want to create a dashboard for NetWalker-related threat events to understand current exposure. Here is a list (not exhaustive) of NetWalker-related threat events as reported by Endpoint Protection Platform Threat Prevention Module and McAfee Web Gateway.

McAfee Endpoint Threat Prevention Events
Ransom-NetW!AB8D59ABA3DC	GenericRXKU-HO!E33E060DA1A5	PS/Netwalker.a	Ransom-NetW!1B6A2BFA39BC
Artemis!2F96F8098A29	GenericRXKD-DA!645C720FF0EB	GenericRXKD-DA!4E59FBA21C5E	Ransom-NetW!A9E395E478D0
Ransom-NetW!A0BC1AFED896	PS/Netwalker.c	Artemis!F5C877335920	GenericRXKD-DA!B862EBC24355
Artemis!2F96F8098A29	GenericRXKD-DA!63EB7712D7C9	RDN/Ransom	GenericRXKD-DA!F0CC568491CD
Artemis!0FF0D5085F7E	GenericRXKD-DA!9172586C2F87	RDN/Generic.dx	Ransom-NetW!BFF6F7B3A7DB
Ransom-NetW!7B77B436360A	GenericRXKD-DA!BC75859695F6	GenericRXKD-DA!FCEDEA8111AB	GenericRXKD-DA!5ABF6ED342FD
PS/Netwalker.d	GenericRXKD-DA!C0DDA75C6EAE	GenericRXKD-DA!ADDC865F6169	GenericRXKD-DA!DBDD7A1F53AA
Artemis!1527DAF8626C	GenericRXKD-DA!608AC26EA80C	Ransom-NetW!3A601EE68000	GenericRXKD-DA!8102821249E1
Ransom-NetW!2E2F5FE8ABA4	GenericRXKD-DA!F957F19CD9D7	GenericRXKD-DA!3F3CC36F4298	GenericRXKD-DA!9001DFA8D69D
PS/Agent.bu	GenericRXKD-DA!5F55AC3DD189	GenericRXKD-DA!18C32583A6FE	GenericRXKD-DA!01F703234047
Ransom-NetW!62C71449FBAA	GenericRXKD-DA!6A64553DA499	GenericRXKD-DA!0CBA10DF0C89	Artemis!50C6B1B805EC
PS/Netwalker.b	GenericRXKD-DA!59B00F607A75	Artemis!BC96C744BD66	GenericRXKD-DA!DE0B8566636D
Ransom-NetW!8E310318B1B5	GenericRXKD-DA!0537D845BA09	GenericRXKU-HO!DE61B852CADA	GenericRXKD-DA!B4F8572D4500
PS/Netwalker.c	GenericRXKD-DA!D09CFDA29F17	PS/Agent.bx	GenericRXKD-DA!0FF5949ED496
GenericRXKD-DA!2B0384BE06D2	GenericRXKD-DA!5CE75526A25C	GenericRXKD-DA!BDC345B7BCEC	Ransom-CWall!993B73D6490B
GenericRXKD-DA!0E611C6FA27A	GenericRXKU-HO!961942A472C2	Ransom-NetW!291E1CE9CD3E	Ransom-Mailto!D60D91C24570
PS/Agent.bu	GenericRXKU-HO!997F0EC7FCFA	PS/Agent.bx	Ransom-CWall!3D6203DF53FC
Ransom-Netwalker	Ransom-NetW!BDE3EC20E9F8	Generic .kk
GenericRXKU-HO!1DB8C7DEA2F7	GenericRXKD-DA!DD4F9213BA67	GenericRXKD-DA!729928E6FD6A
GenericRXKU-HO!9FB87AC9C00E	GenericRXKU-HO!187417F65AFB	PS/Netwalker.b

 

McAfee Web Gateway Events
RDN/Ransom	BehavesLike.Win32.RansomCWall.mh
BehavesLike.Win32.Generic.kh	Ransom-NetW!1B6A2BFA39BC
BehavesLike.Win32.MultiPlug.kh	Ransom:Win32/NetWalker.H!rsm
BehavesLike.Win32.Generic.qh	BehavesLike.Win32.Trojan.kh
GenericRXKD-DA!DD4F9213BA67	BehavesLike.Win32.Ipamor.kh
BehavesLike.Win64.Trojan.nh	BehavesLike.Win32.Generic.cz
RDN/Generic.dx	BehavesLike.Win32.RansomCWall.mm
BehavesLike.Win64.BadFile.nh	BehavesLike.Win32.Generic.dm

 

Summary

Ransomware has evolved into a lucrative business for threat actors, from underground forums selling ransomware, to offering services such as support portals to guide victims through acquiring crypto currency for payment, to the negotiation of the ransom. However, just as attackers work together, defenders must collaborate internally and externally to build an adaptive security architecture which will make it harder for threat actors to succeed and build resilience in the business. This blog highlights how to use McAfee’s security solutions to prevent, detect and respond to NetWalker and attackers using similar techniques.

McAfee ATR is actively monitoring ransomware threats and will continue to update McAfee MVISION Insights and its social networking channels with new and current information. Want to stay ahead of the adversaries? Check out McAfee MVISION Insights for more information.

The post McAfee Defender’s Blog: NetWalker appeared first on McAfee Blog.

Building Adaptable Security Architecture Against the Operation North Star Campaign

Operation North Star Overview

Over the last few months, we have seen attackers take advantage of the pandemic as a cover to launch cyberattacks. One such example is a campaign that McAfee Advanced Threat Research (ATR) observed as an increase in malicious cyber activity targeting the Aerospace & Defense industry. In this campaign McAfee ATR discovered a series of malicious documents containing job postings taken from leading defense contractors to be used as lures, in a very targeted fashion. This type of campaign has appeared before, in 2017 and 2019 using similar techniques, but the 2020 campaign has some distinct differences in implants, infrastructure and spear phishing lures. For a more detailed analysis of this campaign please see the McAfee ATR blog.

This blog is focused on how to build an adaptable security architecture to increase your resilience against these types of attacks and specifically, how McAfee’s portfolio delivers the capability to prevent, detect and respond against the tactics and techniques used in the Operation North Star campaign.

Gathering Intelligence on Operation North Star

As always, building adaptable defensive architecture starts with intelligence. In most organizations, the Security Operations team is responsible for threat intelligence analysis, as well as threat and incident response. McAfee Insights is a great tool for the threat intel analyst and threat responder. The Insights Dashboard identifies prevalence and severity of emerging threats across the globe which enables the Security Operations Center (SOC) to prioritize threat response actions and gather relevant cyber threat intelligence (CTI) associated with the threat, in this case the Operation North Star campaign. The CTI is provided in the form of technical Indicators of Compromise (IOCs) as well as MITRE ATT&CK framework tactics and techniques. As a threat intel analyst or responder, you can drill down to gather more specific information on Operation North Star, such as prevalence and links to other sources of information. You can further drill down to gather more specific actionable intelligence such as indicators of compromise and tactics/techniques aligned to the MITRE ATT&CK framework.

From the McAfee ATR blog, you can see that Operation North Star leverages tactics and techniques common to other APT campaigns, such as spear phishing for Initial Access, exploited system tools and signed binaries, modification of Registry Keys/Startup folder for persistence and encoded traffic for command and control.

Defensive Architecture Overview

Today’s digital enterprise is a hybrid environment of on-premise systems and cloud services with multiple entry points for attacks like Operation North Star. The work from home operating model forced by COVID-19 has only expanded the attack surface and increased risk for successful spear phishing attacks if organizations did not adapt their security posture and increase training for remote workers. Mitigating the risk of attacks like Operation North Star requires a security architecture with the right controls at the device, on the network and in security operations (sec ops). The Center for Internet Security (CIS) Top 20 Cyber Security Controls provides a good guide to build that architecture. The following outlines the key security controls needed at each layer of the architecture to protect your enterprise against Operation North Star tactics and techniques.

Initial Access Stage Defensive Overview

According to Threat Intelligence and Research, the initial access is performed either through vulnerability exploitation or spear phishing attachments. As attackers can quickly change spear phishing attachments or link locations, it is important to have layered defenses that include user awareness training and response procedures, intelligence and behavior-based malware defenses on email systems, web proxy and endpoint systems, and finally sec ops playbooks for early detection and response against suspicious email attachments or other phishing techniques The following chart summarizes the controls expected to have the most effect against initial stage techniques and the McAfee solutions to implement those controls where possible.

MITRE Tactic	MITRE Techniques	CSC Controls	McAfee Capability
Initial Access	Spear Phishing Attachments (T1566.001)	CSC 7 – Email and Web Browser Protection CSC 8 – Malware Defenses CSC 17 – User Awareness	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, Web Gateway (MWG), Advanced Threat Defense, Web Gateway Cloud Service (WGCS)
Initial Access	Spear Phishing Link (T1566.002)	CSC 7 – Email and Web Browser Protection CSC 8 – Malware Defenses CSC 17 – User Awareness	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, Web Gateway (MWG), Advanced Threat Defense, Web Gateway Cloud Service (WGCS)
Initial Access	Spear Phishing (T1566.003) Service	CSC 7 – Email and Web Browser Protection CSC 8 – Malware Defenses CSC 17 – User Awareness	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, Web Gateway (MWG), Advanced Threat Defense, Web Gateway Cloud Service (WGCS)

For additional information on how McAfee can protect against suspicious email attachments, review this additional blog post.

https://www.mcafee.com/blogs/other-blogs/mcafee-labs/mcafee-protects-against-suspicious-email-attachments/

Exploitation Stage Defensive Overview

The exploitation stage is where the attacker gains access to the target system. Protection against Operation North Star at this stage is heavily dependent on adaptable anti-malware on both end user devices and servers, restriction of application execution, and security operations tools like endpoint detection and response sensors.

McAfee Endpoint Security 10.7 provides a defense in depth capability including signatures and threat intelligence to cover known bad indicators or programs, as well as machine-learning and behavior-based protection to reduce the attack surface against Operation North Star and detect new exploitation attack techniques. This attack leverages weaponized documents with links to external template files on a remote server. McAfee Threat Prevention and Adaptive Threat Protection modules protect against these techniques.

Additionally, MVISION EDR provides proactive detection capability on Execution and Defensive Evasion techniques identified in the exploit stage analysis. Please read further to see MVISION EDR in action against Operation North Star.

The following chart summarizes the critical security controls expected to have the most effect against exploitation stage techniques and the McAfee solutions to implement those controls where possible.

MITRE Tactic	MITRE Techniques	CSC Controls	McAfee Portfolio Mitigation
Execution	User Execution (T1204)	CSC 5 Secure Configuration CSC 8 Malware Defenses CSC 17 Security Awareness	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, Application Control (MAC), Web Gateway and Network Security Platform
Execution	Command and Scripting Interpreter (T1059)	CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, Application Control (MAC), MVISION EDR
Execution	Shared Modules (T1129)	CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, Application Control (MAC)
Persistence	Boot or Autologon Execution (T1547)	CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7 Threat Prevention, MVISION EDR
Defensive Evasion	Template Injection (T1221)	CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, MVISION EDR
Defensive Evasion	Signed Binary Proxy Execution (T1218)	CSC 4 Control Admin Privileges CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, Application Control, MVISION EDR
Defensive Evasion	Deobfuscate/Decode Files or Information (T1027)	CSC 5 Secure Configuration CSC 8 Malware Defenses	Endpoint Security Platform 10.7, Threat Prevention, Adaptive Threat Protection, MVISION EDR

For more information on how McAfee Endpoint Security 10.7 can prevent some of the techniques used in the Operation North Star exploit stage, review this additional blog post.

https://www.mcafee.com/blogs/other-blogs/mcafee-labs/mcafee-amsi-integration-protects-against-malicious-scripts/

Impact Stage Defensive Overview

The impact stage is where the attacker encrypts the target system, data and perhaps moves laterally to other systems on the network. Protection at this stage is heavily dependent on adaptable anti-malware on both end user devices and servers, network controls and security operation’s capability to monitor logs for anomalies in privileged access or network traffic. The following chart summarizes the controls expected to have the most effect against impact stage techniques and the McAfee solutions to implement those controls where possible.

MITRE Tactic	MITRE Techniques	CSC Controls	McAfee Portfolio Mitigation
Discovery	Account Discovery (T1087)	CSC 4 Control Use of Admin Privileges CSC 5 Secure Configuration CSC 6 Log Analysis	MVISION EDR, MVISION Cloud, Cloud Workload Protection
Discovery	System Information Discovery (T1082)	CSC 4 Control Use of Admin Privileges CSC 5 Secure Configuration CSC 6 Log Analysis	MVISION EDR, MVISION Cloud, Cloud Workload Protection
Discovery	System Owner/User Discovery (T1033)	CSC 4 Control Use of Admin Privileges CSC 5 Secure Configuration CSC 6 Log Analysis	MVISION EDR, MVISION Cloud, Cloud Workload Protection
Command and Control	Encrypted Channel (T1573)	CSC 8 Malware Defenses CSC 12 Boundary Defenses	Web Gateway, Network Security Platform

Hunting for Operation North Star Indicators

As a threat intel analyst or hunter, you might want to quickly scan your systems for any indicators you received on Operation North Star. Of course, you can do that manually by downloading a list of indicators and searching with available tools. However, if you have MVISION EDR and Insights, you can do that right from the console, saving precious time. Hunting the attacker can be a game of inches so every second counts. Of course, if you found infected systems or systems with indicators, you can take action to contain and start an investigation for incident response immediately from the MVISION EDR console.

Proactively Detecting Operation North Star Techniques

Many of the exploit stage techniques in this attack use legitimate Windows processes and applications to either exploit or avoid detection. We demonstrated above how the Endpoint Protection Platform can disrupt the weaponized documents but, by using MVISION EDR, you can get more visibility. As security analysts, we want to focus on suspicious techniques used by winword.exe as this attack leverages weaponized documents. On MVISION EDR we got the first threat detection on the monitoring dashboard for WINWORD.EXE at a Medium Risk.

The dashboard also provides a detailed look at the process activity which, in this case, is the attempt to perform the template injection.

 

We also received 2 alerts due to the rundll32 usage:

1)            Loaded non-common file with specified parameters via rundll32 utility

2)            Suspicious process would have been cleaned by Endpoint Protection (in observe mode)

Monitoring or Reporting on Operation North Star Events

Events from McAfee Endpoint Protection and Web Gateway play a key role in Lazarus incident and threat response. McAfee ePO centralizes event collection from all managed endpoint systems. As a threat responder, you may want to create a dashboard for Lazarus-related threat events to understand current exposure. Here is a list (not exhaustive) of Lazarus-related threat events as reported by McAfee Endpoint Protection Platform (Threat Prevention module), with On-Access Scan and Global Threat Intelligence enabled, and McAfee Web Gateway with Global Threat Intelligence enabled as well.

McAfee Endpoint Threat Prevention Events
Generic Trojan.dz	Generic Dropper.aou
RDN/Generic PWS.y	W97M/Downloader.cxz
Trojan-FRVP!2373982CDABA	Trojan-FRVP!AF83AD63D2E3
Generic Dropper.aou	W97M/Downloader.bjp
Trojan-FSGY!3C6009D4D7B2	W97M/MacroLess.y
Trojan-FRVP!CEE70135CBB1	Artemis!9FD35BAD075C
W97M/Downloader.cxu	RDN/Generic.dx
Trojan-FRVP!63178C414AF9	Artemis!0493F4062899
Exploit-cve2017-0199.ch	Artemis!25B37C971FD7

 

McAfee Web Gateway Events
Generic Trojan.dz	W97M/Downloader.cxz
RDN/Generic PWS.y	BehavesLike.Downloader.dc
Trojan-FRVP!2373982CDABA	W97M/MacroLess.y
Trojan-FSGY!3C6009D4D7B2	BehavesLike.Win32.Dropper.hc
BehavesLike.Downloader.dc	Artemis
BehavesLike.Downloader.tc

Summary

To defeat targeted threat campaigns, defenders must collaborate internally and externally to build an adaptive security architecture which will make it harder for threat actors to succeed and build resilience in the business. This blog highlights how to use McAfee’s security solutions to prevent, detect and respond to Operation North Star and attackers using similar techniques.

McAfee ATR is actively monitoring this campaign and will continue to update McAfee Insights and its social networking channels with new and current information. Want to stay ahead of the adversaries? Check out McAfee Insights for more information.

The post McAfee Defender’s Blog: Operation North Star Campaign appeared first on McAfee Blog.