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Saturday, November 23, 2024

Gelsemium’s Linux counterpart to Gelsevirine


ESET researchers have recognized a number of samples of Linux backdoor, which we’ve named WolfsBane, that we attribute with excessive confidence to the Gelsemium superior persistent risk (APT) group. This China-aligned risk actor has a identified historical past courting again to 2014 and till now, there have been no public experiences of Gelsemium utilizing Linux malware. Moreover, we found one other Linux backdoor, which we named FireWood. Nevertheless, we can’t definitively hyperlink FireWood to different Gelsemium instruments, and its presence within the analyzed archives is likely to be coincidental. Thus, we attribute FireWood to Gelsemium with low confidence, contemplating it may very well be a device shared amongst a number of China-aligned APT teams.

Essentially the most notable samples we present in archives uploaded to VirusTotal are two backdoors resembling identified Home windows malware utilized by Gelsemium. WolfsBane is the Linux counterpart of Gelsevirine, whereas FireWood is related to Venture Wooden. We additionally found different instruments doubtlessly associated to Gelsemium’s actions. The objective of the backdoors and instruments found is cyberespionage focusing on delicate information reminiscent of system data, person credentials, and particular recordsdata and directories. These instruments are designed to take care of persistent entry and execute instructions stealthily, enabling extended intelligence gathering whereas evading detection.

The development of APT teams specializing in Linux malware is turning into extra noticeable. We imagine this shift is because of enhancements in Home windows e mail and endpoint safety, such because the widespread use of endpoint detection and response (EDR) instruments and Microsoft’s determination to disable Visible Primary for Functions (VBA) macros by default. Consequently, risk actors are exploring new assault avenues, with a rising concentrate on exploiting vulnerabilities in internet-facing techniques, most of which run on Linux.

On this blogpost, we offer technical evaluation of the Linux malware, primarily specializing in the 2 completely different backdoors.

Key factors of the blogpost:

  • ESET researchers discovered archives with a number of Linux samples, containing two beforehand unknown backdoors.
  • The primary backdoor, WolfsBane, is a Linux model of Gelsevirine, a Home windows backdoor utilized by Gelsemium.
  • Its dropper is the equal of the Gelsemine dropper, and incorporates a hider primarily based on an open-source userland rootkit.
  • The second backdoor, which we’ve named FireWood, is related to Venture Wooden. The Home windows model of the Venture Wooden backdoor was beforehand utilized by the Gelsemium group in Operation TooHash.
  • Alongside the backdoors, we discovered extra instruments, primarily net shells primarily based on publicly out there code.

Overview

In 2023, we discovered these samples in archives uploaded to VirusTotal from Taiwan, the Philippines, and Singapore, in all probability originating from an incident response on a compromised server. Gelsemium has beforehand focused entities in Japanese Asia and the Center East.

The primary backdoor is part of a easy loading chain consisting of the dropper, launcher, and backdoor. We named this malware WolfsBane. As defined within the Attribution and connection and Technical evaluation sections, WolfsBane is a Linux equal of Gelsemium’s Gelsevirine backdoor and the WolfsBane dropper is analogous to the Gelsemine dropper. Our identify for Gelsemium comes from one potential translation of the identify we discovered within the report from VenusTech, who dubbed the group 狼毒草. It’s the identify of a genus of flowering vegetation within the household Gelsemiaceae, and Gelsemium elegans is the species that incorporates poisonous compounds like Gelsemine, Gelsenicine, and Gelsevirine, which we selected as names for the three elements of this malware household. We beforehand analyzed Gelsevirine and Gelsemine in this white paper. A part of the analyzed WolfsBane assault chain can be a modified open-source userland rootkit, a sort of software program that exists within the person house of an working system and hides its actions.

The second backdoor, which we named FireWood, is related to a backdoor tracked by ESET researchers beneath the identify Venture Wooden, beforehand analyzed within the Venture Wooden part of this blogpost. We have now traced it again to 2005 and noticed it evolving into extra subtle variations.

The archives we analyzed additionally include a number of extra instruments, largely webshells, that enable distant management to a person as soon as they’re put in on a compromised server, and easy utility instruments.

Attribution and connection

On this part, we clarify the similarities that led us to attribute the WolfsBane malware to the Gelsemium APT group and set up a connection between the FireWood backdoor and the Venture Wooden malware.

WolfsBane hyperlinks to Home windows Gelsevirine

Based mostly on the next similarities, we assess that the WolfsBane backdoor is the Linux model of Gelsevirine. Subsequently, we attribute WolfsBane to the Gelsemium APT group with excessive confidence:

  • Customized libraries for community communication: Each the Linux and Home windows variations load an embedded customized library for community communication, with a special library for every communication protocol used. The backdoor accesses the library’s features by calling its create_seesion export/image; notably, the typo seesion is identical in each variations (as proven in Determine 1).
Figure 1. Accessing the create_seesion export in Linux and Windows versions of backdoor
Determine 1. Accessing the create_seesion export in Linux (left) and Home windows (proper) variations of backdoor
  • Command execution mechanism: Each variations use the identical mechanism for executing instructions obtained from the C&C server. The backdoor creates a desk with hashes (derived from the command identify) and corresponding tips that could features that deal with these instructions (Determine 2). We offer extra particulars within the Technical evaluation part.
Figure 2. Comparison of plugin command names
Determine 2. Comparability of plugin command names discovered within the Linux Wolfsbane (left) and Home windows Gelsevirine (proper) backdoors
  • Configuration construction: Each backdoors use a really comparable configuration construction. Whereas the Linux model has some omitted fields and a few further ones, many of the subject names are constant. For instance, the worth of pluginkey discovered within the configuration is identical as in all Home windows Gelsevirine samples from 2019. Moreover, the controller_version values within the Linux model configuration match these within the Gelsevirine samples.
  • Area Utilization: The area dsdsei[.]com, utilized by the Linux model, was beforehand flagged by ESET researchers as an indicator of compromise (IoC) related to the Gelsemium APT group.

FireWood connection to Venture Wooden

We have now discovered code similarities between the FireWood pattern and the backdoor utilized in Operation TooHash (SHA-1: ED5342D9788392C6E854AAEFA655C4D3B4831B6B), as described by G DATA, who contemplate it to be part of the DirectsX rootkit. ESET researchers later named this backdoor Venture Wooden. These similarities embrace:

  • Naming conventions: Each use the “Wooden” string in naming. For instance, the FireWood backdoor configuration construction is referenced by the image WoodConf, and Win32 variations use the mutex identify IMPROVING CLIENT Need Wooden To Exit?.
  • File extensions: Each samples share particular filename extensions reminiscent of .k2 and .v2.
  • TEA encryption algorithm: The implementation of the TEA encryption algorithm with a variable variety of rounds is identical in each samples.
  • C&C communication strings: Each samples use the identical strings within the code chargeable for C&C communications, XORed with the identical single-byte key (0x26).
  • Networking code: The networking code in each samples may be very comparable.

Based mostly on these findings, we assess with excessive confidence that the FireWood backdoor is the Linux continuation of the Venture Wooden backdoor. A connection between the FireWood backdoor to different Gelsemium instruments can’t be proved and its presence within the archives analyzed may very well be coincidental. So, we make our attribution to Gelsemium solely with low confidence and acknowledge the chance that it’s a device shared by a number of Chinese language APT teams, maybe via a standard digital quartermaster as we’ve seen with different China-aligned teams.

Technical evaluation

The first archive was uploaded to VirusTotal on March 6th, 2023, from Taiwan. Subsequent archives have been uploaded additionally from the Philippines and Singapore. Based mostly on the folder construction (Determine 3), the goal was in all probability an Apache Tomcat webserver operating an unidentified Java net utility.

Figure 3. Example of archive structure
Determine 3. Instance of archive construction

Preliminary entry

Though we lack concrete proof relating to the preliminary entry vector, the presence of a number of webshells (as proven in Desk 1 and described within the Webshells part) and the techniques, strategies, and procedures (TTPs) utilized by the Gelsemium APT group lately, we conclude with medium confidence that the attackers exploited an unknown net utility vulnerability to achieve server entry.

Desk 1. Webshells present in analyzed archives

SHA-1 Filename Description
238C8E8EB7A732D85D8A7F7CA40B261D8AE4183D login.jsp Modified AntSword JSP webshell.
9F7790524BD759373AB57EE2AAFA6F5D8BCB918A yy1.jsp icesword webshell.
FD601A54BC622C041DF0242662964A7ED31C6B9C a.jsp Obfuscated JSP webshell.

Toolset

WolfsBane

WolfsBane elements and chain of execution are depicted in Determine 4.

Figure 4. WolfsBane execution chain
Determine 4. WolfsBane execution chain
Stage 1: WolfsBane dropper

The dropper for WolfsBane was present in a file named cron, mimicking the authentic command scheduling device. Upon execution, it first locations the launcher and the first backdoor within the $HOME/.Xl1 hidden listing (observe using the letter l), created by the dropper. The listing is most definitely intentionally named to resemble X11 – a generally used folder identify within the X Window System.

The dropper then establishes persistence primarily based on the system’s configuration and execution context:

If executed as root:

  • Checks for the presence of the systemd suite.
  • If systemd is current, writes the file /lib/systemd/system/display-managerd.service with the trail to the following stage (WolfsBane launcher) because the ExecStart entry (see Determine 5). This ensures the launcher runs as a system service, as a result of .service recordsdata on this folder are parsed throughout system startup.
  • Disables the SELinux  safety module by altering the SELINUX entry within the SELinux configuration file from imposing to disabled.
[Unit]
Description=Show-Supervisor
[Service]
Sort=easy
ExecStart=<PATH_TO_LAUNCHER_EXECUTABLE>
[Install]
WantedBy=multi-user.targetComment

Determine 5. Content material of the display-managerd.service file

If systemd just isn’t current, the dropper writes a easy bash script that executes the launcher (Determine 6), to a file named S60dlump into all rc[1-5].d startup folders.

#!/bin/bash
/usr/bin/.Xl1/kde

Determine 6. Script executing WolfsBane launcher

If executed as an unprivileged person on a Debian-based system, it:

  • writes an identical bash script to the profile.sh file, and
  • provides the command /dwelling/www/.profile.sh 2>/dev/null to .bashrc and .profile recordsdata within the person’s dwelling folder, guaranteeing that the Wolfsbane launcher begins robotically after the sufferer logs in.

For different Linux distributions it creates the identical profile.sh file however provides its path solely to .bashrc.

Moreover, if the dropper is executed with root privileges, it drops the WolfsBane Hider rootkit as /usr/lib/libselinux.so and provides this command to /and so on/ld.so.preload, guaranteeing that the rootkit library masses into all processes.

Lastly, the dropper removes itself from the disk and executes the following stage – the launcher.

Stage 2: WolfsBane launcher

A small binary named kde is used to take care of persistence, cleverly disguised as a authentic KDE desktop part to keep away from detection and keep persistence. No matter institution methodology, the intention is to execute this binary, whose major operate is to parse its embedded configuration and provoke the following stage – the WolfsBane backdoor – from the required file within the configuration.

Stage 3: WolfsBane backdoor

The WolfsBane backdoor, saved in a file named udevd, begins by loading an embedded library and calling its main_session export, which incorporates the primary backdoor functionalities. This library, named by its authors as libMainPlugin.so, is analogous to the MainPlugin.dll used within the Home windows model of the Gelsevirine backdoor.

Much like its Home windows model, the WolfsBane backdoor makes use of different embedded libraries for community communication. Within the samples we’ve collected, they’re named libUdp.so and libHttps.so, and each export the image create_seesion (the spelling mistake is precisely the identical as within the Home windows model of the Gelsevirine TCP module). These shared libraries present C&C communications by way of UDP and HTTPS protocols, respectively.

The backdoor encrypts the libMainPlugin.so library utilizing the RC4 algorithm (with the important thing obtained from the pluginkey worth within the configuration) and saves it to <work_directory>/X1l/information/gphoto2. On subsequent executions, the backdoor first checks for this file: if it exists, the file is decrypted and loaded as an alternative of the embedded libMainPlugin.so. This mechanism permits the backdoor to be up to date by overwriting the file.

The WolfsBane backdoor makes use of an identical method to its Home windows counterpart for executing instructions obtained from its C&C server.

WolfsBane Hider rootkit

WolfsBane backdoor makes use of a modified open-source BEURK userland rootkit to cover its actions. Positioned in /usr/lib/libselinux.so, this rootkit abuses the working system’s preload mechanism to load into new processes earlier than different libraries by including its path to the /and so on/ld.so.preload file, thus enabling its features to hook the unique ones.

The WolfsBane Hider rootkit hooks many primary commonplace C library features reminiscent of open, stat, readdir, and entry. Whereas these hooked features invoke the unique ones, they filter out any outcomes associated to the WolfsBane malware. In contrast to the unique BEURK rootkit, which makes use of an embedded configuration file for filtering, the WolfsBane builders retained the default configuration however modified the supply code to exclude data associated to the hardcoded filenames of the malware executables udevd and kde. Moreover, the unique BEURK rootkit’s community traffic-hiding options are absent.

FireWood backdoor

The FireWood backdoor, in a file named dbus, is the Linux OS continuation of the Venture Wooden malware, as famous within the Attribution and connection part. The analyzed code means that the file usbdev.ko is a kernel driver module working as a rootkit to cover processes. The FireWood backdoor communicates with the kernel drivers utilizing the Netlink protocol.

FireWood makes use of a configuration file named kdeinit that’s XOR encrypted with the single-byte key 0x26. The configuration file’s construction is detailed in Desk 2.

Desk 2. Chosen offsets and their corresponding values from the FireWood backdoor configuration file

Offset Worth That means
0x00 20190531110402 Unknown timestamp.
0x28 AAAAAAAAAA Placeholder for backdoor working listing.
0x3C 0.0.0.0 C&C IP deal with (if 0.0.0.0, the backdoor makes use of the C&C area).
0x66 asidomain[.]com C&C area.
0xCC [scsi_eh_7] Spoofed course of identify.
0x164 0x072BA1E6 TEA encryption key.
0x1E0 4 Connection day (backdoor connects each fourth day of the month).
0x1E4 5 Delay time.
0x1E8 0x0474 Connection time (in minutes).

FireWood renames its course of primarily based on the worth within the configuration.

To determine persistence on the system, it creates a file named /.config/autostart/gnome-control.desktop. Throughout startup, all recordsdata with a .desktop extension within the /.config/autostart/ listing are parsed, and any instructions listed within the Exec entry are executed. The contents of the gnome-control.desktop file might be seen in Determine 7.

[Desktop Entry]
Sort=Software
Exec=<PATH/TO/OWN/EXECUTABLE>
Hidden=false
NoDisplay=false
X-GNOME-Autostart-enabled=true
Title[en_US]=gnome-calculator
Title=gnome-control
Remark[en_US]=

Determine 7. Contents of the gnome-control.desktop file used for persistence by the FireWood backdoor

FireWood communicates with its C&C server by way of TCP, as laid out in its configuration. All information is encrypted utilizing the TEA encryption algorithm with a variable variety of rounds. The encryption key and variety of rounds are offered within the FireWood configuration file, as proven again in Desk 2.

The construction of despatched and obtained messages is proven in Determine 8. The result of executing a command varies relying on the command kind, however usually, 0x10181 signifies success, whereas 0x10180 denotes an error.

struct information{
    DWORD commandID_or_return_code_value ; 
    BYTE  information [];
}

Determine 8. Knowledge. construction for C&C communications utilized by FireWood backdoor

This backdoor is able to executing a number of instructions, as described in Desk 3.

Desk 3. FireWood backdoor instructions

Command ID Description
0x105 Obtain an executable file from the C&C to <PATH>/tmpWood and execute it with the ‌‑UPDATE parameter.
0x110 Execute a shell command utilizing the popen operate.
0x111 Change connection time worth within the configuration.
0x112 Conceal a course of utilizing the usbdev.ko kernel module.
0x113 Change delay time in configuration.
0x114 Change connection day worth in configuration.
0x132 Clear up and exit.
0x181 Listing contents of the required listing.
0x182 Exfiltrate specified file to C&C server.
0x183 Delete specified file.
0x184 Rename specified file.
0x185 Execute specified file utilizing the system operate.
0x186 Obtain file from C&C server.
0x189 Exfiltrate specified folder to C&C server.
0x193 Load specified kernel module or shared library.
0x194 Unload specified kernel module or shared library.
0x19F Modify specified file timestamp.
0x200 Delete specified listing.
0x201 Learn content material of the required file and ship it to the C&C server.
0x1018F Seek for the required file within the folder outlined within the command.

Different instruments

We found two extra instruments within the archives, which may very well be associated to Gelsemium exercise: the SSH password stealer and a small privilege escalation device.

The SSH password stealer is an SSH shopper primarily based on the open-source OpenSSH software program, modified to gather customers’ SSH credentials mandatory for authenticating the person’s entry to a server. The adversaries changed the unique SSH shopper binary in /usr/bin/ssh with a trojanized model. Whereas it features as a standard SSH shopper, it saves all login information within the format <USERNAME>@<HOST>t<PASSWORD> into the file /tmp/zijtkldse.tmp.

The privilege escalation device is a small binary, named ccc, that simply escalates person privileges by setting UID and GUID of the execution context to 0 and executes a program at a path obtained as an argument. To carry out this method, the person will need to have root privileges so as to add SUID permission to this executable prematurely, making it a device for sustaining privileges fairly than for acquiring them.

Webshells

The login.jsp is a modified AntSword JSP webshell that executes Java bytecode from attackers. The payload, a Java class file, is base64 encoded within the tiger parameter of an HTTP POST request. The unique webshell additionally helps distant terminal, file operations, and database operations.

The yy1.jsp webshell, which we recognized as icesword JSP, is sourced from web boards, primarily these in Chinese language. The icesword JSP webshell incorporates a full graphical person interface inside its server-side code, permitting it to render a GUI within the attacker’s browser. It’s not obfuscated and collects system data, executes system instructions, and performs file operations. It additionally connects to SQL databases on the compromised host and executes SQL queries.

The a.jsp webshell, much like login.jsp however obfuscated, carries a binary Java payload that’s AES encrypted with the important thing 6438B9BD2AB3C40A after which base64 encoded. The payload is offered within the Tas9er parameter. The obfuscation contains rubbish feedback, u-escaped Unicode strings (that are made tougher to learn), and random string variables and performance names. The consequence, base64 encoded and inserted into the string 1F2551A37335B564<base64_encoded_result>8EF53BE997851B95, is shipped to the attackers within the response physique.

Conclusion

This report describes the Linux malware toolset and its connections with Home windows malware samples utilized by the Gelsemium APT group. We have now centered on capabilities of WolfsBane and FireWood backdoors, and analyzed WolfsBane execution chain and its utilization of the userland rootkit. That is the primary public report documenting Gelsemium’s use of Linux malware, marking a notable shift of their operational technique.

The development of malware shifting in direction of Linux techniques appears to be on the rise within the APT ecosystem. From our perspective, this growth might be attributed to a number of developments in e mail and endpoint safety. The ever-increasing adoption of EDR options, together with Microsoft’s default technique of disabling VBA macros, are resulting in a situation the place adversaries are being pressured to search for different potential avenues of assault.

Because of this, the vulnerabilities current in internet-facing infrastructure, notably these techniques which might be Linux-based, have gotten more and more focused. Which means that these Linux techniques have gotten the brand new most popular targets for these adversaries.

For any inquiries about our analysis printed on WeLiveSecurity, please contact us at threatintel@eset.com
ESET Analysis affords non-public APT intelligence experiences and information feeds. For any inquiries about this service, go to the ESET Menace Intelligence web page.

IoCs

A complete listing of indicators of compromise (IoCs) and samples might be present in our GitHub repository.

Information

SHA-1 Filename Detection Description
0FEF89711DA11C550D3914DEBC0E663F5D2FB86C
dbus
Linux/Agent.WF FireWood backdoor.
44947903B2BC760AC2E736B25574BE33BF7AF40B
libselinux.so
Linux/Rootkit.Agent.EC WolfsBane Hider rootkit.
0AB53321BB9699D354A032259423175C08FEC1A4
udevd
Linux/Agent.WF WolfsBane backdoor.
8532ECA04C0F58172D80D8A446AE33907D509377
kde
Linux/Agent.WF WolfsBane launcher.
B2A14E77C96640914399E5F46E1DEC279E7B940F
cron
Linux/Agent.WF WolfsBane dropper.
209C4994A42AF7832F526E09238FB55D5AAB34E5
ccc
Linux/Agent.WF Privilege escalation helper device.
F43D4D46BAE9AD963C2EB05EF43E90AA3A5D88E3
ssh
Linux/SSHDoor.IC Trojanized SSH shopper.
FD601A54BC622C041DF0242662964A7ED31C6B9C
a.jsp
Java/Agent.BP JSP webshell.
9F7790524BD759373AB57EE2AAFA6F5D8BCB918A
yy1.jsp
Java/JSP.J icesword webshell.
238C8E8EB7A732D85D8A7F7CA40B261D8AE4183D
login.jsp
Java/Webshell.AM Modified AntSword JSP webshell.
F1DF0C5A74C9885CB5934E3EEE5E7D3CF4D291C0
virus.tgz
Linux/Agent.WF VirusTotal archive.
B3DFB40336C2F17EC74051844FFAF65DDB874CFC
virus-b.tgz
Linux/Agent.WF VirusTotal archive.
85528EAC10090AE743BCF102B4AE7007B6468255
CHINA-APT-Trojan.zip
Java/Agent.BP VirusTotal archive.
CDBBB6617D8937D17A1A9EF12750BEE1CDDF4562
CHINA-APT-Trojan.zip
Linux/Rootkit.Agent.EC VirusTotal archive.
843D6B0054D066845628E2D5DB95201B20E12CD2
CHINA-APT-Trojan.zip
Linux/Rootkit.Agent.EC VirusTotal archive.
BED9EFB245FAC8CFFF8333AE37AD78CCFB7E2198
Xl1.zip
Linux/Rootkit.Agent.EC VirusTotal archive.
600C59733444BC8A5F71D41365368F3002465B10
CHINA-APT-Trojan.zip
Linux/Rootkit.Agent.EC VirusTotal archive.
72DB8D1E3472150C1BE93B68F53F091AACC2234D
virus.tgz
Linux/Agent.WF VirusTotal archive.

Community

IP Area Internet hosting supplier First seen Particulars
N/A dsdsei[.]com N/A 2020⁠-⁠08⁠-⁠16 WolfsBane backdoor C&C server.
N/A asidomain[.]com N/A 2022⁠-⁠01⁠-⁠26 FireWood backdoor C&C server.

MITRE ATT&CK strategies

This desk was constructed utilizing model 15 of the MITRE ATT&CK framework.

Tactic

ID

Title

Description

Useful resource Improvement

T1583.001

Purchase Infrastructure: Domains

Gelsemium has registered domains via industrial suppliers.

T1583.004

Purchase Infrastructure: Server

Gelsemium most definitely acquires VPS from industrial suppliers.

T1587.001

Develop Capabilities: Malware

Gelsemium develops its personal customized malware.

Execution

T1059.004

Command-Line Interface: Unix Shell

Gelsemium malware is able to executing Linux shell instructions.

Persistence

T1037.004

Boot or Logon Initialization Scripts: RC Scripts

The WolfsBane launcher stays persistent on the system by utilizing RC startup scripts.

T1543.002

Create or Modify System Course of: Systemd Service

The WolfsBane dropper can create a brand new system service for persistence.

T1574.006

Hijack Execution Stream: Dynamic Linker Hijacking

The WolfsBane Hider rootkit abuses the ld.so.preload preload approach.

T1547.013

Boot or Logon Autostart Execution: XDG Autostart Entries

The FireWood backdoor persists on the system by creating the gnome-control.desktop autostart file.

Privilege Escalation

T1546.004

Occasion Triggered Execution: .bash_profile and .bashrc

The WolfsBane dropper tampers with numerous shell configuration recordsdata to attain persistence.

T1548.001

Abuse Elevation Management Mechanism: Setuid and Setgid

Gelsemium makes use of a easy device abusing setuid and setguid for retaining escalated privileges.

Protection Evasion

T1070.004

Indicator Elimination: File Deletion

The WolfsBane dropper removes itself.

T1070.006

Indicator Elimination: Timestomp

The FireWood backdoor has a command for modifying the MAC time of recordsdata.

T1070.009

Indicator Elimination: Clear Persistence

The WolfsBane dropper removes itself from disk.

T1564.001

Conceal Artifacts: Hidden Information and Directories

Each the WolfsBane and FireWood backdoors are situated/put in in hidden folders.

T1222.002

File Permissions Modification: Linux and Mac File and Listing Permissions Modification

The WolfsBane dropper makes use of Linux chmod instructions to switch permissions of dropped executables.

T1027.009

Obfuscated Information or Info: Embedded Payloads

The WolfsBane dropper has all its payloads compressed and embedded.

T1014

Rootkit

Each WolfsBane and FireWood malware make the most of rootkits for evasion.

T1036.005

Masquerading: Match Respectable Title or Location

Gelsemium usually names its malware to match authentic recordsdata and folders.

Discovery

T1082

System Info Discovery

The WolfsBane dropper enumerates system data.

T1083

File and Listing Discovery

The FireWood backdoor is able to looking within the machine file system for specified recordsdata and folders.

Assortment

T1056

Enter Seize

The SSH password stealer captures person credentials.

Exfiltration

T1041

Exfiltration Over C2 Channel

The FireWood backdoor exfiltrates collected information using C&C communications.

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