Skip to navigation Skip to main content Skip to footer

Adventures in the land of BumbleBee – a new malicious loader

This research was conducted by Mike Stokkel, Nikolaos Totosis and Nikolaos Pantazopoulos author’ from NCC Group Cyber Incident Response Team. You can find more here Incident Response – NCC Group

tl;dr

BUMBLEBEE is a new malicious loader that is being used by several threat actors and has been observed to download different malicious samples. The key points are:

  • BUMBLEBEE is statically linked with the open-source libraries OpenSSL 1.1.0f, Boost (version 1.68). In addition, it is compiled using Visual Studio 2015.
  • BUMBLEBEE uses a set of anti-analysis techniques. These are taken directly from the open-source project [1].
  • BUMBLEBEE has Rabbort.DLL embedded, using it for process injection.
  • BUMBLEBEE has been observed to download and execute different malicious payloads such as Cobalt Strike beacons.

Introduction

In March 2022, Google’s Threat Analysis Group [2] published about a malware strain linked to Conti’s Initial Access Broker, known as BUMBLEBEE. BUMBLEBEE uses a comparable way of distribution that is overlapping with the typical BazarISO campaigns.

In the last months BUMBLEBEE, would use three different distribution methods:

  • Distribution via ISO files, which are created either with StarBurn ISO or PowerISO software, and are bundled along with a LNK file and the initial payload.
  • Distribution via OneDrive links.
  • Email thread hijacking with password protected ZIPs

BUMBLEBEE is currently under heavy development and has seen some small changes in the last few weeks. For example, earlier samples of BUMBLEBEE used the user-agent ‘bumblebee’ and no encryption was applied to the network data. However, this functionality has changed, and recent samples use a hardcoded key as user-agent which is also acting as the RC4 key used for the entire network communication process.

Technical Analysis

Most of the identified samples are protected with what appears to be a private crypter and has only been used for BUMBLEBEE binaries so far. This crypter uses an export function with name SetPath and has not implemented any obfuscation method yet (e.g. strings encryption).

The BUMBLEBEE payload starts off by performing a series of anti-analysis checks, which are taken directly from the open source Khasar project[1]. After these checks passed, BUMBLEBEE proceeds with the command-and-control communication to receive tasks to execute.

Network Communication

BUMBLEBEE’s implemented network communication procedure is quite simple and straightforward. First, the loader picks an (command-and-control) IP address and sends a HTTPS GET request, which includes the following information in a JSON format (encrypted with RC4):

KeyDescription
client_idA MD5 hash of a UUID value taken by executing the WMI command ‘SELECT * FROM Win32_ComputerSystemProduct’.
group_nameA hardcoded value, which represents the group that the bot (compromised host) will be added.
sys_versionWindows OS version
client_versionDefault value that’s set to 1
user_nameUsername of the current user
domain_nameDomain name taken by executing the WMI command ‘SELECT * FROM Win32_ComputerSystem’.
task_stateSet to 0 by default. Used only when the network commands ‘ins’ or ‘sdl’ are executed.
task_idSet to 0 by default. Used only when the network commands ‘ins’ or ‘sdl’ are executed.

Once the server receives the request, it replies with the following data in a JSON format:

KeyDescription
response_statusBoolean value, which shows if the server correctly parsed the loader’s request. Set to 1 if successful.
tasksArray containing all the tasks
taskTask name
task_idID of the received task, which is set by the operator(s).
task_dataData for the loader to execute in Base64 encoded format
file_entry_pointPotentially represents an offset value. We have not observed this being used either in the binary’s code or during network communication (set to an empty string).

Tasks

Based on the returned tasks from the command-and-control servers, BUMBLEBEE will execute one of the tasks described below. For two of the tasks, shi and dij, BUMBLEBEE uses a list of predefined process images paths:

  • C:Program FilesWindows Photo ViewerImagingDevices.exe
  • C:Program FilesWindows Mailwab.exe
  • C:Program FilesWindows Mailwabmig.exe
Task nameDescription
shiInjects task’s data into a new process. The processes images paths are embedded in the binary and a random selection is made
dijInjects task’s data into a new process. The injection method defers from the method used in task ‘dij’. The processes images paths are embedded in the binary [1] and a random selection is made.
dexWrites task’s data into a file named ‘wab.exe’ under the Windows in AppData folder.
sdlDeletes loader’s binary from disk.
insAdds persistence to the compromised host.

For the persistence mechanism, BUMBLEBEE creates a new directory in the Windows AppData folder with the directory’s name being derived by the client_id MD5 value. Next, BUMBLEBEE copies itself to its new directory and creates a new VBS file with the following content:

Set objShell = CreateObject(“Wscript.Shell”)

objShell.Run “rundll32.exe my_application_path, IternalJob”

Lastly, it creates a scheduled task that has the following metadata (this can differ from sample to sample):

  1. Task name – Randomly generated. Up to 7 characters.
  2. Author – Asus
  3. Description – Video monitor
  4. Hidden from the UI: True
  5. Path: %WINDIR%\System32\wscript.exe VBS_Filepath

Similarly with the directory’ name, the new loader’s binary and VBS filenames are derived from the ‘client_id’ MD5 value too.

Additional Observations

This sub-section contains notes that were collected during the analysis phase and worth to be mentioned too.

  • The first iterations of BUMBLEBEE were observed in September 2021 and were using “/get_load” as URI. Later, the samples started using “/gate“. On 19th of April, they switched to “/gates“, replacing the previous URI.
  • The “/get_load” endpoint is still active on the recent infrastructure – this is probably either for backwards compatibility or ignored by the operator(s). Besides this, most of the earlier samples using URI endpoint are uploaded from non-European countries.
  • Considering that BUMBLEBEE is actively being developed on, the operator(s) did not implement a command to update the loader’s binary, resulting the loss of existing infections.
  • It was found via server errors (during network requests and from external parties) that the backend is written in Golang.
  • As mentioned above, every BUMBLEBEE binary has an embedded group tag. Currently, we have observed the following group tags:
VPS1GROUPALLdll
VPS2GROUP1804RA
VS2G1904r
VPS12004r
SP11904l
RA110425html
LEG07042504r
AL12042704r
RAI1204 
  • As additional payloads, NCC Group’s RIFT has observed mostly Cobalt Strike and Meterpeter being sent as tasks. However, third parties have confirmed the drop of Sliver and Bokbot payloads.
  • While analyzing NCC Group’s RIFT had a case where the command-and-control server sent the same Meterpeter PE file in two different tasks in the same request to be executed. This is probably an attempt to ensure execution of the downloaded payload (Figure 1). There were also cases where the server initially replied with a Cobalt Strike beacon and then followed up with more than two additional payloads, both being Meterpeter. 
Figure 1 – Duplicated received tasks
  • In one case, the downloaded Cobalt Strike beacon was executed in a sandbox environment and revealed the following commands were executed by the operator(s):
    • net group “domain admins” /domain
    • ipconfig /all
    • netstat -anop tcp
    • execution of Mimikatz

Indicators of Compromise

TypeDescriptionValue
IPv4Meterpreter command-and-control server, linked to Group ID 2004r 25html23.108.57[.]13
IPv4Meterpreter command-and-control server, linked to Group ID 2004r 2504r130.0.236[.]214
IPv4Cobalt Strike server, linked to Group ID 1904r93.95.229[.]160
IPv4Cobalt Strike server, linked to Group ID 2004r141.98.80[.]175
IPv4Cobalt Strike server, linked to Group ID 2504r 2704r185.106.123[.]74
IPv4BUMBLEBEE command-and-control servers103.175.16[.]45 103.175.16[.]46 104.168.236[.]99 108.62.118[.]236 108.62.118[.]56 108.62.118[.]61 108.62.118[.]62 108.62.12[.]12 116.202.251[.]3 138.201.190[.]52 142.234.157[.]93 142.91.3[.]109 142.91.3[.]11 149.255.35[.]167 154.56.0[.]214 154.56.0[.]216 168.119.62[.]39 172.241.27[.]146 172.241.29[.]169 185.156.172[.]62 192.236.198[.]63 193.29.104[.]176 199.195.254[.]17 199.80.55[.]44 209.141.59[.]96 209.151.144[.]223 213.227.154[.]158 213.232.235[.]105 23.106.160[.]120 23.106.160[.]39 23.227.198[.]217 23.254.202[.]59 23.81.246[.]187 23.82.140[.]133 23.82.141[.]184 23.82.19[.]208 23.83.133[.]1 23.83.133[.]182 23.83.133[.]216 23.83.134[.]110 23.83.134[.]136 28.11.143[.]222 37.72.174[.]9 45.11.19[.]224 45.140.146[.]244 45.140.146[.]30 45.147.229[.]177 45.147.229[.]23 45.147.231[.]107 49.12.241[.]35 71.1.188[.]122 79.110.52[.]191 85.239.53[.]25 89.222.221[.]14 89.44.9[.]135 89.44.9[.]235 91.213.8[.]23 91.90.121[.]73

References

[1] – https://github.com/LordNoteworthy/al-khaser

[2] – https://blog.google/threat-analysis-group/exposing-initial-access-broker-ties-conti/

NCC Group Incident Response services provide specialists to help guide and support you through incident handling, triage and analysis, all the way through to providing remediation guidance.

RIFT: Research and Intelligence Fusion Team

RIFT: Research and Intelligence Fusion Team

RIFT leverages our strategic analysis, data science, and threat hunting capabilities to create actionable threat intelligence, ranging from IoCs and detection capabilities to strategic reports on tomorrow’s threat landscape. Cyber security is an arms race where both attackers and defenders continually update and improve their tools and ways of working. To ensure that our managed services remain effective against the latest threats, NCC Group operates a Global Fusion Center with Fox-IT at its core. This multidisciplinary team converts our leading cyber threat intelligence into powerful detection strategies.