Affected Platforms: Microsoft Windows
Impacted Users: Microsoft Windows
Impact: The stolen information can be used for future attack
Severity Level: High
The past few years have seen a significant increase in the number of Rust developers. Rust is a programming language focused on performance and reliability. However, for an attacker, its complicated assembly code is a significant merit.
In May 2024, FortiGuard Labs observed a Rust-based stealer. In addition to its intricate code, the stealer is distributed using a variety of strategies and has a flexible way of choosing its target. Because of this ambiguity, we decided to call it Fickle Stealer.
This article summarizes the details of this campaign, roughly dividing the attack chain into three stages: Delivery, Preparatory Work, and Packer and Stealer Payload.
We are aware of four methods being used to deliver Fickle Stealer: VBA dropper, VBA downloader, link downloader, and executable downloader. For the most part, they download a PowerShell script for preparatory work. The file name is u.ps1 or bypass.ps1—they indicate the same file. In some attack chains, one more file is added between the downloader and u.ps1
Figure 2: The VBA code executes the encoded script
The script in the XML file drops Fickle Stealer to the Temp folder and executes it.
Figure 3: The decoded script.
Figure 4: The VBA code in the first downloader
The second VBA downloader uses forfiles.exe to subvert detections that limit cmd usage.
Figure 5: runOnce.bat only executes u.ps1 with PowerShell
The third downloader uses a trick to indirectly deliver the VBA downloader. In the document, a web browser control that accesses an MSHTML file on the server is embedded in a frame. When the victim enables active content and macro, it reads the MSHTML file and extracts the command from the file. Usually, the WebBrowser.Navigate method is necessary to load a specified URL. However, Word stores the last loaded URL in the document file, and that URL is used if a new one is not provided. In other words, once the URL is loaded, it can be loaded in the next execution even though there is no related macro. Another variant uses this technique to hide the URL (8d3ccfafc39830ee2325170e60a44eca4a24c9c4dd682a84fa60c961a0712316).
Figure 6: The orange-underlined code can be removed after the URL is loaded
Figure 7: The link downloader refers to the command executing the PowerShell script
Figure 8: The executable downloader
This section introduces the script files used in this attack.
Normal: C:\Windows \System32
Fake: C:\Windows \System32\en-US
An MSC file, hosted in Microsoft Management Console (MMC), manages the hardware, software, and network components and requires admin rights. Snap-ins provide the interface to the management task and access to the required program and data. The fake WmiMgmt.msc abuses a Shockwave Flash Object from ActiveX control, which opens a web browser by default.
Figure 9: Settings in the fake WmiMgmt.msc
The URL for the web browser is set to localhost, and u.ps1 creates HttpListener, which shows a web page when WmiMgmt.msc is executed. The web page contains a script that configures exclusions for Fickle Stealer and then downloads it to be executed.
Figure 10: The web page provided by u.ps1
The file path uses a technique called the Mock Trusted Directories Method. When converting a string during an evaluation request process, the trailing space after “Windows” is removed. As a result, the WmiMgmt.msc will be treated as executed from a trusted path.
Furthermore, MMC searches the MSC file for local languages. If not found, it tries to find one for en-US, so when Fickle Stealer executes WmiMgmt.msc’s copy, the fake WmiMgmt.msc is executed instead, with elevated authentication and no UAC prompt pops up.
Figure 11: The MSC for local language has a higher priority
Figure 12: Injected shell code.
Figure 13: The code for sending a message
Besides the message, tgmes.ps1 sends victim information, including country, city, IP address, OS version, computer name, and user name to the Telegram bot.
Figure 14: The data sent to the Telegram bot
Fickle Stealer is protected by a packer disguised as a legal executable. It seems that the attacker made the packer by replacing some code of a legal executable with the packer’s code and changing a function called in the initialize routine into the packer’s function. This can frustrate the static analysis. Mimicking various applications makes it difficult to detect the malware using certain detection rules.
For example, there is a variant (a641d10798be5224c8c32dfaab0dd353cd7bb06a2d57d9630e13fb1975d03a53) whose __cinit function in the initialize routine is modified into the packer’s function.
Figure 15: Comparison between the legal program and the packer for Fickle Stealer
In this case, the malicious code is executed before the WinMain function, which is usually the user-provided entry point for a C/C++ GUI application. As a result, people following typical analysis rules may overlook the malicious code. The packer only allocates memory to write the decrypted payload data and then executes it in memory.
Figure 16: Fickle Stealer's execution flow
Initially, Fickle Stealer creates a mutex to prevent a race condition. It then performs a series of anti-analysis checks and exits the process while it is being analyzed. Generally, it shows a fake error message before terminating the process.
Figure 17: The error message
Below are the anti-analysis techniques used:
Query string:
SELECT Name FROM Win32_Process
Blacklist:
tcpview, wireshark, fiddler, procexp, autoit, df5serv, OllyDbg, x64dbg, x32dbg, WinDbg, fakenet32, fakenet64, ProcessHacker, autorunsc, filemon, procmon, regmon, idaq, idaq64, ImmunityDebugger, dumpcap, HookExplorer, ImportREC, PETools, LordPE, SysInspector, proc_analyzer, sysAnalyzer, sniff_hit, joeboxcontrol, joeboxserver, ResourceHacker, Fidder, httpdebugger, PE-bear, die, sample, malware, virus, sandbox, maltest, test, and virustest
Blacklist:
SbieDll, SxIn, Sf2, snxhk, cmdvrt32
Query string:
SELECT * FROM Win32_PortConnector
SELECT * FROM CIM_Memory
SELECT * FROM CIM_PhysicalConnector
SELECT * FROM CIM_Slot
SELECT * FROM Win32_SMBIOSMemory
SELECT * FROM Win32_MemoryArray
SELECT * FROM Win32_MemoryDevice
SELECT * FROM Win32_PhysicalMemory
SELECT * FROM Win32_CacheMemory
Blacklist: (Empty)
Figure 18: The result is null in some virtual machine
Query string:
SELECT UUID FROM Win32_ComputerSystemProduct
Blacklist:
7AB5C494-39F5-4941-9163-47F54D6D5016
03DE0294-0480-05DE-1A06-350700080009
11111111-2222-3333-4444-555555555555
6F3CA5EC-BEC9-4A4D-8274-11168F640058
ADEEEE9E-EF0A-6B84-B14B-B83A54AFC548
4C4C4544-0050-3710-8058-CAC04F59344A
00000000-0000-0000-0000-AC1F6BD04972
00000000-0000-0000-0000-000000000000
5BD24D56-789F-8468-7CDC-CAA7222CC121
49434D53-0200-9065-2500-65902500E439
49434D53-0200-9036-2500-36902500F022
777D84B3-88D1-451C-93E4-D235177420A7
49434D53-0200-9036-2500-369025000C65
B1112042-52E8-E25B-3655-6A4F54155DBF
00000000-0000-0000-0000-AC1F6BD048FE
EB16924B-FB6D-4FA1-8666-17B91F62FB37
A15A930C-8251-9645-AF63-E45AD728C20C
67E595EB-54AC-4FF0-B5E3-3DA7C7B547E3
C7D23342-A5D4-68A1-59AC-CF40F735B363
63203342-0EB0-AA1A-4DF5-3FB37DBB0670
44B94D56-65AB-DC02-86A0-98143A7423BF
6608003F-ECE4-494E-B07E-1C4615D1D93C
D9142042-8F51-5EFF-D5F8-EE9AE3D1602A
49434D53-0200-9036-2500-369025003AF0
8B4E8278-525C-7343-B825-280AEBCD3BCB
4D4DDC94-E06C-44F4-95FE-33A1ADA5AC27
79AF5279-16CF-4094-9758-F88A616D81B4
FF577B79-782E-0A4D-8568-B35A9B7EB76B
Blacklist:
Billy, george, Abby, Darrel Jones, John, John Zalinsk, John Doe, SHCtAGa3rm, UV0U6479boGY, 8wjXNBz, WALKER, oxYT3lZggZMK, t3wObOwwaW, uh6PN, sMdVVcp, 06AAy3, mLfaNLLP, JPQlavKFb0Lt0, 7HV8BUt5BIsCZ, aFgxGd9fq4Iv8, Frank, Anna, wdagutilityaccount, WDAGUtilityAccount, hal9th, virus, malware, sandbox, sample, currentuser, emily, hapubws, hong lee, jaakw.q, it-admin, johnson, miller, milozs, microsoft, sand box, and maltest.
Next, it creates a new folder in the Temp folder with a random name, drops its copy to the new folder, and executes the copy. The currently running stealer will be terminated, and the copy will finish the remaining work to communicate with the server and send stolen data to the server.
Figure 19: Communication between the server and Fickle Stealer
If the environment check is passed, Fickle Stealer sends victim information to the server. The server sends a list of target applications and keywords as a response. Fickle Stealer sends all files in folders according to the list. The stolen data is stored in a specific JSON format that has three key-value pairs:
{
"name": "RB_{Computer name}",
"title": {File name},
"body": {File content}
}
In this sample, its name contains a string RB and the name of the victim’s computer. In version 1.5.7 (a641d10798be5224c8c32dfaab0dd353cd7bb06a2d57d9630e13fb1975d03a53), the string “RB” is changed to “Hold.” The title indicates the data it grabs. It usually contains a tag followed by a file path. The body is base64-encoded file content. After being compressed with the Deflate algorithm, the JSON-formatted data is sent to the server. There are some exceptions. For example, the first packet sent to the server contains the following items, and the title is System.txt.
user name, user domain, DNS host name, NetBIOS name, screen resolution, OS version, language, host name, ip address and hardware information: CPU, GPU, Antivirus software, installed application and currently running process
Figure 20: The data in the first packet
The server's response is also in JSON format and has three key-value pairs: status, k, and c. The target list, encrypted using an RC4 algorithm and then base64 encoded, is stored in c. The decryption key for RC4 is stored in k, as the following image shows.
Figure 21: The response from the server
There are four kinds of targets: crypto wallets, plugins, file extensions, and partial paths. Below are the targets specified by the server and the way the data is processed:
Wallet |
Sends files in specified folders. The title of data to send has a “wallet::” tag. AtomicWallet, Exodus, JaxxWallet, Electrum, ByteCoin, Ethereum, Guarda, Coinomi, Armory, ZCash |
Plugin |
Sends files in specified folders. The title of data to send has a “plugin___” tag. Authenticator, EOSAuthenticator, Bitwarden, KeePassXC, Dashlane, 1Password, NordPass, Keeper, RoboForm, LastPass, BrowserPass, MYKI, Splikity, CommonKey, ZohoVault, NortonPasswordManager, AviraPasswordManager, TrezorPasswordManager, MetaMask, TronLink, BinanceChain, Coin98, iWallet, Wombat, MEWCX, NeoLine, TerraStation, Keplr, Sollet, ICONex, KHC, TezBox, Byone, OneKey, DAppPlay, BitClip, SteemKeychain, NashExtension, HyconLiteClient, ZilPay, LeafWallet, CyanoWallet, CyanoWalletPro, NaboxWallet, PolymeshWallet, NiftyWallet, LiqualityWallet, MathWallet, CoinbaseWallet, CloverWallet, Yoroi, Guarda, EQUALWallet, BitAppWallet, AuroWallet, SaturnWallet, RoninWallet, Exodus, MaiarDeFiWallet, Nami, Eternl, UniSatWallet |
File extension |
Searches files with the following extensions in %USERPROFILE% and the sub-folder. The title of data to send has a “grabg::” tag. .txt, .kdbx, .pdf, .doc, .docx, .xls, .xlsx, .ppt, .pptx, .odt, .odp, wallet.dat |
Partial path |
Concatenates %APPDATA% and the following strings and searches log files and ldb files in the Local Storage/leveldb subfolder. The title is “discord_dblist.txt” discord |
Additionally, some applications are targets by default. Below are those targets and the way data is processed:
Applications |
Sends files in specified folder to the server. Most often, the tag is the application name in lower case appended by two colons: Anydesk, Ubisoft (tag:uplay::), Steam, Skype, Signal, ICQ, Filezilla, Telegram, Tox, Pidgin, Element |
Gecko engine browser |
Searches %APPDATA%, %LOCALAPPDATA% or %USERPROFILE% for these files: logins.json key4.db, keydb (tag: geckologins::) and cookies.sqlite (tag: geckocookies::) If found, it copies the file to the Temp folder, sends a copy to the server, and deletes the copy. |
Chromium based browser |
Searches “os_crypt" and "encrypted_key” in the Local state file to get a decryption key. It parses data in Cookies, History, WebData, and Login Data files to obtain sensitive data and sends a summarized result to the server. These files are also copied to the Temp folder before Fickle Stealer reads them. They are later deleted. The title is browser and the data is stored in JSON format. |
Figure 22: The data from Opera. Each browser can have different content
Finally, it sends a screenshot to the server and deletes itself by executing the following command:
cmd.exe /c timeout /t 5 & del /f /q {stealer} && exit
In addition to some popular applications, this stealer searches sensitive files in parent directories of common installation directories to ensure comprehensive data gathering. It also receives a target list from the server, which makes Fickle Stealer more flexible. Variants receiving an updated list are observed. The frequently updated attack chain also shows that it’s still in development. FortiGuard will continue monitoring malware variants and provide appropriate protections as needed.
The malware described in this report is detected and blocked by FortiGuard Antivirus as:
W32/InfoStealer.599C!tr
VBA/TrojanDownloader.BED9!tr
PowerShell/TrojanDownloader.AE38!tr
FortiGate, FortiMail, FortiClient, and FortiEDR support the FortiGuard AntiVirus service. The FortiGuard AntiVirus engine is part of each of these solutions. As a result, customers who have these products with up-to-date protections are protected.
The FortiGuard CDR (content disarm and reconstruction) service, which runs on both FortiGate and FortiMail, can disarm the malicious macros in the document.
We also suggest that organizations go through Fortinet’s free NSE training module: NSE 1 – Information Security Awareness. This module is designed to help end users learn how to identify and protect themselves from phishing attacks.
FortiGuard IP Reputation and Anti-Botnet Security Service proactively block these attacks by aggregating malicious source IP data from the Fortinet distributed network of threat sensors, CERTs, MITRE, cooperative competitors, and other global sources that collaborate to provide up-to-date threat intelligence about hostile sources.
To stay informed and proactively defend against attacks like Fickle Stealer, sign up to receive Outbreak Alerts from Fortinet.
If you believe this or any other cybersecurity threat has impacted your organization, please contact our Global FortiGuard Incident Response Team.
144[.]208[.]127[.]230
185[.]213[.]208[.]245
138[.]124[.]184[.]210
hxxps:// github[.]com/SkorikJR
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