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’Tis the season to spot and avoid gift card scams

by Scott Muniz | Dec 5, 2022 | Security

This article was originally posted by the FTC. See the original article here.

Brought to you by Dr. Ware, Microsoft Office 365 Silver Partner, Charleston SC.

#StopRansomware: Cuba Ransomware

by Scott Muniz | Dec 1, 2022 | Security, Technology

This article is contributed. See the original author and article here.

Summary

Actions to take today to mitigate cyber threats from ransomware:

• Prioritize remediating known exploited vulnerabilities.
• Train users to recognize and report phishing attempts.
• Enable and enforce phishing-resistant multifactor authentication.

Note: This joint Cybersecurity Advisory (CSA) is part of an ongoing #StopRansomware effort to publish advisories for network defenders that detail various ransomware variants and ransomware threat actors. These #StopRansomware advisories include recently and historically observed tactics, techniques, and procedures (TTPs) and indicators of compromise (IOCs) to help organizations protect against ransomware. Visit stopransomware.gov to see all #StopRansomware advisories and to learn more about other ransomware threats and no-cost resources.

The Federal Bureau of Investigation (FBI) and the Cybersecurity and Infrastructure Security Agency (CISA) are releasing this joint CSA to disseminate known Cuba ransomware IOCs and TTPs associated with Cuba ransomware actors identified through FBI investigations, third-party reporting, and open-source reporting. This advisory updates the December 2021 FBI Flash: Indicators of Compromise Associated with Cuba Ransomware.

Note: While this ransomware is known by industry as “Cuba ransomware,” there is no indication Cuba ransomware actors have any connection or affiliation with the Republic of Cuba.

Since the release of the December 2021 FBI Flash, the number of U.S. entities compromised by Cuba ransomware has doubled, with ransoms demanded and paid on the increase.

This year, Cuba ransomware actors have added to their TTPs, and third-party and open-source reports have identified a possible link between Cuba ransomware actors, RomCom Remote Access Trojan (RAT) actors, and Industrial Spy ransomware actors.

FBI and CISA encourage organizations to implement the recommendations in the Mitigations section of this CSA to reduce the likelihood and impact of Cuba ransomware and other ransomware operations.

Download the PDF version of this report: pdf, 652 kb.

Technical Details

Overview

Since the December 2021 release of FBI Flash: Indicators of Compromise Associated with Cuba Ransomware, FBI has observed Cuba ransomware actors continuing to target U.S. entities in the following five critical infrastructure sectors: Financial Services, Government Facilities, Healthcare and Public Health, Critical Manufacturing, and Information Technology. As of August 2022, FBI has identified that Cuba ransomware actors have:

Compromised over 100 entities worldwide.
Demanded over 145 million U.S. Dollars (USD) and received over 60 million USD in ransom payments.

Cuba Ransomware Actors’ Tactics, Techniques, and Procedures

As previously reported by FBI, Cuba ransomware actors have leveraged the following techniques to gain initial access into dozens of entities in multiple critical infrastructure sectors:

Known vulnerabilities in commercial software [T1190]
Phishing campaigns [T1566]
Compromised credentials [T1078]
Legitimate remote desktop protocol (RDP) tools [T1563.002]

After gaining initial access, the actors distributed Cuba ransomware on compromised systems through Hancitor—a loader known for dropping or executing stealers, such as Remote Access Trojans (RATs) and other types of ransomware, onto victims’ networks.

Since spring 2022, Cuba ransomware actors have modified their TTPs and tools to interact with compromised networks and extort payments from victims.[1],[2]

Cuba ransomware actors have exploited known vulnerabilities and weaknesses and have used tools to elevate privileges on compromised systems. According to Palo Alto Networks Unit 42,[2] Cuba ransomware actors have:

Exploited CVE-2022-24521 in the Windows Common Log File System (CLFS) driver to steal system tokens and elevate privileges.
Used a PowerShell script to identify and target service accounts for their associated Active Directory Kerberos ticket. The actors then collected and cracked the Kerberos tickets offline via Kerberoasting [T1558.003].
Used a tool, called KerberCache, to extract cached Kerberos tickets from a host’s Local Security Authority Server Service (LSASS) memory [T1003.001].
Used a tool to exploit CVE-2020-1472 (also known as “ZeroLogon”) to gain Domain Administrative privileges [T1068]. This tool and its intrusion attempts have been reportedly related to Hancitor and Qbot.

According to Palo Alto Networks Unit 42, Cuba ransomware actors use tools to evade detection while moving laterally through compromised environments before executing Cuba ransomware. Specifically, the actors, “leveraged a dropper that writes a kernel driver to the file system called ApcHelper.sys. This targets and terminates security products. The dropper was not signed, however, the kernel driver was signed using the certificate found in the LAPSUS NVIDIA leak.” [T1562.001].[2]

In addition to deploying ransomware, the actors have used “double extortion” techniques, in which they exfiltrate victim data, and (1) demand a ransom payment to decrypt it and, (2) threaten to publicly release it if a ransom payment is not made.[2]

Cuba Ransomware Link to RomCom and Industrial Spy Marketplace

Since spring 2022, third-party and open-source reports have identified an apparent link between Cuba ransomware actors, RomCom RAT actors, and Industrial Spy ransomware actors:

According to Palo Alto Networks Unit 42, Cuba ransomware actors began using RomCom malware, a custom RAT, for command and control (C2).[2]
Cuba ransomware actors may also be leveraging Industrial Spy ransomware. According to third-party reporting, suspected Cuba ransomware actors compromised a foreign healthcare company. The threat actors deployed Industrial Spy ransomware, which shares distinct similarities in configuration to Cuba ransomware. Before deploying the ransomware, the actors moved laterally using Impacket and deployed the RomCom RAT and Meterpreter Reverse Shell HTTP/HTTPS proxy via a C2 server [T1090].
Cuba ransomware actors initially used their leak site to sell stolen data; however, around May 2022, the actors began selling their data on Industrial Spy’s online market for selling stolen data.[2]

RomCom actors have targeted foreign military organizations, IT companies, food brokers and manufacturers.[3][4] The actors copied legitimate HTML code from public-facing webpages, modified the code, and then incorporated it in spoofed domains [T1584.001], which allowed the RomCom actors to:

Host counterfeit Trojanized applications for
- SolarWinds Network Performance Monitor (NPM),
- KeePass password manager,
- o PDF Reader Pro, (by PDF Technologies, Inc., not an Adobe Acrobat or Reader product), and
- Advanced IP Scanner software;
Deploy the RomCom RAT as the final stage.

INDICATORS OF COMPROMISE

See tables 1 through 5 for Cuba ransomware IOCs that FBI obtained during threat response investigations as of late August 2022. In addition to these tables, see the publications in the References section below for aid in detecting possible exploitation or compromise.

Note: For IOCs as of early November 2021, see FBI Flash: Indicators of Compromise Associated with Cuba Ransomware.

*Table 1: Cuba Ransomware Associated Files and Hashes, as of Late August 2022*
File Name		File Path	File Hash
netping.dll	c:windowstemp		SHA256: f1103e627311e73d5f29e877243e7ca203292f9419303c661aec57745eb4f26c
shar.bat			MD5: 4c32ef0836a0af7025e97c6253054bca SHA256: a7c207b9b83648f69d6387780b1168e2f1eabd23ae6e162dd700ae8112f8b96c
Psexesvc.exe			SHA256: 141b2190f51397dbd0dfde0e3904b264c91b6f81febc823ff0c33da980b69944
1.bat
216155s.dll
23246s.bat			SHA256: 02a733920c7e69469164316e3e96850d55fca9f5f9d19a241fad906466ec8ae8
23246s.dll			SHA256: 0cf6399db55d40bc790a399c6bbded375f5a278dc57a143e4b21ea3f402f551f
23246st.dll			SHA256: f5db51115fa0c910262828d0943171d640b4748e51c9a140d06ea81ae6ea1710
259238e.exe
31-100.bat
3184.bat
3184.dll
45.dll			SHA256: 857f28b8fe31cf5db6d45d909547b151a66532951f26cda5f3320d2d4461b583
4ca736d.exe
62e2e37.exe
64.235.39.82
64s.dll
7z.sfx
7zCon.sfx
7-zip.chm
82.ps1
9479.bat			SHA256: 08eb4366fc0722696edb03981f00778701266a2e57c40cd2e9d765bf8b0a34d0
9479p.bat			SHA256: f8144fa96c036a8204c7bc285e295f9cd2d1deb0379e39ee8a8414531104dc4a
9479p.ps1			SHA256: 88d13669a994d2e04ec0a9940f07ab8aab8563eb845a9c13f2b0fec497df5b17
a.exe			MD5: 03c835b684b21ded9a4ab285e4f686a3 SHA1: eaced2fcfdcbf3dca4dd77333aaab055345f3ab4 SHA256: 0f385cc69a93abeaf84994e7887cb173e889d309a515b55b2205805bdfe468a3 SHA256: 0d5e3483299242bf504bd3780487f66f2ec4f48a7b38baa6c6bc8ba16e4fb605 SHA256: 7e00bfb622072f53733074795ab581cf6d1a8b4fc269a50919dda6350209913c SHA256: af4523186fe4a5e2833bbbe14939d8c3bd352a47a2f77592d8adcb569621ce02
a220.bat
a220.dll			SHA256: 8a3d71c668574ad6e7406d3227ba5adc5a230dd3057edddc4d0ec5f8134d76c3
a82.exe			SHA256: 4306c5d152cdd86f3506f91633ef3ae7d8cf0dd25f3e37bec43423c4742f4c42
a91.exe			SHA256: 3d4502066a338e19df58aa4936c37427feecce9ab8d43abff4a7367643ae39ce
a99.exe			SHA256: f538b035c3de87f9f8294bec272c1182f90832a4e86db1e47cbb1ab26c9f3a0b
aa.exe
aa2.exe
aaa.stage.16549040.dns.alleivice.com
add2.exe
advapi32.dll
agent.13.ps1
agent.bat			SHA256: fd87ca28899823b37b2c239fbbd236c555bcab7768d67203f86d37ede19dd975
agent.dll
agent13.bat
agent13.ps1			SHA256: 1817cc163482eb21308adbd43fb6be57fcb5ff11fd74b344469190bb48d8163b
agent64.bin			SHA256: bff4dd37febd5465e0091d9ea68006be475c0191bd8c7a79a44fbf4b99544ef1
agsyst121.bat
agsyst121.dll
all.bat			SHA256: ecefd9bb8b3783a81ab934b44eb3d84df5e58f0289f089ef6760264352cf878a
all.dll			SHA256: db3b1f224aec1a7c58946d819d729d0903751d1867113aae5cca87e38c653cf4
anet.exe			SHA1: 241ce8af441db2d61f3eb7852f434642739a6cc3 SHA256: 74fbf3cc44dd070bd5cb87ca2eed03e1bbeec4fec644a25621052f0a73abbe84 SHA256: b160bd46b6efc6d79bfb76cf3eeacca2300050248969decba139e9e1cbeebf53 SHA256: f869e8fbd8aa1f037ad862cf6e8bbbf797ff49556fb100f2197be4ee196a89ae
App.exe
appnetwork.exe
AppVClient.man
aswSP_arPot2
aus.exe			SHA256: 0c2ffed470e954d2bf22807ba52c1ffd1ecce15779c0afdf15c292e3444cf674 SHA256: 310afba59ab8e1bda3ef750a64bf39133e15c89e8c7cf4ac65ee463b26b136ba
av.bat			SHA256: b5d202456ac2ce7d1285b9c0e2e5b7ddc03da1cbca51b5da98d9ad72e7f773b8
c2.ps1
c2.ps1
cdzehhlzcwvzcmcr.aspx
check.exe
checkk.exe
checkk.txt			SHA256: 1f842f84750048bb44843c277edeaa8469697e97c4dbf8dc571ec552266bec9f
client32.exe
comctl32 .dll
comp2.ps1
comps2.ps1
cqyrrxzhumiklndm.aspx
defendercontrol.exe
ff.exe			SHA256: 1b943afac4f476d523310b8e3afe7bca761b8cbaa9ea2b9f01237ca4652fc834
File __agsyst121.dll
File __aswArPot.sys
File __s9239.dll
File_agsyst121.dll
File_aswArPot.sys
File_s9239.dll
ga.exe
gdi32 .dll
geumspbgvvytqrih.aspx
IObit UNLOCKER.exe
kavsa32.exe			MD5: 236f5de8620a6255f9003d054f08574b SHA1: 9b546bd99272cf4689194d698c830a2510194722
kavsyst32.exe
kernel32.dll
komar.bat			SHA256: B9AFE016DBDBA389000B01CE7645E7EEA1B0A50827CDED1CBAA48FBC715197BB
komar.dll
komar121.bat
komar121.dll
komar2.ps1			SHA256: 61971d3cbf88d6658e5209de443e212100afc8f033057d9a4e79000f6f0f7cc4
komar64.dll			SHA256: 8E64BACAF40110547B334EADCB0792BDC891D7AE298FBFFF1367125797B6036B
mfcappk32.exe
newpass.ps1			SHA256: c646199a9799b6158de419b1b7e36b46c7b7413d6c35bfffaeaa8700b2dcc427
npalll.exe			SHA256: bd270853db17f94c2b8e4bd9fa089756a147ed45cbc44d6c2b0c78f361978906
ole32.dll
oleaut32.dll
open.bat			SHA256: 2EB3EF8A7A2C498E87F3820510752043B20CBE35B0CBD9AF3F69E8B8FE482676
open.exe
pass.ps1			SHA256: 0afed8d1b7c36008de188c20d7f0e2283251a174261547aab7fb56e31d767666
pdfdecrypt.exe
powerview.ps1
prt3389.bat			SHA256: e0d89c88378dcb1b6c9ce2d2820f8d773613402998b8dcdb024858010dec72ed
ra.ps1			SHA256: 571f8db67d463ae80098edc7a1a0cad59153ce6592e42d370a45df46f18a4ad8
rg1.exe
Rg2.exe
rundll32
s64174.bat			SHA256: 10a5612044599128981cb41d71d7390c15e7a2a0c2848ad751c3da1cbec510a2 SHA256: 1807549af1c8fdc5b04c564f4026e41790c554f339514d326f8b55cb7b9b4f79
s64174.dll
s9239.bat
s9239.dll
shell32.dll
stel.exe
syskav64.exe
sysra64,exe
systav332.bat			SHA256: 01242b35b6def71e42cc985e97d618e2fabd616b16d23f7081d575364d09ca74
TC-9.22a.2019.3.exe
TeamViewer.exe
testDLL.dll
tug4rigd.dll			SHA256: 952b34f6370294c5a0bb122febfaa80612fef1f32eddd48a3d0556c4286b7474
UpdateNotificationPipeline.002.etl
user32.dll
v1.bat
v2.bat
v3.bat
veeamp.exe			SHA256: 9aa1f37517458d635eae4f9b43cb4770880ea0ee171e7e4ad155bbdee0cbe732
version.dll
vlhqbgvudfnirmzx.aspx
wininet.dll
wlog.exe
wpeqawzp.sys
y3lcx345.dll
zero.exe			SHA256: 3a8b7c1fe9bd9451c0a51e4122605efc98e7e4e13ed117139a13e4749e211ed0

*Table 2: Cuba Ransomware Associated Email Addresses, as of Late August 2022*
Email Provider		Email Addresses
Cuba-supp[.]com	admin@cuba-supp[.]com
Encryption-support[.]com	admin@encryption-support[.]com
Mail.supports24[.]net	inbox@mail.supports24[.]net

*Table 3: Cuba Ransomware Associated Jabber Address, as of Late August 2022*
cuba_support@exploit[.]im

Table 4: IP Addresses Associated with Cuba Ransomware, as of Late August 2022
**Note:** Some of these observed IP addresses are more than a year old. FBI and CISA recommend vetting or investigating these IP addresses prior to taking forward-looking action such as blocking.
193.23.244[.]244	144.172.83[.]13	216.45.55[.]30
94.103.9[.]79	149.255.35[.]131	217.79.43[.]148
192.137.101[.]46	154.35.175[.]225	222.252.53[.]33
92.222.172[.]39	159.203.70[.]39	23.227.198[.]246
92.222.172[.]172	171.25.193[.]9	31.184.192[.]44
10.13.102[.]1	185.153.199[.]169	37.120.247[.]39
10.13.102[.]58	192.137.100[.]96	37.44.253[.]21
10.133.78[.]41	192.137.100[.]98	38.108.119[.]121
10.14.100[.]20	192.137.101[.]205	45.164.21[.]13
103.114.163[.]197	193.34.167[.]17	45.32.229[.]66
103.27.203[.]197	194.109.206[.]212	45.86.162[.]34
104.217.8[.]100	195.54.160[.]149	45.91.83[.]176
107.189.10[.]143	199.58.81[.]140	64.52.169[.]174
108.170.31[.]115	204.13.164[.]118	64.235.39[.]82
128.31.0[.]34	209.76.253[.]84	79.141.169[.]220
128.31.0[.]39	212.192.241[.]230	84.17.52[.]135
131.188.40[.]189	213.32.39[.]43	86.59.21[.]38
141.98.87[.]124	216.45.55[.]3

*Table 5: Cuba Bitcoin Wallets Receiving Payments, as of Late August 2022*
bc1q4vr25xkth35qslenqwd7aw020w85qrvlrhv7hc
bc1q5uc0fdnz0ve5pg4nl4upa9ly586t6wmnghfe7x
bc1q6rsj3cn37dngypu5kad9gdw5ykhctpwhjvun3z
bc1q6zkemtyyrre2mkk23g93zyq98ygrygvx7z2q0t
bc1q9cj0n9k2m282x0nzj6lhqjvhkkd4h95sewek83
bc1qaselp9nhejc3safcq3vn5wautx6w33x0llk7dl
bc1qc48q628t93xwzljtvurpqhcvahvesadpwqtsza
bc1qgsuf5m9tgxuv4ylxcmx8eeqn3wmlmu7f49zkus
bc1qhpepeeh7hlz5jvrp50uhkz59lhakcfvme0w9qh
bc1qjep0vx2lap93455p7h29unruvr05cs242mrcah
bc1qr9l0gcl0nvmngap6ueyy5gqdwvm34kdmtevjyx
bc1qs3lv77udkap2enxv928x59yuact5df4t95rsqr
bc1qyd05q2m5qt3nwpd3gcqkyer0gspqx5p6evcf7h
bc1qzz7xweq8ee2j35tq6r5m687kctq9huskt50edv
bc1qvpk8ksl3my6kjezjss9p28cqj4dmpmmjx5yl3y
bc1qhtwfcysclc7pck2y3vmjtpzkaezhcm6perc99x
bc1qft3s53ur5uq5ru6sl3zyr247dpr55mnggwucd3
bc1qp7h9fszlqxjwyfhv0upparnsgx56x7v7wfx4x7
bc1q4vr25xkth35qslenqwd7aw020w85qrvlrhv7hc
bc1q5uc0fdnz0ve5pg4nl4upa9ly586t6wmnghfe7x
bc1q6rsj3cn37dngypu5kad9gdw5ykhctpwhjvun3z
bc1q6zkemtyyrre2mkk23g93zyq98ygrygvx7z2q0t
bc1q9cj0n9k2m282x0nzj6lhqjvhkkd4h95sewek83
bc1qaselp9nhejc3safcq3vn5wautx6w33x0llk7dl
bc1qc48q628t93xwzljtvurpqhcvahvesadpwqtsza
bc1qgsuf5m9tgxuv4ylxcmx8eeqn3wmlmu7f49zkus
bc1qhpepeeh7hlz5jvrp50uhkz59lhakcfvme0w9qh
bc1qjep0vx2lap93455p7h29unruvr05cs242mrcah
bc1qr9l0gcl0nvmngap6ueyy5gqdwvm34kdmtevjyx
bc1qs3lv77udkap2enxv928x59yuact5df4t95rsqr
bc1qyd05q2m5qt3nwpd3gcqkyer0gspqx5p6evcf7h
bc1qzz7xweq8ee2j35tq6r5m687kctq9huskt50edv

See figure 1 for an example of a Cuba ransomware note.

*Figure 1: Sample Cuba Ransom Note 2, as of late August 2022*
Greetings! Unfortunately we have to report that your company were compromised. All your files were encrypted and you can’t restore them without our private key. Trying to restore it without our help may cause complete loss of your data. Also we researched whole your corporate network and downloaded all your sensitive data to our servers. If we will not get any contact from you in the next 3 days we will public it in our news site. You can find it there ( https[:]// cuba4ikm4jakjgmkeztyawtdgr2xymvy6nvgw5cglswg3si76icnqd.onion/ ) Tor Browser is needed ( https[:]//www.torproject.org/download/ ) Also we respect your work and time and we are open for communication. In that case we are ready to discuss recovering your files and work. We can grant absolute privacy and compliance with agreements by our side. Also we can provide all necessary evidence to confirm performance of our products and statements. Feel free to contact us with quTox ( https[:]//tox.chat/download.html ) Our ToxID: 37790E2D198DFD20C9D2887D4EF7C3E295188842480192689864DCCA3C8BD808A18956768271 Alternative method is email: inbox@mail.supports24[.]net Mark your messages with your personal ID:

Additional resources to detect possible exploitation or compromise:

MITRE ATT&CK TECHNIQUES

Cuba ransomware actors use the ATT&CK techniques listed in Table 6. Note: For details on TTPs listed in the table, see FBI Flash Indicators of Compromise Associated with Cuba Ransomware.

*Table 6: Cuba Ransomware Actors ATT&CK Techniques for Enterprise*
Resource Development
Technique Title	ID	Use
Compromise Infrastructure: Domains	T1584.001	Cuba ransomware actors use compromised networks to conduct their operations.
Initial Access
Technique Title	ID	Use
Valid Accounts	T1078	Cuba ransomware actors have been known to use compromised credentials to get into a victim’s network.
External Remote Services	T1133	Cuba ransomware actors may leverage external-facing remote services to gain initial access to a victim’s network.
Exploit Public-Facing Application	T1190	Cuba ransomware actors are known to exploit vulnerabilities in public-facing systems.
Phishing	T1566	Cuba ransomware actors have sent phishing emails to obtain initial access to systems.
Execution
Technique Title	ID	Use
Command and Scripting Interpreter: PowerShell	T1059.001	Cuba ransomware actors have used PowerShell to escalate privileges.
Software Deployment Tools	T1072	Cuba ransomware actors use Hancitor as a tool to spread malicious files throughout a victim’s network.
Privilege Escalation
Technique Title	ID	Use
Exploitation for Privilege Escalation	T1068	Cuba ransomware actors have exploited ZeroLogon to gain administrator privileges.[2]
Defense Evasion
Technique Title	ID	Use
Impair Defenses: Disable or Modify Tools	T1562.001	Cuba ransomware actors leveraged a loader that disables security tools within the victim network.
Lateral Movement
Technique Title	ID	Use
Remote Services Session: RDP Hijacking	T1563.002	Cuba ransomware actors used RDP sessions to move laterally.
Credential Access
Technique Title	ID	Use
Credential Dumping: LSASS Memory	T1003.001	Cuba ransomware actors use LSASS memory to retrieve stored compromised credentials.
Steal or Forge Kerberos Tickets: Kerberoasting	T1558.003	Cuba ransomware actors used the Kerberoasting technique to identify service accounts linked to active directory.[2]
Command and Control
Technique Title	ID	Use
Proxy: Manipulate Command and Control Communications	T1090	Industrial Spy ransomware actors use HTTP/HTTPS proxy via a C2 server to direct traffic to avoid direct connection. [2]

Mitigations

FBI and CISA recommend network defenders apply the following mitigations to limit potential adversarial use of common system and network discovery techniques and to reduce the risk of compromise by Cuba ransomware:

Implement a recovery plan to maintain and retain multiple copies of sensitive or proprietary data and servers in a physically separate, segmented, and secure location (i.e., hard drive, storage device, the cloud).
Require all accounts with password logins (e.g., service account, admin accounts, and domain admin accounts) to comply with National Institute for Standards and Technology (NIST) standards for developing and managing password policies.
- Use longer passwords consisting of at least 8 characters and no more than 64 characters in length.
- Store passwords in hashed format using industry-recognized password managers.
- Add password user “salts” to shared login credentials.
- Avoid reusing passwords.
- Implement multiple failed login attempt account lockouts.
- Disable password “hints.”
- Refrain from requiring password changes more frequently than once per year.
- Note: NIST guidance suggests favoring longer passwords instead of requiring regular and frequent password resets. Frequent password resets are more likely to result in users developing password “patterns” cyber criminals can easily decipher.
- Require administrator credentials to install software.
Require multifactor authentication for all services to the extent possible, particularly for webmail, virtual private networks, and accounts that access critical systems.
Keep all operating systems, software, and firmware up to date. Timely patching is one of the most efficient and cost-effective steps an organization can take to minimize its exposure to cybersecurity threats. Prioritize patching SonicWall firewall vulnerabilities and known exploited vulnerabilities in internet-facing systems. Note: SonicWall maintains a vulnerability list that includes Advisory ID, CVE, and mitigation. Their list can be found at psirt.global.sonicwall.com/vuln-list.
Segment networks to prevent the spread of ransomware. Network segmentation can help prevent the spread of ransomware by controlling traffic flows between—and access to—various subnetworks and by restricting adversary lateral movement.
Identify, detect, and investigate abnormal activity and potential traversal of the indicated ransomware with a networking monitoring tool. To aid in detecting the ransomware, implement a tool that logs and reports all network traffic, including lateral movement activity on a network. Endpoint detection and response (EDR) tools are particularly useful for detecting lateral connections as they have insight into common and uncommon network connections for each host.
Install, regularly update, and enable real time detection for antivirus software on all hosts.
Review domain controllers, servers, workstations, and active directories for new and/or unrecognized accounts.
Audit user accounts with administrative privileges and configure access controls according to the principle of least privilege.
Disable unused ports.
Consider adding an email banner to emails received from outside your organization.
Disable hyperlinks in received emails.
Implement time-based access for accounts set at the admin level and higher. For example, the Just-in-Time (JIT) access method provisions privileged access when needed and can support enforcement of the principle of least privilege (as well as the Zero Trust model). JIT sets a network-wide policy in place to automatically disable admin accounts at the Active Directory level when the account is not in direct need. Individual users may submit their requests through an automated process that grants them access to a specified system for a set timeframe when they need to support the completion of a certain task.
Disable command-line and scripting activities and permissions. Privilege escalation and lateral movement often depend on software utilities running from the command line. If threat actors are not able to run these tools, they will have difficulty escalating privileges and/or moving laterally.
Maintain offline backups of data, and regularly maintain backup and restoration. By instituting this practice, the organization ensures they will not be severely interrupted, and/or only have irretrievable data.
Ensure all backup data is encrypted, immutable (i.e., cannot be altered or deleted), and covers the entire organization’s data infrastructure.

RESOURCES

REPORTING

FBI is seeking any information that can be shared, to include boundary logs showing communication to and from foreign IP addresses, a sample ransom note, communications with ransomware actors, Bitcoin wallet information, decryptor files, and/or a benign sample of an encrypted file.

FBI and CISA do not encourage paying ransom as payment does not guarantee victim files will be recovered. Furthermore, payment may also embolden adversaries to target additional organizations, encourage other criminal actors to engage in the distribution of ransomware, and/or fund illicit activities. Regardless of whether you or your organization have decided to pay the ransom, FBI and CISA urge you to promptly report ransomware incidents immediately. Report to a local FBI Field Office, or CISA at us-cert.cisa.gov/report.

DISCLAIMER

The information in this report is being provided “as is” for informational purposes only. FBI and CISA do not endorse any commercial product or service, including any subjects of analysis. Any reference to specific commercial products, processes, or services by service mark, trademark, manufacturer, or otherwise, does not constitute or imply endorsement, recommendation, or favoring by FBI or CISA.

ACKNOWLEDGEMENTS

FBI and CISA would like to thank BlackBerry, ESET, The National Cyber-Forensics and Training Alliance (NCFTA), and Palo Alto Networks for their contributions to this CSA.

References

Revisions

Initial Version: December 1, 2022

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#StopRansomware: Cuba Ransomware

by Scott Muniz | Dec 1, 2022 | Security, Technology

This article is contributed. See the original author and article here.

Today, the Federal Bureau of Investigation (FBI) and CISA released a joint Cybersecurity Advisory (CSA) #StopRansomware: Cuba Ransomware to provide network defenders tactics, techniques, and procedures (TTPs) and indicators of compromise (IOCs) associated with Cuba ransomware. FBI investigations identified these TTPs and IOCs as recently as August 2022. This CSA updates the December 2021 FBI Flash: Indicators of Compromise Associated with Cuba Ransomware. Key updates include:

FBI has identified a sharp increase in the both the number of compromised U.S. entities and the ransom amounts demanded by Cuba ransomware actors.
Since spring 2022, Cuba ransomware actors have expanded their TTPs.
Third-party and open-source reports have identified a possible link between Cuba ransomware actors, RomCom Remote Access Trojan (RAT) actors, and Industrial Spy ransomware actors.

FBI and CISA encourage network defenders to review the joint CSA and to apply the included mitigations. See StopRansomware.gov for additional guidance on ransomware protection, detection, and response.

CISA Releases Three Industrial Control Systems Advisories

by Scott Muniz | Dec 1, 2022 | Security, Technology

This article is contributed. See the original author and article here.

CISA has released three (3) Industrial Control Systems (ICS) advisories on December 1, 2022. These advisories provide timely information about current security issues, vulnerabilities, and exploits surrounding ICS.

CISA encourages users and administrators to review the newly released ICS advisories for technical details and mitigations:

•   ICSMA-22-335-01 BD BodyGuard Pumps
•   ICSA-22-335-01 MELSEC iQ-R Series
•   ICSA-22-335-02 Horner Automation Remote Compact Controller