Login
woo-1200
A new breach involving data from nine million AT&T customers is a fresh reminder that your mobile provider likely collects and shares a great deal of information about where you go and what you do with your mobile device — unless and until you affirmatively opt out of this data collection. Here’s a primer on why you might want to do that, and how.
Image: Shutterstock
Telecommunications giant AT&T disclosed this month that a breach at a marketing vendor exposed certain account information for nine million customers. AT&T said the data exposed did not include sensitive information, such as credit card or Social Security numbers, or account passwords, but was limited to “Customer Proprietary Network Information” (CPNI), such as the number of lines on an account.
Certain questions may be coming to mind right now, like “What the heck is CPNI?” And, ‘If it’s so ‘customer proprietary,’ why is AT&T sharing it with marketers?” Also maybe, “What can I do about it?” Read on for answers to all three questions.
AT&T’s disclosure said the information exposed included customer first name, wireless account number, wireless phone number and email address. In addition, a small percentage of customer records also exposed the rate plan name, past due amounts, monthly payment amounts and minutes used.
CPNI refers to customer-specific “metadata” about the account and account usage, and may include:
-Called phone numbers
-Time of calls
-Length of calls
-Cost and billing of calls
-Service features
-Premium services, such as directory call assistance
According to a succinct CPNI explainer at TechTarget, CPNI is private and protected information that cannot be used for advertising or marketing directly.
“An individual’s CPNI can be shared with other telecommunications providers for network operating reasons,” wrote TechTarget’s Gavin Wright. “So, when the individual first signs up for phone service, this information is automatically shared by the phone provider to partner companies.”
Is your mobile Internet usage covered by CPNI laws? That’s less clear, as the CPNI rules were established before mobile phones and wireless Internet access were common. TechTarget’s CPNI primer explains:
“Under current U.S. law, cellphone use is only protected as CPNI when it is being used as a telephone. During this time, the company is acting as a telecommunications provider requiring CPNI rules. Internet use, websites visited, search history or apps used are not protected CPNI because the company is acting as an information services provider not subject to these laws.”
Hence, the carriers can share and sell this data because they’re not explicitly prohibited from doing so. All three major carriers say they take steps to anonymize the customer data they share, but researchers have shown it is not terribly difficult to de-anonymize supposedly anonymous web-browsing data.
“Your phone, and consequently your mobile provider, know a lot about you,” wrote Jack Morse for Mashable. “The places you go, apps you use, and the websites you visit potentially reveal all kinds of private information — e.g. religious beliefs, health conditions, travel plans, income level, and specific tastes in pornography. This should bother you.”
Happily, all of the U.S. carriers are required to offer customers ways to opt out of having data about how they use their devices shared with marketers. Here’s a look at some of the carrier-specific practices and opt-out options.
AT&T’s policy says it shares device or “ad ID”, combined with demographics including age range, gender, and ZIP code information with third parties which explicitly include advertisers, programmers, and networks, social media networks, analytics firms, ad networks and other similar companies that are involved in creating and delivering advertisements.
AT&T said the data exposed on 9 million customers was several years old, and mostly related to device upgrade eligibility. This may sound like the data went to just one of its partners who experienced a breach, but in all likelihood it also went to hundreds of AT&T’s partners.
AT&T’s CPNI opt-out page says it shares CPNI data with several of its affiliates, including WarnerMedia, DirecTV and Cricket Wireless. Until recently, AT&T also shared CPNI data with Xandr, whose privacy policy in turn explains that it shares data with hundreds of other advertising firms. Microsoft bought Xandr from AT&T last year.
According to the Electronic Privacy Information Center (EPIC), T-Mobile seems to be the only company out of the big three to extend to all customers the rights conferred by the California Consumer Privacy Act (CCPA).
EPIC says T-Mobile customer data sold to third parties uses another unique identifier called mobile advertising IDs or “MAIDs.” T-Mobile claims that MAIDs don’t directly identify consumers, but under the CCPA MAIDs are considered “personal information” that can be connected to IP addresses, mobile apps installed or used with the device, any video or content viewing information, and device activity and attributes.
T-Mobile customers can opt out by logging into their account and navigating to the profile page, then to “Privacy and Notifications.” From there, toggle off the options for “Use my data for analytics and reporting” and “Use my data to make ads more relevant to me.”
Verizon’s privacy policy says it does not sell information that personally identities customers (e.g., name, telephone number or email address), but it does allow third-party advertising companies to collect information about activity on Verizon websites and in Verizon apps, through MAIDs, pixels, web beacons and social network plugins.
According to Wired.com’s tutorial, Verizon users can opt out by logging into their Verizon account through a web browser or the My Verizon mobile app. From there, select the Account tab, then click Account Settings and Privacy Settings on the web. For the mobile app, click the gear icon in the upper right corner and then Manage Privacy Settings.
On the privacy preferences page, web users can choose “Don’t use” under the Custom Experience section. On the My Verizon app, toggle any green sliders to the left.
EPIC notes that all three major carriers say resetting the consumer’s device ID and/or clearing cookies in the browser will similarly reset any opt-out preferences (i.e., the customer will need to opt out again), and that blocking cookies by default may also block the opt-out cookie from being set.
T-Mobile says its opt out is device-specific and/or browser-specific. “In most cases, your opt-out choice will apply only to the specific device or browser on which it was made. You may need to separately opt out from your other devices and browsers.”
Both AT&T and Verizon offer opt-in programs that gather and share far more information, including device location, the phone numbers you call, and which sites you visit using your mobile and/or home Internet connection. AT&T calls this their Enhanced Relevant Advertising Program; Verizon’s is called Custom Experience Plus.
In 2021, multiple media outlets reported that some Verizon customers were being automatically enrolled in Custom Experience Plus — even after those customers had already opted out of the same program under its previous name — “Verizon Selects.”
If none of the above opt out options work for you, at a minimum you should be able to opt out of CPNI sharing by calling your carrier, or by visiting one of their stores.
Why should you opt out of sharing CPNI data? For starters, some of the nation’s largest wireless carriers don’t have a great track record in terms of protecting the sensitive information that you give them solely for the purposes of becoming a customer — let alone the information they collect about your use of their services after that point.
In January 2023, T-Mobile disclosed that someone stole data on 37 million customer accounts, including customer name, billing address, email, phone number, date of birth, T-Mobile account number and plan details. In August 2021, T-Mobile acknowledged that hackers made off with the names, dates of birth, Social Security numbers and driver’s license/ID information on more than 40 million current, former or prospective customers who applied for credit with the company.
Last summer, a cybercriminal began selling the names, email addresses, phone numbers, SSNs and dates of birth on 23 million Americans. An exhaustive analysis of the data strongly suggested it all belonged to customers of one AT&T company or another. AT&T stopped short of saying the data wasn’t theirs, but said the records did not appear to have come from its systems and may be tied to a previous data incident at another company.
However frequently the carriers may alert consumers about CPNI breaches, it’s probably nowhere near often enough. Currently, the carriers are required to report a consumer CPNI breach only in cases “when a person, without authorization or exceeding authorization, has intentionally gained access to, used or disclosed CPNI.”
But that definition of breach was crafted eons ago, back when the primary way CPNI was exposed was through “pretexting,” such when the phone company’s employees are tricked into giving away protected customer data.
In January, regulators at the U.S. Federal Communications Commission (FCC) proposed amending the definition of “breach” to include things like inadvertent disclosure — such as when companies expose CPNI data on a poorly-secured server in the cloud. The FCC is accepting public comments on the matter until March 24, 2023.
While it’s true that the leak of CPNI data does not involve sensitive information like Social Security or credit card numbers, one thing AT&T’s breach notice doesn’t mention is that CPNI data — such as balances and payments made — can be abused by fraudsters to make scam emails and text messages more believable when they’re trying to impersonate AT&T and phish AT&T customers.
The other problem with letting companies share or sell your CPNI data is that the wireless carriers can change their privacy policies at any time, and you are assumed to be okay with those changes as long as you keep using their services.
For example, location data from your wireless device is most definitely CPNI, and yet until very recently all of the major carriers sold their customers’ real-time location data to third party data brokers without customer consent.
What was their punishment? In 2020, the FCC proposed fines totaling $208 million against all of the major carriers for selling their customers’ real-time location data. If that sounds like a lot of money, consider that all of the major wireless providers reported tens of billions of dollars in revenue last year (e.g., Verizon’s consumer revenue alone was more than $100 billion last year).
If the United States had federal privacy laws that were at all consumer-friendly and relevant to today’s digital economy, this kind of data collection and sharing would always be opt-in by default. In such a world, the enormously profitable wireless industry would likely be forced to offer clear financial incentives to customers who choose to share this information.
But until that day arrives, understand that the carriers can change their data collection and sharing policies when it suits them. And regardless of whether you actually read any notices about changes to their privacy policies, you will have agreed to those changes as long as you continue using their service.
Related tags
The U.S. Federal Bureau of Investigation (FBI) this week arrested a New York man on suspicion of running BreachForums, a popular English-language cybercrime forum where some of the world biggest hacked databases routinely show up for sale. The forum’s administrator “Pompompurin” has been a thorn in the side of the FBI for years, and BreachForums is widely considered a reincarnation of RaidForums, a remarkably similar crime forum that the FBI infiltrated and dismantled in 2022.
Federal agents carting items out of Fitzpatrick’s home on March 15. Image: News 12 Westchester.
In an affidavit filed with the District Court for the Southern District of New York, FBI Special Agent John Longmire said that at around 4:30 p.m. on March 15, 2023, he led a team of law enforcement agents that made a probable cause arrest of a Conor Brian Fitzpatrick in Peekskill, NY.
“When I arrested the defendant on March 15, 2023, he stated to me in substance and in part that: a) his name was Conor Brian Fitzpatrick; b) he used the alias ‘pompompurin/’ and c) he was the owner and administrator of ‘BreachForums’ the data breach website referenced in the Complaint,” Longmire wrote.
Pompompurin has been something of a nemesis to the FBI for several years. In November 2021, KrebsOnSecurity broke the news that thousands of fake emails about a cybercrime investigation were blasted out from the FBI’s email systems and Internet addresses.
Pompompurin took credit for that stunt, and said he was able to send the FBI email blast by exploiting a flaw in an FBI portal designed to share information with state and local law enforcement authorities. The FBI later acknowledged that a software misconfiguration allowed someone to send the fake emails.
In December, 2022, KrebsOnSecurity broke the news that hackers active on BreachForums had infiltrated the FBI’s InfraGard program, a vetted FBI program designed to build cyber and physical threat information sharing partnerships with experts in the private sector. The hackers impersonated the CEO of a major financial company, applied for InfraGard membership in the CEO’s name, and were granted admission to the community.
From there, the hackers plundered the InfraGard member database, and proceeded to sell contact information on more than 80,000 InfraGard members in an auction on BreachForums. The FBI responded by disabling the portal for some time, before ultimately forcing all InfraGard members to re-apply for membership.
More recently, BreachForums was the sales forum for data stolen from DC Health Link, a health insurance exchange based in Washington, D.C. that suffered a data breach this month. The sales thread initially said the data included the names, Social Security numbers, dates of birth, health plan and enrollee information and more on 170,000 individuals, although the official notice about the breach says 56,415 people were affected.
In April 2022, U.S. Justice Department seized the servers and domains for RaidForums, an extremely popular English-language cybercrime forum that sold access to more than 10 billion consumer records stolen in some of the world’s largest data breaches since 2015. As part of that operation, the feds also charged the alleged administrator, 21-year-old Diogo Santos Coelho of Portugal, with six criminal counts.
Coelho was arrested in the United Kingdom on Jan. 31, 2022. By that time, the new BreachForums had been live for just under a week, but with a familiar look.
BreachForums remains accessible online, and from reviewing the live chat stream on the site’s home page it appears the forum’s active users are only just becoming aware that their administrator — and the site’s database — is likely now in FBI hands:
Members of BreachForums discuss the arrest of the forum’s alleged owner.
“Wait if they arrested pom then doesn’t the FBI have all of our details we’ve registered with?” asked one worried BreachForums member.
“But we all have good VPNs I guess, right…right guys?” another denizen offered.
“Like pom would most likely do a plea bargain and cooperate with the feds as much as possible,” replied another.
Fitzpatrick could not be immediately reached for comment. The FBI declined to comment for this story.
There is only one page to the criminal complaint against Fitzpatrick (PDF), which charges him with one count of conspiracy to commit access device fraud. The affidavit on his arrest is available here (PDF).
Update: Corrected spelling of FBI agent’s last name.
Microsoft on Tuesday released updates to quash at least 74 security bugs in its Windows operating systems and software. Two of those flaws are already being actively attacked, including an especially severe weakness in Microsoft Outlook that can be exploited without any user interaction.
The Outlook vulnerability (CVE-2023-23397) affects all versions of Microsoft Outlook from 2013 to the newest. Microsoft said it has seen evidence that attackers are exploiting this flaw, which can be done without any user interaction by sending a booby-trapped email that triggers automatically when retrieved by the email server — before the email is even viewed in the Preview Pane.
While CVE-2023-23397 is labeled as an “Elevation of Privilege” vulnerability, that label doesn’t accurately reflect its severity, said Kevin Breen, director of cyber threat research at Immersive Labs.
Known as an NTLM relay attack, it allows an attacker to get someone’s NTLM hash [Windows account password] and use it in an attack commonly referred to as “Pass The Hash.”
“The vulnerability effectively lets the attacker authenticate as a trusted individual without having to know the person’s password,” Breen said. “This is on par with an attacker having a valid password with access to an organization’s systems.”
Security firm Rapid7 points out that this bug affects self-hosted versions of Outlook like Microsoft 365 Apps for Enterprise, but Microsoft-hosted online services like Microsoft 365 are not vulnerable.
The other zero-day flaw being actively exploited in the wild — CVE-2023-24880 — is a “Security Feature Bypass” in Windows SmartScreen, part of Microsoft’s slate of endpoint protection tools.
Patch management vendor Action1 notes that the exploit for this bug is low in complexity and requires no special privileges. But it does require some user interaction, and can’t be used to gain access to private information or privileges. However, the flaw can allow other malicious code to run without being detected by SmartScreen reputation checks.
Dustin Childs, head of threat awareness at Trend Micro’s Zero Day Initiative, said CVE-2023-24880 allows attackers to create files that would bypass Mark of the Web (MOTW) defenses.
“Protective measures like SmartScreen and Protected View in Microsoft Office rely on MOTW, so bypassing these makes it easier for threat actors to spread malware via crafted documents and other infected files that would otherwise be stopped by SmartScreen,” Childs said.
Seven other vulnerabilities Microsoft patched this week earned its most-dire “critical” severity label, meaning the updates address security holes that could be exploited to give the attacker full, remote control over a Windows host with little or no interaction from the user.
Also this week, Adobe released eight patches addressing a whopping 105 security holes across a variety of products, including Adobe Photoshop, Cold Fusion, Experience Manager, Dimension, Commerce, Magento, Substance 3D Stager, Cloud Desktop Application, and Illustrator.
For a more granular rundown on the updates released today, see the SANS Internet Storm Center roundup. If today’s updates cause any stability or usability issues in Windows, AskWoody.com will likely have the lowdown on that.
Please consider backing up your data and/or imaging your system before applying any updates. And feel free to sound off in the comments if you experience any problems as a result of these patches.
Two U.S. men have been charged with hacking into a U.S. Drug Enforcement Agency (DEA) online portal that taps into 16 different federal law enforcement databases. Both are alleged to be part of a larger criminal organization that specializes in using fake emergency data requests from compromised police and government email accounts to publicly threaten and extort their victims.
Prosecutors for the Eastern District of New York today unsealed criminal complaints against Sagar Steven Singh — a.k.a “Weep” — a 19-year-old from Pawtucket, Rhode Island; and Nicholas Ceraolo, 25, of Queens, NY, who allegedly went by the handles “Convict” and “Ominus.”
The Justice Department says Singh and Ceraolo belong to a group of cybercriminals known to its members as “ViLE,” who specialize in obtaining personal information about third-party victims, which they then use to harass, threaten or extort the victims, a practice known as “doxing.”
“ViLE is collaborative, and the members routinely share tactics and illicitly obtained information with each other,” prosecutors charged.
The government alleges the defendants and other members of ViLE use various methods to obtain victims’ personal information, including:
-tricking customer service employees;
-submitting fraudulent legal process to social media companies to elicit users’ registration information;
-co-opting and corrupting corporate insiders;
-searching public and private online databases;
-accessing a nonpublic United States government database without authorization
-unlawfully using official email accounts belonging to other countries.
The complaint says once they obtained a victim’s information, Singh and Ceraolo would post the information in an online forum. The government refers to this community only as “Forum-1,” saying that it is administered by the leader of ViLE (referenced in the complaint as “CC-1”).
“Victims are extorted into paying CC-1 to have their information removed from Forum-1,” prosecutors allege. “Singh also uses the threat of revealing personal information to extort victims into giving him access to their social media accounts, which Singh then resells.”
Sources tell KrebsOnSecurity in addition to being members of ViLE, both Weep and Ominous are or were staff members for Doxbin, a highly toxic online community that provides a forum for digging up personal information on people and posting it publicly. This is supported by the Doxbin administrator’s claimed responsibility for a high-profile intrusion at the DEA’s law enforcement data sharing portal last year.
A screenshot of alleged access to the Drug Enforcement Agency’s intelligence sharing portal, shared by “KT,” the current administrator of the doxing and harassment community Doxbin.
The government alleges that on May 7, 2022, Singh used stolen credentials to log into a U.S. federal government portal without authorization. The complaint doesn’t specify which agency portal was hacked, but it does state that the portal included access to law enforcement databases that track narcotics seizures in the United States.
On May 12, 2022, KrebsOnSecurity broke the news that hackers had gained access to a DEA portal that taps into 16 different federal law enforcement databases. As reported at the time, the inside scoop on how that hack went down came from KT, the current administrator of the Doxbin and the individual referenced in the government’s complaint as “CC-1.”
Indeed, a screenshot of the ViLE group website includes the group’s official roster, which lists KT at the top, followed by Weep and Ominus.
A screenshot of the website for the cybercriminal group “ViLE.” Image: USDOJ.
In March 2022, KrebsOnSecurity warned that multiple cybercrime groups were finding success with fraudulent Emergency Data Requests (EDRs), wherein the hackers use compromised police and government email accounts to file warrantless data requests with social media firms and mobile telephony providers, attesting that the information being requested can’t wait for a warrant because it relates to an urgent matter of life and death.
That story showed that the previous owner of the Doxbin also was part of a teenage hacking group that specialized in offering fake EDRs as a service on the dark web.
Prosecutors say they tied Singh to the government portal hack because he connected to it from an Internet address that he’d previously used to access a social media account registered in his name. When they raided Singh’s residence on Sept. 8, 2022 and seized his devices, investigators with Homeland Security found a cellular phone and laptop that allegedly “contained extensive evidence of access to the Portal.”
The complaint alleges that between February 2022 and May 2022, Ceraolo used an official email account belonging to a Bangladeshi police official to pose as a police officer in communication with U.S.-based social media platforms.
“In these communications, Ceraolo requested personal information about users of these platforms, under the false pretense that the users were committing crimes or in life-threatening danger,” the complaint states.
For example, on or about March 13, 2022, Ceraolo allegedly used the Bangladeshi police email account to falsely claim that the target of the EDR had sent bomb threats, distributed child pornography and threatened officials of the Bangladeshi government.
On or about May 9, 2022, the government says, Singh sent a friend screenshots of text messages between himself and someone he had doxed on the Doxbin and was trying to extort for their Instagram handle. The data included the victim’s Social Security number, driver’s license number, cellphone number, and home address.
“Look familiar?” Singh allegedly wrote to the victim. “You’re gonna comply to me if you don’t want anything negative to happen to your parents. . . I have every detail involving your parents . . . allowing me to do whatever I desire to them in malicious ways.”
Neither of the defendants could be immediately reached for comment. KT, the current administrator of Doxbin, declined a request for comment on the charges.
Ceraolo is a self-described security researcher who has been credited in many news stories over the years with discovering security vulnerabilities at AT&T, T-Mobile, Comcast and Cox Communications.
Ceraolo’s stated partner in most of these discoveries — a 30-year-old Connecticut man named Ryan “Phobia” Stevenson — was charged in 2019 with being part of a group that stole millions of dollars worth of cryptocurrencies via SIM-swapping, a crime that involves tricking a mobile provider into routing a target’s calls and text messages to another device.
In 2018, KrebsOnSecurity detailed how Stevenson earned bug bounty rewards and public recognition from top telecom companies for finding and reporting security holes in their websites, all the while secretly peddling those same vulnerabilities to cybercriminals.
According to the Justice Department, if convicted Ceraolo faces up to 20 years’ imprisonment for conspiracy to commit wire fraud; both Ceraolo and Singh face five years’ imprisonment for conspiracy to commit computer intrusions.
A copy of the complaint against Ceraolo and Singh is here (PDF).
Today, we released the latest issue of The Domain Name Industry Brief, which shows that the fourth quarter of 2022 closed with 350.4 million domain name registrations across all top-level domains (TLDs), an increase of 0.5 million domain name registrations, or 0.1%, compared to the third quarter of 2022.1,2 Domain name registrations have increased by 8.7 million, or 2.6%, year over year.1,2
Check out the latest issue of The Domain Name Industry Brief to see domain name stats from the fourth quarter of 2022, including:
• Top 10 Largest TLDs by Number of Reported Domain Names
• Top 10 Largest ccTLDs by Number of Reported Domain Names
• ngTLDs as Percentage of Total TLDs
• Geographical ngTLDs as Percentage of Total Corresponding Geographical TLDs
To see past issues of The Domain Name Industry Brief, please visit https://verisign.com/dnibarchives.
The post Verisign Domain Name Industry Brief: 350.4 Million Domain Name Registrations in the Fourth Quarter of 2022 appeared first on Verisign Blog.
A Croatian national has been arrested for allegedly operating NetWire, a Remote Access Trojan (RAT) marketed on cybercrime forums since 2012 as a stealthy way to spy on infected systems and siphon passwords. The arrest coincided with a seizure of the NetWire sales website by the U.S. Federal Bureau of Investigation (FBI). While the defendant in this case hasn’t yet been named publicly, the NetWire website has been leaking information about the likely true identity and location of its owner for the past 11 years.
Typically installed by booby-trapped Microsoft Office documents and distributed via email, NetWire is a multi-platform threat that is capable of targeting not only Microsoft Windows machines but also Android, Linux and Mac systems.
NetWire’s reliability and relatively low cost ($80-$140 depending on features) has made it an extremely popular RAT on the cybercrime forums for years, and NetWire infections consistently rank among the top 10 most active RATs in use.
NetWire has been sold openly on the same website since 2012: worldwiredlabs[.]com. That website now features a seizure notice from the U.S. Department of Justice (DOJ), which says the domain was taken as part of “a coordinated law enforcement action taken against the NetWire Remote Access Trojan.”
“As part of this week’s law enforcement action, authorities in Croatia on Tuesday arrested a Croatian national who allegedly was the administrator of the website,” reads a statement by the DOJ today. “This defendant will be prosecuted by Croatian authorities. Additionally, law enforcement in Switzerland on Tuesday seized the computer server hosting the NetWire RAT infrastructure.”
Neither the DOJ’s statement nor a press release on the operation published by Croatian authorities mentioned the name of the accused. But it’s fairly remarkable that it has taken so long for authorities in the United States and elsewhere to move against NetWire and its alleged proprietor, given that the RAT’s author apparently did very little to hide his real-life identity.
The WorldWiredLabs website first came online in February 2012 using a dedicated host with no other domains. The site’s true WHOIS registration records have always been hidden by privacy protection services, but there are plenty of clues in historical Domain Name System (DNS) records for WorldWiredLabs that point in the same direction.
In October 2012, the WorldWiredLabs domain moved to another dedicated server at the Internet address 198.91.90.7, which was home to just one other domain: printschoolmedia[.]org, also registered in 2012.
According to DomainTools.com, printschoolmedia[.]org was registered to a Mario Zanko in Zapresic, Croatia, and to the email address zankomario@gmail.com. DomainTools further shows this email address was used to register one other domain in 2012: wwlabshosting[.]com, also registered to Mario Zanko from Croatia.
A review of DNS records for both printschoolmedia[.]org and wwlabshosting[.]com shows that while these domains were online they both used the DNS name server ns1.worldwiredlabs[.]com. No other domains have been recorded using that same name server.
The WorldWiredLabs website, in 2013. Source: Archive.org.
DNS records for worldwiredlabs[.]com also show the site forwarded incoming email to the address tommaloney@ruggedinbox.com. Constella Intelligence, a service that indexes information exposed by public database leaks, shows this email address was used to register an account at the clothing retailer romwe.com, using the password “123456xx.”
Running a reverse search on this password in Constella Intelligence shows there are more than 450 email addresses known to have used this credential, and two of those are zankomario@gmail.com and zankomario@yahoo.com.
A search on zankomario@gmail.com in Skype returns three results, including the account name “Netwire” and the username “Dugidox,” and another for a Mario Zanko (username zanko.mario).
Dugidox corresponds to the hacker handle most frequently associated with NetWire sales and support discussion threads on multiple cybercrime forums over the years.
Constella ties dugidox@gmail.com to a number of website registrations, including the Dugidox handle on BlackHatWorld and HackForums, and to IP addresses in Croatia for both. Constella also shows the email address zankomario@gmail.com used the password “dugidox2407.”
In 2010, someone using the email address dugidox@gmail.com registered the domain dugidox[.]com. The WHOIS registration records for that domain list a “Senela Eanko” as the registrant, but the address used was the same street address in Zapresic that appears in the WHOIS records for printschoolmedia[.]org, which is registered in Mr. Zanco’s name.
Prior to the demise of Google+, the email address dugidox@gmail.com mapped to an account with the nickname “Netwire wwl.” The dugidox email also was tied to a Facebook account (mario.zanko3), which featured check-ins and photos from various places in Croatia.
That Facebook profile is no longer active, but back in January 2017, the administrator of WorldWiredLabs posted that he was considering adding certain Android mobile functionality to his service. Three days after that, the Mario.Zank3 profile posted a photo saying he was selected for an Android instruction course — with his dugidox email in the photo, naturally.
Incorporation records from the U.K.’s Companies House show that in 2017 Mr. Zanko became an officer in a company called Godbex Solutions LTD. A Youtube video invoking this corporate name describes Godbex as a “next generation platform” for exchanging gold and cryptocurrencies.
The U.K. Companies House records show Godbex was dissolved in 2020. It also says Mr. Zanko was born in July 1983, and lists his occupation as “electrical engineer.”
Mr. Zanko did not respond to multiple requests for comment.
A statement from the Croatian police about the NetWire takedown is here.
The domain name registrar Freenom, whose free domain names have long been a draw for spammers and phishers, has stopped allowing new domain name registrations. The move comes after the Dutch registrar was sued by Meta, which alleges the company ignores abuse complaints about phishing websites while monetizing traffic to those abusive domains.
Freenom’s website features a message saying it is not currently allowing new registrations.
Freenom is the domain name registry service provider for five so-called “country code top level domains” (ccTLDs), including .cf for the Central African Republic; .ga for Gabon; .gq for Equatorial Guinea; .ml for Mali; and .tk for Tokelau.
Freenom has always waived the registration fees for domains in these country-code domains, presumably as a way to encourage users to pay for related services, such as registering a .com or .net domain, for which Freenom does charge a fee.
On March 3, 2023, social media giant Meta sued Freenom in a Northern California court, alleging cybersquatting violations and trademark infringement. The lawsuit also seeks information about the identities of 20 different “John Does” — Freenom customers that Meta says have been particularly active in phishing attacks against Facebook, Instagram, and WhatsApp users.
The lawsuit points to a 2021 study (PDF) on the abuse of domains conducted by Interisle Consulting Group, which discovered that those ccTLDs operated by Freenom made up five of the Top Ten TLDs most abused by phishers.
“The five ccTLDs to which Freenom provides its services are the TLDs of choice for cybercriminals because Freenom provides free domain name registration services and shields its customers’ identity, even after being presented with evidence that the domain names are being used for illegal purposes,” the complaint charges. “Even after receiving notices of infringement or phishing by its customers, Freenom continues to license new infringing domain names to those same customers.”
Meta further alleges that “Freenom has repeatedly failed to take appropriate steps to investigate and respond appropriately to reports of abuse,” and that it monetizes the traffic from infringing domains by reselling them and by adding “parking pages” that redirect visitors to other commercial websites, websites with pornographic content, and websites used for malicious activity like phishing.
Freenom has not yet responded to requests for comment. But attempts to register a domain through the company’s website as of publication time generated an error message that reads:
“Because of technical issues the Freenom application for new registrations is temporarily out-of-order. Please accept our apologies for the inconvenience. We are working on a solution and hope to resume operations shortly. Thank you for your understanding.”
Image: Interisle Consulting Group, Phishing Landscape 2021, Sept. 2021.
Although Freenom is based in The Netherlands, some of its other sister companies named as defendants in the lawsuit are incorporated in the United States.
Meta initially filed this lawsuit in December 2022, but it asked the court to seal the case, which would have restricted public access to court documents in the dispute. That request was denied, and Meta amended and re-filed the lawsuit last week.
According to Meta, this isn’t just a case of another domain name registrar ignoring abuse complaints because it’s bad for business. The lawsuit alleges that the owners of Freenom “are part of a web of companies created to facilitate cybersquatting, all for the benefit of Freenom.”
“On information and belief, one or more of the ccTLD Service Providers, ID Shield, Yoursafe, Freedom Registry, Fintag, Cervesia, VTL, Joost Zuurbier Management Services B.V., and Doe Defendants were created to hide assets, ensure unlawful activity including cybersquatting and phishing goes undetected, and to further the goals of Freenom,” Meta charged.
It remains unclear why Freenom has stopped allowing domain registration. In June 2015, ICANN suspended Freenom’s ability to create new domain names or initiate inbound transfers of domain names for 90 days. According to Meta, the suspension was premised on ICANN’s determination that Freenom “has engaged in a pattern and practice of trafficking in or use of domain names identical or confusingly similar to a trademark or service mark of a third party in which the Registered Name Holder has no rights or legitimate interest.”
A spokesperson for ICANN said the organization has no insight as to why Freenom might have stopped registering domain names. But it said Freenom (d/b/a OpenTLD B.V.) also received formal enforcement notices from ICANN in 2017 and 2020 for violating different obligations.
A copy of the amended complaint against Freenom, et. al, is available here (PDF).
March 8, 6:11 p.m. ET: Updated story with response from ICANN. Corrected attribution of the domain abuse report.
The Biden administration today issued its vision for beefing up the nation’s collective cybersecurity posture, including calls for legislation establishing liability for software products and services that are sold with little regard for security. The White House’s new national cybersecurity strategy also envisions a more active role by cloud providers and the U.S. military in disrupting cybercriminal infrastructure, and it names China as the single biggest cyber threat to U.S. interests.
The strategy says the White House will work with Congress and the private sector to develop legislation that would prevent companies from disavowing responsibility for the security of their software products or services.
Coupled with this stick would be a carrot: An as-yet-undefined “safe harbor framework” that would lay out what these companies could do to demonstrate that they are making cybersecurity a central concern of their design and operations.
“Any such legislation should prevent manufacturers and software publishers with market power from fully disclaiming liability by contract, and establish higher standards of care for software in specific high-risk scenarios,” the strategy explains. “To begin to shape standards of care for secure software development, the Administration will drive the development of an adaptable safe harbor framework to shield from liability companies that securely develop and maintain their software products and services.”
Brian Fox, chief technology officer and founder of the software supply chain security firm Sonatype, called the software liability push a landmark moment for the industry.
“Market forces are leading to a race to the bottom in certain industries, while contract law allows software vendors of all kinds to shield themselves from liability,” Fox said. “Regulations for other industries went through a similar transformation, and we saw a positive result — there’s now an expectation of appropriate due care, and accountability for those who fail to comply. Establishing the concept of safe harbors allows the industry to mature incrementally, leveling up security best practices in order to retain a liability shield, versus calling for sweeping reform and unrealistic outcomes as previous regulatory attempts have.”
In 2012 (approximately three national cyber strategies ago), then director of the U.S. National Security Agency (NSA) Keith Alexander made headlines when he remarked that years of successful cyber espionage campaigns from Chinese state-sponsored hackers represented “the greatest transfer of wealth in history.”
The document released today says the People’s Republic of China (PRC) “now presents the broadest, most active, and most persistent threat to both government and private sector networks,” and says China is “the only country with both the intent to reshape the international order and, increasingly, the economic, diplomatic, military, and technological power to do so.”
Many of the U.S. government’s efforts to restrain China’s technology prowess involve ongoing initiatives like the CHIPS Act, a new law signed by President Biden last year that sets aside more than $50 billion to expand U.S.-based semiconductor manufacturing and research and to make the U.S. less dependent on foreign suppliers; the National Artificial Intelligence Initiative; and the National Strategy to Secure 5G.
As the maker of most consumer gizmos with a computer chip inside, China is also the source of an incredible number of low-cost Internet of Things (IoT) devices that are not only poorly secured, but are probably more accurately described as insecure by design.
The Biden administration said it would continue its previously announced plans to develop a system of labeling that could be applied to various IoT products and give consumers some idea of how secure the products may be. But it remains unclear how those labels might apply to products made by companies outside of the United States.
One could convincingly make the case that the world has witnessed yet another historic transfer of wealth and trade secrets over the past decade — in the form of ransomware and data ransom attacks by Russia-based cybercriminal syndicates, as well as Russian intelligence agency operations like the U.S. government-wide Solar Winds compromise.
On the ransomware front, the White House strategy seems to focus heavily on building the capability to disrupt the digital infrastructure used by adversaries that are threatening vital U.S. cyber interests. The document points to the 2021 takedown of the Emotet botnet — a cybercrime machine that was heavily used by multiple Russian ransomware groups — as a model for this activity, but says those disruptive operations need to happen faster and more often.
To that end, the Biden administration says it will expand the capacity of the National Cyber Investigative Joint Task Force (NCIJTF), the primary federal agency for coordinating cyber threat investigations across law enforcement agencies, the intelligence community, and the Department of Defense.
“To increase the volume and speed of these integrated disruption campaigns, the Federal Government must further develop technological and organizational platforms that enable continuous, coordinated operations,” the strategy observes. “The NCIJTF will expand its capacity to coordinate takedown and disruption campaigns with greater speed, scale, and frequency. Similarly, DoD and the Intelligence Community are committed to bringing to bear their full range of complementary authorities to disruption campaigns.”
The strategy anticipates the U.S. government working more closely with cloud and other Internet infrastructure providers to quickly identify malicious use of U.S.-based infrastructure, share reports of malicious use with the government, and make it easier for victims to report abuse of these systems.
“Given the interest of the cybersecurity community and digital infrastructure owners and operators in continuing this approach, we must sustain and expand upon this model so that collaborative disruption operations can be carried out on a continuous basis,” the strategy argues. “Threat specific collaboration should take the form of nimble, temporary cells, comprised of a small number of trusted operators, hosted and supported by a relevant hub. Using virtual collaboration platforms, members of the cell would share information bidirectionally and work rapidly to disrupt adversaries.”
But here, again, there is a carrot-and-stick approach: The administration said it is taking steps to implement Executive Order (EO) 13984 –issued by the Trump administration in January 2021 — which requires cloud providers to verify the identity of foreign persons using their services.
“All service providers must make reasonable attempts to secure the use of their infrastructure against abuse or other criminal behavior,” the strategy states. “The Administration will prioritize adoption and enforcement of a risk-based approach to cybersecurity across Infrastructure-as-a-Service providers that addresses known methods and indicators of malicious activity including through implementation of EO 13984.”
Ted Schlein, founding partner of the cybersecurity venture capital firm Ballistic Ventures, said how this gets implemented will determine whether it can be effective.
“Adversaries know the NSA, which is the elite portion of the nation’s cyber defense, cannot monitor U.S.-based infrastructure, so they just use U.S.-based cloud infrastructure to perpetrate their attacks,” Schlein said. “We have to fix this. I believe some of this section is a bit pollyannaish, as it assumes a bad actor with a desire to do a bad thing will self-identify themselves, as the major recommendation here is around KYC (‘know your customer’).”
One brief but interesting section of the strategy titled “Explore a Federal Cyber Insurance Backdrop” contemplates the government’s liability and response to a too-big-to-fail scenario or “catastrophic cyber incident.”
“We will explore how the government can stabilize insurance markets against catastrophic risk to drive better cybersecurity practices and to provide market certainty when catastrophic events do occur,” the strategy reads.
When the Bush administration released the first U.S. national cybersecurity strategy 20 years ago after the 9/11 attacks, the popular term for that same scenario was a “digital Pearl Harbor,” and there was a great deal of talk then about how the cyber insurance market would soon help companies shore up their cybersecurity practices.
In the wake of countless ransomware intrusions, many companies now hold cybersecurity insurance to help cover the considerable costs of responding to such intrusions. Leaving aside the question of whether insurance coverage has helped companies improve security, what happens if every one of these companies has to make a claim at the same time?
The notion of a Digital Pearl Harbor incident struck many experts at the time as a hyperbolic justification for expanding the government’s digital surveillance capabilities, and an overstatement of the capabilities of our adversaries. But back in 2003, most of the world’s companies didn’t host their entire business in the cloud.
Today, nobody questions the capabilities, goals and outcomes of dozens of nation-state level cyber adversaries. And these days, a catastrophic cyber incident could be little more than an extended, simultaneous outage at multiple cloud providers.
The full national cybersecurity strategy is available from the White House website (PDF).
Image: Shutterstock.com
Three different cybercriminal groups claimed access to internal networks at communications giant T-Mobile in more than 100 separate incidents throughout 2022, new data suggests. In each case, the goal of the attackers was the same: Phish T-Mobile employees for access to internal company tools, and then convert that access into a cybercrime service that could be hired to divert any T-Mobile user’s text messages and phone calls to another device.
The conclusions above are based on an extensive analysis of Telegram chat logs from three distinct cybercrime groups or actors that have been identified by security researchers as particularly active in and effective at “SIM-swapping,” which involves temporarily seizing control over a target’s mobile phone number.
Countless websites and online services use SMS text messages for both password resets and multi-factor authentication. This means that stealing someone’s phone number often can let cybercriminals hijack the target’s entire digital life in short order — including access to any financial, email and social media accounts tied to that phone number.
All three SIM-swapping entities that were tracked for this story remain active in 2023, and they all conduct business in open channels on the instant messaging platform Telegram. KrebsOnSecurity is not naming those channels or groups here because they will simply migrate to more private servers if exposed publicly, and for now those servers remain a useful source of intelligence about their activities.
Each advertises their claimed access to T-Mobile systems in a similar way. At a minimum, every SIM-swapping opportunity is announced with a brief “Tmobile up!” or “Tmo up!” message to channel participants. Other information in the announcements includes the price for a single SIM-swap request, and the handle of the person who takes the payment and information about the targeted subscriber.
The information required from the customer of the SIM-swapping service includes the target’s phone number, and the serial number tied to the new SIM card that will be used to receive text messages and phone calls from the hijacked phone number.
Initially, the goal of this project was to count how many times each entity claimed access to T-Mobile throughout 2022, by cataloging the various “Tmo up!” posts from each day and working backwards from Dec. 31, 2022.
But by the time we got to claims made in the middle of May 2022, completing the rest of the year’s timeline seemed unnecessary. The tally shows that in the last seven-and-a-half months of 2022, these groups collectively made SIM-swapping claims against T-Mobile on 104 separate days — often with multiple groups claiming access on the same days.
The 104 days in the latter half of 2022 in which different known SIM-swapping groups claimed access to T-Mobile employee tools.
KrebsOnSecurity shared a large amount of data gathered for this story with T-Mobile. The company declined to confirm or deny any of these claimed intrusions. But in a written statement, T-Mobile said this type of activity affects the entire wireless industry.
“And we are constantly working to fight against it,” the statement reads. “We have continued to drive enhancements that further protect against unauthorized access, including enhancing multi-factor authentication controls, hardening environments, limiting access to data, apps or services, and more. We are also focused on gathering threat intelligence data, like what you have shared, to help further strengthen these ongoing efforts.”
While it is true that each of these cybercriminal actors periodically offer SIM-swapping services for other mobile phone providers — including AT&T, Verizon and smaller carriers — those solicitations appear far less frequently in these group chats than T-Mobile swap offers. And when those offers do materialize, they are considerably more expensive.
The prices advertised for a SIM-swap against T-Mobile customers in the latter half of 2022 ranged between USD $1,000 and $1,500, while SIM-swaps offered against AT&T and Verizon customers often cost well more than twice that amount.
To be clear, KrebsOnSecurity is not aware of specific SIM-swapping incidents tied to any of these breach claims. However, the vast majority of advertisements for SIM-swapping claims against T-Mobile tracked in this story had two things in common that set them apart from random SIM-swapping ads on Telegram.
First, they included an offer to use a mutually trusted “middleman” or escrow provider for the transaction (to protect either party from getting scammed). More importantly, the cybercriminal handles that were posting ads for SIM-swapping opportunities from these groups generally did so on a daily or near-daily basis — often teasing their upcoming swap events in the hours before posting a “Tmo up!” message announcement.
In other words, if the crooks offering these SIM-swapping services were ripping off their customers or claiming to have access that they didn’t, this would be almost immediately obvious from the responses of the more seasoned and serious cybercriminals in the same chat channel.
There are plenty of people on Telegram claiming to have SIM-swap access at major telecommunications firms, but a great many such offers are simply four-figure scams, and any pretenders on this front are soon identified and banned (if not worse).
One of the groups that reliably posted “Tmo up!” messages to announce SIM-swap availability against T-Mobile customers also reliably posted “Tmo down!” follow-up messages announcing exactly when their claimed access to T-Mobile employee tools was discovered and revoked by the mobile giant.
A review of the timestamps associated with this group’s incessant “Tmo up” and “Tmo down” posts indicates that while their claimed access to employee tools usually lasted less than an hour, in some cases that access apparently went undiscovered for several hours or even days.
How could these SIM-swapping groups be gaining access to T-Mobile’s network as frequently as they claim? Peppered throughout the daily chit-chat on their Telegram channels are solicitations for people urgently needed to serve as “callers,” or those who can be hired to social engineer employees over the phone into navigating to a phishing website and entering their employee credentials.
Allison Nixon is chief research officer for the New York City-based cybersecurity firm Unit 221B. Nixon said these SIM-swapping groups will typically call employees on their mobile devices, pretend to be someone from the company’s IT department, and then try to get the person on the other end of the line to visit a phishing website that mimics the company’s employee login page.
Nixon argues that many people in the security community tend to discount the threat from voice phishing attacks as somehow “low tech” and “low probability” threats.
“I see it as not low-tech at all, because there are a lot of moving parts to phishing these days,” Nixon said. “You have the caller who has the employee on the line, and the person operating the phish kit who needs to spin it up and down fast enough so that it doesn’t get flagged by security companies. Then they have to get the employee on that phishing site and steal their credentials.”
In addition, she said, often there will be yet another co-conspirator whose job it is to use the stolen credentials and log into employee tools. That person may also need to figure out how to make their device pass “posture checks,” a form of device authentication that some companies use to verify that each login is coming only from employer-issued phones or laptops.
For aspiring criminals with little experience in scam calling, there are plenty of sample call transcripts available on these Telegram chat channels that walk one through how to impersonate an IT technician at the targeted company — and how to respond to pushback or skepticism from the employee. Here’s a snippet from one such tutorial that appeared recently in one of the SIM-swapping channels:
“Hello this is James calling from Metro IT department, how’s your day today?”
(yea im doing good, how r u)
i’m doing great, thank you for asking
i’m calling in regards to a ticket we got last week from you guys, saying you guys were having issues with the network connectivity which also interfered with [Microsoft] Edge, not letting you sign in or disconnecting you randomly. We haven’t received any updates to this ticket ever since it was created so that’s why I’m calling in just to see if there’s still an issue or not….”
The TMO UP data referenced above, combined with comments from the SIM-swappers themselves, indicate that while many of their claimed accesses to T-Mobile tools in the middle of 2022 lasted hours on end, both the frequency and duration of these events began to steadily decrease as the year wore on.
T-Mobile declined to discuss what it may have done to combat these apparent intrusions last year. However, one of the groups began to complain loudly in late October 2022 that T-Mobile must have been doing something that was causing their phished access to employee tools to die very soon after they obtained it.
One group even remarked that they suspected T-Mobile’s security team had begun monitoring their chats.
Indeed, the timestamps associated with one group’s TMO UP/TMO DOWN notices show that their claimed access was often limited to less than 15 minutes throughout November and December of 2022.
Whatever the reason, the calendar graphic above clearly shows that the frequency of claimed access to T-Mobile decreased significantly across all three SIM-swapping groups in the waning weeks of 2022.
T-Mobile US reported revenues of nearly $80 billion last year. It currently employs more than 71,000 people in the United States, any one of whom can be a target for these phishers.
T-Mobile declined to answer questions about what it may be doing to beef up employee authentication. But Nicholas Weaver, a researcher and lecturer at University of California, Berkeley’s International Computer Science Institute, said T-Mobile and all the major wireless providers should be requiring employees to use physical security keys for that second factor when logging into company resources.
A U2F device made by Yubikey.
“These breaches should not happen,” Weaver said. “Because T-Mobile should have long ago issued all employees security keys and switched to security keys for the second factor. And because security keys provably block this style of attack.”
The most commonly used security keys are inexpensive USB-based devices. A security key implements a form of multi-factor authentication known as Universal 2nd Factor (U2F), which allows the user to complete the login process simply by inserting the USB key and pressing a button on the device. The key works without the need for any special software drivers.
The allure of U2F devices for multi-factor authentication is that even if an employee who has enrolled a security key for authentication tries to log in at an impostor site, the company’s systems simply refuse to request the security key if the user isn’t on their employer’s legitimate website, and the login attempt fails. Thus, the second factor cannot be phished, either over the phone or Internet.
Nixon said one confounding aspect of SIM-swapping is that these criminal groups tend to recruit teenagers to do their dirty work.
“A huge reason this problem has been allowed to spiral out of control is because children play such a prominent role in this form of breach,” Nixon said.
Nixon said SIM-swapping groups often advertise low-level jobs on places like Roblox and Minecraft, online games that are extremely popular with young adolescent males.
“Statistically speaking, that kind of recruiting is going to produce a lot of people who are underage,” she said. “They recruit children because they’re naive, you can get more out of them, and they have legal protections that other people over 18 don’t have.”
For example, she said, even when underage SIM-swappers are arrested, the offenders tend to go right back to committing the same crimes as soon as they’re released.
In January 2023, T-Mobile disclosed that a “bad actor” stole records on roughly 37 million current customers, including their name, billing address, email, phone number, date of birth, and T-Mobile account number.
In August 2021, T-Mobile acknowledged that hackers made off with the names, dates of birth, Social Security numbers and driver’s license/ID information on more than 40 million current, former or prospective customers who applied for credit with the company. That breach came to light after a hacker began selling the records on a cybercrime forum.
In the shadow of such mega-breaches, any damage from the continuous attacks by these SIM-swapping groups can seem insignificant by comparison. But Nixon says it’s a mistake to dismiss SIM-swapping as a low volume problem.
“Logistically, you may only be able to get a few dozen or a hundred SIM-swaps in a day, but you can pick any customer you want across their entire customer base,” she said. “Just because a targeted account takeover is low volume doesn’t mean it’s low risk. These guys have crews that go and identify people who are high net worth individuals and who have a lot to lose.”
Nixon said another aspect of SIM-swapping that causes cybersecurity defenders to dismiss the threat from these groups is the perception that they are full of low-skilled “script kiddies,” a derisive term used to describe novice hackers who rely mainly on point-and-click hacking tools.
“They underestimate these actors and say this person isn’t technically sophisticated,” she said. “But if you’re rolling around in millions worth of stolen crypto currency, you can buy that sophistication. I know for a fact some of these compromises were at the hands of these ‘script kiddies,’ but they’re not ripping off other people’s scripts so much as hiring people to make scripts for them. And they don’t care what gets the job done, as long as they get to steal the money.”
Web hosting giant GoDaddy made headlines this month when it disclosed that a multi-year breach allowed intruders to steal company source code, siphon customer and employee login credentials, and foist malware on customer websites. Media coverage understandably focused on GoDaddy’s admission that it suffered three different cyberattacks over as many years at the hands of the same hacking group. But it’s worth revisiting how this group typically got in to targeted companies: By calling employees and tricking them into navigating to a phishing website.
In a filing with the U.S. Securities and Exchange Commission (SEC), GoDaddy said it determined that the same “sophisticated threat actor group” was responsible for three separate intrusions, including:
-March 2020: A spear-phishing attack on a GoDaddy employee compromised the hosting login credentials of approximately 28,000 GoDaddy customers, as well as login credentials for a small number employees;
-November 2021: A compromised GoDaddy password let attackers steal source code and information tied to 1.2 million customers, including website administrator passwords, sFTP credentials, and private SSL keys;
-December 2022: Hackers gained access to and installed malware on GoDaddy’s cPanel hosting servers that “intermittently redirected random customer websites to malicious sites.”
“Based on our investigation, we believe these incidents are part of a multi-year campaign by a sophisticated threat actor group that, among other things, installed malware on our systems and obtained pieces of code related to some services within GoDaddy,” the company stated in its SEC filing.
What else do we know about the cause of these incidents? We don’t know much about the source of the November 2021 incident, other than GoDaddy’s statement that it involved a compromised password, and that it took about two months for the company to detect the intrusion. GoDaddy has not disclosed the source of the breach in December 2022 that led to malware on some customer websites.
But we do know the March 2020 attack was precipitated by a spear-phishing attack against a GoDaddy employee. GoDaddy described the incident at the time in general terms as a social engineering attack, but one of its customers affected by that March 2020 breach actually spoke to one of the hackers involved.
The hackers were able to change the Domain Name System (DNS) records for the transaction brokering site escrow.com so that it pointed to an address in Malaysia that was host to just a few other domains, including the then brand-new phishing domain servicenow-godaddy[.]com.
The general manager of Escrow.com found himself on the phone with one of the GoDaddy hackers, after someone who claimed they worked at GoDaddy called and said they needed him to authorize some changes to the account.
In reality, the caller had just tricked a GoDaddy employee into giving away their credentials, and he could see from the employee’s account that Escrow.com required a specific security procedure to complete a domain transfer.
The general manager of Escrow.com said he suspected the call was a scam, but decided to play along for about an hour — all the while recording the call and coaxing information out of the scammer.
“This guy had access to the notes, and knew the number to call,” to make changes to the account, the CEO of Escrow.com told KrebsOnSecurity. “He was literally reading off the tickets to the notes of the admin panel inside GoDaddy.”
About halfway through this conversation — after being called out by the general manager as an imposter — the hacker admitted that he was not a GoDaddy employee, and that he was in fact part of a group that enjoyed repeated success with social engineering employees at targeted companies over the phone.
Absent from GoDaddy’s SEC statement is another spate of attacks in November 2020, in which unknown intruders redirected email and web traffic for multiple cryptocurrency services that used GoDaddy in some capacity.
It is possible this incident was not mentioned because it was the work of yet another group of intruders. But in response to questions from KrebsOnSecurity at the time, GoDaddy said that incident also stemmed from a “limited” number of GoDaddy employees falling for a sophisticated social engineering scam.
“As threat actors become increasingly sophisticated and aggressive in their attacks, we are constantly educating employees about new tactics that might be used against them and adopting new security measures to prevent future attacks,” GoDaddy said in a written statement back in 2020.
Voice phishing or “vishing” attacks typically target employees who work remotely. The phishers will usually claim that they’re calling from the employer’s IT department, supposedly to help troubleshoot some issue. The goal is to convince the target to enter their credentials at a website set up by the attackers that mimics the organization’s corporate email or VPN portal.
Experts interviewed for an August 2020 story on a steep rise in successful voice phishing attacks said there are generally at least two people involved in each vishing scam: One who is social engineering the target over the phone, and another co-conspirator who takes any credentials entered at the phishing page — including multi-factor authentication codes shared by the victim — and quickly uses them to log in to the company’s website.
The attackers are usually careful to do nothing with the phishing domain until they are ready to initiate a vishing call to a potential victim. And when the attack or call is complete, they disable the website tied to the domain.
This is key because many domain registrars will only respond to external requests to take down a phishing website if the site is live at the time of the abuse complaint. This tactic also can stymie efforts by companies that focus on identifying newly-registered phishing domains before they can be used for fraud.
A U2F device made by Yubikey.
GoDaddy’s latest SEC filing indicates the company had nearly 7,000 employees as of December 2022. In addition, GoDaddy contracts with another 3,000 people who work full-time for the company via business process outsourcing companies based primarily in India, the Philippines and Colombia.
Many companies now require employees to supply a one-time password — such as one sent via SMS or produced by a mobile authenticator app — in addition to their username and password when logging in to company assets online. But both SMS and app-based codes can be undermined by phishing attacks that simply request this information in addition to the user’s password.
One multifactor option — physical security keys — appears to be immune to these advanced scams. The most commonly used security keys are inexpensive USB-based devices. A security key implements a form of multi-factor authentication known as Universal 2nd Factor (U2F), which allows the user to complete the login process simply by inserting the USB device and pressing a button on the device. The key works without the need for any special software drivers.
The allure of U2F devices for multi-factor authentication is that even if an employee who has enrolled a security key for authentication tries to log in at an impostor site, the company’s systems simply refuse to request the security key if the user isn’t on their employer’s legitimate website, and the login attempt fails. Thus, the second factor cannot be phished, either over the phone or Internet.
In July 2018, Google disclosed that it had not had any of its 85,000+ employees successfully phished on their work-related accounts since early 2017, when it began requiring all employees to use physical security keys in place of one-time codes.
A security firm has discovered that a six-year-old crafty botnet known as Mylobot appears to be powering a residential proxy service called BHProxies, which offers paying customers the ability to route their web traffic anonymously through compromised computers. Here’s a closer look at Mylobot, and a deep dive into who may be responsible for operating the BHProxies service.
The BHProxies website.
First identified in 2017 by the security firm Deep Instinct, Mylobot employs a number of fairly sophisticated methods to remain undetected on infected hosts, such as running exclusively in the computer’s temporary memory, and waiting 14 days before attempting to contact the botnet’s command and control servers.
Last year, researchers at Minerva Labs spotted the botnet being used to blast out sextortion scams. But according to a new report from BitSight, the Mylobot botnet’s main functionality has always been about transforming the infected system into a proxy.
The Mylobot malware includes more than 1,000 hard-coded and encrypted domain names, any one of which can be registered and used as control networks for the infected hosts. BitSight researchers found significant overlap in the Internet addresses used by those domains and a domain called BHproxies[.]com.
BHProxies sells access to “residential proxy” networks, which allow someone to rent a residential IP address to use as a relay for their Internet communications, providing anonymity and the advantage of being perceived as a residential user surfing the web. The service is currently advertising access to more than 150,000 devices globally.
“At this point, we cannot prove that BHProxies is linked to Mylobot, but we have a strong suspicion,” wrote BitSight’s Stanislas Arnoud.
To test their hypothesis, BitSight obtained 50 proxies from BHProxies. The researchers were able to use 48 of those 50 proxies to browse to a website they controlled — allowing them to record the true IP addresses of each proxy device.
“Among these 48 recovered residential proxies IP addresses, 28 (58.3%) of those were already present in our sinkhole systems, associated with the Mylobot malware family,” Arnoud continued. “This number is probably higher, but we don’t have a full visibility of the botnet. This gave us clear evidence that Mylobot infected computers are used by the BHProxies service.”
BitSight said it is currently seeing more than 50,000 unique Mylobot infected systems every day, and that India appears to be the most targeted country, followed by the United States, Indonesia and Iran.
“We believe we are only seeing part of the full botnet, which may lead to more than 150,000 infected computers as advertised by BHProxies’ operators,” Arnoud wrote.
The website BHProxies[.]com has been advertised for nearly a decade on the forum Black Hat World by the user BHProxies. BHProxies has authored 129 posts on Black Hat World since 2012, and their last post on the forum was in December 2022.
BHProxies initially was fairly active on Black Hat World between May and November 2012, after which it suddenly ceased all activity. The account didn’t resume posting on the forum until April 2014.
According to cyber intelligence firm Intel 471, the user BHProxies also used the handle “hassan_isabad_subar” and marketed various software tools, including “Subar’s free email creator” and “Subar’s free proxy scraper.”
Intel 471’s data shows that hassan_isabad_subar registered on the forum using the email address jesus.fn.christ@gmail.com. In a June 2012 private message exchange with a website developer on Black Hat World, hassan_isabad_subar confided that they were working at the time to develop two websites, including the now-defunct customscrabblejewelry.com.
DomainTools.com reports that customscrabblejewelry.com was registered in 2012 to a Teresa Shotliff in Chesterland, Ohio. A search on jesus.fn.christ@gmail.com at Constella Intelligence, a company that tracks compromised databases, shows this email address is tied to an account at the fundraising platform omaze.com, for a Brian Shotliff from Chesterland, Ohio.
Reached via LinkedIn, Mr. Shotliff said he sold his BHProxies account to another Black Hat World forum user from Egypt back in 2014. Shotliff shared an April 2014 password reset email from Black Hat World, which shows he forwarded the plaintext password to the email address legendboy2050@yahoo.com. He also shared a PayPal receipt and snippets of Facebook Messenger logs showing conversations in March 2014 with legendboy2050@yahoo.com.
Constella Intelligence confirmed that legendboy2050@yahoo.com was indeed another email address tied to the hassan_isabad_subar/BHProxies identity on Black Hat World. Constella also connects legendboy2050 to Facebook and Instagram accounts for one Abdala Tawfik from Cairo. This user’s Facebook page says Tawfik also uses the name Abdalla Khafagy.
Tawfik’s Instagram account says he is a former operations manager at the social media network TikTok, as well as a former director at Crypto.com.
Abdalla Khafagy’s LinkedIn profile says he was “global director of community” at Crypto.com for about a year ending in January 2022. Before that, the resume says he was operations manager of TikTok’s Middle East and North Africa region for approximately seven months ending in April 2020.
Khafagy’s LinkedIn profile says he is currently founder of LewkLabs, a Dubai-based “blockchain-powered, SocialFi content monetization platform” that last year reported funding of $3.26 million from private investors.
The only experience listed for Khafagy prior to the TikTok job is labeled “Marketing” at “Confidential,” from February 2014 to October 2019.
Reached via LinkedIn, Mr. Khafagy told KrebsOnSecurity that he had a Black Hat World account at some point, but that he didn’t recall ever having used an account by the name BHProxies or hassan_isabad_subar. Khafagy said he couldn’t remember the name of the account he had on the forum.
“I had an account that was simply hacked from me shortly after and I never bothered about it because it wasn’t mine in the first place,” he explained.
Khafagy declined to elaborate on the five-year stint in his resume marked “Confidential.” When asked directly whether he had ever been associated with the BHProxies service, Mr. Khafagy said no.
That Confidential job listing is interesting because its start date lines up with the creation of BHproxies[.]com. Archive.org indexed its first copy of BHProxies[.]com on Mar. 5, 2014, but historic DNS records show BHproxies[.]com first came online Feb. 25, 2014.
Shortly after that conversation with Mr. Khafagy, Mr. Shotliff shared a Facebook/Meta message he received that indicated Mr. Khafagy wanted him to support the claim that the BHProxies account had somehow gone missing.
“Hey mate, it’s been a long time. Hope you are doing well. Someone from Krebs on Security reached out to me about the account I got from you on BHW,” Khafagy’s Meta account wrote. “Didn’t we try to retrieve this account? I remember mentioning to you that it got stolen and I was never able to retrieve it.”
Mr. Shotliff said Khafagy’s sudden message this week was the first time he’d heard that claim.
“He bought the account,” Shotliff said. “He might have lost the account or had it stolen, but it’s not something I remember.”
If you liked this story, you may also enjoy these other investigations into botnet-based proxy services:
A Deep Dive Into the Residential Proxy Service ‘911’
911 Proxy Service Implodes After Disclosing Breach
Meet the Administrators of the RSOCKS Proxy Botnet
The Link Between AWM Proxy & the Glupteba Botnet
15-Year-Old Malware Proxy Network VIP72 Goes Dark
Who’s Behind the TDSS Botnet?
Millions of Americans receiving food assistance benefits just earned a new right that they can’t yet enforce: The right to be reimbursed if funds on their Electronic Benefit Transfer (EBT) cards are stolen by card skimming devices secretly installed at cash machines and grocery store checkout lanes.
On December 29, 2022, President Biden signed into law the Consolidated Appropriations Act of 2023, which — for the first time ever — includes provisions for the replacement of stolen EBT benefits. This is a big deal because in 2022, organized crime groups began massively targeting EBT accounts — often emptying affected accounts at ATMs immediately after the states disperse funds each month.
EBT cards can be used along with a personal identification number (PIN) to pay for goods at participating stores, and to withdraw cash from an ATM. However, EBT cards differ from debit cards issued to most Americans in two important ways. First, most states do not equip EBT cards with smart chip technology, which can make the cards more difficult and expensive for skimming thieves to clone.
More critically, EBT participants traditionally have had little hope of recovering food assistance funds when their cards were copied by card-skimming devices and used for fraud. That’s because while the EBT programs are operated by individually by the states, those programs are funded by the U.S. Department of Agriculture (USDA), which until late last year was barred from reimbursing states for stolen EBT funds.
The protections passed in the 2023 Appropriations Act allow states to use federal funds to replace stolen EBT benefits, and they permit states to seek reimbursement for any skimmed EBT funds they may have replaced from their own coffers (dating back to Oct. 1, 2022).
But first, all 50 states must each submit a plan for how they are going to protect and replace food benefits stolen via card skimming. Guidance for the states in drafting those plans was issued by the USDA on Jan. 31 (PDF), and states that don’t get them done before Feb. 27, 2023 risk losing the ability to be reimbursed for EBT fraud losses.
Deborah Harris is a staff attorney at The Massachusetts Law Reform Institute (MLRI), a nonprofit legal assistance organization that has closely tracked the EBT skimming epidemic. In November 2022, the MLRI filed a class-action lawsuit against Massachusetts on behalf of thousands of low-income families who were collectively robbed of more than $1 million in food assistance benefits by card skimming devices secretly installed at cash machines and grocery store checkout lanes across the state.
Harris said she’s pleased that the USDA guidelines were issued so promptly, and that the guidance for states was not overly prescriptive. For example, some security experts have suggested that adding contactless capability to EBT cards could help participants avoid skimming devices altogether. But Harris said contactless cards do not require a PIN, which is the only thing that stops EBT cards from being drained at the ATM when a participant’s card is lost or stolen.
Then again, nothing in the guidance even mentions chip-based cards, or any other advice for improving the physical security of EBT cards. Rather, it suggests states should seek to develop the capability to perform basic fraud detection and alerting on suspicious transactions, such as when an EBT card that is normally used only in one geographic area suddenly is used to withdraw cash at an ATM halfway across the country.
“Besides having the states move fast to approve their plans, we’d also like to see a focused effort to move states from magstripe-only cards to chip, and also assisting states to develop the algorithms that will enable them to identify likely incidents of stolen benefits,” Harris said.
Harris said Massachusetts has begun using algorithms to look for these suspicious transaction patterns throughout its EBT network, and now has the ability to alert households and verify transactions. But she said most states do not have this capability.
“We have heard that other states aren’t currently able to do that,” Harris said. “But encouraging states to more affirmatively identify instances of likely theft and assisting with the claims and verification process is critical. Most households can’t do that on their own, and in Massachusetts it’s very hard for a person to get a copy of their transaction history. Some states can do that through third-party apps, but something so basic should not be on the burden of EBT households.”
Some states aren’t waiting for direction from the federal government to beef up EBT card security. Like Maryland, which identified more than 1,400 households hit by EBT skimming attacks last year — a tenfold increase over 2021.
Advocates for EBT beneficiaries in Maryland are backing Senate Bill 401 (PDF), which would require the use of chip technology and ongoing monitoring for suspicious activity (a hearing on SB401 is scheduled in the Maryland Senate Finance Commission for Thursday, Feb. 23, at 1 p.m.).
Michelle Salomon Madaio is a director at the Homeless Persons Representation Project, a legal assistance organization based in Silver Spring, Md. Madaio said the bill would require the state Department of Human Services to replace skimmed benefits, not only after the bill goes into effect but also retroactively from January 2020 to the present.
Madaio said the bill also would require the state to monitor for patterns of suspicious activity on EBT cards, and to develop a mechanism to contact potentially affected households.
“For most of the skimming victims we’ve worked with, the fraudulent transactions would be pretty easy to spot because they mostly happened in the middle of the night or out of state, or both,” Madaio said. “To make matters worse, a lot of families whose benefits were scammed then incurred late fees on many other things as a result.”
It is not difficult to see why organized crime groups have pounced on EBT cards as easy money. In most traditional payment card transactions, there are usually several parties that have a financial interest in minimizing fraud and fraud losses, including the bank that issued the card, the card network (Visa, MasterCard, Discover, etc.), and the merchant.
But that infrastructure simply does not exist within state EBT programs, and it certainly isn’t a thing at the inter-state level. What that means is that the vast majority of EBT cards have zero fraud controls, which is exactly what continues to make them so appealing to thieves.
For now, the only fraud controls available to most EBT cardholders include being especially paranoid about where they use their cards, and frequently changing their PINs.
According to USDA guidance issued prior to the passage of the appropriations act, EBT cardholders should consider changing their card PIN at least once a month.
“By changing PINs frequently, at least monthly, and doing so before benefit issuance dates, households can minimize their risk of stolen benefits from a previously skimmed EBT card,” the USDA advised.
Providing secure access and a frictionless user experience are typically competing initiatives, but they don’t have to be! Read on to learn why.
In our world today, context changes quickly. We work from home, coffee shops and the office. We use multiple devices to do work. And on the flip side, attackers are becoming increasingly savvy, getting around security controls, such as multi-factor authentication (MFA), to gain unauthorized access.
To quote Wendy Nather, Cisco’s head of Advisory CISOs, “Trust is neither binary nor permanent.” Therefore, security controls must constantly evaluate for change in trust, but without adding unnecessary friction for end-users.
It’s no surprise that the recently published Cybersecurity Readiness Index, a survey of 6,700 cybersecurity leaders from across the globe, revealed that more progress is needed to protect identity, networks and applications.
To address these challenges and to make zero trust access for the workforce easy and frictionless, Cisco Duo announced the general availability of Risk-Based Authentication and enhancements to our enterprise ready Single Sign-On solution at Cisco Live EMEA 2023 earlier this week.
Risk-Based Authentication fulfills the zero trust philosophy of continuous trust verification by assessing the risk level for each access attempt in a manner that is frictionless to users. A higher level of authentication is required only when there is an increase in assessed risk. Duo dynamically detects risk and automatically steps up authentication with two key policies:
The Risk-Based Factor Selection policy detects and analyzes authentication requests and adaptively enforces the most secure factors. It highlights risk and adapts its understanding of normal user behavior. It does this by looking for known attack patterns and anomalies and then allowing only the more secure authentication methods to gain access.
For example, Duo can detect if an organization or employee is being targeted for a push bombing attack or if the authentication device and access device are in two different countries, and Duo responds by automatically elevating the authentication request to a more secure factor such as phishing resistant FIDO2 security keys or Verified Duo Push.
The Risk-Based Remembered Devices policy establishes a trusted device session (like “remember this computer” check box), automatically without asking the user the check a box, during a successful authentication. Once the session is established, Duo looks for anomalous IP addresses or changes to a device throughout the lifetime of the trusted session and requires re-authentication only if it observes a change from historical baselines.
The policy also incorporates a Wi-Fi Fingerprint provided by Duo Device Health app to ensure that IP address changes reflect actual changes in location and not normal usage scenarios such as a user establishing an organizational VPN (Virtual Private Network) session.
Duo uses anonymized Wi-Fi Fingerprint to reliably detect whether the access device is in the same location as it was for previous authentications by comparing the Wi-Fi networks that are “visible” to the access device. Further, Duo preserves user privacy and does not track user location or collect any private information. Wi-Fi Fingerprint only lets Duo know if a user has changed location.
A typical organization uses over 250 applications. Single sign-on (SSO) solutions help employees access multiple applications with a single set of credentials and allow administrators to enforce granular policies for application access from a single console. Integrated with MFA or passwordless authentication, SSO serves as a critical access management tool for organizations that want to implement zero trust access to corporate applications.
Duo SSO is already popular among Duo’s customers. Now, we are adding two new capabilities that cater to modern enterprises:
An increasing number of applications use OIDC for authentication. It is a modern authentication protocol that lets application and website developers authenticate users without storing and managing other people’s passwords, which is both difficult and risky. To date, Duo SSO has supported SAML web applications. Supporting OIDC allows us to protect more of the applications that our customers are adopting as we all move towards a mobile-first world and integrate stronger and modern authentication methods.
Password resets are expensive for organizations. It is estimated that 20-50% of IT helpdesk tickets are for password resets. And according to a report by Ponemon Institute, large enterprises experience an average loss of $5.2 million a year in user productivity due to password resets.
When logging into browser-based applications, Duo SSO already allows users to reset passwords when they have expired in the same login workflow. And we heard from our customers that users want the option to proactively reset passwords. Now, Duo SSO offers the convenience to reset their Active Directly passwords before they expire. This capability further increases user productivity and reduces IT helpdesk tickets.
Risk-Based Authentication and enhancements to Duo SSO are available now to all paying customers based on their Duo Edition. If you are not yet a Duo customer, sign up for a free 30-day trial and try out these new capabilities today!
We’d love to hear what you think. Ask a Question, Comment Below, and Stay Connected with Cisco Secure on social!
Cisco Secure Social Channels
Cisco is honored to be this year’s winner of the Best Next Generation Firewall Award in the SE Labs 2023 Annual Report. This industry recognition validates Cisco’s continuous push towards harmonizing network, workload, and application security across hybrid and multicloud environments. I’m incredibly proud of the Cisco Secure Firewall team and am thankful for our amazing customers who continue to trust Cisco and develop their network security around our capabilities.
SE Labs, a cybersecurity testing and evaluation firm, provides impartial and independent assessments of various cybersecurity products and solutions. In their 2023 Annual Report, SE Labs states:
“Our Annual Security Awards recognizes security vendors that notonly do well in our tests, but perform well in the real world withreal customers. These awards are the only in the industry thatrecognize strong lab work combined with practical success.”
SE Labs performs tests on behalf of customers seeking independent proof-of-value assistance, as well as security vendors. At Cisco, we use third-party evaluations from multiple sources, including SE Labs, to augment our internal testing and to drive product improvement.
Winners were determined after months of in-depth testing, based on a combination of continual public testing, private assessments and feedback from corporate clients who use SE Labs to help choose security products and services. The award further validates that our customers can expect superior threat protection and performance with Cisco Secure Firewall.
SE Labs’ reports use the MITRE ATT&CK framework, employing both common “commodity” malware samples and sophisticated, targeted attacks. Their network security testing uses full attack chains to assess the detection and protection abilities of network devices and combinations of network and endpoint solutions. SE Labs publishes its testing methodologies and is BS EN ISO 9001: 2015 certified for The Provision of IT Security Product Testing.
As a worldwide leader in networking and security, Cisco is better positioned than any other security vendor to incorporate effective firewall controls into our customers’ infrastructure — anywhere data and applications reside. We offer a comprehensive threat defense with industry-leading Snort 3 IPS to protect users, applications, and data from continuously evolving threats. Our solutions also leverage machine learning and advanced threat intelligence from Cisco Talos, one of the world’s largest commercial threat intelligence teams.
In the constantly evolving world of cybersecurity, it is important to have access to the latest and most advanced technologies to stay ahead of threats. Whether you are an enterprise, government, healthcare, or a service provider organization, Cisco Secure Firewall provides top-ranked security.
When you invest in Cisco Secure Firewall, you are investing in award-winning threat defense with capabilities that are built for the real world. Learn more about SE Labs 2023 Annual Report, Cisco Secure Firewall and how you can refresh your firewall.
We’d love to hear what you think. Ask a Question, Comment Below, and Stay Connected with Cisco Secure on social!
Cisco Secure Social Channels
Congratulations to security advocate Luigi Vassallo, Chief Operating Officer and Chief Technology Officer of Sara Assicurazioni Insurance, an innovative Italian cloud-first insurance firm.
In the last two years, cybersecurity has advanced and can feel like a one-two punch to those who are not prepared. But what does that preparation look like? For Luigi Vassallo, it was more than just tackling cybersecurity defense on his own. Luigi reached out to the Cisco community, offering his knowledge and expertise to help others. This is what stood out to make him our Cybersecurity Defender of the Year in EMEA for the Cisco Global Advocate Awards 2023 EMEA event.
Cisco’s advocacy community, Cisco Insider Advocates, brings our customers together and provides a way for them to make powerful connections, expand their professional and personal networks, and learn from top experts in their field. Luigi personifies the spirit of Insider Advocates by sharing freely within the community.
One may wonder where Luigi finds the time or energy to participate in the community. Luigi finds immeasurable energy by training as a kickboxer and as an avid cyclist. This energy transforms into a philosophy of helping others. As Luigi says, it is about being “the best version of yourself.”
Luigi sums up his approach to cybersecurity this way: “Cybersecurity for me is like boxing: you never know when your opponent will attack, but you have to know in advance how to respond and what you can do.”
Luigi has been featured in a profile piece, as well as a video, where he speaks about his personal goals, as well as his goals for making Sara Assicurazioni as secure as possible with Cisco’s products. Part of his passion comes from being comfortable with the uncertainty of cybersecurity, coupled with the confidence that Cisco is there to help his organization. I’m honored that Sara Assicurazioni has joined forces with Cisco Secure to confidently define zero-trust and XDR strategies that increase security resilience and drive better customer outcomes for them.
When notified of the award, Luigi’s humility and dedication to the community was evident, as he shared, “I feel happy and surprised about this award, as I didn’t expect to win because there were so many good advocates who were nominated with me. I want to thank Cisco for awarding me the Cybersecurity Defender of the Year honor.”
Luigi also credits the Cisco Insider Advocacy program for its ability to connect and grow the cybersecurity community, adding:
“This is also what makes Cisco different from other security vendors; the capacity to recognize the innovation and resilience of its customers. I feel that we are part of the same movement, and we are together in the same fight against cybercriminals. To all other nominees, I want to say thank you for your hard work in cybersecurity and in sharing your good practices with me in the Cisco Insider Advocacy community and now at Cisco Live EMEA.”
We congratulate Luigi, not only for keeping his guard up, but for helping others to do the same by being part of the Cisco Insider Advocacy community.
The Cisco Global Advocate Awards celebrates Cisco’s passionate and innovative customer advocates who go above and beyond in demonstrating thought leadership and supporting Cisco through success stories, speaking engagements, product reviews, and so much more.
We’re planning three exclusive events that will coincide with Cisco Live conferences in Amsterdam, Las Vegas, and Melbourne in 2023. We hope you’ll join us as we recognize our customer advocates by region for actively supporting Cisco. You won’t want to miss it.
To learn more, and to become a member, please visit us here.
We’d love to hear what you think. Ask a Question, Comment Below, and Stay Connected with Cisco Secure on social!
Cisco Secure Social Channels
Cisco Live is the premier destination for Cisco customers and partners to gain knowledge and build community. Our teams work hard to deliver education and inspiration, ignite creativity, deliver practical know-how, and accelerate the connections that fuel your digital future.
The Cisco Secure team is excited to share our expertise to help power the strategies – and safety – of your organization.
In 2023, the threat landscape will evolve to one that sees attacks on every surface, from criminals who are opportunistic, yet laser-focused on their goal. The attacks themselves could be email-borne, directly targeted, socially based, or a mix of all three.
Criminals will target vulnerabilities, operational deficiencies, suppliers, and business partners, as a means of accomplishing their goals. They will use the target’s own environment and take advantage of existing people and technology problems, including alert fatigue and staffing shortages.
To face this reality and address the needs of organizations both large and small, Cisco will continue to focus on education and innovation in the areas of preventing insider threats, providing consistent and informed alerts, enabling actionable intelligence, and delivering solutions to implement a zero-trust security framework.
As the organization that pioneered networking, we are driven to secure every connection, providing end-to-end protection for users and devices across multiple clouds and networks with a seamless experience.
As our vision for the integrated Cisco Security Cloud evolves, we’re continuing to challenge existing models and unify security and networking, with foundational elements that execute on this vision. From verified push – which protects organizations from MFA-focused phishing attacks – to Wi-Fi Fingerprint, and Remembered Devices, the performance enhancements with Enterprise Single Sign-on and Cisco+ Secure Connect, we continue to meet our customers where they are, offering true zero trust, with frictionless experiences for the hybrid workforce.
We’re excited to celebrate the following innovations and updates announced at Cisco Live EMEA:
Finding the balance between usability and security is now easier than ever. With Risk-Based Authentication, users have the access they need, secured by real-time contextual signals. Organizations can increase security efficacy by dynamically adjusting authentication requirements based on risk levels and by enabling safer end-user behavior. Risk-based authentication now includes wi-fi fingerprint, remembered device, and verified push features, which work together to reduce risk while preserving user experience by only requesting additional interaction for suspicious logins or a change in risk.
Our Enterprise Ready Single Sign-on expands Duo SSO with three new capabilities to easily connect single sign-on to modern apps and empower end users. By adding major protocol support, improved admin tooling, and SSO on demand password resets, organizations enable easier and more secure access from anywhere.
Cisco SD-WAN customers can now enjoy all the benefits of a turnkey, single-vendor SASE solution that brings together industry-leading networking with security: Cisco+ Secure Connect. This new integration gives Cisco SD-WAN (powered by Viptela) customers fast, secure private application and internet access, enabling them to deliver a secure experience, anywhere work happens.
We are also announcing the introduction of industry-first Business Risk Observability, an enhancement of our Full-Stack Observability application security solution. Available through Cisco Secure Application, which is integrated into Cisco AppDynamics, it provides a business risk scoring solution which brings together Kenna Risk Meter score distribution and Business Transactions from Cisco AppDynamics and integrates with Panoptica for API security and Talos for threat intelligence.
The initial findings from our first Cybersecurity Readiness Index reveal that while technology to devices is widely adopted, more progress is needed to protect identity, networks and applications. The report assessed the preparedness of companies around the world to safeguard against cyber threats in the current environment. See our key findings and security readiness trends, with the full report launching in the coming weeks.
As we navigate 2023, we will continue to face uncertainties and challenges. We are fully committed to our customers and partners in the journey to provide security resilience, supporting a frictionless user experience, and solutions threat intelligence that work to continually minimize risk.
We’d love to hear what you think. Ask a Question, Comment Below, and Stay Connected with Cisco Secure on social!
Cisco Secure Social Channels
“Where do we start?”
This is the question every CISO asks about every new program. In fact, I ask and answer that question many times a month. There’s a reason for this, of course. A strong start to any project builds momentum, reassures stakeholders, and sets the stage for what’s to come. Security resilience initiatives are no different. Security resilience is the ability to anticipate and respond to unpredictable threats or changes, and then emerge stronger. It’s hard to imagine a more vital undertaking for CISOs. And as with all initiatives, CISOs always want to know where to begin.
They’re likely to find some valuable starting points in the Security Outcomes Report, Volume 3: Achieving Security Resilience, the latest in a series of reports released by Cisco and reflecting the viewpoints of 4,700 IT and security professionals from 26 countries. The report identifies seven success factors CISOs can pursue to improve outcomes within their own enterprise security resilience programs, placing a high priority on security resilience. The seven success factors range in nature from the architectural—simplifying your hybrid IT environment, maximizing zero trust adoption—to more relationship-focused factors.
It’s the latter that caught my eye.
Seven success factors for resilience:
It shouldn’t surprise any CISO that the first two success factors are built around relationships. These factors zero in on relationships with company leadership (as measured by establishing executive support) and relationships with people across the organization (as measured by cultivating a culture of security). Experienced CISOs know that these factors can make or break security initiatives.
Given the objective of security resilience is to withstand threats and come back even stronger, it’s clear that resilience must exist before, during, and after a cybersecurity incident. This has repercussions on the executive level and throughout the business. Lack of executive support can lead to detection, response, and recovery capabilities that are chronically underfunded. This leaves CISOs at a disadvantage when security incidents do inevitably happen and panic strikes the C-suite. What’s more, CISOs who lack strong executive relationships may also find themselves struggling to oversee incident management and coordinate communications. And afterward? Remediating and improving the security posture, which often impacts multiple parts of the organization beyond IT and often requires significant investment, stalls without a necessary lift from leadership.
The security report, which scores resilience levels across a series of criteria, finds that organizations reporting a strong backing from leadership have resilience scores that are 39% higher when compared to organizations reporting weak support. “Bridges to the C-suite are built upon a solid understanding of how the business works and how security initiatives can make it work even better,” notes the report. “Support goes both ways in any relationship, after all.”
In addition to keeping the program aligned, CISOs must keep in communication with their peers and superiors. Those who share only transactional relationships within the C-Suite find their interactions limited to status updates and budget requests. Transformational relationships, however, involve more frequent and deeper communication and interactions, which cover a broader set of topics than submitting the latest budget ask. They are, in other words, more valuable.
Of course, executive support is just one crucial factor for success. Resilience programs need broad support from throughout the organization, not just at the top. Every time an employee picks up a mouse or accesses an app from their mobile phone, they make a choice to either strengthen or lessen the organization’s security posture. Every time an improvement is necessary following a security event, cultural buy-in determines whether this new request from security is implemented or circumvented.
According to the report, organizations that successfully foster a culture of security can see a 46% increase in resilience compared to those who lack such a culture. Much like aligning a program with the business direction furthers leadership buy-in, CISOs need to align security policy with the functional direction of the business—but in a way that helps employees see security measures as protecting not just corporate data and IT assets but also their own future. When employees aren’t on board or see security measures as IT concerns with no relation to them, resilience suffers. “Frequent security policy violations and workarounds,” notes the report, “are evidence of poor security culture.” By viewing policy exceptions as feedback, and investigating these from the perspective of identifying and correcting misalignment, security leaders can enroll employees as the willing participants in the solution—rather than contributors to the problem.
Security leaders know, by and large, what we need to do to secure our organizations. We have frameworks with pages of controls. We have risk registers with lists of action items. Where we often struggle is translating this knowledge into action. To do that, we must see our efforts within the strategic context of executive leaders and the tactical reality of the line managers in our organization. We must personalize and prioritize our efforts around what matters to the people we collaborate with. It is through engaging people that our security programs become human-centric and, in turn, become more resilient.
Where do we start? With relationships. Good relationships lead to good security programs, and good security programs lead to great relationships. And all of these contribute to security resilience.
Download the Security Outcomes Report, Vol. 3: Achieving Security Resilience today.
Explore more original research and blogs like this:
We’d love to hear what you think. Ask a Question, Comment Below, and Stay Connected with Cisco Secure on social!
Cisco Secure Social Channels
The use of unmanaged and IoT devices in enterprises is growing exponentially, and will account for 55.7 billion connected devices by the end of 2025. A critical concern is deploying IoT devices without requisite security controls.
While these numbers are numbing, their reality is undeniable. 90% of customers believe digitization has accelerated the importance placed upon security. The World Economic Forum now lists cybersecurity failure as a critical threat, and estimates a gap of more than 3 million security experts worldwide, hindering secure deployments at scale. Furthermore, 83% of IoT-based transactions happen over plaintext channels and not SSL, making them especially risky.
Securing an IoT device can be achieved either through securing the IoT device itself, or hardening the network it accesses. Securing devices can be cumbersome, requiring complex manufacturing partnerships and increasing unit prices, thereby reducing adoption. On the other hand, securing the network is always desirable as it helps secure access, encrypt traffic, and ease management.
Being a leader in both security and networking, Cisco continues to bring security closer to networking, providing the network with built-in security, and enabling the network to act both as sensor and as an enforcer. The convergence of security and networking leverages the network’s intelligence and visibility to enable more-informed decisions on policy and threats.
Cisco uniquely integrates security and networking, for instance we recently integrated Cisco Secure Firewall to operate on Cisco Catalyst 9000 Series switches. Additionally, Secure Firewall can be deployed in a containerized form, on-premises and in clouds. Cisco Secure Firewall classifies traffic and protects applications while stopping exploitation of vulnerable systems. Additionally, we offer Identity Services Engine with AI Endpoint Analytics to passively identify IoT devices and apply segmentation policies. Furthermore, Cisco offers management flexibility by integrating with Cisco Defense Orchestrator and DNA Center and with existing customer tools like SIEMs and XDRs.
Let’s look at three use cases where the addition of Secure Firewall capability on Catalyst 9000 Series switches solves real world problems:
Use case 1: Securing the Smart Building: This solution is ideal to secure smart buildings, converging various IoT systems into a single IT-managed network infrastructure. Smart buildings lower the operational and energy costs. Smarter building systems, however, pose serious security risks as these include so many unmanaged devices such as window shades, lighting, tailored HVAC, and more. One of the methods to secure smart buildings is to control access to avoid manipulation of sensors. Such control is attained with a networking switch with enhanced firewall capability. The firewall ensures granular segmentation, directing policies for traffic generated out of IoT devices, providing access to the right users. This integration also brings security closer to endpoints, making policy orchestration simpler.
Use Case 2: Centrally manage isolated IoT network clusters: IoT devices which communicate with each other in the same subnet typically cannot be routed, which is a challenge. By default, most IoT networks are configured in the same subnet, making it difficult to manage them centrally. Administrators are forced to physically connect to the IoT network to manage and collect telemetry. Furthermore, IoT vendors often charge hefty amounts to update IP addresses of devices. Cisco Secure Firewall, hosted on the Catalyst switch, solves this problem and not only inspects traffic from the IoT network but also translates duplicate IoT IP addresses to unique global IP addresses using NAT for centralized management of isolated IoT networks.
Use Case 3: Securely encrypt IoT traffic passing through a shared IT network: At airports, for example, multiple vendors manage unique systems such as baggage, air quality, biometric access control, etc, which share a common network. IoT traffic is usually in plain text, making it susceptible to packet sniffing, eavesdropping, man-in-the-middle attacks, and other such exploits. The IPSec capability on Cisco Secure Firewall encrypts IoT traffic, securing data transfer and reducing risk.
Cisco’s IoT initiatives join the once disconnected worlds of IT and IoT, unifying networking and security. For further details refer to the At-A Glance and see how and an Australian oil company, Ampol, fortified its retail IoT with Cisco Secure!
We’d love to hear what you think. Ask a Question, Comment Below, and Stay Connected with Cisco Secure on social!
Cisco Secure Social Channels
In today’s security climate, NetOps and SecOps teams are witnessing increased attack surface area as applications and workloads move far beyond the boundaries of their data center. These applications/workloads move to, and reside in multi-cloud architecture, adding complexity to connectivity, visibility, and control. In the multi-cloud world, the SecOps teams use a distributed security model that is expensive, difficult to deploy, and complex to manage.
Cisco has partnered with Alkira to help secure your multi-cloud environment. Combining Alkira’s simplified cloud connection through their cloud network-as-a-service platform (SaaS-like model) with Cisco’s industry-leading security controls, we can deliver a centralized security model for multi-cloud architecture that is easy to deploy, manage, and increases visibility and control.
Cisco Secure Firewall Threat Defense Virtual provides unmatched security controls such as stateful firewalling, Snort3 IPS, URL filtering, malware defense, application visibility and control, and more. Additionally, with the purchase of Secure Firewall Threat Defense Virtual, you will receive license entitlement to Cisco SecureX, our open XDR and orchestration platform, helping you accelerate threat detection, investigation, and remediation.
Cisco Secure Firewall Management Center (FMC) is required for managing Secure Firewall Threat Defense Virtual, helping administrators enforce consistent access policies, rapidly troubleshoot security events, and view summarized reports across the deployment.
Secure Firewall Threat Defense Virtual is available on Alkira’s service marketplace through Bring-Your-Own-License (BYOL) and Pay-As-You-Go licensing options. Customers can seamlessly deploy and insert Secure Firewall in their Alkira Cloud Exchange Points (CXP).
Benefits of this integrated architecture include:
The Cisco Secure Firewall Threat Defense brings the following capabilities to the environment:
Figure 1 shows a multi-cloud environment inter-connected using Alkira Cloud Exhange Platform (CXP). In the above architecture, Cisco provides seamless insertion of security controls and enables the following use cases for firewall insertion:
Using Alkira’s customer portal, Cisco Secure Firewall Threat Defense Virtual can be easily inserted in the traffic path within minutes. Figure 2 shows how automation & orchestration eliminates additional configuration required in the legacy insertion model.
Cisco Secure Firewall Threat Defense Virtual is managed using Cisco Secure Firewall Management Center (FMC). Customers can use on-premises FMC or build a virtual FMC instance in the cloud. Cisco and Alkira support both models of deployment.
Cisco Secure Firewall Threat Defense Virtual protects the following traffic flows in Alkira CXP:
Alkira and Cisco’s partnership simplifies the deployment of enterprise-grade security in the cloud while enabling multi-cloud visibility and end-to-end threat defense for customers.
Additional Resources:
Cisco Secure Firewall Threat Defense
Cisco Secure Firewall Data Sheet
Cisco Secure Firewall Management Center
Alkira blog on Cisco Secure Firewall Threat Defense
We’d love to hear what you think. Ask a Question, Comment Below, and Stay Connected with Cisco Secure on social!
Cisco Secure Social Channels
FreshRSS