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BlackCat Ransomware Group Implodes After Apparent $22M Payment by Change Healthcare

By BrianKrebs

There are indications that U.S. healthcare giant Change Healthcare has made a $22 million extortion payment to the infamous BlackCat ransomware group (a.k.a. “ALPHV“) as the company struggles to bring services back online amid a cyberattack that has disrupted prescription drug services nationwide for weeks. However, the cybercriminal who claims to have given BlackCat access to Change’s network says the crime gang cheated them out of their share of the ransom, and that they still have the sensitive data Change reportedly paid the group to destroy. Meanwhile, the affiliate’s disclosure appears to have prompted BlackCat to cease operations entirely.

Image: Varonis.

In the third week of February, a cyber intrusion at Change Healthcare began shutting down important healthcare services as company systems were taken offline. It soon emerged that BlackCat was behind the attack, which has disrupted the delivery of prescription drugs for hospitals and pharmacies nationwide for nearly two weeks.

On March 1, a cryptocurrency address that security researchers had already mapped to BlackCat received a single transaction worth approximately $22 million. On March 3, a BlackCat affiliate posted a complaint to the exclusive Russian-language ransomware forum Ramp saying that Change Healthcare had paid a $22 million ransom for a decryption key, and to prevent four terabytes of stolen data from being published online.

The affiliate claimed BlackCat/ALPHV took the $22 million payment but never paid him his percentage of the ransom. BlackCat is known as a “ransomware-as-service” collective, meaning they rely on freelancers or affiliates to infect new networks with their ransomware. And those affiliates in turn earn commissions ranging from 60 to 90 percent of any ransom amount paid.

“But after receiving the payment ALPHV team decide to suspend our account and keep lying and delaying when we contacted ALPHV admin,” the affiliate “Notchy” wrote. “Sadly for Change Healthcare, their data [is] still with us.”

Change Healthcare has neither confirmed nor denied paying, and has responded to multiple media outlets with a similar non-denial statement — that the company is focused on its investigation and on restoring services.

Assuming Change Healthcare did pay to keep their data from being published, that strategy seems to have gone awry: Notchy said the list of affected Change Healthcare partners they’d stolen sensitive data from included Medicare and a host of other major insurance and pharmacy networks.

On the bright side, Notchy’s complaint seems to have been the final nail in the coffin for the BlackCat ransomware group, which was infiltrated by the FBI and foreign law enforcement partners in late December 2023. As part of that action, the government seized the BlackCat website and released a decryption tool to help victims recover their systems.

BlackCat responded by re-forming, and increasing affiliate commissions to as much as 90 percent. The ransomware group also declared it was formally removing any restrictions or discouragement against targeting hospitals and healthcare providers.

However, instead of responding that they would compensate and placate Notchy, a representative for BlackCat said today the group was shutting down and that it had already found a buyer for its ransomware source code.

The seizure notice now displayed on the BlackCat darknet website.

“There’s no sense in making excuses,” wrote the RAMP member “Ransom.” “Yes, we knew about the problem, and we were trying to solve it. We told the affiliate to wait. We could send you our private chat logs where we are shocked by everything that’s happening and are trying to solve the issue with the transactions by using a higher fee, but there’s no sense in doing that because we decided to fully close the project. We can officially state that we got screwed by the feds.”

BlackCat’s website now features a seizure notice from the FBI, but several researchers noted that this image seems to have been merely cut and pasted from the notice the FBI left in its December raid of BlackCat’s network. The FBI has not responded to requests for comment.

Fabian Wosar, head of ransomware research at the security firm Emsisoft, said it appears BlackCat leaders are trying to pull an “exit scam” on affiliates by withholding many ransomware payment commissions at once and shutting down the service.

“ALPHV/BlackCat did not get seized,” Wosar wrote on Twitter/X today. “They are exit scamming their affiliates. It is blatantly obvious when you check the source code of their new takedown notice.”

Dmitry Smilyanets, a researcher for the security firm Recorded Future, said BlackCat’s exit scam was especially dangerous because the affiliate still has all the stolen data, and could still demand additional payment or leak the information on his own.

“The affiliates still have this data, and they’re mad they didn’t receive this money, Smilyanets told Wired.com. “It’s a good lesson for everyone. You cannot trust criminals; their word is worth nothing.”

BlackCat’s apparent demise comes closely on the heels of the implosion of another major ransomware group — LockBit, a ransomware gang estimated to have extorted over $120 million in payments from more than 2,000 victims worldwide. On Feb. 20, LockBit’s website was seized by the FBI and the U.K.’s National Crime Agency (NCA) following a months-long infiltration of the group.

LockBit also tried to restore its reputation on the cybercrime forums by resurrecting itself at a new darknet website, and by threatening to release data from a number of major companies that were hacked by the group in the weeks and days prior to the FBI takedown.

But LockBit appears to have since lost any credibility the group may have once had. After a much-promoted attack on the government of Fulton County, Ga., for example, LockBit threatened to release Fulton County’s data unless paid a ransom by Feb. 29. But when Feb. 29 rolled around, LockBit simply deleted the entry for Fulton County from its site, along with those of several financial organizations that had previously been extorted by the group.

Fulton County held a press conference to say that it had not paid a ransom to LockBit, nor had anyone done so on their behalf, and that they were just as mystified as everyone else as to why LockBit never followed through on its threat to publish the county’s data. Experts told KrebsOnSecurity LockBit likely balked because it was bluffing, and that the FBI likely relieved them of that data in their raid.

Smilyanets’ comments are driven home in revelations first published last month by Recorded Future, which quoted an NCA official as saying LockBit never deleted the data after being paid a ransom, even though that is the only reason many of its victims paid.

“If we do not give you decrypters, or we do not delete your data after payment, then nobody will pay us in the future,” LockBit’s extortion notes typically read.

Hopefully, more companies are starting to get the memo that paying cybercrooks to delete stolen data is a losing proposition all around.

Russia Attacked Ukraine's Power Grid at Least 66 Times to ‘Freeze It Into Submission’

By Vittoria Elliott
Several of the strikes occurred far from the front lines of the conflict, indicating possible war crimes. Researchers say the attacks likely had devastating impacts on civilians.

After FBI Takedown, KV-Botnet Operators Shift Tactics in Attempt to Bounce Back

By Newsroom
The threat actors behind the KV-botnet made "behavioral changes" to the malicious network as U.S. law enforcement began issuing commands to neutralize the activity. KV-botnet is the name given to a network of compromised small office and home office (SOHO) routers and firewall devices across the world, with one specific cluster acting as a covert data transfer system for other Chinese

Arrests in $400M SIM-Swap Tied to Heist at FTX?

By BrianKrebs

Three Americans were charged this week with stealing more than $400 million in a November 2022 SIM-swapping attack. The U.S. government did not name the victim organization, but there is every indication that the money was stolen from the now-defunct cryptocurrency exchange FTX, which had just filed for bankruptcy on that same day.

A graphic illustrating the flow of more than $400 million in cryptocurrencies stolen from FTX on Nov. 11-12, 2022. Image: Elliptic.co.

An indictment unsealed this week and first reported on by Ars Technica alleges that Chicago man Robert Powell, a.k.a. “R,” “R$” and “ElSwapo1,” was the ringleader of a SIM-swapping group called the “Powell SIM Swapping Crew.” Colorado resident Emily “Em” Hernandez allegedly helped the group gain access to victim devices in service of SIM-swapping attacks between March 2021 and April 2023. Indiana resident Carter Rohn, a.k.a. “Carti,” and “Punslayer,” allegedly assisted in compromising devices.

In a SIM-swapping attack, the crooks transfer the target’s phone number to a device they control, allowing them to intercept any text messages or phone calls sent to the victim, including one-time passcodes for authentication or password reset links sent via SMS.

The indictment states that the perpetrators in this heist stole the $400 million in cryptocurrencies on Nov. 11, 2022 after they SIM-swapped an AT&T customer by impersonating them at a retail store using a fake ID. However, the document refers to the victim in this case only by the name “Victim 1.”

Wired’s Andy Greenberg recently wrote about FTX’s all-night race to stop a $1 billion crypto heist that occurred on the evening of November 11:

“FTX’s staff had already endured one of the worst days in the company’s short life. What had recently been one of the world’s top cryptocurrency exchanges, valued at $32 billion only 10 months earlier, had just declared bankruptcy. Executives had, after an extended struggle, persuaded the company’s CEO, Sam Bankman-Fried, to hand over the reins to John Ray III, a new chief executive now tasked with shepherding the company through a nightmarish thicket of debts, many of which it seemed to have no means to pay.”

“FTX had, it seemed, hit rock bottom. Until someone—a thief or thieves who have yet to be identified—chose that particular moment to make things far worse. That Friday evening, exhausted FTX staffers began to see mysterious outflows of the company’s cryptocurrency, publicly captured on the Etherscan website that tracks the Ethereum blockchain, representing hundreds of millions of dollars worth of crypto being stolen in real time.”

The indictment says the $400 million was stolen over several hours between November 11 and 12, 2022. Tom Robinson, co-founder of the blockchain intelligence firm Elliptic, said the attackers in the FTX heist began to drain FTX wallets on the evening of Nov. 11, 2022 local time, and continuing until the 12th of November.

Robinson said Elliptic is not aware of any other crypto heists of that magnitude occurring on that date.

“We put the value of the cryptoassets stolen at $477 million,” Robinson said. “The FTX administrators have reported overall losses due to “unauthorized third-party transfers” of $413 million – the discrepancy is likely due to subsequent seizure and return of some of the stolen assets. Either way, it’s certainly over $400 million, and we are not aware of any other thefts from crypto exchanges on this scale, on this date.”

The SIM-swappers allegedly responsible for the $400 million crypto theft are all U.S. residents. But there are some indications they had help from organized cybercriminals based in Russia. In October 2023, Elliptic released a report that found the money stolen from FTX had been laundered through exchanges with ties to criminal groups based in Russia.

“A Russia-linked actor seems a stronger possibility,” Elliptic wrote. “Of the stolen assets that can be traced through ChipMixer, significant amounts are combined with funds from Russia-linked criminal groups, including ransomware gangs and darknet markets, before being sent to exchanges. This points to the involvement of a broker or other intermediary with a nexus in Russia.”

Nick Bax, director of analytics at the cryptocurrency wallet recovery firm Unciphered, said the flow of stolen FTX funds looks more like what his team has seen from groups based in Eastern Europe and Russian than anything they’ve witnessed from US-based SIM-swappers.

“I was a bit surprised by this development but it seems to be consistent with reports from CISA [the Cybersecurity and Infrastructure Security Agency] and others that “Scattered Spider” has worked with [ransomware] groups like ALPHV/BlackCat,” Bax said.

CISA’s alert on Scattered Spider says they are a cybercriminal group that targets large companies and their contracted information technology (IT) help desks.

“Scattered Spider threat actors, per trusted third parties, have typically engaged in data theft for extortion and have also been known to utilize BlackCat/ALPHV ransomware alongside their usual TTPs,” CISA said, referring to the group’s signature “Tactics, Techniques an Procedures.”

Nick Bax, posting on Twitter/X in Nov 2022 about his research on the $400 million FTX heist.

Earlier this week, KrebsOnSecurity published a story noting that a Florida man recently charged with being part of a SIM-swapping conspiracy is thought to be a key member of Scattered Spider, a hacking group also known as 0ktapus. That group has been blamed for a string of cyber intrusions at major U.S. technology companies during the summer of 2022.

Financial claims involving FTX’s bankruptcy proceedings are being handled by the financial and risk consulting giant Kroll. In August 2023, Kroll suffered its own breach after a Kroll employee was SIM-swapped. According to Kroll, the thieves stole user information for multiple cryptocurrency platforms that rely on Kroll services to handle bankruptcy proceedings.

KrebsOnSecurity sought comment for this story from Kroll, the FBI, the prosecuting attorneys, and Sullivan & Cromwell, the law firm handling the FTX bankruptcy. This story will be updated in the event any of them respond.

Attorneys for Mr. Powell said they do not know who Victim 1 is in the indictment, as the government hasn’t shared that information yet. Powell’s next court date is a detention hearing on Feb. 2, 2024.

Update, Feb. 3, 12:19 p.m. ET: The FBI declined a request to comment.

Riding the AI Waves: The Rise of Artificial Intelligence to Combat Cyber Threats

By The Hacker News
In nearly every segment of our lives, AI (artificial intelligence) now makes a significant impact: It can deliver better healthcare diagnoses and treatments; detect and reduce the risk of financial fraud; improve inventory management; and serve up the right recommendation for a streaming movie on Friday night. However, one can also make a strong case that some of AI’s most significant impacts

AllaKore RAT Malware Targeting Mexican Firms with Financial Fraud Tricks

By Newsroom
Mexican financial institutions are under the radar of a new spear-phishing campaign that delivers a modified version of an open-source remote access trojan called AllaKore RAT. The BlackBerry Research and Intelligence Team attributed the activity to an unknown Latin America-based financially motivated threat actor. The campaign has been active since at least 2021. "Lures use Mexican Social

Free Decryptor Released for Black Basta and Babuk's Tortilla Ransomware Victims

By Newsroom
A decryptor for the Tortilla variant of the Babuk ransomware has been released by Cisco Talos, allowing victims targeted by the malware to regain access to their files. The cybersecurity firm said the threat intelligence it shared with Dutch law enforcement authorities made it possible to arrest the threat actor behind the operations. The encryption key has also been shared with Avast,

Carbanak Banking Malware Resurfaces with New Ransomware Tactics

By Newsroom
The banking malware known as Carbanak has been observed being used in ransomware attacks with updated tactics. "The malware has adapted to incorporate attack vendors and techniques to diversify its effectiveness," cybersecurity firm NCC Group said in an analysis of ransomware attacks that took place in November 2023. "Carbanak returned last month through new

BlackCat Ransomware Raises Ante After FBI Disruption

By BrianKrebs

The U.S. Federal Bureau of Investigation (FBI) disclosed today that it infiltrated the world’s second most prolific ransomware gang, a Russia-based criminal group known as ALPHV and BlackCat. The FBI said it seized the gang’s darknet website, and released a decryption tool that hundreds of victim companies can use to recover systems. Meanwhile, BlackCat responded by briefly “unseizing” its darknet site with a message promising 90 percent commissions for affiliates who continue to work with the crime group, and open season on everything from hospitals to nuclear power plants.

A slightly modified version of the FBI seizure notice on the BlackCat darknet site (Santa caps added).

Whispers of a possible law enforcement action against BlackCat came in the first week of December, after the ransomware group’s darknet site went offline and remained unavailable for roughly five days. BlackCat eventually managed to bring its site back online, blaming the outage on equipment malfunctions.

But earlier today, the BlackCat website was replaced with an FBI seizure notice, while federal prosecutors in Florida released a search warrant explaining how FBI agents were able to gain access to and disrupt the group’s operations.

A statement on the operation from the U.S. Department of Justice says the FBI developed a decryption tool that allowed agency field offices and partners globally to offer more than 500 affected victims the ability to restore their systems.

“With a decryption tool provided by the FBI to hundreds of ransomware victims worldwide, businesses and schools were able to reopen, and health care and emergency services were able to come back online,” Deputy Attorney General Lisa O. Monaco said. “We will continue to prioritize disruptions and place victims at the center of our strategy to dismantle the ecosystem fueling cybercrime.”

The DOJ reports that since BlackCat’s formation roughly 18 months ago, the crime group has targeted the computer networks of more than 1,000 victim organizations. BlackCat attacks usually involve encryption and theft of data; if victims refuse to pay a ransom, the attackers typically publish the stolen data on a BlackCat-linked darknet site.

BlackCat formed by recruiting operators from several competing or disbanded ransomware organizations — including REvilBlackMatter and DarkSide. The latter group was responsible for the Colonial Pipeline attack in May 2021 that caused nationwide fuel shortages and price spikes.

Like many other ransomware operations, BlackCat operates under the “ransomware-as-a-service” model, where teams of developers maintain and update the ransomware code, as well as all of its supporting infrastructure. Affiliates are incentivized to attack high-value targets because they generally reap 60-80 percent of any payouts, with the remainder going to the crooks running the ransomware operation.

BlackCat was able to briefly regain control over their darknet server today. Not long after the FBI’s seizure notice went live the homepage was “unseized” and retrofitted with a statement about the incident from the ransomware group’s perspective.

The message that was briefly on the homepage of the BlackCat ransomware group this morning. Image: @GossiTheDog.

BlackCat claimed that the FBI’s operation only touched a portion of its operations, and that as a result of the FBI’s actions an additional 3,000 victims will no longer have the option of receiving decryption keys. The group also said it was formally removing any restrictions or discouragement against targeting hospitals or other critical infrastructure.

“Because of their actions, we are introducing new rules, or rather, we are removing ALL rules except one, you cannot touch the CIS [a common restriction against attacking organizations in Russia or the Commonwealth of Independent States]. You can now block hospitals, nuclear power plants, anything, anywhere.”

The crime group also said it was setting affiliate commissions at 90 percent, presumably to attract interest from potential affiliates who might otherwise be spooked by the FBI’s recent infiltration. BlackCat also promised that all “advertisers” under this new scheme would manage their affiliate accounts from data centers that are completely isolated from each other.

BlackCat’s darknet site currently displays the FBI seizure notice. But as BleepingComputer founder Lawrence Abrams explained on Mastodon, both the FBI and BlackCat have the private keys associated with the Tor hidden service URL for BlackCat’s victim shaming and data leak site.

“Whoever is the latest to publish the hidden service on Tor (in this case the BlackCat data leak site), will resume control over the URL,” Abrams said. “Expect to see this type of back and forth over the next couple of days.”

The DOJ says anyone with information about BlackCat affiliates or their activities may be eligible for up to a $10 million reward through the State Department’s “Rewards for Justice” program, which accepts submissions through a Tor-based tip line (visiting the site is only possible using the Tor browser).

Further reading: CISA StopRansomware Alert on the tools, techniques and procedures used by ALPHV/BlackCat.

FBI Takes Down BlackCat Ransomware, Releases Free Decryption Tool

By Newsroom
The U.S. Justice Department (DoJ) has officially announced the disruption of the BlackCat ransomware operation and released a decryption tool that more than 500 affected victims can use to regain access to files locked by the malware. Court documents show that the U.S. Federal Bureau of Investigation (FBI) enlisted the help of a confidential human source (CHS) to act as an affiliate

8Base Group Deploying New Phobos Ransomware Variant via SmokeLoader

By Newsroom
The threat actors behind the 8Base ransomware are leveraging a variant of the Phobos ransomware to conduct their financially motivated attacks. The findings come from Cisco Talos, which has recorded an increase in activity carried out by the cybercriminals. “Most of the group’s Phobos variants are distributed by SmokeLoader, a backdoor trojan," security researcher Guilherme Venere said in an

U.S. Cybersecurity Agencies Warn of Scattered Spider's Gen Z Cybercrime Ecosystem

By Newsroom
U.S. cybersecurity and intelligence agencies have released a joint advisory about a cybercriminal group known as Scattered Spider that's known to employ sophisticated phishing tactics to infiltrate targets. "Scattered Spider threat actors typically engage in data theft for extortion using multiple social engineering techniques and have recently leveraged BlackCat/ALPHV ransomware alongside their

New BiBi-Windows Wiper Targets Windows Systems in Pro-Hamas Attacks

By Newsroom
Cybersecurity researchers have warned about a Windows version of a wiper malware that was previously observed targeting Linux systems in cyber attacks aimed at Israel. Dubbed BiBi-Windows Wiper by BlackBerry, the wiper is the Windows counterpart of BiBi-Linux Wiper, which has been put to use by a pro-Hamas hacktivist group in the wake of the Israel-Hamas war last month. "The Windows variant [...

Predictive AI in Cybersecurity: Outcomes Demonstrate All AI is Not Created Equally

By The Hacker News
Here is what matters most when it comes to artificial intelligence (AI) in cybersecurity: Outcomes.  As the threat landscape evolves and generative AI is added to the toolsets available to defenders and attackers alike, evaluating the relative effectiveness of various AI-based security offerings is increasingly important — and difficult. Asking the right questions can help you spot solutions

.US Harbors Prolific Malicious Link Shortening Service

By BrianKrebs

The top-level domain for the United States — .US — is home to thousands of newly-registered domains tied to a malicious link shortening service that facilitates malware and phishing scams, new research suggests. The findings come close on the heels of a report that identified .US domains as among the most prevalent in phishing attacks over the past year.

Researchers at Infoblox say they’ve been tracking what appears to be a three-year-old link shortening service that is catering to phishers and malware purveyors. Infoblox found the domains involved are typically three to seven characters long, and hosted on bulletproof hosting providers that charge a premium to ignore any abuse or legal complaints. The short domains don’t host any content themselves, but are used to obfuscate the real address of landing pages that try to phish users or install malware.

A graphic describing the operations of a malicious link shortening service that Infoblox has dubbed “Prolific Puma.”

Infoblox says it’s unclear how the phishing and malware landing pages tied to this service are being initially promoted, although they suspect it is mainly through scams targeting people on their phones via SMS. A new report says the company mapped the contours of this link shortening service thanks in part to pseudo-random patterns in the short domains, which all appear on the surface to be a meaningless jumble of letters and numbers.

“This came to our attention because we have systems that detect registrations that use domain name generation algorithms,” said Renee Burton, head of threat intelligence at Infoblox. “We have not found any legitimate content served through their shorteners.”

Infoblox determined that until May 2023, domains ending in .info accounted for the bulk of new registrations tied to the malicious link shortening service, which Infoblox has dubbed “Prolific Puma.” Since then, they found that whoever is responsible for running the service has used .US for approximately 55 percent of the total domains created, with several dozen new malicious .US domains registered daily.

.US is overseen by the National Telecommunications and Information Administration (NTIA), an executive branch agency of the U.S. Department of Commerce. But Uncle Sam has long outsourced the management of .US to various private companies, which have gradually allowed the United States’s top-level domain to devolve into a cesspool of phishing activity.

Or so concludes The Interisle Consulting Group, which gathers phishing data from multiple industry sources and publishes an annual report on the latest trends. As far back as 2018, Interisle found .US domains were the worst in the world for spam, botnet (attack infrastructure for DDOS etc.) and illicit or harmful content.

Interisle’s newest study examined six million phishing reports between May 1, 2022 and April 30, 2023, and identified approximately 30,000 .US phishing domains. Interisle found significant numbers of .US domains were registered to attack some of the United States’ most prominent companies, including Bank of America, Amazon, Apple, AT&T, Citi, Comcast, Microsoft, Meta, and Target. Others were used to impersonate or attack U.S. government agencies.

Under NTIA regulations, domain registrars processing .US domain registrations must take certain steps (PDF) to verify that those customers actually reside in the United States, or else own organizations based in the U.S. However, if one registers a .US domain through GoDaddy — the largest domain registrar and the current administrator of the .US contract — the way one “proves” their U.S. nexus is simply by choosing from one of three pre-selected affirmative responses.

In an age when most domain registrars are automatically redacting customer information from publicly accessible registration records to avoid running afoul of European privacy laws, .US has remained something of an outlier because its charter specifies that all registration records be made public. However, Infoblox said it found more than 2,000 malicious link shortener domains ending in .US registered since October 2023 through NameSilo that have somehow subverted the transparency requirements for the usTLD and converted to private registrations.

“Through our own experience with NameSilo, it is not possible to select private registration for domains in the usTLD through their interface,” Infoblox wrote. “And yet, it was done. Of the total domains with private records, over 99% were registered with NameSilo. At this time, we are not able to explain this behavior.”

NameSilo CEO Kristaps Ronka said the company actively responds to reports about abusive domains, but that it hasn’t seen any abuse reports related to Infoblox’s findings.

“We take down hundreds to thousands of domains, lots of them proactively to combat abuse,” Ronka said. “Our current abuse rate on abuseIQ for example is currently at 0%. AbuseIQ receives reports from countless sources and we are yet to see these ‘Puma’ abuse reports.”

Experts who track domains associated with malware and phishing say even phony information supplied at registration is useful in identifying potentially malicious or phishous domains before they can be used for abuse.

For example, when it was registered through NameSilo in July 2023, the domain 1ox[.]us — like thousands of others — listed its registrant as “Leila Puma” at a street address in Poland, and the email address blackpumaoct33@ukr.net. But according to DomainTools.com, on Oct. 1, 2023 those records were redacted and hidden by NameSilo.

Infoblox notes that the username portion of the email address appears to be a reference to the song October 33 by the Black Pumas, an Austin, Texas based psychedelic soul band. The Black Pumas aren’t exactly a household name, but they did recently have a popular Youtube video that featured a cover of the Kinks song “Strangers,” which included an emotional visual narrative about Ukrainians seeking refuge from the Russian invasion, titled “Ukraine Strangers.” Also, Leila Puma’s email address is at a Ukrainian email provider.

DomainTools shows that hundreds of other malicious domains tied to Prolific Puma previously were registered through NameCheap to a “Josef Bakhovsky” at a different street address in Poland. According to ancestry.com, the anglicized version of this surname — Bakovski — is the traditional name for someone from Bakowce, which is now known as Bakivtsi and is in Ukraine.

This possible Polish and/or Ukrainian connection may or may not tell us something about the “who” behind this link shortening service, but those details are useful for identifying and grouping these malicious short domains. However, even this meager visibility into .US registration data is now under threat.

The NTIA recently published a proposal that would allow registrars to redact all registrant data from WHOIS registration records for .US domains. A broad array of industry groups have filed comments opposing the proposed changes, saying they threaten to remove the last vestiges of accountability for a top-level domain that is already overrun with cybercrime activity.

Infoblox’s Burton says Prolific Puma is remarkable because they’ve been able to facilitate malicious activities for years while going largely unnoticed by the security industry.

“This exposes how persistent the criminal economy can be at a supply chain level,” Burton said. “We’re always looking at the end malware or phishing page, but what we’re finding here is that there’s this middle layer of DNS threat actors persisting for years without notice.”

Infoblox’s full report on Prolific Puma is here.

The Destruction of Gaza’s Internet Is Complete

By Matt Burgess
As Israel increases its ground operation in Gaza, the last remaining internet and mobile connections have gone dark.

Unveiling the Awesome Lineup for Black Hat MEA Arsenal 2023 in Riyadh, KSA

By NJ Ouchn
Are you ready for an exhilarating dive into the world of cybersecurity and cutting-edge technology?

Numbers Don't Lie: Exposing the Harsh Truths of Cyberattacks in New Report

By The Hacker News
How often do cyberattacks happen? How frequently do threat actors target businesses and governments around the world? The BlackBerry® Threat Research and Intelligence Team recently analyzed 90 days of real-world data to answer these questions. Full results are in the latest BlackBerry Global Threat Intelligence Report, but read on for a teaser of several interesting cyber attack statistics.

Malware Unleashed: Public Sector Hit in Sudden Surge, Reveals New Report

By The Hacker News
The just-released BlackBerry Global Threat Intelligence Report reveals a 40% increase in cyberattacks against government and public service organizations versus the previous quarter. This includes public transit, utilities, schools, and other government services we rely on daily. With limited resources and often immature cyber defense programs, these publicly funded organizations are struggling

Zoom ZTP & AudioCodes Phones Flaws Uncovered, Exposing Users to Eavesdropping

By THN
Multiple security vulnerabilities have been disclosed in AudioCodes desk phones and Zoom's Zero Touch Provisioning (ZTP) that could be potentially exploited by a malicious attacker to conduct remote attacks. "An external attacker who leverages the vulnerabilities discovered in AudioCodes Ltd.'s desk phones and Zoom's Zero Touch Provisioning feature can gain full remote control of the devices,"

AVRecon Botnet Leveraging Compromised Routers to Fuel Illegal Proxy Service

By THN
More details have emerged about a botnet called AVRecon, which has been observed making use of compromised small office/home office (SOHO) routers as part of a multi-year campaign active since at least May 2021. AVRecon was first disclosed by Lumen Black Lotus Labs earlier this month as malware capable of executing additional commands and stealing victim's bandwidth for what appears to be an

Who and What is Behind the Malware Proxy Service SocksEscort?

By BrianKrebs

Researchers this month uncovered a two-year-old Linux-based remote access trojan dubbed AVrecon that enslaves Internet routers into botnet that bilks online advertisers and performs password-spraying attacks. Now new findings reveal that AVrecon is the malware engine behind a 12-year-old service called SocksEscort, which rents hacked residential and small business devices to cybercriminals looking to hide their true location online.

Image: Lumen’s Black Lotus Labs.

In a report released July 12, researchers at Lumen’s Black Lotus Labs called the AVrecon botnet “one of the largest botnets targeting small-office/home-office (SOHO) routers seen in recent history,” and a crime machine that has largely evaded public attention since first being spotted in mid-2021.

“The malware has been used to create residential proxy services to shroud malicious activity such as password spraying, web-traffic proxying and ad fraud,” the Lumen researchers wrote.

Malware-based anonymity networks are a major source of unwanted and malicious web traffic directed at online retailers, Internet service providers (ISPs), social networks, email providers and financial institutions. And a great many of these “proxy” networks are marketed primarily to cybercriminals seeking to anonymize their traffic by routing it through an infected PC, router or mobile device.

Proxy services can be used in a legitimate manner for several business purposes — such as price comparisons or sales intelligence — but they are massively abused for hiding cybercrime activity because they make it difficult to trace malicious traffic to its original source. Proxy services also let users appear to be getting online from nearly anywhere in the world, which is useful if you’re a cybercriminal who is trying to impersonate someone from a specific place.

Spur.us, a startup that tracks proxy services, told KrebsOnSecurity that the Internet addresses Lumen tagged as the AVrecon botnet’s “Command and Control” (C2) servers all tie back to a long-running proxy service called SocksEscort.

SocksEscort[.]com, is what’s known as a “SOCKS Proxy” service. The SOCKS (or SOCKS5) protocol allows Internet users to channel their Web traffic through a proxy server, which then passes the information on to the intended destination. From a website’s perspective, the traffic of the proxy network customer appears to originate from a rented/malware-infected PC tied to a residential ISP customer, not from the proxy service customer.

The SocksEscort home page says its services are perfect for people involved in automated online activity that often results in IP addresses getting blocked or banned, such as Craigslist and dating scams, search engine results manipulation, and online surveys.

Spur tracks SocksEscort as a malware-based proxy offering, which means the machines doing the proxying of traffic for SocksEscort customers have been infected with malicious software that turns them into a traffic relay. Usually, these users have no idea their systems are compromised.

Spur says the SocksEscort proxy service requires customers to install a Windows based application in order to access a pool of more than 10,000 hacked devices worldwide.

“We created a fingerprint to identify the call-back infrastructure for SocksEscort proxies,” Spur co-founder Riley Kilmer said. “Looking at network telemetry, we were able to confirm that we saw victims talking back to it on various ports.”

According to Kilmer, AVrecon is the malware that gives SocksEscort its proxies.

“When Lumen released their report and IOCs [indicators of compromise], we queried our system for which proxy service call-back infrastructure overlapped with their IOCs,” Kilmer continued. “The second stage C2s they identified were the same as the IPs we labeled for SocksEscort.”

Lumen’s research team said the purpose of AVrecon appears to be stealing bandwidth – without impacting end-users – in order to create a residential proxy service to help launder malicious activity and avoid attracting the same level of attention from Tor-hidden services or commercially available VPN services.

“This class of cybercrime activity threat may evade detection because it is less likely than a crypto-miner to be noticed by the owner, and it is unlikely to warrant the volume of abuse complaints that internet-wide brute-forcing and DDoS-based botnets typically draw,” Lumen’s Black Lotus researchers wrote.

Preserving bandwidth for both customers and victims was a primary concern for SocksEscort in July 2022, when 911S5 — at the time the world’s largest known malware proxy network — got hacked and imploded just days after being exposed in a story here. Kilmer said after 911’s demise, SocksEscort closed its registration for several months to prevent an influx of new users from swamping the service.

Danny Adamitis, principal information security researcher at Lumen and co-author of the report on AVrecon, confirmed Kilmer’s findings, saying the C2 data matched up with what Spur was seeing for SocksEscort dating back to September 2022.

Adamitis said that on July 13 — the day after Lumen published research on AVrecon and started blocking any traffic to the malware’s control servers — the people responsible for maintaining the botnet reacted quickly to transition infected systems over to a new command and control infrastructure.

“They were clearly reacting and trying to maintain control over components of the botnet,” Adamitis said. “Probably, they wanted to keep that revenue stream going.”

Frustratingly, Lumen was not able to determine how the SOHO devices were being infected with AVrecon. Some possible avenues of infection include exploiting weak or default administrative credentials on routers, and outdated, insecure firmware that has known, exploitable security vulnerabilities.

WHO’S BEHIND SOCKSESCORT?

KrebsOnSecurity briefly visited SocksEscort last year and promised a follow-up on the history and possible identity of its proprietors. A review of the earliest posts about this service on Russian cybercrime forums suggests the 12-year-old malware proxy network is tied to a Moldovan company that also offers VPN software on the Apple Store and elsewhere.

SocksEscort began in 2009 as “super-socks[.]com,” a Russian-language service that sold access to thousands of compromised PCs that could be used to proxy traffic. Someone who picked the nicknames “SSC” and “super-socks” and email address “michvatt@gmail.com” registered on multiple cybercrime forums and began promoting the proxy service.

According to DomainTools.com, the apparently related email address “michdomain@gmail.com” was used to register SocksEscort[.]com, super-socks[.]com, and a few other proxy-related domains, including ip-score[.]com, segate[.]org seproxysoft[.]com, and vipssc[.]us. Cached versions of both super-socks[.]com and vipssc[.]us show these sites sold the same proxy service, and both displayed the letters “SSC” prominently at the top of their homepages.

Image: Archive.org. Page translation from Russian via Google Translate.

According to cyber intelligence firm Intel 471, the very first “SSC” identity registered on the cybercrime forums happened in 2009 at the Russian language hacker community Antichat, where SSC asked fellow forum members for help in testing the security of a website they claimed was theirs: myiptest[.]com, which promised to tell visitors whether their proxy address was included on any security or anti-spam block lists.

Myiptest[.]com is no longer responding, but a cached copy of it from Archive.org shows that for about four years it included in its HTML source a Google Analytics code of US-2665744, which was also present on more than a dozen other websites.

Most of the sites that once bore that Google tracking code are no longer online, but nearly all of them centered around services that were similar to myiptest[.]com, such as abuseipdb[.]com, bestiptest[.]com, checkdnslbl[.]com, dnsbltools[.]com and dnsblmonitor[.]com.

Each of these services were designed to help visitors quickly determine whether the Internet address they were visiting the site from was listed by any security firms as spammy, malicious or phishous. In other words, these services were designed so that proxy service users could easily tell if their rented Internet address was still safe to use for online fraud.

Another domain with the Google Analytics code US-2665744 was sscompany[.]net. An archived copy of the site says SSC stands for “Server Support Company,” which advertised outsourced solutions for technical support and server administration.

Leaked copies of the hacked Antichat forum indicate the SSC identity registered on the forum using the IP address 71.229.207.214. That same IP was used to register the nickname “Deem3n®,” a prolific poster on Antichat between 2005 and 2009 who served as a moderator on the forum.

There was a Deem3n® user on the webmaster forum Searchengines.guru whose signature in their posts says they run a popular community catering to programmers in Moldova called sysadmin[.]md, and that they were a systems administrator for sscompany[.]net.

That same Google Analytics code is also now present on the homepages of wiremo[.]co and a VPN provider called HideIPVPN[.]com.

Wiremo sells software and services to help website owners better manage their customer reviews. Wiremo’s Contact Us page lists a “Server Management LLC” in Wilmington, DE as the parent company. Server Management LLC is currently listed in Apple’s App Store as the owner of a “free” VPN app called HideIPVPN.

“The best way to secure the transmissions of your mobile device is VPN,” reads HideIPVPN’s description on the Apple Store. “Now, we provide you with an even easier way to connect to our VPN servers. We will hide your IP address, encrypt all your traffic, secure all your sensitive information (passwords, mail credit card details, etc.) form [sic] hackers on public networks.”

When asked about the company’s apparent connection to SocksEscort, Wiremo responded, “We do not control this domain and no one from our team is connected to this domain.” Wiremo did not respond when presented with the findings in this report.

FIN8 Group Using Modified Sardonic Backdoor for BlackCat Ransomware Attacks

By THN
The financially motivated threat actor known as FIN8 has been observed using a "revamped" version of a backdoor called Sardonic to deliver the BlackCat ransomware. According to the Symantec Threat Hunter Team, part of Broadcom, the development is an attempt on the part of the e-crime group to diversify its focus and maximize profits from infected entities. The intrusion attempt took place in

Black Hat Arsenal MEA Riyadh 2023 – Call For Tools Open

By NJ Ouchn
Black Hat MEA Arsenal is a space for developers to showcase the latest open-source tools

BlackCat Operators Distributing Ransomware Disguised as WinSCP via Malvertising

By Ravie Lakshmanan
Threat actors associated with the BlackCat ransomware have been observed employing malvertising tricks to distribute rogue installers of the WinSCP file transfer application. "Malicious actors used malvertising to distribute a piece of malware via cloned webpages of legitimate organizations," Trend Micro researchers said in an analysis published last week. "In this case, the distribution

State-Sponsored Sidewinder Hacker Group's Covert Attack Infrastructure Uncovered

By Ravie Lakshmanan
Cybersecurity researchers have unearthed previously undocumented attack infrastructure used by the prolific state-sponsored group SideWinder to strike entities located in Pakistan and China. This comprises a network of 55 domains and IP addresses used by the threat actor, cybersecurity companies Group-IB and Bridewell said in a joint report shared with The Hacker News. "The identified phishing

Industrial Cellular Routers at Risk: 11 New Vulnerabilities Expose OT Networks

By Ravie Lakshmanan
Several security vulnerabilities have been disclosed in cloud management platforms associated with three industrial cellular router vendors that could expose operational technology (OT) networks to external attacks. The findings were presented by Israeli industrial cybersecurity firm OTORIO at the Black Hat Asia 2023 conference last week. "Industrial cellular routers and gateways are essential

Microsoft Patch Tuesday, May 2023 Edition

By BrianKrebs

Microsoft today released software updates to fix at least four dozen security holes in its Windows operating systems and other software, including patches for two zero-day vulnerabilities that are already being exploited in active attacks.

First up in May’s zero-day flaws is CVE-2023-29336, which is an “elevation of privilege” weakness in Windows which has a low attack complexity, requires low privileges, and no user interaction. However, as the SANS Internet Storm Center points out, the attack vector for this bug is local.

“Local Privilege escalation vulnerabilities are a key part of attackers’ objectives,” said Kevin Breen, director of cyber threat research at Immersive Labs. “Once they gain initial access they will seek administrative or SYSTEM-level permissions. This can allow the attacker to disable security tooling and deploy more attacker tools like Mimikatz that lets them move across the network and gain persistence.”

The zero-day patch that has received the most attention so far is CVE-2023-24932, which is a Secure Boot Security Feature Bypass flaw that is being actively exploited by “bootkit” malware known as “BlackLotus.” A bootkit is dangerous because it allows the attacker to load malicious software before the operating system even starts up.

According to Microsoft’s advisory, an attacker would need physical access or administrative rights to a target device, and could then install an affected boot policy. Microsoft gives this flaw a CVSS score of just 6.7, rating it as “Important.”

Adam Barnett, lead software engineer at Rapid7, said CVE-2023-24932 deserves a considerably higher threat score.

“Microsoft warns that an attacker who already has Administrator access to an unpatched asset could exploit CVE-2023-24932 without necessarily having physical access,” Barnett said. “Therefore, the relatively low CVSSv3 base score of 6.7 isn’t necessarily a reliable metric in this case.”

Barnett said Microsoft has provided a supplementary guidance article specifically calling out the threat posed by BlackLotus malware, which loads ahead of the operating system on compromised assets, and provides attackers with an array of powerful evasion, persistence, and Command & Control (C2) techniques, including deploying malicious kernel drivers, and disabling Microsoft Defender or Bitlocker.

“Administrators should be aware that additional actions are required beyond simply applying the patches,” Barnett advised. “The patch enables the configuration options necessary for protection, but administrators must apply changes to UEFI config after patching. The attack surface is not limited to physical assets, either; Windows assets running on some VMs, including Azure assets with Secure Boot enabled, also require these extra remediation steps for protection. Rapid7 has noted in the past that enabling Secure Boot is a foundational protection against driver-based attacks. Defenders ignore this vulnerability at their peril.”

In addition to the two zero-days fixed this month, Microsoft also patched five remote code execution (RCE) flaws in Windows, two of which have notably high CVSS scores.

CVE-2023-24941 affects the Windows Network File System, and can be exploited over the network by making an unauthenticated, specially crafted request. Microsoft’s advisory also includes mitigation advice. The CVSS for this vulnerability is 9.8 – the highest of all the flaws addressed this month.

Meanwhile, CVE-2023-28283 is a critical bug in the Windows Lightweight Directory Access Protocol (LDAP) that allows an unauthenticated attacker to execute malicious code on the vulnerable device. The CVSS for this vulnerability is 8.1, but Microsoft says exploiting the flaw may be tricky and unreliable for attackers.

Another vulnerability patched this month that was disclosed publicly before today (but not yet seen exploited in the wild) is CVE-2023-29325, a weakness in Microsoft Outlook and Explorer that can be exploited by attackers to remotely install malware. Microsoft says this vulnerability can be exploited merely by viewing a specially-crafted email in the Outlook Preview Pane.

“To help protect against this vulnerability, we recommend users read email messages in plain text format,” Microsoft’s writeup on CVE-2023-29325 advises.

“If an attacker were able to exploit this vulnerability, they would gain remote access to the victim’s account, where they could deploy additional malware,” Immersive’s Breen said. “This kind of exploit will be highly sought after by e-crime and ransomware groups where, if successfully weaponized, could be used to target hundreds of organizations with very little effort.”

For more details on the updates released today, check out roundups by Action1, Automox and Qualys, 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.

Google Gets Court Order to Take Down CryptBot That Infected Over 670,000 Computers

By Ravie Lakshmanan
Google on Wednesday said it obtained a temporary court order in the U.S. to disrupt the distribution of a Windows-based information-stealing malware called CryptBot and "decelerate" its growth. The tech giant's Mike Trinh and Pierre-Marc Bureau said the efforts are part of steps it takes to "not only hold criminal operators of malware accountable, but also those who profit from its distribution.

Attention gamers! Motherboard maker MSI admits to breach, issues “rogue firmware” alert

By Paul Ducklin
Stealing private keys is like getting hold of a medieval monarch's personal signet ring... you get to put an official seal on treasonous material.

A Serial Tech Investment Scammer Takes Up Coding?

By BrianKrebs

John Clifton Davies, a 60-year-old con man from the United Kingdom who fled the country in 2015 before being sentenced to 12 years in prison for fraud, has enjoyed a successful life abroad swindling technology startups by pretending to be a billionaire investor. Davies’ newest invention appears to be “CodesToYou,” which purports to be a “full cycle software development company” based in the U.K.

The scam artist John Bernard a.k.a. Alan John Mykailov (left) in a recent Zoom call, and a mugshot of John Clifton Davies from nearly a decade earlier.

Several articles here have delved into the history of John Bernard, the pseudonym used by a fake billionaire technology investor who tricked dozens of startups into giving him tens of millions of dollars.

John Bernard’s real name is John Clifton Davies, a convicted fraudster from the United Kingdom who is currently a fugitive from justice. For several years until reinventing himself again quite recently, Bernard pretended to be a billionaire Swiss investor who made his fortunes in the dot-com boom 20 years ago.

The Private Office of John Bernard” let it be known to investment brokers that he had tens of millions of dollars to invest in tech startups, and he attracted a stream of new victims by offering extraordinarily generous finder’s fees to brokers who helped him secure new clients. But those brokers would eventually get stiffed because Bernard’s company would never consummate a deal.

John Bernard’s former website, where he pretended to be a billionaire tech investor.

Bernard would promise to invest millions in tech startups, and then insist that companies pay tens of thousands of dollars worth of due diligence fees up front. However, the due diligence company he insisted on using — another Swiss firm called The Inside Knowledge GmbH — also was secretly owned by Bernard, who would invariably pull out of the deal after receiving the due diligence money.

A variety of clues suggest Davies has recently adopted at least one other identity — Alan John Mykhailov — who is listed as chairman of a British concern called CodesToYou LTD, incorporated in May 2022. The CodesToYou website says the company employs talented coders in several countries, and that its programmers offer “your ultimate balance between speed, cost and quality.”

The team from CodesToYou.

In response to questions from KrebsOnSecurity, CodesToYou’s marketing manager — who gave their name only as “Zhena” — said the company was not affiliated with any John Bernard or John Clifton Davies, and maintained that CodesToYou is a legitimate enterprise.

But publicly available information about this company and its leadership suggests otherwise. Official incorporation documents from the U.K.’s Companies House represent that CodesToYou is headed by an Alan John Mykhailov, a British citizen born in March 1958.

Companies House says Mykhailov is an officer in three other companies, including one called Blackstone Corporate Alliance Ltd. According to the Swiss business tracking service business-monitor.ch, Blackstone Corporate Alliance Ltd. is currently the entity holding a decision-making role in John Bernard’s fake due diligence company — The Inside Knowledge GmbH — which is now in liquidation.

A screen shot of the stock photos and corporate-speak on John Bernard’s old website. Image: Archive.org

Also listed as a partner in Blackstone Corporate Alliance Limited is Igor Hubskyi (a.k.a. Igor Gubskyi), a Ukrainian man who was previously president of The Inside Knowledge GmbH.

The CodesToYou website says the company’s marketing team lead is Maria Yakovleva, and the photo of this employee matches the profile for the LinkedIn account name “Maria Y.” That same LinkedIn profile and photo previously listed Maria by a different first and last name — Mariya Kulikova; back then, Ms. Kulikova’s LinkedIn profile said she was an executive assistant in The Private Office of Mr. John Bernard.

Companies House lists Alan John Mykhailov as a current officer in two other companies, including Frisor Limited, and Ardelis Solutions Limited. A cached copy of the now-defunct Ardelis Solutions website says it was a private equity firm.

CodesToYou’s Maria also included Ardelis Solutions in the work history section of her LinkedIn resume. That is, until being contacted by this author on LinkedIn, after which Maria’s profile picture and any mention of Ardelis Solutions were deleted.

Listed as head of business development at CodesToYou is David Bruno, a Canadian man whose LinkedIn profile says he is founder of an organization called “World Privacy Resource.” As KrebsOnSecurity reported in 2020, Bruno was at the time promoting himself as the co-CEO of a company called SafeSwiss Secure Communication AG, and the founder of another tech startup called Secure Swiss Data.

Secure Swiss Data’s domain — secureswissdata.com — is a Swiss concern that sells encrypted email and data services. According to DomainTools.com, that website name was registered in 2015 by The Inside Knowledge GmbH. In February 2020, a press release announced that Secure Swiss Data was purchased in an “undisclosed multimillion buyout” by SafeSwiss Secure Communication AG.

A cached copy of the Ardelis Solutions website, which said it was a private equity firm and included similar stock images as John Bernard’s investment website.

When reached in 2020 and asked about his relationship to Mr. Bernard, Mr. Bruno said the two were business partners and that he couldn’t imagine that Mr. Bernard would be involved in anything improper. To this day Mr. Bruno is the only person I’ve spoken to who has had anything positive to say about Mr. Bernard.

Mr. Bruno did not respond to requests for comment this time around, but his LinkedIn profile no longer makes any mention of Secure Swiss Data or SafeSwiss — both companies he claimed to run for many years. Nor does it mention CodesToYou. However, Mr. Bruno’s former company SafeSwiss is listed as one of the six “portfolio” companies whose services are promoted on the CodesToYou website.

In mid-2021, Bruno announced he was running for public office in Ontario.

“The Kenora resident is no stranger to the government as he contributed to Canada’s new Digital Charter, Bill C-11, which is a new Cyber Security policy,” reported Drydennow.com, a news website that covers Northwestern Ontario. Drydennow says the next federal election is expected to be held on or before Oct. 16, 2023.

John Clifton Davies was convicted in 2015 of swindling businesses throughout the U.K. that were struggling financially and seeking to restructure their debt. For roughly six years, Davies ran a series of firms that pretended to offer insolvency services, but instead simply siphoned what little remaining money these companies had.

The very first entity mentioned in the technology portfolio advertised on the CodesToYou website is called “MySolve,” and it purports to offer a “multi-feature platform for insolvency practitioners.”

Mr. Davies’ fourth wife, Iryna Davies, is listed as a director of one of the insolvency consulting businesses in the U.K. that was part of John Davies’ 2015 fraud conviction. Prior to his trial for fraud, Davies served 16 months in jail before being cleared of murdering his third wife on their honeymoon in India: Colette Davies, 39, died after falling 80 feet from a viewing point at a steep gorge in the Himachal Pradesh region of India.

Mr. Davies was charged with murder and fraud after he attempted to collect GBP 132,000 in her life insurance payout, but British prosecutors ultimately conceded they did not have enough evidence to convict him.

The scams favored by Davies and his alter egos are smart because he never approaches investors directly; rather, investors are incentivized to put his portfolio in front of tech firms seeking financial backing. And all the best cons begin as an idea or possibility planted in the target’s mind.

It’s also a reliable scam because companies bilked by small-time investment schemes rarely pursue legal action, mainly because the legal fees involved can quickly surpass the losses. On top of that, many victims will likely be too ashamed to admit their duping. Victims who do press their case in court and win then face the daunting challenge of collecting damages from a slew of ephemeral shell corporations.

The latest Bernard victim to speak publicly — a Norwegian company hoping to build a fleet of environmentally friendly shipping vessels — is now embroiled in a lawsuit over a deal gone bad. As part of that scam, Bernard falsely claimed to have secured $100 million from six other wealthy investors, including the founder of Uber and the artist Abel Makkonen Tesfaye, better known as The Weeknd.

APT-C-36 Strikes Again: Blind Eagle Hackers Target Key Industries in Colombia

By Ravie Lakshmanan
The threat actor known as Blind Eagle has been linked to a new campaign targeting various key industries in Colombia. The activity, which was detected by the BlackBerry Research and Intelligence Team on February 20, 2023, is also said to encompass Ecuador, Chile, and Spain, suggesting a slow expansion of the hacking group's victimology footprint. Targeted entities include health, financial, law

VMware Patches Critical Vulnerability in Carbon Black App Control Product

By Ravie Lakshmanan
VMware on Tuesday released patches to address a critical security vulnerability affecting its Carbon Black App Control product. Tracked as CVE-2023-20858, the shortcoming carries a CVSS score of 9.1 out of a maximum of 10 and impacts App Control versions 8.7.x, 8.8.x, and 8.9.x. The virtualization services provider describes the issue as an injection vulnerability. Security researcher Jari

Black Hat Europe 2022 NOC: The SOC Inside the NOC

By Jessica Bair

Our core mission in the NOC is network resilience. We also provide integrated security, visibility and automation, a SOC inside the NOC.

In part one, we covered:

  • Designing the Black Hat Network, by Evan Basta
  • AP Placement Planning, by Sandro Fasser
  • Wi-Fi Air Marshal, by Jérémy Couture, Head of SOC, Paris 2024 Olympic Games
  • Meraki Dashboards, by Rossi Rosario Burgos
  • Meraki Systems Manager, by Paul Fidler
  • A Better Way to Design Training SSIDs/VLANs, by Paul Fidler

In part two, we are going deep with security:

  • Integrating Security
  • First Time at Black Hat, by Jérémy Couture, Head of SOC, Paris 2024 Olympic Games
  • Trojan on an Attendee Laptop, by Ryan MacLennan
  • Automated Account Provisioning, by Adi Sankar
  • Integrating Meraki Scanning Data with Umbrella Security Events, by Christian Clasen
  • Domain Name Service Statistics, by Adi Sankar

Integrating Security

As the needs of Black Hat evolved, so did the Cisco Secure Technologies in the NOC:

The SecureX dashboard made it easy to see the status of each of the connected Cisco Secure technologies.

Since joining the Black Hat NOC in 2016, my goal remains integration and automation. As a NOC team comprised of many technologies and companies, we are pleased that this Black Hat NOC was the most integrated to date, to provide an overall SOC cybersecurity architecture solution.

We have ideas for even more integrations for Black Hat Asia and Black Hat USA 2023. Thank you, Piotr Jarzynka, for designing the integration diagram.

Below are the SecureX threat response integrations for Black Hat Europe, empowering analysts to investigate Indicators of Compromise very quickly, with one search.

The original Black Hat NOC integration for Cisco was NetWitness sending suspicious files to Threat Grid (know Secure Malware Analytics). We expanded that in 2022 with Palo Alto Networks Cortex XSOAR and used it in London, for investigation of malicious payload attack.

NetWitness observed a targeted attack against the Black Hat network. The attack was intended to compromise the network.

NetWitness extracted the payload and sent it to Secure Malware Analytics for detonation.

Reviewing the analysis report, we were able to quickly determine it was the MyDoom worm, which would have been very damaging.

The attack was blocked at the perimeter and the analysts were able to track and enrich the incident in XSOAR.

First Time at Black Hat, by Jérémy Couture, Head of SOC, Paris 2024 Olympic Games

My first time at Black Hat turned out to be an incredible journey!

Thanks to the cybersecurity partnership between Paris 2024 and Cisco, I was able to integrate into the Cisco Crew, to operate the NOC/SOC as a Threat Hunter on the most dangerous network in the world for this European Edition of Black Hat.

My first day, I helped with deploying the network by installing the wireless Meraki APs on the venue, understanding how they were configured and how they could help analysts to identify and locate any client connected to the network that could have a bad behavior during the event, the idea being to protect the attendees if an attack was to spray on the network.

Following this “physical” deployment, I’ve been able to access the whole Cisco Secure environment including Meraki, Secure Malware Analytics, Umbrella, SecureX and the other Black Hat NOC partners software tools.

SecureX was definitely the product on which I wanted to step up. By having so fantastic professionals around me, we were able to dig in the product, identifying potential use cases to deploy in the orchestration module and expected integrations for Paris 2024.

Time was flying and so were the attendees to the conference, a network without user is fun but can be quite boring as nothing happens, having so many cybersecurity professional at the same place testing different security malwares, attacks and so on led us to very interesting investigations. A paradox at the Black Hat, we do not want to block malicious content as it could be part of exercises or training classes, quite a different mindset as what we, security defenders, are used to! Using the different components, we were able to find some observables/IOCs that we investigate through SecureX, SecureX being connected to all the other components helped us to enrich the observables (IPs, urls, domains…), understanding the criticality of what we identified (such as malware payloads) and even led us to poke the folks in the training classes to let them know that something really wrong was happening on their devices.

Being part of the Black Hat NOC was an incredible experience, I was able to meet fantastic professionals, fully committed on making the event a success for all attendees and exhibitors. It also helped me to better understand how products, that we use or will use within Paris 2024, could be leveraged to our needs and which indicators could be added to our various Dashboards, helping us to identify, instantaneously, that something is happening. 

Trojan on an Attendee Laptop, by Ryan MacLennan

During the last day of Black Hat Europe, our NOC partner, NetWitness saw some files being downloaded on the network. The integration again automatically carved out the file and submitted the Cisco Secure Malware Analytics (SMA) platform. One of those files came back as a trojan, after SMA detonated the file in a sandbox environment. The specific hash is the below SHA-256:

938635a0ceed453dc8ff60eab20c5d168a882bdd41792e5c5056cc960ebef575

The screenshot below shows some of the behaviors that influenced the decision:

The result of seeing these behaviors caused SMA to give it the highest judgement score available to a detonated file:

After this judgement was made, we connected with the Palo Alto Networks team, and they found the IP address associated with the file download.

Once we had this information, we went to the Meraki dashboard and did a search for the IP address. The search returned only one client that has been associated with the address for the entire Black Hat conference.

Knowing that there has only been one client associated with the address made finding the attendee easier. We then needed to know where they were and Meraki had this figured out. After opening the client’s profile, we saw what SSID and access point (AP) they were connected to using the Meraki location map.

We then found the attendee and let them know to have their IT inspect their laptop to make sure it is clean.

Apart from the technical challenges of running a temporary network for N thousand people, the Black Hat event reminded us that success doesn’t happen without teamwork; that leadership isn’t just about keeping the project on track. It is also about looking after the team and that small details in planning, build up and tear down can be just as important, as having all the right tools and fantastically skilled Individuals using them during the event itself.

Automated Account Provisioning, by Adi Sankar

In the Cisco Secure technology stack, within the Black Hat NOC, we use SecureX Single Sign-on. This reduces the confusion of managing multiple accounts and passwords. It also streamlines the integrations between the Cisco products and our fellow NOC partners. We have an open ecosystem approach to integrations and access in the NOC, so we will provision Cisco Secure accounts for any staff member of the NOC. Logging into each individual console and creating an account is time consuming and can often lead to confusion on which tools to provision and which permission levels are needed.

To automate this process, I developed two workflows: one to create non-admin users for NOC partners and one to create administrator accounts in all the tools for Cisco staff. The workflows create accounts in SecureX, Secure Malware Analytics (Threat Grid), Umbrella DNS and Meraki dashboard, all using SecureX Single Sign-On.

Here is what the workflow looks like for creating non-admin users.

The workflow requires three inputs: first name, last name, and email. Click Run.

The sequence of API calls is as follows:

  • Generate a SecureX token to access the SecureX API including the “admin/invite:write, invite:write” scopes.
  • Invite the User to SecureX using the invite API (https://visibility.amp.cisco.com/iroh/invite/index.html#/). In the body of this POST the role is set to “user”. In the Administrator workflow this would be set to “admin” allowing full access to SecureX.
  • If the invite fails due to a duplicate invite, print an error message in Webex teams.
  • Invite the user to the Meraki dashboard using the “admins” API (https://api.meraki.com/api/v1/organizations/{organizationId}/admins). In the body of this call, the organization access is set to none, and access to two networks (Wireless network and Systems Manager) are set to “read-only” to ensure the user cannot make any changes to affect the network. In the Administrator version org access is still set to none but “full” permissions are provided to the two networks, something we do not want all users to have.
  • Generate a token to the new Umbrella API using https://api.umbrella.com/auth/v2/token with the following scopes (read admin users, write admin users, read admin roles). This single endpoint for generating a token based on scopes has made using the Umbrella API significantly easier.
  • Then invite the user to Umbrella using the “admins” API at (https://api.umbrella.com/admin/v2/users) and in the body of this POST the “role ID” is set to 2 to ensure read-only permissions are provisioned for Umbrella.
  • Create a user in Secure Malware analytics using the API at (https://panacea.threatgrid.com/api/v3/organizations/<ORG_ID>/users). The body of this request simply creates a Malware Analytics login using the users last name and appending “_blackhat”
  • The last call is to send a password reset email for the Malware Analytics user. (https://panacea.threatgrid.com/api/v3/users/<LOGIN>/password-email) They can set their password via the email, login to the Malware Analytics console and then link their SecureX sign-on account, which means they will no longer need to use their Malware Analytics credentials.

Once the workflow has completed successfully, the user will receive four emails to create a SecureX Sign-On account and accept the invitations to the various products. These workflows really improved our responsiveness to account provisioning requests and makes it much easier to collaborate with other NOC partners.

Integrating Meraki Scanning Data with Umbrella Security Events, by Christian Clasen

Over the previous Black Hat events, we have been utilizing Meraki scanning data to get location data for individual clients, as they roamed conference. In the initial blog post (Black Hat Asia 2022), we created a Docker container to accept the data from the Meraki Scanning API and save it for future analysis. At Black Hat USA 2022, we wrote about how to use Python Folium to use the flat text files to generate chronological heatmaps that illustrated the density of clients throughout the conference.

This time around, we’ve stepped it up again by integrating Umbrella DNS Security events and adding the ability to track clients across the heatmap using their local IP address.

To improve the portability of our data and the efficiency of our code, we began by moving from flat JSON files to a proper database. We chose SQLite this time around, though going forward we will likely use Mongo.

Both can be queried directly into Python Pandas dataframes which is what will give us the optimal performance we are looking for. We have a dedicated Docker container (Meraki-Receiver) that will validate the incoming data stream from the Meraki dashboard and insert the values into the database.

The database is stored on a Docker volume that can be mounted by our second container, the Meraki-Mapper. Though this container’s primary purpose is building the heatmaps, it also performs the task of retrieving and correlating Umbrella DNS security events. That is, any DNS query from the Black Hat network that matches one of several predefined security categories. Umbrella’s APIs were recently improved to add OAuth and simplify the URI scheme for each endpoint. After retrieving a token, we can get all security events in the time frame of the current heatmap with one call.

What we want to do with these events is to create Folium Markers. These are static “pins” that will sit on the map to indicate where the DNS query originated from. Clicking on a marker will popup more information about the query and the client who sent it.

Thanks to the Umbrella Virtual Appliances in the Black Hat network, we have the internal IP address of the client who sent the DNS query. We also have the internal IP address in the Meraki scanning data, along with the latitude and longitude. After converting the database query into a Pandas dataframe, our logic takes the IP address from the DNS query and finds all instances in the database of location data for that IP within a 5-minute window (the resolution of our heatmap).

What we end up with is a list of dictionaries representing the markers we want to add to the map. Using Bootstrap, we can format the popup for each event to make it look a bit more polished. Folium’s Popup plugin allows for an iFrame for each marker popup.

The result is a moving heatmap covering an entire day on a given conference floor, complete with markers indicating security events (the red pushpin icon).

Clicking on the pushpin shows the details of the query, allowing us in the NOC to see the exact location of the client when they sent it.

To further improve this service during the next conference, we plan to implement a web page where NOC staff can submit an IP address and immediately get map tracking that client through the conference floor. This should give us an even more efficient way to find and notify folks who are either behaving maliciously or appear to be infected.

Domain Name Service Statistics, by Adi Sankar

For years we have been tracking the DNS stats at the Blackhat conferences. The post-pandemic 2022 numbers look like we never skipped a beat after the dip in DNS queries from 2021, seen in the bar graph below. This year’s attendance saw well over 11 million total DNS queries.

The Activity volume view from Umbrella gives a top-level level glance of activity by category, which we can drill into for deeper threat hunting. On trend with the previous Black Hat Europe events, the top Security categories were Dynamic DNS and Newly Seen Domains. However, it’s worth noting a proportionally larger increase in the cryptomining and phishing categories from 9 to 17 and 28 to 73, respectively, compared to last year.

These years, Black Hat saw over 4,100 apps connect to the network, which is nearly double of what was seen last year. However, still not topping over 6,100 apps seen at Black Hat USA early this year.

Should the need arise, we can block any application, such as Mail.ru above.

Black Hat Europe 2022 was the best planned and executed NOC in my experience, with the most integrations and visibility. This allowed us the time to deal with problems, which will always arise.

We are very proud of the collaboration of the team and the NOC partners.

Black Hat Asia will be in May 2023, at the Marina Bay Sands, Singapore…hope to see you there!

Acknowledgments

Thank you to the Cisco NOC team:

  • Cisco Secure: Ian Redden, Christian Clasen, Aditya Sankar, Ryan MacLennan, Guillaume Buisson, Jerome Schneider, Robert Taylor, Piotr Jarzynka, Tim Wadhwa-Brown and Matthieu Sprunck
  • Threat Hunter / Paris 2024 Olympics SOC: Jérémy Couture
  • Meraki Network: Evan Basta, Sandro Fasser, Rossi Rosario Burgos, Otis Ioannou, Asmae Boutkhil, Jeffry Handal and Aleksandar Dimitrov Vladimirov
  • Meraki Systems Manager: Paul Fidler

Also, to our NOC partners NetWitness (especially David Glover, Iain Davidson, Alessandro Contini and Alessandro Zatti), Palo Alto Networks (especially James Holland, Matt Ford, Matt Smith and Mathew Chase), Gigamon, IronNet, and the entire Black Hat / Informa Tech staff (especially Grifter ‘Neil Wyler’, Bart Stump, Steve Fink, James Pope, Jess Stafford and Steve Oldenbourg).

About Black Hat

For 25 years, Black Hat has provided attendees with the very latest in information security research, development, and trends. These high-profile global events and trainings are driven by the needs of the security community, striving to bring together the best minds in the industry. Black Hat inspires professionals at all career levels, encouraging growth and collaboration among academia, world-class researchers, and leaders in the public and private sectors. Black Hat Briefings and Trainings are held annually in the United States, Europe and USA. More information is available at: blackhat.com. Black Hat is brought to you by Informa Tech.


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Black Hat Europe 2022 NOC: When planning meets execution

By Jessica Bair

In this blog about the design, deployment and automation of the Black Hat network, we have the following sections:

  • Designing the Black Hat Network, by Evan Basta
  • AP Placement Planning, by Sandro Fasser
  • Wi-Fi Air Marshal, by Jérémy Couture, Head of SOC, Paris 2024 Olympic Games
  • Meraki Dashboards, by Rossi Rosario Burgos
  • Meraki Systems Manager, by Paul Fidler
  • A Better Way to Design Training SSIDs/VLANs, by Paul Fidler

Cisco is honored to be a Premium Partner of the Black Hat NOC, and is the Official Network Platform, Mobile Device Management, Malware Analysis and DNS (Domain Name Service) Provider of Black Hat.

2022 was Cisco’s sixth year as a NOC partner for Black Hat Europe. However, it was our first time building the network for Black Hat Europe. We used experiences of Black Hat Asia 2022 and Black Hat USA 2022 to refine the planning for network topology design and equipment. Below are our fellow NOC partners providing hardware, to build and secure the network, for our joint customer: Black Hat.

Designing the Black Hat Network, by Evan Basta

We are grateful to share that Black Hat Europe 2022 was the smoothest experience we’ve had in the years at Black Hat. This is thanks to the 15 Cisco Meraki and Cisco Secure engineers on site (plus virtually supporting engineers) to build, operate and secure the network; and great NOC leadership and collaborative partners.

To plan, configure, deploy (in two days), maintain resilience, and recover (in four hours) an enterprise class network, took a lot of coordination. We appreciate the Black Hat NOC leadership, Informa and the NOC partners; meeting each week to discuss the best design, staffing, gear selection and deployment, to meet the unique needs of the conference. Check out the “Meraki Unboxed” podcast – Episode 94: Learnings from the Black Hat Europe 2022 Cybersecurity Event

We must allow real malware on the Black Hat network: for training, demonstrations, and briefing sessions; while protecting the attendees from attack within the network from their fellow attendees, and prevent bad actors from using the network to attack the Internet. It is a critical balance to ensure everyone has a safe experience, while still being able to learn from real world malware, vulnerabilities, and malicious websites.

In addition to the weekly meetings with Black Hat and the other partners, the Cisco Meraki engineering team of Sandro Fasser, Rossi Rosario Burgos, Otis Ioannou, Asmae Boutkhil, Jeffry Handal and I met every Friday for two months. We also discussed the challenges in a Webex space with other engineers who worked on past Black Hat events.

The mission:

Division of labor is essential to reduce mistakes and stay laser focused on security scope. Otis took the lead working on network topology design with Partners. Asmae handled the port assignments for the switches. Rossi ensured every AP and Switch was tracked, and the MAC addresses were provided to Palo Alto Networks for DCHP assignments. Otis and Rossi spent two days in the server room with the NOC partners, ensuring every switch was operating and configured correctly. Rossi also deployed and configured a remote Registration switch for Black Hat.

AP Placement Planning, by Sandro Fasser

In the weeks before deployment, our virtual Meraki team member, Aleksandar Dimitrov Vladimirov, and I focused on planning and creating a virtual Wi-Fi site survey. Multiple requirements and restrictions had to be taken into consideration. The report was based on the ExCel centre floor plans, the space allocation requirements from Black Hat and the number of APs we had available to us. Although challenging to create, with some uncertainties and often changing requirements due to the number of stakeholders involved, the surveys AP placement for best coverage ended up being pivotal at the event.

Below is the Signal Strength plan for the Expo Hall Floor on the 5 GHz band. The original plan to go with a dual-Band deployment was adjusted onsite and the 2.4 GHz band was disabled to enhance performance and throughput. This was a decision made during the network setup, in coordination with the NOC Leadership and based on experience from past conferences.

Upon arrival at the ExCel Centre, we conducted a walkthrough of the space that most of us had only seen as a floor plan and on some photos. Thanks to good planning, we could start deploying the 100+ APs immediately, with only a small number of changes to optimize the deployment on-site. As the APs had been pre-staged and added to the Meraki dashboard, including their location on the floor maps, the main work was placing and cabling them physically. During operation, the floor plans in the Meraki Dashboard were a visual help to easily spot a problem and navigate the team on the ground to the right spot, if something had to be adjusted.

As the sponsors and attendees filled each space, in the Meraki dashboard, we were able to see in real-time the number of clients connected to each AP, currently and over the time of the conference. This enabled quick reaction if challenges were identified, or APs could be redeployed to other zones. Below is the ExCel Centre Capital Hall and London Suites, Level 0. We could switch between the four levels with a single click on the Floor Plans, and drill into any AP, as needed.

The Location heatmaps also provided essential visibility into conference traffic, both on the network and footfalls of attendees. Physical security is also an important aspect of cybersecurity; we need to know how devices move in space, know where valuable assets are located and monitor their safety.

Below is the Business Hall at lunchtime, on the opening day of the conference. You can see no live APs in the bottom right corner of the Location heatmap. This is an example of adapting the plan to reality onsite. In past Black Hat Europe conferences, the Lobby in that area was the main entrance. Construction in 2022 closed this entrance. So, those APs were reallocated to the Level 1 Lobby, where attendees would naturally flow from Registration.

The floor plans and heatmaps also helped with the Training, Briefings and Keynote network resilience. Capacity was easy to add temporarily, and we were able to remove it and relocate it after a space emptied.

Meraki API Integration for automatic device blocking

During our time in the NOC, we had the chance to work with other vendor engineers and some use cases that came up led to interesting collaborations. One specific use case was that we wanted to block wireless clients, that show some malicious or bad behavior, automatically after they have been identified by one of the SOC analysts on the different security platforms, in addition we wanted to show them a friendly warning page that guides them to the SOC for a friendly conversation.

The solution was a script that can be triggered thru the interfaces of the other security products and attaches a group policy thru the Meraki Dashboard, including a quarantine VLAN and a splash page, via the Meraki APIs. This integration was just one of the many collaboration bits that we worked on.

Wi-Fi Air Marshal, by Jérémy Couture, Head of SOC, Paris 2024 Olympic Games

During the first day of training, in the Meraki dashboard Air Marshal, I observed packet flood attacks, against we were able to adapt and remain resilient.

I also observed an AP spoofing and broadcast de-authentication attack. I was able to quickly identify the location of the attack, which was at the Lobby outside the Business Hall.  Should the attacks continue, physical security had the information to intervene. We also had the ability to track the MAC address throughout the venue, as discussed in Christian Clasen’s section in part two.

From our experiences at Black Hat USA 2022, we had encrypted frames enabled, blunting the attack.

Meraki Dashboards, by Rossi Rosario Burgos

The Meraki dashboards made it very easy to monitor the health of the network APs and Switches, with the ability to aggregate data, and quickly pivot into any switch, AP or clients.

Through the phases of the conference, from two days of pre-conference setup, to focused and intense training the first two days, and transition to the briefings and Business Hall, we were able to visualize the network traffic.

In addition, we could see the number of attendees who passed through the covered area of the conference, with or without connecting to the network. Christian Clasen takes this available data to a new level in Part 2 of the blog.

As the person with core responsibilities for the switch configuration and uptime, the Meraki dashboard made it very simple to quickly change the network topology, according to the needs of the Black Hat customer.

Meraki Systems Manager, by Paul Fidler

If you refer back to Black Hat USA 2022, you’d have seen that we had over 1,000 iOS devices to deploy, with which we had several difficulties. For context, the company that leases the devices to Black Hat doesn’t use a Mobile Device Management (MDM) platform for any of their other shows…Black Hat is the only one that does. So, instead of using a mass deployment technology, like Apple’s Automated Device Enrollment, the iOS devices are “prepared” using Apple Configurator. This includes uploading a Wi-Fi profile to the devices as part of that process. In Las Vegas, this Wi-Fi profile wasn’t set to auto join the Wi-Fi, resulting in the need to manually change this on 1,000 devices. Furthermore, 200 devices weren’t reset or prepared, so we had those to reimage as well.

Black Hat Europe 2022 was different. We took the lessons from US and coordinated with the contractor to prepare the devices. Now, if you’ve ever used Apple Configurator, there’s several steps needed to prepare a device. However, all of these can be actions can be combined into a Blueprint:

Instead of there being several steps to prepare a device, there is now just one! Applying the Blueprint!

For Black Hat Europe, this included:

  • Wi-Fi profile
  • Enrollment, including supervision
  • Whether to allow USB pairing
  • Setup Assistant pane skipping

There’s lots of other things that can be achieved as well, but this results in the time taken to enroll and set up a device to around 30 seconds. Since devices can be set up in parallel (you’re only limited by the number of USB cables / ports you have), this really streamlines the enrollment and set up process.

Now, for the future, whilst you can’t Export these blueprints, they are transportable. If you open Terminal on a Mac and type:
cd /Users/<YOUR USER NAME>/Library/Group Containers/K36BKF7T3D.group.com.apple.configurator/Library/Application Support/com.apple.configurator/Blueprints

You’ll see a file / package called something.blueprint This can be zipped up and emailed to some else so, they can then use the exact same Blueprint! You may need to reboot your computer for the Blueprint to appear in Apple Configurator.

Device Naming / Lock Screen Messages

As mentioned, the registration / lead capture / session scanning devices are provided by the contractor. Obviously, these are all catalogued and have a unique device code / QR code on the back of them. However, during setup, any device name provisioned on the device gets lost.

So, there’s three things we do to know, without having to resort to using the unwieldy serial number, what devices is what.

  • The first thing that we do is to use the Meraki API to rename Systems Manager Devices. The script created has some other functionality too, such as error handling, but it is possible to do this without a script. You can find it here. This ensures that the device has a name: iOS devices default to being called iPhone or iPad in Systems Manager when they first enroll, so, already, this is incredibly helpful.
  • The second thing we do is to use a simple Restrictions profile for iOS, which keeps the physical device’s name in sync with that in the dashboard
  • Lastly, we then use a Lock Screen payload to format the message on the device when it’s locked:

In the footnote, you’ll see Device Name and Device Serial in blue. This denotes that the values are actually dynamic and change per device. They include:

  • Organization name
  • Network name
  • Device name
  • Device serial
  • Device model
  • Device OS version
  • Device notes
  • Owner name
  • Owner email
  • Owner username
  • SM device ID

On the Lock Screen, it’s now possible to see the device’s name and serial number, without having to flip the device over (A problem for the registration devices which are locked in a secure case) or open systems preferences.

We also had integration with SecureX device insights, to see the security status of each iOS device.

With the ability to quickly check on device health from the SecureX dashboard.

 

Data Security

This goes without saying, but the iOS devices (Registration, Lead Capture and Session Scanning) do have access to personal information. To ensure the security of the data, devices are wiped at the end of the conference. This is incredibly satisfying, hitting the Erase Devices button in Meraki Systems Manager, and watching the 100+ devices reset!

A Better Way to Design Training SSIDs/VLANs, by Paul Fidler

Deploying a network like Black Hat takes a lot of work, and repetitive configuration. Much of this has been covered in previous blogs. However, to make things easier for this event, instead of the 60 training SSIDs we had in Black Hat US 2022, the Meraki team discussed the benefits of moving to iPSKs with Black Hat NOC Leadership, which accepted the plan.

For context, instead of having a single pre shared key for an SSID, iPSK functionality allows you to have 1000+. Each of these iPSKs can be assigned its own group policy / VLAN. So, we created a script:

  • That consumed networkID, SSID, Training name, iPSK and VLAN from a CSV
  • Created a group policy for that VLAN with the name of the training
  • Created an iPSK for the given SSID that referred to the training name

This only involves five API calls:

  • For a given network name, get the network ID
  • Get Group Policies
  • If the group policy exists, use that, else create a group policy, retaining the group policy ID
  • Get the SSIDs (to get the ID of the SSID)
  • Create an iPSK for the given SSID ID

The bulk of the script is error handling (The SSID or network doesn’t exist, for example) and logic!

The result was one SSID for all of training: BHTraining, and each classroom had their own password. This reduced the training SSIDs from over a dozen and helped clear the airwaves.

Check out part two – Black Hat Europe 2022 NOC: The SOC Inside the NOC 

Acknowledgments

Thank you to the Cisco NOC team:

  • Meraki Network: Evan Basta, Sandro Fasser, Rossi Rosario Burgos, Otis Ioannou, Asmae Boutkhil, Jeffry Handal and Aleksandar Dimitrov Vladimirov
  • Meraki Systems Manager: Paul Fidler
  • Cisco Secure: Ian Redden, Christian Clasen, Aditya Sankar, Ryan MacLennan, Guillaume Buisson, Jerome Schneider, Robert Taylor, Piotr Jarzynka, Tim Wadhwa-Brown and Matthieu Sprunck
  • Threat Hunter / Paris 2024 Olympics SOC: Jérémy Couture

Also, to our NOC partners NetWitness (especially David Glover, Iain Davidson, Alessandro Contini and Alessandro Zatti), Palo Alto Networks (especially James Holland, Matt Ford, Matt Smith and Mathew Chase), Gigamon, IronNet, and the entire Black Hat / Informa Tech staff (especially Grifter ‘Neil Wyler’, Bart Stump, Steve Fink, James Pope, Jess Stafford and Steve Oldenbourg).

About Black Hat

For 25 years, Black Hat has provided attendees with the very latest in information security research, development, and trends. These high-profile global events and trainings are driven by the needs of the security community, striving to bring together the best minds in the industry. Black Hat inspires professionals at all career levels, encouraging growth and collaboration among academia, world-class researchers, and leaders in the public and private sectors. Black Hat Briefings and Trainings are held annually in the United States, Europe and USA. More information is available at: blackhat.com. Black Hat is brought to you by Informa Tech.


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Chinese Hackers Using Russo-Ukrainian War Decoys to Target APAC and European Entities

By Ravie Lakshmanan
The China-linked nation-state hacking group referred to as Mustang Panda is using lures related to the ongoing Russo-Ukrainian War to attack entities in Europe and the Asia Pacific. That's according to the BlackBerry Research and Intelligence Team, which analyzed a RAR archive file titled "Political Guidance for the new EU approach towards Russia.rar." Some of the targeted countries include

Redacted Documents Are Not as Secure as You Think

By Matt Burgess
Popular redaction tools don’t always work as promised, and new attacks can reveal hidden information, researchers say.

Black Basta Ransomware Gang Actively Infiltrating U.S. Companies with Qakbot Malware

By Ravie Lakshmanan
Companies based in the U.S. have been at the receiving end of an "aggressive" Qakbot malware campaign that leads to Black Basta ransomware infections on compromised networks. "In this latest campaign, the Black Basta ransomware gang is using QakBot malware to create an initial point of entry and move laterally within an organization's network," Cybereason researchers Joakim Kandefelt and

Top Cyber Threats Facing E-Commerce Sites This Holiday Season

By The Hacker News
Delivering a superior customer experience is essential for any e-commerce business. For those companies, there's a lot at stake this holiday season. According to Digital Commerce 360, nearly $1.00 of every $4.00 spent on retail purchases during the 2022 holiday season will be spent online, resulting in $224 billion in e-commerce sales. To ensure your e-commerce site is ready for the holiday rush

Black Friday and retail season – watch out for PayPal “money request” scams

By Paul Ducklin
Don't let a keen eye for bargains lead you into risky online behaviour...

Researchers Find Links b/w Black Basta Ransomware and FIN7 Hackers

By Ravie Lakshmanan
A new analysis of tools put to use by the Black Basta ransomware operation has identified ties between the threat actor and the FIN7 (aka Carbanak) group. This link "could suggest either that Black Basta and FIN7 maintain a special relationship or that one or more individuals belong to both groups," cybersecurity firm SentinelOne said in a technical write-up shared with The Hacker News. Black

Hackers Using Rogue Versions of KeePass and SolarWinds Software to Distribute RomCom RAT

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The operators of RomCom RAT malware are continuing to evolve their campaigns by distributing rogue versions of software such as SolarWinds Network Performance Monitor, KeePass password manager, and PDF Reader Pro via fake copycat websites. Targets of the operation consist of victims in Ukraine and select English-speaking countries like the U.K. "Given the geography of the targets and the current

The Worst Black Friday and Cyber Monday Scams – And How to Avoid Them

By McAfee

On Black Friday and Cyber Monday, the deals roll out. So do some of the worst Black Friday and Cyber Monday scams. 

Hackers, scammers, and thieves look to cash in this time of year by blending in with the holiday rush, spinning up their own fake shipping notices, phony deals, and even bogus charities that look legitimate at first glance, yet are anything but. Instead, they may be loaded with malware, point you to phishing sites that steal your personal info, or they may simply rip you off.   

Classically, many online scams play on emotions by creating a sense of urgency or even fear. And for the holidays, you can throw stress into that mix as well—the stress of time, money, or even the pressure of finding that hard-to-get gift that seems to be out of stock everywhere. The bad actors out there will tailor their attacks around these feelings, hoping that they’ll catch you with your guard down during this busy time of year. 

”The Five Least Wanted” – Top online shopping scams to avoid 

So while knowing how to spot a great gift at a great price is solid skill to have this time of year, so is the ability to spot a scam. Let’s look at some of the worst ones out there, along with what you can do to steer clear of them. 

1) The fake order scam  

Come this time of year, keeping tabs on all the packages you have in transit can get tricky. You may have an armload of them enroute at any given time, and scammers will look to slip into this mix with phony order confirmations sent to your mailbox or your phone by text. Packed with either an email attachment or a link to a bogus website, they’ll try to get you to download malware or visit a site that attempts to steal your identity.  

These messages can look quite legit, so the best way to keep track of your orders is on the sites where you purchased them. Go directly to those sites rather than clicking on any links or attachments you get. 

2) The phony tracking number scam 

This scam plays out much like the fake order scam, yet in this case the crooks will send a phony package tracking notification, again either as a link or as an attachment. For starters, legitimate retailers won’t send tracking numbers in an attached file. If you see anything like that, it’s surely a scam designed to inject malware onto your device. In the case of a link, the scammers aim to send you to a site that will steal your personal info, just like in the case above.  

Once again, the best way to track your packages is to go to the source. Visit the online store where you made your purchase, open your current orders, and get your package tracking information from there. 

3) The bogus website scam  

A classic scammer move is to “typosquat” phony email addresses and URLs that look awfully close to legitimate addresses of legitimate companies and retailers. So close that you may overlook them. They often appear in phishing emails and instead of leading you to a great deal, these can in fact link you to scam sites that can then lift your login credentials, payment info, or even funds should you try to place an order through them.  

You can avoid these sites by going to the retailer’s site directly. Be skeptical of any links you receive by email, text, or direct message—it’s best to go to the site yourself by manually typing in the legitimate address yourself and look for the deal there.  

4) The hot deal scam  

At the heart of holiday shopping is scarcity. And scarcity is something scammers love. There’s always some super-popular holiday item that’s tough to find, and scammers will spin up phony websites and offers around those items to lure you in. They may use the typosquatting technique mentioned above to pose as a legitimate retailer, or they may set up a site with their own branding to look legitimate on their own (or at least try). Either way, these scams can hurt you in a couple of ways—one, you’ll pay for the goods and never receive them; and two, the scammers will now have your payment info and address, which they can use to commit further fraud. 

If the pricing, availability, or delivery time all look too good to be true for the item in question, it may be a scam designed to harvest your personal info and accounts. Use caution here before you click. If you’re unsure about a product or retailer, read reviews from trusted websites to help see if it’s legitimate. (The Better Business Bureau is a great place to start—more on that in moment.) 

5) The fake charity scam 

In the season of giving, donating to charities in your name or in the name of others makes for a popular holiday gesture. Scammers know this too and will set up phony charities to cash in. Some indications that a phony charity has reached you include an urgent pitch that asks you to “act now.” A proper charity will certainly make their case for a donation, yet they won’t pressure you into it. Moreover, phony charities will outright ask for payment in the form of gift cards, wire transfers (like Western Union), money orders, or even cryptocurrency—because once those funds are sent, they’re nearly impossible to reclaim when you find out you’ve been scammed. 

There are plenty of ways to make donations to legitimate charities, and the U.S. Federal Trade Commission (FTC) has a site full of resources so that you can make your donation truly count 

So, how can I avoid getting scammed on Black Friday and Cyber Monday? 

Some of it takes an eagle eye that can spot these scams as they pop up in your inbox, texts, social media feed, and so on. Yet you have further ways you can keep safe while shopping on Black Friday, Cyber Monday, and any time. 

Stick with known, legitimate retailers online 

This is a great one to start with. Directly typing in the correct address for online stores and retailers is a prime way to avoid scammers online. In the case of retailers that you don’t know much about, the U.S. Better Business Bureau (BBB) asks shoppers to do their research and make sure that retailer has a good reputation. The BBB makes that easier with a listing of retailers you can search simply by typing in their name. 

Look for the lock icon in your browser when you shop 

Secure websites begin their address with “https,” not just “http.” That extra “s” in stands for “secure,” which means that it uses a secure protocol for transmitting sensitive info like passwords, credit card numbers, and the like over the internet. It often appears as a little padlock icon in the address bar of your browser, so double-check for that. If you don’t see that it’s secure, it’s best to avoid making purchases on that website.  

Pay with a credit card instead of your debit card  

In the U.S., the Fair Credit Billing Act offers the public protection against fraudulent charges on credit cards, where citizens can dispute charges over $50 for goods and services that were never delivered or otherwise billed incorrectly. Note that many credit card companies have their own policies that improve upon the Fair Credit Billing Act as well. However, debit cards aren’t afforded the same protection under the Act. Avoid using a debit card while shopping online and use your credit card instead.  

Use two-factor authentication on your accounts  

Two-factor authentication is an extra layer of defense on top of your username and password. It adds in the use of a special one-time-use code to access your account, usually sent to you via email or to your phone by text or a phone call. In all, it combines something you know, like your password, with something you have, like your smartphone. Together, that makes it tougher for a crook to hack your account. If any of your accounts support two-factor authentication, the few extra seconds it takes to set up is more than worth the big boost in protection you’ll get.  

Use a VPN if you’re shopping on public Wi-Fi  

Public Wi-Fi in coffee shops and other public locations can expose your private surfing to prying eyes because those networks are open to all. Using a virtual private network (VPN) encrypts your browsing, shopping, and other internet traffic, thus making it secure from attempts at intercepting your data on public Wi-Fi, such as your passwords and credit card numbers.  

What’s more, a VPN masks your whereabouts and your IP address, plus uses encryption that helps keep your activities private. As a result, companies and data brokers can potentially learn far less about you, your shopping, your travels, your habits, and any other information that they could possibly collect and otherwise profit from. 

Clean up your personal data online 

Yes, it’s true. Your information gets collected, bought, and solid online. In fact, personal information fuels a global data trading economy estimated at $200 billion U.S. dollars a year. Run by data brokers that keep hundreds and even thousands of data points on billions of people, these sites gather, analyze, buy, and sell this information to other companies as well as to advertisers. Likewise, these data brokers may sell this information to bad actors, such as hackers, spammers, and identity thieves who would twist this information for their own purposes. 

Getting your info removed from these sites can seem like a daunting task. (Where do I start, and just how many of these sites are out there?) Our Personal Data Cleanup can help by regularly scanning these high-risk data broker sites for info like your home address, date of birth, and names of relatives. It identifies which sites are selling your data, and depending on your plan, automatically requests removal. 

Protect your identity from identity thieves 

Another place where personal information is bought and sold, stored, and exchanged is the dark web. The problem is that it’s particularly difficult for you to determine what, if any, of your info is on the dark web, stashed away in places where hackers and thieves can get their hands on it. Identity monitoring can help. McAfee’s identity monitoring helps you keep your personal info safe by alerting you if your data is found on the dark web, an average of 10 months before our competitors. 

Monitored info can range anywhere from bank account and credit card numbers to your email addresses and government ID number, depending on your location. If your information gets spotted, you’ll get an alert, along with steps you can take to minimize or even prevent damage if the information hasn’t already been put to illegal use. 

Take advantage of identity protection 

Identity protection through McAfee takes identity monitoring a step further by offering, depending on your location and plan, identity theft coverage for financial losses and expenses due to identity theft, in addition to hands-on help from a recovery professional to help restore your identity—all in addition to the identity monitoring called out above, again depending on your location and plan. 

Monitor your credit 

Keeping an eye on your bills and statements as they come in can help you spot unusual activity on your accounts. A credit monitoring service can do that one better by keeping daily tabs on your credit report. While you can do this manually, there are limitations. First, it involves logging into each bureau and doing some digging of your own. Second, there are limitations as to how many free credit reports you can pull each year. A service does that for you and without impacting your credit score. 

Depending on your location and plan, McAfee’s credit monitoring allows you to look after your credit score and the accounts within it to see fluctuations and help you identify unusual activity, all in one place, checking daily for signs of identity theft. 

Use protection while you shop  

A complete suite of online protection software like McAfee+ can offer layers of extra security while you shop. In addition to the VPN, identity, credit monitoring, and other features mentioned above, it includes web browser protection that can block malicious and suspicious links that could lead you down the road to malware or a phishing scam—along with a password manager that can create strong, unique passwords and store them securely as well. Taken together, McAfee+ offers all-in-one online protection for your identity, privacy, and security that can keep you far safer when you shop online—and as you spend your time online in general. 

What should I do if I fall victim to a Black Friday or Cyber Monday scam? 

Even if you take the proper precautions the unexpected can happen. Whether it’s a scam, an identity crime, or flat-out theft, there are steps you can take right away to help minimize the damage. 

The first bit of advice is to take a deep breath and get right to work on recovery. From there, you can take the following steps: 

1. Notify the companies involved 

Whether you spot a curious charge on your bank statement, discover potentially a fraudulent account when you check credit report, or when you get an alert from your monitoring service, let the bank or organization involved know you suspect fraud or theft. With a visit to their website, you can track down the appropriate number to call and get the investigation process started. 

2. File a police report 

Some businesses will require you to file a local police report and acquire a case number to complete your claim. Beyond that, filing a report is a good idea in itself. Identity theft is still theft and reporting it provides an official record of the incident. Should your case of identity theft lead to someone impersonating you or committing a crime in your name, filing a police report right away can help clear your name down the road. Be sure to save any evidence you have, like statements or documents that are associated with the theft. They can help clean up your record as well. 

3. Contact your governmental anti-fraud or trade organization 

In the U.S., the identity theft website from the Federal Trade Commission (FTC) is a fantastic resource should you find yourself in need. In addition to keeping records of the theft, the FTC can provide you with a step-by-step recovery plan—and even walk you through the process if you create an account with them. Additionally, reporting theft to the FTC can prove helpful if debtors come knocking to collect on any bogus charges in your name. With a copy of your report, you can ask debtors to stop. 

4. Put on a credit freeze or lock 

An instance of identity fraud or theft, suspected or otherwise, is a good time to review your options for a credit freeze or lock. As mentioned earlier, see what the credit bureaus in your region offer, along with the terms and conditions of each. With the right decision, a freeze or lock can help minimize and prevent further harm. 

5. Continue to monitor 

Strongly consider using a monitoring service like the one we described earlier to help you continue to keep tabs on your identity. The unfortunate fact of identity theft and fraud is that it can mark the start of a long, drawn-out affair. One instance of theft can possibly lead to another, so even what may appear to be an isolated bad charge on your credit card calls for keeping an eye on your identity all around. Many of the tools you would use up to this point still apply, such as checking up on your credit reports, maintaining fraud alerts as needed, and reviewing your accounts closely—along with utilizing an identity monitoring service. 

6. Work with a recovery pro 

A recovery service can help you clean up your credit in the wake of fraud or theft, all by working on your behalf. Given the time, money, and stress that can come along with setting your financial record straight, leaning on the expertise of a professional can provide you with much-needed relief on several counts. 

Take an extra moment to spot those Black Friday and Cyber Monday scams  

Just as it’s always been, hackers, scammers, and thieves want to ruin a good thing. In this case, it’s your spirit of giving and sharing in the holiday season. Yet with this list of top scams and ways you can avoid them, you can keep bad actors like them at bay. Remember, they’re counting on you to be in a hurry this time of year, and maybe a bit stressed and a little disorganized to boot. Take your time while shopping out there and keep an eye out for their tricks. That extra moment can save you far more time and money than you may think. 

The post The Worst Black Friday and Cyber Monday Scams – And How to Avoid Them appeared first on McAfee Blog.

BlackByte Ransomware Abuses Vulnerable Windows Driver to Disable Security Solutions

By Ravie Lakshmanan
In yet another case of bring your own vulnerable driver (BYOVD) attack, the operators of the BlackByte ransomware are leveraging a flaw in a legitimate Windows driver to bypass security solutions. "The evasion technique supports disabling a whopping list of over 1,000 drivers on which security products rely to provide protection," Sophos threat researcher Andreas Klopsch said in a new technical

Pay What You Want for This Collection of White Hat Hacking Courses

By The Hacker News
Whether you relish a mental challenge or fancy a six-figure paycheck, there are many good reasons to get into white hat hacking. That said, picking up the necessary knowledge to build a new career can seem like a daunting task. There is a lot to learn, after all. To help you get started, The Hacker News Deals is currently running an eye-catching offer: pay what you want for one video course, and

BlackCat Ransomware Attackers Spotted Fine-Tuning Their Malware Arsenal

By Ravie Lakshmanan
The BlackCat ransomware crew has been spotted fine-tuning their malware arsenal to fly under the radar and expand their reach. "Among some of the more notable developments has been the use of a new version of the Exmatter data exfiltration tool, and the use of Eamfo, information-stealing malware that is designed to steal credentials stored by Veeam backup software," researchers from Symantec 

Deadly Digital Dares: The Blackout Challenge on TikTok

By Toni Birdsong

The social network TikTok is chockfull of interesting, fun, laugh-out-loud videos shared by creators worldwide. Kids, as well as parents, can easily spend hours glued to the platform. But as with most popular platforms, the fun can eventually turn dark, even deadly, when viral challenges make their rounds.  

The latest viral challenge, the “blackout challenge,” first became popular online in 2008 and made its unfortunate comeback in 2021. Before this second round, the CDC attributed nearly 80 deaths to the dangerous online game. In the past month, authorities are attributing the tragic, high-profile deaths of Archie Battersbee, 12, and Leon Brown, 14 to the challenge. 

What is it? 

The blackout challenge is a choking game that involves intentionally trying to choke oneself or another to obtain a brief euphoric state or “high.” Death or serious injury can result if strangulation is prolonged. Those doing the challenge do it privately or broadcast their attempt to friends or followers. The CDC also found that most deaths occurred when a child engaged in the choking game alone and that most parents were unaware of the game before their child’s death.

What’s the appeal? 

It’s easy to look at a challenge like this and dismiss it thinking your child would never be involved in such a dangerous game. However, in a recent post from HealthyChildren.org on why kids participate in online dares, pediatricians point to the reality that the teen brain is still developing. The part of the brain that processes rational thought, the prefrontal cortex, is not fully developed until a person’s mid-20s. This physiological reality means teens are naturally impulsive and can do things without stopping to consider the consequences.  

Another lure that entices teens is that social media’s fast-moving, impulsive environment rewards outrageous behavior—the more outrageous the content, the bigger the bragging rights. The fear of losing out (FOMO is natural for teens. 

Signs to look for 

According to the CDC, signs that a child may be engaging in the blackout challenge include: 

  • They may talk about the game or use alternate terms such as “pass–out
    game” “choking game,” or “space monkey.” 
  • They may have bloodshot eyes 
  • You may see marks on their neck 
  • They might have severe headaches 
  • They could show signs of disorientation after spending time alone 
  • You might notice the presence of ropes, scarves, or belts tied to furniture or doorknobs 
  • They may have unexplained items like dog leashes, choke collars, or bungee cords in their room. 

5 talking points for families

  1. Dig in and discuss hard stuff. Set time aside to talk about the viral challenges your child may or may not notice online. Discuss the dangers, the physiology of being impulsive, and how social network communities inherently reward reckless behavior with likes and shares.  
  2. Make the consequences personal. Do your homework. Pull up the relevant headlines and discuss the implications of the blackout challenge (and others), such as lack of oxygen to the brain, seizures, long-term complications, and death.  
  3. Talk about digital peer pressure. Coach your kids through the dangers they encounter online they may take for granted. Ask them how they feel when they see someone doing dangerous things online and ways to avoid or discourage it. Are your kids rallying around the challenges or sharing the content? Do they try to be funny to get attention online?  
  4. Establish ground rules. As tragic as these challenges are, they allow parents to pause and refresh family ground rules for online behavior and media use. Your kids have changed over time, as have their online communities, and interests. Design ground rules and media use expectations to help shape a safe, balanced digital life that reflects their current online activity. 
  5. Add extra protection. We add security systems to our homes for additional protection from outside threats, so too, it’s wise to add security to our family devices to encourage content filtering, monitoring, and time limits.  

Viral challenges will continue to emerge and shock us. There’s no way to anticipate them or control them. However, staying informed about dangerous online trends and keeping the lines of communication with your child open and honest is a big step toward equipping them to live a safe, balanced digital life.  

The post Deadly Digital Dares: The Blackout Challenge on TikTok appeared first on McAfee Blog.

High-Severity Firmware Security Flaws Left Unpatched in HP Enterprise Devices

By Ravie Lakshmanan
A number of firmware security flaws uncovered in HP's business-oriented high-end notebooks continue to be left unpatched in some devices even months after public disclosure. Binarly, which first revealed details of the issues at the Black Hat USA conference in mid-August 2022, said the vulnerabilities "can't be detected by firmware integrity monitoring systems due to limitations of the Trusted

Black Hat USA 2022: Creating Hacker Summer Camp

By Jessica Bair

In part one of this issue of our Black Hat USA NOC (Network Operations Center) blog, you will find:

  • Adapt and Overcome
  • Building the Hacker Summer Camp network, by Evan Basta
  • The Cisco Stack’s Potential in Action, by Paul Fidler
  • Port Security, by Ryan MacLennan, Ian Redden and Paul Fiddler
  • Mapping Meraki Location Data with Python, by Christian Clausen

Adapt and Overcome, by Jessica Bair Oppenheimer

In technology, we plan as best as we can, execute tactically with the resources and knowledge we have at the time, focus on the strategic mission, adjust as the circumstances require, collaborate, and improve; with transparency and humility. In short, we adapt and we overcome. This is the only way a community can have trust and grow, together. Every deployment comes with its challenges and Black Hat USA  2022 was no exception. Looking at the three Ps (people, process, platform), flexibility, communication, and an awesome Cisco platform allowed us to build and roll with the changes and challenges in the network. I am proud of the Cisco Meraki and Secure team members and our NOC partners.

The Buck Stops Here. Full stop. I heard a comment that the Wi-Fi service in the Expo Hall was “the worst I’ve ever experienced at a conference.” There were a lot of complaints about the Black Hat USA 2022 Wi-Fi network in the Expo Hall on 10 August. I also heard a lot of compliments about the network. Despite that the Wi-Fi and wired network was generally very good the most of the conference, and before my awesome colleagues share the many successes of designing, building, securing, managing, automating and tearing down one of the most hostile networks on Earth; I want to address where and how we adapted and what we did to fix the issues that arose, as we built an evolving, enterprise class network in a week.

First, a little history of how Cisco came to be the Official Network Provider of Black Hat USA 2022, after we were already successfully serving as the Official Mobile Device Management, Malware Analysis and Domain Name Service Provider. An Official Provider, as a Premium Partner, is not a sponsorship and no company can buy their way into the NOC for any amount of money. From the beginning of Black Hat 25 years ago, volunteers built the network for the conference rather than using the hotel network. This continues today, with the staff of Black Hat hand selecting trusted partners to build and secure the network.

After stepping up to help Black Hat with the network at Black Hat Asia, we had only two and a half months until Black Hat USA, in Las Vegas, 6-11 August 2022. Cisco was invited to build and secure the network for the much larger Black Hat USA flagship conference, affectionally known as ‘Hacker Summer Camp’, as the Official Network Equipment Provider. There were few other options, given the short timeframe to plan, supply chain difficulties in procuring the networking gear and assembling a team of network engineers, to join the Cisco Secure engineers and threat hunters. All the work, effort and loaned equipment were a gift from Cisco Meraki and Cisco Secure to the community.

We were proud to collaborate with NOC partners Gigamon, IronNet, Lumen, NetWitness and Palo Alto Networks; and work with Neil ‘Grifter’ Wyler, Bart Stump, Steve Fink and James Pope of Black Hat. We built strong bonds of familial ties over the years of challenges and joint successes. I encourage you to watch the replay of the Black Hat session An Inside Look at Defending the Black Hat Network with Bart and Grifter.

In June 2022, adjacent to Cisco Live Americas, the NOC partners met with Black Hat to plan the network. Cisco Meraki already donated 45 access points (APs), seven MS switches, and two Meraki MX security and SD-WAN appliances to Black Hat, for regional conferences.

I looked at the equipment list from 2019, that was documented in the Bart and Grifter presentation, and estimated we needed to source an additional 150 Cisco Meraki MR AP (with brackets and tripods) and 70+ Cisco Meraki MS switches to build the Black Hat USA network in just a few weeks. I wanted to be prepared for any changes or new requirements on-site. We turned to JW McIntire, who leads the network operations for Cisco Live and Cisco Impact. JW was enthusiastically supportive in helping identify the equipment within the Cisco Global Events inventory and giving his approval to utilize the equipment. A full thanks to those who made this possible is in the Acknowledgements below.

Over the week-long conference, we used all but three of the switches and all the APs.

We worked off the draft floor plans from 13 June 2022, for the training rooms, briefing rooms, support rooms, keynote rooms, conference public areas, registration, and of course the Expo Hall: over two million square feet of venue. We received updated plans for the training rooms, Expo Hall and support needs 12 days before we arrived on site. There were about 60 training rooms planned, each requiring their own SSID and Virtual Local Area Network, without host isolation. The ‘most access possible’ was the requirement, to use real world malware and attacks, without attacking other classrooms, attendees, sponsors or the rest of the world. Many of the training rooms changed again nine days before the start of the network build, as the number confirmed students rose or fell, we adjusted the AP assignments.

For switching allocation, we could not plan until we arrived onsite, to assess the conference needs and the placement of the cables in the walls of the conference center. The Black Hat USA network requires that every switch be replaced, so we always have full control of the network. Every network drop to place an AP and put the other end of a cable into the new switches in the closets costs Black Hat a lot of money. It also requires the time of ‘Doc’ – the lead network engineer at the Mandalay Bay, to whom we are all deeply grateful.

The most important mission of the NOC is Access, then Security, Visibility, Automation, etc. People pay thousands of dollars to attend the trainings and the briefings; and sponsors pay tens of thousands for their booth space. They need Access to have a successful conference experience.

With that background, let’s discuss the Wi-Fi in the Expo Hall. Cisco has a service to help customers do a methodical predictive survey of their space for the best allocation of their resources. We had 74 of the modern MR57 APs for the conference and prioritized their assignment in the Expo Hall and Registration. Specifications for MR57s include a 6 GHz 4×4:4, 5 GHz 4×4:4 and 2.4 GHz 4×4:4 radio to offer a combined tri–radio aggregate frame rate of 8.35 Gbps, with up to 4,804 Mbps in 6GHz band, 2,402 Mbps 5 GHz band and, 1,147 Mbps / 574 Mbps in the 2.4 GHz band based on 40MHz / 20MHz configuration. Technologies like transmit beamforming and enhanced receive sensitivity allow the MR57 to support a higher client density than typical enterprise-class access points, resulting in better performance for more clients, from each AP.

We donated top of the line gear for use at Black Hat USA. So, what went wrong on the first day in the Expo Hall? The survey came back with the following map and suggestions of 34 MR57s in the locations below. Many assumptions were made in pre-planning, since we did not know the shapes, sizes and materials of the booths that would be present inside the allocated spaces. We added an AP in the Arsenal Lab on the far-left side, after discussing the needs with Black Hat NOC leadership.

In the Entrance area (Bayside Foyer) of the Expo Hall (bottom of the map), you can see that coverage drops. There were four MR57s placed in the Bayside Foyer for iPad Registration and attendee Wi-Fi, so they could access their emails and obtain their QR code for scanning and badge printing.

I believed that would be sufficient and we allocated other APs to the rest of the conference areas. We had positive reports on coverage in most areas of the rest of the conference. When there were reported issues, we quickly deployed Cisco Meraki engineers or NOC technical associates. to confirm and were able to make changes in radio strength, broadcasting bands, SSIDs, etc. to fine tune the network. All while managing a large amount of new or changing network requirements, as the show expanded due to its success and was fully hybrid, with the increased streaming of the sponsored sessions, briefings and keynotes and remote Registration areas in hotels.

As the attendees queued up in mass outside of the Expo Hall on the morning of 10 August, the number of attendee devices connecting to the four MR57s in the foyer grew into the thousands. This degraded the performance of the Registration network. We adjusted by making the APs closest to the registration iPads only dedicated to the Registration. This fixed Registration lag but reduced the performance of the network for the attendees, as they waited to rush into the Expo Hall. From the site survey map, it is clear that the replacement APs were now needed in the Entrance for a connected mesh network, as you entered the Expo Hall from the Bayside foyer. Here lies Lesson 1: expected people flow should be taken into account in the RF design process.

Another challenge the morning of the Expo Hall opening was that five of the 57MRs inside were not yet connected to the Internet when it opened at 10am. The APs were installed three days earlier, then placed up on tripods the afternoon prior. However, the volume of newly requested network additions, to support the expanded hybrid element required the deployment of extra cables and switches. This cascaded down and delayed the conference center team from finalizing the Expo Hall line drops until into the afternoon. Lesson 2: Layer 1 is still king; without it, no Wi-Fi or power.

A major concern for the sponsors in their booths was that as the Expo Hall filled with excited attendees, the connectivity of the 900+ iOS devices used for lead management dropped. Part of this congestion was thousands of 2.4Ghz devices connected to the Expo Hall network. We monitored this and pushed as many as possible to 5Ghz, to relieve pressure on those airwaves. Lesson 3: With Wi-Fi 6e now available in certain countries, clean spectrum awaits, but our devices need to come along as well.

We also adjusted in the Cisco Meraki Systems Manager Mobile Device Management, to allow the iPhones for scanning to connect securely to the Mandalay Bay conference network, while still protecting your personal information with Cisco SecureX, Security Connector and Umbrella DNS, to ensure access as we expanded the network capacity in the Expo Hall. Lesson 4: Extreme security by default where you can control the end point. Do not compromise when dealing with PPI.

Using the Cisco Meraki dashboard access point location heat map and the health status of the network, we identified three places in the front of the Expo Hall to deploy additional drops with the Mandalay Bay network team. Since adding network drops takes some time (and costs Black Hat extra money), we took immediate steps to deploy more MS120 switches and eight additional APs at hot spots inside the Expo Hall with the densest client traffic, at no expense to Black Hat. Lesson 5: Footfall is not only about sales analytics. It does play a role into RF planning. Thereby, allowing for a data-driven design decision.

Above is the heat map of the conference Expo Hall at noon on 11 August. You can see the extra APs at the Entrance of the Expo Hall, connected by the three drops set up by the Mandalay Bay to the Cisco Meraki switches in the closets. Also, you can see the clusters of APs connected to the extra MS120 switches. At the same time, our lead Meraki engineer, Evan Basta, did a speed test from the center left of the Expo Hall.

As I am sharing lessons learned, I want to provide visibility to another situation encountered. On the afternoon of 9 August, the last day of training, a Black Hat attendee walked the hallways outside several training rooms and deliberately attacked the network, causing students and instructors not to be able to connect to their classes. The training rooms have host isolation removed and we designed the network to provide as much safe access as possible. The attacker took advantage of this openness, spoofed the SSIDs of the many training rooms and launched malicious attacks against the network.

We must allow real malware on the network for training, demonstrations and briefing sessions; while protecting the attendees from attack within the network from their fellow attendees and prevent bad actors from using the network to attack the Internet. It is a critical balance to ensure everyone has a safe experience, while still being able to learn from real world malware, vulnerabilities and malicious websites.

The attack vector was identified by a joint investigation of the NOC teams, initiated by the Cisco Meraki Air Marshal review. Note the exact same MAC addresses of the spoofed SSIDs and malicious broadcasts. A network protection measure was suggested by the Cisco Meraki engineering team to the NOC leadership. Permission was granted to test on one classroom, to confirm it stopped the attack, while not also disrupting the training. Lesson 6: The network-as-a-sensor will help mitigate issues but will not fix the human element.

Once confirmed, the measure was implemented network wide to return resiliency and access. The NOC team continued the investigation on the spoofed MAC addresses, using syslogs, firewall logs, etc. and identified the likely app and device used. An automated security alerting workflow was put in place to quickly identify if the attacker resumed/returned, so physical security could also intervene to revoke the badge and eject the attacker from the conference for violation of the Black Hat code of conduct.

I am grateful to the 20+ Cisco engineers, plus Talos Threat Hunters, deployed to the Mandalay Bay Convention Center, from the United States, Canada, Qatar and United Kingdom who made the Cisco contributions to the Black Hat USA 2022 NOC possible. I hope you will read on, to learn more lessons learned about the network and the part two blog about Cisco Secure in the NOC

Building the Hacker Summer Camp Network, by Evan Basta

It was the challenge of my career to take on the role of the lead network engineer for Black Hat USA. The lead engineer, who I replaced, was unable to travel from Singapore, just notifying us two weeks before we were scheduled to deploy to Las Vegas.

We prepared as much as possible before arrival, using the floor plans and the inventory of equipment that was ordered and on its way from the warehouse. We met with the Black Hat NOC leadership, partners and Mandalay Bay network engineers weekly on conference calls, adjusted what we could and then went to Black Hat, ready for a rapidly changing environment.

Our team was able to remain flexible and meet all the Black Hat requests that came in, thanks to the ability of the Cisco Meraki dashboard to manage the APs and switches from the cloud. Often, we were configuring the AP or switch as it was being transported to the location of the new network segment, laptop in hand.

For the construction of the Black Hat network, let’s start with availability. Registration and training rooms had priority for connectivity. iPads and iPhones needed secure connectivity to scan QR codes of registering attendees. Badge printers needed hardline access to the registration system. Training rooms all needed their separate wireless networks, for a safe sandbox for network defense and attack. Thousands of attendees attended, ready to download and upload terabytes of data through the main conference wireless network. All the keynotes, briefings and sponsored sessions needed to be recorded and streamed. Below are all the APs stacked up for assignment, including those assigned to the Expo Hall in the foreground.

All this connectivity was provided by Cisco Meraki access points and switches along with integrations into SecureX, Umbrella, and other Cisco platforms. We fielded a literal army of engineers to stand up the network in six days.

Let’s talk security and visibility. For a few days, the Black Hat network is one of the most hostile in the world. Attendees learn new exploits, download new tools, and are encouraged to test them out. Being able to drill down on attendee connection details and traffic was instrumental in ensuring attendees followed the Black Hat code of conduct.

On the wireless front, we made extensive use of our Radio Profiles to reduce interference by tuning power and channel settings. We enabled band steering to get more clients on the 5GHz bands versus 2.4GHz and watched the Location Heatmap like a hawk looking for hotspots and dead areas. Handling the barrage of wireless change requests – enable or disabling this SSID, moving VLANs (Virtual Local Area Networks), enabling tunneling for host isolation on the general conference Wi-Fi, mitigating attacks – was a snap with the Cisco Meraki Dashboard.

Floor Plan and Location Heatmap

On the first day of NOC setup, the Cisco team worked with the Mandalay Bay networking engineers to deploy core switches and map out the switches for the closets, according to the number of cables coming in from the training and briefing rooms. The floor plans in PDF were uploaded into the Meraki Dashboard; and with a little fine tuning, aligned perfectly with the Google Map.

Cisco Meraki APs were then placed physically in the venue meeting and training rooms. Having the APs named, as mentioned above, made this an easy task. This enabled accurate heatmap capability.

The Location Heatmap provided the capability to drill into the four levels of the conference, including the Expo Hall, lower level (North Conference Center), 2nd Floor and 3rd Floor. Below is the view of the entire conference.

Network Visibility

We were able to monitor the number of connected clients, network usage, the people passing by the network and location analytics, throughout the conference days. We provided visibility access to the Black Hat NOC management and the technology partners, along with full API (Application Programming Interface) access, so they could integrate with the network platform.

Alerts

Cisco Meraki alerts provide notification when something happens in the Dashboard. Default behavior is to be emailed when something happens. Obviously, emails got lost in the noise, at Black Hat Asia 2022, we made a web hook in Cisco SecureX orchestration to be able to consume Cisco Meraki alerts and send it to Slack (the messaging platform within the Black Hat NOC), using the native template in the Cisco Meraki Dashboard.

The alert kicked off if an AP or a switch lost connectivity. At Black Hat USA, we modified this to text alerts, as these were a priority. In the following example, we knew at the audio-visual team unplugged a switch to move it and were able to deploy technical associates from the NOC to ensure it was reconnected properly.

The Cisco Stack’s Potential in Action, by Paul Fidler

As we planned for Black Hat USA, the number of iOS devices to manage and protect rose from 300+ to over 900, and finally over 1,000.

The first amongst these was the use of the Cisco Meraki API. We were able to import the list of MAC addresses of the Cisco Meraki APs, to ensure that the APs were named appropriately and tagged, using a single source of truth document shared with the NOC management and partners, with the ability to update en masse at any time. Over three quarters of the AP configuration was able to be completed before arriving on site. 

Meraki Systems Manager – Initial device enrollment and provisioning

We’ll start with the positive: When it comes to creating the design to manage X number of devices, it doesn’t matter if it’s 10 devices, or 10,000… And this was certainly true for Black Hat. The requirements were straightforward:

  • Have several apps installed on devices, which each had a particular role
  • Have a passcode policy on some devices
  • Use home screen layout to help the conferences associates know which app to use
  • Use Name synchronization, so that the name of the device (on a label on the back) was also in the SM dashboard and under Settings > General > About
  • Use restrictions to prevent modification of accounts, Wi-Fi and prevention of screenshots (to protect the personal information of attendees)
  • Prevent the devices from having their management profile removed
  • Ensure that the devices could connect to the initial WPA based network, but then also to the 802.1x based network (using certificates)

All this configuration was done ahead of time in the Meraki Dashboard, almost a month before the conference.

Now the negatives: Of all the events that the company who supplies the devices attends; Black Hat is the only one where devices are managed. Using mass deployment techniques like Apple’s Automated Device Enrollment, therefore, is not used. The company pre-stages the devices using Apple Configurator, which allows for both Supervision and Enrollment.

It became more difficult: Whilst the pre-staged devices were fine (other than having to handle all 1,000+ devices to turn Wi-Fi to Autojoin and opening the Meraki Systems Manager app [to give us Jailbreak and Location visibility]), an extra 100 devices were supplied that were not enrolled. As these devices were enrolled elsewhere from the prior Black Hat conferences, a team of around 10 people pitched in to restore each device, adding the Wi-Fi profile and then enrollment.

Fortunately, Apple Configurator can create Blueprints:

A Blueprint is essential a list of actions, in a particular order, that Apple Configurator can run through autonomously

But why did it need a team of ten? There were several limitations:

  • Number of USB ports on a computer
  • Number in USB-A to USB-C converters (the devices were supplied with USB-A cables)
  • Downloading of the restore image (although Airdrop was used to distribute the image quickly)
  • Speed of the devices to do the restore (the actual Wi-Fi and enrollment steps take less than 10 seconds)

However, the task was completed in around three hours, given the limitations! If there’s one lesson to learn from this: Use Apple’s Automated Device Enrollment. 

Command vs Profile

One of the slight nuances of Apple Mobile Device Manager is the difference between a ‘command’ and ‘profile’. Within the Meraki Systems Manager dashboard, we don’t highlight the difference between the two. But it’s important to know. A ‘profile’ is something that remains on the device: If there’s a state change on the device, or the user attempts something, the profile is always on there. However, a ‘command’ is exactly that: It’s sent once, and if something changes in the future, then the command won’t have any effect.

So, why is this highlighted here? Well, in some instances, some apps weren’t pushed successfully: You’d see them on the device, but with a cloud icon next to them. The only way to resolve this would be to remove the app, and then repost it. But we were also using a Homepage Layout, which put various apps on various pages. Pushing the app would result in it appearing on the wrong page. To ensure a consistent user experience, we would push the homepage profile again to devices to take effect.

Meraki BSSID Geolocation

We’ve mentioned this before in past Black Hat events, but, given the scale of The Mandalay Bay, it’s important to circle back to this. GPS is notoriously unreliable in conference centers like this, but it was still important to know where devices are. Because we’d ensured the correct placement of the Access Points on the floor plan, and because Systems Manager was in the same organisation, it ensured that the devices reported their location accurately! If one were to ‘walk’ we could wipe it remotely to protect your personal details.

Protection of PPI (Protected Private Information)

When the conference Registration closed on the last day and the Business Hall Sponsors all returned their iPhones, we were able to remotely wipe all the devices, removing all attendee data, prior to returning to the device contractor.

APIs

As mentioned elsewhere in this blog, this was a conference of APIs. Just the sheer scale of the conference resulted in the use of APIs. Various API projects included:

  • Getting any ports down events with the getNetworkEvents API call
  • Getting the port status of switches with a given tag with getDeviceSwitchPorts
  • Turning off all the Training SSIDs in one go with getNetworkWirelessSsids and updateNetworkWirelessSsids
  • From a CSV, claiming devices into various networks with tags being applied with claimNetworkDevices and updateDevice (to name it)
  • Creation of networks from CSV with createOrganizationNetwork
  • Creation of SSIDs from CSV with updateNetworkWirelessSsids: This was to accommodate the 70+ SSIDs just for training! This also included the Tag for the SSIDs
  • Adding the Attendee SSID to every training network with updateNetworkWirelessSsids: This was due to us having several networks to accommodate the sheer number of SSIDs
  • Amending the Training SSIDs with the correct PSK using updateNetworkWirelessSsids

From a Systems Manager perspective, there were:

  • The renaming of devices from CSV: Each of the devices had a unique code on the back which was NOT the serial number. Given that it’s possible to change the name of the device on the device with Systems Manager, this meant that the number could be seen on the lock screen too. It also made for the identical of devices in the Systems Manager dashboard quick and easy too. The last thing you want is 1,000 iPhones all called “iPhone!”

Port Security, by Ryan MacLennan, Ian Redden and Paul Fidler

During the Cisco Meraki deployment, we had a requirement to shutdown ports as they went inactive to prevent malicious actors from removing an official device and plugging in theirs. This ability is not directly built into the Cisco Meraki dashboard, so we built a workflow for the Black Hat customer, using the Cisco Meraki API. To achieve this, we created a small python script that was hosted as an AWS (Amazon Web Services) Lambda function and listened for webhooks from the Cisco Meraki Dashboard when a port went down. Initially this did solve our issue, but it was not fast enough, about five minutes from the time the port went down/a cable was unplugged. This proof of concept laid the groundwork to make the system better. We migrated from using a webhook in the Cisco Meraki Dashboard to using syslogs. We also moved the script from Lambda to a local server. Now, a python script was scanning for syslogs from the switches and when it saw a port down log, it will immediately call out to the locally hosted python script that calls out to the Cisco Meraki API and disabled the port.

This challenge had many setbacks and iterations while it was being built. Before we settled on listening for syslogs, we tried using SNMP polling. After figuring out the information we needed to use, we found that trying to poll SNMP would not work because SNMP would not report the port being down if the switch to another device was fast enough. This led us to believe we might not be able to do what we needed in a timely manner. After some deliberation with fellow NOC members, we started working on a script to listen for the port down syslogs. This became the best solution and provided immediate results. The ports would be disabled within milliseconds of going downThe diagram below shows an example of what will happen: If the Workshop Trainer’s device is un-plugged and a Threat Actor tries to plug into their port, a syslog is sent from the Cisco Meraki switch to our internal server hosting the python listener. Once the python script gets the request, it sends an API call to the Cisco Meraki API gateway and the Cisco Meraki cloud then tells the switch to disable the port that went down very briefly.

However, what was apparent was that the script was working TOO well! As discussed, several times already in this blog, the needs of the conference were very dynamic, changing on a minute-by-minute basis. This was certainly true in Registration and with the Audio-Visual teams. We discovered quickly that legitimate devices were being unplugged and plugged in to various ports, even if just temporarily. Of course, the script was so quick that it disabled ports before the users in registration knew what was happening. This resulted in NOC staff having to re-enable ports. So, more development was done. The task? For a given network tag, show the status of all the ports of all the switches. Given the number of switches at the conference, tags were used to reduce the amount of data being brought back, so it was easier to read and manage.

Mapping Meraki Location Data with Python, by Christian Clausen

In the blog post we published after Black Hat Asia 2022, we provided details on how to collect Bluetooth and Wi-Fi scanning data from a Meraki organization, for long-term storage and analysis. This augmented the location data provided by the Meraki dashboard, which is limited to 24-hours. Of course, the Meraki dashboard does more than just provide location data based on Wi-Fi and Bluetooth scanning from the access points. It also provides a neat heatmap generated from this data. We decided to take our long-term data project a step further and see if we could generate our own heatmap based on the data collected from the Meraki Scanning API.

The Folium Python library “builds on the data wrangling strengths of the Python ecosystem and the mapping strengths of the leaflet.js library” to provide all kinds of useful mapping functions. We can take location data (longitude and latitude) and plot them on lots of built-in map tiles from the likes of OpenStreetMap, MapBox, Stamen, and more. Among the available Folium plugins is a class called “HeatMapWithTime.” We can use this to plot our Meraki location data and have the resulting map animate the client’s movements.

Step 1: Collect the data

During the previous conference, we used a Docker container containing a couple Flask endpoints connected via ngrok to collect the large amount of data coming from Meraki. We re-used the same application stack this time around, but moved it out from behind ngrok into our own DMZ with a public domain and TLS (Transport Layer Security) certificate, to avoid any bandwidth limitations. We ended up with over 40GB of JSON data for the conference week to give to Black Hat!

Step 2: Format the data

Folium’s HeatMapWithTime plugin requires a “list of lists of points of time.” What we wanted to do is generate an ordered dictionary in Python that is indexed by the timestamp. The data we received from the Meraki API was formatted into “apFloor” labels provided by the admin when the access points are placed. Within each “apFloor” is a list of “observations” that contain information about individual clients spotted by the AP scanners, during the scanning interval.

Here’s what the data looked like straight from the Meraki API, with some dummy values:

The “observations” list is what we wanted to parse. It contains lots of useful information, but what we wanted is MAC address, latitude and longitude numbers, and timestamp:

We used Python to iterate through the observations and to eliminate the data we did not use. After a lot of data wrangling, de-duplicating MAC addresses, and bucketizing the observations into 15-minute increments, the resulting data structure looks like this:

Now that the data is in a usable format, we can feed it into Folium and see what kind of map we get back!

Step 3: Creating the map

Folium is designed to project points onto a map tile. Map tiles can show satellite images, streets, or terrain, and are projected onto a globe. In our case, however, we want to use the blueprint of the conference center. Folium’s allows for an image’s overlay to be added, and the bounds of the image to be set by specifying the coordinates for the top-left and bottom-right corners of image. Luckily, we can get this from the Meraki dashboard.  

This enabled us to overlay the floorplan image on the map. Unfortunately, the map tiles themselves limit the amount of zoom available to the map visualization. Lucky for us, we did not care about the map tile now that we have the floorplan image. We passed “None” as the map tile source and finally received our data visualization and saved the map as an HTML file for Black Hat leadership.

We opened the HTML file, and we had an auto-playing heatmap that lets us zoom at far in as we want:

Detail at 1:30pm PT, on 10 August 2022 below.

To improve this going forward, the logical next steps would be to insert the data into a database for the Black Hat conference organizers, for quick retrieval and map generation. We can then start looking at advanced use-cases in the NOC, such as tracking individual a MAC address that may be producing suspicious traffic, by cross-referencing data from other sources (Umbrella, NetWitness, etc.).

——————————————————————————————————

Network Recovery, by Jessica Bair Oppenheimer

Once the final session ended, the Expo Hall closed and the steaming switched off, dozens of conference associates, technical associates, Mandalay Bay engineers and Cisco staff spread out through two million square feet and numerous switching closets to recover the equipment for inventory and packing. It took less than four hours to tear down a network that was built and evolved 11 days prior. Matt Vander Horst made a custom app to scan in each item, separating equipment donated to Black Hat from that which needed to be returned to the warehouse for the next global Cisco event.

Adapt and overcome! Check out part two of this blog, Black Hat USA 2022 Continued: Innovation in the NOC.

Until then, thanks again to our Cisco Meraki engineers, pictured below with a MR57 access point.

Acknowledgements: Special thanks to the Cisco Meraki and Cisco Secure Black Hat NOC team.

Meraki Systems Manager: Paul Fidler (team leader), Paul Hasstedt and Kevin Carter

Meraki Network Engineering: Evan Basta (team leader), Gregory Michel, Richard Fung and CJ Ramsey

Network Design and Wireless Site Survey: Jeffry Handal, Humphrey Cheung, JW McIntire and Romulo Ferreira

Network Build/Tear Down: Dinkar Sharma, Ryan Maclennan, Ron Taylor and Leo Cruz

Critical support in sourcing and delivering the Meraki APs and switches: Lauren Frederick, Eric Goodwin, Isaac Flemate, Scott Pope and Morgan Mann

SecureX threat response, orchestration, device insights, custom integrations, and Malware Analytics: Ian Redden, Aditya Sankar, Ben Greenbaum, Matt Vander Horst and Robert Taylor

Umbrella DNS: Christian Clasen and Alejo Calaoagan

Talos Incident Response Threat Hunters: Jerzy ‘Yuri’ Kramarz and Michael Kelley

Also, to our NOC partners NetWitness (especially David Glover), Palo Alto Networks (especially Jason Reverri), Lumen, Gigamon, IronNet, and the entire Black Hat / Informa Tech staff (especially Grifter ‘Neil Wyler’, Bart Stump, Steve Fink, James Pope, Jess Stafford and Steve Oldenbourg).

Read Part 2:

Black Hat USA 2022 Continued: Innovation in the NOC

About Black Hat

For 25 years, Black Hat has provided attendees with the very latest in information security research, development, and trends. These high-profile global events and trainings are driven by the needs of the security community, striving to bring together the best minds in the industry. Black Hat inspires professionals at all career levels, encouraging growth and collaboration among academia, world-class researchers, and leaders in the public and private sectors. Black Hat Briefings and Trainings are held annually in the United States, Europe and USA. More information is available at: blackhat.com. Black Hat is brought to you by Informa Tech.


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Black Hat USA 2022 Continued: Innovation in the NOC

By Jessica Bair

In part one of our Black Hat USA 2022 NOC blog, we discussed building the network with Meraki:

  • Adapt and Overcome
  • Building the Hacker Summer Camp network, by Evan Basta
  • The Cisco Stack’s Potential in Action, by Paul Fidler
  • Port Security, by Ryan MacLennan, Ian Redden and Paul Fiddler
  • Mapping Meraki Location Data with Python, by Christian Clausen

In this part two, we will discuss:

  • Bringing it all together with SecureX
  • Creating Custom Meraki Dashboard Tiles for SecureX, by Matt Vander Horst
  • Talos Threat Hunting, by Jerzy ‘Yuri’ Kramarz and Michael Kelley
  • Unmistaken Identity, by Ben Greenbaum
  • 25+ Years of Black Hat (and some DNS stats), by Alejo Calaoagan

Cisco is a Premium Partner of the Black Hat NOC, and is the Official Wired & Wireless Network Equipment, Mobile Device Management, DNS (Domain Name Service) and Malware Analysis Provider of Black Hat.

Watch the video: Building and Securing the Black Hat USA Network

Black Hat USA is my favorite part of my professional life each year. We had an incredible staff of 20 Cisco engineers to build and secure the network. Also, for the first time, we had two Talos Threat Hunters from the Talos Incident Response (TIR) team, providing unique perspectives and skills to the attacks on the network. I really appreciated the close collaboration with the Palo Alto Networks and NetWitness team members. We created new integrations and the NOC continued to serve as an incubator for innovation.

We must allow real malware on the network for training, demonstrations, and briefing sessions; while protecting the attendees from attack within the network from their fellow attendees and prevent bad actors using the network to attack the Internet. It is a critical balance to ensure everyone has a safe experience, while still being able to learn from real world malware, vulnerabilities, and malicious websites. So, context is what really matters when investigating a potential attack and bringing so many technologies together in SecureX really accelerated investigation and response (when needed).

All the Black Hat network traffic was supported by Meraki switches and wireless access points, using the latest Meraki gear donated by Cisco. Our Meraki team was able to block people from the Black Hat network, when an investigation showed they did something in violation of the attendee Code of Conduct, upon review and approval by the Black Hat NOC leadership.

Cisco Secure provided all the domain name service (DNS) requests on the Black Hat network through Umbrella, whenever attendees wanted to connect to a website. If there is a specific DNS attack that threatened the conference, we supported Black Hat in blocking it to protect the network. However, by default, we allow and monitor DNS requests to malware, command and control, phishing, crypto mining, and other dangerous domains, which would be blocked in a production environment. That balance of allowing cybersecurity training and demos to occur, but ready to block when needed.

In addition to the Meraki networking gear, Cisco Secure also shipped an Umbrella DNS virtual appliance to Black Hat USA, for internal network visibility with redundancy. The Intel NUC containing the virtual appliance also contained the bridge to the NetWitness on-premises SIEM, custom developed by Ian Redden.

We also deployed the following cloud-based security software:

We analyzed files that were downloaded on the network, checking them for malicious behavior. When malware is downloaded, we confirm it is for a training, briefing or demonstration, and not the start of an attack on attendees.

During an investigation, we used SecureX to visualize the threat intelligence and related artifacts, correlating data. In the example below, an attacker was attempting remote code execution on the Registration Servers, alerted by the Palo Alto team, investigated by the NOC threat hunters, and blocked by order of the NOC leadership upon the results of the investigation.

Cisco Secure Threat Intelligence (correlated through SecureX)

Donated Partner Threat Intelligence (correlated through SecureX)

Open-Source Threat Intelligence (correlated through SecureX)

Continued Integrations from past Black Hat events

  • NetWitness SIEM integration with SecureX
  • NetWitness PCAP file carving and submission to Cisco Secure Malware Analytics (formerly Threat Grid) for analysis
  • Meraki syslogs into NetWitness SIEM and Palo Alto Firewall
  • Umbrella DNS into NetWitness SIEM and Palo Alto Firewall 

New Integrations Created at Black Hat USA 2022

  • Secure Malware Analytics integration with Palo Alto Cortex XSOAR, extracting files from the network stream via the firewall

The NOC partners, especially NetWitness and Palo Alto Networks, were so collaborative and we left Vegas with more ideas for future integration development

Creating Custom Meraki Dashboard Tiles for SecureX, by Matt Vander Horst

One of the biggest benefits of Cisco SecureX is its open architecture. Anyone can build integrations for SecureX if they can develop an API with the right endpoints that speak the right language. In the case of SecureX, the language is the Cisco Threat Intelligence Model (CTIM). As mentioned above, Cisco Meraki powered Black Hat USA 2022 by providing wired and wireless networking for the entire conference. This meant a lot of equipment and users to keep track of. To avoid having to switch between two different dashboards in the NOC, we decided to build a SecureX integration that would provide Meraki dashboard tiles directly into our single pane of glass: SecureX.

Building an integration for SecureX is simple: decide what functionality you want your integration to offer, build an internet-accessible API that offers those functions, and then add the integration to SecureX. At Black Hat, our Meraki integration supported two capabilities: health and dashboard. Here’s a summary of those capabilities and the API endpoints they expect:

Capability Description API Endpoints
Health Enables SecureX to make sure the module is reachable and working properly. /health
Dashboard Provides a list of available dashboard tiles and, after a tile is added to a dashboard, the tile data itself. /tiles

/tile-data

 

With our capabilities decided, we moved on to building the API for SecureX to talk to. SecureX doesn’t care how you build this API if it has the expected endpoints and speaks the right language. You could build a SecureX-compatible API directly into your product, as a serverless Amazon Web Services (AWS) Lambda, as a Python script with Django, and so on. To enable rapid development at Black Hat, we chose to build our integration API on an existing Ubuntu server in AWS running Apache and PHP.

After building the API framework on our AWS server, we had to decide which dashboard tiles to offer. Here’s what we ended up supporting:

Tile Name Description
Top Applications Shows the top 10 applications by flow count
Client Statistics Shows a summary of clients
Top SSIDs by Usage in GB Shows the top 10 SSIDs by data usage in GB
Access Point Status Shows a summary of access points

 

Finally, once the API was up and running, we could add the integration to SecureX. To do this, you need to create a module definition and then push it to SecureX using its IROH-INT API. After the module is created, it appears in the Available Integration Modules section of SecureX and can be added. Here’s what our module looked like after being added to the Black Hat SecureX instance:

After adding our new tiles to the SecureX dashboard, SecureX would ask our API for data. The API we built would fetch the data from Meraki’s APIs, format the data from Meraki for SecureX, and then return the formatted data. Here’s the result:

These dashboard tiles gave us useful insights into what was going on in the Meraki network environment alongside our existing dashboard tiles for other products such as Cisco Secure Endpoint, Cisco Umbrella, Cisco Secure Malware Analytics, and so on.

If you want to learn more about building integrations with SecureX, check out these resources:

Talos Threat Hunting, by Jerzy ‘Yuri’ Kramarz and Michael Kelly

Black Hat USA 2022 was our first fully supported event, where we deployed an onsite threat hunting team from Talos Incident Response (TIR). Our colleagues and friends from various business units, connected by SecureX integration, granted us access to all the underlying consoles and API points to support the threat hunting efforts enhanced by Talos Intelligence.

The threat hunting team focused on answering three key hypothesis-driven questions and matched that with data modelling across all of the different technology stacks deployed in Black Hat NOC:

  • Are there any attendees attempting to breach each other’s systems in or outside of a classroom environment?
  • Are there any attendees attempting to subvert any NOC Systems?
  • Are there any attendees that are compromised and we could warn them about that?

To answer the above hypothesis, our analysis started with understanding of how the network architecture is laid out and what kind of data access is granted to NOC. We quickly realized that our critical partners are key to extending visibility beyond Cisco deployed technologies. Great many thanks go to our friends from NetWitness and Palo Alto Networks for sharing full access to their technologies, to ensure that hunting did not stop on just Cisco kit and contextual intelligence could be gathered across different security products.

Daily threat hunt started with gathering data from Meraki API to identify IP and DNS level requests leaving the devices connected to wireless access points across entire conference. Although Meraki does not directly filter the traffic, we wanted to find signs of malicious activity such as DNS exfiltration attempts or connections to known and malicious domains which were not part of the class teaching. Given the level of access, we were then able to investigate network traffic capture associated with suspicious connections and check for suspected Command and Control (C2) points (there were a few from different threat actors!) or attempts to connect back to malicious DNS or Fast Flux domains which indicated that some of the attendee devices were indeed compromised with malware.

That said, this is to be expected given hostility of the network we were researching and the fact that classroom environments have users who can bring their own devices for hands-on labs. SecureX allowed us to quickly plot this internally to find specific hosts which were connecting and talking with malicious endpoints while also showing a number of additional datapoints which were useful for the investigation and hunting. Below is one such investigation, using SecureX threat response.

While looking at internal traffic, we have also found and plotted quite a few different port-scans running across the internal network. While not stopping these, it was interesting to see different tries and attempts by students to find ports and devices across networks. Good thing that network isolation was in place to prevent that! We blurred out the IP and MAC addresses in the image below.

Here is another example of really nice port scan clusters that were running across both internal and external networks we have found. This time it was the case of multiple hosts scanning each other and looking to discovery ports locally and across many of the Internet-based systems. All of that was part of the class but we had to verify that as it looked quite suspicious from the outset. Again, blurred picture for anonymity.

In a few instances, we also identified remarkably interesting clear-text LDAP traffic leaving the environment and giving a clear indicator of which organization the specific device belonged to simply because of the domain name which was requested in the cleartext. It was quite interesting to see that in 2022, we still have a lot of devices talking clear text protocols such as POP3, LDAP, HTTP or FTP, which are easy to subvert via Man-In-The-Middle type of attacks and can easily disclose the content of important messages such as email or server credentials. Below is an example of the plain text email attachments, visible in NetWitness and Cisco Secure Malware Analytics.

In terms of the external attacks, Log4J exploitation attempts were pretty much a daily occurrence on the infrastructure and applications used for attendee registration along with other typical web-based attacks such as SQL injections or path traversals. Overall, we saw a good number of port scans, floods, probes and all kind of web application exploitation attempts showing up daily, at various peak hours. Fortunately, all of them were successfully identified for context (is this part of a training class or demonstration) and contained (if appropriate) before causing any harm to external systems. Given the fact that we could intercept boundary traffic and investigate specific PCAP dumps, we used all these attacks to identify various command-and-control servers for which we also hunted internally to ensure that no internal system is compromised.

The final piece of the puzzle we looked to address, while threat hunting during Black Hat 2022, was automation to discover interesting investigation avenues. Both of us investigated a possibility of threat hunting using Jupyter playbooks to find outliers that warrant a closer look. We have created and developed a set of scripts which would gather the data from API endpoints and create a data frames which could be modeled for further analysis. This allowed us to quickly gather and filter out systems and connections which were not that interesting. Then, focus on specific hosts we should be checking across different technology stacks such as NetWitness and Palo Alto.

Unmistaken Identity, by Ben Greenbaum

An unusual aspect of the Black Hat NOC and associated security operations activities is that this is an intentionally hostile network. People come to learn new tricks and to conduct what would in any other circumstance be viewed rightfully as malicious, unwanted behavior. So, determining whether this is “acceptable” or “unacceptable” malicious behavior is an added step. Additionally, this is a heavily BYOD environment and while we do not want attendees attacking each other, or our infrastructure, there is a certain amount of suspicious or indicative behavior we may need to overlook to focus on higher priority alerts.

In short, there are broadly speaking 3 levels of security event at Black Hat:

  • Allowed – classroom or demonstration activities; i.e. a large part of the purpose of Black Hat
  • Tolerated –C&C communications from BYOD systems, other evidence of infections that are not evidence of direct attacks; attendee cleartext communications that should be encrypted, but are not relevant to the operation of the conference.
  • Forbidden – direct attacks on attendees, instructors, or infrastructure; overt criminal activity, or other violations of the Code of Conduct

When Umbrella alerted us (via a SecureX orchestration Webex workflow) of DNS requests for a domain involved in “Illegal Activity” it was reminiscent of an event at a previous conference where an attendee was caught using the conference network to download forged vaccination documents.

Using the Cisco Secure Malware Analytics platform’s phishing investigation tools, I loaded and explored the subject domain and found it to be a tool that generates and provides pseudo-randomized fake identities, customizable in various ways to match on demographics. Certainly, something that could be used for nefarious purposes, but is not illegal in and of itself. Physical security and access control is, however, also important at Black Hat, and if this activity was part of an effort to undermine that, then this was still a concern.

This is, however, also the kind of thing that gets taught at Black Hat…

Using the reported internal host IP from Umbrella, Meraki’s connection records, and the Meraki access point map, we were able to narrow the activity down to a specific classroom. Looking up what was being taught in that room, we were able to confirm that the activity was related to the course’s subject matter

Network owners and administrators, especially businesses, typically don’t want their network to be used for crimes. However, here at Black Hat what some would consider “crimes” is just “the curriculum”. This adds a layer of complexity to securing and protecting not just Black Hat, but also Black Hat attendees. In security operations, not every investigation leads to a smoking gun. At Black Hat, even when it does, you may find that the smoking gun was fired in a safe manner at an approved target range. Having the right tools on hand can help you make these determinations quickly and free you up to investigate the next potential threat.

25 Years of Black Hat – Musings from the show (and some DNS stats), by Alejo Calaoagan

Back in Singapore, I wrote about cloud app usage and the potential threat landscape surrounding them.  My original plan at Black Hat USA was to dig deeper into this vector to see what interesting tidbits I could find on our attendee network. However, given that this was the 25th anniversary of Black Hat (and my 14th in total between Vegas, Singapore, and London), I’ve decided to pivot to talk about the show itself.

I think it’s safe to say, after two difficult pandemic years, Black Hat is back. Maybe it’s the fact that almost everyone has caught COVID by now (or that a lot of people just stopped caring). I caught it myself at RSA this year back in June, the first of consecutive summer super spread events (Cisco Live Vegas was the following week). Both of those shows were in the 15-18k attendee range, well below their pre-pandemic numbers. Black Hat USA 2022 was estimated at 27,000 attendees.

If I remember correctly, 2019 was in the 25-30K range. Last year in Vegas, there were ~3,000 people at the event, tops. 2021 in London, was even lower…it felt like there were less than 1,000 attendees. Things certainly picked up in Singapore (2-3k attendees), though that event doesn’t typically see attendee numbers as high as the other locations. All in all, while the pandemic certainly isn’t over, Las Vegas gave glimpses of what things were like before the “Rona” took over our lives.

The show floor was certainly back to the norm, with swag flying off the countertops and lines for Nike sneaker and Lego giveaways wrapping around different booths.  The smiles on people’s faces as they pitched, sold, hustled, and educated the masses reminded me how much I missed this level of engagement.  RSA gave me this feeling as well, before COVID sidelined me midway through the show anyway.

Not everything was quite the same. The Black Hat party scene certainly is not what it used to be. There was no Rapid 7 rager this year or last, or a happy hour event thrown by a security company you’ve never heard of at every bar you walk by on the strip. There were still some good networking events here and there, and there were some awesomely random Vanilla Ice, Sugar Ray, and Smashmouth shows. For those of you familiar with Jeremiah Grossman’s annual Black Hat BJJ throwdown, that’s still, thankfully, a thing. Hopefully, in the coming years, some of that old awesomeness returns….

Enough reminiscing, here are our DNS numbers from the show:

From a sheer traffic perspective, this was the busiest Black Hat ever, with over 50 million DNS requests made…

Digging into these numbers, Umbrella observed over 1.3 million security events, including various types of malware across the attendee network. Our threat hunting team was busy all week!

We’ve also seen an increase in app usage at Black Hat:

  • 2019: ~3,600
  • 2021: ~2,600
  • 2022: ~6,300

In a real-world production environment, Umbrella can block unapproved or high-risk apps via DNS.

The increases in DNS traffic volume and Cloud App usage obviously mirrors Black Hat’s return to the center stage of security conferences, following two years of pandemic uncertainty. I’m hopeful that things will continue to trend in a positive direction leading up to London and, hopefully, we’ll see you all there.

——

Hats off to the entire NOC team. Check out Black Hat Europe in London, 5-8 December 2022!

Acknowledgements: Special thanks to the Cisco Meraki and Cisco Secure Black Hat NOC team.

SecureX threat response, orchestration, device insights, custom integrations and Malware Analytics: Ian Redden, Aditya Sankar, Ben Greenbaum, Matt Vander Horst and Robert Taylor

Umbrella DNS: Christian Clasen and Alejo Calaoagan

Talos Incident Response Threat Hunters: Jerzy ‘Yuri’ Kramarz and Michael Kelley

Meraki Systems Manager: Paul Fidler (team leader), Paul Hasstedt and Kevin Carter

Meraki Network Engineering: Evan Basta (team leader), Gregory Michel, Richard Fung and CJ Ramsey

Network Design and Wireless Site Survey: Jeffry Handal, Humphrey Cheung, JW McIntire and Romulo Ferreira

Network Build/Tear Down: Dinkar Sharma, Ryan Maclennan, Ron Taylor and Leo Cruz

Critical support in sourcing and delivering the Meraki APs and switches: Lauren Frederick, Eric Goodwin, Isaac Flemate, Scott Pope and Morgan Mann

Also, to our NOC partners NetWitness (especially David Glover), Palo Alto Networks (especially Jason Reverri), Lumen, Gigamon, IronNet, and the entire Black Hat / Informa Tech staff (especially Grifter ‘Neil Wyler’, Bart Stump, Steve Fink, James Pope, Jess Stafford and Steve Oldenbourg).

Read Part 1:

Black Hat USA 2022: Creating Hacker Summer Camp

About Black Hat

For 25 years, Black Hat has provided attendees with the very latest in information security research, development, and trends. These high-profile global events and trainings are driven by the needs of the security community, striving to bring together the best minds in the industry. Black Hat inspires professionals at all career levels, encouraging growth and collaboration among academia, world-class researchers, and leaders in the public and private sectors. Black Hat Briefings and Trainings are held annually in the United States, Europe and USA. More information is available at: blackhat.com. Black Hat is brought to you by Informa Tech.


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Black Hat and DEF CON Roundup

By Threatpost
‘Summer Camp’ for hackers features a compromised satellite, a homecoming for hackers and cyberwarfare warnings.

Black Hat and DEF CON Roundup

By Threatpost
‘Summer Camp’ for hackers features a compromised satellite, a homecoming for hackers and cyberwarfare warnings.

Starlink Successfully Hacked Using $25 Modchip

By Elizabeth Montalbano
Belgian researcher Lennert Wouters revealed at Black Hat how he mounted a successful fault injection attack on a user terminal for SpaceX’s satellite-based internet system

Starlink Successfully Hacked Using $25 Modchip

By Elizabeth Montalbano
Belgian researcher Lennert Wouters revealed at Black Hat how he mounted a successful fault injection attack on a user terminal for SpaceX’s satellite-based internet system

One of 5G’s Biggest Features Is a Security Minefield

By Lily Hay Newman
New research found troubling vulnerabilities in the 5G platforms carriers offer to wrangle embedded device data.

Breach Exposes Users of Microleaves Proxy Service

By BrianKrebs

Microleaves, a ten-year-old proxy service that lets customers route their web traffic through millions of Microsoft Windows computers, recently fixed a vulnerability in their website that exposed their entire user database. Microleaves claims its proxy software is installed with user consent, but data exposed in the breach shows the service has a lengthy history of being supplied with new proxies by affiliates incentivized to distribute the software any which way they can — such as by secretly bundling it with other titles.

The Microleaves proxy service, which is in the process of being rebranded to Shifter[.[io.

Launched in 2013, Microleaves is a service that allows customers to route their Internet traffic through PCs in virtually any country or city around the globe. Microleaves works by changing each customer’s Internet Protocol (IP) address every five to ten minutes.

The service, which accepts PayPal, Bitcoin and all major credit cards, is aimed primarily at enterprises engaged in repetitive, automated activity that often results in an IP address being temporarily blocked — such as data scraping, or mass-creating new accounts at some service online.

In response to a report about the data exposure from KrebsOnSecurity, Microleaves said it was grateful for being notified about a “very serious issue regarding our customer information.”

Abhishek Gupta is the PR and marketing manager for Microleaves, which he said in the process of being rebranded to “Shifter.io.” Gupta said the report qualified as a “medium” severity security issue in Shifter’s brand new bug bounty program (the site makes no mention of a bug bounty), which he said offers up to $2,000 for reporting data exposure issues like the one they just fixed. KrebsOnSecurity declined the offer and requested that Shifter donate the amount to the Electronic Frontier Foundation (EFF), a digital rights group.

From its inception nearly a decade ago, Microleaves has claimed to lease between 20-30 million IPs via its service at any time. Riley Kilmer, co-founder of the proxy-tracking service Spur.us, said that 20-30 million number might be accurate for Shifter if measured across a six-month time frame. Currently, Spur is tracking roughly a quarter-million proxies associated with Microleaves/Shifter each day, with a high rate of churn in IPs.

Early on, this rather large volume of IP addresses led many to speculate that Microleaves was just a botnet which was being resold as a commercial proxy service.

Proxy traffic related to top Microleaves users, as exposed by the website’s API.

The very first discussion thread started by the new user Microleaves on the forum BlackHatWorld in 2013 sought forum members who could help test and grow the proxy network. At the time, the Microleaves user said their proxy network had 150,000 IPs globally, and was growing quickly.

One of BlackHatWorld’s moderators asked the administrator of the forum to review the Microleaves post.

“User states has 150k proxies,” the forum skeptic wrote. “No seller on BHW has 150k working daily proxies none of us do. Which hints at a possible BOTNET. That’s the only way you will get 150k.”

Microleaves has long been classified by antivirus companies as adware or as a “potentially unwanted program” (PUP), the euphemism that antivirus companies use to describe executable files that get installed with ambiguous consent at best, and are often part of a bundle of software tied to some “free” download. Security vendor Kaspersky flags the Microleaves family of software as a trojan horse program that commandeers the user’s Internet connection as a proxy without notifying the user.

“While working, these Trojans pose as Microsoft Windows Update,” Kaspersky wrote.

In a February 2014 post to BlackHatWorld, Microleaves announced that its sister service — reverseproxies[.]com — was now offering an “Auto CAPTCHA Solving Service,” which automates the solving of those squiggly and sometimes frustrating puzzles that many websites use to distinguish bots from real visitors. The CAPTCHA service was offered as an add-on to the Microleaves proxy service, and ranged in price from $20 for a 2-day trial to $320 for solving up to 80 captchas simultaneously.

“We break normal Recaptcha with 60-90% success rate, recaptcha with blobs 30% success, and 500+ other captcha,” Microleaves wrote. “As you know all success rate on recaptcha depends very much on good proxies that are fresh and not spammed!”

WHO IS ACIDUT?

The exposed Microleaves user database shows that the first user created on the service — username “admin” — used the email address alex.iulian@aol.com. A search on that email address in Constella Intelligence, a service that tracks breached data, reveals it was used to create an account at the link shortening service bit.ly under the name Alexandru Florea, and the username “Acidut.” [Full disclosure: Constella is currently an advertiser on this website].

According to the cyber intelligence company Intel 471, a user named Acidut with the email address iulyan87_4u@gmail.com had an active presence on almost a dozen shadowy money-making and cybercrime forums from 2010 to 2017, including BlackHatWorld, Carder[.]pro, Hackforums, OpenSC, and CPAElites.

The user Microleaves (later “Shifter.io”) advertised on BlackHatWorld the sale of 31 million residential IPs for use as proxies, in late 2013. The same account continues to sell subscriptions to Shifter.io.

In a 2011 post on Hackforums, Acidut said they were building a botnet using an “exploit kit,” a set of browser exploits made to be stitched into hacked websites and foist malware on visitors. Acidut claimed their exploit kit was generating 3,000 to 5,000 new bots each day. OpenSC was hacked at one point, and its private messages show Acidut purchased a license from Exmanoize, the handle used by the creator of the Eleonore Exploit Kit.

By November 2013, Acidut was advertising the sale of “26 million SOCKS residential proxies.” In a March 2016 post to CPAElites, Acidut said they had a worthwhile offer for people involved in pay-per-install or “PPI” schemes, which match criminal gangs who pay for malware installs with enterprising hackers looking to sell access to compromised PCs and websites.

Because pay-per-install affiliate schemes rarely impose restrictions on how the software can be installed, such programs can be appealing for cybercriminals who already control large collections of hacked machines and/or compromised websites. Indeed, Acidut went a step further, adding that their program could be quietly and invisibly nested inside of other programs.

“For those of you who are doing PPI I have a global offer that you can bundle to your installer,” Acidut wrote. “I am looking for many installs for an app that will generate website visits. The installer has a silence version which you can use inside your installer. I am looking to buy as many daily installs as possible worldwide, except China.”

Asked about the source of their proxies in 2014, the Microleaves user responded that it was “something related to a PPI network. I can’t say more and I won’t get into details.”

Acidut authored a similar message on the forum BlackHatWorld in 2013, where they encouraged users to contact them on Skype at the username “nevo.julian.” That same Skype contact address was listed prominently on the Microleaves homepage up until about a week ago when KrebsOnSecurity first reached out to the company.

ONLINE[.]IO (NOW MERCIFULLY OFFLINE)

There is a Facebook profile for an Alexandru Iulian Florea from Constanta, Romania, whose username on the social media network is Acidut. Prior to KrebsOnSecurity alerting Shifter of its data breach, the Acidut profile page associated Florea with the websites microleaves.com, shrooms.io, leftclick[.]io, and online[.]io. Mr. Florea did not respond to multiple requests for comment, and his Facebook page no longer mentions these domains.

Leftclick and online[.]io emerged as subsidiaries of Microleaves between 2017 and 2018. According to a help wanted ad posted in 2018 for a developer position at online[.]io, the company’s services were brazenly pitched to investors as “a cybersecurity and privacy tool kit, offering extensive protection using advanced adblocking, anti-tracking systems, malware protection, and revolutionary VPN access based on residential IPs.”

A teaser from Irish Tech News.

“Online[.]io is developing the first fully decentralized peer-to-peer networking technology and revolutionizing the browsing experience by making it faster, ad free, more reliable, secure and non-trackable, thus freeing the Internet from annoying ads, malware, and trackers,” reads the rest of that help wanted ad.

Microleaves CEO Alexandru Florea gave an “interview” to the website Irishtechnews.ie in 2018, in which he explained how Online[.]io (OIO) was going to upend the online advertising and security industries with its initial coin offering (ICO). The word interview is in air quotes because the following statements by Florea deserved some serious pushback by the interviewer.

“Online[.]io solution, developed using the Ethereum blockchain, aims at disrupting the digital advertising market valued at more than $1 trillion USD,” Alexandru enthused. “By staking OIO tokens and implementing our solution, the website operators will be able to access a new non-invasive revenue stream, which capitalizes on time spent by users online.”

“At the same time, internet users who stake OIO tokens will have the opportunity to monetize on the time spent online by themselves and their peers on the World Wide Web,” he continued. “The time spent by users online will lead to ICE tokens being mined, which in turn can be used in the dedicated merchant system or traded on exchanges and consequently changed to fiat.”

Translation: If you install our proxy bot/CAPTCHA-solver/ad software on your computer — or as an exploit kit on your website — we’ll make millions hijacking ads and you will be rewarded with heaps of soon-to-be-worthless shitcoin. Oh, and all your security woes will disappear, too.

It’s unclear how many Internet users and websites willingly agreed to get bombarded with Online[.]io’s annoying ads and search hijackers — and to have their PC turned into a proxy or CAPTCHA-solving zombie for others. But that is exactly what multiple security companies said happened when users encountered online[.]io, which operated using the Microsoft Windows process name of “online-guardian.exe.”

Incredibly, Crunchbase says Online[.]io raised $6 million in funding for an initial coin offering in 2018, based on the plainly ludicrous claims made above. Since then, however, online[.]io seems to have gone…offline, for good.

SUPER TECH VENTURES?

Until this week, Shifter.io’s website also exposed information about its customer base and most active users, as well as how much money each client has paid over the lifetime of their subscription. The data indicates Shifter has earned more than $11.7 million in direct payments, although it’s unclear how far back in time those payment records go, or how complete they are.

The bulk of Shifter customers who spent more than $100,000 at the proxy service appear to be digital advertising companies, including some located in the United States. None of the several Shifter customers approached by KrebsOnSecurity agreed to be interviewed.

Shifter’s Gupta said he’d been with the company for three years, since the new owner took over the company and made the rebrand to Shifter.

“The company has been on the market for a long time, but operated under a different brand called Microleaves, until new ownership and management took over the company started a reorganization process that is still on-going,” Gupta said. “We are fully transparent. Mostly [our customers] work in the data scraping niche, this is why we actually developed more products in this zone and made a big shift towards APIs and integrated solutions in the past year.”

Ah yes, the same APIs and integrated solutions that were found exposed to the Internet and leaking all of Shifter’s customer information.

Gupta said the original founder of Microleaves was a man from India, who later sold the business to Florea. According to Gupta, the Romanian entrepreneur had multiple issues in trying to run the company, and then sold it three years ago to the current owner — Super Tech Ventures, a private equity company based in Taiwan.

“Our CEO is Wang Wei, he has been with the company since 3 years ago,” Gupta said. “Mr. Florea left the company two years ago after ending this transition period.”

Google and other search engines seem to know nothing about a Super Tech Ventures based in Taiwan. Incredibly, Shifter’s own PR person claimed that he, too, was in the dark on this subject.

“I would love to help, but I really don’t know much about the mother company,” Gupta said, essentially walking back his “fully transparent” statement. “I know they are a branch of the bigger group of asian investment firms focused on private equity in multiple industries.”

Adware and proxy software are often bundled together with “free” software utilities online, or with popular software titles that have been pirated and quietly fused with installers tied to various PPI affiliate schemes.

But just as often, these intrusive programs will include some type of notice — even if installed as part of a software bundle — that many users simply do not read and click “Next” to get on with installing whatever software they’re seeking to use. In these cases, selecting the “basic” or “default” settings while installing usually hides any per-program installation prompts, and assumes you agree to all of the bundled programs being installed. It’s always best to opt for the “custom” installation mode, which can give you a better idea of what is actually being installed, and can let you control certain aspects of the installation.

Either way, it’s best to start with the assumption that if a software or service online is “free,” that there is likely some component involved that allows the provider of that service to monetize your activity. As KrebsOnSecurity noted at the conclusion of last week’s story on a China-based proxy service called 911, the rule of thumb for transacting online is that if you’re not the paying customer, then you and/or your devices are probably the product that’s being sold to others.

Further reading on proxy services:

July 18, 2022: A Deep Dive Into the Residential Proxy Service ‘911’
June 28, 2022: The Link Between AWM Proxy & the Glupteba Botnet
June 22, 2022: Meet the Administrators of the RSOCKS Proxy Botnet
Sept. 1, 2021: 15-Year-Old Malware Proxy Network VIP72 Goes Dark
Aug. 19, 2019: The Rise of “Bulletproof” Residential Networks

BlackCat Ransomware Gang Targeting Unpatched Microsoft Exchange Servers

By Ravie Lakshmanan
Microsoft is warning that the BlackCat ransomware crew is leveraging exploits for unpatched Exchange server vulnerabilities to gain access to targeted networks. Upon gaining an entry point, the attackers swiftly moved to gather information about the compromised machines, followed by carrying out credential theft and lateral movement activities, before harvesting intellectual property and

Ransomware Group Debuts Searchable Victim Data

By BrianKrebs

Cybercrime groups that specialize in stealing corporate data and demanding a ransom not to publish it have tried countless approaches to shaming their victims into paying. The latest innovation in ratcheting up the heat comes from the ALPHV/BlackCat ransomware group, which has traditionally published any stolen victim data on the Dark Web. Today, however, the group began publishing individual victim websites on the public Internet, with the leaked data made available in an easily searchable form.

The ALPHV site claims to care about people’s privacy, but they let anyone view the sensitive stolen data.

ALPHV recently announced on its victim shaming and extortion website that it had hacked a luxury spa and resort in the western United States. Sometime in the last 24 hours, ALPHV published a website with the same victim’s name in the domain, and their logo on the homepage.

The website claims to list the personal information of 1,500 resort employees, and more than 2,500 residents at the facility. At the top of the page are two “Check Yourself” buttons, one for employees, and another for guests.

Brett Callow, a threat analyst with security firm Emsisoft, called the move by ALPHV “a cunning tactic” that will most certainly worry their other victims.

Callow said most of the victim shaming blogs maintained by the major ransomware and data ransom groups exist on obscure, slow-loading sites on the Darknet, reachable only through the use of third-party software like Tor. But the website erected by ALPHV as part of this new pressure tactic is available on the open Internet.

“Companies will likely be more concerned about the prospect of their data being shared in this way than of simply being posted to an obscure Tor site for which barely anyone knows the URL,” Callow said. “It’ll piss people off and make class actions more likely.”

It’s unclear if ALPHV plans to pursue this approach with every victim, but other recent victims of the crime group include a school district and a U.S. city. Most likely, this is a test run to see if it improves results.

“We are not going to stop, our leak distribution department will do their best to bury your business,” the victim website reads. “At this point, you still have a chance to keep your hotel’s security and reputation. We strongly advise you to be proactive in your negotiations; you do not have much time.”

Emerging in November 2021, ALPHV is perhaps most notable for its programming language (it is written in Rust). ALPHV has been actively recruiting operators from several ransomware organizations — including REvilBlackMatter and DarkSide — offering affiliates up to 90 percent of any ransom paid by a victim organization.

Many security experts believe ALPHV/BlackCat is simply a rebrand of another ransomware group — “Darkside” a.k.a. “BlackMatter,” the same gang responsible for the 2021 attack on Colonial Pipeline that caused fuel shortages and price spikes for several days last summer.

Callow said there may be an upside to this ALPHV innovation, noting that his wife recently heard directly from a different ransomware group — Cl0p.

“On a positive note, stunts like this mean people may actually find out that their PI has been compromised,” he said. “Cl0p emailed my wife last year. The company that lost her data still hasn’t made any public disclosure or notified the people who were impacted (at least, she hasn’t heard from the company.)”

Black Hat Asia 2022 Continued: Cisco Secure Integrations

By Jessica Bair

In part one of our Black Hat Asia 2022 NOC blog, we discussed building the network with Meraki: 

  • From attendee to press to volunteer – coming back to Black Hat as NOC volunteer by Humphrey Cheung 
  • Meraki MR, MS, MX and Systems Manager by Paul Fidler 
  • Meraki Scanning API Receiver by Christian Clasen 

In this part two, we will discuss:  

  • SecureX: Bringing Threat Intelligence Together by Ian Redden 
  • Device type spoofing event by Jonny Noble 
  • Self Service with SecureX Orchestration and Slack by Matt Vander Horst 
  • Using SecureX sign-on to streamline access to the Cisco Stack at Black Hat by Adi Sankar 
  • Future Threat Vectors to Consider – Cloud App Discovery by Alejo Calaoagan 
  • Malware Threat Intelligence made easy and available, with Cisco Secure Malware Analytics and SecureX by Ben Greenbaum 

SecureX: Bringing Threat Intelligence Together by Ian Redden 

In addition to the Meraki networking gear, Cisco Secure also shipped two Umbrella DNS virtual appliances to Black Hat Asia, for internal network visibility with redundancy, in addition to providing: 

Cisco Secure Threat Intelligence (correlated through SecureX)

Donated Partner Threat Intelligence (correlated through SecureX)

Open-Source Threat Intelligence (correlated through SecureX)

Continued Integrations from past Black Hat events

  • NetWitness PCAP file carving and submission to Cisco Secure Malware Analytics (formerly Threat Grid) for analysis

New Integrations Created at Black Hat Asia 2022

  • SecureX threat response and NetWitness SIEM: Sightings in investigations
  • SecureX orchestration workflows for Slack that enabled:
    • Administrators to block a device by MAC address for violating the conference Code of Conduct
    • NOC members to query Meraki for information about network devices and their clients
    • NOC members to update the VLAN on a Meraki switchport
    • NOC members to query Palo Alto Panorama for client information
    • Notification if an AP went down
  • NetWitness SIEM integration with Meraki syslogs
  • Palo Alto Panorama integration with Meraki syslogs
  • Palo Alto Cortex XSOAR integration with Meraki and Umbrella

Device type spoofing event by Jonny Noble

Overview

During the conference, a NOC Partner informed us that they received an alert from May 10 concerning an endpoint client that accessed two domains that they saw as malicious:

  • legendarytable[.]com
  • drakefollow[.]com

Client details from Partner:

  • Private IP: 10.XXX.XXX.XXX
  • Client name: LAPTOP-8MLGDXXXX
  • MAC: f4:XX:XX:XX:XX:XX
  • User agent for detected incidents: Mozilla/5.0 (iPhone; CPU iPhone OS 11_1_2 like Mac OS X) AppleWebKit/602.2.8 (KHTML, like Gecko) Version/11.0 Mobile/14B55c Safari/602.1

Based on the user agent, the partner derived that the device type was an Apple iPhone.

SecureX analysis

  • legendarytable[.]com à Judgement of Suspicious by alphaMountain.ai
  • drakefollow[.]com à Judgement of Malicious by alphaMountain.ai

Umbrella Investigate analysis

Umbrella Investigate positions both domains as low risk, both registered recently in Poland, and both hosted on the same IP:

Despite the low-risk score, the nameservers have high counts of malicious associated domains:

Targeting users in ASA, UK, and Nigeria:

Meraki analysis

Based on the time of the incident, we can trace the device’s location (based on its IP address). This is thanks to the effort we invested in mapping out the exact location of all Meraki APs, which we deployed across the convention center with an overlay of the event map covering the area of the event:

  • Access Point: APXX
  • Room: Orchid Ballroom XXX
  • Training course at time in location: “Web Hacking Black Belt Edition”

Further analysis and conclusions

The device name (LAPTOP-8MLGXXXXXX) and MAC address seen (f4:XX:XX:XX:XX:XX) both matched across the partner and Meraki, so there was no question that we were analyzing the same device.

Based on the useragent captured by the partner, the device type was an Apple iPhone. However, Meraki was reporting the Device and its OS as “Intel, Android”

A quick look up for the MAC address confirmed that the OUI (organizationally unique identifier) for f42679 was Intel Malaysia, making it unlikely that this was an Apple iPhone.

The description for the training “Web Hacking Black Belt Edition” can be seen here:

https://www.blackhat.com/asia-22/training/schedule/#web-hacking-black-belt-edition–day-25388

It is highly likely that the training content included the use of tools and techniques for spoofing the visibility of useragent or device type.

There is also a high probability that the two domains observed were used as part of the training activity, rather than this being part of a live attack.

It is clear that integrating the various Cisco technologies (Meraki wireless infrastructure, SecureX, Umbrella, Investigate) used in the investigation of this incident, together with the close partnership and collaboration of our NOC partners, positioned us where we needed to be and provided us with the tools we needed to swiftly collect the data, join the dots, make conclusions, and successfully bring the incident to closure.

Self Service with SecureX Orchestration and Slack by Matt Vander Horst

Overview

Since Meraki was a new platform for much of the NOC’s staff, we wanted to make information easier to gather and enable a certain amount of self-service. Since the Black Hat NOC uses Slack for messaging, we decided to create a Slack bot that NOC staff could use to interact with the Meraki infrastructure as well as Palo Alto Panorama using the SecureX Orchestration remote appliance. When users communicate with the bot, webhooks are sent to Cisco SecureX Orchestration to do the work on the back end and send the results back to the user.

Design

Here’s how this integration works:

  1. When a Slack user triggers a ‘/’ “slash command” or other type of interaction, a webhook is sent to SecureX Orchestration. Webhooks trigger orchestration workflows which can do any number of things. In this case, we have two different workflows: one to handle slash commands and another for interactive elements such as forms (more on the workflows later).
  2. Once the workflow is triggered, it makes the necessary API calls to Meraki or Palo Alto Panorama depending on the command issued.
  3. After the workflow is finished, the results are passed back to Slack using either an API request (for slash commands) or webhook (for interactive elements).
  4. The user is presented with the results of their inquiry or the action they requested.

Workflow #1: Handle Slash Commands

Slash commands are a special type of message built into Slack that allow users to interact with a bot. When a Slack user executes a slash command, the command and its arguments are sent to SecureX Orchestration where a workflow handles the command. The table below shows a summary of the slash commands our bot supported for Black Hat Asia 2022:

Here’s a sample of a portion of the SecureX Orchestration workflow that powers the above commands:

And here’s a sample of firewall logs as returned from the “/pan_traffic_history” command:

Workflow #2: Handle Interactivity

A more advanced form of user interaction comes in the form of Slack blocks. Instead of including a command’s arguments in the command itself, you can execute the command and Slack will present you with a form to complete, like this one for the “/update_vlan” command:

These forms are much more user friendly and allow information to be pre-populated for the user. In the example above, the user can simply select the switch to configure from a drop-down list instead of having to enter its name or serial number. When the user submits one of these forms, a webhook is sent to SecureX Orchestration to execute a workflow. The workflow takes the requested action and sends back a confirmation to the user:

Conclusion

While these two workflows only scratched the surface of what can be done with SecureX Orchestration webhooks and Slack, we now have a foundation that can be easily expanded upon going forward. We can add additional commands, new forms of interactivity, and continue to enable NOC staff to get the information they need and take necessary action. The goal of orchestration is to make life simpler, whether it is by automating our interactions with technology or making those interactions easier for the user. 

Future Threat Vectors to Consider – Cloud App Discovery by Alejo Calaoagan

Since 2017 (starting in Black Hat USA – Las Vegas), Cisco Umbrella has provided DNS security to the Black Hat attendee network, added layers of traffic visibility previously not seen. Our efforts have largely been successful, identifying thousands of threats over the years and mitigating them via Umbrella’s blocking capabilities when necessary. This was taken a step further at Black Hat London 2021, where we introduced our Virtual Appliances to provide source IP attribution to the devices making requests.

 

 

Here at Black Hat Asia 2022, we’ve been noodling on additional ways to provide advanced protection for future shows, and it starts with Umbrella’s Cloud Application Discovery’s feature, which identified 2,286 unique applications accessed by users on the attendee network across the four-day conference.  Looking at a snapshot from a single day of the show, Umbrella captured 572,282 DNS requests from all cloud apps, with over 42,000 posing either high or very high risk.

Digging deeper into the data, we see not only the types of apps being accessed…

…but also see the apps themselves…

…and we can flag apps that look suspicious.

We also include risk downs breaks by category…

…and drill downs on each.

While this data alone won’t provide enough information to take action, including this data in analysis, something we have been doing, may provide a window into new threat vectors that may have previously gone unseen. For example, if we identify a compromised device infected with malware or a device attempting to access things on the network that are restricted, we can dig deeper into the types of cloud apps those devices are using and correlate that data with suspicious request activity, potential uncovering tools we should be blocking in the future.

I can’t say for certain how much this extra data set will help us uncover new threats, but, with Black Hat USA just around the corner, we’ll find out soon.

Using SecureX sign-on to streamline access to the Cisco Stack at Black Hat by Adi Sankar

From five years ago to now, Cisco has tremendously expanded our presence at Black Hat to include a multitude of products. Of course, sign-on was simple when it was just one product (Secure Malware Analytics) and one user to log in. When it came time to add a new technology to the stack it was added separately as a standalone product with its own method of logging in. As the number of products increased, so did the number of Cisco staff at the conference to support these products. This means sharing usernames and passwords became tedious and not to mention insecure, especially with 15 Cisco staff, plus partners, accessing the platforms.

The Cisco Secure stack at Black Hat includes SecureX, Umbrella, Malware Analytics, Secure Endpoint (iOS clarity), and Meraki. All of these technologies support using SAML SSO natively with SecureX sign-on. This means that each of our Cisco staff members can have an individual SecureX sign-on account to log into the various consoles. This results in better role-based access control, better audit logging and an overall better login experience. With SecureX sign-on we can log into all the products only having to type a password one time and approve one Cisco DUO Multi-Factor Authentication (MFA) push.

How does this magic work behind the scenes? It’s actually rather simple to configure SSO for each of the Cisco technologies, since they all support SecureX sign-on natively. First and foremost, you must set up a new SecureX org by creating a SecureX sign-on account, creating a new organization and integrating at least one Cisco technology. In this case I created a new SecureX organization for Black Hat and added the Secure Endpoint module, Umbrella Module, Meraki Systems Manager module and the Secure Malware Analytics module. Then from Administration à Users in SecureX, I sent an invite to the Cisco staffers that would be attending the conference, which contained a link to create their account and join the Blackhat SecureX organization. Next let’s take a look at the individual product configurations.

Meraki:

In the Meraki organization settings enable SecureX sign-on. Then under Organization à Administrators add a new user and specify SecureX sign-on as the authentication method. Meraki even lets you limit users to particular networks and set permission levels for those networks. Accepting the email invitation is easy since the user should already be logged into their SecureX sign-on account. Now, logging into Meraki only requires an email address and no password or additional DUO push.

Umbrella:

Under Admin à Authentication configure SecureX sign-on which requires a test login to ensure you can still login before using SSO for authentication to Umbrella. There is no need to configure MFA in Umbrella since SecureX sign-on comes with built in DUO MFA. Existing users and any new users added in Umbrella under Admin à Accounts will now be using SecureX sign-on to login to Umbrella. Logging into Umbrella is now a seamless launch from the SecureX dashboard or from the SecureX ribbon in any of the other consoles.

Secure Malware Analytics:

A Secure Malware Analytics organization admin can create new users in their Threat Grid tenant. This username is unique to Malware Analytics, but it can be connected to a SecureX sign-on account to take advantage of the seamless login flow. From the email invitation the user will create a password for their Malware Analytics user and accept the EULA. Then in the top right under My Malware Analytics Account, the user has an option to connect their SecureX sign-on account which is a one click process if already signed in with SecureX sign-on. Now when a user navigates to Malware Analytics login page, simply clicking “Login with SecureX Sign-On” will grant them access to the console.

 

Secure Endpoint:

The Secure Endpoint deployment at Blackhat is limited to IOS clarity through Meraki Systems Manager for the conference IOS devices. Most of the asset information we need about the iPhones/iPads is brought in through the SecureX Device Insights inventory. However, for initial configuration and to view device trajectory it is required to log into Secure Endpoint. A new Secure Endpoint account can be created under Accounts à Users and an invite is sent to corresponding email address. Accepting the invite is a smooth process since the user is already signed in with SecureX sign-on. Privileges for the user in the Endpoint console can be granted from within the user account.

Conclusion:

To sum it all up, SecureX sign-on is the standard for the Cisco stack moving forward. With a new SecureX organization instantiated using SecureX sign-on any new users to the Cisco stack at Black Hat will be using SecureX sign-on. SecureX sign-on has helped our user management be much more secure as we have expanded our presence at Black Hat. SecureX sign-on provides a unified login mechanism for all the products and modernized our login experience at the conference.

Malware Threat Intelligence made easy and available, with Cisco Secure Malware Analytics and SecureX by Ben Greenbaum

I’d gotten used to people’s reactions upon seeing SecureX in use for the first time. A few times at Black Hat, a small audience gathered just to watch us effortlessly correlate data from multiple threat intelligence repositories and several security sensor networks in just a few clicks in a single interface for rapid sequencing of events and an intuitive understanding of security events, situations, causes, and consequences. You’ve already read about a few of these instances above. Here is just one example of SecureX automatically putting together a chronological history of observed network events detected by products from two vendors (Cisco Umbrella and NetWitness) . The participation of NetWitness in this and all of our other investigations was made possible by our open architecture, available APIs and API specifications, and the creation of the NetWitness module described above.

In addition to the traffic and online activities of hundreds of user devices on the network, we were responsible for monitoring a handful of Black Hat-owned devices as well. Secure X Device Insights made it easy to access information about these assets, either en masse or as required during an ongoing investigation. iOS Clarity for Secure Endpoint and Meraki System Manager both contributed to this useful tool which adds business intelligence and asset context to SecureX’s native event and threat intelligence, for more complete and more actionable security intelligence overall.

SecureX is made possible by dozens of integrations, each bringing their own unique information and capabilities. This time though, for me, the star of the SecureX show was our malware analysis engine, Cisco Secure Malware Analytics (CSMA). Shortly before Black Hat Asia, the CSMA team released a new version of their SecureX module. SecureX can now query CSMA’s database of malware behavior and activity, including all relevant indicators and observables, as an automated part of the regular process of any investigation performed in SecureX Threat Response.

This capability is most useful in two scenarios:

1: determining if suspicious domains, IPs and files reported by any other technology had been observed in the analysis of any of the millions of publicly submitted file samples, or our own.
2: rapidly gathering additional context about files submitted to the analysis engine by the integrated products in the Black Hat NOC.

The first was a significant time saver in several investigations. In the example below, we received an alert about connections to a suspicious domain. In that scenario, our first course of action is to investigate the domain and any other observables reported with it (typically the internal and public IPs included in the alert). Due to the new CSMA module, we immediately discovered that the domain had a history of being contacted by a variety of malware samples, from multiple families, and that information, corroborated by automatically gathered reputation information from multiple sources about each of those files, gave us an immediate next direction to investigate as we hunted for evidence of those files being present in network traffic or of any traffic to other C&C resources known to be used by those families. From the first alert to having a robust, data-driven set of related signals to look for, took only minutes, including from SecureX partner Recorded Future, who donated a full threat intelligence license for the Black Hat NOC.

The other scenario, investigating files submitted for analysis, came up less frequently but when it did, the CSMA/SecureX integration was equally impressive. We could rapidly, nearly immediately, look for evidence of any of our analyzed samples in the environment across all other deployed SecureX-compatible technologies. That evidence was no longer limited to searching for the hash itself, but included any of the network resources or dropped payloads associated with the sample as well, easily identifying local targets who had not perhaps seen the exact variant submitted, but who had nonetheless been in contact with that sample’s Command and Control infrastructure or other related artifacts.

And of course, thanks to the presence of the ribbon in the CSMA UI, we could be even more efficient and do this with multiple samples at once.

SecureX greatly increased the efficiency of our small volunteer team, and certainly made it possible for us to investigate more alerts and events, and hunt for more threats, all more thoroughly, than we would have been able to without it. SecureX truly took this team to the next level, by augmenting and operationalizing the tools and the staff that we had at our disposal.

We look forward to seeing you at Black Hat USA in Las Vegas, 6-11 August 2022!

Acknowledgements: Special thanks to the Cisco Meraki and Cisco Secure Black Hat NOC team: Aditya Sankar, Aldous Yeung, Alejo Calaoagan, Ben Greenbaum, Christian Clasen, Felix H Y Lam, George Dorsey, Humphrey Cheung, Ian Redden, Jeffrey Chua, Jeffry Handal, Jonny Noble, Matt Vander Horst, Paul Fidler and Steven Fan.

Also, to our NOC partners NetWitness (especially David Glover), Palo Alto Networks (especially James Holland), Gigamon, IronNet (especially Bill Swearington), and the entire Black Hat / Informa Tech staff (especially Grifter ‘Neil Wyler’, Bart Stump, James Pope, Steve Fink and Steve Oldenbourg).

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